cbindgen-0.20.0/.cargo_vcs_info.json0000644000000001120000000000100126560ustar { "git": { "sha1": "41506d5aeb2be8d200f52d08afb0c243414eb00d" } } cbindgen-0.20.0/.clippy.toml000064400000000000000000000000750072674642500137610ustar 00000000000000# Specify the minimum supported Rust version msrv = "1.40.0" cbindgen-0.20.0/.gitattributes000064400000000000000000000002470072674642500144020ustar 00000000000000# Running test suite will update test expectations to use LF line endings, # so they need to be checked out using LF as well. * text=auto eol=lf linestyle_crlf* -text cbindgen-0.20.0/.github/workflows/cbindgen.yml000064400000000000000000000036740072674642500174070ustar 00000000000000name: cbindgen on: push: branches: - master pull_request: branches: - master jobs: rustfmt-clippy: runs-on: ubuntu-latest steps: - uses: actions/checkout@v2 - name: Install stable uses: actions-rs/toolchain@v1 with: profile: minimal toolchain: stable override: true components: rustfmt - name: Run rustfmt uses: actions-rs/cargo@v1 with: command: fmt args: -- --check - name: Install clippy uses: dtolnay/rust-toolchain@clippy - name: Run clippy run: | cargo clippy --workspace -- -D warnings - name: Install minimum supported Rust version uses: actions-rs/toolchain@v1 with: profile: minimal toolchain: 1.40.0 - name: Build with minimum supported Rust version run: | cargo +1.40.0 test nonexistent-test --verbose build: runs-on: ubuntu-latest steps: - uses: actions/checkout@v2 - name: Install Rust uses: actions-rs/toolchain@v1 with: profile: minimal toolchain: nightly override: true - name: Install Python uses: actions/setup-python@v2 with: python-version: '3.8.*' - name: Install Cython run: | python -m pip install --upgrade pip wheel pip install Cython==0.29.* - name: Build run: | cargo build --verbose - name: Build no-default-features run: | cargo build --verbose --no-default-features - name: Test env: CBINDGEN_TEST_VERIFY: 1 run: | cargo test --verbose - name: Test package env: CBINDGEN_TEST_VERIFY: 1 run: | cargo package --verbose (cd target/package/cbindgen-$(cargo run -- --version | cut -d ' ' -f 2) && cargo test --verbose) - name: Test minimal-versions run: | cargo update -Zminimal-versions cargo test cbindgen-0.20.0/.github/workflows/deploy.yml000064400000000000000000000023700072674642500171220ustar 00000000000000name: deploy on: push: tags: - 'v*.*.*' jobs: linux-binaries: runs-on: ubuntu-latest steps: - uses: actions/checkout@v2 - name: Install stable uses: actions-rs/toolchain@v1 with: profile: minimal toolchain: stable override: true - name: Build cbindgen run: | cargo build --release - name: Strip cbindgen run: | strip target/release/cbindgen - name: Handle release data and files id: tagName run: | VERSION=$(cargo pkgid | cut -d# -f2 | cut -d: -f2) echo "::set-output name=version::$VERSION" # Steps to extract the last release notes from CHANGES: # 1. Remove the first three lines # 2. Stop at the next heading level # 3. Remove the last line # 4. Deindent the bullet points to avoid a markdown code block tail -n +3 CHANGES | sed '/^##/q' | sed '$ d' | awk '{$1=$1};1' > CHANGES.txt - name: Create a release uses: softprops/action-gh-release@v1 with: name: v${{ steps.tagName.outputs.version }} body_path: CHANGES.txt files: | target/release/cbindgen env: GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }} cbindgen-0.20.0/.gitignore000064400000000000000000000000250072674642500134710ustar 00000000000000target .idea .vscode cbindgen-0.20.0/CHANGES000064400000000000000000000247440072674642500125120ustar 00000000000000## 0.20.0 * Add Builder::with_using_namespaces. (#688) * Ignore PhantomPinned. (#695) * Simplify Pin to T. (#697) * Update --pretty=expanded to -Zunpretty=expanded. (#706) ## 0.19.0 * Simplify types in generics (#663) * Use --profile=check for macro expansion (#671) * Use exported name to prefix enum variants (#672) * Fix path attribute handling in inline submodules (#679) * Fix a stack overflow with some recursive typedefs (#680) ## 0.18.0 * Simplify types in nested types such as pointed-to types and function signatures (#661) ## 0.17.0 * Add with_parse_extra_bindings to builder. (#645) * Support NonZero and fix incorrect simplification of Option into ptr. (#647) * Deal with name conflicts correctly in declaration type resolution. (#651) * Support pointers to ZSTs. (#656) ## 0.16.0 * Remove artificial restriction on lifetime parameters on enums (#604) * Add an option for converting usize/isize into size_t/ptrdiff_t. (#606) * Allow controlling the cargo profile used for expansion. (#607) * Support wider range of expressions in enum discriminants (#614) * Support generation of Cython bindings (#590) * Fixed some issues with style=tag and recursive structs (#615) * Default C style to Both (as specified in docs) (#615) * Fix resolution of path dependencies from certain modules. (#629) * Support inlined definitions for tuple variants with a single field in C (#631) Thanks to all the awesome contributors that contributed to this release. ## 0.15.0 * Allow customizing mangling of generic parameters in C (#575) * Box simplifies to T* in C (4ce324c) * ManuallyDrop and MaybeUninit simplify to T in C, and are opaque in C++ (0076a17) * C++ supports a derive-ostream annotation to derive serialization of structs, unions and enums (#582) * Large character constants have been fixed on Windows (#586) * Constants are now generated for typedefs, etc (#589) * The `sort_by` configuration option has been made to work for constants (#587) * Default sort order is source order now (sort_by = "None"), and can be changed by the above option (#587) ## 0.14.6 * Fixed the builds with older versions of rustc. ## 0.14.5 * Add support to specify line ending style (#568) * Add cbindgen:ptrs-as-arrays annotation to allow making function arguments C/C++ arrays. ## 0.14.4 * Allow to override the mangling separator (#502) * cbindgen now handles better having ZSTs in template parameters, and default template parameters (#563). * Support for annotating nonnull pointers (#558) * Fixed bitflags that overflow a signed integer (#556) * Support for wildcard argument names (#550) * Support for the never return type, with configurable annotation (#549) * Properly reject arrays as function arguments (#540) ## 0.14.3 * Introduce cbindgen:ignore comment annotation, to allow ignoring items or modules. (#519) * Support for casts in constant expressions. (#526) * Make a non-fatal error a warning message. (#535) * Add a --metadata option to the CLI, to allow passing pre-computed cargo metadata. (#538) ## 0.14.2 * Fixed minimal dependency versions. (#507) * Add an option to write pragma once. (#511) * Fix submodule scanning for implicit Rust 2018 modules. (#512) * Fix dependency parsing / scanning to handle target-specific versions. (#513) * Use heck for case conversion. (#514) * Add support for verbatim content after includes. (#416) * Allow to add attributes to most generated functions. (#515) ## 0.14.1 * Handle mangling pointers. (#508) * Unconditionally generate a return statement in partialeq implementations. (#509) ## 0.14.0 * Minor tweak at how [export.exclude] is handled to allow excluding generic instantiations in C mode. (#501) * Documented cpp_compat option. (#496) * Fixed a panic when parsing associated constants for a built-in type. (#494) ## 0.13.2 * Constants now have suitable documentation. (#471) * Fixed some C warnings by emitting void when there are no arguments. (#470) * Avoids reading cargo.toml when not needed, which can cause panics in workspace situations. * Only write `default` cases if the switch is not exhaustive. (#475) * Some warnings have been refined. (#477) * Code generation for static arrays has been fixed. (#479) * Opt-in support for constexpr in constants. (#481) * Fix C code generation and some warnings when extremely large constants are used. (#490) * Proper escaping of enum variants and fields. (#483) * Added support for RefCell (as an opaque type) and Cell. (#489) ## 0.13.1 * Support `#[cfg]` on individual enum variants. (#469) ## 0.13.0 * Support 'swift_name' attributes on generated functions (#449) * Add [export.pre_body] to config (#452) * Handle new line in doc attribute (#454) * Add support for `Self` in tagged enums, structs and unions (#455, #455, #456) * Make sentinel variant respect regular config (#459) * Fix layout of tagged enums with size under some configurations (#463) * Add an option to allow configuring the order of function names in generated headers (#466) ## 0.12.2 * Fixed version detection with lockfile v2. https://github.com/eqrion/cbindgen/pull/446 * Added support for export_name on functions. https://github.com/eqrion/cbindgen/pull/447 ## 0.12.1 * Added support for #[repr*64)] on enums. https://github.com/eqrion/cbindgen/pull/441 * Added support to generate plain enums instead of enum classes for C++. https://github.com/eqrion/cbindgen/pull/443 * Fixed dependency resolution with lockfile v2. https://github.com/eqrion/cbindgen/pull/438 ## 0.12.0 * Added support for #[repr(align)] and #[repr(packed)] on structs and unions. https://github.com/eqrion/cbindgen/pull/431 * Added support to generate copy-assignment operators for enums. https://github.com/eqrion/cbindgen/pull/434 ## 0.11.1 * More binary operators and expressions are supported. https://github.com/eqrion/cbindgen/pull/425 * More built-in bitflags operators. https://github.com/eqrion/cbindgen/pull/426 ## 0.11.0 * Made rust char map to uint32_t. https://github.com/eqrion/cbindgen/pull/424 ## 0.10.1 * Improved error message for missing config file. https://github.com/eqrion/cbindgen/pull/422 * Add missing header for char32_t. https://github.com/eqrion/cbindgen/pull/414 ## 0.10.0 * Initialize struct literal with list-initializer for C++11 standard. https://github.com/eqrion/cbindgen/pull/401 * Surround namespace with __cplusplus ifdef in cpp_compat mode. https://github.com/eqrion/cbindgen/pull/407 * Add support for --quiet flag. https://github.com/eqrion/cbindgen/pull/400 * Map char to char32_t. https://github.com/eqrion/cbindgen/pull/396 * Improve binding_crate_ref() error message. https://github.com/eqrion/cbindgen/pull/395 * avoid prematurely returning during expansion. https://github.com/eqrion/cbindgen/pull/389 * Add support for adding "using namespace" statements. https://github.com/eqrion/cbindgen/pull/387 ## 0.9.1 * Various improvements to comment output. https://github.com/eqrion/cbindgen/pull/370 / https://github.com/eqrion/cbindgen/pull/375. * Fixed expand when ran from build.rs. https://github.com/eqrion/cbindgen/pull/371 * More debugging output for expansion. https://github.com/eqrion/cbindgen/pull/383 * New option to add a default private constructor in C++ tagged enums. https://github.com/eqrion/cbindgen/pull/377 * Syn and related dependencies updated to 1.0. https://github.com/eqrion/cbindgen/pull/379 ## 0.9.0 * Support to generate C headers with C++ compatibility. https://github.com/eqrion/cbindgen/pull/349 * Fix include guard generation when no_includes is set. https://github.com/eqrion/cbindgen/pull/352 * Fix crate parsing order so that types from the binding crate are preferred in presence of conflicting names. https://github.com/eqrion/cbindgen/pull/355 * Add extra_bindings option to generate bindings for dependencies. https://github.com/eqrion/cbindgen/pull/362 * Clap dependency is optional now so it's feasible to avoid building it if cbindgen is used as a library. https://github.com/eqrion/cbindgen/pull/363 ## 0.8.7 * Require C++11 to run the test-suite (#341, test-only) * Improve mangling error message (#340) * Add the ability to automatically derive copy-constructors for tagged enums (#339) * Use placement new for constructing in tagged unions' helper methods (#333) ## 0.8.6 * Fixed a panic when missing a lock file ## 0.8.5 * Improved support for Rust 2018 modules * Add possibility to autogenerate tagged union destructors ## 0.8.4 * Support for package renaming in Cargo.toml * Improved error messages for |cargo metadata| failures 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crates to the registry Cargo will automatically # "normalize" Cargo.toml files for maximal compatibility # with all versions of Cargo and also rewrite `path` dependencies # to registry (e.g., crates.io) dependencies. # # If you are reading this file be aware that the original Cargo.toml # will likely look very different (and much more reasonable). # See Cargo.toml.orig for the original contents. [package] edition = "2018" name = "cbindgen" version = "0.20.0" authors = ["Emilio Cobos Álvarez ", "Jeff Muizelaar ", "Kartikaya Gupta ", "Ryan Hunt "] exclude = ["tests/profile.rs"] description = "A tool for generating C bindings to Rust code." keywords = ["bindings", "ffi", "code-generation"] categories = ["external-ffi-bindings", "development-tools::ffi"] license = "MPL-2.0" repository = "https://github.com/eqrion/cbindgen/" [lib] name = "cbindgen" path = "src/lib.rs" [[bin]] name = "cbindgen" path = "src/main.rs" doc = false required-features = ["clap"] [dependencies.clap] version = "2" optional = true [dependencies.heck] version = "0.3" [dependencies.indexmap] version = "1" [dependencies.log] version = "0.4" [dependencies.proc-macro2] version = "1" [dependencies.quote] version = "1" [dependencies.serde] version = "1.0.103" features = ["derive"] default-features = false [dependencies.serde_json] version = "1.0" [dependencies.syn] version = "1.0.3" features = ["clone-impls", "extra-traits", "full", "parsing", "printing"] default-features = false [dependencies.tempfile] version = "3.0" [dependencies.toml] version = "0.5" [dev-dependencies.serial_test] version = "0.5.0" [features] default = ["clap"] [badges.travis-ci] repository = "eqrion/cbindgen" cbindgen-0.20.0/Cargo.toml.orig0000644000000023630000000000100116250ustar [package] name = "cbindgen" version = "0.20.0" authors = [ "Emilio Cobos Álvarez ", "Jeff Muizelaar ", "Kartikaya Gupta ", "Ryan Hunt " ] license = "MPL-2.0" description = "A tool for generating C bindings to Rust code." keywords = ["bindings", "ffi", "code-generation"] categories = ["external-ffi-bindings", "development-tools::ffi"] repository = "https://github.com/eqrion/cbindgen/" edition = "2018" exclude = [ "tests/profile.rs", # Test relies in a sub-crate, see https://github.com/rust-lang/cargo/issues/9017 ] [badges] travis-ci = { repository = "eqrion/cbindgen" } [dependencies] clap = { version = "2", optional = true } indexmap = "1" log = "0.4" serde = { version = "1.0.103", default-features = false, features = ["derive"]} serde_json = "1.0" tempfile = "3.0" toml = "0.5" proc-macro2 = "1" quote = "1" heck = "0.3" [dependencies.syn] version = "1.0.3" default-features = false features = ["clone-impls", "extra-traits", "full", "parsing", "printing"] [dev-dependencies] serial_test = "0.5.0" [features] default = ["clap"] [[bin]] name = "cbindgen" path = "src/main.rs" doc = false required-features = ["clap"] [lib] name = "cbindgen" path = "src/lib.rs" cbindgen-0.20.0/Cargo.toml.orig000064400000000000000000000023630072674642500143770ustar 00000000000000[package] name = "cbindgen" version = "0.20.0" authors = [ "Emilio Cobos Álvarez ", "Jeff Muizelaar ", "Kartikaya Gupta ", "Ryan Hunt " ] license = "MPL-2.0" description = "A tool for generating C bindings to Rust code." keywords = ["bindings", "ffi", "code-generation"] categories = ["external-ffi-bindings", "development-tools::ffi"] repository = "https://github.com/eqrion/cbindgen/" edition = "2018" exclude = [ "tests/profile.rs", # Test relies in a sub-crate, see https://github.com/rust-lang/cargo/issues/9017 ] [badges] travis-ci = { repository = "eqrion/cbindgen" } [dependencies] clap = { version = "2", optional = true } indexmap = "1" log = "0.4" serde = { version = "1.0.103", default-features = false, features = ["derive"]} serde_json = "1.0" tempfile = "3.0" toml = "0.5" proc-macro2 = "1" quote = "1" heck = "0.3" [dependencies.syn] version = "1.0.3" default-features = false features = ["clone-impls", "extra-traits", "full", "parsing", "printing"] [dev-dependencies] serial_test = "0.5.0" [features] default = ["clap"] [[bin]] name = "cbindgen" path = "src/main.rs" doc = false required-features = ["clap"] [lib] name = "cbindgen" path = "src/lib.rs" cbindgen-0.20.0/LICENSE000064400000000000000000000405250072674642500125170ustar 00000000000000Mozilla Public License Version 2.0 ================================== 1. Definitions -------------- 1.1. "Contributor" means each individual or legal entity that creates, contributes to the creation of, or owns Covered Software. 1.2. "Contributor Version" means the combination of the Contributions of others (if any) used by a Contributor and that particular Contributor's Contribution. 1.3. "Contribution" means Covered Software of a particular Contributor. 1.4. "Covered Software" means Source Code Form to which the initial Contributor has attached the notice in Exhibit A, the Executable Form of such Source Code Form, and Modifications of such Source Code Form, in each case including portions thereof. 1.5. "Incompatible With Secondary Licenses" means (a) that the initial Contributor has attached the notice described in Exhibit B to the Covered Software; or (b) that the Covered Software was made available under the terms of version 1.1 or earlier of the License, but not also under the terms of a Secondary License. 1.6. "Executable Form" means any form of the work other than Source Code Form. 1.7. "Larger Work" means a work that combines Covered Software with other material, in a separate file or files, that is not Covered Software. 1.8. "License" means this document. 1.9. "Licensable" means having the right to grant, to the maximum extent possible, whether at the time of the initial grant or subsequently, any and all of the rights conveyed by this License. 1.10. "Modifications" means any of the following: (a) any file in Source Code Form that results from an addition to, deletion from, or modification of the contents of Covered Software; or (b) any new file in Source Code Form that contains any Covered Software. 1.11. "Patent Claims" of a Contributor means any patent claim(s), including without limitation, method, process, and apparatus claims, in any patent Licensable by such Contributor that would be infringed, but for the grant of the License, by the making, using, selling, offering for sale, having made, import, or transfer of either its Contributions or its Contributor Version. 1.12. "Secondary License" means either the GNU General Public License, Version 2.0, the GNU Lesser General Public License, Version 2.1, the GNU Affero General Public License, Version 3.0, or any later versions of those licenses. 1.13. "Source Code Form" means the form of the work preferred for making modifications. 1.14. "You" (or "Your") means an individual or a legal entity exercising rights under this License. For legal entities, "You" includes any entity that controls, is controlled by, or is under common control with You. For purposes of this definition, "control" means (a) the power, direct or indirect, to cause the direction or management of such entity, whether by contract or otherwise, or (b) ownership of more than fifty percent (50%) of the outstanding shares or beneficial ownership of such entity. 2. License Grants and Conditions -------------------------------- 2.1. Grants Each Contributor hereby grants You a world-wide, royalty-free, non-exclusive license: (a) under intellectual property rights (other than patent or trademark) Licensable by such Contributor to use, reproduce, make available, modify, display, perform, distribute, and otherwise exploit its Contributions, either on an unmodified basis, with Modifications, or as part of a Larger Work; and (b) under Patent Claims of such Contributor to make, use, sell, offer for sale, have made, import, and otherwise transfer either its Contributions or its Contributor Version. 2.2. Effective Date The licenses granted in Section 2.1 with respect to any Contribution become effective for each Contribution on the date the Contributor first distributes such Contribution. 2.3. Limitations on Grant Scope The licenses granted in this Section 2 are the only rights granted under this License. No additional rights or licenses will be implied from the distribution or licensing of Covered Software under this License. Notwithstanding Section 2.1(b) above, no patent license is granted by a Contributor: (a) for any code that a Contributor has removed from Covered Software; or (b) for infringements caused by: (i) Your and any other third party's modifications of Covered Software, or (ii) the combination of its Contributions with other software (except as part of its Contributor Version); or (c) under Patent Claims infringed by Covered Software in the absence of its Contributions. This License does not grant any rights in the trademarks, service marks, or logos of any Contributor (except as may be necessary to comply with the notice requirements in Section 3.4). 2.4. Subsequent Licenses No Contributor makes additional grants as a result of Your choice to distribute the Covered Software under a subsequent version of this License (see Section 10.2) or under the terms of a Secondary License (if permitted under the terms of Section 3.3). 2.5. Representation Each Contributor represents that the Contributor believes its Contributions are its original creation(s) or it has sufficient rights to grant the rights to its Contributions conveyed by this License. 2.6. Fair Use This License is not intended to limit any rights You have under applicable copyright doctrines of fair use, fair dealing, or other equivalents. 2.7. Conditions Sections 3.1, 3.2, 3.3, and 3.4 are conditions of the licenses granted in Section 2.1. 3. Responsibilities ------------------- 3.1. Distribution of Source Form All distribution of Covered Software in Source Code Form, including any Modifications that You create or to which You contribute, must be under the terms of this License. You must inform recipients that the Source Code Form of the Covered Software is governed by the terms of this License, and how they can obtain a copy of this License. You may not attempt to alter or restrict the recipients' rights in the Source Code Form. 3.2. Distribution of Executable Form If You distribute Covered Software in Executable Form then: (a) such Covered Software must also be made available in Source Code Form, as described in Section 3.1, and You must inform recipients of the Executable Form how they can obtain a copy of such Source Code Form by reasonable means in a timely manner, at a charge no more than the cost of distribution to the recipient; and (b) You may distribute such Executable Form under the terms of this License, or sublicense it under different terms, provided that the license for the Executable Form does not attempt to limit or alter the recipients' rights in the Source Code Form under this License. 3.3. Distribution of a Larger Work You may create and distribute a Larger Work under terms of Your choice, provided that You also comply with the requirements of this License for the Covered Software. If the Larger Work is a combination of Covered Software with a work governed by one or more Secondary Licenses, and the Covered Software is not Incompatible With Secondary Licenses, this License permits You to additionally distribute such Covered Software under the terms of such Secondary License(s), so that the recipient of the Larger Work may, at their option, further distribute the Covered Software under the terms of either this License or such Secondary License(s). 3.4. Notices You may not remove or alter the substance of any license notices (including copyright notices, patent notices, disclaimers of warranty, or limitations of liability) contained within the Source Code Form of the Covered Software, except that You may alter any license notices to the extent required to remedy known factual inaccuracies. 3.5. Application of Additional Terms You may choose to offer, and to charge a fee for, warranty, support, indemnity or liability obligations to one or more recipients of Covered Software. However, You may do so only on Your own behalf, and not on behalf of any Contributor. You must make it absolutely clear that any such warranty, support, indemnity, or liability obligation is offered by You alone, and You hereby agree to indemnify every Contributor for any liability incurred by such Contributor as a result of warranty, support, indemnity or liability terms You offer. You may include additional disclaimers of warranty and limitations of liability specific to any jurisdiction. 4. Inability to Comply Due to Statute or Regulation --------------------------------------------------- If it is impossible for You to comply with any of the terms of this License with respect to some or all of the Covered Software due to statute, judicial order, or regulation then You must: (a) comply with the terms of this License to the maximum extent possible; and (b) describe the limitations and the code they affect. Such description must be placed in a text file included with all distributions of the Covered Software under this License. Except to the extent prohibited by statute or regulation, such description must be sufficiently detailed for a recipient of ordinary skill to be able to understand it. 5. Termination -------------- 5.1. The rights granted under this License will terminate automatically if You fail to comply with any of its terms. However, if You become compliant, then the rights granted under this License from a particular Contributor are reinstated (a) provisionally, unless and until such Contributor explicitly and finally terminates Your grants, and (b) on an ongoing basis, if such Contributor fails to notify You of the non-compliance by some reasonable means prior to 60 days after You have come back into compliance. Moreover, Your grants from a particular Contributor are reinstated on an ongoing basis if such Contributor notifies You of the non-compliance by some reasonable means, this is the first time You have received notice of non-compliance with this License from such Contributor, and You become compliant prior to 30 days after Your receipt of the notice. 5.2. If You initiate litigation against any entity by asserting a patent infringement claim (excluding declaratory judgment actions, counter-claims, and cross-claims) alleging that a Contributor Version directly or indirectly infringes any patent, then the rights granted to You by any and all Contributors for the Covered Software under Section 2.1 of this License shall terminate. 5.3. In the event of termination under Sections 5.1 or 5.2 above, all end user license agreements (excluding distributors and resellers) which have been validly granted by You or Your distributors under this License prior to termination shall survive termination. ************************************************************************ * * * 6. Disclaimer of Warranty * * ------------------------- * * * * Covered Software is provided under this License on an "as is" * * basis, without warranty of any kind, either expressed, implied, or * * statutory, including, without limitation, warranties that the * * Covered Software is free of defects, merchantable, fit for a * * particular purpose or non-infringing. The entire risk as to the * * quality and performance of the Covered Software is with You. * * Should any Covered Software prove defective in any respect, You * * (not any Contributor) assume the cost of any necessary servicing, * * repair, or correction. This disclaimer of warranty constitutes an * * essential part of this License. No use of any Covered Software is * * authorized under this License except under this disclaimer. * * * ************************************************************************ ************************************************************************ * * * 7. Limitation of Liability * * -------------------------- * * * * Under no circumstances and under no legal theory, whether tort * * (including negligence), contract, or otherwise, shall any * * Contributor, or anyone who distributes Covered Software as * * permitted above, be liable to You for any direct, indirect, * * special, incidental, or consequential damages of any character * * including, without limitation, damages for lost profits, loss of * * goodwill, work stoppage, computer failure or malfunction, or any * * and all other commercial damages or losses, even if such party * * shall have been informed of the possibility of such damages. This * * limitation of liability shall not apply to liability for death or * * personal injury resulting from such party's negligence to the * * extent applicable law prohibits such limitation. Some * * jurisdictions do not allow the exclusion or limitation of * * incidental or consequential damages, so this exclusion and * * limitation may not apply to You. * * * ************************************************************************ 8. Litigation ------------- Any litigation relating to this License may be brought only in the courts of a jurisdiction where the defendant maintains its principal place of business and such litigation shall be governed by laws of that jurisdiction, without reference to its conflict-of-law provisions. Nothing in this Section shall prevent a party's ability to bring cross-claims or counter-claims. 9. Miscellaneous ---------------- This License represents the complete agreement concerning the subject matter hereof. If any provision of this License is held to be unenforceable, such provision shall be reformed only to the extent necessary to make it enforceable. Any law or regulation which provides that the language of a contract shall be construed against the drafter shall not be used to construe this License against a Contributor. 10. Versions of the License --------------------------- 10.1. New Versions Mozilla Foundation is the license steward. Except as provided in Section 10.3, no one other than the license steward has the right to modify or publish new versions of this License. Each version will be given a distinguishing version number. 10.2. Effect of New Versions You may distribute the Covered Software under the terms of the version of the License under which You originally received the Covered Software, or under the terms of any subsequent version published by the license steward. 10.3. Modified Versions If you create software not governed by this License, and you want to create a new license for such software, you may create and use a modified version of this License if you rename the license and remove any references to the name of the license steward (except to note that such modified license differs from this License). 10.4. Distributing Source Code Form that is Incompatible With Secondary Licenses If You choose to distribute Source Code Form that is Incompatible With Secondary Licenses under the terms of this version of the License, the notice described in Exhibit B of this License must be attached. Exhibit A - Source Code Form License Notice ------------------------------------------- This Source Code Form is subject to the terms of the Mozilla Public License, v. 2.0. If a copy of the MPL was not distributed with this file, You can obtain one at http://mozilla.org/MPL/2.0/. If it is not possible or desirable to put the notice in a particular file, then You may include the notice in a location (such as a LICENSE file in a relevant directory) where a recipient would be likely to look for such a notice. You may add additional accurate notices of copyright ownership. Exhibit B - "Incompatible With Secondary Licenses" Notice --------------------------------------------------------- This Source Code Form is "Incompatible With Secondary Licenses", as defined by the Mozilla Public License, v. 2.0. cbindgen-0.20.0/README.md000064400000000000000000000101440072674642500127630ustar 00000000000000# `cbindgen`   [![Build Status]][actions] [![Latest Version]][crates.io] [![Api Rustdoc]][rustdoc] [![Rust](https://img.shields.io/badge/rust-1.32%2B-blue.svg?maxAge=3600)](https://github.com/eqrion/cbindgen) [Build Status]: https://github.com/eqrion/cbindgen/workflows/cbindgen/badge.svg [actions]: https://github.com/eqrion/cbindgen/actions [Latest Version]: https://img.shields.io/crates/v/cbindgen.svg [crates.io]: https://crates.io/crates/cbindgen [Api Rustdoc]: https://img.shields.io/badge/api-rustdoc-blue.svg [rustdoc]: https://docs.rs/cbindgen [Read the full user docs here!](docs.md) cbindgen creates C/C++11 headers for Rust libraries which expose a public C API. While you could do this by hand, it's not a particularly good use of your time. It's also much more likely to be error-prone than machine-generated headers that are based on your actual Rust code. The cbindgen developers have also worked closely with the developers of Rust to ensure that the headers we generate reflect actual guarantees about Rust's type layout and ABI. C++ headers are nice because we can use operator overloads, constructors, enum classes, and templates to make the API more ergonomic and Rust-like. C headers are nice because you can be more confident that whoever you're interoperating with can handle them. With cbindgen *you don't need to choose*! You can just tell it to emit both from the same Rust library. There are two ways to use cbindgen: as a standalone program, or as a library (presumably in your build.rs). There isn't really much practical difference, because cbindgen is a simple rust library with no interesting dependencies. Using it as a program means people building your software will need it installed. Using it in your library means people may have to build cbindgen more frequently (e.g. every time they update their rust compiler). It's worth noting that the development of cbindgen has been largely adhoc, as features have been added to support the usecases of the maintainers. This means cbindgen may randomly fail to support some particular situation simply because no one has put in the effort to handle it yet. [Please file an issue if you run into such a situation](https://github.com/eqrion/cbindgen/issues/new). Although since we all have other jobs, you might need to do the implementation work too :) # Quick Start To install cbindgen, you just need to run ```text cargo install --force cbindgen ``` (--force just makes it update to the latest cbindgen if it's already installed) To use cbindgen you need two things: * A configuration (cbindgen.toml, which can be empty to start) * A Rust crate with a public C API Then all you need to do is run it: ```text cbindgen --config cbindgen.toml --crate my_rust_library --output my_header.h ``` This produces a header file for C++. For C, add the `--lang c` switch. See `cbindgen --help` for more options. [Read the full user docs here!](docs.md) [Get a template cbindgen.toml here.](template.toml) # Examples We don't currently have a nice tailored example application, but [the tests](tests/rust/) contain plenty of interesting examples of our features. You may also find it interesting to browse the projects that are using cbindgen in production: * [milksnake](https://github.com/getsentry/milksnake) * [webrender](https://searchfox.org/mozilla-central/source/gfx/webrender_bindings) ([generated header](https://searchfox.org/mozilla-central/source/__GENERATED__/gfx/webrender_bindings/webrender_ffi_generated.h)) * [stylo](https://searchfox.org/mozilla-central/source/layout/style) ([generated header](https://searchfox.org/mozilla-central/source/__GENERATED__/layout/style/ServoStyleConsts.h)) * [wgpu-native](https://github.com/gfx-rs/wgpu-native) ([generated header](https://github.com/gfx-rs/wgpu-native/blob/master/ffi/wgpu.h)) * [etesync-rs](https://github.com/etesync/etesync-rs) If you're using `cbindgen` and would like to be added to this list, please open a pull request! # Releases cbindgen doesn't have a fixed release calendar, please file an issue requesting a release if there's something fixed in trunk that you need released. Ping `@emilio` for increased effect. cbindgen-0.20.0/build.rs000064400000000000000000000036120072674642500131530ustar 00000000000000fn generate_tests() { use std::env; use std::ffi::OsStr; use std::fs::{self, File}; use std::io::Write; use std::path::{Path, PathBuf}; let out_dir = PathBuf::from(env::var("OUT_DIR").unwrap()); let mut dst = File::create(Path::new(&out_dir).join("tests.rs")).unwrap(); let manifest_dir = PathBuf::from(env::var("CARGO_MANIFEST_DIR").unwrap()); let tests_dir = manifest_dir.join("tests").join("rust"); let tests = fs::read_dir(&tests_dir).unwrap(); let entries = tests.map(|t| t.expect("Couldn't read test file")); println!("cargo:rerun-if-changed={}", tests_dir.display()); // Try to make a decent guess at where our binary will end up in. // // TODO(emilio): Ideally running tests will just use the library-version of // cbindgen instead of the built binary. let cbindgen_path = out_dir .parent() .unwrap() .parent() .unwrap() .parent() .unwrap() .join("cbindgen"); for entry in entries { let path_segment = if entry.file_type().unwrap().is_file() { match entry.path().extension().and_then(OsStr::to_str) { Some("rs") => {} _ => continue, }; entry .path() .file_stem() .unwrap() .to_str() .unwrap() .to_owned() } else { entry.file_name().to_str().unwrap().to_owned() }; let identifier = path_segment .replace(|c| !char::is_alphanumeric(c), "_") .replace("__", "_"); writeln!( dst, "test_file!({:?}, test_{}, {:?}, {:?});", cbindgen_path, identifier, path_segment, entry.path(), ) .unwrap(); } dst.flush().unwrap(); } fn main() { generate_tests(); } cbindgen-0.20.0/contributing.md000064400000000000000000000026500072674642500145400ustar 00000000000000# Contributing Thanks for wanting to contribute! If you want help or mentorship, please file a Github issue and I'll be sure to provide guidance to the best of my ability. Otherwise be sure to check out `internals.md` for an overview on the internals. ## Filing a pull request Check out [Servo's Github workflow](https://github.com/servo/servo/wiki/Github-workflow) for an overview on creating a pull request. Don't worry about requesting code review, as there is nothing formally setup for this repository. I try and review each pull request as soon as I can. There is continuous integration setup for `cbindgen` using [travis](https://travis-ci.org/). It automatically runs `cargo test` which runs `cbindgen` against a series of rust files from `tests/rust/` and checks that the output compiles using `gcc` or `g++`. In addition to a C/C++ compiler `cargo test` requires Python and Cython (`python -m pip install Cython`) for checking Cython bindings generated from tests (`.pyx` files). Please run `cargo test` before filing a pull request to be sure that all tests pass. This will also update the test expectations. Rustfmt is also enforced by travis. To format your code install `rustfmt-preview` using `rustup component add rustfmt-preview` and then `cargo fmt`. Travis runs with rust nightly, so use `rustup run nightly -- cargo fmt` to guarantee consistent results. Writing new tests with your pull requests is also appreciated. cbindgen-0.20.0/docs.md000064400000000000000000001052330072674642500127620ustar 00000000000000# cbindgen User Guide cbindgen creates C/C++11 headers for Rust libraries which expose a public C API. While you could do this by hand, it's not a particularly good use of your time. It's also much more likely to be error-prone than machine-generated headers that are based on your actual Rust code. The cbindgen developers have also worked closely with the developers of Rust to ensure that the headers we generate reflect actual guarantees about Rust's type layout and ABI. C++ headers are nice because we can use operator overloads, constructors, enum classes, and templates to make the API more ergonomic and Rust-like. C headers are nice because you can be more confident that whoever you're interoperating with can handle them. With cbindgen *you don't need to choose*! You can just tell it to emit both from the same Rust library. There are two ways to use cbindgen: as a standalone program, or as a library (presumably in your build.rs). There isn't really much practical difference, because cbindgen is a simple rust library with no interesting dependencies. Using it as a program means people building your software will need it installed. Using it in your library means people may have to build cbindgen more frequently (e.g. every time they update their rust compiler). It's worth noting that the development of cbindgen has been largely adhoc, as features have been added to support the usecases of the maintainers. This means cbindgen may randomly fail to support some particular situation simply because no one has put in the effort to handle it yet. [Please file an issue if you run into such a situation][file-it]. Although since we all have other jobs, you might need to do the implementation work too :) # Quick Start To install cbindgen, you just need to run ```text cargo install --force cbindgen ``` (--force just makes it update to the latest cbindgen if it's already installed) To use cbindgen you need two things: * A configuration (cbindgen.toml, which can be empty to start) * A Rust crate with a public C API Then all you need to do is run it: ```text cbindgen --config cbindgen.toml --crate my_rust_library --output my_header.h ``` This produces a header file for C++. For C, add the `--lang c` switch. \ `cbindgen` also supports generation of [Cython](https://cython.org) bindings, use `--lang cython` for that. See `cbindgen --help` for more options. [Get a template cbindgen.toml here.](template.toml) ## build.rs If you don't want to use cbindgen as an application, here's an example build.rs script: ```rust extern crate cbindgen; use std::env; fn main() { let crate_dir = env::var("CARGO_MANIFEST_DIR").unwrap(); cbindgen::Builder::new() .with_crate(crate_dir) .generate() .expect("Unable to generate bindings") .write_to_file("bindings.h"); } ``` You can add configuration options using the [`Builder`](https://docs.rs/cbindgen/*/cbindgen/struct.Builder.html#methods) interface. If you'd like to use a `build.rs` script with a `cbindgen.toml`, consider using [`cbindgen::generate()`](https://docs.rs/cbindgen/*/cbindgen/fn.generate.html) instead. # Writing Your C API cbindgen has a simple but effective strategy. It walks through your crate looking for: * `#[no_mangle] pub extern fn` ("functions") * `#[no_mangle] pub static` ("globals") * `pub const` ("constants") and generates a header declaring those items. But to declare those items, it needs to also be able to describe the layout and ABI of the types that appear in their signatures. So it will also spider through your crate (and optionally its dependencies) to try to find the definitions of every type used in your public API. > 🚨 NOTE: A major limitation of cbindgen is that it does not understand Rust's module system or namespacing. This means that if cbindgen sees that it needs the definition for `MyType` and there exists two things in your project with the type name `MyType`, it won't know what to do. Currently, cbindgen's behaviour is unspecified if this happens. However this may be ok if they have [different cfgs][section-cfgs]. If a type is determined to have a guaranteed layout, a full definition will be emitted in the header. If the type doesn't have a guaranteed layout, only a forward declaration will be emitted. This may be fine if the type is intended to be passed around opaquely and by reference. # Examples 🚧 🏗 It would be really nice to have some curated and clean examples, but we don't have those yet. [The README has some useful links though](README.md#examples). # Supported Types Most things in Rust don't have a guaranteed layout by default. In most cases this is nice because it enables layout to be optimized in the majority of cases where type layout isn't that interesting. However this is problematic for our purposes. Thankfully Rust lets us opt into guaranteed layouts with the `repr` attribute. You can learn about all of the different repr attributes [by reading Rust's reference][reference], but here's a quick summary: * `#[repr(C)]`: give this struct/union/enum the same layout and ABI C would * `#[repr(u8, u16, ... etc)]`: give this enum the same layout and ABI as the given integer type * `#[repr(transparent)]`: give this single-field struct the same ABI as its field (useful for newtyping integers but keeping the integer ABI) cbindgen supports the `#[repr(align(N))]` and `#[repr(packed)]` attributes, but currently does not support `#[repr(packed(N))]`. cbindgen also supports using `repr(C)`/`repr(u8)` on non-C-like enums (enums with fields). This gives a C-compatible tagged union layout, as [defined by this RFC 2195][really-tagged-unions]. `repr(C)` will give a simpler layout that is perhaps more intuitive, while `repr(u8)` will produce a more compact layout. If you ensure everything has a guaranteed repr, then cbindgen will generate definitions for: * struct (named-style or tuple-style) * enum (fieldless or with fields) * union * type * `[T; n]` (arrays always have a guaranteed C-compatible layout) * `&T`, `&mut T`, `*const T`, `*mut T`, `Option<&T>`, `Option<&mut T>` (all have the same pointer ABI) * `fn()` (as an actual function pointer) * `bitflags! { ... }` (if macro_expansion.bitflags is enabled) structs, enums, unions, and type aliases may be generic, although certain generic substitutions may fail to resolve under certain configurations. In C mode generics are resolved through monomorphization and mangling, while in C++ mode generics are resolved with templates. cbindgen cannot support generic functions, as they do not actually have a single defined symbol. cbindgen sadly cannot ever support anonymous tuples `(A, B, ...)`, as there is no way to guarantee their layout. You must use a tuple struct. cbindgen also cannot support wide pointers like `&dyn Trait` or `&[T]`, as their layout and ABI is not guaranteed. In the case of slices you can at least decompose them into a pointer and length, and reconstruct them with `slice::from_raw_parts`. If cbindgen determines that a type is zero-sized, it will erase all references to that type (so fields of that type simply won't be emitted). This won't work if that type appears as a function argument because C, C++, and Rust all have different definitions of what it means for a type to be empty. Don't use the `[u64; 0]` trick to over-align a struct, we don't support this. cbindgen contains the following hardcoded mappings (again completely ignoring namespacing, literally just looking at the name of the type): ## std types * bool => bool * char => uint32_t * u8 => uint8_t * u16 => uint16_t * u32 => uint32_t * u64 => uint64_t * usize => uintptr_t * i8 => int8_t * i16 => int16_t * i32 => int32_t * i64 => int64_t * isize => intptr_t * f32 => float * f64 => double * VaList => va_list * PhantomData => *evaporates*, can only appear as the field of a type * PhantomPinned => *evaporates*, can only appear as the field of a type * () => *evaporates*, can only appear as the field of a type * MaybeUninit, ManuallyDrop, and Pin => T ## libc types * c_void => void * c_char => char * c_schar => signed char * c_uchar => unsigned char * c_float => float * c_double => double * c_short => short * c_int => int * c_long => long * c_longlong => long long * c_ushort => unsigned short * c_uint => unsigned int * c_ulong => unsigned long * c_ulonglong => unsigned long long ## stdint types * uint8_t => uint8_t * uint16_t => uint16_t * uint32_t => uint32_t * uint64_t => uint64_t * uintptr_t => uintptr_t * size_t => size_t * int8_t => int8_t * int16_t => int16_t * int32_t => int32_t * int64_t => int64_t * intptr_t => intptr_t * ssize_t => ssize_t * ptrdiff_t => ptrdiff_t # Configuring Your Header cbindgen supports several different options for configuring the output of your header, including target language, styling, mangling, prefixing, includes, and defines. ## Defines and Cfgs As cbindgen spiders through your crate, it will make note of all the cfgs it found on the path to every item. If it finds multiple declarations that share a single name but have different cfgs, it will then try to emit every version it found wrapped in defines that correspond to those cfgs. In this way platform-specific APIs or representations can be properly supported. However cbindgen has no way of knowing how you want to map those cfgs to defines. You will need to use the `[defines]` section in your cbindgen.toml to specify all the different mappings. It natively understands concepts like any() and all(), so you only need to tell it how you want to translate base concepts like `target_os = "freebsd"` or `feature = "serde"`. Note that because cbindgen just parses the source of your crate, you mostly don't need to worry about what crate features or what platform you're targetting. Every possible configuration should be visible to the parser. Our primitive mappings should also be completely platform agnostic (i32 is int32_t regardless of your target). While modules within a crate form a tree with uniquely defined paths to each item, and therefore uniquely defined cfgs for those items, dependencies do not. If you depend on a crate in multiple ways, and those ways produce different cfgs, one of them will be arbitrarily chosen for any types found in that crate. ## Annotations While output configuration is primarily done through the cbindgen.toml, in some cases you need to manually override your global settings. In those cases you can add inline annotations to your types, which are doc comments that start with `cbindgen:`. Here's an example of using annotations to rename a struct's fields and opt into overloading `operator==`: ```rust /// cbindgen:field-names=[x, y] /// cbindgen:derive-eq #[repr(C)] pub struct Point(pub f32, pub f32); ``` An annotation may be a bool, string (no quotes), or list of strings. If just the annotation's name is provided, `=true` is assumed. The annotation parser is currently fairly naive and lacks any capacity for escaping, so don't try to make any strings with `=`, `,`, `[` or `]`. Most annotations are just local overrides for identical settings in the cbindgen.toml, but a few are unique because they don't make sense in a global context. The set of supported annotation are as follows: ### Ignore annotation cbindgen will automatically ignore any `#[test]` or `#[cfg(test)]` item it finds. You can manually ignore other stuff with the `ignore` annotation attribute: ```rust pub mod my_interesting_mod; /// cbindgen:ignore pub mod my_uninteresting_mod; // This won't be scanned by cbindgen. ``` ### Struct Annotations * field-names=\[field1, field2, ...\] -- sets the names of all the fields in the output struct. These names will be output verbatim, and are not eligible for renaming. The rest are just local overrides for the same options found in the cbindgen.toml: * rename-all=RenameRule * derive-constructor * derive-eq * derive-neq * derive-lt * derive-lte * derive-gt * derive-gte * {eq,neq,lt,lte,gt,gte}-attributes: Takes a single identifier which will be emitted before the signature of the auto-generated `operator==` / `operator!=` / etc(if any). The idea is for this to be used to annotate the operator with attributes, for example: ```rust /// cbindgen:eq-attributes=MY_ATTRIBUTES #[repr(C)] pub struct Foo { .. } ``` Will generate something like: ``` MY_ATTRIBUTES bool operator==(const Foo& other) const { ... } ``` Combined with something like: ``` #define MY_ATTRIBUTES [[nodiscard]] ``` for example. ### Enum Annotations * enum-trailing-values=\[variant1, variant2, ...\] -- add the following fieldless enum variants to the end of the enum's definition. These variant names *will* have the enum's renaming rules applied. WARNING: if any of these values are ever passed into Rust, behaviour will be Undefined. Rust does not know about them, and will assume they cannot happen. The rest are just local overrides for the same options found in the cbindgen.toml: * rename-all=RenameRule * add-sentinel * derive-helper-methods * derive-const-casts * derive-mut-casts * derive-tagged-enum-destructor * derive-tagged-enum-copy-constructor * enum-class * prefix-with-name * private-default-tagged-enum-constructor * {destructor,copy-constructor,copy-assignment}-attributes: See the description of the struct attributes, these do the same for the respective generated code. ### Enum variant annotations These apply to both tagged and untagged enum _variants_. * variant-{constructor,const-cast,mut-cast,is}-attributes: See the description of the struct attributes. These do the same for the respective functions. TODO: We should allow to override the `derive-{const,mut}-casts`, helper methods et al. with per-variant annotations, probably. ### Union Annotations * field-names=\[field1, field2, ...\] -- sets the names of all the fields in the output union. These names will be output verbatim, and are not eligible for renaming. The rest are just local overrides for the same options found in the cbindgen.toml: * rename-all=RenameRule ### Function Annotations All function attributes are just local overrides for the same options found in the cbindgen.toml: * rename-all=RenameRule * prefix * postfix * ptrs-as-arrays=\[[ptr\_name1; array\_length1], [ptr\_name2; array\_length2], ...\] -- represents the pointer arguments of a function as arrays. Below how the mappings are performed: ``` arg: *const T --> const T arg[array_length] arg: *mut T ---> T arg[array_length] ``` If `array_length` is not specified: ``` arg: *const T --> const T arg[] arg: *mut T --> T arg[] ``` ## Generating Swift Bindings In addition to parsing function names in C/C++ header files, the Swift compiler can make use of the `swift_name` attribute on functions to generate more idiomatic names for imported functions and methods. This attribute is commonly used in Objective-C/C/C++ via the `NS_SWIFT_NAME` and `CF_SWIFT_NAME` macros. Given configuration in the cbindgen.toml, `cbindgen` can generate these attributes for you by guessing an appropriate method signature based on the existing function name (and type, if it is a method in an `impl` block). This is controlled by the `swift_name_macro` option in the cbindgen.toml. ## cbindgen.toml Most configuration happens through your cbindgen.toml file. Every value has a default (that is usually reasonable), so you can start with an empty cbindgen.toml and tweak it until you like the output you're getting. Note that many options defined here only apply for one of C or C++. Usually it's an option specifying whether we should try to make use of a feature in C++'s type system or generate a helper method. ```toml # The language to output bindings in # # possible values: "C", "C++", "Cython" # # default: "C++" language = "C" # Options for wrapping the contents of the header: # An optional string of text to output at the beginning of the generated file # default: doesn't emit anything header = "/* Text to put at the beginning of the generated file. Probably a license. */" # An optional string of text to output at the end of the generated file # default: doesn't emit anything trailer = "/* Text to put at the end of the generated file */" # An optional name to use as an include guard # default: doesn't emit an include guard include_guard = "mozilla_wr_bindings_h" # Whether to add a `#pragma once` guard # default: doesn't emit a `#pragma once` pragma_once = true # An optional string of text to output between major sections of the generated # file as a warning against manual editing # # default: doesn't emit anything autogen_warning = "/* Warning, this file is autogenerated by cbindgen. Don't modify this manually. */" # Whether to include a comment with the version of cbindgen used to generate the file # default: false include_version = true # An optional namespace to output around the generated bindings # default: doesn't emit a namespace namespace = "ffi" # An optional list of namespaces to output around the generated bindings # default: [] namespaces = ["mozilla", "wr"] # An optional list of namespaces to declare as using with "using namespace" # default: [] using_namespaces = ["mozilla", "wr"] # A list of sys headers to #include (with angle brackets) # default: [] sys_includes = ["stdio", "string"] # A list of headers to #include (with quotes) # default: [] includes = ["my_great_lib.h"] # Whether cbindgen's default C/C++ standard imports should be suppressed. These # imports are included by default because our generated headers tend to require # them (e.g. for uint32_t). Currently, the generated imports are: # # * for C: , , , , # # * for C++: , , , , (depending on config) # # default: false no_includes = false # Whether to make a C header C++ compatible. # These will wrap generated functions into a `extern "C"` block, e.g. # # #ifdef __cplusplus # extern "C" { # #endif // __cplusplus # # // Generated functions. # # #ifdef __cplusplus # } // extern "C" # #endif // __cplusplus # # If the language is not C this option won't have any effect. # # default: false cpp_compat = false # A list of lines to add verbatim after the includes block after_includes = "#define VERSION 1" # Code Style Options # The style to use for curly braces # # possible values: "SameLine", "NextLine" # # default: "SameLine" braces = "SameLine" # The desired length of a line to use when formatting lines # default: 100 line_length = 80 # The amount of spaces to indent by # default: 2 tab_width = 3 # Include doc comments from Rust as documentation documentation = true # How the generated documentation should be commented. # # possible values: # * "c": /* like this */ # * "c99": // like this # * "c++": /// like this # * "doxy": like C, but with leading *'s on each line # * "auto": "c++" if that's the language, "doxy" otherwise # # default: "auto" documentation_style = "doxy" # Codegen Options # When generating a C header, the kind of declaration style to use for structs # or enums. # # possible values: # * "type": typedef struct { ... } MyType; # * "tag": struct MyType { ... }; # * "both": typedef struct MyType { ... } MyType; # # default: "both" style = "both" # A list of substitutions for converting cfg's to ifdefs. cfgs which aren't # defined here will just be discarded. # # e.g. # `#[cfg(target = "freebsd")] ...` # becomes # `#if defined(DEFINE_FREEBSD) ... #endif` [defines] "target_os = freebsd" = "DEFINE_FREEBSD" "feature = serde" = "DEFINE_SERDE" [export] # A list of additional items to always include in the generated bindings if they're # found but otherwise don't appear to be used by the public API. # # default: [] include = ["MyOrphanStruct", "MyGreatTypeRename"] # A list of items to not include in the generated bindings # default: [] exclude = ["Bad"] # A prefix to add before the name of every item # default: no prefix is added prefix = "CAPI_" # Types of items that we'll generate. If empty, then all types of item are emitted. # # possible items: (TODO: explain these in detail) # * "constants": # * "globals": # * "enums": # * "structs": # * "unions": # * "typedefs": # * "opaque": # * "functions": # # default: [] item_types = ["enums", "structs", "opaque", "functions"] # Whether applying rules in export.rename prevents export.prefix from applying. # # e.g. given this toml: # # [export] # prefix = "capi_" # [export.rename] # "MyType" = "my_cool_type" # # You get the following results: # # renaming_overrides_prefixing = true: # "MyType" => "my_cool_type" # # renaming_overrides_prefixing = false: # "MyType => capi_my_cool_type" # # default: false renaming_overrides_prefixing = true # Table of name conversions to apply to item names (lhs becomes rhs) [export.rename] "MyType" = "my_cool_type" "my_function" = "BetterFunctionName" # Table of things to prepend to the body of any struct, union, or enum that has the # given name. This can be used to add things like methods which don't change ABI, # mark fields private, etc [export.pre_body] "MyType" = """ MyType() = delete; private: """ # Table of things to append to the body of any struct, union, or enum that has the # given name. This can be used to add things like methods which don't change ABI. [export.body] "MyType" = """ void cppMethod() const; """ # Configuration for name mangling [export.mangle] # Whether the types should be renamed during mangling, for example # c_char -> CChar, etc. rename_types = "PascalCase" # Whether the underscores from the mangled name should be omitted. remove_underscores = false [layout] # A string that should come before the name of any type which has been marked # as `#[repr(packed)]`. For instance, "__attribute__((packed))" would be a # reasonable value if targeting gcc/clang. A more portable solution would # involve emitting the name of a macro which you define in a platform-specific # way. e.g. "PACKED" # # default: `#[repr(packed)]` types will be treated as opaque, since it would # be unsafe for C callers to use a incorrectly laid-out union. packed = "PACKED" # A string that should come before the name of any type which has been marked # as `#[repr(align(n))]`. This string must be a function-like macro which takes # a single argument (the requested alignment, `n`). For instance, a macro # `#define`d as `ALIGNED(n)` in `header` which translates to # `__attribute__((aligned(n)))` would be a reasonable value if targeting # gcc/clang. # # default: `#[repr(align(n))]` types will be treated as opaque, since it # could be unsafe for C callers to use a incorrectly-aligned union. aligned_n = "ALIGNED" [fn] # An optional prefix to put before every function declaration # default: no prefix added prefix = "WR_START_FUNC" # An optional postfix to put after any function declaration # default: no postix added postfix = "WR_END_FUNC" # How to format function arguments # # possible values: # * "horizontal": place all arguments on the same line # * "vertical": place each argument on its own line # * "auto": only use vertical if horizontal would exceed line_length # # default: "auto" args = "horizontal" # An optional string that should prefix function declarations which have been # marked as `#[must_use]`. For instance, "__attribute__((warn_unused_result))" # would be a reasonable value if targeting gcc/clang. A more portable solution # would involve emitting the name of a macro which you define in a # platform-specific way. e.g. "MUST_USE_FUNC" # default: nothing is emitted for must_use functions must_use = "MUST_USE_FUNC" # An optional string that will be used in the attribute position for functions # that don't return (that return `!` in Rust). # # For instance, `__attribute__((noreturn))` would be a reasonable value if # targeting gcc/clang. no_return = "NO_RETURN" # An optional string that, if present, will be used to generate Swift function # and method signatures for generated functions, for example "CF_SWIFT_NAME". # If no such macro is available in your toolchain, you can define one using the # `header` option in cbindgen.toml # default: no swift_name function attributes are generated swift_name_macro = "CF_SWIFT_NAME" # A rule to use to rename function argument names. The renaming assumes the input # is the Rust standard snake_case, however it accepts all the different rename_args # inputs. This means many options here are no-ops or redundant. # # possible values (that actually do something): # * "CamelCase": my_arg => myArg # * "PascalCase": my_arg => MyArg # * "GeckoCase": my_arg => aMyArg # * "ScreamingSnakeCase": my_arg => MY_ARG # * "None": apply no renaming # # technically possible values (that shouldn't have a purpose here): # * "SnakeCase": apply no renaming # * "LowerCase": apply no renaming (actually applies to_lowercase, is this bug?) # * "UpperCase": same as ScreamingSnakeCase in this context # * "QualifiedScreamingSnakeCase" => same as ScreamingSnakeCase in this context # # default: "None" rename_args = "PascalCase" # This rule specifies the order in which functions will be sorted. # # "Name": sort by the name of the function # "None": keep order in which the functions have been parsed # # default: "None" sort_by = "Name" # If this option is true `usize` and `isize` will be converted into `size_t` and `ptrdiff_t` # instead of `uintptr_t` and `intptr_t` respectively. usize_is_size_t = true [struct] # A rule to use to rename struct field names. The renaming assumes the input is # the Rust standard snake_case, however it acccepts all the different rename_args # inputs. This means many options here are no-ops or redundant. # # possible values (that actually do something): # * "CamelCase": my_arg => myArg # * "PascalCase": my_arg => MyArg # * "GeckoCase": my_arg => mMyArg # * "ScreamingSnakeCase": my_arg => MY_ARG # * "None": apply no renaming # # technically possible values (that shouldn't have a purpose here): # * "SnakeCase": apply no renaming # * "LowerCase": apply no renaming (actually applies to_lowercase, is this bug?) # * "UpperCase": same as ScreamingSnakeCase in this context # * "QualifiedScreamingSnakeCase" => same as ScreamingSnakeCase in this context # # default: "None" rename_fields = "PascalCase" # An optional string that should come before the name of any struct which has been # marked as `#[must_use]`. For instance, "__attribute__((warn_unused))" # would be a reasonable value if targeting gcc/clang. A more portable solution # would involve emitting the name of a macro which you define in a # platform-specific way. e.g. "MUST_USE_STRUCT" # # default: nothing is emitted for must_use structs must_use = "MUST_USE_STRUCT" # Whether a Rust type with associated consts should emit those consts inside the # type's body. Otherwise they will be emitted trailing and with the type's name # prefixed. This does nothing if the target is C, or if # [const]allow_static_const = false # # default: false # associated_constants_in_body: false # Whether to derive a simple constructor that takes a value for every field. # default: false derive_constructor = true # Whether to derive an operator== for all structs # default: false derive_eq = false # Whether to derive an operator!= for all structs # default: false derive_neq = false # Whether to derive an operator< for all structs # default: false derive_lt = false # Whether to derive an operator<= for all structs # default: false derive_lte = false # Whether to derive an operator> for all structs # default: false derive_gt = false # Whether to derive an operator>= for all structs # default: false derive_gte = false [enum] # A rule to use to rename enum variants, and the names of any fields those # variants have. This should probably be split up into two separate options, but # for now, they're the same! See the documentation for `[struct]rename_fields` # for how this applies to fields. Renaming of the variant assumes that the input # is the Rust standard PascalCase. In the case of QualifiedScreamingSnakeCase, # it also assumed that the enum's name is PascalCase. # # possible values (that actually do something): # * "CamelCase": MyVariant => myVariant # * "SnakeCase": MyVariant => my_variant # * "ScreamingSnakeCase": MyVariant => MY_VARIANT # * "QualifiedScreamingSnakeCase": MyVariant => ENUM_NAME_MY_VARIANT # * "LowerCase": MyVariant => myvariant # * "UpperCase": MyVariant => MYVARIANT # * "None": apply no renaming # # technically possible values (that shouldn't have a purpose for the variants): # * "PascalCase": apply no renaming # * "GeckoCase": apply no renaming # # default: "None" rename_variants = "None" # Whether an extra "sentinel" enum variant should be added to all generated enums. # Firefox uses this for their IPC serialization library. # # WARNING: if the sentinel is ever passed into Rust, behaviour will be Undefined. # Rust does not know about this value, and will assume it cannot happen. # # default: false add_sentinel = false # Whether enum variant names should be prefixed with the name of the enum. # default: false prefix_with_name = false # Whether to emit enums using "enum class" when targeting C++. # default: true enum_class = true # Whether to generate static `::MyVariant(..)` constructors and `bool IsMyVariant()` # methods for enums with fields. # # default: false derive_helper_methods = false # Whether to generate `const MyVariant& AsMyVariant() const` methods for enums with fields. # default: false derive_const_casts = false # Whether to generate `MyVariant& AsMyVariant()` methods for enums with fields # default: false derive_mut_casts = false # The name of the macro/function to use for asserting `IsMyVariant()` in the body of # derived `AsMyVariant()` cast methods. # # default: "assert" (but also causes `` to be included by default) cast_assert_name = "MOZ_RELEASE_ASSERT" # An optional string that should come before the name of any enum which has been # marked as `#[must_use]`. For instance, "__attribute__((warn_unused))" # would be a reasonable value if targeting gcc/clang. A more portable solution # would involve emitting the name of a macro which you define in a # platform-specific way. e.g. "MUST_USE_ENUM" # # Note that this refers to the *output* type. That means this will not apply to an enum # with fields, as it will be emitted as a struct. `[struct]must_use` will apply there. # # default: nothing is emitted for must_use enums must_use = "MUST_USE_ENUM" # Whether enums with fields should generate destructors. This exists so that generic # enums can be properly instantiated with payloads that are C++ types with # destructors. This isn't necessary for structs because C++ has rules to # automatically derive the correct constructors and destructors for those types. # # Care should be taken with this option, as Rust and C++ cannot # properly interoperate with eachother's notions of destructors. Also, this may # change the ABI for the type. Either your destructor-full enums must live # exclusively within C++, or they must only be passed by-reference between # C++ and Rust. # # default: false derive_tagged_enum_destructor = false # Whether enums with fields should generate copy-constructor. See the discussion on # derive_tagged_enum_destructor for why this is both useful and very dangerous. # # default: false derive_tagged_enum_copy_constructor = false # Whether enums with fields should generate copy-assignment operators. # # This depends on also deriving copy-constructors, and it is highly encouraged # for this to be set to true. # # default: false derive_tagged_enum_copy_assignment = false # Whether enums with fields should generate an empty, private destructor. # This allows the auto-generated constructor functions to compile, if there are # non-trivially constructible members. This falls in the same family of # dangerousness as `derive_tagged_enum_copy_constructor` and co. # # default: false private_default_tagged_enum_constructor = false [const] # Whether a generated constant can be a static const in C++ mode. I have no # idea why you would turn this off. # # default: true allow_static_const = true # Whether a generated constant can be constexpr in C++ mode. # # default: false allow_constexpr = false # This rule specifies the order in which constants will be sorted. # # "Name": sort by the name of the constant # "None": keep order in which the constants have been parsed # # default: "None" sort_by = "Name" [macro_expansion] # Whether bindings should be generated for instances of the bitflags! macro. # default: false bitflags = true # Options for how your Rust library should be parsed [parse] # Whether to parse dependent crates and include their types in the output # default: false parse_deps = true # A white list of crate names that are allowed to be parsed. If this is defined, # only crates found in this list will ever be parsed. # # default: there is no whitelist (NOTE: this is the opposite of []) include = ["webrender", "webrender_traits"] # A black list of crate names that are not allowed to be parsed. # default: [] exclude = ["libc"] # Whether to use a new temporary target directory when running `rustc -Zunpretty=expanded`. # This may be required for some build processes. # # default: false clean = false # Which crates other than the top-level binding crate we should generate # bindings for. # # default: [] extra_bindings = ["my_awesome_dep"] [parse.expand] # A list of crate names that should be run through `cargo expand` before # parsing to expand any macros. Note that if a crate is named here, it # will always be parsed, even if the blacklist/whitelist says it shouldn't be. # # default: [] crates = ["euclid"] # If enabled, use the `--all-features` option when expanding. Ignored when # `features` is set. For backwards-compatibility, this is forced on if # `expand = ["euclid"]` shorthand is used. # # default: false all_features = false # When `all_features` is disabled and this is also disabled, use the # `--no-default-features` option when expanding. # # default: true default_features = true # A list of feature names that should be used when running `cargo expand`. This # combines with `default_features` like in your `Cargo.toml`. Note that the features # listed here are features for the current crate being built, *not* the crates # being expanded. The crate's `Cargo.toml` must take care of enabling the # appropriate features in its dependencies # # default: [] features = ["cbindgen"] [ptr] # An optional string to decorate all pointers that are # required to be non null. Nullability is inferred from the Rust type: `&T`, # `&mut T` and `NonNull` all require a valid pointer value. non_null_attribute = "_Nonnull" # Options specific to Cython bindings. [cython] # Header specified in the top level `cdef extern from header:` declaration. # # default: * header = '"my_header.h"' # `from module cimport name1, name2` declarations added in the same place # where you'd get includes in C. [cython.cimports] module = ["name1", "name2"] ``` [reference]: https://doc.rust-lang.org/nightly/reference/type-layout.html#representations [really-tagged-unions]: https://github.com/rust-lang/rfcs/blob/master/text/2195-really-tagged-unions.md [section-cfgs]: #defines-and-cfgs [file-it]: https://github.com/eqrion/cbindgen/issues/new cbindgen-0.20.0/internals.md000064400000000000000000000044670072674642500140400ustar 00000000000000## Overview `cbindgen` works in four phases: 1. *Parsing* - Crate information is gathered from `cargo`, and `rust` source files are read using `syn` 1. *Loading* - `syn` AST nodes are converted into an IR of `Item`s that loosely correspond to the C types that will be output 1. *Transformation* - Several passes are run that transform the IR. Some examples: - Generic `type` aliases are used to specialize the type they refer to - Annotations are transferred from `type` aliases to the item they refer to - `Option<&T>` is converted to `*const T` - `Option<&mut T>` is converted to `*mut T` - Generic paths in struct fields, union variants, and static globals are collected and used to generate monomorphs of the structs or unions they refer to - The items are sorted by dependencies and type and unused items are filtered out 1. *Writing* - The IR is pretty printed to a file or `stdout` ## Process Flow The main interface for `cbindgen` is `bindgen::Builder` which accepts configuration options and either a crate directory to parse or a list of source files. If a list of source files is given, then `bindgen::Builder` will parse them using `parser::parse_src` which will use `syn` to parse a specific file. No `extern crate` items will be followed for dependencies, but `mod` items will be attempted to be followed. If a crate directory is given, then `bindgen::Builder` will use `cargo::Cargo` to load a dependency graph from `Cargo.toml`, `Cargo.lock`, and `cargo metadata`. Then `parser::parse_lib` will parse each crate, following `extern crate` items when `ParseConfig::parse_deps` is enabled and the crate is not in the whitelist or blacklist of crates. In addition `bindgen::Parser` may use `cargo expand` on a crate to expand macro definitions. Once the `syn` nodes are collected by either method, they are given to `bindgen::Parse` which will perform *Loading* by creating a `ir::Item` for each `syn` node as appropriate. `bindgen::Builder` will then convert the resulting `bindgen::Parse`'s into a `bindgen::Library` which is the driver of all of the *Transformation* passes. // TODO - Talk more about passes Then finally the `bindgen::Library` will create a `bindgen::Bindings` which contains the `ir::Item`'s that are ready to be written. The `bindgen::Bindings` can then be written to `stdout` or a specific file. cbindgen-0.20.0/src/bindgen/bindings.rs000064400000000000000000000347510072674642500160560ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::cell::RefCell; use std::collections::HashMap; use std::fs; use std::fs::File; use std::io::{Read, Write}; use std::path; use std::rc::Rc; use crate::bindgen::config::{Config, Language}; use crate::bindgen::ir::{ Constant, Function, ItemContainer, ItemMap, Path as BindgenPath, Static, Struct, }; use crate::bindgen::writer::{Source, SourceWriter}; /// A bindings header that can be written. pub struct Bindings { pub config: Config, /// The map from path to struct, used to lookup whether a given type is a /// transparent struct. This is needed to generate code for constants. struct_map: ItemMap, struct_fileds_memo: RefCell>>>, globals: Vec, constants: Vec, items: Vec, functions: Vec, } #[derive(PartialEq)] enum NamespaceOperation { Open, Close, } impl Bindings { pub(crate) fn new( config: Config, struct_map: ItemMap, constants: Vec, globals: Vec, items: Vec, functions: Vec, ) -> Bindings { Bindings { config, struct_map, struct_fileds_memo: Default::default(), globals, constants, items, functions, } } // FIXME(emilio): What to do when the configuration doesn't match? pub fn struct_is_transparent(&self, path: &BindgenPath) -> bool { let mut any = false; self.struct_map.for_items(path, |s| any |= s.is_transparent); any } pub fn struct_exists(&self, path: &BindgenPath) -> bool { let mut any = false; self.struct_map.for_items(path, |_| any = true); any } pub fn struct_field_names(&self, path: &BindgenPath) -> Rc> { let mut memos = self.struct_fileds_memo.borrow_mut(); if let Some(memo) = memos.get(path) { return memo.clone(); } let mut fields = Vec::::new(); self.struct_map.for_items(path, |st| { let mut pos: usize = 0; for field in &st.fields { if let Some(found_pos) = fields.iter().position(|v| *v == field.name) { pos = found_pos + 1; } else { fields.insert(pos, field.name.clone()); pos += 1; } } }); let fields = Rc::new(fields); memos.insert(path.clone(), fields.clone()); fields } pub fn write_to_file>(&self, path: P) -> bool { // Don't compare files if we've never written this file before if !path.as_ref().is_file() { if let Some(parent) = path::Path::new(path.as_ref()).parent() { fs::create_dir_all(parent).unwrap(); } self.write(File::create(path).unwrap()); return true; } let mut new_file_contents = Vec::new(); self.write(&mut new_file_contents); let mut old_file_contents = Vec::new(); { let mut old_file = File::open(&path).unwrap(); old_file.read_to_end(&mut old_file_contents).unwrap(); } if old_file_contents != new_file_contents { let mut new_file = File::create(&path).unwrap(); new_file.write_all(&new_file_contents).unwrap(); true } else { false } } pub fn write_headers(&self, out: &mut SourceWriter) { if let Some(ref f) = self.config.header { out.new_line_if_not_start(); write!(out, "{}", f); out.new_line(); } if let Some(f) = self.config.include_guard() { out.new_line_if_not_start(); write!(out, "#ifndef {}", f); out.new_line(); write!(out, "#define {}", f); out.new_line(); } if self.config.pragma_once && self.config.language != Language::Cython { out.new_line_if_not_start(); write!(out, "#pragma once"); out.new_line(); } if self.config.include_version { out.new_line_if_not_start(); write!( out, "/* Generated with cbindgen:{} */", crate::bindgen::config::VERSION ); out.new_line(); } if let Some(ref f) = self.config.autogen_warning { out.new_line_if_not_start(); write!(out, "{}", f); out.new_line(); } if self.config.no_includes && self.config.sys_includes().is_empty() && self.config.includes().is_empty() && (self.config.cython.cimports.is_empty() || self.config.language != Language::Cython) && self.config.after_includes.is_none() { return; } out.new_line_if_not_start(); if !self.config.no_includes { match self.config.language { Language::C => { out.write("#include "); out.new_line(); out.write("#include "); out.new_line(); if self.config.usize_is_size_t { out.write("#include "); out.new_line(); } out.write("#include "); out.new_line(); out.write("#include "); out.new_line(); } Language::Cxx => { out.write("#include "); out.new_line(); if self.config.usize_is_size_t { out.write("#include "); out.new_line(); } out.write("#include "); out.new_line(); out.write("#include "); out.new_line(); out.write("#include "); out.new_line(); out.write("#include "); out.new_line(); if self.config.enumeration.cast_assert_name.is_none() && (self.config.enumeration.derive_mut_casts || self.config.enumeration.derive_const_casts) { out.write("#include "); out.new_line(); } } Language::Cython => { out.write( "from libc.stdint cimport int8_t, int16_t, int32_t, int64_t, intptr_t", ); out.new_line(); out.write( "from libc.stdint cimport uint8_t, uint16_t, uint32_t, uint64_t, uintptr_t", ); out.new_line(); out.write("cdef extern from *"); out.open_brace(); out.write("ctypedef bint bool"); out.new_line(); out.write("ctypedef struct va_list"); out.new_line(); out.close_brace(false); } } } for include in self.config.sys_includes() { write!(out, "#include <{}>", include); out.new_line(); } for include in self.config.includes() { write!(out, "#include \"{}\"", include); out.new_line(); } if self.config.language == Language::Cython { for (module, names) in &self.config.cython.cimports { write!(out, "from {} cimport {}", module, names.join(", ")); out.new_line(); } } if let Some(ref line) = self.config.after_includes { write!(out, "{}", line); out.new_line(); } } pub fn write(&self, file: F) { let mut out = SourceWriter::new(file, self); self.write_headers(&mut out); self.open_namespaces(&mut out); for constant in &self.constants { if constant.uses_only_primitive_types() { out.new_line_if_not_start(); constant.write(&self.config, &mut out, None); out.new_line(); } } for item in &self.items { if item .deref() .annotations() .bool("no-export") .unwrap_or(false) { continue; } out.new_line_if_not_start(); match *item { ItemContainer::Constant(..) => unreachable!(), ItemContainer::Static(..) => unreachable!(), ItemContainer::Enum(ref x) => x.write(&self.config, &mut out), ItemContainer::Struct(ref x) => x.write(&self.config, &mut out), ItemContainer::Union(ref x) => x.write(&self.config, &mut out), ItemContainer::OpaqueItem(ref x) => x.write(&self.config, &mut out), ItemContainer::Typedef(ref x) => x.write(&self.config, &mut out), } out.new_line(); } for constant in &self.constants { if !constant.uses_only_primitive_types() { out.new_line_if_not_start(); constant.write(&self.config, &mut out, None); out.new_line(); } } if !self.functions.is_empty() || !self.globals.is_empty() { if self.config.cpp_compatible_c() { out.new_line_if_not_start(); out.write("#ifdef __cplusplus"); } if self.config.language == Language::Cxx { if let Some(ref using_namespaces) = self.config.using_namespaces { for namespace in using_namespaces { out.new_line(); write!(out, "using namespace {};", namespace); } out.new_line(); } } if self.config.language == Language::Cxx || self.config.cpp_compatible_c() { out.new_line(); out.write("extern \"C\" {"); out.new_line(); } if self.config.cpp_compatible_c() { out.write("#endif // __cplusplus"); out.new_line(); } for global in &self.globals { out.new_line_if_not_start(); global.write(&self.config, &mut out); out.new_line(); } for function in &self.functions { out.new_line_if_not_start(); function.write(&self.config, &mut out); out.new_line(); } if self.config.cpp_compatible_c() { out.new_line(); out.write("#ifdef __cplusplus"); } if self.config.language == Language::Cxx || self.config.cpp_compatible_c() { out.new_line(); out.write("} // extern \"C\""); out.new_line(); } if self.config.cpp_compatible_c() { out.write("#endif // __cplusplus"); out.new_line(); } } if self.config.language == Language::Cython && self.globals.is_empty() && self.constants.is_empty() && self.items.is_empty() && self.functions.is_empty() { out.write("pass"); } self.close_namespaces(&mut out); if let Some(f) = self.config.include_guard() { out.new_line_if_not_start(); if self.config.language == Language::C { write!(out, "#endif /* {} */", f); } else { write!(out, "#endif // {}", f); } out.new_line(); } if let Some(ref f) = self.config.trailer { out.new_line_if_not_start(); write!(out, "{}", f); if !f.ends_with('\n') { out.new_line(); } } } fn all_namespaces(&self) -> Vec<&str> { if self.config.language != Language::Cxx && !self.config.cpp_compatible_c() { return vec![]; } let mut ret = vec![]; if let Some(ref namespace) = self.config.namespace { ret.push(&**namespace); } if let Some(ref namespaces) = self.config.namespaces { for namespace in namespaces { ret.push(&**namespace); } } ret } fn open_close_namespaces(&self, op: NamespaceOperation, out: &mut SourceWriter) { if self.config.language == Language::Cython { if op == NamespaceOperation::Open { out.new_line(); let header = self.config.cython.header.as_deref().unwrap_or("*"); write!(out, "cdef extern from {}", header); out.open_brace(); } else { out.close_brace(false); } return; } let mut namespaces = self.all_namespaces(); if namespaces.is_empty() { return; } if op == NamespaceOperation::Close { namespaces.reverse(); } if self.config.cpp_compatible_c() { out.new_line_if_not_start(); out.write("#ifdef __cplusplus"); } for namespace in namespaces { out.new_line(); match op { NamespaceOperation::Open => write!(out, "namespace {} {{", namespace), NamespaceOperation::Close => write!(out, "}} // namespace {}", namespace), } } out.new_line(); if self.config.cpp_compatible_c() { out.write("#endif // __cplusplus"); out.new_line(); } } pub(crate) fn open_namespaces(&self, out: &mut SourceWriter) { self.open_close_namespaces(NamespaceOperation::Open, out); } pub(crate) fn close_namespaces(&self, out: &mut SourceWriter) { self.open_close_namespaces(NamespaceOperation::Close, out); } } cbindgen-0.20.0/src/bindgen/bitflags.rs000064400000000000000000000066060072674642500160520ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use proc_macro2::TokenStream; use syn::parse::{Parse, ParseStream, Parser, Result as ParseResult}; // $(#[$outer:meta])* // ($($vis:tt)*) $BitFlags:ident: $T:ty { // $( // $(#[$inner:ident $($args:tt)*])* // const $Flag:ident = $value:expr; // )+ // } #[derive(Debug)] pub struct Bitflags { attrs: Vec, vis: syn::Visibility, struct_token: Token![struct], name: syn::Ident, colon_token: Token![:], repr: syn::Type, flags: Flags, } impl Bitflags { pub fn expand(&self) -> (syn::ItemStruct, syn::ItemImpl) { let Bitflags { ref attrs, ref vis, ref name, ref repr, ref flags, .. } = *self; let struct_ = parse_quote! { /// cbindgen:internal-derive-bitflags=true #(#attrs)* #vis struct #name { bits: #repr, } }; let consts = flags.expand(name, repr); let impl_ = parse_quote! { impl #name { #consts } }; (struct_, impl_) } } impl Parse for Bitflags { fn parse(input: ParseStream) -> ParseResult { Ok(Self { attrs: input.call(syn::Attribute::parse_outer)?, vis: input.parse()?, struct_token: input.parse()?, name: input.parse()?, colon_token: input.parse()?, repr: input.parse()?, flags: input.parse()?, }) } } // $(#[$inner:ident $($args:tt)*])* // const $Flag:ident = $value:expr; #[derive(Debug)] struct Flag { attrs: Vec, const_token: Token![const], name: syn::Ident, equals_token: Token![=], value: syn::Expr, semicolon_token: Token![;], } impl Flag { fn expand(&self, struct_name: &syn::Ident, repr: &syn::Type) -> TokenStream { let Flag { ref attrs, ref name, ref value, .. } = *self; quote! { #(#attrs)* pub const #name : #struct_name = #struct_name { bits: (#value) as #repr }; } } } impl Parse for Flag { fn parse(input: ParseStream) -> ParseResult { Ok(Self { attrs: input.call(syn::Attribute::parse_outer)?, const_token: input.parse()?, name: input.parse()?, equals_token: input.parse()?, value: input.parse()?, semicolon_token: input.parse()?, }) } } #[derive(Debug)] struct Flags(Vec); impl Parse for Flags { fn parse(input: ParseStream) -> ParseResult { let content; let _ = braced!(content in input); let mut flags = vec![]; while !content.is_empty() { flags.push(content.parse()?); } Ok(Flags(flags)) } } impl Flags { fn expand(&self, struct_name: &syn::Ident, repr: &syn::Type) -> TokenStream { let mut ts = quote! {}; for flag in &self.0 { ts.extend(flag.expand(struct_name, repr)); } ts } } pub fn parse(tokens: TokenStream) -> ParseResult { let parser = Bitflags::parse; parser.parse2(tokens) } cbindgen-0.20.0/src/bindgen/builder.rs000064400000000000000000000264020072674642500157010ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::path; use crate::bindgen::bindings::Bindings; use crate::bindgen::cargo::Cargo; use crate::bindgen::config::{Braces, Config, Language, Profile, Style}; use crate::bindgen::error::Error; use crate::bindgen::library::Library; use crate::bindgen::parser::{self, Parse}; /// A builder for generating a bindings header. #[derive(Debug, Clone)] pub struct Builder { config: Config, srcs: Vec, lib: Option<(path::PathBuf, Option)>, lib_cargo: Option, std_types: bool, lockfile: Option, } impl Builder { #[allow(clippy::new_without_default)] pub fn new() -> Builder { Builder { config: Config::default(), srcs: Vec::new(), lib: None, lib_cargo: None, std_types: true, lockfile: None, } } #[allow(unused)] pub fn with_header>(mut self, header: S) -> Builder { self.config.header = Some(String::from(header.as_ref())); self } #[allow(unused)] pub fn with_no_includes(mut self) -> Builder { self.config.no_includes = true; self } #[allow(unused)] pub fn with_include>(mut self, include: S) -> Builder { self.config.includes.push(String::from(include.as_ref())); self } #[allow(unused)] pub fn with_sys_include>(mut self, include: S) -> Builder { self.config .sys_includes .push(String::from(include.as_ref())); self } #[allow(unused)] pub fn with_after_include>(mut self, line: S) -> Builder { self.config.after_includes = Some(String::from(line.as_ref())); self } #[allow(unused)] pub fn with_trailer>(mut self, trailer: S) -> Builder { self.config.trailer = Some(String::from(trailer.as_ref())); self } #[allow(unused)] pub fn with_include_guard>(mut self, include_guard: S) -> Builder { self.config.include_guard = Some(String::from(include_guard.as_ref())); self } #[allow(unused)] pub fn with_pragma_once(mut self, pragma_once: bool) -> Builder { self.config.pragma_once = pragma_once; self } #[allow(unused)] pub fn with_autogen_warning>(mut self, autogen_warning: S) -> Builder { self.config.autogen_warning = Some(String::from(autogen_warning.as_ref())); self } #[allow(unused)] pub fn with_include_version(mut self, include_version: bool) -> Builder { self.config.include_version = include_version; self } #[allow(unused)] pub fn with_namespace>(mut self, namespace: S) -> Builder { self.config.namespace = Some(String::from(namespace.as_ref())); self } #[allow(unused)] pub fn with_namespaces>(mut self, namespaces: &[S]) -> Builder { self.config.namespaces = Some( namespaces .iter() .map(|x| String::from(x.as_ref())) .collect(), ); self } #[allow(unused)] pub fn with_using_namespaces>(mut self, namespaces: &[S]) -> Builder { self.config.using_namespaces = Some( namespaces .iter() .map(|x| String::from(x.as_ref())) .collect(), ); self } #[allow(unused)] pub fn with_braces(mut self, braces: Braces) -> Builder { self.config.braces = braces; self } #[allow(unused)] pub fn with_line_length(mut self, line_length: usize) -> Builder { self.config.line_length = line_length; self } #[allow(unused)] pub fn with_tab_width(mut self, tab_width: usize) -> Builder { self.config.tab_width = tab_width; self } #[allow(unused)] pub fn with_language(mut self, language: Language) -> Builder { self.config.language = language; self } #[allow(unused)] pub fn with_style(mut self, style: Style) -> Builder { self.config.style = style; self } #[allow(unused)] pub fn include_item>(mut self, item_name: S) -> Builder { self.config .export .include .push(String::from(item_name.as_ref())); self } #[allow(unused)] pub fn exclude_item>(mut self, item_name: S) -> Builder { self.config .export .exclude .push(String::from(item_name.as_ref())); self } #[allow(unused)] pub fn rename_item>(mut self, from: S, to: S) -> Builder { self.config .export .rename .insert(String::from(from.as_ref()), String::from(to.as_ref())); self } #[allow(unused)] pub fn with_item_prefix>(mut self, prefix: S) -> Builder { self.config.export.prefix = Some(String::from(prefix.as_ref())); self } #[allow(unused)] pub fn with_parse_deps(mut self, parse_deps: bool) -> Builder { self.config.parse.parse_deps = parse_deps; self } #[allow(unused)] pub fn with_parse_include>(mut self, include: &[S]) -> Builder { self.config.parse.include = Some(include.iter().map(|x| String::from(x.as_ref())).collect()); self } #[allow(unused)] pub fn with_parse_exclude>(mut self, exclude: &[S]) -> Builder { self.config.parse.exclude = exclude.iter().map(|x| String::from(x.as_ref())).collect(); self } #[allow(unused)] pub fn with_parse_expand>(mut self, expand: &[S]) -> Builder { self.config.parse.expand.crates = expand.iter().map(|x| String::from(x.as_ref())).collect(); self } #[allow(unused)] pub fn with_parse_expand_all_features(mut self, expand_all_features: bool) -> Builder { self.config.parse.expand.all_features = expand_all_features; self } #[allow(unused)] pub fn with_parse_expand_default_features(mut self, expand_default_features: bool) -> Builder { self.config.parse.expand.default_features = expand_default_features; self } #[allow(unused)] pub fn with_parse_expand_features>(mut self, expand_features: &[S]) -> Builder { self.config.parse.expand.features = Some( expand_features .iter() .map(|x| String::from(x.as_ref())) .collect(), ); self } #[allow(unused)] pub fn with_parse_expand_profile(mut self, profile: Profile) -> Builder { self.config.parse.expand.profile = profile; self } #[allow(unused)] pub fn with_parse_extra_bindings>(mut self, extra_bindings: &[S]) -> Builder { self.config.parse.extra_bindings = extra_bindings .iter() .map(|x| String::from(x.as_ref())) .collect(); self } #[allow(unused)] pub fn with_only_target_dependencies(mut self, only_target_dependencies: bool) -> Builder { self.config.only_target_dependencies = only_target_dependencies; self } #[allow(unused)] pub fn with_documentation(mut self, documentation: bool) -> Builder { self.config.documentation = documentation; self } #[allow(unused)] pub fn with_target_os_define(mut self, platform: &str, preprocessor_define: &str) -> Builder { self.config.defines.insert( format!("target_os = {}", platform), preprocessor_define.to_owned(), ); self } #[allow(unused)] pub fn with_define(mut self, key: &str, value: &str, preprocessor_define: &str) -> Builder { self.config.defines.insert( format!("{} = {}", key, value), preprocessor_define.to_owned(), ); self } #[allow(unused)] pub fn with_config(mut self, config: Config) -> Builder { self.config = config; self } #[allow(unused)] pub fn with_std_types(mut self, std_types: bool) -> Builder { self.std_types = std_types; self } #[allow(unused)] pub fn with_src>(mut self, src: P) -> Builder { self.srcs.push(src.as_ref().to_owned()); self } #[allow(unused)] pub fn with_crate>(mut self, lib_dir: P) -> Builder { debug_assert!(self.lib.is_none()); debug_assert!(self.lib_cargo.is_none()); self.lib = Some((path::PathBuf::from(lib_dir.as_ref()), None)); self } #[allow(unused)] pub fn with_crate_and_name, S: AsRef>( mut self, lib_dir: P, binding_lib_name: S, ) -> Builder { debug_assert!(self.lib.is_none()); debug_assert!(self.lib_cargo.is_none()); self.lib = Some(( path::PathBuf::from(lib_dir.as_ref()), Some(String::from(binding_lib_name.as_ref())), )); self } #[allow(unused)] pub(crate) fn with_cargo(mut self, lib: Cargo) -> Builder { debug_assert!(self.lib.is_none()); debug_assert!(self.lib_cargo.is_none()); self.lib_cargo = Some(lib); self } #[allow(unused)] pub fn with_lockfile>(mut self, lockfile: P) -> Builder { debug_assert!(self.lockfile.is_none()); debug_assert!(self.lib_cargo.is_none()); self.lockfile = Some(path::PathBuf::from(lockfile.as_ref())); self } pub fn generate(self) -> Result { let mut result = Parse::new(); if self.std_types { result.add_std_types(); } for x in &self.srcs { result.extend_with(&parser::parse_src(x, &self.config)?); } if let Some((lib_dir, binding_lib_name)) = self.lib.clone() { let lockfile = self.lockfile.as_ref().and_then(|p| p.to_str()); let cargo = Cargo::load( &lib_dir, lockfile, binding_lib_name.as_deref(), self.config.parse.parse_deps, self.config.parse.clean, self.config.only_target_dependencies, /* existing_metadata = */ None, )?; result.extend_with(&parser::parse_lib(cargo, &self.config)?); } else if let Some(cargo) = self.lib_cargo.clone() { result.extend_with(&parser::parse_lib(cargo, &self.config)?); } Library::new( self.config, result.constants, result.globals, result.enums, result.structs, result.unions, result.opaque_items, result.typedefs, result.functions, ) .generate() } } #[cfg(test)] mod tests { use super::*; #[test] fn with_style() { assert_eq!( Style::Tag, Builder::new().with_style(Style::Tag).config.style ); } } cbindgen-0.20.0/src/bindgen/cargo/cargo.rs000064400000000000000000000212600072674642500164360ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::path::{Path, PathBuf}; use crate::bindgen::cargo::cargo_expand; use crate::bindgen::cargo::cargo_lock::{self, Lock}; pub(crate) use crate::bindgen::cargo::cargo_metadata::PackageRef; use crate::bindgen::cargo::cargo_metadata::{self, Metadata}; use crate::bindgen::cargo::cargo_toml; use crate::bindgen::config::Profile; use crate::bindgen::error::Error; use crate::bindgen::ir::Cfg; /// Parse a dependency string used in Cargo.lock fn parse_dep_string(dep_string: &str) -> (&str, Option<&str>) { let split: Vec<&str> = dep_string.split_whitespace().collect(); (split[0], split.get(1).cloned()) } /// A collection of metadata for a library from cargo. #[derive(Clone, Debug)] pub(crate) struct Cargo { manifest_path: PathBuf, binding_crate_name: String, lock: Option, metadata: Metadata, clean: bool, } impl Cargo { /// Gather metadata from cargo for a specific library and binding crate /// name. If dependency finding isn't needed then Cargo.lock files don't /// need to be parsed. pub(crate) fn load( crate_dir: &Path, lock_file: Option<&str>, binding_crate_name: Option<&str>, use_cargo_lock: bool, clean: bool, only_target_dependencies: bool, existing_metadata_file: Option<&Path>, ) -> Result { let toml_path = crate_dir.join("Cargo.toml"); let metadata = cargo_metadata::metadata(&toml_path, existing_metadata_file, only_target_dependencies) .map_err(|x| Error::CargoMetadata(toml_path.to_str().unwrap().to_owned(), x))?; let lock_path = lock_file .map(PathBuf::from) .unwrap_or_else(|| Path::new(&metadata.workspace_root).join("Cargo.lock")); let lock = if use_cargo_lock { match cargo_lock::lock(&lock_path) { Ok(lock) => Some(lock), Err(x) => { warn!("Couldn't load lock file {:?}: {:?}", lock_path, x); None } } } else { None }; // Use the specified binding crate name or infer it from the manifest let binding_crate_name = match binding_crate_name { Some(s) => s.to_owned(), None => { let manifest = cargo_toml::manifest(&toml_path) .map_err(|x| Error::CargoToml(toml_path.to_str().unwrap().to_owned(), x))?; manifest.package.name } }; Ok(Cargo { manifest_path: toml_path, binding_crate_name, lock, metadata, clean, }) } pub(crate) fn binding_crate_name(&self) -> &str { &self.binding_crate_name } pub(crate) fn binding_crate_ref(&self) -> PackageRef { match self.find_pkg_ref(&self.binding_crate_name) { Some(pkg_ref) => pkg_ref, None => panic!( "Unable to find {} for {:?}", self.binding_crate_name, self.manifest_path ), } } pub(crate) fn dependencies(&self, package: &PackageRef) -> Vec<(PackageRef, Option)> { let lock = match self.lock { Some(ref lock) => lock, None => return vec![], }; let mut dependencies = None; // Find the dependencies listing in the lockfile if let Some(ref root) = lock.root { // If the version is not on the lockfile then it shouldn't be // ambiguous. if root.name == package.name && package .version .as_ref() .map_or(true, |v| *v == root.version) { dependencies = root.dependencies.as_ref(); } } if dependencies.is_none() { if let Some(ref lock_packages) = lock.package { for lock_package in lock_packages { if lock_package.name == package.name && package .version .as_ref() .map_or(true, |v| *v == lock_package.version) { dependencies = lock_package.dependencies.as_ref(); break; } } } } if dependencies.is_none() { return vec![]; } dependencies .unwrap() .iter() .map(|dep| { let (dep_name, dep_version) = parse_dep_string(dep); // If a version was not specified find the only package with the name of the dependency let dep_version = dep_version.or_else(|| { let mut versions = self.metadata.packages.iter().filter_map(|package| { if package.name_and_version.name != dep_name { return None; } package.name_and_version.version.as_deref() }); // If the iterator contains more items, meaning multiple versions of the same // package are present, warn! amd abort. let version = versions.next(); if versions.next().is_none() { version } else { warn!("when looking for a version for package {}, multiple versions where found", dep_name); None } }); // Try to find the cfgs in the Cargo.toml let cfg = self .metadata .packages .get(package) .and_then(|meta_package| meta_package.dependencies.get(dep_name)) .and_then(|meta_dep| Cfg::load_metadata(meta_dep)); let package_ref = PackageRef { name: dep_name.to_owned(), version: dep_version.map(|v| v.to_owned()), }; (package_ref, cfg) }) .collect() } /// Finds the package reference in `cargo metadata` that has `package_name` /// ignoring the version. fn find_pkg_ref(&self, package_name: &str) -> Option { for package in &self.metadata.packages { if package.name_and_version.name == package_name { return Some(package.name_and_version.clone()); } } None } /// Finds the directory for a specified package reference. #[allow(unused)] pub(crate) fn find_crate_dir(&self, package: &PackageRef) -> Option { self.metadata .packages .get(package) .and_then(|meta_package| { Path::new(&meta_package.manifest_path) .parent() .map(|x| x.to_owned()) }) } /// Finds `src/lib.rs` for a specified package reference. pub(crate) fn find_crate_src(&self, package: &PackageRef) -> Option { let kind_lib = String::from("lib"); let kind_staticlib = String::from("staticlib"); let kind_rlib = String::from("rlib"); let kind_cdylib = String::from("cdylib"); let kind_dylib = String::from("dylib"); self.metadata .packages .get(package) .and_then(|meta_package| { for target in &meta_package.targets { if target.kind.contains(&kind_lib) || target.kind.contains(&kind_staticlib) || target.kind.contains(&kind_rlib) || target.kind.contains(&kind_cdylib) || target.kind.contains(&kind_dylib) { return Some(PathBuf::from(&target.src_path)); } } None }) } pub(crate) fn expand_crate( &self, package: &PackageRef, expand_all_features: bool, expand_default_features: bool, expand_features: &Option>, profile: Profile, ) -> Result { cargo_expand::expand( &self.manifest_path, &package.name, package.version.as_deref(), self.clean, expand_all_features, expand_default_features, expand_features, profile, ) } } cbindgen-0.20.0/src/bindgen/cargo/cargo_expand.rs000064400000000000000000000106100072674642500177720ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use crate::bindgen::config::Profile; use std::env; use std::error; use std::fmt; use std::io; use std::path::{Path, PathBuf}; use std::process::Command; use std::str::{from_utf8, Utf8Error}; extern crate tempfile; use self::tempfile::Builder; #[derive(Debug)] /// Possible errors that can occur during `rustc -Zunpretty=expanded`. pub enum Error { /// Error during creation of temporary directory Io(io::Error), /// Output of `cargo metadata` was not valid utf8 Utf8(Utf8Error), /// Error during execution of `cargo rustc -Zunpretty=expanded` Compile(String), } impl From for Error { fn from(err: io::Error) -> Self { Error::Io(err) } } impl From for Error { fn from(err: Utf8Error) -> Self { Error::Utf8(err) } } impl fmt::Display for Error { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self { Error::Io(ref err) => err.fmt(f), Error::Utf8(ref err) => err.fmt(f), Error::Compile(ref err) => write!(f, "{}", err), } } } impl error::Error for Error { fn source(&self) -> Option<&(dyn error::Error + 'static)> { match self { Error::Io(ref err) => Some(err), Error::Utf8(ref err) => Some(err), Error::Compile(..) => None, } } } /// Use rustc to expand and pretty print the crate into a single file, /// removing any macros in the process. #[allow(clippy::too_many_arguments)] pub fn expand( manifest_path: &Path, crate_name: &str, version: Option<&str>, use_tempdir: bool, expand_all_features: bool, expand_default_features: bool, expand_features: &Option>, profile: Profile, ) -> Result { let cargo = env::var("CARGO").unwrap_or_else(|_| String::from("cargo")); let mut cmd = Command::new(cargo); let mut _temp_dir = None; // drop guard if use_tempdir { _temp_dir = Some(Builder::new().prefix("cbindgen-expand").tempdir()?); cmd.env("CARGO_TARGET_DIR", _temp_dir.unwrap().path()); } else if let Ok(ref path) = env::var("CARGO_EXPAND_TARGET_DIR") { cmd.env("CARGO_TARGET_DIR", path); } else if let Ok(ref path) = env::var("OUT_DIR") { // When cbindgen was started programatically from a build.rs file, Cargo is running and // locking the default target directory. In this case we need to use another directory, // else we would end up in a deadlock. If Cargo is running `OUT_DIR` will be set, so we // can use a directory relative to that. cmd.env("CARGO_TARGET_DIR", PathBuf::from(path).join("expanded")); } // Set this variable so that we don't call it recursively if we expand a crate that is using // cbindgen cmd.env("_CBINDGEN_IS_RUNNING", "1"); cmd.arg("rustc"); cmd.arg("--lib"); // When build with the release profile we can't choose the `check` profile. if profile != Profile::Release { cmd.arg("--profile=check"); } cmd.arg("--manifest-path"); cmd.arg(manifest_path); if let Some(features) = expand_features { cmd.arg("--features"); let mut features_str = String::new(); for (index, feature) in features.iter().enumerate() { if index != 0 { features_str.push(' '); } features_str.push_str(feature); } cmd.arg(features_str); } if expand_all_features { cmd.arg("--all-features"); } if !expand_default_features { cmd.arg("--no-default-features"); } match profile { Profile::Debug => {} Profile::Release => { cmd.arg("--release"); } } cmd.arg("-p"); let mut package = crate_name.to_owned(); if let Some(version) = version { package.push(':'); package.push_str(version); } cmd.arg(&package); cmd.arg("--verbose"); cmd.arg("--"); cmd.arg("-Zunpretty=expanded"); info!("Command: {:?}", cmd); let output = cmd.output()?; let src = from_utf8(&output.stdout)?.to_owned(); let error = from_utf8(&output.stderr)?.to_owned(); if src.is_empty() { Err(Error::Compile(error)) } else { Ok(src) } } cbindgen-0.20.0/src/bindgen/cargo/cargo_lock.rs000064400000000000000000000024700072674642500174500ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::fs::File; use std::io; use std::io::Read; use std::path::Path; #[derive(Debug)] /// Possible errors that can occur during Cargo.toml parsing. pub enum Error { /// Error during reading of Cargo.toml Io(io::Error), /// Deserialization error Toml(toml::de::Error), } impl From for Error { fn from(err: io::Error) -> Self { Error::Io(err) } } impl From for Error { fn from(err: toml::de::Error) -> Self { Error::Toml(err) } } #[derive(Clone, Deserialize, Debug)] pub struct Lock { pub root: Option, pub package: Option>, } #[derive(Clone, Deserialize, Debug)] pub struct Package { pub name: String, pub version: String, /// A list of dependencies formatted like "NAME VERSION-OPT REGISTRY-OPT" pub dependencies: Option>, } /// Parse the Cargo.toml for a given path pub fn lock(manifest_path: &Path) -> Result { let mut s = String::new(); let mut f = File::open(manifest_path)?; f.read_to_string(&mut s)?; toml::from_str::(&s).map_err(|x| x.into()) } cbindgen-0.20.0/src/bindgen/cargo/cargo_metadata.rs000064400000000000000000000170770072674642500203110ustar 00000000000000#![deny(missing_docs)] //! Structured access to the output of `cargo metadata` //! Usually used from within a `cargo-*` executable // Forked from `https://github.com/oli-obk/cargo_metadata` // Modifications: // 1. Remove `resolve` from Metadata because it was causing parse failures // 2. Fix the `manifest-path` argument // 3. Add `--all-features` argument // 4. Remove the `--no-deps` argument use std::borrow::{Borrow, Cow}; use std::collections::{HashMap, HashSet}; use std::env; use std::error; use std::fmt; use std::hash::{Hash, Hasher}; use std::io; use std::path::Path; use std::process::{Command, Output}; use std::str::Utf8Error; #[derive(Clone, Deserialize, Debug)] /// Starting point for metadata returned by `cargo metadata` pub struct Metadata { /// A list of all crates referenced by this crate (and the crate itself) pub packages: HashSet, version: usize, /// path to the workspace containing the `Cargo.lock` pub workspace_root: String, } /// A reference to a package including it's name and the specific version. #[derive(Clone, Debug, Hash, Eq, PartialEq, Serialize, Deserialize)] pub struct PackageRef { pub name: String, pub version: Option, } #[derive(Clone, Deserialize, Debug)] /// A crate pub struct Package { #[serde(flatten)] pub name_and_version: PackageRef, id: String, source: Option, /// List of dependencies of this particular package pub dependencies: HashSet, /// Targets provided by the crate (lib, bin, example, test, ...) pub targets: Vec, features: HashMap>, /// path containing the `Cargo.toml` pub manifest_path: String, } #[derive(Clone, Deserialize, Debug)] /// A dependency of the main crate pub struct Dependency { /// Name as given in the `Cargo.toml` pub name: String, source: Option, /// Whether this is required or optional pub req: String, kind: Option, optional: bool, uses_default_features: bool, features: Vec, pub target: Option, } #[derive(Clone, Deserialize, Debug)] /// A single target (lib, bin, example, ...) provided by a crate pub struct Target { /// Name as given in the `Cargo.toml` or generated from the file name pub name: String, /// Kind of target ("bin", "example", "test", "bench", "lib") pub kind: Vec, /// Almost the same as `kind`, except when an example is a library instad of an executable. /// In that case `crate_types` contains things like `rlib` and `dylib` while `kind` is `example` #[serde(default)] pub crate_types: Vec, /// Path to the main source file of the target pub src_path: String, } #[derive(Debug)] /// Possible errors that can occur during metadata parsing. pub enum Error { /// Error during execution of `cargo metadata` Io(io::Error), /// Metadata extraction failure Metadata(Output), /// Output of `cargo metadata` was not valid utf8 Utf8(Utf8Error), /// Deserialization error (structure of json did not match expected structure) Json(serde_json::Error), } impl From for Error { fn from(err: io::Error) -> Self { Error::Io(err) } } impl From for Error { fn from(err: Utf8Error) -> Self { Error::Utf8(err) } } impl From for Error { fn from(err: serde_json::Error) -> Self { Error::Json(err) } } impl fmt::Display for Error { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self { Error::Io(ref err) => err.fmt(f), Error::Metadata(_) => write!(f, "Metadata error"), Error::Utf8(ref err) => err.fmt(f), Error::Json(ref err) => err.fmt(f), } } } impl error::Error for Error { fn source(&self) -> Option<&(dyn error::Error + 'static)> { match self { Error::Io(ref err) => Some(err), Error::Metadata(_) => None, Error::Utf8(ref err) => Some(err), Error::Json(ref err) => Some(err), } } } // Implementations that let us lookup Packages and Dependencies by name (string) impl Borrow for Package { fn borrow(&self) -> &PackageRef { &self.name_and_version } } impl Hash for Package { fn hash(&self, state: &mut H) { self.name_and_version.hash(state); } } impl PartialEq for Package { fn eq(&self, other: &Self) -> bool { self.name_and_version == other.name_and_version } } impl Eq for Package {} impl Borrow for Dependency { fn borrow(&self) -> &str { &self.name } } impl Hash for Dependency { fn hash(&self, state: &mut H) { self.name.hash(state); } } impl PartialEq for Dependency { fn eq(&self, other: &Self) -> bool { self.name == other.name } } impl Eq for Dependency {} fn discover_target(manifest_path: &Path) -> Option { if let Ok(target) = std::env::var("TARGET") { return Some(target); } // We must be running as a standalone script, not under cargo. // Let's use the host platform instead. // We figure out the host platform through rustc and use that. // We unfortunatelly cannot go through cargo, since cargo rustc _also_ builds. // If `rustc` fails to run, we just fall back to not passing --filter-platforms. // // NOTE: We set the current directory in case of rustup shenanigans. let rustc = env::var("RUSTC").unwrap_or_else(|_| String::from("rustc")); debug!("Discovering host platform by {:?}", rustc); let rustc_output = Command::new(rustc) .current_dir(manifest_path.parent().unwrap()) .arg("-vV") .output(); let rustc_output = match rustc_output { Ok(ref out) => String::from_utf8_lossy(&out.stdout), Err(..) => return None, }; let field = "host: "; rustc_output.lines().find_map(|l| { // XXX l.strip_prefix(field) re-implemented to preserve MSRV if l.starts_with(field) { Some(l[field.len()..].into()) } else { None } }) } /// The main entry point to obtaining metadata pub fn metadata( manifest_path: &Path, existing_metadata_file: Option<&Path>, only_target: bool, ) -> Result { let output; let metadata = match existing_metadata_file { Some(path) => Cow::Owned(std::fs::read_to_string(path)?), None => { let target = if only_target { let target = discover_target(manifest_path); if target.is_none() { warn!( "Failed to discover host platform for cargo metadata; \ will fetch dependencies for all platforms." ); } target } else { None }; let cargo = env::var("CARGO").unwrap_or_else(|_| String::from("cargo")); let mut cmd = Command::new(cargo); cmd.arg("metadata"); cmd.arg("--all-features"); cmd.arg("--format-version").arg("1"); if let Some(target) = target { cmd.arg("--filter-platform").arg(target); } cmd.arg("--manifest-path"); cmd.arg(manifest_path); output = cmd.output()?; if !output.status.success() { return Err(Error::Metadata(output)); } Cow::Borrowed(std::str::from_utf8(&output.stdout)?) } }; let meta: Metadata = serde_json::from_str(&*metadata)?; Ok(meta) } cbindgen-0.20.0/src/bindgen/cargo/cargo_toml.rs000064400000000000000000000031510072674642500174700ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::error; use std::fmt; use std::fs::File; use std::io; use std::io::Read; use std::path::Path; #[derive(Debug)] /// Possible errors that can occur during Cargo.toml parsing. pub enum Error { /// Error during reading of Cargo.toml Io(io::Error), /// Deserialization error Toml(toml::de::Error), } impl From for Error { fn from(err: io::Error) -> Self { Error::Io(err) } } impl From for Error { fn from(err: toml::de::Error) -> Self { Error::Toml(err) } } impl fmt::Display for Error { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self { Error::Io(ref err) => err.fmt(f), Error::Toml(ref err) => err.fmt(f), } } } impl error::Error for Error { fn source(&self) -> Option<&(dyn error::Error + 'static)> { match self { Error::Io(ref err) => Some(err), Error::Toml(ref err) => Some(err), } } } #[derive(Clone, Deserialize, Debug)] pub struct Manifest { pub package: Package, } #[derive(Clone, Deserialize, Debug)] pub struct Package { pub name: String, } /// Parse the Cargo.toml for a given path pub fn manifest(manifest_path: &Path) -> Result { let mut s = String::new(); let mut f = File::open(manifest_path)?; f.read_to_string(&mut s)?; toml::from_str::(&s).map_err(|x| x.into()) } cbindgen-0.20.0/src/bindgen/cargo/mod.rs000064400000000000000000000006160072674642500161240ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #[allow(clippy::module_inception)] mod cargo; pub(crate) mod cargo_expand; pub(crate) mod cargo_lock; pub(crate) mod cargo_metadata; pub(crate) mod cargo_toml; pub(crate) use self::cargo::*; cbindgen-0.20.0/src/bindgen/cdecl.rs000064400000000000000000000255240072674642500153310ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::io::Write; use crate::bindgen::declarationtyperesolver::DeclarationType; use crate::bindgen::ir::{ArrayLength, Function, Type}; use crate::bindgen::writer::{ListType, SourceWriter}; use crate::bindgen::{Config, Language}; // This code is for translating Rust types into C declarations. // See Section 6.7, Declarations, in the C standard for background. // http://www.open-std.org/jtc1/sc22/wg14/www/docs/n1570.pdf enum CDeclarator { Ptr { is_const: bool, is_nullable: bool, is_ref: bool, }, Array(String), Func(Vec<(Option, CDecl)>, bool), } impl CDeclarator { fn is_ptr(&self) -> bool { match self { CDeclarator::Ptr { .. } | CDeclarator::Func(..) => true, _ => false, } } } struct CDecl { type_qualifers: String, type_name: String, type_generic_args: Vec, declarators: Vec, type_ctype: Option, } impl CDecl { fn new() -> CDecl { CDecl { type_qualifers: String::new(), type_name: String::new(), type_generic_args: Vec::new(), declarators: Vec::new(), type_ctype: None, } } fn from_type(t: &Type, config: &Config) -> CDecl { let mut cdecl = CDecl::new(); cdecl.build_type(t, false, config); cdecl } fn from_func_arg(t: &Type, array_length: Option<&str>, config: &Config) -> CDecl { let mut cdecl = CDecl::new(); let length = match array_length { Some(l) => l, None => return CDecl::from_type(t, config), }; let (ty, is_const) = match t { Type::Ptr { ty, is_const, .. } => (ty, is_const), _ => unreachable!( "Should never have an array length for a non pointer type {:?}", t ), }; let ptr_as_array = Type::Array(ty.clone(), ArrayLength::Value(length.to_string())); cdecl.build_type(&ptr_as_array, *is_const, config); cdecl } fn from_func(f: &Function, layout_vertical: bool, config: &Config) -> CDecl { let mut cdecl = CDecl::new(); cdecl.build_func(f, layout_vertical, config); cdecl } fn build_func(&mut self, f: &Function, layout_vertical: bool, config: &Config) { let args = f .args .iter() .map(|arg| { ( arg.name.clone(), CDecl::from_func_arg(&arg.ty, arg.array_length.as_deref(), config), ) }) .collect(); self.declarators .push(CDeclarator::Func(args, layout_vertical)); self.build_type(&f.ret, false, config); } fn build_type(&mut self, t: &Type, is_const: bool, config: &Config) { match t { Type::Path(ref generic) => { if is_const { assert!( self.type_qualifers.is_empty(), "error generating cdecl for {:?}", t ); self.type_qualifers = "const".to_owned(); } assert!( self.type_name.is_empty(), "error generating cdecl for {:?}", t ); self.type_name = generic.export_name().to_owned(); assert!( self.type_generic_args.is_empty(), "error generating cdecl for {:?}", t ); self.type_generic_args = generic.generics().to_owned(); self.type_ctype = generic.ctype().cloned(); } Type::Primitive(ref p) => { if is_const { assert!( self.type_qualifers.is_empty(), "error generating cdecl for {:?}", t ); self.type_qualifers = "const".to_owned(); } assert!( self.type_name.is_empty(), "error generating cdecl for {:?}", t ); self.type_name = p.to_repr_c(config).to_string(); } Type::Ptr { ref ty, is_nullable, is_const: ptr_is_const, is_ref, } => { self.declarators.push(CDeclarator::Ptr { is_const, is_nullable: *is_nullable, is_ref: *is_ref, }); self.build_type(ty, *ptr_is_const, config); } Type::Array(ref t, ref constant) => { let len = constant.as_str().to_owned(); self.declarators.push(CDeclarator::Array(len)); self.build_type(t, is_const, config); } Type::FuncPtr { ref ret, ref args, is_nullable: _, } => { let args = args .iter() .map(|(ref name, ref ty)| (name.clone(), CDecl::from_type(ty, config))) .collect(); self.declarators.push(CDeclarator::Ptr { is_const: false, is_nullable: true, is_ref: false, }); self.declarators.push(CDeclarator::Func(args, false)); self.build_type(ret, false, config); } } } fn write(&self, out: &mut SourceWriter, ident: Option<&str>, config: &Config) { // Write the type-specifier and type-qualifier first if !self.type_qualifers.is_empty() { write!(out, "{} ", self.type_qualifers); } if config.language != Language::Cython { if let Some(ref ctype) = self.type_ctype { write!(out, "{} ", ctype.to_str()); } } write!(out, "{}", self.type_name); if !self.type_generic_args.is_empty() { out.write("<"); out.write_horizontal_source_list(&self.type_generic_args, ListType::Join(", ")); out.write(">"); } // When we have an identifier, put a space between the type and the declarators if ident.is_some() { out.write(" "); } // Write the left part of declarators before the identifier let mut iter_rev = self.declarators.iter().rev().peekable(); #[allow(clippy::while_let_on_iterator)] while let Some(declarator) = iter_rev.next() { let next_is_pointer = iter_rev.peek().map_or(false, |x| x.is_ptr()); match *declarator { CDeclarator::Ptr { is_const, is_nullable, is_ref, } => { out.write(if is_ref { "&" } else { "*" }); if is_const { out.write("const "); } if !is_nullable && !is_ref && config.language != Language::Cython { if let Some(attr) = &config.pointer.non_null_attribute { write!(out, "{} ", attr); } } } CDeclarator::Array(..) => { if next_is_pointer { out.write("("); } } CDeclarator::Func(..) => { if next_is_pointer { out.write("("); } } } } // Write the identifier if let Some(ident) = ident { write!(out, "{}", ident); } // Write the right part of declarators after the identifier let mut iter = self.declarators.iter(); let mut last_was_pointer = false; #[allow(clippy::while_let_on_iterator)] while let Some(declarator) = iter.next() { match *declarator { CDeclarator::Ptr { .. } => { last_was_pointer = true; } CDeclarator::Array(ref constant) => { if last_was_pointer { out.write(")"); } write!(out, "[{}]", constant); last_was_pointer = false; } CDeclarator::Func(ref args, layout_vertical) => { if last_was_pointer { out.write(")"); } out.write("("); if args.is_empty() && config.language == Language::C { out.write("void"); } if layout_vertical { let align_length = out.line_length_for_align(); out.push_set_spaces(align_length); for (i, &(ref arg_ident, ref arg_ty)) in args.iter().enumerate() { if i != 0 { out.write(","); out.new_line(); } // Convert &Option to Option<&str> let arg_ident = arg_ident.as_ref().map(|x| x.as_ref()); arg_ty.write(out, arg_ident, config); } out.pop_tab(); } else { for (i, &(ref arg_ident, ref arg_ty)) in args.iter().enumerate() { if i != 0 { out.write(", "); } // Convert &Option to Option<&str> let arg_ident = arg_ident.as_ref().map(|x| x.as_ref()); arg_ty.write(out, arg_ident, config); } } out.write(")"); last_was_pointer = true; } } } } } pub fn write_func( out: &mut SourceWriter, f: &Function, layout_vertical: bool, config: &Config, ) { CDecl::from_func(f, layout_vertical, config).write(out, Some(f.path().name()), config); } pub fn write_field(out: &mut SourceWriter, t: &Type, ident: &str, config: &Config) { CDecl::from_type(t, config).write(out, Some(ident), config); } pub fn write_type(out: &mut SourceWriter, t: &Type, config: &Config) { CDecl::from_type(t, config).write(out, None, config); } cbindgen-0.20.0/src/bindgen/config.rs000064400000000000000000001066270072674642500155300ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::collections::{BTreeMap, HashMap}; use std::default::Default; use std::str::FromStr; use std::{fmt, fs, path::Path as StdPath}; use serde::de::value::{MapAccessDeserializer, SeqAccessDeserializer}; use serde::de::{Deserialize, Deserializer, MapAccess, SeqAccess, Visitor}; use crate::bindgen::ir::annotation::AnnotationSet; use crate::bindgen::ir::path::Path; use crate::bindgen::ir::repr::ReprAlign; pub use crate::bindgen::rename::RenameRule; pub const VERSION: &str = env!("CARGO_PKG_VERSION"); /// A language type to generate bindings for. #[derive(Debug, Copy, Clone, PartialEq)] pub enum Language { Cxx, C, Cython, } impl FromStr for Language { type Err = String; fn from_str(s: &str) -> Result { match s { "cxx" => Ok(Language::Cxx), "Cxx" => Ok(Language::Cxx), "CXX" => Ok(Language::Cxx), "cpp" => Ok(Language::Cxx), "Cpp" => Ok(Language::Cxx), "CPP" => Ok(Language::Cxx), "c++" => Ok(Language::Cxx), "C++" => Ok(Language::Cxx), "c" => Ok(Language::C), "C" => Ok(Language::C), "cython" => Ok(Language::Cython), "Cython" => Ok(Language::Cython), _ => Err(format!("Unrecognized Language: '{}'.", s)), } } } deserialize_enum_str!(Language); impl Language { pub(crate) fn typedef(self) -> &'static str { match self { Language::Cxx | Language::C => "typedef", Language::Cython => "ctypedef", } } } /// Controls what type of line endings are used in the generated code. #[derive(Debug, Clone, Copy)] #[allow(clippy::upper_case_acronyms)] pub enum LineEndingStyle { /// Use Unix-style linefeed characters LF, /// Use classic Mac-style carriage-return characters CR, /// Use Windows-style carriage-return and linefeed characters CRLF, /// Use the native mode for the platform: CRLF on Windows, LF everywhere else. Native, } impl Default for LineEndingStyle { fn default() -> Self { LineEndingStyle::LF } } impl LineEndingStyle { pub fn as_str(&self) -> &'static str { match self { Self::LF => "\n", Self::CR => "\r", Self::CRLF => "\r\n", Self::Native => { #[cfg(target_os = "windows")] { Self::CRLF.as_str() } #[cfg(not(target_os = "windows"))] { Self::LF.as_str() } } } } } impl FromStr for LineEndingStyle { type Err = String; fn from_str(s: &str) -> Result { match s.to_lowercase().as_ref() { "native" => Ok(Self::Native), "lf" => Ok(Self::LF), "crlf" => Ok(Self::CRLF), "cr" => Ok(Self::CR), _ => Err(format!("Unrecognized line ending style: '{}'.", s)), } } } deserialize_enum_str!(LineEndingStyle); /// A style of braces to use for generating code. #[derive(Debug, Clone, PartialEq)] pub enum Braces { SameLine, NextLine, } impl FromStr for Braces { type Err = String; fn from_str(s: &str) -> Result { match s { "SameLine" => Ok(Braces::SameLine), "same_line" => Ok(Braces::SameLine), "NextLine" => Ok(Braces::NextLine), "next_line" => Ok(Braces::NextLine), _ => Err(format!("Unrecognized Braces: '{}'.", s)), } } } deserialize_enum_str!(Braces); /// A type of layout to use when generating long lines of code. #[derive(Debug, Clone, PartialEq)] pub enum Layout { Horizontal, Vertical, Auto, } impl FromStr for Layout { type Err = String; fn from_str(s: &str) -> Result { match s { "Horizontal" => Ok(Layout::Horizontal), "horizontal" => Ok(Layout::Horizontal), "Vertical" => Ok(Layout::Vertical), "vertical" => Ok(Layout::Vertical), "Auto" => Ok(Layout::Auto), "auto" => Ok(Layout::Auto), _ => Err(format!("Unrecognized Layout: '{}'.", s)), } } } deserialize_enum_str!(Layout); /// How the comments containing documentation should be styled. #[derive(Debug, Clone, PartialEq, Copy)] pub enum DocumentationStyle { C, C99, Doxy, Cxx, Auto, } impl FromStr for DocumentationStyle { type Err = String; fn from_str(s: &str) -> Result { match s.to_lowercase().as_ref() { "c" => Ok(DocumentationStyle::C), "c99" => Ok(DocumentationStyle::C99), "cxx" => Ok(DocumentationStyle::Cxx), "c++" => Ok(DocumentationStyle::Cxx), "doxy" => Ok(DocumentationStyle::Doxy), "auto" => Ok(DocumentationStyle::Auto), _ => Err(format!("Unrecognized documentation style: '{}'.", s)), } } } deserialize_enum_str!(DocumentationStyle); /// A style of Style to use when generating structs and enums. #[derive(Debug, Copy, Clone, PartialEq)] pub enum Style { Both, Tag, Type, } impl Style { pub fn generate_tag(self) -> bool { match self { Style::Both | Style::Tag => true, Style::Type => false, } } pub fn generate_typedef(self) -> bool { match self { Style::Both | Style::Type => true, Style::Tag => false, } } // https://cython.readthedocs.io/en/latest/src/userguide/external_C_code.html#styles-of-struct-union-and-enum-declaration pub fn cython_def(self) -> &'static str { if self.generate_tag() { "cdef " } else { "ctypedef " } } } impl Default for Style { fn default() -> Self { Style::Both } } impl FromStr for Style { type Err = String; fn from_str(s: &str) -> Result { match s { "Both" => Ok(Style::Both), "both" => Ok(Style::Both), "Tag" => Ok(Style::Tag), "tag" => Ok(Style::Tag), "Type" => Ok(Style::Type), "type" => Ok(Style::Type), _ => Err(format!("Unrecognized Style: '{}'.", s)), } } } deserialize_enum_str!(Style); /// Different item types that we can generate and filter. #[derive(Debug, Clone, PartialEq)] pub enum ItemType { Constants, Globals, Enums, Structs, Unions, Typedefs, OpaqueItems, Functions, } impl FromStr for ItemType { type Err = String; fn from_str(s: &str) -> Result { use self::ItemType::*; Ok(match &*s.to_lowercase() { "constants" => Constants, "globals" => Globals, "enums" => Enums, "structs" => Structs, "unions" => Unions, "typedefs" => Typedefs, "opaque" => OpaqueItems, "functions" => Functions, _ => return Err(format!("Unrecognized Style: '{}'.", s)), }) } } deserialize_enum_str!(ItemType); /// Type which specifies the sort order of functions #[derive(Debug, Clone, Copy, PartialEq)] pub enum SortKey { Name, None, } impl FromStr for SortKey { type Err = String; fn from_str(s: &str) -> Result { use self::SortKey::*; Ok(match &*s.to_lowercase() { "name" => Name, "none" => None, _ => return Err(format!("Unrecognized sort option: '{}'.", s)), }) } } deserialize_enum_str!(SortKey); /// Settings to apply when exporting items. #[derive(Debug, Clone, Deserialize, Default)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct ExportConfig { /// A list of additional items not used by exported functions to include in /// the generated bindings pub include: Vec, /// A list of items to not include in the generated bindings pub exclude: Vec, /// Table of name conversions to apply to item names pub rename: HashMap, /// Table of raw strings to prepend to the body of items. pub pre_body: HashMap, /// Table of raw strings to append to the body of items. pub body: HashMap, /// A prefix to add before the name of every item pub prefix: Option, /// Types of items to generate. pub item_types: Vec, /// Whether renaming overrides or extends prefixing. pub renaming_overrides_prefixing: bool, /// Mangling configuration. pub mangle: MangleConfig, } /// Mangling-specific configuration. #[derive(Debug, Clone, Deserialize, Default)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct MangleConfig { /// The rename rule to apply to the type names mangled. pub rename_types: RenameRule, /// Remove the underscores used for name mangling. pub remove_underscores: bool, } impl ExportConfig { pub(crate) fn should_generate(&self, item_type: ItemType) -> bool { self.item_types.is_empty() || self.item_types.contains(&item_type) } pub(crate) fn pre_body(&self, path: &Path) -> Option<&str> { self.pre_body.get(path.name()).map(|s| s.trim_matches('\n')) } pub(crate) fn post_body(&self, path: &Path) -> Option<&str> { self.body.get(path.name()).map(|s| s.trim_matches('\n')) } pub(crate) fn rename(&self, item_name: &mut String) { if let Some(name) = self.rename.get(item_name) { *item_name = name.clone(); if self.renaming_overrides_prefixing { return; } } if let Some(ref prefix) = self.prefix { item_name.insert_str(0, prefix); } } } /// Settings to apply to generated types with layout modifiers. #[derive(Debug, Default, Clone, Deserialize)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct LayoutConfig { /// The way to annotate C types as #[repr(packed)]. pub packed: Option, /// The way to annotate C types as #[repr(align(...))]. This is assumed to be a functional /// macro which takes a single argument (the alignment). pub aligned_n: Option, } impl LayoutConfig { pub(crate) fn ensure_safe_to_represent(&self, align: &ReprAlign) -> Result<(), String> { match (align, &self.packed, &self.aligned_n) { (ReprAlign::Packed, None, _) => Err("Cannot safely represent #[repr(packed)] type without configured 'packed' annotation.".to_string()), (ReprAlign::Align(_), _, None) => Err("Cannot safely represent #[repr(aligned(...))] type without configured 'aligned_n' annotation.".to_string()), _ => Ok(()), } } } /// Settings to apply to generated functions. #[derive(Debug, Clone, Deserialize)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct FunctionConfig { /// Optional text to output before each function declaration pub prefix: Option, /// Optional text to output after each function declaration pub postfix: Option, /// The way to annotation this function as #[must_use] pub must_use: Option, /// The style to layout the args pub args: Layout, /// The rename rule to apply to function args pub rename_args: RenameRule, /// An optional macro to use when generating Swift function name attributes pub swift_name_macro: Option, /// Sort key for functions pub sort_by: Option, /// Optional text to output after functions which return `!`. pub no_return: Option, } impl Default for FunctionConfig { fn default() -> FunctionConfig { FunctionConfig { prefix: None, postfix: None, must_use: None, args: Layout::Auto, rename_args: RenameRule::None, swift_name_macro: None, sort_by: None, no_return: None, } } } impl FunctionConfig { pub(crate) fn prefix(&self, annotations: &AnnotationSet) -> Option { if let Some(x) = annotations.atom("prefix") { return x; } self.prefix.clone() } pub(crate) fn postfix(&self, annotations: &AnnotationSet) -> Option { if let Some(x) = annotations.atom("postfix") { return x; } self.postfix.clone() } } /// Settings to apply to generated structs. #[derive(Debug, Default, Clone, Deserialize)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct StructConfig { /// The rename rule to apply to the name of struct fields pub rename_fields: RenameRule, /// Whether to generate a constructor for the struct (which takes /// arguments to initialize all the members) pub derive_constructor: bool, /// Whether to generate a piecewise equality operator pub derive_eq: bool, /// Whether to generate a piecewise inequality operator pub derive_neq: bool, /// Whether to generate a less than operator on structs with one field pub derive_lt: bool, /// Whether to generate a less than or equal to operator on structs with one field pub derive_lte: bool, /// Whether to generate a greater than operator on structs with one field pub derive_gt: bool, /// Whether to generate a greater than or equal to operator on structs with one field pub derive_gte: bool, /// Whether to generate a ostream serializer for the struct pub derive_ostream: bool, /// Whether associated constants should be in the body. Only applicable to /// non-transparent structs, and in C++-only. pub associated_constants_in_body: bool, /// The way to annotate this struct as #[must_use]. pub must_use: Option, } impl StructConfig { pub(crate) fn derive_constructor(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-constructor") { return x; } self.derive_constructor } pub(crate) fn derive_eq(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-eq") { return x; } self.derive_eq } pub(crate) fn derive_neq(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-neq") { return x; } self.derive_neq } pub(crate) fn derive_lt(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-lt") { return x; } self.derive_lt } pub(crate) fn derive_lte(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-lte") { return x; } self.derive_lte } pub(crate) fn derive_gt(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-gt") { return x; } self.derive_gt } pub(crate) fn derive_gte(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-gte") { return x; } self.derive_gte } pub(crate) fn derive_ostream(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-ostream") { return x; } self.derive_ostream } } /// Settings to apply to generated enums. #[derive(Debug, Clone, Deserialize)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct EnumConfig { /// The rename rule to apply to the name of enum variants pub rename_variants: RenameRule, /// Whether to add a `Sentinel` value at the end of every enum /// This is useful in Gecko for IPC serialization pub add_sentinel: bool, /// Whether the enum variants should be prefixed with the enum name pub prefix_with_name: bool, /// Whether to generate static `::X(..)` constructors and `IsX()` /// methods for tagged enums. pub derive_helper_methods: bool, /// Whether to generate `AsX() const` methods for tagged enums. pub derive_const_casts: bool, /// Whether to generate `AsX()` methods for tagged enums. pub derive_mut_casts: bool, /// The name of the macro to use for `derive_{const,mut}casts`. If custom, you're /// responsible to provide the necessary header, otherwise `assert` will be /// used, and `` will be included. pub cast_assert_name: Option, /// The way to annotation this enum as #[must_use]. pub must_use: Option, /// Whether to generate destructors of tagged enums. pub derive_tagged_enum_destructor: bool, /// Whether to generate copy-constructors of tagged enums. pub derive_tagged_enum_copy_constructor: bool, /// Whether to generate copy-assignment operators of tagged enums. /// /// This is only generated if a copy constructor for the same tagged enum is /// generated as well. pub derive_tagged_enum_copy_assignment: bool, /// Whether to generate a ostream serializer for the struct pub derive_ostream: bool, /// Declare the enum as an enum class. /// Only relevant when targeting C++. pub enum_class: bool, /// Whether to generate empty, private default-constructors for tagged /// enums. pub private_default_tagged_enum_constructor: bool, } impl Default for EnumConfig { fn default() -> EnumConfig { EnumConfig { rename_variants: RenameRule::None, add_sentinel: false, prefix_with_name: false, derive_helper_methods: false, derive_const_casts: false, derive_mut_casts: false, cast_assert_name: None, must_use: None, derive_tagged_enum_destructor: false, derive_tagged_enum_copy_constructor: false, derive_tagged_enum_copy_assignment: false, derive_ostream: false, enum_class: true, private_default_tagged_enum_constructor: false, } } } impl EnumConfig { pub(crate) fn add_sentinel(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("add-sentinel") { return x; } self.add_sentinel } pub(crate) fn derive_helper_methods(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-helper-methods") { return x; } self.derive_helper_methods } pub(crate) fn derive_const_casts(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-const-casts") { return x; } self.derive_const_casts } pub(crate) fn derive_mut_casts(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-mut-casts") { return x; } self.derive_mut_casts } pub(crate) fn derive_tagged_enum_destructor(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-tagged-enum-destructor") { return x; } self.derive_tagged_enum_destructor } pub(crate) fn derive_tagged_enum_copy_constructor(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-tagged-enum-copy-constructor") { return x; } self.derive_tagged_enum_copy_constructor } pub(crate) fn derive_tagged_enum_copy_assignment(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-tagged-enum-copy-assignment") { return x; } self.derive_tagged_enum_copy_assignment } pub(crate) fn derive_ostream(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("derive-ostream") { return x; } self.derive_ostream } pub(crate) fn enum_class(&self, annotations: &AnnotationSet) -> bool { if let Some(x) = annotations.bool("enum-class") { return x; } self.enum_class } pub(crate) fn private_default_tagged_enum_constructor( &self, annotations: &AnnotationSet, ) -> bool { if let Some(x) = annotations.bool("private-default-tagged-enum-constructor") { return x; } self.private_default_tagged_enum_constructor } } /// Settings to apply to generated constants. #[derive(Debug, Clone, Deserialize)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct ConstantConfig { /// Whether a generated constant can be a static const in C++ mode. pub allow_static_const: bool, /// Whether a generated constant should be constexpr in C++ mode. pub allow_constexpr: bool, /// Sort key for constants pub sort_by: Option, } impl Default for ConstantConfig { fn default() -> ConstantConfig { ConstantConfig { allow_static_const: true, allow_constexpr: false, sort_by: None, } } } /// Settings for custom macro expansion. #[derive(Debug, Clone, Deserialize, Default)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct MacroExpansionConfig { /// Whether the `bitflags` macro should be expanded. pub bitflags: bool, } /// Controls which Cargo profile is used for macro expansion. #[derive(Debug, Copy, Clone, PartialEq)] pub enum Profile { Debug, Release, } impl FromStr for Profile { type Err = String; fn from_str(s: &str) -> Result { match s { "debug" | "Debug" => Ok(Profile::Debug), "release" | "Release" => Ok(Profile::Release), _ => Err(format!("Unrecognized Profile: '{}'.", s)), } } } deserialize_enum_str!(Profile); /// Settings to apply when running `rustc -Zunpretty=expanded` #[derive(Debug, Clone, Deserialize)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct ParseExpandConfig { /// The names of crates to parse with `rustc -Zunpretty=expanded` pub crates: Vec, /// Whether to enable all the features when expanding. pub all_features: bool, /// Whether to use the default feature set when expanding. pub default_features: bool, /// List of features to use when expanding. Combines with `default_features` like in /// `Cargo.toml`. pub features: Option>, /// Controls whether or not to pass `--release` when expanding. pub profile: Profile, } impl Default for ParseExpandConfig { fn default() -> ParseExpandConfig { ParseExpandConfig { crates: Vec::new(), all_features: false, default_features: true, features: None, profile: Profile::Debug, } } } // Backwards-compatibility deserializer for ParseExpandConfig. This allows accepting both the // simple `expand = ["crate"]` and the more complex `expand = {"crates": ["crate"], // "default_features": false}` format for the `expand` key. // // Note that one (major) difference between the two forms is that, for backwards-compatibility // reasons, the `expand = ["crate"]` form will enable the `--all-features` flag by default while // the `expand = {"crates": ["crate"]}` form will use the default feature set by default. fn retrocomp_parse_expand_config_deserialize<'de, D: Deserializer<'de>>( deserializer: D, ) -> Result { struct ParseExpandVisitor; impl<'de> Visitor<'de> for ParseExpandVisitor { type Value = ParseExpandConfig; fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { formatter.write_str("a map or sequence of string") } fn visit_seq>(self, seq: A) -> Result { let crates = as Deserialize>::deserialize(SeqAccessDeserializer::new(seq))?; Ok(ParseExpandConfig { crates, all_features: true, default_features: true, features: None, profile: Profile::Debug, }) } fn visit_map>(self, map: A) -> Result { ::deserialize(MapAccessDeserializer::new(map)) } } deserializer.deserialize_any(ParseExpandVisitor) } /// Settings to apply when parsing. #[derive(Debug, Default, Clone, Deserialize)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct ParseConfig { /// Whether to parse dependencies when generating bindings. When this is true, /// each dependent crate is found using a combination of `cargo metadata` and /// `Cargo.lock`. To further control this behavior, crates can be whitelisted or /// blacklisted using `include` and `exclude` respectively. Additionally in cases /// where crates have types to expose in bindings hidden in macros, a crate can /// be marked in `expand` and `cargo expand` will be used to expand the macros /// before parsing. A crate marked in `expand` doesn't need to be added to any /// whitelist. pub parse_deps: bool, /// An optional whitelist of names of crates to parse pub include: Option>, /// The names of crates to not parse pub exclude: Vec, /// The configuration options for `rustc -Zunpretty=expanded` #[serde(deserialize_with = "retrocomp_parse_expand_config_deserialize")] pub expand: ParseExpandConfig, /// Whether to use a new temporary target directory when running `rustc -Zunpretty=expanded`. /// This may be required for some build processes. pub clean: bool, /// List of crate names which generate consts, statics, and fns. By default /// no dependent crates generate them. pub extra_bindings: Vec, } impl ParseConfig { pub(crate) fn should_generate_top_level_item( &self, crate_name: &str, binding_crate_name: &str, ) -> bool { if crate_name == binding_crate_name { // Always generate items for the binding crate. return true; } self.extra_bindings.iter().any(|dep| dep == crate_name) } } /// Settings to apply to pointers #[derive(Debug, Clone, Default, Deserialize)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct PtrConfig { /// Optional attribute to apply to pointers that are required to not be null pub non_null_attribute: Option, } /// Settings specific to Cython bindings. #[derive(Debug, Clone, Default, Deserialize)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct CythonConfig { /// Header specified in the top level `cdef extern from header:` declaration. pub header: Option, /// `from module cimport name1, name2, ...` declarations added in the same place /// where you'd get includes in C. pub cimports: BTreeMap>, } /// A collection of settings to customize the generated bindings. #[derive(Debug, Clone, Deserialize)] #[serde(rename_all = "snake_case")] #[serde(deny_unknown_fields)] #[serde(default)] pub struct Config { /// Optional text to output at the beginning of the file pub header: Option, /// A list of additional includes to put at the beginning of the generated header pub includes: Vec, /// A list of additional system includes to put at the beginning of the generated header pub sys_includes: Vec, /// Optional verbatim code added after the include blocks pub after_includes: Option, /// Optional text to output at the end of the file pub trailer: Option, /// Optional name to use for an include guard pub include_guard: Option, /// Add a `#pragma once` guard pub pragma_once: bool, /// Generates no includes at all. Overrides all other include options /// /// This option is useful when using cbindgen with tools such as python's cffi which /// doesn't understand include directives pub no_includes: bool, /// Optional text to output at major sections to deter manual editing pub autogen_warning: Option, /// Include a comment with the version of cbindgen used to generate the file pub include_version: bool, /// An optional name for the root namespace. Only applicable when language="C++" pub namespace: Option, /// An optional list of namespaces. Only applicable when language="C++" pub namespaces: Option>, /// An optional list of namespaces to declare as using. Only applicable when language="C++" pub using_namespaces: Option>, /// The style to use for braces pub braces: Braces, /// The preferred length of a line, used for auto breaking function arguments pub line_length: usize, /// The amount of spaces in a tab pub tab_width: usize, /// The type of line endings to generate pub line_endings: LineEndingStyle, /// The language to output bindings for pub language: Language, /// Include preprocessor defines in C bindings to ensure C++ compatibility pub cpp_compat: bool, /// The style to declare structs, enums and unions in for C pub style: Style, /// Default sort key for functions and constants. pub sort_by: SortKey, /// If this option is true `usize` and `isize` will be converted into `size_t` and `ptrdiff_t` /// instead of `uintptr_t` and `intptr_t` respectively. pub usize_is_size_t: bool, /// The configuration options for parsing pub parse: ParseConfig, /// The configuration options for exporting pub export: ExportConfig, /// The configuration options for macros. pub macro_expansion: MacroExpansionConfig, /// The configuration options for type layouts. pub layout: LayoutConfig, /// The configuration options for functions #[serde(rename = "fn")] pub function: FunctionConfig, /// The configuration options for structs #[serde(rename = "struct")] pub structure: StructConfig, /// The configuration options for enums #[serde(rename = "enum")] pub enumeration: EnumConfig, /// The configuration options for constants #[serde(rename = "const")] pub constant: ConstantConfig, /// Preprocessor defines to use when generating #ifdef's for #[cfg] pub defines: HashMap, /// Include doc comments from Rust as documentation pub documentation: bool, /// How documentation comments should be styled. pub documentation_style: DocumentationStyle, /// Configuration options for pointers #[serde(rename = "ptr")] pub pointer: PtrConfig, /// Only download sources for dependencies needed for the target platform. /// /// By default, cbindgen will fetch sources for dependencies used on any platform so that if a /// type is defined in terms of a type from a dependency on another target (probably behind a /// `#[cfg]`), cbindgen will be able to generate the appropriate binding as it can see the /// nested type's definition. However, this makes calling cbindgen slower, as it may have to /// download a number of additional dependencies. /// /// As an example, consider this Cargo.toml: /// /// ```toml /// [target.'cfg(windows)'.dependencies] /// windows = "0.7" /// ``` /// /// with this declaration in one of the `.rs` files that cbindgen is asked to generate bindings /// for: /// /// ```rust,ignore /// #[cfg(windows)] /// pub struct Error(windows::ErrorCode); /// ``` /// /// With the default value (`false`), cbindgen will download the `windows` dependency even when /// not compiling for Windows, and will thus be able to generate the binding for `Error` /// (behind a `#define`). /// /// If this value is instead to `true`, cbindgen will _not_ download the `windows` dependency /// if it's not compiling for Windows, but will also fail to generate a Windows binding for /// `Error` as it does not know the definition for `ErrorCode`. /// /// The target can be chosen via the `TARGET` environment variable (if used /// via the CLI, when ran from a build script cargo sets this variable /// appropriately). pub only_target_dependencies: bool, /// Configuration options specific to Cython. pub cython: CythonConfig, } impl Default for Config { fn default() -> Config { Config { header: None, includes: Vec::new(), sys_includes: Vec::new(), after_includes: None, trailer: None, include_guard: None, pragma_once: false, autogen_warning: None, include_version: false, no_includes: false, namespace: None, namespaces: None, using_namespaces: None, braces: Braces::SameLine, line_length: 100, tab_width: 2, line_endings: LineEndingStyle::default(), language: Language::Cxx, cpp_compat: false, style: Style::default(), usize_is_size_t: false, sort_by: SortKey::None, macro_expansion: Default::default(), parse: ParseConfig::default(), export: ExportConfig::default(), layout: LayoutConfig::default(), function: FunctionConfig::default(), structure: StructConfig::default(), enumeration: EnumConfig::default(), constant: ConstantConfig::default(), defines: HashMap::new(), documentation: true, documentation_style: DocumentationStyle::Auto, pointer: PtrConfig::default(), only_target_dependencies: false, cython: CythonConfig::default(), } } } impl Config { pub(crate) fn cpp_compatible_c(&self) -> bool { self.language == Language::C && self.cpp_compat } pub(crate) fn include_guard(&self) -> Option<&str> { if self.language == Language::Cython { None } else { self.include_guard.as_deref() } } pub(crate) fn includes(&self) -> &[String] { if self.language == Language::Cython { &[] } else { &self.includes } } pub(crate) fn sys_includes(&self) -> &[String] { if self.language == Language::Cython { &[] } else { &self.sys_includes } } pub fn from_file>(file_name: P) -> Result { let config_text = fs::read_to_string(file_name.as_ref()).map_err(|_| { format!( "Couldn't open config file: {}.", file_name.as_ref().display() ) })?; match toml::from_str::(&config_text) { Ok(x) => Ok(x), Err(e) => Err(format!("Couldn't parse config file: {}.", e)), } } pub fn from_root_or_default>(root: P) -> Config { let c = root.as_ref().join("cbindgen.toml"); if c.exists() { Config::from_file(c).unwrap() } else { Config::default() } } } cbindgen-0.20.0/src/bindgen/declarationtyperesolver.rs000064400000000000000000000030210072674642500212140ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use crate::bindgen::ir::Path; use std::collections::hash_map::Entry; use std::collections::HashMap; impl DeclarationType { pub fn to_str(self) -> &'static str { match self { DeclarationType::Struct => "struct", DeclarationType::Enum => "enum", DeclarationType::Union => "union", } } } #[derive(Clone, Copy, PartialEq, PartialOrd, Eq, Ord, Debug, Hash)] pub enum DeclarationType { Struct, Enum, Union, } #[derive(Default)] pub struct DeclarationTypeResolver { types: HashMap>, } impl DeclarationTypeResolver { fn insert(&mut self, path: &Path, ty: Option) { if let Entry::Vacant(vacant_entry) = self.types.entry(path.clone()) { vacant_entry.insert(ty); } } pub fn add_enum(&mut self, path: &Path) { self.insert(path, Some(DeclarationType::Enum)); } pub fn add_struct(&mut self, path: &Path) { self.insert(path, Some(DeclarationType::Struct)); } pub fn add_union(&mut self, path: &Path) { self.insert(path, Some(DeclarationType::Union)); } pub fn add_none(&mut self, path: &Path) { self.insert(path, None); } pub fn type_for(&self, path: &Path) -> Option { *self.types.get(path)? } } cbindgen-0.20.0/src/bindgen/dependencies.rs000064400000000000000000000031430072674642500166760ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::cmp::Ordering; use std::collections::HashSet; use crate::bindgen::ir::{ItemContainer, Path}; /// A dependency list is used for gathering what order to output the types. #[derive(Default)] pub struct Dependencies { pub order: Vec, pub items: HashSet, } impl Dependencies { pub fn new() -> Dependencies { Dependencies { order: Vec::new(), items: HashSet::new(), } } pub fn sort(&mut self) { // Sort untagged enums and opaque structs into their own layers because they don't // depend on each other or anything else. let ordering = |a: &ItemContainer, b: &ItemContainer| match (a, b) { (&ItemContainer::Enum(ref x), &ItemContainer::Enum(ref y)) if x.tag.is_none() && y.tag.is_none() => { x.path.cmp(&y.path) } (&ItemContainer::Enum(ref x), _) if x.tag.is_none() => Ordering::Less, (_, &ItemContainer::Enum(ref x)) if x.tag.is_none() => Ordering::Greater, (&ItemContainer::OpaqueItem(ref x), &ItemContainer::OpaqueItem(ref y)) => { x.path.cmp(&y.path) } (&ItemContainer::OpaqueItem(_), _) => Ordering::Less, (_, &ItemContainer::OpaqueItem(_)) => Ordering::Greater, _ => Ordering::Equal, }; self.order.sort_by(ordering); } } cbindgen-0.20.0/src/bindgen/error.rs000064400000000000000000000055640072674642500154120ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::error; use std::fmt; pub use crate::bindgen::cargo::cargo_expand::Error as CargoExpandError; pub use crate::bindgen::cargo::cargo_metadata::Error as CargoMetadataError; pub use crate::bindgen::cargo::cargo_toml::Error as CargoTomlError; pub use syn::parse::Error as ParseError; #[derive(Debug)] #[allow(clippy::enum_variant_names)] pub enum Error { CargoMetadata(String, CargoMetadataError), CargoToml(String, CargoTomlError), CargoExpand(String, CargoExpandError), ParseSyntaxError { crate_name: String, src_path: String, error: ParseError, }, ParseCannotOpenFile { crate_name: String, src_path: String, }, } impl fmt::Display for Error { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match *self { Error::CargoMetadata(ref path, ref error) => write!( f, "Couldn't execute `cargo metadata` with manifest {:?}: {:?}", path, error ), Error::CargoToml(ref path, ref error) => { write!(f, "Couldn't load manifest file {:?}: {:?}", path, error) } Error::CargoExpand(ref crate_name, ref error) => write!( f, "Parsing crate `{}`: couldn't run `cargo rustc -Zunpretty=expanded`: {:?}", crate_name, error ), Error::ParseSyntaxError { ref crate_name, ref src_path, ref error, } => { write!( f, "Parsing crate `{}`:`{}`:\n{:?}", crate_name, src_path, error )?; if !src_path.is_empty() { write!( f, "\nTry running `rustc -Z parse-only {}` to see a nicer error message", src_path, )? } Ok(()) } Error::ParseCannotOpenFile { ref crate_name, ref src_path, } => write!( f, "Parsing crate `{}`: cannot open file `{}`.", crate_name, src_path ), } } } impl error::Error for Error { fn source(&self) -> Option<&(dyn error::Error + 'static)> { match self { Error::CargoMetadata(_, ref error) => Some(error), Error::CargoToml(_, ref error) => Some(error), Error::CargoExpand(_, ref error) => Some(error), Error::ParseSyntaxError { ref error, .. } => Some(error), Error::ParseCannotOpenFile { .. } => None, } } } cbindgen-0.20.0/src/bindgen/ir/annotation.rs000064400000000000000000000124620072674642500170400ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::collections::hash_map::Entry; use std::collections::HashMap; use std::str::FromStr; use crate::bindgen::config::{Config, Language}; use crate::bindgen::utilities::SynAttributeHelpers; // A system for specifying properties on items. Annotations are // given through document comments and parsed by this code. // // An annotation is in the form cbindgen:PROPERTY=VALUE // Where PROPERTY depends on the item // Where VALUE can be // * list - [Item1, Item2, Item3, ...] // * atom - Foo // * bool - true,false // Examples: // * cbindgen:field-names=[mHandle, mNamespace] // * cbindgen:function-postfix=WR_DESTRUCTOR_SAFE /// A value specified by an annotation. #[derive(Debug, Clone)] pub enum AnnotationValue { List(Vec), Atom(Option), Bool(bool), } /// A set of annotations specified by a document comment. #[derive(Debug, Default, Clone)] pub struct AnnotationSet { annotations: HashMap, pub must_use: bool, } impl AnnotationSet { pub fn new() -> AnnotationSet { AnnotationSet { annotations: HashMap::new(), must_use: false, } } pub fn is_empty(&self) -> bool { self.annotations.is_empty() && !self.must_use } pub(crate) fn must_use(&self, config: &Config) -> bool { self.must_use && config.language != Language::Cython } pub fn load(attrs: &[syn::Attribute]) -> Result { let lines = attrs.get_comment_lines(); let lines: Vec<&str> = lines .iter() .filter_map(|line| { let line = line.trim_start(); if !line.starts_with("cbindgen:") { return None; } Some(line) }) .collect(); let must_use = attrs.has_attr_word("must_use"); let mut annotations = HashMap::new(); // Look at each line for an annotation for line in lines { debug_assert!(line.starts_with("cbindgen:")); // Remove the "cbindgen:" prefix let annotation = &line[9..]; // Split the annotation in two let parts: Vec<&str> = annotation.split('=').map(|x| x.trim()).collect(); if parts.len() > 2 { return Err(format!("Couldn't parse {}.", line)); } // Grab the name that this annotation is modifying let name = parts[0]; // If the annotation only has a name, assume it's setting a bool flag if parts.len() == 1 { annotations.insert(name.to_string(), AnnotationValue::Bool(true)); continue; } // Parse the value we're setting the name to let value = parts[1]; if let Some(x) = parse_list(value) { annotations.insert(name.to_string(), AnnotationValue::List(x)); continue; } if let Ok(x) = value.parse::() { annotations.insert(name.to_string(), AnnotationValue::Bool(x)); continue; } annotations.insert( name.to_string(), if value.is_empty() { AnnotationValue::Atom(None) } else { AnnotationValue::Atom(Some(value.to_string())) }, ); } Ok(AnnotationSet { annotations, must_use, }) } /// Adds an annotation value if none is specified. pub fn add_default(&mut self, name: &str, value: AnnotationValue) { if let Entry::Vacant(e) = self.annotations.entry(name.to_string()) { e.insert(value); } } pub fn list(&self, name: &str) -> Option> { match self.annotations.get(name) { Some(&AnnotationValue::List(ref x)) => Some(x.clone()), _ => None, } } pub fn atom(&self, name: &str) -> Option> { match self.annotations.get(name) { Some(&AnnotationValue::Atom(ref x)) => Some(x.clone()), _ => None, } } pub fn bool(&self, name: &str) -> Option { match self.annotations.get(name) { Some(&AnnotationValue::Bool(ref x)) => Some(*x), _ => None, } } pub fn parse_atom(&self, name: &str) -> Option where T: Default + FromStr, { match self.annotations.get(name) { Some(&AnnotationValue::Atom(ref x)) => Some( x.as_ref() .map_or(T::default(), |y| y.parse::().ok().unwrap()), ), _ => None, } } } /// Parse lists like "[x, y, z]". This is not implemented efficiently or well. fn parse_list(list: &str) -> Option> { if list.len() < 2 { return None; } match (list.chars().next(), list.chars().last()) { (Some('['), Some(']')) => Some( list[1..list.len() - 1] .split(',') .map(|x| x.trim().to_string()) .collect(), ), _ => None, } } cbindgen-0.20.0/src/bindgen/ir/cfg.rs000064400000000000000000000266450072674642500154350ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::fmt; use std::io::Write; use crate::bindgen::cargo::cargo_metadata::Dependency; use crate::bindgen::config::{Config, Language}; use crate::bindgen::writer::SourceWriter; #[derive(PartialEq, Eq)] enum DefineKey<'a> { Boolean(&'a str), Named(&'a str, &'a str), } impl<'a> DefineKey<'a> { fn load(key: &str) -> DefineKey { // TODO: dirty parser if !key.contains('=') { return DefineKey::Boolean(key); } let mut splits = key.trim().split('='); let name = match splits.next() { Some(n) => n.trim(), None => return DefineKey::Boolean(key), }; let value = match splits.next() { Some(v) => v.trim(), None => return DefineKey::Boolean(key), }; if splits.next().is_some() { return DefineKey::Boolean(key); } DefineKey::Named(name, value) } } #[derive(Debug, Clone)] pub enum Cfg { Boolean(String), Named(String, String), Any(Vec), All(Vec), Not(Box), } impl fmt::Display for Cfg { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { match self { Cfg::Boolean(key) => write!(f, "{}", key), Cfg::Named(key, value) => write!(f, "{} = {:?}", key, value), Cfg::Any(cfgs) => { write!(f, "any(")?; for (index, cfg) in cfgs.iter().enumerate() { if index > 0 { write!(f, ", ")?; } write!(f, "{}", cfg)?; } write!(f, ")") } Cfg::All(cfgs) => { write!(f, "all(")?; for (index, cfg) in cfgs.iter().enumerate() { if index > 0 { write!(f, ", ")?; } write!(f, "{}", cfg)?; } write!(f, ")") } Cfg::Not(cfg) => write!(f, "not({})", cfg), } } } impl Cfg { pub fn join(cfgs: &[Cfg]) -> Option { if cfgs.is_empty() { None } else { Some(Cfg::All(cfgs.to_owned())) } } pub fn append(parent: Option<&Cfg>, child: Option) -> Option { match (parent, child) { (None, None) => None, (None, Some(child)) => Some(child), (Some(parent), None) => Some(parent.clone()), (Some(parent), Some(child)) => Some(Cfg::All(vec![parent.clone(), child])), } } pub fn load(attrs: &[syn::Attribute]) -> Option { let mut configs = Vec::new(); for attr in attrs { if let Ok(syn::Meta::List(syn::MetaList { path, nested, .. })) = attr.parse_meta() { if !path.is_ident("cfg") || nested.len() != 1 { continue; } if let Some(config) = Cfg::load_single(nested.first().unwrap()) { configs.push(config); } } } match configs.len() { 0 => None, 1 => Some(configs.pop().unwrap()), _ => Some(Cfg::All(configs)), } } pub fn load_metadata(dependency: &Dependency) -> Option { let target = dependency.target.as_ref()?; match syn::parse_str::(target) { Ok(target) => { // Parsing succeeded using the #[cfg] syntax if let syn::Meta::List(syn::MetaList { path, nested, .. }) = target { if !path.is_ident("cfg") || nested.len() != 1 { return None; } Cfg::load_single(nested.first().unwrap()) } else { None } } Err(_) => { // Parsing failed using #[cfg], this may be a literal target // name Cfg::load_single(&syn::NestedMeta::Lit(syn::Lit::Str(syn::LitStr::new( target, proc_macro2::Span::call_site(), )))) } } } fn load_single(item: &syn::NestedMeta) -> Option { Some(match *item { syn::NestedMeta::Meta(syn::Meta::Path(ref path)) => { Cfg::Boolean(format!("{}", path.segments.first().unwrap().ident)) } syn::NestedMeta::Meta(syn::Meta::NameValue(syn::MetaNameValue { ref path, lit: syn::Lit::Str(ref value), .. })) => Cfg::Named( format!("{}", path.segments.first().unwrap().ident), value.value(), ), syn::NestedMeta::Meta(syn::Meta::List(syn::MetaList { ref path, ref nested, .. })) => { if path.is_ident("any") { Cfg::Any(Cfg::load_list(nested.iter())?) } else if path.is_ident("all") { Cfg::All(Cfg::load_list(nested.iter())?) } else if path.is_ident("not") { if nested.len() != 1 { return None; } Cfg::Not(Box::new(Cfg::load_single(&nested[0])?)) } else { return None; } } _ => return None, }) } fn load_list<'a, I: Iterator>(attrs: I) -> Option> { let mut configs = Vec::new(); for attr in attrs { configs.push(Cfg::load_single(attr)?); } if configs.is_empty() { None } else { Some(configs) } } } pub trait ToCondition: Sized { fn to_condition(&self, config: &Config) -> Option; } impl<'a> ToCondition for Option { fn to_condition(&self, config: &Config) -> Option { self.as_ref()?.to_condition(config) } } impl<'a> ToCondition for Cfg { fn to_condition(&self, config: &Config) -> Option { match *self { Cfg::Boolean(ref cfg_name) => { let define = config .defines .iter() .find(|(key, ..)| DefineKey::Boolean(cfg_name) == DefineKey::load(key)); if let Some((_, define)) = define { Some(Condition::Define(define.to_owned())) } else { warn!( "Missing `[defines]` entry for `{}` in cbindgen config.", self, ); None } } Cfg::Named(ref cfg_name, ref cfg_value) => { let define = config.defines.iter().find(|(key, ..)| { DefineKey::Named(cfg_name, cfg_value) == DefineKey::load(key) }); if let Some((_, define)) = define { Some(Condition::Define(define.to_owned())) } else { warn!( "Missing `[defines]` entry for `{}` in cbindgen config.", self, ); None } } Cfg::Any(ref children) => { let conditions: Vec<_> = children .iter() .filter_map(|x| x.to_condition(config)) .collect(); match conditions.len() { 0 => None, 1 => conditions.into_iter().next(), _ => Some(Condition::Any(conditions)), } } Cfg::All(ref children) => { let cfgs: Vec<_> = children .iter() .filter_map(|x| x.to_condition(config)) .collect(); match cfgs.len() { 0 => None, 1 => cfgs.into_iter().next(), _ => Some(Condition::All(cfgs)), } } Cfg::Not(ref child) => child .to_condition(config) .map(|cfg| Condition::Not(Box::new(cfg))), } } } #[derive(Debug, Clone)] pub enum Condition { Define(String), Any(Vec), All(Vec), Not(Box), } impl Condition { fn write(&self, config: &Config, out: &mut SourceWriter) { match *self { Condition::Define(ref define) => { if config.language == Language::Cython { write!(out, "{}", define); } else { out.write("defined("); write!(out, "{}", define); out.write(")"); } } Condition::Any(ref conditions) => { out.write("("); for (i, condition) in conditions.iter().enumerate() { if i != 0 { out.write(if config.language == Language::Cython { " or " } else { " || " }); } condition.write(config, out); } out.write(")"); } Condition::All(ref conditions) => { out.write("("); for (i, condition) in conditions.iter().enumerate() { if i != 0 { out.write(if config.language == Language::Cython { " and " } else { " && " }); } condition.write(config, out); } out.write(")"); } Condition::Not(ref condition) => { out.write(if config.language == Language::Cython { "not " } else { "!" }); condition.write(config, out); } } } } pub trait ConditionWrite { fn write_before(&self, config: &Config, out: &mut SourceWriter); fn write_after(&self, config: &Config, out: &mut SourceWriter); } impl ConditionWrite for Option { fn write_before(&self, config: &Config, out: &mut SourceWriter) { if let Some(ref cfg) = *self { if config.language == Language::Cython { out.write("IF "); cfg.write(config, out); out.open_brace(); } else { out.push_set_spaces(0); out.write("#if "); cfg.write(config, out); out.pop_set_spaces(); out.new_line(); } } } fn write_after(&self, config: &Config, out: &mut SourceWriter) { if self.is_some() { if config.language == Language::Cython { out.close_brace(false); } else { out.new_line(); out.push_set_spaces(0); out.write("#endif"); out.pop_set_spaces(); } } } } cbindgen-0.20.0/src/bindgen/ir/constant.rs000064400000000000000000000501320072674642500165130ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::borrow::Cow; use std::collections::HashMap; use std::io::Write; use syn::{self, UnOp}; use crate::bindgen::config::{Config, Language}; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::ir::{ AnnotationSet, Cfg, ConditionWrite, Documentation, GenericParams, Item, ItemContainer, Path, Struct, ToCondition, Type, }; use crate::bindgen::library::Library; use crate::bindgen::writer::{Source, SourceWriter}; use crate::bindgen::Bindings; #[derive(Debug, Clone)] pub enum Literal { Expr(String), Path(String), PostfixUnaryOp { op: &'static str, value: Box, }, BinOp { left: Box, op: &'static str, right: Box, }, Struct { path: Path, export_name: String, fields: HashMap, }, Cast { ty: Type, value: Box, }, } impl Literal { fn replace_self_with(&mut self, self_ty: &Path) { match *self { Literal::PostfixUnaryOp { ref mut value, .. } => { value.replace_self_with(self_ty); } Literal::BinOp { ref mut left, ref mut right, .. } => { left.replace_self_with(self_ty); right.replace_self_with(self_ty); } Literal::Struct { ref mut path, ref mut export_name, ref mut fields, } => { if path.replace_self_with(self_ty) { *export_name = self_ty.name().to_owned(); } for ref mut expr in fields.values_mut() { expr.replace_self_with(self_ty); } } Literal::Cast { ref mut ty, ref mut value, } => { ty.replace_self_with(self_ty); value.replace_self_with(self_ty); } Literal::Expr(..) | Literal::Path(..) => {} } } fn is_valid(&self, bindings: &Bindings) -> bool { match *self { Literal::Expr(..) => true, Literal::Path(..) => true, Literal::PostfixUnaryOp { ref value, .. } => value.is_valid(bindings), Literal::BinOp { ref left, ref right, .. } => left.is_valid(bindings) && right.is_valid(bindings), Literal::Struct { ref path, .. } => bindings.struct_exists(path), Literal::Cast { ref value, .. } => value.is_valid(bindings), } } pub fn uses_only_primitive_types(&self) -> bool { match self { Literal::Expr(..) => true, Literal::Path(..) => true, Literal::PostfixUnaryOp { ref value, .. } => value.uses_only_primitive_types(), Literal::BinOp { ref left, ref right, .. } => left.uses_only_primitive_types() & right.uses_only_primitive_types(), Literal::Struct { .. } => false, Literal::Cast { ref value, ref ty } => { value.uses_only_primitive_types() && ty.is_primitive_or_ptr_primitive() } } } } impl Literal { pub fn rename_for_config(&mut self, config: &Config) { match self { Literal::Struct { ref mut export_name, fields, .. } => { config.export.rename(export_name); for lit in fields.values_mut() { lit.rename_for_config(config); } } Literal::Path(ref mut name) => { config.export.rename(name); } Literal::PostfixUnaryOp { ref mut value, .. } => { value.rename_for_config(config); } Literal::BinOp { ref mut left, ref mut right, .. } => { left.rename_for_config(config); right.rename_for_config(config); } Literal::Expr(_) => {} Literal::Cast { ref mut ty, ref mut value, } => { ty.rename_for_config(config, &GenericParams::default()); value.rename_for_config(config); } } } // Translate from full blown `syn::Expr` into a simpler `Literal` type pub fn load(expr: &syn::Expr) -> Result { match *expr { // Match binary expressions of the form `a * b` syn::Expr::Binary(ref bin_expr) => { let l = Self::load(&bin_expr.left)?; let r = Self::load(&bin_expr.right)?; let op = match bin_expr.op { syn::BinOp::Add(..) => "+", syn::BinOp::Sub(..) => "-", syn::BinOp::Mul(..) => "*", syn::BinOp::Div(..) => "/", syn::BinOp::Rem(..) => "%", syn::BinOp::And(..) => "&&", syn::BinOp::Or(..) => "||", syn::BinOp::BitXor(..) => "^", syn::BinOp::BitAnd(..) => "&", syn::BinOp::BitOr(..) => "|", syn::BinOp::Shl(..) => "<<", syn::BinOp::Shr(..) => ">>", syn::BinOp::Eq(..) => "==", syn::BinOp::Lt(..) => "<", syn::BinOp::Le(..) => "<=", syn::BinOp::Ne(..) => "!=", syn::BinOp::Ge(..) => ">=", syn::BinOp::Gt(..) => ">", syn::BinOp::AddEq(..) => "+=", syn::BinOp::SubEq(..) => "-=", syn::BinOp::MulEq(..) => "*=", syn::BinOp::DivEq(..) => "/=", syn::BinOp::RemEq(..) => "%=", syn::BinOp::BitXorEq(..) => "^=", syn::BinOp::BitAndEq(..) => "&=", syn::BinOp::BitOrEq(..) => "|=", syn::BinOp::ShlEq(..) => ">>=", syn::BinOp::ShrEq(..) => "<<=", }; Ok(Literal::BinOp { left: Box::new(l), op, right: Box::new(r), }) } // Match literals like true, 'a', 32 etc syn::Expr::Lit(syn::ExprLit { ref lit, .. }) => { match lit { syn::Lit::Byte(ref value) => Ok(Literal::Expr(format!("{}", value.value()))), syn::Lit::Char(ref value) => Ok(Literal::Expr(match value.value() as u32 { 0..=255 => format!("'{}'", value.value().escape_default()), other_code => format!(r"U'\U{:08X}'", other_code), })), syn::Lit::Int(ref value) => { if value.base10_parse::().is_err() { Ok(Literal::Expr(format!("{}ULL", value.base10_digits()))) } else { Ok(Literal::Expr(value.base10_digits().to_string())) } } syn::Lit::Float(ref value) => { Ok(Literal::Expr(value.base10_digits().to_string())) } syn::Lit::Bool(ref value) => Ok(Literal::Expr(format!("{}", value.value))), // TODO: Add support for byte string and Verbatim _ => Err(format!("Unsupported literal expression. {:?}", *lit)), } } syn::Expr::Struct(syn::ExprStruct { ref path, ref fields, .. }) => { let struct_name = path.segments[0].ident.to_string(); let mut field_map = HashMap::::default(); for field in fields { let ident = match field.member { syn::Member::Named(ref name) => name.to_string(), syn::Member::Unnamed(ref index) => format!("_{}", index.index), }; let key = ident.to_string(); let value = Literal::load(&field.expr)?; field_map.insert(key, value); } Ok(Literal::Struct { path: Path::new(struct_name.clone()), export_name: struct_name, fields: field_map, }) } syn::Expr::Unary(syn::ExprUnary { ref op, ref expr, .. }) => match *op { UnOp::Neg(_) => { let val = Self::load(expr)?; Ok(Literal::PostfixUnaryOp { op: "-", value: Box::new(val), }) } _ => Err(format!("Unsupported Unary expression. {:?}", *op)), }, // Match identifiers, like `5 << SHIFT` syn::Expr::Path(syn::ExprPath { path: syn::Path { ref segments, .. }, .. }) => { // Handle only the simplest identifiers and error for anything else. if segments.len() == 1 { Ok(Literal::Path(format!("{}", segments.last().unwrap().ident))) } else { Err(format!("Unsupported path expression. {:?}", *segments)) } } syn::Expr::Paren(syn::ExprParen { ref expr, .. }) => Self::load(expr), syn::Expr::Cast(syn::ExprCast { ref expr, ref ty, .. }) => { let val = Self::load(expr)?; match Type::load(ty)? { Some(ty) => Ok(Literal::Cast { ty, value: Box::new(val), }), None => Err("Cannot cast to zero sized type.".to_owned()), } } _ => Err(format!("Unsupported expression. {:?}", *expr)), } } pub(crate) fn write(&self, config: &Config, out: &mut SourceWriter) { match self { Literal::Expr(v) => match (&**v, config.language) { ("true", Language::Cython) => write!(out, "True"), ("false", Language::Cython) => write!(out, "False"), (v, _) => write!(out, "{}", v), }, Literal::Path(v) => write!(out, "{}", v), Literal::PostfixUnaryOp { op, ref value } => { write!(out, "{}", op); value.write(config, out); } Literal::BinOp { ref left, op, ref right, } => { write!(out, "("); left.write(config, out); write!(out, " {} ", op); right.write(config, out); write!(out, ")"); } Literal::Cast { ref ty, ref value } => { out.write(if config.language == Language::Cython { "<" } else { "(" }); ty.write(config, out); out.write(if config.language == Language::Cython { ">" } else { ")" }); value.write(config, out); } Literal::Struct { export_name, fields, path, } => { match config.language { Language::C => write!(out, "({})", export_name), Language::Cxx => write!(out, "{}", export_name), Language::Cython => write!(out, "<{}>", export_name), } write!(out, "{{ "); let mut is_first_field = true; // In C++, same order as defined is required. let ordered_fields = out.bindings().struct_field_names(path); for ordered_key in ordered_fields.iter() { if let Some(lit) = fields.get(ordered_key) { if !is_first_field { write!(out, ", "); } else { is_first_field = false; } match config.language { Language::Cxx => write!(out, "/* .{} = */ ", ordered_key), Language::C => write!(out, ".{} = ", ordered_key), Language::Cython => {} } lit.write(config, out); } } write!(out, " }}"); } } } } #[derive(Debug, Clone)] pub struct Constant { pub path: Path, pub export_name: String, pub ty: Type, pub value: Literal, pub cfg: Option, pub annotations: AnnotationSet, pub documentation: Documentation, pub associated_to: Option, } impl Constant { pub fn load( path: Path, mod_cfg: Option<&Cfg>, ty: &syn::Type, expr: &syn::Expr, attrs: &[syn::Attribute], associated_to: Option, ) -> Result { let ty = Type::load(ty)?; let mut ty = match ty { Some(ty) => ty, None => { return Err("Cannot have a zero sized const definition.".to_owned()); } }; let mut lit = Literal::load(expr)?; if let Some(ref associated_to) = associated_to { ty.replace_self_with(associated_to); lit.replace_self_with(associated_to); } Ok(Constant::new( path, ty, lit, Cfg::append(mod_cfg, Cfg::load(attrs)), AnnotationSet::load(attrs)?, Documentation::load(attrs), associated_to, )) } pub fn new( path: Path, ty: Type, value: Literal, cfg: Option, annotations: AnnotationSet, documentation: Documentation, associated_to: Option, ) -> Self { let export_name = path.name().to_owned(); Self { path, export_name, ty, value, cfg, annotations, documentation, associated_to, } } pub fn uses_only_primitive_types(&self) -> bool { self.value.uses_only_primitive_types() && self.ty.is_primitive_or_ptr_primitive() } } impl Item for Constant { fn path(&self) -> &Path { &self.path } fn add_dependencies(&self, library: &Library, out: &mut Dependencies) { self.ty.add_dependencies(library, out); } fn export_name(&self) -> &str { &self.export_name } fn cfg(&self) -> Option<&Cfg> { self.cfg.as_ref() } fn annotations(&self) -> &AnnotationSet { &self.annotations } fn annotations_mut(&mut self) -> &mut AnnotationSet { &mut self.annotations } fn container(&self) -> ItemContainer { ItemContainer::Constant(self.clone()) } fn rename_for_config(&mut self, config: &Config) { if self.associated_to.is_none() { config.export.rename(&mut self.export_name); } self.value.rename_for_config(config); self.ty.rename_for_config(config, &GenericParams::default()); // FIXME: should probably propagate something here } fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) { self.ty.resolve_declaration_types(resolver); } } impl Constant { pub fn write_declaration( &self, config: &Config, out: &mut SourceWriter, associated_to_struct: &Struct, ) { debug_assert!(self.associated_to.is_some()); debug_assert!(config.language == Language::Cxx); debug_assert!(!associated_to_struct.is_transparent); debug_assert!(config.structure.associated_constants_in_body); debug_assert!(config.constant.allow_static_const); if let Type::Ptr { is_const: true, .. } = self.ty { out.write("static "); } else { out.write("static const "); } self.ty.write(config, out); write!(out, " {};", self.export_name()) } pub fn write( &self, config: &Config, out: &mut SourceWriter, associated_to_struct: Option<&Struct>, ) { if let Some(assoc) = associated_to_struct { if assoc.is_generic() { return; // Not tested / implemented yet, so bail out. } } if !self.value.is_valid(out.bindings()) { return; } let associated_to_transparent = associated_to_struct.map_or(false, |s| s.is_transparent); let in_body = associated_to_struct.is_some() && config.language == Language::Cxx && config.structure.associated_constants_in_body && config.constant.allow_static_const && !associated_to_transparent; let condition = self.cfg.to_condition(config); condition.write_before(config, out); let name = if in_body { Cow::Owned(format!( "{}::{}", associated_to_struct.unwrap().export_name(), self.export_name(), )) } else if self.associated_to.is_none() { Cow::Borrowed(self.export_name()) } else { let associated_name = match associated_to_struct { Some(s) => Cow::Borrowed(s.export_name()), None => { let mut name = self.associated_to.as_ref().unwrap().name().to_owned(); config.export.rename(&mut name); Cow::Owned(name) } }; Cow::Owned(format!("{}_{}", associated_name, self.export_name())) }; let value = match self.value { Literal::Struct { ref fields, ref path, .. } if out.bindings().struct_is_transparent(path) => fields.iter().next().unwrap().1, _ => &self.value, }; self.documentation.write(config, out); let allow_constexpr = if let Type::Primitive(..) = self.ty { config.constant.allow_constexpr } else { false }; match config.language { Language::Cxx if config.constant.allow_static_const || allow_constexpr => { if allow_constexpr { out.write("constexpr ") } if config.constant.allow_static_const { out.write(if in_body { "inline " } else { "static " }); } if let Type::Ptr { is_const: true, .. } = self.ty { // Nothing. } else { out.write("const "); } self.ty.write(config, out); write!(out, " {} = ", name); value.write(config, out); write!(out, ";"); } Language::Cxx | Language::C => { write!(out, "#define {} ", name); value.write(config, out); } Language::Cython => { out.write("const "); self.ty.write(config, out); // For extern Cython declarations the initializer is ignored, // but still useful as documentation, so we write it as a comment. write!(out, " {} # = ", name); value.write(config, out); } } condition.write_after(config, out); } } cbindgen-0.20.0/src/bindgen/ir/documentation.rs000064400000000000000000000062300072674642500175330ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::io::Write; use crate::bindgen::config::{Config, DocumentationStyle, Language}; use crate::bindgen::utilities::SynAttributeHelpers; use crate::bindgen::writer::{Source, SourceWriter}; #[derive(Debug, Clone)] pub struct Documentation { pub doc_comment: Vec, } impl Documentation { pub fn load(attrs: &[syn::Attribute]) -> Self { let doc = attrs .get_comment_lines() .into_iter() .filter(|x| !x.trim_start().starts_with("cbindgen:")) .collect(); Documentation { doc_comment: doc } } pub fn simple(line: &str) -> Self { Documentation { doc_comment: vec![line.to_owned()], } } pub fn none() -> Self { Documentation { doc_comment: Vec::new(), } } } impl Source for Documentation { fn write(&self, config: &Config, out: &mut SourceWriter) { if self.doc_comment.is_empty() || !config.documentation { return; } // Cython uses Python-style comments, so `documentation_style` is not relevant. if config.language == Language::Cython { for line in &self.doc_comment { write!(out, "#{}", line); out.new_line(); } return; } let style = match config.documentation_style { DocumentationStyle::Auto if config.language == Language::C => DocumentationStyle::Doxy, DocumentationStyle::Auto if config.language == Language::Cxx => DocumentationStyle::Cxx, DocumentationStyle::Auto => DocumentationStyle::C, // Fallback if `Language` gets extended. other => other, }; // Following these documents for style conventions: // https://en.wikibooks.org/wiki/C++_Programming/Code/Style_Conventions/Comments // https://www.cs.cmu.edu/~410/doc/doxygen.html match style { DocumentationStyle::C => { out.write("/*"); out.new_line(); } DocumentationStyle::Doxy => { out.write("/**"); out.new_line(); } _ => (), } for line in &self.doc_comment { match style { DocumentationStyle::C => out.write(""), DocumentationStyle::Doxy => out.write(" *"), DocumentationStyle::C99 => out.write("//"), DocumentationStyle::Cxx => out.write("///"), DocumentationStyle::Auto => unreachable!(), // Auto case should always be covered } write!(out, "{}", line); out.new_line(); } match style { DocumentationStyle::C => { out.write(" */"); out.new_line(); } DocumentationStyle::Doxy => { out.write(" */"); out.new_line(); } _ => (), } } } cbindgen-0.20.0/src/bindgen/ir/enumeration.rs000064400000000000000000001510440072674642500172140ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::io::Write; use crate::bindgen::config::{Config, Language}; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::ir::{ AnnotationSet, AnnotationValue, Cfg, ConditionWrite, Documentation, Field, GenericParams, GenericPath, Item, ItemContainer, Literal, Path, Repr, ReprStyle, Struct, ToCondition, Type, }; use crate::bindgen::library::Library; use crate::bindgen::mangle; use crate::bindgen::monomorph::Monomorphs; use crate::bindgen::rename::{IdentifierType, RenameRule}; use crate::bindgen::reserved; use crate::bindgen::writer::{ListType, Source, SourceWriter}; #[allow(clippy::large_enum_variant)] #[derive(Debug, Clone)] pub enum VariantBody { Empty(AnnotationSet), Body { /// The variant field / export name. name: String, /// The struct with all the items. body: Struct, /// A separate named struct is not created for this variant, /// an unnamed struct is inlined at the point of use instead. /// This is a reasonable thing to do only for tuple variants with a single field. inline: bool, /// Generated cast methods return the variant's only field instead of the variant itself. /// For backward compatibility casts are inlined in a slightly /// larger set of cases than whole variants. inline_casts: bool, }, } impl VariantBody { fn empty() -> Self { Self::Empty(AnnotationSet::new()) } fn annotations(&self) -> &AnnotationSet { match *self { Self::Empty(ref anno) => anno, Self::Body { ref body, .. } => &body.annotations, } } fn is_empty(&self) -> bool { match *self { Self::Empty(..) => true, Self::Body { .. } => false, } } fn specialize( &self, generic_values: &[Type], mappings: &[(&Path, &Type)], config: &Config, ) -> Self { match *self { Self::Empty(ref annos) => Self::Empty(annos.clone()), Self::Body { ref name, ref body, inline, inline_casts, } => Self::Body { name: name.clone(), body: body.specialize(generic_values, mappings, config), inline, inline_casts, }, } } } #[derive(Debug, Clone)] pub struct EnumVariant { pub name: String, pub export_name: String, pub discriminant: Option, pub body: VariantBody, pub cfg: Option, pub documentation: Documentation, } impl EnumVariant { fn load( inline_tag_field: bool, variant: &syn::Variant, generic_params: GenericParams, mod_cfg: Option<&Cfg>, self_path: &Path, enum_annotations: &AnnotationSet, config: &Config, ) -> Result { let discriminant = match variant.discriminant { Some((_, ref expr)) => Some(Literal::load(expr)?), None => None, }; fn parse_fields( inline_tag_field: bool, fields: &syn::punctuated::Punctuated, self_path: &Path, inline_name: Option<&str>, ) -> Result, String> { let mut res = Vec::new(); if inline_tag_field { res.push(Field::from_name_and_type( inline_name.map_or_else(|| "tag".to_string(), |name| format!("{}_tag", name)), Type::Path(GenericPath::new(Path::new("Tag"), vec![])), )); } for (i, field) in fields.iter().enumerate() { if let Some(mut ty) = Type::load(&field.ty)? { ty.replace_self_with(self_path); res.push(Field { name: inline_name.map_or_else( || match field.ident { Some(ref ident) => ident.to_string(), None => i.to_string(), }, |name| name.to_string(), ), ty, cfg: Cfg::load(&field.attrs), annotations: AnnotationSet::load(&field.attrs)?, documentation: Documentation::load(&field.attrs), }); } } Ok(res) } let variant_cfg = Cfg::append(mod_cfg, Cfg::load(&variant.attrs)); let mut annotations = AnnotationSet::load(&variant.attrs)?; if let Some(b) = enum_annotations.bool("derive-ostream") { annotations.add_default("derive-ostream", AnnotationValue::Bool(b)); } let body = match variant.fields { syn::Fields::Unit => VariantBody::Empty(annotations), syn::Fields::Named(ref fields) => { let path = Path::new(format!("{}_Body", variant.ident)); let name = RenameRule::SnakeCase .apply(&variant.ident.to_string(), IdentifierType::StructMember) .into_owned(); VariantBody::Body { body: Struct::new( path, generic_params, parse_fields(inline_tag_field, &fields.named, self_path, None)?, inline_tag_field, true, None, false, None, annotations, Documentation::none(), ), name, inline: false, inline_casts: false, } } syn::Fields::Unnamed(ref fields) => { let path = Path::new(format!("{}_Body", variant.ident)); let name = RenameRule::SnakeCase .apply(&variant.ident.to_string(), IdentifierType::StructMember) .into_owned(); let inline_casts = fields.unnamed.len() == 1; // In C++ types with destructors cannot be put into unnamed structs like the // inlining requires, and it's hard to detect such types. // Besides that for C++ we generate casts/getters that can be used instead of // direct field accesses and also have a benefit of being checked. // As a result we don't currently inline variant definitions in C++ mode at all. let inline = inline_casts && config.language != Language::Cxx; let inline_name = if inline { Some(&*name) } else { None }; VariantBody::Body { body: Struct::new( path, generic_params, parse_fields(inline_tag_field, &fields.unnamed, self_path, inline_name)?, inline_tag_field, true, None, false, None, annotations, Documentation::none(), ), name, inline, inline_casts, } } }; Ok(EnumVariant::new( variant.ident.to_string(), discriminant, body, variant_cfg, Documentation::load(&variant.attrs), )) } pub fn new( name: String, discriminant: Option, body: VariantBody, cfg: Option, documentation: Documentation, ) -> Self { let export_name = name.clone(); Self { name, export_name, discriminant, body, cfg, documentation, } } fn add_dependencies(&self, library: &Library, out: &mut Dependencies) { if let VariantBody::Body { ref body, .. } = self.body { body.add_dependencies(library, out); } } fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) { if let VariantBody::Body { ref mut body, .. } = self.body { body.resolve_declaration_types(resolver); } } fn specialize( &self, generic_values: &[Type], mappings: &[(&Path, &Type)], config: &Config, ) -> Self { Self::new( mangle::mangle_name(&self.name, generic_values, &config.export.mangle), self.discriminant.clone(), self.body.specialize(generic_values, mappings, config), self.cfg.clone(), self.documentation.clone(), ) } fn add_monomorphs(&self, library: &Library, out: &mut Monomorphs) { if let VariantBody::Body { ref body, .. } = self.body { body.add_monomorphs(library, out); } } fn mangle_paths(&mut self, monomorphs: &Monomorphs) { if let VariantBody::Body { ref mut body, .. } = self.body { body.mangle_paths(monomorphs); } } } impl Source for EnumVariant { fn write(&self, config: &Config, out: &mut SourceWriter) { let condition = self.cfg.to_condition(config); // Cython doesn't support conditional enum variants. if config.language != Language::Cython { condition.write_before(config, out); } self.documentation.write(config, out); write!(out, "{}", self.export_name); if let Some(discriminant) = &self.discriminant { if config.language == Language::Cython { // For extern Cython declarations the enumerator value is ignored, // but still useful as documentation, so we write it as a comment. out.write(" #") } out.write(" = "); discriminant.write(config, out); } out.write(","); if config.language != Language::Cython { condition.write_after(config, out); } } } #[derive(Debug, Clone)] pub struct Enum { pub path: Path, pub export_name: String, pub generic_params: GenericParams, pub repr: Repr, pub variants: Vec, pub tag: Option, pub cfg: Option, pub annotations: AnnotationSet, pub documentation: Documentation, } impl Enum { /// Name of the generated tag enum. fn tag_name(&self) -> &str { self.tag.as_deref().unwrap_or_else(|| self.export_name()) } /// Enum with data turns into a union of structs with each struct having its own tag field. fn inline_tag_field(repr: &Repr) -> bool { repr.style != ReprStyle::C } pub fn add_monomorphs(&self, library: &Library, out: &mut Monomorphs) { if self.generic_params.len() > 0 { return; } for v in &self.variants { v.add_monomorphs(library, out); } } fn can_derive_eq(&self) -> bool { if self.tag.is_none() { return false; } self.variants.iter().all(|variant| match variant.body { VariantBody::Empty(..) => true, VariantBody::Body { ref body, .. } => body.can_derive_eq(), }) } pub fn mangle_paths(&mut self, monomorphs: &Monomorphs) { for variant in &mut self.variants { variant.mangle_paths(monomorphs); } } pub fn load( item: &syn::ItemEnum, mod_cfg: Option<&Cfg>, config: &Config, ) -> Result { let repr = Repr::load(&item.attrs)?; if repr.style == ReprStyle::Rust && repr.ty.is_none() { return Err("Enum is not marked with a valid #[repr(prim)] or #[repr(C)].".to_owned()); } // TODO: Implement translation of aligned enums. if repr.align.is_some() { return Err("Enum is marked with #[repr(align(...))] or #[repr(packed)].".to_owned()); } let path = Path::new(item.ident.to_string()); let generic_params = GenericParams::new(&item.generics); let mut variants = Vec::new(); let mut has_data = false; let annotations = AnnotationSet::load(&item.attrs)?; for variant in item.variants.iter() { let variant = EnumVariant::load( Self::inline_tag_field(&repr), variant, generic_params.clone(), mod_cfg, &path, &annotations, config, )?; has_data = has_data || !variant.body.is_empty(); variants.push(variant); } if let Some(names) = annotations.list("enum-trailing-values") { for name in names { variants.push(EnumVariant::new( name, None, VariantBody::empty(), None, Documentation::none(), )); } } if config.enumeration.add_sentinel(&annotations) { variants.push(EnumVariant::new( "Sentinel".to_owned(), None, VariantBody::empty(), None, Documentation::simple(" Must be last for serialization purposes"), )); } let tag = if has_data { Some("Tag".to_string()) } else { None }; Ok(Enum::new( path, generic_params, repr, variants, tag, Cfg::append(mod_cfg, Cfg::load(&item.attrs)), annotations, Documentation::load(&item.attrs), )) } #[allow(clippy::too_many_arguments)] pub fn new( path: Path, generic_params: GenericParams, repr: Repr, variants: Vec, tag: Option, cfg: Option, annotations: AnnotationSet, documentation: Documentation, ) -> Self { let export_name = path.name().to_owned(); Self { path, export_name, generic_params, repr, variants, tag, cfg, annotations, documentation, } } } impl Item for Enum { fn path(&self) -> &Path { &self.path } fn export_name(&self) -> &str { &self.export_name } fn cfg(&self) -> Option<&Cfg> { self.cfg.as_ref() } fn annotations(&self) -> &AnnotationSet { &self.annotations } fn annotations_mut(&mut self) -> &mut AnnotationSet { &mut self.annotations } fn container(&self) -> ItemContainer { ItemContainer::Enum(self.clone()) } fn collect_declaration_types(&self, resolver: &mut DeclarationTypeResolver) { if self.tag.is_some() { if self.repr.style == ReprStyle::C { resolver.add_struct(&self.path); } else { resolver.add_union(&self.path); } } else if self.repr.style == ReprStyle::C { resolver.add_enum(&self.path); } else { // This is important to handle conflicting names with opaque items. resolver.add_none(&self.path); } } fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) { for &mut ref mut var in &mut self.variants { var.resolve_declaration_types(resolver); } } fn rename_for_config(&mut self, config: &Config) { config.export.rename(&mut self.export_name); if config.language != Language::Cxx && self.tag.is_some() { // it makes sense to always prefix Tag with type name in C let new_tag = format!("{}_Tag", self.export_name); if self.repr.style == ReprStyle::Rust { for variant in &mut self.variants { if let VariantBody::Body { ref mut body, .. } = variant.body { let path = Path::new(new_tag.clone()); let generic_path = GenericPath::new(path, vec![]); body.fields[0].ty = Type::Path(generic_path); } } } self.tag = Some(new_tag); } for variant in &mut self.variants { reserved::escape(&mut variant.export_name); if let Some(discriminant) = &mut variant.discriminant { discriminant.rename_for_config(config); } if let VariantBody::Body { ref mut name, ref mut body, .. } = variant.body { body.rename_for_config(config); reserved::escape(name); } } if config.enumeration.prefix_with_name || self.annotations.bool("prefix-with-name").unwrap_or(false) { for variant in &mut self.variants { variant.export_name = format!("{}_{}", self.export_name, variant.export_name); if let VariantBody::Body { ref mut body, .. } = variant.body { body.export_name = format!("{}_{}", self.export_name, body.export_name()); } } } let rules = self .annotations .parse_atom::("rename-all") .unwrap_or(config.enumeration.rename_variants); if let Some(r) = rules.not_none() { self.variants = self .variants .iter() .map(|variant| { EnumVariant::new( r.apply( &variant.export_name, IdentifierType::EnumVariant { prefix: &self.export_name, }, ) .into_owned(), variant.discriminant.clone(), match variant.body { VariantBody::Empty(..) => variant.body.clone(), VariantBody::Body { ref name, ref body, inline, inline_casts, } => VariantBody::Body { name: r.apply(name, IdentifierType::StructMember).into_owned(), body: body.clone(), inline, inline_casts, }, }, variant.cfg.clone(), variant.documentation.clone(), ) }) .collect(); } } fn instantiate_monomorph( &self, generic_values: &[Type], library: &Library, out: &mut Monomorphs, ) { assert!( self.generic_params.len() > 0, "{} is not generic", self.path.name() ); assert!( self.generic_params.len() == generic_values.len(), "{} has {} params but is being instantiated with {} values", self.path.name(), self.generic_params.len(), generic_values.len(), ); let mappings = self .generic_params .iter() .zip(generic_values.iter()) .collect::>(); for variant in &self.variants { if let VariantBody::Body { ref body, .. } = variant.body { body.instantiate_monomorph(generic_values, library, out); } } let mangled_path = mangle::mangle_path( &self.path, generic_values, &library.get_config().export.mangle, ); let monomorph = Enum::new( mangled_path, GenericParams::default(), self.repr, self.variants .iter() .map(|v| v.specialize(generic_values, &mappings, library.get_config())) .collect(), self.tag.clone(), self.cfg.clone(), self.annotations.clone(), self.documentation.clone(), ); out.insert_enum(library, self, monomorph, generic_values.to_owned()); } fn add_dependencies(&self, library: &Library, out: &mut Dependencies) { for variant in &self.variants { variant.add_dependencies(library, out); } } } impl Source for Enum { fn write(&self, config: &Config, out: &mut SourceWriter) { let size = self.repr.ty.map(|ty| ty.to_primitive().to_repr_c(config)); let has_data = self.tag.is_some(); let inline_tag_field = Self::inline_tag_field(&self.repr); let tag_name = self.tag_name(); let condition = self.cfg.to_condition(config); condition.write_before(config, out); self.documentation.write(config, out); self.generic_params.write(config, out); // If the enum has data, we need to emit a struct or union for the data // and enum for the tag. C++ supports nested type definitions, so we open // the struct or union here and define the tag enum inside it (*). if has_data && config.language == Language::Cxx { self.open_struct_or_union(config, out, inline_tag_field); } // Emit the tag enum and everything related to it. self.write_tag_enum(config, out, size, has_data, tag_name); // If the enum has data, we need to emit structs for the variants and gather them together. if has_data { self.write_variant_defs(config, out); out.new_line(); out.new_line(); // Open the struct or union for the data (**), gathering all the variants with data // together, unless it's C++, then we have already opened that struct/union at (*) and // are currently inside it. if config.language != Language::Cxx { self.open_struct_or_union(config, out, inline_tag_field); } // Emit tag field that is separate from all variants. self.write_tag_field(config, out, size, inline_tag_field, tag_name); out.new_line(); // Open union of all variants with data, only in the non-inline tag scenario. // Cython extern declarations don't manage layouts, layouts are defined entierly by the // corresponding C code. So we can inline the unnamed union into the struct and get the // same observable result. Moreother we have to do it because Cython doesn't support // unnamed unions. if !inline_tag_field && config.language != Language::Cython { out.write("union"); out.open_brace(); } // Emit fields for all variants with data. self.write_variant_fields(config, out); // Close union of all variants with data, only in the non-inline tag scenario. // See the comment about Cython on `open_brace`. if !inline_tag_field && config.language != Language::Cython { out.close_brace(true); } // Emit convenience methods for the struct or enum for the data. self.write_derived_functions_data(config, out, tag_name); // Emit the post_body section, if relevant. if let Some(body) = config.export.post_body(&self.path) { out.new_line(); out.write_raw_block(body); } // Close the struct or union opened either at (*) or at (**). if config.language == Language::C && config.style.generate_typedef() { out.close_brace(false); write!(out, " {};", self.export_name); } else { out.close_brace(true); } } condition.write_after(config, out); } } impl Enum { /// Emit the tag enum and convenience methods for it. /// For enums with data this is only a part of the output, /// but for enums without data it's the whole output (modulo doc comments etc.). fn write_tag_enum( &self, config: &Config, out: &mut SourceWriter, size: Option<&str>, has_data: bool, tag_name: &str, ) { // Open the tag enum. match config.language { Language::C => { if let Some(prim) = size { // If we need to specify size, then we have no choice but to create a typedef, // so `config.style` is not respected. write!(out, "enum {}", tag_name); if config.cpp_compatible_c() { out.new_line(); out.write("#ifdef __cplusplus"); out.new_line(); write!(out, " : {}", prim); out.new_line(); out.write("#endif // __cplusplus"); out.new_line(); } } else { if config.style.generate_typedef() { out.write("typedef "); } out.write("enum"); if config.style.generate_tag() { write!(out, " {}", tag_name); } } } Language::Cxx => { if config.enumeration.enum_class(&self.annotations) { out.write("enum class"); } else { out.write("enum"); } if self.annotations.must_use(config) { if let Some(ref anno) = config.enumeration.must_use { write!(out, " {}", anno) } } write!(out, " {}", tag_name); if let Some(prim) = size { write!(out, " : {}", prim); } } Language::Cython => { if size.is_some() { // If we need to specify size, then we have no choice but to create a typedef, // so `config.style` is not respected. write!(out, "cdef enum"); } else { write!(out, "{}enum {}", config.style.cython_def(), tag_name); } } } out.open_brace(); // Emit enumerators for the tag enum. for (i, variant) in self.variants.iter().enumerate() { if i != 0 { out.new_line() } variant.write(config, out); } // Close the tag enum. if config.language == Language::C && size.is_none() && config.style.generate_typedef() { out.close_brace(false); write!(out, " {};", tag_name); } else { out.close_brace(true); } // Emit typedef specifying the tag enum's size if necessary. // In C++ enums can "inherit" from numeric types (`enum E: uint8_t { ... }`), // but in C `typedef uint8_t E` is the only way to give a fixed size to `E`. if let Some(prim) = size { if config.cpp_compatible_c() { out.new_line_if_not_start(); out.write("#ifndef __cplusplus"); } if config.language != Language::Cxx { out.new_line(); write!(out, "{} {} {};", config.language.typedef(), prim, tag_name); } if config.cpp_compatible_c() { out.new_line_if_not_start(); out.write("#endif // __cplusplus"); } } // Emit convenience methods for the tag enum. self.write_derived_functions_enum(config, out, has_data, tag_name); } /// The code here mirrors the beginning of `Struct::write` and `Union::write`. fn open_struct_or_union( &self, config: &Config, out: &mut SourceWriter, inline_tag_field: bool, ) { match config.language { Language::C if config.style.generate_typedef() => out.write("typedef "), Language::C | Language::Cxx => {} Language::Cython => out.write(config.style.cython_def()), } out.write(if inline_tag_field { "union" } else { "struct" }); if self.annotations.must_use(config) { if let Some(ref anno) = config.structure.must_use { write!(out, " {}", anno); } } if config.language != Language::C || config.style.generate_tag() { write!(out, " {}", self.export_name()); } out.open_brace(); // Emit the pre_body section, if relevant. if let Some(body) = config.export.pre_body(&self.path) { out.write_raw_block(body); out.new_line(); } } /// Emit struct definitions for variants having data. fn write_variant_defs(&self, config: &Config, out: &mut SourceWriter) { for variant in &self.variants { if let VariantBody::Body { ref body, inline: false, .. } = variant.body { out.new_line(); out.new_line(); let condition = variant.cfg.to_condition(config); // Cython doesn't support conditional enum variants. if config.language != Language::Cython { condition.write_before(config, out); } body.write(config, out); if config.language != Language::Cython { condition.write_after(config, out); } } } } /// Emit tag field that is separate from all variants. /// For non-inline tag scenario this is *the* tag field, and it does not exist in the variants. /// For the inline tag scenario this is just a convenience and another way /// to refer to the same tag that exist in all the variants. fn write_tag_field( &self, config: &Config, out: &mut SourceWriter, size: Option<&str>, inline_tag_field: bool, tag_name: &str, ) { // C++ allows accessing only common initial sequence of union // fields so we have to wrap the tag field into an anonymous struct. let wrap_tag = inline_tag_field && config.language == Language::Cxx; if wrap_tag { out.write("struct"); out.open_brace(); } if config.language == Language::C && size.is_none() && !config.style.generate_typedef() { out.write("enum "); } write!(out, "{} tag;", tag_name); if wrap_tag { out.close_brace(true); } } /// Emit fields for all variants with data. fn write_variant_fields(&self, config: &Config, out: &mut SourceWriter) { let mut first = true; for variant in &self.variants { if let VariantBody::Body { name, body, inline, .. } = &variant.body { if !first { out.new_line(); } first = false; let condition = variant.cfg.to_condition(config); // Cython doesn't support conditional enum variants. if config.language != Language::Cython { condition.write_before(config, out); } if *inline { // Write definition of an inlined variant with data. // Cython extern declarations don't manage layouts, layouts are defined entierly // by the corresponding C code. So we can inline the unnamed struct and get the // same observable result. Moreother we have to do it because Cython doesn't // support unnamed structs. if config.language != Language::Cython { out.write("struct"); out.open_brace(); } out.write_vertical_source_list(&body.fields, ListType::Cap(";")); if config.language != Language::Cython { out.close_brace(true); } } else if config.style.generate_typedef() || config.language == Language::Cython { write!(out, "{} {};", body.export_name(), name); } else { write!(out, "struct {} {};", body.export_name(), name); } if config.language != Language::Cython { condition.write_after(config, out); } } } } // Emit convenience methods for enums themselves. fn write_derived_functions_enum( &self, config: &Config, out: &mut SourceWriter, has_data: bool, tag_name: &str, ) { if config.language != Language::Cxx { return; } // Emit an ostream function if required. if config.enumeration.derive_ostream(&self.annotations) { // For enums without data, this emits the serializer function for the // enum. For enums with data, this emits the serializer function for // the tag enum. In the latter case we need a couple of minor changes // due to the function living inside the top-level struct or enum. let stream = config .function .rename_args .apply("stream", IdentifierType::FunctionArg); let instance = config .function .rename_args .apply("instance", IdentifierType::FunctionArg); out.new_line(); out.new_line(); // For enums without data, we mark the function inline because the // header might get included into multiple compilation units that // get linked together, and not marking it inline would result in // multiply-defined symbol errors. For enums with data we don't have // the same problem, but mark it as a friend function of the // containing union/struct. // Note also that for enums with data, the case labels for switch // statements apparently need to be qualified to the top-level // generated struct or union. This is why the generated case labels // below use the A::B::C format for enums with data, with A being // self.export_name(). Failure to have that qualification results // in a surprising compilation failure for the generated header. write!( out, "{} std::ostream& operator<<(std::ostream& {}, const {}& {})", if has_data { "friend" } else { "inline" }, stream, tag_name, instance, ); out.open_brace(); if has_data { // C++ name resolution rules are weird. write!( out, "using {} = {}::{};", tag_name, self.export_name(), tag_name ); out.new_line(); } write!(out, "switch ({})", instance); out.open_brace(); let vec: Vec<_> = self .variants .iter() .map(|x| { format!( "case {}::{}: {} << \"{}\"; break;", tag_name, x.export_name, stream, x.export_name ) }) .collect(); out.write_vertical_source_list(&vec[..], ListType::Join("")); out.close_brace(false); out.new_line(); write!(out, "return {};", stream); out.close_brace(false); if has_data { // For enums with data, this emits the serializer function for // the top-level union or struct. out.new_line(); out.new_line(); write!( out, "friend std::ostream& operator<<(std::ostream& {}, const {}& {})", stream, self.export_name(), instance, ); out.open_brace(); // C++ name resolution rules are weird. write!( out, "using {} = {}::{};", tag_name, self.export_name(), tag_name ); out.new_line(); write!(out, "switch ({}.tag)", instance); out.open_brace(); let vec: Vec<_> = self .variants .iter() .map(|x| { let tag_str = format!("\"{}\"", x.export_name); if let VariantBody::Body { ref name, ref body, .. } = x.body { format!( "case {}::{}: {} << {}{}{}.{}; break;", tag_name, x.export_name, stream, if body.has_tag_field { "" } else { &tag_str }, if body.has_tag_field { "" } else { " << " }, instance, name, ) } else { format!( "case {}::{}: {} << {}; break;", tag_name, x.export_name, stream, tag_str, ) } }) .collect(); out.write_vertical_source_list(&vec[..], ListType::Join("")); out.close_brace(false); out.new_line(); write!(out, "return {};", stream); out.close_brace(false); } } } // Emit convenience methods for structs or unions produced for enums with data. fn write_derived_functions_data( &self, config: &Config, out: &mut SourceWriter, tag_name: &str, ) { if config.language != Language::Cxx { return; } if config.enumeration.derive_helper_methods(&self.annotations) { for variant in &self.variants { out.new_line(); out.new_line(); let condition = variant.cfg.to_condition(config); condition.write_before(config, out); let arg_renamer = |name: &str| { config .function .rename_args .apply(name, IdentifierType::FunctionArg) .into_owned() }; macro_rules! write_attrs { ($op:expr) => {{ if let Some(Some(attrs)) = variant .body .annotations() .atom(concat!("variant-", $op, "-attributes")) { write!(out, "{} ", attrs); } }}; } write_attrs!("constructor"); write!(out, "static {} {}(", self.export_name, variant.export_name); if let VariantBody::Body { ref body, .. } = variant.body { let skip_fields = if body.has_tag_field { 1 } else { 0 }; let vec: Vec<_> = body .fields .iter() .skip(skip_fields) .map(|field| { Field::from_name_and_type( // const-ref args to constructor arg_renamer(&field.name), Type::const_ref_to(&field.ty), ) }) .collect(); out.write_vertical_source_list(&vec[..], ListType::Join(",")); } write!(out, ")"); out.open_brace(); write!(out, "{} result;", self.export_name); if let VariantBody::Body { name: ref variant_name, ref body, .. } = variant.body { let skip_fields = if body.has_tag_field { 1 } else { 0 }; for field in body.fields.iter().skip(skip_fields) { out.new_line(); match field.ty { Type::Array(ref ty, ref length) => { // arrays are not assignable in C++ so we // need to manually copy the elements write!(out, "for (int i = 0; i < {}; i++)", length.as_str()); out.open_brace(); write!(out, "::new (&result.{}.{}[i]) (", variant_name, field.name); ty.write(config, out); write!(out, ")({}[i]);", arg_renamer(&field.name)); out.close_brace(false); } ref ty => { write!(out, "::new (&result.{}.{}) (", variant_name, field.name); ty.write(config, out); write!(out, ")({});", arg_renamer(&field.name)); } } } } out.new_line(); write!(out, "result.tag = {}::{};", tag_name, variant.export_name); out.new_line(); write!(out, "return result;"); out.close_brace(false); out.new_line(); out.new_line(); write_attrs!("is"); // FIXME: create a config for method case write!(out, "bool Is{}() const", variant.export_name); out.open_brace(); write!(out, "return tag == {}::{};", tag_name, variant.export_name); out.close_brace(false); let assert_name = match config.enumeration.cast_assert_name { Some(ref n) => &**n, None => "assert", }; let mut derive_casts = |const_casts: bool| { let (member_name, body, inline_casts) = match variant.body { VariantBody::Body { ref name, ref body, inline_casts, .. } => (name, body, inline_casts), VariantBody::Empty(..) => return, }; let skip_fields = if body.has_tag_field { 1 } else { 0 }; let field_count = body.fields.len() - skip_fields; if field_count == 0 { return; } out.new_line(); out.new_line(); if const_casts { write_attrs!("const-cast"); } else { write_attrs!("mut-cast"); } if inline_casts { let field = body.fields.last().unwrap(); let return_type = field.ty.clone(); let return_type = Type::Ptr { ty: Box::new(return_type), is_const: const_casts, is_ref: true, is_nullable: false, }; return_type.write(config, out); } else if const_casts { write!(out, "const {}&", body.export_name()); } else { write!(out, "{}&", body.export_name()); } write!(out, " As{}()", variant.export_name); if const_casts { write!(out, " const"); } out.open_brace(); write!(out, "{}(Is{}());", assert_name, variant.export_name); out.new_line(); write!(out, "return {}", member_name); if inline_casts { write!(out, "._0"); } write!(out, ";"); out.close_brace(false); }; if config.enumeration.derive_const_casts(&self.annotations) { derive_casts(true) } if config.enumeration.derive_mut_casts(&self.annotations) { derive_casts(false) } condition.write_after(config, out); } } let other = config .function .rename_args .apply("other", IdentifierType::FunctionArg); macro_rules! write_attrs { ($op:expr) => {{ if let Some(Some(attrs)) = self.annotations.atom(concat!($op, "-attributes")) { write!(out, "{} ", attrs); } }}; } if self.can_derive_eq() && config.structure.derive_eq(&self.annotations) { out.new_line(); out.new_line(); write_attrs!("eq"); write!( out, "bool operator==(const {}& {}) const", self.export_name, other ); out.open_brace(); write!(out, "if (tag != {}.tag)", other); out.open_brace(); write!(out, "return false;"); out.close_brace(false); out.new_line(); write!(out, "switch (tag)"); out.open_brace(); let mut exhaustive = true; for variant in &self.variants { if let VariantBody::Body { name: ref variant_name, .. } = variant.body { let condition = variant.cfg.to_condition(config); condition.write_before(config, out); write!( out, "case {}::{}: return {} == {}.{};", self.tag.as_ref().unwrap(), variant.export_name, variant_name, other, variant_name ); condition.write_after(config, out); out.new_line(); } else { exhaustive = false; } } if !exhaustive { write!(out, "default: break;"); } out.close_brace(false); out.new_line(); write!(out, "return true;"); out.close_brace(false); if config.structure.derive_neq(&self.annotations) { out.new_line(); out.new_line(); write_attrs!("neq"); write!( out, "bool operator!=(const {}& {}) const", self.export_name, other ); out.open_brace(); write!(out, "return !(*this == {});", other); out.close_brace(false); } } if config .enumeration .private_default_tagged_enum_constructor(&self.annotations) { out.new_line(); out.new_line(); write!(out, "private:"); out.new_line(); write!(out, "{}()", self.export_name); out.open_brace(); out.close_brace(false); out.new_line(); write!(out, "public:"); out.new_line(); } if config .enumeration .derive_tagged_enum_destructor(&self.annotations) { out.new_line(); out.new_line(); write_attrs!("destructor"); write!(out, "~{}()", self.export_name); out.open_brace(); write!(out, "switch (tag)"); out.open_brace(); let mut exhaustive = true; for variant in &self.variants { if let VariantBody::Body { ref name, ref body, .. } = variant.body { let condition = variant.cfg.to_condition(config); condition.write_before(config, out); write!( out, "case {}::{}: {}.~{}(); break;", self.tag.as_ref().unwrap(), variant.export_name, name, body.export_name(), ); condition.write_after(config, out); out.new_line(); } else { exhaustive = false; } } if !exhaustive { write!(out, "default: break;"); } out.close_brace(false); out.close_brace(false); } if config .enumeration .derive_tagged_enum_copy_constructor(&self.annotations) { out.new_line(); out.new_line(); write_attrs!("copy-constructor"); write!( out, "{}(const {}& {})", self.export_name, self.export_name, other ); out.new_line(); write!(out, " : tag({}.tag)", other); out.open_brace(); write!(out, "switch (tag)"); out.open_brace(); let mut exhaustive = true; for variant in &self.variants { if let VariantBody::Body { ref name, ref body, .. } = variant.body { let condition = variant.cfg.to_condition(config); condition.write_before(config, out); write!( out, "case {}::{}: ::new (&{}) ({})({}.{}); break;", self.tag.as_ref().unwrap(), variant.export_name, name, body.export_name(), other, name, ); condition.write_after(config, out); out.new_line(); } else { exhaustive = false; } } if !exhaustive { write!(out, "default: break;"); } out.close_brace(false); out.close_brace(false); if config .enumeration .derive_tagged_enum_copy_assignment(&self.annotations) { out.new_line(); write_attrs!("copy-assignment"); write!( out, "{}& operator=(const {}& {})", self.export_name, self.export_name, other ); out.open_brace(); write!(out, "if (this != &{})", other); out.open_brace(); write!(out, "this->~{}();", self.export_name); out.new_line(); write!(out, "new (this) {}({});", self.export_name, other); out.close_brace(false); out.new_line(); write!(out, "return *this;"); out.close_brace(false); } } } } cbindgen-0.20.0/src/bindgen/ir/field.rs000064400000000000000000000051400072674642500157440ustar 00000000000000use std::io::Write; use crate::bindgen::cdecl; use crate::bindgen::config::{Config, Language}; use crate::bindgen::ir::{AnnotationSet, Cfg, ConditionWrite}; use crate::bindgen::ir::{Documentation, Path, ToCondition, Type}; use crate::bindgen::writer::{Source, SourceWriter}; #[derive(Debug, Clone)] pub struct Field { pub name: String, pub ty: Type, pub cfg: Option, pub annotations: AnnotationSet, pub documentation: Documentation, } impl Field { pub fn from_name_and_type(name: String, ty: Type) -> Field { Field { name, ty, cfg: None, annotations: AnnotationSet::new(), documentation: Documentation::none(), } } pub fn load(field: &syn::Field, self_path: &Path) -> Result, String> { Ok(if let Some(mut ty) = Type::load(&field.ty)? { ty.replace_self_with(self_path); Some(Field { name: field .ident .as_ref() .ok_or_else(|| "field is missing identifier".to_string())? .to_string(), ty, cfg: Cfg::load(&field.attrs), annotations: AnnotationSet::load(&field.attrs)?, documentation: Documentation::load(&field.attrs), }) } else { None }) } } impl Source for Field { fn write(&self, config: &Config, out: &mut SourceWriter) { // Cython doesn't support conditional fields. let condition = self.cfg.to_condition(config); if config.language != Language::Cython { condition.write_before(config, out); } self.documentation.write(config, out); cdecl::write_field(out, &self.ty, &self.name, config); // Cython extern declarations don't manage layouts, layouts are defined entierly by the // corresponding C code. So we can omit bitfield sizes which are not supported by Cython. if config.language != Language::Cython { if let Some(bitfield) = self.annotations.atom("bitfield") { write!(out, ": {}", bitfield.unwrap_or_default()); } } if config.language != Language::Cython { condition.write_after(config, out); // FIXME(#634): `write_vertical_source_list` should support // configuring list elements natively. For now we print a newline // here to avoid printing `#endif;` with semicolon. if condition.is_some() { out.new_line(); } } } } cbindgen-0.20.0/src/bindgen/ir/function.rs000064400000000000000000000325500072674642500165130ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::collections::HashMap; use std::io::Write; use crate::bindgen::cdecl; use crate::bindgen::config::{Config, Language, Layout}; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::ir::{ AnnotationSet, Cfg, ConditionWrite, Documentation, GenericPath, Path, PrimitiveType, ToCondition, Type, }; use crate::bindgen::library::Library; use crate::bindgen::monomorph::Monomorphs; use crate::bindgen::rename::{IdentifierType, RenameRule}; use crate::bindgen::reserved; use crate::bindgen::utilities::IterHelpers; use crate::bindgen::writer::{Source, SourceWriter}; #[derive(Debug, Clone)] pub struct FunctionArgument { pub name: Option, pub ty: Type, pub array_length: Option, } #[derive(Debug, Clone)] pub struct Function { pub path: Path, /// Path to the self-type of the function /// If the function is a method, this will contain the path of the type in the impl block pub self_type_path: Option, pub ret: Type, pub args: Vec, pub extern_decl: bool, pub cfg: Option, pub annotations: AnnotationSet, pub documentation: Documentation, pub never_return: bool, } impl Function { pub fn load( path: Path, self_type_path: Option<&Path>, sig: &syn::Signature, extern_decl: bool, attrs: &[syn::Attribute], mod_cfg: Option<&Cfg>, ) -> Result { let mut args = sig.inputs.iter().try_skip_map(|x| x.as_argument())?; let mut never_return = false; let mut ret = match sig.output { syn::ReturnType::Default => Type::Primitive(PrimitiveType::Void), syn::ReturnType::Type(_, ref ty) => { if let syn::Type::Never(_) = ty.as_ref() { never_return = true; Type::Primitive(PrimitiveType::Void) } else { Type::load(ty)?.unwrap_or(Type::Primitive(PrimitiveType::Void)) } } }; if let Some(self_path) = self_type_path { for arg in &mut args { arg.ty.replace_self_with(self_path); } ret.replace_self_with(self_path); } Ok(Function { path, self_type_path: self_type_path.cloned(), ret, args, extern_decl, cfg: Cfg::append(mod_cfg, Cfg::load(attrs)), annotations: AnnotationSet::load(attrs)?, documentation: Documentation::load(attrs), never_return, }) } pub(crate) fn never_return(&self, config: &Config) -> bool { self.never_return && config.language != Language::Cython } pub fn swift_name(&self, config: &Config) -> Option { if config.language == Language::Cython { return None; } // If the symbol name starts with the type name, separate the two components with '.' // so that Swift recognises the association between the method and the type let (ref type_prefix, ref type_name) = match self.self_type_path { Some(ref type_name) => { let type_name = type_name.to_string(); if !self.path.name().starts_with(&type_name) { return Some(self.path.to_string()); } (format!("{}.", type_name), type_name) } None => ("".to_string(), "".to_string()), }; let item_name = self .path .name() .trim_start_matches(type_name) .trim_start_matches('_'); let item_args = { let mut items = Vec::with_capacity(self.args.len()); for arg in self.args.iter() { items.push(format!("{}:", arg.name.as_ref()?.as_str())); } items.join("") }; Some(format!("{}{}({})", type_prefix, item_name, item_args)) } pub fn path(&self) -> &Path { &self.path } pub fn simplify_standard_types(&mut self, config: &Config) { self.ret.simplify_standard_types(config); for arg in &mut self.args { arg.ty.simplify_standard_types(config); } } pub fn add_dependencies(&self, library: &Library, out: &mut Dependencies) { self.ret.add_dependencies(library, out); for arg in &self.args { arg.ty.add_dependencies(library, out); } } pub fn add_monomorphs(&self, library: &Library, out: &mut Monomorphs) { self.ret.add_monomorphs(library, out); for arg in &self.args { arg.ty.add_monomorphs(library, out); } } pub fn mangle_paths(&mut self, monomorphs: &Monomorphs) { self.ret.mangle_paths(monomorphs); for arg in &mut self.args { arg.ty.mangle_paths(monomorphs); } } pub fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) { self.ret.resolve_declaration_types(resolver); for arg in &mut self.args { arg.ty.resolve_declaration_types(resolver); } } pub fn rename_for_config(&mut self, config: &Config) { // Rename the types used in arguments let generic_params = Default::default(); self.ret.rename_for_config(config, &generic_params); // Apply rename rules to argument names let rules = self .annotations .parse_atom::("rename-all") .unwrap_or(config.function.rename_args); if let Some(r) = rules.not_none() { let args = std::mem::take(&mut self.args); self.args = args .into_iter() .map(|arg| { let name = arg .name .map(|n| r.apply(&n, IdentifierType::FunctionArg).into_owned()); FunctionArgument { name, ty: arg.ty, array_length: None, } }) .collect() } // Escape C/C++ reserved keywords used in argument names, and // recursively rename argument types. for arg in &mut self.args { arg.ty.rename_for_config(config, &generic_params); if let Some(ref mut name) = arg.name { reserved::escape(name); } } // Save the array length of the pointer arguments which need to use // the C-array notation if let Some(tuples) = self.annotations.list("ptrs-as-arrays") { let mut ptrs_as_arrays: HashMap = HashMap::new(); for str_tuple in tuples { let parts: Vec<&str> = str_tuple[1..str_tuple.len() - 1] .split(';') .map(|x| x.trim()) .collect(); if parts.len() != 2 { warn!( "{:?} does not follow the correct syntax, so the annotation is being ignored", parts ); continue; } ptrs_as_arrays.insert(parts[0].to_string(), parts[1].to_string()); } for arg in &mut self.args { match arg.ty { Type::Ptr { .. } => {} _ => continue, } let name = match arg.name { Some(ref name) => name, None => continue, }; arg.array_length = ptrs_as_arrays.get(name).cloned(); } } } } impl Source for Function { fn write(&self, config: &Config, out: &mut SourceWriter) { fn write_1(func: &Function, config: &Config, out: &mut SourceWriter) { let prefix = config.function.prefix(&func.annotations); let postfix = config.function.postfix(&func.annotations); let condition = func.cfg.to_condition(config); condition.write_before(config, out); func.documentation.write(config, out); if func.extern_decl { out.write("extern "); } else { if let Some(ref prefix) = prefix { write!(out, "{} ", prefix); } if func.annotations.must_use(config) { if let Some(ref anno) = config.function.must_use { write!(out, "{} ", anno); } } } cdecl::write_func(out, func, false, config); if !func.extern_decl { if let Some(ref postfix) = postfix { write!(out, " {}", postfix); } } if let Some(ref swift_name_macro) = config.function.swift_name_macro { if let Some(swift_name) = func.swift_name(config) { write!(out, " {}({})", swift_name_macro, swift_name); } } if func.never_return(config) { if let Some(ref no_return_attr) = config.function.no_return { out.write_fmt(format_args!(" {}", no_return_attr)); } } out.write(";"); condition.write_after(config, out); } fn write_2(func: &Function, config: &Config, out: &mut SourceWriter) { let prefix = config.function.prefix(&func.annotations); let postfix = config.function.postfix(&func.annotations); let condition = func.cfg.to_condition(config); condition.write_before(config, out); func.documentation.write(config, out); if func.extern_decl { out.write("extern "); } else { if let Some(ref prefix) = prefix { write!(out, "{}", prefix); out.new_line(); } if func.annotations.must_use(config) { if let Some(ref anno) = config.function.must_use { write!(out, "{}", anno); out.new_line(); } } } cdecl::write_func(out, func, true, config); if !func.extern_decl { if let Some(ref postfix) = postfix { out.new_line(); write!(out, "{}", postfix); } } if let Some(ref swift_name_macro) = config.function.swift_name_macro { if let Some(swift_name) = func.swift_name(config) { write!(out, " {}({})", swift_name_macro, swift_name); } } if func.never_return(config) { if let Some(ref no_return_attr) = config.function.no_return { out.write_fmt(format_args!(" {}", no_return_attr)); } } out.write(";"); condition.write_after(config, out); } let option_1 = out.measure(|out| write_1(self, config, out)); if (config.function.args == Layout::Auto && option_1 <= config.line_length) || config.function.args == Layout::Horizontal { write_1(self, config, out); } else { write_2(self, config, out); } } } trait SynFnArgHelpers { fn as_argument(&self) -> Result, String>; } fn gen_self_type(receiver: &syn::Receiver) -> Type { let self_ty = Type::Path(GenericPath::self_path()); if receiver.reference.is_none() { return self_ty; } let is_const = receiver.mutability.is_none(); Type::Ptr { ty: Box::new(self_ty), is_const, is_nullable: false, is_ref: false, } } impl SynFnArgHelpers for syn::FnArg { fn as_argument(&self) -> Result, String> { match *self { syn::FnArg::Typed(syn::PatType { ref pat, ref ty, .. }) => { let name = match **pat { syn::Pat::Wild(..) => None, syn::Pat::Ident(syn::PatIdent { ref ident, .. }) => Some(ident.to_string()), _ => { return Err(format!( "Parameter has an unsupported argument name: {:?}", pat )) } }; let ty = match Type::load(ty)? { Some(x) => x, None => return Ok(None), }; if let Type::Array(..) = ty { return Err("Array as function arguments are not supported".to_owned()); } Ok(Some(FunctionArgument { name, ty, array_length: None, })) } syn::FnArg::Receiver(ref receiver) => Ok(Some(FunctionArgument { name: Some("self".to_string()), ty: gen_self_type(receiver), array_length: None, })), } } } cbindgen-0.20.0/src/bindgen/ir/generic_path.rs000064400000000000000000000112320072674642500173100ustar 00000000000000use std::io::Write; use std::ops::Deref; use crate::bindgen::config::{Config, Language}; use crate::bindgen::declarationtyperesolver::{DeclarationType, DeclarationTypeResolver}; use crate::bindgen::ir::{Path, Type}; use crate::bindgen::utilities::IterHelpers; use crate::bindgen::writer::{Source, SourceWriter}; #[derive(Default, Debug, Clone)] pub struct GenericParams(pub Vec); impl GenericParams { pub fn new(generics: &syn::Generics) -> Self { GenericParams( generics .params .iter() .filter_map(|x| match *x { syn::GenericParam::Type(syn::TypeParam { ref ident, .. }) => { Some(Path::new(ident.to_string())) } _ => None, }) .collect(), ) } fn write_internal( &self, config: &Config, out: &mut SourceWriter, with_default: bool, ) { if !self.0.is_empty() && config.language == Language::Cxx { out.write("template<"); for (i, item) in self.0.iter().enumerate() { if i != 0 { out.write(", "); } write!(out, "typename {}", item); if with_default { write!(out, " = void"); } } out.write(">"); out.new_line(); } } pub fn write_with_default(&self, config: &Config, out: &mut SourceWriter) { self.write_internal(config, out, true); } } impl Deref for GenericParams { type Target = [Path]; fn deref(&self) -> &[Path] { &self.0 } } impl Source for GenericParams { fn write(&self, config: &Config, out: &mut SourceWriter) { self.write_internal(config, out, false); } } #[derive(Debug, Clone, PartialEq, Eq, Hash, PartialOrd, Ord)] pub struct GenericPath { path: Path, export_name: String, generics: Vec, ctype: Option, } impl GenericPath { pub fn new(path: Path, generics: Vec) -> Self { let export_name = path.name().to_owned(); Self { path, export_name, generics, ctype: None, } } pub fn self_path() -> Self { Self::new(Path::new("Self"), vec![]) } pub fn replace_self_with(&mut self, self_ty: &Path) { if self.path.replace_self_with(self_ty) { self.export_name = self_ty.name().to_owned(); } // Caller deals with generics. } pub fn path(&self) -> &Path { &self.path } pub fn generics(&self) -> &[Type] { &self.generics } pub fn generics_mut(&mut self) -> &mut [Type] { &mut self.generics } pub fn ctype(&self) -> Option<&DeclarationType> { self.ctype.as_ref() } pub fn name(&self) -> &str { self.path.name() } pub fn export_name(&self) -> &str { &self.export_name } pub fn rename_for_config(&mut self, config: &Config, generic_params: &GenericParams) { for generic in &mut self.generics { generic.rename_for_config(config, generic_params); } if !generic_params.contains(&self.path) { config.export.rename(&mut self.export_name); } } pub fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) { self.ctype = resolver.type_for(&self.path); } pub fn load(path: &syn::Path) -> Result { assert!( !path.segments.is_empty(), "{:?} doesn't have any segments", path ); let last_segment = path.segments.last().unwrap(); let name = last_segment.ident.to_string(); let path = Path::new(name); let phantom_data_path = Path::new("PhantomData"); if path == phantom_data_path { return Ok(Self::new(path, Vec::new())); } let generics = match last_segment.arguments { syn::PathArguments::AngleBracketed(syn::AngleBracketedGenericArguments { ref args, .. }) => args.iter().try_skip_map(|x| match *x { syn::GenericArgument::Type(ref x) => Type::load(x), syn::GenericArgument::Lifetime(_) => Ok(None), _ => Err(format!("can't handle generic argument {:?}", x)), })?, syn::PathArguments::Parenthesized(_) => { return Err("Path contains parentheses.".to_owned()); } _ => Vec::new(), }; Ok(Self::new(path, generics)) } } cbindgen-0.20.0/src/bindgen/ir/global.rs000064400000000000000000000062020072674642500161210ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::io::Write; use crate::bindgen::cdecl; use crate::bindgen::config::Config; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::ir::{AnnotationSet, Cfg, Documentation, Item, ItemContainer, Path, Type}; use crate::bindgen::library::Library; use crate::bindgen::writer::{Source, SourceWriter}; #[derive(Debug, Clone)] pub struct Static { pub path: Path, pub export_name: String, pub ty: Type, pub mutable: bool, pub cfg: Option, pub annotations: AnnotationSet, pub documentation: Documentation, } impl Static { pub fn load(item: &syn::ItemStatic, mod_cfg: Option<&Cfg>) -> Result { let ty = Type::load(&item.ty)?; if ty.is_none() { return Err("Cannot have a zero sized static definition.".to_owned()); } Ok(Static::new( Path::new(item.ident.to_string()), ty.unwrap(), item.mutability.is_some(), Cfg::append(mod_cfg, Cfg::load(&item.attrs)), AnnotationSet::load(&item.attrs)?, Documentation::load(&item.attrs), )) } pub fn new( path: Path, ty: Type, mutable: bool, cfg: Option, annotations: AnnotationSet, documentation: Documentation, ) -> Self { let export_name = path.name().to_owned(); Self { path, export_name, ty, mutable, cfg, annotations, documentation, } } pub fn simplify_standard_types(&mut self, config: &Config) { self.ty.simplify_standard_types(config); } } impl Item for Static { fn path(&self) -> &Path { &self.path } fn export_name(&self) -> &str { &self.export_name } fn cfg(&self) -> Option<&Cfg> { self.cfg.as_ref() } fn annotations(&self) -> &AnnotationSet { &self.annotations } fn annotations_mut(&mut self) -> &mut AnnotationSet { &mut self.annotations } fn container(&self) -> ItemContainer { ItemContainer::Static(self.clone()) } fn rename_for_config(&mut self, config: &Config) { self.ty.rename_for_config(config, &Default::default()); } fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) { self.ty.resolve_declaration_types(resolver); } fn add_dependencies(&self, library: &Library, out: &mut Dependencies) { self.ty.add_dependencies(library, out); } } impl Source for Static { fn write(&self, config: &Config, out: &mut SourceWriter) { out.write("extern "); if let Type::Ptr { is_const: true, .. } = self.ty { } else if !self.mutable { out.write("const "); } cdecl::write_field(out, &self.ty, &self.export_name, config); out.write(";"); } } cbindgen-0.20.0/src/bindgen/ir/item.rs000064400000000000000000000156260072674642500156310ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use indexmap::IndexMap; use std::mem; use crate::bindgen::config::Config; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::ir::{ AnnotationSet, Cfg, Constant, Enum, OpaqueItem, Path, Static, Struct, Type, Typedef, Union, }; use crate::bindgen::library::Library; use crate::bindgen::monomorph::Monomorphs; /// An item is any type of rust item besides a function pub trait Item { fn path(&self) -> &Path; fn name(&self) -> &str { self.path().name() } fn export_name(&self) -> &str { self.name() } fn cfg(&self) -> Option<&Cfg>; fn annotations(&self) -> &AnnotationSet; fn annotations_mut(&mut self) -> &mut AnnotationSet; fn container(&self) -> ItemContainer; fn collect_declaration_types(&self, _resolver: &mut DeclarationTypeResolver) { unimplemented!() } fn resolve_declaration_types(&mut self, _resolver: &DeclarationTypeResolver) { unimplemented!() } fn rename_for_config(&mut self, _config: &Config) {} fn add_dependencies(&self, _library: &Library, _out: &mut Dependencies) {} fn instantiate_monomorph(&self, _generics: &[Type], _library: &Library, _out: &mut Monomorphs) { unreachable!("Cannot instantiate {} as a generic.", self.name()) } } #[derive(Debug, Clone)] pub enum ItemContainer { Constant(Constant), Static(Static), OpaqueItem(OpaqueItem), Struct(Struct), Union(Union), Enum(Enum), Typedef(Typedef), } impl ItemContainer { pub fn deref(&self) -> &dyn Item { match *self { ItemContainer::Constant(ref x) => x, ItemContainer::Static(ref x) => x, ItemContainer::OpaqueItem(ref x) => x, ItemContainer::Struct(ref x) => x, ItemContainer::Union(ref x) => x, ItemContainer::Enum(ref x) => x, ItemContainer::Typedef(ref x) => x, } } } #[derive(Debug, Clone)] pub enum ItemValue { Cfg(Vec), Single(T), } #[derive(Debug, Clone)] pub struct ItemMap { data: IndexMap>, } impl Default for ItemMap { fn default() -> ItemMap { ItemMap { data: Default::default(), } } } impl ItemMap { pub fn rebuild(&mut self) { let old = mem::take(self); old.for_all_items(|x| { self.try_insert(x.clone()); }); } pub fn try_insert(&mut self, item: T) -> bool { match (item.cfg().is_some(), self.data.get_mut(item.path())) { (true, Some(&mut ItemValue::Cfg(ref mut items))) => { items.push(item); return true; } (false, Some(&mut ItemValue::Cfg(_))) => { return false; } (true, Some(&mut ItemValue::Single(_))) => { return false; } (false, Some(&mut ItemValue::Single(_))) => { return false; } _ => {} } let path = item.path().clone(); if item.cfg().is_some() { self.data.insert(path, ItemValue::Cfg(vec![item])); } else { self.data.insert(path, ItemValue::Single(item)); } true } pub fn extend_with(&mut self, other: &ItemMap) { other.for_all_items(|x| { self.try_insert(x.clone()); }); } pub fn to_vec(&self) -> Vec { let mut result = Vec::with_capacity(self.data.len()); for container in self.data.values() { match *container { ItemValue::Cfg(ref items) => result.extend_from_slice(items), ItemValue::Single(ref item) => { result.push(item.clone()); } } } result } pub fn get_items(&self, path: &Path) -> Option> { Some(match *self.data.get(path)? { ItemValue::Cfg(ref items) => items.iter().map(|x| x.container()).collect(), ItemValue::Single(ref item) => vec![item.container()], }) } pub fn filter(&mut self, callback: F) where F: Fn(&T) -> bool, { let data = mem::take(&mut self.data); for (name, container) in data { match container { ItemValue::Cfg(items) => { let mut new_items = Vec::new(); for item in items { if !callback(&item) { new_items.push(item); } } if !new_items.is_empty() { self.data.insert(name, ItemValue::Cfg(new_items)); } } ItemValue::Single(item) => { if !callback(&item) { self.data.insert(name, ItemValue::Single(item)); } } } } } pub fn for_all_items(&self, mut callback: F) where F: FnMut(&T), { for container in self.data.values() { match *container { ItemValue::Cfg(ref items) => { for item in items { callback(item); } } ItemValue::Single(ref item) => callback(item), } } } pub fn for_all_items_mut(&mut self, mut callback: F) where F: FnMut(&mut T), { for container in self.data.values_mut() { match *container { ItemValue::Cfg(ref mut items) => { for item in items { callback(item); } } ItemValue::Single(ref mut item) => callback(item), } } } pub fn for_items(&self, path: &Path, mut callback: F) where F: FnMut(&T), { match self.data.get(path) { Some(&ItemValue::Cfg(ref items)) => { for item in items { callback(item); } } Some(&ItemValue::Single(ref item)) => { callback(item); } None => {} } } pub fn for_items_mut(&mut self, path: &Path, mut callback: F) where F: FnMut(&mut T), { match self.data.get_mut(path) { Some(&mut ItemValue::Cfg(ref mut items)) => { for item in items { callback(item); } } Some(&mut ItemValue::Single(ref mut item)) => { callback(item); } None => {} } } } cbindgen-0.20.0/src/bindgen/ir/mod.rs000064400000000000000000000017210072674642500154410ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ pub mod annotation; pub mod cfg; pub mod constant; pub mod documentation; pub mod enumeration; pub mod field; pub mod function; pub mod generic_path; pub mod global; pub mod item; pub mod opaque; pub mod path; pub mod repr; pub mod structure; pub mod ty; pub mod typedef; pub mod union; pub use self::annotation::{AnnotationSet, AnnotationValue}; pub use self::cfg::*; pub use self::constant::*; pub use self::documentation::Documentation; pub use self::enumeration::*; pub use self::field::*; pub use self::function::*; pub use self::generic_path::*; pub use self::global::*; pub use self::item::*; pub use self::opaque::*; pub use self::path::*; pub use self::repr::*; pub use self::structure::*; pub use self::ty::*; pub use self::typedef::*; pub use self::union::*; cbindgen-0.20.0/src/bindgen/ir/opaque.rs000064400000000000000000000115520072674642500161570ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::io::Write; use crate::bindgen::config::{Config, Language}; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::ir::{ AnnotationSet, Cfg, ConditionWrite, Documentation, GenericParams, Item, ItemContainer, Path, ToCondition, Type, }; use crate::bindgen::library::Library; use crate::bindgen::mangle; use crate::bindgen::monomorph::Monomorphs; use crate::bindgen::writer::{Source, SourceWriter}; #[derive(Debug, Clone)] pub struct OpaqueItem { pub path: Path, pub export_name: String, pub generic_params: GenericParams, pub cfg: Option, pub annotations: AnnotationSet, pub documentation: Documentation, } impl OpaqueItem { pub fn load( path: Path, generics: &syn::Generics, attrs: &[syn::Attribute], mod_cfg: Option<&Cfg>, ) -> Result { Ok(Self::new( path, GenericParams::new(generics), Cfg::append(mod_cfg, Cfg::load(attrs)), AnnotationSet::load(attrs).unwrap_or_else(|_| AnnotationSet::new()), Documentation::load(attrs), )) } pub fn new( path: Path, generic_params: GenericParams, cfg: Option, annotations: AnnotationSet, documentation: Documentation, ) -> OpaqueItem { let export_name = path.name().to_owned(); Self { path, export_name, generic_params, cfg, annotations, documentation, } } } impl Item for OpaqueItem { fn path(&self) -> &Path { &self.path } fn export_name(&self) -> &str { &self.export_name } fn cfg(&self) -> Option<&Cfg> { self.cfg.as_ref() } fn annotations(&self) -> &AnnotationSet { &self.annotations } fn annotations_mut(&mut self) -> &mut AnnotationSet { &mut self.annotations } fn container(&self) -> ItemContainer { ItemContainer::OpaqueItem(self.clone()) } fn collect_declaration_types(&self, resolver: &mut DeclarationTypeResolver) { resolver.add_struct(&self.path); } fn rename_for_config(&mut self, config: &Config) { config.export.rename(&mut self.export_name); } fn add_dependencies(&self, _: &Library, _: &mut Dependencies) {} fn instantiate_monomorph( &self, generic_values: &[Type], library: &Library, out: &mut Monomorphs, ) { assert!( !self.generic_params.is_empty(), "{} is not generic", self.path ); // We can be instantiated with less generic params because of default // template parameters, or because of empty types that we remove during // parsing (`()`). assert!( self.generic_params.len() >= generic_values.len(), "{} has {} params but is being instantiated with {} values", self.path, self.generic_params.len(), generic_values.len(), ); let mangled_path = mangle::mangle_path( &self.path, generic_values, &library.get_config().export.mangle, ); let monomorph = OpaqueItem::new( mangled_path, GenericParams::default(), self.cfg.clone(), self.annotations.clone(), self.documentation.clone(), ); out.insert_opaque(self, monomorph, generic_values.to_owned()); } } impl Source for OpaqueItem { fn write(&self, config: &Config, out: &mut SourceWriter) { let condition = self.cfg.to_condition(config); condition.write_before(config, out); self.documentation.write(config, out); self.generic_params.write_with_default(config, out); match config.language { Language::C if config.style.generate_typedef() => { write!( out, "typedef struct {} {};", self.export_name(), self.export_name() ); } Language::C | Language::Cxx => { write!(out, "struct {};", self.export_name()); } Language::Cython => { write!( out, "{}struct {}", config.style.cython_def(), self.export_name() ); out.open_brace(); out.write("pass"); out.close_brace(false); } } condition.write_after(config, out); } } cbindgen-0.20.0/src/bindgen/ir/path.rs000064400000000000000000000020610072674642500156140ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::cmp::Ordering; use std::fmt; #[derive(Debug, Clone, PartialEq, Eq, Hash)] pub struct Path { name: String, } impl Path { pub fn new(name: T) -> Self where String: From, { Self { name: name.into() } } pub fn name(&self) -> &str { &self.name } pub fn replace_self_with(&mut self, path: &Self) -> bool { if self.name() != "Self" { return false; } *self = path.clone(); true } } impl PartialOrd for Path { fn partial_cmp(&self, other: &Path) -> Option { Some(self.cmp(other)) } } impl Ord for Path { fn cmp(&self, other: &Path) -> Ordering { self.name.cmp(&other.name) } } impl fmt::Display for Path { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{}", self.name) } } cbindgen-0.20.0/src/bindgen/ir/repr.rs000064400000000000000000000155010072674642500156330ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use crate::bindgen::ir::ty::{IntKind, PrimitiveType}; #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub enum ReprStyle { Rust, C, Transparent, } impl Default for ReprStyle { fn default() -> Self { ReprStyle::Rust } } #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub struct ReprType { kind: IntKind, signed: bool, } impl ReprType { pub(crate) fn to_primitive(self) -> PrimitiveType { PrimitiveType::Integer { kind: self.kind, signed: self.signed, zeroable: true, } } } #[derive(Debug, Copy, Clone, PartialEq, Eq)] pub enum ReprAlign { Packed, Align(u64), } #[derive(Debug, Copy, Clone, PartialEq, Eq, Default)] pub struct Repr { pub style: ReprStyle, pub ty: Option, pub align: Option, } impl Repr { pub fn load(attrs: &[syn::Attribute]) -> Result { let ids = attrs .iter() .filter_map(|attr| { if let syn::Meta::List(syn::MetaList { path, nested, .. }) = attr.parse_meta().ok()? { if path.is_ident("repr") { return Some(nested.into_iter().collect::>()); } } None }) .flatten() .filter_map(|meta| match meta { syn::NestedMeta::Meta(syn::Meta::Path(path)) => { Some((path.segments.first().unwrap().ident.to_string(), None)) } syn::NestedMeta::Meta(syn::Meta::List(syn::MetaList { path, nested, .. })) => { Some(( path.segments.first().unwrap().ident.to_string(), Some( nested .iter() .filter_map(|meta| match meta { // Only used for #[repr(align(...))]. syn::NestedMeta::Lit(syn::Lit::Int(literal)) => { Some(literal.base10_digits().to_string()) } // Only single levels of nesting supported at the moment. _ => None, }) .collect::>(), ), )) } _ => None, }); let mut repr = Repr::default(); for id in ids { let (int_kind, signed) = match (id.0.as_ref(), id.1) { ("u8", None) => (IntKind::B8, false), ("u16", None) => (IntKind::B16, false), ("u32", None) => (IntKind::B32, false), ("u64", None) => (IntKind::B64, false), ("usize", None) => (IntKind::Size, false), ("i8", None) => (IntKind::B8, true), ("i16", None) => (IntKind::B16, true), ("i32", None) => (IntKind::B32, true), ("i64", None) => (IntKind::B64, true), ("isize", None) => (IntKind::Size, true), ("C", None) => { repr.style = ReprStyle::C; continue; } ("transparent", None) => { repr.style = ReprStyle::Transparent; continue; } ("packed", args) => { // #[repr(packed(n))] not supported because of some open questions about how // to calculate the native alignment of types. See eqrion/cbindgen#433. if args.is_some() { return Err( "Not-yet-implemented #[repr(packed(...))] encountered.".to_string() ); } let align = ReprAlign::Packed; // Only permit a single alignment-setting repr. if let Some(old_align) = repr.align { return Err(format!( "Conflicting #[repr(align(...))] type hints {:?} and {:?}.", old_align, align )); } repr.align = Some(align); continue; } ("align", Some(args)) => { // #[repr(align(...))] only allows a single argument. if args.len() != 1 { return Err(format!( "Unsupported #[repr(align({}))], align must have exactly one argument.", args.join(", ") )); } // Must be a positive integer. let align = match args.first().unwrap().parse::() { Ok(align) => align, Err(_) => { return Err(format!("Non-numeric #[repr(align({}))].", args.join(", "))) } }; // Must be a power of 2. if !align.is_power_of_two() || align == 0 { return Err(format!("Invalid alignment to #[repr(align({}))].", align)); } // Only permit a single alignment-setting repr. if let Some(old_align) = repr.align { return Err(format!( "Conflicting #[repr(align(...))] type hints {:?} and {:?}.", old_align, ReprAlign::Align(align) )); } repr.align = Some(ReprAlign::Align(align)); continue; } (path, args) => match args { None => return Err(format!("Unsupported #[repr({})].", path)), Some(args) => { return Err(format!( "Unsupported #[repr({}({}))].", path, args.join(", ") )); } }, }; let ty = ReprType { kind: int_kind, signed, }; if let Some(old_ty) = repr.ty { return Err(format!( "Conflicting #[repr(...)] type hints {:?} and {:?}.", old_ty, ty )); } repr.ty = Some(ty); } Ok(repr) } } cbindgen-0.20.0/src/bindgen/ir/structure.rs000064400000000000000000000565660072674642500167430ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::io::Write; use crate::bindgen::config::{Config, Language, LayoutConfig}; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::ir::{ AnnotationSet, Cfg, ConditionWrite, Constant, Documentation, Field, GenericParams, Item, ItemContainer, Path, Repr, ReprAlign, ReprStyle, ToCondition, Type, Typedef, }; use crate::bindgen::library::Library; use crate::bindgen::mangle; use crate::bindgen::monomorph::Monomorphs; use crate::bindgen::rename::{IdentifierType, RenameRule}; use crate::bindgen::reserved; use crate::bindgen::utilities::IterHelpers; use crate::bindgen::writer::{ListType, Source, SourceWriter}; #[derive(Debug, Clone)] pub struct Struct { pub path: Path, pub export_name: String, pub generic_params: GenericParams, pub fields: Vec, /// Whether there's a tag field on the body of this struct. When this is /// true, is_enum_variant_body is also guaranteed to be true. pub has_tag_field: bool, /// Whether this is an enum variant body. pub is_enum_variant_body: bool, pub alignment: Option, pub is_transparent: bool, pub cfg: Option, pub annotations: AnnotationSet, pub documentation: Documentation, pub associated_constants: Vec, } impl Struct { /// Whether this struct can derive operator== / operator!=. pub fn can_derive_eq(&self) -> bool { !self.fields.is_empty() && self.fields.iter().all(|x| x.ty.can_cmp_eq()) } pub fn add_associated_constant(&mut self, c: Constant) { self.associated_constants.push(c); } pub fn load( layout_config: &LayoutConfig, item: &syn::ItemStruct, mod_cfg: Option<&Cfg>, ) -> Result { let repr = Repr::load(&item.attrs)?; let is_transparent = match repr.style { ReprStyle::C => false, ReprStyle::Transparent => true, _ => { return Err("Struct is not marked #[repr(C)] or #[repr(transparent)].".to_owned()); } }; let path = Path::new(item.ident.to_string()); // Ensure we can safely represent the struct given the configuration. if let Some(align) = repr.align { layout_config.ensure_safe_to_represent(&align)?; } let fields = match item.fields { syn::Fields::Unit => Vec::new(), syn::Fields::Named(ref fields) => fields .named .iter() .try_skip_map(|field| Field::load(field, &path))?, syn::Fields::Unnamed(ref fields) => { let mut out = Vec::new(); let mut current = 0; for field in fields.unnamed.iter() { if let Some(mut ty) = Type::load(&field.ty)? { ty.replace_self_with(&path); out.push(Field { name: format!("{}", current), ty, cfg: Cfg::load(&field.attrs), annotations: AnnotationSet::load(&field.attrs)?, documentation: Documentation::load(&field.attrs), }); current += 1; } } out } }; let has_tag_field = false; let is_enum_variant_body = false; Ok(Struct::new( path, GenericParams::new(&item.generics), fields, has_tag_field, is_enum_variant_body, repr.align, is_transparent, Cfg::append(mod_cfg, Cfg::load(&item.attrs)), AnnotationSet::load(&item.attrs)?, Documentation::load(&item.attrs), )) } #[allow(clippy::too_many_arguments)] pub fn new( path: Path, generic_params: GenericParams, fields: Vec, has_tag_field: bool, is_enum_variant_body: bool, alignment: Option, is_transparent: bool, cfg: Option, annotations: AnnotationSet, documentation: Documentation, ) -> Self { let export_name = path.name().to_owned(); Self { path, export_name, generic_params, fields, has_tag_field, is_enum_variant_body, alignment, is_transparent, cfg, annotations, documentation, associated_constants: vec![], } } pub fn simplify_standard_types(&mut self, config: &Config) { for field in &mut self.fields { field.ty.simplify_standard_types(config); } } pub fn is_generic(&self) -> bool { self.generic_params.len() > 0 } pub fn add_monomorphs(&self, library: &Library, out: &mut Monomorphs) { // Generic structs can instantiate monomorphs only once they've been // instantiated. See `instantiate_monomorph` for more details. if self.is_generic() { return; } for field in &self.fields { field.ty.add_monomorphs(library, out); } } pub fn mangle_paths(&mut self, monomorphs: &Monomorphs) { for field in &mut self.fields { field.ty.mangle_paths(monomorphs); } } pub fn specialize( &self, generic_values: &[Type], mappings: &[(&Path, &Type)], config: &Config, ) -> Self { let mangled_path = mangle::mangle_path(&self.path, generic_values, &config.export.mangle); Struct::new( mangled_path, GenericParams::default(), self.fields .iter() .map(|field| Field { name: field.name.clone(), ty: field.ty.specialize(mappings), cfg: field.cfg.clone(), annotations: field.annotations.clone(), documentation: field.documentation.clone(), }) .collect(), self.has_tag_field, self.is_enum_variant_body, self.alignment, self.is_transparent, self.cfg.clone(), self.annotations.clone(), self.documentation.clone(), ) } fn emit_bitflags_binop( &self, operator: char, other: &str, out: &mut SourceWriter, ) { out.new_line(); write!( out, "{} operator{}(const {}& {}) const", self.export_name(), operator, self.export_name(), other ); out.open_brace(); write!( out, "return {{static_cast(this->bits {} {}.bits)}};", operator, other ); out.close_brace(false); out.new_line(); write!( out, "{}& operator{}=(const {}& {})", self.export_name(), operator, self.export_name(), other ); out.open_brace(); write!(out, "*this = (*this {} {});", operator, other); out.new_line(); write!(out, "return *this;"); out.close_brace(false); } } impl Item for Struct { fn path(&self) -> &Path { &self.path } fn export_name(&self) -> &str { &self.export_name } fn cfg(&self) -> Option<&Cfg> { self.cfg.as_ref() } fn annotations(&self) -> &AnnotationSet { &self.annotations } fn annotations_mut(&mut self) -> &mut AnnotationSet { &mut self.annotations } fn container(&self) -> ItemContainer { ItemContainer::Struct(self.clone()) } fn collect_declaration_types(&self, resolver: &mut DeclarationTypeResolver) { if self.is_transparent { resolver.add_none(&self.path); } else { resolver.add_struct(&self.path); } } fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) { for field in &mut self.fields { field.ty.resolve_declaration_types(resolver); } } fn rename_for_config(&mut self, config: &Config) { // Rename the name of the struct if !(self.has_tag_field && config.language == Language::Cxx) { config.export.rename(&mut self.export_name); } // Rename the types used in fields { let fields = self .fields .iter_mut() .skip(if self.has_tag_field { 1 } else { 0 }); for field in fields { field.ty.rename_for_config(config, &self.generic_params); } } // Apply renaming rules to fields in the following order // 1. `cbindgen::field-names` annotation // 2. `cbindgen::rename-all` annotation // 3. config struct rename rule // If the struct is a tuple struct and we have not renamed the // fields, then prefix each of them with an underscore. // If any field is a reserved keyword, then postfix it with an // underscore. // Scope for mutable borrow of fields { let names = self.fields.iter_mut().map(|field| &mut field.name); let field_rules = self .annotations .parse_atom::("rename-all") .unwrap_or(config.structure.rename_fields); if let Some(o) = self.annotations.list("field-names") { for (dest, src) in names.zip(o) { *dest = src; } } else if let Some(r) = field_rules.not_none() { for name in names { *name = r.apply(name, IdentifierType::StructMember).into_owned(); } } else { // If we don't have any rules for a tuple struct, prefix them with // an underscore so it still compiles. for name in names { if name.starts_with(|c: char| c.is_ascii_digit()) { name.insert(0, '_'); } } } } for field in &mut self.fields { reserved::escape(&mut field.name); } for c in self.associated_constants.iter_mut() { c.rename_for_config(config); } } fn add_dependencies(&self, library: &Library, out: &mut Dependencies) { let mut fields = self.fields.iter(); // If there is a tag field, skip it if self.has_tag_field { fields.next(); } for field in fields { field .ty .add_dependencies_ignoring_generics(&self.generic_params, library, out); } for c in &self.associated_constants { c.add_dependencies(library, out); } } fn instantiate_monomorph( &self, generic_values: &[Type], library: &Library, out: &mut Monomorphs, ) { assert!( self.generic_params.len() > 0, "{} is not generic", self.path ); assert!( self.generic_params.len() == generic_values.len(), "{} has {} params but is being instantiated with {} values", self.path, self.generic_params.len(), generic_values.len(), ); let mappings = self .generic_params .iter() .zip(generic_values.iter()) .collect::>(); let monomorph = self.specialize(generic_values, &mappings, library.get_config()); out.insert_struct(library, self, monomorph, generic_values.to_owned()); } } impl Source for Struct { fn write(&self, config: &Config, out: &mut SourceWriter) { if self.is_transparent { let typedef = Typedef { path: self.path.clone(), export_name: self.export_name.to_owned(), generic_params: self.generic_params.clone(), aliased: self.fields[0].ty.clone(), cfg: self.cfg.clone(), annotations: self.annotations.clone(), documentation: self.documentation.clone(), }; typedef.write(config, out); for constant in &self.associated_constants { out.new_line(); constant.write(config, out, Some(self)); } return; } let condition = self.cfg.to_condition(config); condition.write_before(config, out); self.documentation.write(config, out); if !self.is_enum_variant_body { self.generic_params.write(config, out); } // The following results in // C++ or C with Tag as style: // struct Name { // C with Type only style: // typedef struct { // C with Both as style: // typedef struct Name { match config.language { Language::C if config.style.generate_typedef() => out.write("typedef "), Language::C | Language::Cxx => {} Language::Cython => out.write(config.style.cython_def()), } // Cython extern declarations don't manage layouts, layouts are defined entierly by the // corresponding C code. So this `packed` is only for documentation, and missing // `aligned(n)` is also not a problem. if config.language == Language::Cython { if let Some(align) = self.alignment { match align { ReprAlign::Packed => out.write("packed "), ReprAlign::Align(_) => {} // Not supported } } } out.write("struct"); if config.language != Language::Cython { if let Some(align) = self.alignment { match align { ReprAlign::Packed => { if let Some(ref anno) = config.layout.packed { write!(out, " {}", anno); } } ReprAlign::Align(n) => { if let Some(ref anno) = config.layout.aligned_n { write!(out, " {}({})", anno, n); } } } } } if self.annotations.must_use(config) { if let Some(ref anno) = config.structure.must_use { write!(out, " {}", anno); } } if config.language != Language::C || config.style.generate_tag() { write!(out, " {}", self.export_name()); } out.open_brace(); // Emit the pre_body section, if relevant if let Some(body) = config.export.pre_body(&self.path) { out.write_raw_block(body); out.new_line(); } out.write_vertical_source_list(&self.fields, ListType::Cap(";")); if config.language == Language::Cython && self.fields.is_empty() { out.write("pass"); } if config.language == Language::Cxx { let mut wrote_start_newline = false; if config.structure.derive_constructor(&self.annotations) && !self.fields.is_empty() { if !wrote_start_newline { wrote_start_newline = true; out.new_line(); } out.new_line(); let arg_renamer = |name: &str| { config .function .rename_args .apply(name, IdentifierType::FunctionArg) .into_owned() }; write!(out, "{}(", self.export_name()); let vec: Vec<_> = self .fields .iter() .map(|field| { Field::from_name_and_type( // const-ref args to constructor format!("const& {}", arg_renamer(&field.name)), field.ty.clone(), ) }) .collect(); out.write_vertical_source_list(&vec[..], ListType::Join(",")); write!(out, ")"); out.new_line(); write!(out, " : "); let vec: Vec<_> = self .fields .iter() .map(|field| format!("{}({})", field.name, arg_renamer(&field.name))) .collect(); out.write_vertical_source_list(&vec[..], ListType::Join(",")); out.new_line(); write!(out, "{{}}"); out.new_line(); } let other = config .function .rename_args .apply("other", IdentifierType::FunctionArg); if self .annotations .bool("internal-derive-bitflags") .unwrap_or(false) { if !wrote_start_newline { wrote_start_newline = true; out.new_line(); } out.new_line(); write!(out, "explicit operator bool() const"); out.open_brace(); write!(out, "return !!bits;"); out.close_brace(false); out.new_line(); write!(out, "{} operator~() const", self.export_name()); out.open_brace(); write!(out, "return {{static_cast(~bits)}};"); out.close_brace(false); self.emit_bitflags_binop('|', &other, out); self.emit_bitflags_binop('&', &other, out); self.emit_bitflags_binop('^', &other, out); } // Generate a serializer function that allows dumping this struct // to an std::ostream. It's defined as a friend function inside the // struct definition, and doesn't need the `inline` keyword even // though it's implemented right in the generated header file. if config.structure.derive_ostream(&self.annotations) { if !wrote_start_newline { wrote_start_newline = true; out.new_line(); } out.new_line(); let stream = config .function .rename_args .apply("stream", IdentifierType::FunctionArg); let instance = config .function .rename_args .apply("instance", IdentifierType::FunctionArg); write!( out, "friend std::ostream& operator<<(std::ostream& {}, const {}& {})", stream, self.export_name(), instance, ); out.open_brace(); write!(out, "return {} << \"{{ \"", stream); let vec: Vec<_> = self .fields .iter() .map(|x| format!(" << \"{}=\" << {}.{}", x.name, instance, x.name)) .collect(); out.write_vertical_source_list(&vec[..], ListType::Join(" << \", \"")); out.write(" << \" }\";"); out.close_brace(false); } let skip_fields = if self.has_tag_field { 1 } else { 0 }; macro_rules! emit_op { ($op_name:expr, $op:expr, $conjuc:expr) => {{ if !wrote_start_newline { #[allow(unused_assignments)] { wrote_start_newline = true; } out.new_line(); } out.new_line(); if let Some(Some(attrs)) = self.annotations.atom(concat!($op_name, "-attributes")) { write!(out, "{} ", attrs); } write!( out, "bool operator{}(const {}& {}) const", $op, self.export_name(), other ); out.open_brace(); out.write("return "); let vec: Vec<_> = self .fields .iter() .skip(skip_fields) .map(|field| format!("{} {} {}.{}", field.name, $op, other, field.name)) .collect(); out.write_vertical_source_list( &vec[..], ListType::Join(&format!(" {}", $conjuc)), ); out.write(";"); out.close_brace(false); }}; } if config.structure.derive_eq(&self.annotations) && self.can_derive_eq() { emit_op!("eq", "==", "&&"); } if config.structure.derive_neq(&self.annotations) && self.can_derive_eq() { emit_op!("neq", "!=", "||"); } if config.structure.derive_lt(&self.annotations) && self.fields.len() == 1 && self.fields[0].ty.can_cmp_order() { emit_op!("lt", "<", "&&"); } if config.structure.derive_lte(&self.annotations) && self.fields.len() == 1 && self.fields[0].ty.can_cmp_order() { emit_op!("lte", "<=", "&&"); } if config.structure.derive_gt(&self.annotations) && self.fields.len() == 1 && self.fields[0].ty.can_cmp_order() { emit_op!("gt", ">", "&&"); } if config.structure.derive_gte(&self.annotations) && self.fields.len() == 1 && self.fields[0].ty.can_cmp_order() { emit_op!("gte", ">=", "&&"); } } // Emit the post_body section, if relevant if let Some(body) = config.export.post_body(&self.path) { out.new_line(); out.write_raw_block(body); } if config.language == Language::Cxx && config.structure.associated_constants_in_body && config.constant.allow_static_const { for constant in &self.associated_constants { out.new_line(); constant.write_declaration(config, out, self); } } if config.language == Language::C && config.style.generate_typedef() { out.close_brace(false); write!(out, " {};", self.export_name()); } else { out.close_brace(true); } for constant in &self.associated_constants { out.new_line(); constant.write(config, out, Some(self)); } condition.write_after(config, out); } } cbindgen-0.20.0/src/bindgen/ir/ty.rs000064400000000000000000000751150072674642500153260ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::borrow::Cow; use std::io::Write; use crate::bindgen::cdecl; use crate::bindgen::config::{Config, Language}; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::ir::{GenericParams, GenericPath, Path}; use crate::bindgen::library::Library; use crate::bindgen::monomorph::Monomorphs; use crate::bindgen::utilities::IterHelpers; use crate::bindgen::writer::{Source, SourceWriter}; #[derive(Debug, Clone, PartialEq, Eq, Hash, PartialOrd, Ord)] pub enum PrimitiveType { Void, Bool, Char, SChar, UChar, Char32, Float, Double, VaList, PtrDiffT, Integer { zeroable: bool, signed: bool, kind: IntKind, }, } #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, PartialOrd, Ord)] pub enum IntKind { Short, Int, Long, LongLong, SizeT, Size, B8, B16, B32, B64, } impl PrimitiveType { pub fn maybe(path: &str) -> Option { Some(match path { "c_void" => PrimitiveType::Void, "c_char" => PrimitiveType::Char, "c_schar" => PrimitiveType::SChar, "c_uchar" => PrimitiveType::UChar, "c_float" => PrimitiveType::Float, "c_double" => PrimitiveType::Double, "ptrdiff_t" => PrimitiveType::PtrDiffT, "VaList" => PrimitiveType::VaList, "bool" => PrimitiveType::Bool, "char" => PrimitiveType::Char32, "f32" => PrimitiveType::Float, "f64" => PrimitiveType::Double, _ => { let (kind, signed) = match path { "c_short" => (IntKind::Short, true), "c_int" => (IntKind::Int, true), "c_long" => (IntKind::Long, true), "c_longlong" => (IntKind::LongLong, true), "ssize_t" => (IntKind::SizeT, true), "c_ushort" => (IntKind::Short, false), "c_uint" => (IntKind::Int, false), "c_ulong" => (IntKind::Long, false), "c_ulonglong" => (IntKind::LongLong, false), "size_t" => (IntKind::SizeT, false), "isize" | "intptr_t" => (IntKind::Size, true), "usize" | "uintptr_t" => (IntKind::Size, false), "u8" | "uint8_t" => (IntKind::B8, false), "u16" | "uint16_t" => (IntKind::B16, false), "u32" | "uint32_t" => (IntKind::B32, false), "u64" | "uint64_t" => (IntKind::B64, false), "i8" | "int8_t" => (IntKind::B8, true), "i16" | "int16_t" => (IntKind::B16, true), "i32" | "int32_t" => (IntKind::B32, true), "i64" | "int64_t" => (IntKind::B64, true), _ => return None, }; PrimitiveType::Integer { zeroable: true, signed, kind, } } }) } pub fn to_repr_rust(&self) -> &'static str { match *self { PrimitiveType::Bool => "bool", PrimitiveType::Void => "c_void", PrimitiveType::Char => "c_char", PrimitiveType::SChar => "c_schar", PrimitiveType::UChar => "c_uchar", PrimitiveType::Char32 => "char", PrimitiveType::Integer { kind, signed, zeroable: _, } => match kind { IntKind::Short => { if signed { "c_short" } else { "c_ushort" } } IntKind::Int => { if signed { "c_int" } else { "c_uint" } } IntKind::Long => { if signed { "c_long" } else { "c_ulong" } } IntKind::LongLong => { if signed { "c_longlong" } else { "c_ulonglong" } } IntKind::SizeT => { if signed { "ssize_t" } else { "size_t" } } IntKind::Size => { if signed { "isize" } else { "usize" } } IntKind::B8 => { if signed { "i8" } else { "u8" } } IntKind::B16 => { if signed { "i16" } else { "u16" } } IntKind::B32 => { if signed { "i32" } else { "u32" } } IntKind::B64 => { if signed { "i64" } else { "u64" } } }, PrimitiveType::Float => "f32", PrimitiveType::Double => "f64", PrimitiveType::PtrDiffT => "ptrdiff_t", PrimitiveType::VaList => "va_list", } } pub fn to_repr_c(&self, config: &Config) -> &'static str { match *self { PrimitiveType::Void => "void", PrimitiveType::Bool => "bool", PrimitiveType::Char => "char", PrimitiveType::SChar => "signed char", PrimitiveType::UChar => "unsigned char", // NOTE: It'd be nice to use a char32_t, but: // // * uchar.h is not present on mac (see #423). // // * char32_t isn't required to be compatible with Rust's char, as // the C++ spec only requires it to be the same size as // uint_least32_t, which is _not_ guaranteed to be 4-bytes. // PrimitiveType::Char32 => "uint32_t", PrimitiveType::Integer { kind, signed, zeroable: _, } => match kind { IntKind::Short => { if signed { "short" } else { "unsigned short" } } IntKind::Int => { if signed { "int" } else { "unsigned int" } } IntKind::Long => { if signed { "long" } else { "unsigned long" } } IntKind::LongLong => { if signed { "long long" } else { "unsigned long long" } } IntKind::SizeT => { if signed { "ssize_t" } else { "size_t" } } IntKind::Size => { if config.usize_is_size_t { if signed { "ptrdiff_t" } else { "size_t" } } else if signed { "intptr_t" } else { "uintptr_t" } } IntKind::B8 => { if signed { "int8_t" } else { "uint8_t" } } IntKind::B16 => { if signed { "int16_t" } else { "uint16_t" } } IntKind::B32 => { if signed { "int32_t" } else { "uint32_t" } } IntKind::B64 => { if signed { "int64_t" } else { "uint64_t" } } }, PrimitiveType::Float => "float", PrimitiveType::Double => "double", PrimitiveType::PtrDiffT => "ptrdiff_t", PrimitiveType::VaList => "va_list", } } fn can_cmp_order(&self) -> bool { match *self { PrimitiveType::Bool => false, _ => true, } } fn can_cmp_eq(&self) -> bool { true } } // The `U` part of `[T; U]` #[derive(Debug, Clone, PartialEq, Eq, Hash, PartialOrd, Ord)] pub enum ArrayLength { Name(String), Value(String), } impl ArrayLength { pub fn as_str(&self) -> &str { match self { ArrayLength::Name(ref string) | ArrayLength::Value(ref string) => string, } } fn rename_for_config(&mut self, config: &Config) { if let ArrayLength::Name(ref mut name) = self { config.export.rename(name); } } } #[derive(Debug, Clone, PartialEq, Eq, Hash, PartialOrd, Ord)] pub enum Type { Ptr { ty: Box, is_const: bool, is_nullable: bool, // FIXME: This is a bit of a hack, this is only to get us to codegen // `T&` / `const T&`, but we should probably pass that down as an option // to code generation or something. is_ref: bool, }, Path(GenericPath), Primitive(PrimitiveType), Array(Box, ArrayLength), FuncPtr { ret: Box, args: Vec<(Option, Type)>, is_nullable: bool, }, } impl Type { pub fn const_ref_to(ty: &Self) -> Self { Type::Ptr { ty: Box::new(ty.clone()), is_const: true, is_nullable: false, is_ref: true, } } pub fn load(ty: &syn::Type) -> Result, String> { let converted = match *ty { syn::Type::Reference(ref reference) => { let converted = Type::load(&reference.elem)?; let converted = match converted { Some(converted) => converted, None => Type::Primitive(PrimitiveType::Void), }; // TODO(emilio): we could make these use is_ref: true. let is_const = reference.mutability.is_none(); Type::Ptr { ty: Box::new(converted), is_const, is_nullable: false, is_ref: false, } } syn::Type::Ptr(ref pointer) => { let converted = Type::load(&pointer.elem)?; let converted = match converted { Some(converted) => converted, None => Type::Primitive(PrimitiveType::Void), }; let is_const = pointer.mutability.is_none(); Type::Ptr { ty: Box::new(converted), is_const, is_nullable: true, is_ref: false, } } syn::Type::Path(ref path) => { let generic_path = GenericPath::load(&path.path)?; if generic_path.name() == "PhantomData" || generic_path.name() == "PhantomPinned" { return Ok(None); } if let Some(prim) = PrimitiveType::maybe(generic_path.name()) { if !generic_path.generics().is_empty() { return Err("Primitive has generics.".to_owned()); } Type::Primitive(prim) } else { Type::Path(generic_path) } } syn::Type::Array(syn::TypeArray { ref elem, len: syn::Expr::Path(ref path), .. }) => { let converted = Type::load(elem)?; let converted = match converted { Some(converted) => converted, None => return Err("Cannot have an array of zero sized types.".to_owned()), }; let generic_path = GenericPath::load(&path.path)?; let len = ArrayLength::Name(generic_path.export_name().to_owned()); Type::Array(Box::new(converted), len) } syn::Type::Array(syn::TypeArray { ref elem, len: syn::Expr::Lit(syn::ExprLit { lit: syn::Lit::Int(ref len), .. }), .. }) => { let converted = Type::load(elem)?; let converted = match converted { Some(converted) => converted, None => return Err("Cannot have an array of zero sized types.".to_owned()), }; let len = ArrayLength::Value(len.base10_digits().to_string()); // panic!("panic -> value: {:?}", len); Type::Array(Box::new(converted), len) } syn::Type::BareFn(ref function) => { let mut wildcard_counter = 0; let args = function.inputs.iter().try_skip_map(|x| { Type::load(&x.ty).map(|opt_ty| { opt_ty.map(|ty| { ( x.name.as_ref().map(|(ref ident, _)| { if ident == "_" { wildcard_counter += 1; if wildcard_counter == 1 { "_".to_owned() } else { format!("_{}", wildcard_counter - 1) } } else { ident.to_string() } }), ty, ) }) }) })?; let ret = match function.output { syn::ReturnType::Default => Type::Primitive(PrimitiveType::Void), syn::ReturnType::Type(_, ref ty) => { if let Some(x) = Type::load(ty)? { x } else { Type::Primitive(PrimitiveType::Void) } } }; Type::FuncPtr { ret: Box::new(ret), args, is_nullable: false, } } syn::Type::Tuple(ref tuple) => { if tuple.elems.is_empty() { return Ok(None); } return Err("Tuples are not supported types.".to_owned()); } _ => return Err(format!("Unsupported type: {:?}", ty)), }; Ok(Some(converted)) } pub fn is_primitive_or_ptr_primitive(&self) -> bool { match *self { Type::Primitive(..) => true, Type::Ptr { ref ty, .. } => match ty.as_ref() { Type::Primitive(..) => true, _ => false, }, _ => false, } } pub fn make_zeroable(&self) -> Option { let (kind, signed) = match *self { Type::Primitive(PrimitiveType::Integer { zeroable: false, kind, signed, }) => (kind, signed), _ => return None, }; Some(Type::Primitive(PrimitiveType::Integer { kind, signed, zeroable: true, })) } pub fn make_nullable(&self) -> Option { match *self { Type::Ptr { ref ty, is_const, is_ref, is_nullable: false, } => Some(Type::Ptr { ty: ty.clone(), is_const, is_ref, is_nullable: true, }), Type::FuncPtr { ref ret, ref args, is_nullable: false, } => Some(Type::FuncPtr { ret: ret.clone(), args: args.clone(), is_nullable: true, }), _ => None, } } fn nonzero_to_primitive(&self) -> Option { let path = match *self { Type::Path(ref p) => p, _ => return None, }; if !path.generics().is_empty() { return None; } let name = path.name(); if !name.starts_with("NonZero") { return None; } let (kind, signed) = match path.name() { "NonZeroU8" => (IntKind::B8, false), "NonZeroU16" => (IntKind::B16, false), "NonZeroU32" => (IntKind::B32, false), "NonZeroU64" => (IntKind::B64, false), "NonZeroUSize" => (IntKind::Size, false), "NonZeroI8" => (IntKind::B8, true), "NonZeroI16" => (IntKind::B16, true), "NonZeroI32" => (IntKind::B32, true), "NonZeroI64" => (IntKind::B64, true), "NonZeroISize" => (IntKind::Size, true), _ => return None, }; Some(Type::Primitive(PrimitiveType::Integer { zeroable: false, signed, kind, })) } fn simplified_type(&self, config: &Config) -> Option { let path = match *self { Type::Path(ref p) => p, _ => return None, }; if path.generics().is_empty() { return self.nonzero_to_primitive(); } if path.generics().len() != 1 { return None; } let unsimplified_generic = &path.generics()[0]; let generic = match unsimplified_generic.simplified_type(config) { Some(generic) => Cow::Owned(generic), None => Cow::Borrowed(unsimplified_generic), }; match path.name() { "Option" => { if let Some(nullable) = generic.make_nullable() { return Some(nullable); } if let Some(zeroable) = generic.make_zeroable() { return Some(zeroable); } None } "NonNull" => Some(Type::Ptr { ty: Box::new(generic.into_owned()), is_const: false, is_nullable: false, is_ref: false, }), "Box" if config.language != Language::Cxx => Some(Type::Ptr { ty: Box::new(generic.into_owned()), is_const: false, is_nullable: false, is_ref: false, }), "Cell" => Some(generic.into_owned()), "ManuallyDrop" | "MaybeUninit" | "Pin" if config.language != Language::Cxx => { Some(generic.into_owned()) } _ => None, } } pub fn simplify_standard_types(&mut self, config: &Config) { self.visit_types(|ty| ty.simplify_standard_types(config)); if let Some(ty) = self.simplified_type(config) { *self = ty; } } pub fn replace_self_with(&mut self, self_ty: &Path) { if let Type::Path(ref mut generic_path) = *self { generic_path.replace_self_with(self_ty); } self.visit_types(|ty| ty.replace_self_with(self_ty)) } fn visit_types(&mut self, mut visitor: impl FnMut(&mut Type)) { match *self { Type::Array(ref mut ty, ..) | Type::Ptr { ref mut ty, .. } => visitor(ty), Type::Path(ref mut path) => { for generic in path.generics_mut() { visitor(generic); } } Type::Primitive(..) => {} Type::FuncPtr { ref mut ret, ref mut args, .. } => { visitor(ret); for arg in args { visitor(&mut arg.1) } } } } pub fn get_root_path(&self) -> Option { let mut current = self; loop { match *current { Type::Ptr { ref ty, .. } => current = ty, Type::Path(ref generic) => { return Some(generic.path().clone()); } Type::Primitive(..) => { return None; } Type::Array(..) => { return None; } Type::FuncPtr { .. } => { return None; } }; } } pub fn specialize(&self, mappings: &[(&Path, &Type)]) -> Type { match *self { Type::Ptr { ref ty, is_const, is_nullable, is_ref, } => Type::Ptr { ty: Box::new(ty.specialize(mappings)), is_const, is_nullable, is_ref, }, Type::Path(ref generic_path) => { for &(param, value) in mappings { if generic_path.path() == param { return value.clone(); } } let specialized = GenericPath::new( generic_path.path().clone(), generic_path .generics() .iter() .map(|x| x.specialize(mappings)) .collect(), ); Type::Path(specialized) } Type::Primitive(ref primitive) => Type::Primitive(primitive.clone()), Type::Array(ref ty, ref constant) => { Type::Array(Box::new(ty.specialize(mappings)), constant.clone()) } Type::FuncPtr { ref ret, ref args, is_nullable, } => Type::FuncPtr { ret: Box::new(ret.specialize(mappings)), args: args .iter() .cloned() .map(|(name, ty)| (name, ty.specialize(mappings))) .collect(), is_nullable, }, } } pub fn add_dependencies_ignoring_generics( &self, generic_params: &GenericParams, library: &Library, out: &mut Dependencies, ) { match *self { Type::Ptr { ref ty, .. } => { ty.add_dependencies_ignoring_generics(generic_params, library, out); } Type::Path(ref generic) => { for generic_value in generic.generics() { generic_value.add_dependencies_ignoring_generics(generic_params, library, out); } let path = generic.path(); if !generic_params.contains(path) { if let Some(items) = library.get_items(path) { if !out.items.contains(path) { out.items.insert(path.clone()); for item in &items { item.deref().add_dependencies(library, out); } for item in items { out.order.push(item); } } } else { warn!( "Can't find {}. This usually means that this type was incompatible or \ not found.", path ); } } } Type::Primitive(_) => {} Type::Array(ref ty, _) => { ty.add_dependencies_ignoring_generics(generic_params, library, out); } Type::FuncPtr { ref ret, ref args, .. } => { ret.add_dependencies_ignoring_generics(generic_params, library, out); for (_, ref arg) in args { arg.add_dependencies_ignoring_generics(generic_params, library, out); } } } } pub fn add_dependencies(&self, library: &Library, out: &mut Dependencies) { self.add_dependencies_ignoring_generics(&GenericParams::default(), library, out) } pub fn add_monomorphs(&self, library: &Library, out: &mut Monomorphs) { match *self { Type::Ptr { ref ty, .. } => { ty.add_monomorphs(library, out); } Type::Path(ref generic) => { if generic.generics().is_empty() || out.contains(generic) { return; } let path = generic.path(); if let Some(items) = library.get_items(path) { for item in items { item.deref() .instantiate_monomorph(generic.generics(), library, out); } } } Type::Primitive(_) => {} Type::Array(ref ty, _) => { ty.add_monomorphs(library, out); } Type::FuncPtr { ref ret, ref args, .. } => { ret.add_monomorphs(library, out); for (_, ref arg) in args { arg.add_monomorphs(library, out); } } } } pub fn rename_for_config(&mut self, config: &Config, generic_params: &GenericParams) { match *self { Type::Ptr { ref mut ty, .. } => { ty.rename_for_config(config, generic_params); } Type::Path(ref mut ty) => { ty.rename_for_config(config, generic_params); } Type::Primitive(_) => {} Type::Array(ref mut ty, ref mut len) => { ty.rename_for_config(config, generic_params); len.rename_for_config(config); } Type::FuncPtr { ref mut ret, ref mut args, .. } => { ret.rename_for_config(config, generic_params); for (_, arg) in args { arg.rename_for_config(config, generic_params); } } } } pub fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) { match *self { Type::Ptr { ref mut ty, .. } => { ty.resolve_declaration_types(resolver); } Type::Path(ref mut generic_path) => { generic_path.resolve_declaration_types(resolver); } Type::Primitive(_) => {} Type::Array(ref mut ty, _) => { ty.resolve_declaration_types(resolver); } Type::FuncPtr { ref mut ret, ref mut args, .. } => { ret.resolve_declaration_types(resolver); for (_, ref mut arg) in args { arg.resolve_declaration_types(resolver); } } } } pub fn mangle_paths(&mut self, monomorphs: &Monomorphs) { match *self { Type::Ptr { ref mut ty, .. } => { ty.mangle_paths(monomorphs); } Type::Path(ref mut generic_path) => { if generic_path.generics().is_empty() { return; } if let Some(mangled_path) = monomorphs.mangle_path(generic_path) { *generic_path = GenericPath::new(mangled_path.clone(), vec![]); } else { warn!( "Cannot find a mangling for generic path {:?}. This usually means that a \ type referenced by this generic was incompatible or not found.", generic_path ); } } Type::Primitive(_) => {} Type::Array(ref mut ty, _) => { ty.mangle_paths(monomorphs); } Type::FuncPtr { ref mut ret, ref mut args, .. } => { ret.mangle_paths(monomorphs); for (_, ref mut arg) in args { arg.mangle_paths(monomorphs); } } } } pub fn can_cmp_order(&self) -> bool { match *self { // FIXME: Shouldn't this look at ty.can_cmp_order() as well? Type::Ptr { is_ref, .. } => !is_ref, Type::Path(..) => true, Type::Primitive(ref p) => p.can_cmp_order(), Type::Array(..) => false, Type::FuncPtr { .. } => false, } } pub fn can_cmp_eq(&self) -> bool { match *self { Type::Ptr { ref ty, is_ref, .. } => !is_ref || ty.can_cmp_eq(), Type::Path(..) => true, Type::Primitive(ref p) => p.can_cmp_eq(), Type::Array(..) => false, Type::FuncPtr { .. } => true, } } } impl Source for String { fn write(&self, _config: &Config, out: &mut SourceWriter) { write!(out, "{}", self); } } impl Source for Type { fn write(&self, config: &Config, out: &mut SourceWriter) { cdecl::write_type(out, self, config); } } cbindgen-0.20.0/src/bindgen/ir/typedef.rs000064400000000000000000000147100072674642500163240ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::collections::HashMap; use std::io::Write; use crate::bindgen::config::{Config, Language}; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::ir::{ AnnotationSet, Cfg, ConditionWrite, Documentation, Field, GenericParams, Item, ItemContainer, Path, ToCondition, Type, }; use crate::bindgen::library::Library; use crate::bindgen::mangle; use crate::bindgen::monomorph::Monomorphs; use crate::bindgen::writer::{Source, SourceWriter}; /// A type alias that is represented as a C typedef #[derive(Debug, Clone)] pub struct Typedef { pub path: Path, pub export_name: String, pub generic_params: GenericParams, pub aliased: Type, pub cfg: Option, pub annotations: AnnotationSet, pub documentation: Documentation, } impl Typedef { pub fn load(item: &syn::ItemType, mod_cfg: Option<&Cfg>) -> Result { if let Some(x) = Type::load(&item.ty)? { let path = Path::new(item.ident.to_string()); Ok(Typedef::new( path, GenericParams::new(&item.generics), x, Cfg::append(mod_cfg, Cfg::load(&item.attrs)), AnnotationSet::load(&item.attrs)?, Documentation::load(&item.attrs), )) } else { Err("Cannot have a typedef of a zero sized type.".to_owned()) } } pub fn new( path: Path, generic_params: GenericParams, aliased: Type, cfg: Option, annotations: AnnotationSet, documentation: Documentation, ) -> Self { let export_name = path.name().to_owned(); Self { path, export_name, generic_params, aliased, cfg, annotations, documentation, } } pub fn simplify_standard_types(&mut self, config: &Config) { self.aliased.simplify_standard_types(config); } pub fn transfer_annotations(&mut self, out: &mut HashMap) { if self.annotations.is_empty() { return; } if let Some(alias_path) = self.aliased.get_root_path() { if out.contains_key(&alias_path) { warn!( "Multiple typedef's with annotations for {}. Ignoring annotations from {}.", alias_path, self.path ); return; } out.insert(alias_path, self.annotations.clone()); self.annotations = AnnotationSet::new(); } } pub fn is_generic(&self) -> bool { self.generic_params.len() > 0 } pub fn add_monomorphs(&self, library: &Library, out: &mut Monomorphs) { // Generic structs can instantiate monomorphs only once they've been // instantiated. See `instantiate_monomorph` for more details. if self.is_generic() { return; } self.aliased.add_monomorphs(library, out); } pub fn mangle_paths(&mut self, monomorphs: &Monomorphs) { self.aliased.mangle_paths(monomorphs); } } impl Item for Typedef { fn path(&self) -> &Path { &self.path } fn export_name(&self) -> &str { &self.export_name } fn cfg(&self) -> Option<&Cfg> { self.cfg.as_ref() } fn annotations(&self) -> &AnnotationSet { &self.annotations } fn annotations_mut(&mut self) -> &mut AnnotationSet { &mut self.annotations } fn container(&self) -> ItemContainer { ItemContainer::Typedef(self.clone()) } fn rename_for_config(&mut self, config: &Config) { config.export.rename(&mut self.export_name); self.aliased.rename_for_config(config, &self.generic_params); } fn collect_declaration_types(&self, resolver: &mut DeclarationTypeResolver) { resolver.add_none(&self.path); } fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) { self.aliased.resolve_declaration_types(resolver); } fn add_dependencies(&self, library: &Library, out: &mut Dependencies) { self.aliased .add_dependencies_ignoring_generics(&self.generic_params, library, out); } fn instantiate_monomorph( &self, generic_values: &[Type], library: &Library, out: &mut Monomorphs, ) { assert!( self.generic_params.len() > 0, "{} is not generic", self.path ); assert!( self.generic_params.len() == generic_values.len(), "{} has {} params but is being instantiated with {} values", self.path, self.generic_params.len(), generic_values.len(), ); let mappings = self .generic_params .iter() .zip(generic_values.iter()) .collect::>(); let mangled_path = mangle::mangle_path( &self.path, generic_values, &library.get_config().export.mangle, ); let monomorph = Typedef::new( mangled_path, GenericParams::default(), self.aliased.specialize(&mappings), self.cfg.clone(), self.annotations.clone(), self.documentation.clone(), ); out.insert_typedef(library, self, monomorph, generic_values.to_owned()); } } impl Source for Typedef { fn write(&self, config: &Config, out: &mut SourceWriter) { let condition = self.cfg.to_condition(config); condition.write_before(config, out); self.documentation.write(config, out); self.generic_params.write(config, out); match config.language { Language::Cxx => { write!(out, "using {} = ", self.export_name()); self.aliased.write(config, out); } Language::C | Language::Cython => { write!(out, "{} ", config.language.typedef()); Field::from_name_and_type(self.export_name().to_owned(), self.aliased.clone()) .write(config, out); } } out.write(";"); condition.write_after(config, out); } } cbindgen-0.20.0/src/bindgen/ir/union.rs000064400000000000000000000252540072674642500160210ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::io::Write; use crate::bindgen::config::{Config, Language, LayoutConfig}; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::ir::{ AnnotationSet, Cfg, ConditionWrite, Documentation, Field, GenericParams, Item, ItemContainer, Path, Repr, ReprAlign, ReprStyle, ToCondition, Type, }; use crate::bindgen::library::Library; use crate::bindgen::mangle; use crate::bindgen::monomorph::Monomorphs; use crate::bindgen::rename::{IdentifierType, RenameRule}; use crate::bindgen::utilities::IterHelpers; use crate::bindgen::writer::{ListType, Source, SourceWriter}; #[derive(Debug, Clone)] pub struct Union { pub path: Path, pub export_name: String, pub generic_params: GenericParams, pub fields: Vec, pub tuple_union: bool, pub alignment: Option, pub cfg: Option, pub annotations: AnnotationSet, pub documentation: Documentation, } impl Union { pub fn load( layout_config: &LayoutConfig, item: &syn::ItemUnion, mod_cfg: Option<&Cfg>, ) -> Result { let repr = Repr::load(&item.attrs)?; if repr.style != ReprStyle::C { return Err("Union is not marked #[repr(C)].".to_owned()); } // Ensure we can safely represent the union given the configuration. if let Some(align) = repr.align { layout_config.ensure_safe_to_represent(&align)?; } let path = Path::new(item.ident.to_string()); let (fields, tuple_union) = { let out = item .fields .named .iter() .try_skip_map(|field| Field::load(field, &path))?; (out, false) }; Ok(Union::new( path, GenericParams::new(&item.generics), fields, repr.align, tuple_union, Cfg::append(mod_cfg, Cfg::load(&item.attrs)), AnnotationSet::load(&item.attrs)?, Documentation::load(&item.attrs), )) } #[allow(clippy::too_many_arguments)] pub fn new( path: Path, generic_params: GenericParams, fields: Vec, alignment: Option, tuple_union: bool, cfg: Option, annotations: AnnotationSet, documentation: Documentation, ) -> Self { let export_name = path.name().to_owned(); Self { path, export_name, generic_params, fields, tuple_union, alignment, cfg, annotations, documentation, } } pub fn simplify_standard_types(&mut self, config: &Config) { for field in &mut self.fields { field.ty.simplify_standard_types(config); } } pub fn is_generic(&self) -> bool { self.generic_params.len() > 0 } pub fn add_monomorphs(&self, library: &Library, out: &mut Monomorphs) { // Generic unions can instantiate monomorphs only once they've been // instantiated. See `instantiate_monomorph` for more details. if self.is_generic() { return; } for field in &self.fields { field.ty.add_monomorphs(library, out); } } pub fn mangle_paths(&mut self, monomorphs: &Monomorphs) { for field in &mut self.fields { field.ty.mangle_paths(monomorphs); } } } impl Item for Union { fn path(&self) -> &Path { &self.path } fn export_name(&self) -> &str { &self.export_name } fn cfg(&self) -> Option<&Cfg> { self.cfg.as_ref() } fn annotations(&self) -> &AnnotationSet { &self.annotations } fn annotations_mut(&mut self) -> &mut AnnotationSet { &mut self.annotations } fn container(&self) -> ItemContainer { ItemContainer::Union(self.clone()) } fn collect_declaration_types(&self, resolver: &mut DeclarationTypeResolver) { resolver.add_union(&self.path); } fn resolve_declaration_types(&mut self, resolver: &DeclarationTypeResolver) { for field in &mut self.fields { field.ty.resolve_declaration_types(resolver); } } fn rename_for_config(&mut self, config: &Config) { config.export.rename(&mut self.export_name); for field in &mut self.fields { field.ty.rename_for_config(config, &self.generic_params); } let rules = self .annotations .parse_atom::("rename-all") .unwrap_or(config.structure.rename_fields); if let Some(o) = self.annotations.list("field-names") { let mut overriden_fields = Vec::new(); for (i, field) in self.fields.iter().enumerate() { if i >= o.len() { overriden_fields.push(field.clone()); } else { overriden_fields.push(Field { name: o[i].clone(), ty: field.ty.clone(), cfg: field.cfg.clone(), annotations: field.annotations.clone(), documentation: field.documentation.clone(), }); } } self.fields = overriden_fields; } else if let Some(r) = rules.not_none() { self.fields = self .fields .iter() .map(|field| Field { name: r .apply(&field.name, IdentifierType::StructMember) .into_owned(), ty: field.ty.clone(), cfg: field.cfg.clone(), annotations: field.annotations.clone(), documentation: field.documentation.clone(), }) .collect(); } else if self.tuple_union { // If we don't have any rules for a tuple union, prefix them with // an underscore so it still compiles for field in &mut self.fields { field.name.insert(0, '_'); } } } fn add_dependencies(&self, library: &Library, out: &mut Dependencies) { for field in &self.fields { field .ty .add_dependencies_ignoring_generics(&self.generic_params, library, out); } } fn instantiate_monomorph( &self, generic_values: &[Type], library: &Library, out: &mut Monomorphs, ) { assert!( self.generic_params.len() > 0, "{} is not generic", self.path ); assert!( self.generic_params.len() == generic_values.len(), "{} has {} params but is being instantiated with {} values", self.path, self.generic_params.len(), generic_values.len(), ); let mappings = self .generic_params .iter() .zip(generic_values.iter()) .collect::>(); let mangled_path = mangle::mangle_path( &self.path, generic_values, &library.get_config().export.mangle, ); let monomorph = Union::new( mangled_path, GenericParams::default(), self.fields .iter() .map(|field| Field { name: field.name.clone(), ty: field.ty.specialize(&mappings), cfg: field.cfg.clone(), annotations: field.annotations.clone(), documentation: field.documentation.clone(), }) .collect(), self.alignment, self.tuple_union, self.cfg.clone(), self.annotations.clone(), self.documentation.clone(), ); out.insert_union(library, self, monomorph, generic_values.to_owned()); } } impl Source for Union { fn write(&self, config: &Config, out: &mut SourceWriter) { let condition = self.cfg.to_condition(config); condition.write_before(config, out); self.documentation.write(config, out); self.generic_params.write(config, out); // The following results in // C++ or C with Tag as style: // union Name { // C with Type only style: // typedef union { // C with Both as style: // typedef union Name { match config.language { Language::C if config.style.generate_typedef() => out.write("typedef "), Language::C | Language::Cxx => {} Language::Cython => out.write(config.style.cython_def()), } out.write("union"); // Cython supports `packed` on structs (see comments there), but not on unions. if config.language != Language::Cython { if let Some(align) = self.alignment { match align { ReprAlign::Packed => { if let Some(ref anno) = config.layout.packed { write!(out, " {}", anno); } } ReprAlign::Align(n) => { if let Some(ref anno) = config.layout.aligned_n { write!(out, " {}({})", anno, n); } } } } } if config.language != Language::C || config.style.generate_tag() { write!(out, " {}", self.export_name); } out.open_brace(); // Emit the pre_body section, if relevant if let Some(body) = config.export.pre_body(&self.path) { out.write_raw_block(body); out.new_line(); } out.write_vertical_source_list(&self.fields, ListType::Cap(";")); if config.language == Language::Cython && self.fields.is_empty() { out.write("pass"); } // Emit the post_body section, if relevant if let Some(body) = config.export.post_body(&self.path) { out.new_line(); out.write_raw_block(body); } if config.language == Language::C && config.style.generate_typedef() { out.close_brace(false); write!(out, " {};", self.export_name); } else { out.close_brace(true); } condition.write_after(config, out); } } cbindgen-0.20.0/src/bindgen/library.rs000064400000000000000000000342740072674642500157250ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::collections::HashMap; use crate::bindgen::bindings::Bindings; use crate::bindgen::config::{Config, Language, SortKey}; use crate::bindgen::declarationtyperesolver::DeclarationTypeResolver; use crate::bindgen::dependencies::Dependencies; use crate::bindgen::error::Error; use crate::bindgen::ir::{Constant, Enum, Function, Item, ItemContainer, ItemMap}; use crate::bindgen::ir::{OpaqueItem, Path, Static, Struct, Typedef, Union}; use crate::bindgen::monomorph::Monomorphs; use crate::bindgen::ItemType; #[derive(Debug, Clone)] pub struct Library { config: Config, constants: ItemMap, globals: ItemMap, enums: ItemMap, structs: ItemMap, unions: ItemMap, opaque_items: ItemMap, typedefs: ItemMap, functions: Vec, } impl Library { #[allow(clippy::too_many_arguments)] pub fn new( config: Config, constants: ItemMap, globals: ItemMap, enums: ItemMap, structs: ItemMap, unions: ItemMap, opaque_items: ItemMap, typedefs: ItemMap, functions: Vec, ) -> Library { Library { config, constants, globals, enums, structs, unions, opaque_items, typedefs, functions, } } pub fn generate(mut self) -> Result { self.transfer_annotations(); self.simplify_standard_types(); match self.config.function.sort_by.unwrap_or(self.config.sort_by) { SortKey::Name => self.functions.sort_by(|x, y| x.path.cmp(&y.path)), SortKey::None => { /* keep input order */ } } if self.config.language != Language::Cxx { self.instantiate_monomorphs(); } self.remove_excluded(); if self.config.language == Language::C { self.resolve_declaration_types(); } self.rename_items(); let mut dependencies = Dependencies::new(); for function in &self.functions { function.add_dependencies(&self, &mut dependencies); } self.globals.for_all_items(|global| { global.add_dependencies(&self, &mut dependencies); }); self.constants.for_all_items(|constant| { constant.add_dependencies(&self, &mut dependencies); }); for name in &self.config.export.include { let path = Path::new(name.clone()); if let Some(items) = self.get_items(&path) { if dependencies.items.insert(path) { for item in &items { item.deref().add_dependencies(&self, &mut dependencies); } for item in items { dependencies.order.push(item); } } } } dependencies.sort(); let items = dependencies.order; let constants = if self.config.export.should_generate(ItemType::Constants) { let mut constants = self.constants.to_vec(); match self.config.constant.sort_by.unwrap_or(self.config.sort_by) { SortKey::Name => constants.sort_by(|x, y| x.path.cmp(&y.path)), SortKey::None => { /* keep input order */ } } constants } else { vec![] }; let globals = if self.config.export.should_generate(ItemType::Globals) { let mut globals = self.globals.to_vec(); match self.config.constant.sort_by.unwrap_or(self.config.sort_by) { SortKey::Name => globals.sort_by(|x, y| x.path.cmp(&y.path)), SortKey::None => { /* keep input order */ } } globals } else { vec![] }; let functions = if self.config.export.should_generate(ItemType::Functions) { self.functions } else { vec![] }; Ok(Bindings::new( self.config, self.structs, constants, globals, items, functions, )) } pub fn get_items(&self, p: &Path) -> Option> { macro_rules! find { ($field:ident, $kind:ident) => { if self.config.export.should_generate(ItemType::$kind) { if let Some(x) = self.$field.get_items(p) { return Some(x); } } }; } find!(enums, Enums); find!(structs, Structs); find!(unions, Unions); find!(opaque_items, OpaqueItems); find!(typedefs, Typedefs); None } pub fn get_config(&self) -> &Config { &self.config } fn remove_excluded(&mut self) { let config = &self.config; // FIXME: interpret `config.export.exclude` as `Path`s. self.functions .retain(|x| !config.export.exclude.iter().any(|y| y == x.path().name())); self.enums .filter(|x| config.export.exclude.iter().any(|y| y == x.path().name())); self.structs .filter(|x| config.export.exclude.iter().any(|y| y == x.path().name())); self.unions .filter(|x| config.export.exclude.iter().any(|y| y == x.path().name())); self.opaque_items .filter(|x| config.export.exclude.iter().any(|y| y == x.path().name())); self.typedefs .filter(|x| config.export.exclude.iter().any(|y| y == x.path().name())); self.globals .filter(|x| config.export.exclude.iter().any(|y| y == x.path().name())); self.constants .filter(|x| config.export.exclude.iter().any(|y| y == x.path().name())); } fn transfer_annotations(&mut self) { let mut annotations = HashMap::new(); self.typedefs.for_all_items_mut(|x| { x.transfer_annotations(&mut annotations); }); for (alias_path, annotations) in annotations { // TODO let mut transferred = false; self.enums.for_items_mut(&alias_path, |x| { if x.annotations().is_empty() { *x.annotations_mut() = annotations.clone(); transferred = true; } else { warn!( "Can't transfer annotations from typedef to alias ({}) \ that already has annotations.", alias_path ); } }); if transferred { continue; } self.structs.for_items_mut(&alias_path, |x| { if x.annotations().is_empty() { *x.annotations_mut() = annotations.clone(); transferred = true; } else { warn!( "Can't transfer annotations from typedef to alias ({}) \ that already has annotations.", alias_path ); } }); if transferred { continue; } self.unions.for_items_mut(&alias_path, |x| { if x.annotations().is_empty() { *x.annotations_mut() = annotations.clone(); transferred = true; } else { warn!( "Can't transfer annotations from typedef to alias ({}) \ that already has annotations.", alias_path ); } }); if transferred { continue; } self.opaque_items.for_items_mut(&alias_path, |x| { if x.annotations().is_empty() { *x.annotations_mut() = annotations.clone(); transferred = true; } else { warn!( "Can't transfer annotations from typedef to alias ({}) \ that already has annotations.", alias_path ); } }); if transferred { continue; } self.typedefs.for_items_mut(&alias_path, |x| { if x.annotations().is_empty() { *x.annotations_mut() = annotations.clone(); transferred = true; } else { warn!( "Can't transfer annotations from typedef to alias ({}) \ that already has annotations.", alias_path ); } }); if transferred { continue; } } } fn rename_items(&mut self) { let config = &self.config; self.globals .for_all_items_mut(|x| x.rename_for_config(config)); self.globals.rebuild(); self.constants .for_all_items_mut(|x| x.rename_for_config(config)); self.constants.rebuild(); self.structs .for_all_items_mut(|x| x.rename_for_config(config)); self.structs.rebuild(); self.unions .for_all_items_mut(|x| x.rename_for_config(config)); self.unions.rebuild(); self.enums .for_all_items_mut(|x| x.rename_for_config(config)); self.enums.rebuild(); self.opaque_items .for_all_items_mut(|x| x.rename_for_config(config)); self.opaque_items.rebuild(); self.typedefs .for_all_items_mut(|x| x.rename_for_config(config)); self.typedefs.rebuild(); for item in &mut self.functions { item.rename_for_config(&self.config); } } fn resolve_declaration_types(&mut self) { if !self.config.style.generate_tag() { return; } let mut resolver = DeclarationTypeResolver::default(); self.structs.for_all_items(|x| { x.collect_declaration_types(&mut resolver); }); self.enums.for_all_items(|x| { x.collect_declaration_types(&mut resolver); }); self.unions.for_all_items(|x| { x.collect_declaration_types(&mut resolver); }); self.typedefs.for_all_items(|x| { x.collect_declaration_types(&mut resolver); }); // NOTE: Intentionally last, so that in case there's an opaque type // which is conflicting with a non-opaque one, the later wins. self.opaque_items.for_all_items(|x| { x.collect_declaration_types(&mut resolver); }); self.enums .for_all_items_mut(|x| x.resolve_declaration_types(&resolver)); self.structs .for_all_items_mut(|x| x.resolve_declaration_types(&resolver)); self.unions .for_all_items_mut(|x| x.resolve_declaration_types(&resolver)); self.typedefs .for_all_items_mut(|x| x.resolve_declaration_types(&resolver)); self.globals .for_all_items_mut(|x| x.resolve_declaration_types(&resolver)); for item in &mut self.functions { item.resolve_declaration_types(&resolver); } } fn simplify_standard_types(&mut self) { let config = &self.config; self.structs.for_all_items_mut(|x| { x.simplify_standard_types(config); }); self.unions.for_all_items_mut(|x| { x.simplify_standard_types(config); }); self.globals.for_all_items_mut(|x| { x.simplify_standard_types(config); }); self.typedefs.for_all_items_mut(|x| { x.simplify_standard_types(config); }); for x in &mut self.functions { x.simplify_standard_types(config); } } fn instantiate_monomorphs(&mut self) { // Collect a list of monomorphs let mut monomorphs = Monomorphs::default(); self.structs.for_all_items(|x| { x.add_monomorphs(self, &mut monomorphs); }); self.unions.for_all_items(|x| { x.add_monomorphs(self, &mut monomorphs); }); self.enums.for_all_items(|x| { x.add_monomorphs(self, &mut monomorphs); }); self.typedefs.for_all_items(|x| { x.add_monomorphs(self, &mut monomorphs); }); for x in &self.functions { x.add_monomorphs(self, &mut monomorphs); } // Insert the monomorphs into self for monomorph in monomorphs.drain_structs() { self.structs.try_insert(monomorph); } for monomorph in monomorphs.drain_unions() { self.unions.try_insert(monomorph); } for monomorph in monomorphs.drain_opaques() { self.opaque_items.try_insert(monomorph); } for monomorph in monomorphs.drain_typedefs() { self.typedefs.try_insert(monomorph); } for monomorph in monomorphs.drain_enums() { self.enums.try_insert(monomorph); } // Remove structs and opaque items that are generic self.opaque_items.filter(|x| x.generic_params.len() > 0); self.structs.filter(|x| x.generic_params.len() > 0); self.unions.filter(|x| x.generic_params.len() > 0); self.enums.filter(|x| x.generic_params.len() > 0); self.typedefs.filter(|x| x.generic_params.len() > 0); // Mangle the paths that remain self.unions .for_all_items_mut(|x| x.mangle_paths(&monomorphs)); self.structs .for_all_items_mut(|x| x.mangle_paths(&monomorphs)); self.enums .for_all_items_mut(|x| x.mangle_paths(&monomorphs)); self.typedefs .for_all_items_mut(|x| x.mangle_paths(&monomorphs)); for x in &mut self.functions { x.mangle_paths(&monomorphs); } } } cbindgen-0.20.0/src/bindgen/mangle.rs000064400000000000000000000174760072674642500155310ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use crate::bindgen::config::MangleConfig; use crate::bindgen::ir::{Path, Type}; use crate::bindgen::rename::IdentifierType; pub fn mangle_path(path: &Path, generic_values: &[Type], config: &MangleConfig) -> Path { Path::new(mangle_name(path.name(), generic_values, config)) } pub fn mangle_name(name: &str, generic_values: &[Type], config: &MangleConfig) -> String { Mangler::new(name, generic_values, /* last = */ true, config).mangle() } enum Separator { OpeningAngleBracket = 1, Comma, ClosingAngleBracket, BeginMutPtr, BeginConstPtr, BeginFn, BetweenFnArg, EndFn, } struct Mangler<'a> { input: &'a str, generic_values: &'a [Type], output: String, last: bool, config: &'a MangleConfig, } impl<'a> Mangler<'a> { fn new( input: &'a str, generic_values: &'a [Type], last: bool, config: &'a MangleConfig, ) -> Self { Self { input, generic_values, output: String::new(), last, config, } } fn mangle(mut self) -> String { self.mangle_internal(); self.output } fn push(&mut self, id: Separator) { let count = id as usize; let separator = if self.config.remove_underscores { "" } else { "_" }; self.output.extend(std::iter::repeat(separator).take(count)); } fn append_mangled_type(&mut self, ty: &Type, last: bool) { match *ty { Type::Path(ref generic) => { let sub_path = Mangler::new(generic.export_name(), generic.generics(), last, self.config) .mangle(); self.output.push_str( &self .config .rename_types .apply(&sub_path, IdentifierType::Type), ); } Type::Primitive(ref primitive) => { self.output.push_str( &self .config .rename_types .apply(primitive.to_repr_rust(), IdentifierType::Type), ); } Type::Ptr { ref ty, is_const, .. } => { self.push(if is_const { Separator::BeginConstPtr } else { Separator::BeginMutPtr }); self.append_mangled_type(&**ty, last); } Type::FuncPtr { ref ret, ref args, .. } => { self.push(Separator::BeginFn); self.append_mangled_type(&**ret, args.is_empty()); for (i, arg) in args.iter().enumerate() { self.push(Separator::BetweenFnArg); let last = last && i == args.len() - 1; self.append_mangled_type(&arg.1, last); } if !self.last { self.push(Separator::EndFn); } } Type::Array(..) => { unimplemented!( "Unable to mangle generic parameter {:?} for '{}'", ty, self.input ); } } } fn mangle_internal(&mut self) { debug_assert!(self.output.is_empty()); self.output = self.input.to_owned(); if self.generic_values.is_empty() { return; } self.push(Separator::OpeningAngleBracket); for (i, ty) in self.generic_values.iter().enumerate() { if i != 0 { self.push(Separator::Comma); } let last = self.last && i == self.generic_values.len() - 1; self.append_mangled_type(ty, last); } // Skip writing the trailing '>' mangling when possible if !self.last { self.push(Separator::ClosingAngleBracket) } } } #[test] fn generics() { use crate::bindgen::ir::{GenericPath, PrimitiveType}; use crate::bindgen::rename::RenameRule::{self, PascalCase}; fn float() -> Type { Type::Primitive(PrimitiveType::Float) } fn c_char() -> Type { Type::Primitive(PrimitiveType::Char) } fn path(path: &str) -> Type { generic_path(path, &[]) } fn generic_path(path: &str, generics: &[Type]) -> Type { let path = Path::new(path); let generic_path = GenericPath::new(path, generics.to_owned()); Type::Path(generic_path) } // Foo => Foo_f32 assert_eq!( mangle_path(&Path::new("Foo"), &[float()], &MangleConfig::default()), Path::new("Foo_f32") ); // Foo> => Foo_Bar_f32 assert_eq!( mangle_path( &Path::new("Foo"), &[generic_path("Bar", &[float()])], &MangleConfig::default(), ), Path::new("Foo_Bar_f32") ); // Foo => Foo_Bar assert_eq!( mangle_path(&Path::new("Foo"), &[path("Bar")], &MangleConfig::default()), Path::new("Foo_Bar") ); // Foo => FooBar assert_eq!( mangle_path( &Path::new("Foo"), &[path("Bar")], &MangleConfig { remove_underscores: true, rename_types: RenameRule::None, } ), Path::new("FooBar") ); // Foo> => FooBarF32 assert_eq!( mangle_path( &Path::new("Foo"), &[generic_path("Bar", &[float()])], &MangleConfig { remove_underscores: true, rename_types: PascalCase, }, ), Path::new("FooBarF32") ); // Foo> => FooBarCChar assert_eq!( mangle_path( &Path::new("Foo"), &[generic_path("Bar", &[c_char()])], &MangleConfig { remove_underscores: true, rename_types: PascalCase, }, ), Path::new("FooBarCChar") ); // Foo> => Foo_Bar_T assert_eq!( mangle_path( &Path::new("Foo"), &[generic_path("Bar", &[path("T")])], &MangleConfig::default(), ), Path::new("Foo_Bar_T") ); // Foo, E> => Foo_Bar_T_____E assert_eq!( mangle_path( &Path::new("Foo"), &[generic_path("Bar", &[path("T")]), path("E")], &MangleConfig::default(), ), Path::new("Foo_Bar_T_____E") ); // Foo, Bar> => Foo_Bar_T_____Bar_E assert_eq!( mangle_path( &Path::new("Foo"), &[ generic_path("Bar", &[path("T")]), generic_path("Bar", &[path("E")]), ], &MangleConfig::default(), ), Path::new("Foo_Bar_T_____Bar_E") ); // Foo, E> => FooBarTE assert_eq!( mangle_path( &Path::new("Foo"), &[generic_path("Bar", &[path("T")]), path("E")], &MangleConfig { remove_underscores: true, rename_types: PascalCase, }, ), Path::new("FooBarTE") ); // Foo, Bar> => FooBarTBarE assert_eq!( mangle_path( &Path::new("Foo"), &[ generic_path("Bar", &[path("T")]), generic_path("Bar", &[path("E")]), ], &MangleConfig { remove_underscores: true, rename_types: PascalCase, }, ), Path::new("FooBarTBarE") ); } cbindgen-0.20.0/src/bindgen/mod.rs000064400000000000000000000035600072674642500150320ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /// A helper macro for deriving deserialize for an enum to be used in toml-rs. /// This macro works be relying on an existing FromStr implementation for the /// desired type. macro_rules! deserialize_enum_str { ($name:ident) => { impl<'de> ::serde::Deserialize<'de> for $name { fn deserialize(deserializer: D) -> Result where D: ::serde::Deserializer<'de>, { struct Visitor; impl<'de> ::serde::de::Visitor<'de> for Visitor { type Value = $name; fn expecting(&self, f: &mut ::std::fmt::Formatter) -> ::std::fmt::Result { f.write_str("$name") } fn visit_str(self, v: &str) -> Result<$name, E> where E: ::serde::de::Error, { match v.parse::<$name>() { Ok(v) => Ok(v), Err(m) => Err(E::custom(m)), } } } deserializer.deserialize_str(Visitor) } } }; } mod bindings; mod bitflags; mod builder; mod cargo; mod cdecl; mod config; mod declarationtyperesolver; mod dependencies; mod error; mod ir; mod library; mod mangle; mod monomorph; mod parser; mod rename; mod reserved; mod utilities; mod writer; #[allow(unused)] pub(crate) use self::cargo::*; pub use self::bindings::Bindings; pub use self::builder::Builder; pub use self::config::Profile; // disambiguate with cargo::Profile pub use self::config::*; pub use self::error::Error; cbindgen-0.20.0/src/bindgen/monomorph.rs000064400000000000000000000076520072674642500162770ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::collections::HashMap; use std::mem; use crate::bindgen::ir::{Enum, GenericPath, OpaqueItem, Path, Struct, Type, Typedef, Union}; use crate::bindgen::library::Library; #[derive(Default, Clone, Debug)] pub struct Monomorphs { replacements: HashMap, opaques: Vec, structs: Vec, unions: Vec, typedefs: Vec, enums: Vec, } impl Monomorphs { pub fn contains(&self, path: &GenericPath) -> bool { self.replacements.contains_key(path) } pub fn insert_struct( &mut self, library: &Library, generic: &Struct, monomorph: Struct, parameters: Vec, ) { let replacement_path = GenericPath::new(generic.path.clone(), parameters); debug_assert!(generic.generic_params.len() > 0); debug_assert!(!self.contains(&replacement_path)); self.replacements .insert(replacement_path, monomorph.path.clone()); monomorph.add_monomorphs(library, self); self.structs.push(monomorph); } pub fn insert_enum( &mut self, library: &Library, generic: &Enum, monomorph: Enum, parameters: Vec, ) { let replacement_path = GenericPath::new(generic.path.clone(), parameters); debug_assert!(generic.generic_params.len() > 0); debug_assert!(!self.contains(&replacement_path)); self.replacements .insert(replacement_path, monomorph.path.clone()); monomorph.add_monomorphs(library, self); self.enums.push(monomorph); } pub fn insert_union( &mut self, library: &Library, generic: &Union, monomorph: Union, parameters: Vec, ) { let replacement_path = GenericPath::new(generic.path.clone(), parameters); debug_assert!(generic.generic_params.len() > 0); debug_assert!(!self.contains(&replacement_path)); self.replacements .insert(replacement_path, monomorph.path.clone()); monomorph.add_monomorphs(library, self); self.unions.push(monomorph); } pub fn insert_opaque( &mut self, generic: &OpaqueItem, monomorph: OpaqueItem, parameters: Vec, ) { let replacement_path = GenericPath::new(generic.path.clone(), parameters); debug_assert!(generic.generic_params.len() > 0); debug_assert!(!self.contains(&replacement_path)); self.replacements .insert(replacement_path, monomorph.path.clone()); self.opaques.push(monomorph); } pub fn insert_typedef( &mut self, library: &Library, generic: &Typedef, monomorph: Typedef, parameters: Vec, ) { let replacement_path = GenericPath::new(generic.path.clone(), parameters); debug_assert!(generic.generic_params.len() > 0); debug_assert!(!self.contains(&replacement_path)); self.replacements .insert(replacement_path, monomorph.path.clone()); monomorph.add_monomorphs(library, self); self.typedefs.push(monomorph); } pub fn mangle_path(&self, path: &GenericPath) -> Option<&Path> { self.replacements.get(path) } pub fn drain_opaques(&mut self) -> Vec { mem::take(&mut self.opaques) } pub fn drain_structs(&mut self) -> Vec { mem::take(&mut self.structs) } pub fn drain_unions(&mut self) -> Vec { mem::take(&mut self.unions) } pub fn drain_typedefs(&mut self) -> Vec { mem::take(&mut self.typedefs) } pub fn drain_enums(&mut self) -> Vec { mem::take(&mut self.enums) } } cbindgen-0.20.0/src/bindgen/parser.rs000064400000000000000000001067660072674642500155630ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::collections::hash_map::Entry; use std::collections::{HashMap, HashSet}; use std::fs::File; use std::io::Read; use std::path::{Path as FilePath, PathBuf as FilePathBuf}; use crate::bindgen::bitflags; use crate::bindgen::cargo::{Cargo, PackageRef}; use crate::bindgen::config::{Config, ParseConfig}; use crate::bindgen::error::Error; use crate::bindgen::ir::{ AnnotationSet, Cfg, Constant, Documentation, Enum, Function, GenericParams, ItemMap, OpaqueItem, Path, Static, Struct, Type, Typedef, Union, }; use crate::bindgen::utilities::{SynAbiHelpers, SynAttributeHelpers, SynItemFnHelpers}; const STD_CRATES: &[&str] = &[ "std", "std_unicode", "alloc", "collections", "core", "proc_macro", ]; type ParseResult = Result; /// Parses a single rust source file, not following `mod` or `extern crate`. pub fn parse_src(src_file: &FilePath, config: &Config) -> ParseResult { let mod_name = src_file.file_stem().unwrap().to_str().unwrap(); let mut config = config.clone(); config.parse = ParseConfig { parse_deps: true, ..ParseConfig::default() }; let mut context = Parser { binding_crate_name: mod_name.to_owned(), config: &config, lib: None, parsed_crates: HashSet::new(), cache_src: HashMap::new(), cache_expanded_crate: HashMap::new(), cfg_stack: Vec::new(), out: Parse::new(), }; let pkg_ref = PackageRef { name: mod_name.to_owned(), version: None, }; context.parse_mod(&pkg_ref, src_file, 0)?; Ok(context.out) } /// Recursively parses a rust library starting at the root crate's directory. /// /// Inside a crate, `mod` and `extern crate` declarations are followed /// and parsed. To find an external crate, the parser uses the `cargo metadata` /// command to find the location of dependencies. pub(crate) fn parse_lib(lib: Cargo, config: &Config) -> ParseResult { let mut context = Parser { binding_crate_name: lib.binding_crate_name().to_owned(), config, lib: Some(lib), parsed_crates: HashSet::new(), cache_src: HashMap::new(), cache_expanded_crate: HashMap::new(), cfg_stack: Vec::new(), out: Parse::new(), }; let binding_crate = context.lib.as_ref().unwrap().binding_crate_ref(); context.parse_crate(&binding_crate)?; Ok(context.out) } #[derive(Debug, Clone)] struct Parser<'a> { binding_crate_name: String, lib: Option, config: &'a Config, parsed_crates: HashSet, cache_src: HashMap>, cache_expanded_crate: HashMap>, cfg_stack: Vec, out: Parse, } impl<'a> Parser<'a> { fn should_parse_dependency(&self, pkg_name: &str) -> bool { if self.parsed_crates.contains(pkg_name) { return false; } if !self.config.parse.parse_deps { return false; } // Skip any whitelist or blacklist for expand if self .config .parse .expand .crates .iter() .any(|name| name == pkg_name) { return true; } // If we have a whitelist, check it if let Some(ref include) = self.config.parse.include { if !include.iter().any(|name| name == pkg_name) { debug!("Excluding crate {}", pkg_name); return false; } } // Check the blacklist !STD_CRATES.contains(&pkg_name) && !self .config .parse .exclude .iter() .any(|name| name == pkg_name) } fn parse_crate(&mut self, pkg: &PackageRef) -> Result<(), Error> { assert!(self.lib.is_some()); debug!("Parsing crate {}", pkg.name); self.parsed_crates.insert(pkg.name.clone()); // Check if we should use cargo expand for this crate if self.config.parse.expand.crates.contains(&pkg.name) { self.parse_expand_crate(pkg)?; } else { // Parse the crate before the dependencies otherwise the same-named idents we // want to generate bindings for would be replaced by the ones provided // by the first dependency containing it. let crate_src = self.lib.as_ref().unwrap().find_crate_src(pkg); match crate_src { Some(crate_src) => self.parse_mod(pkg, crate_src.as_path(), 0)?, None => { // This should be an error, but is common enough to just elicit a warning warn!( "Parsing crate `{}`: can't find lib.rs with `cargo metadata`. \ The crate may be available only on a particular platform, \ so consider setting `fetch_all_dependencies` in your cbindgen configuration.", pkg.name ); } } } for (dep_pkg, cfg) in self.lib.as_ref().unwrap().dependencies(pkg) { if !self.should_parse_dependency(&dep_pkg.name) { continue; } if let Some(ref cfg) = cfg { self.cfg_stack.push(cfg.clone()); } self.parse_crate(&dep_pkg)?; if cfg.is_some() { self.cfg_stack.pop(); } } Ok(()) } fn parse_expand_crate(&mut self, pkg: &PackageRef) -> Result<(), Error> { assert!(self.lib.is_some()); // If you want to expand the crate you run cbindgen on you might end up in an endless // recursion if the cbindgen generation is triggered from build.rs. Hence don't run the // expansion if the build was already triggered by cbindgen. if std::env::var("_CBINDGEN_IS_RUNNING").is_ok() { return Ok(()); } let mod_items = { if !self.cache_expanded_crate.contains_key(&pkg.name) { let s = self .lib .as_ref() .unwrap() .expand_crate( pkg, self.config.parse.expand.all_features, self.config.parse.expand.default_features, &self.config.parse.expand.features, self.config.parse.expand.profile, ) .map_err(|x| Error::CargoExpand(pkg.name.clone(), x))?; let i = syn::parse_file(&s).map_err(|x| Error::ParseSyntaxError { crate_name: pkg.name.clone(), src_path: "".to_owned(), error: x, })?; self.cache_expanded_crate.insert(pkg.name.clone(), i.items); } self.cache_expanded_crate.get(&pkg.name).unwrap().clone() }; self.process_mod( pkg, None, None, &mod_items, 0, /* is_mod_rs = */ true, /* is_inline = */ false, ) } fn parse_mod( &mut self, pkg: &PackageRef, mod_path: &FilePath, depth: usize, ) -> Result<(), Error> { let mod_items = match self.cache_src.entry(mod_path.to_path_buf()) { Entry::Vacant(vacant_entry) => { let mut s = String::new(); let mut f = File::open(mod_path).map_err(|_| Error::ParseCannotOpenFile { crate_name: pkg.name.clone(), src_path: mod_path.to_str().unwrap().to_owned(), })?; f.read_to_string(&mut s) .map_err(|_| Error::ParseCannotOpenFile { crate_name: pkg.name.clone(), src_path: mod_path.to_str().unwrap().to_owned(), })?; let i = syn::parse_file(&s).map_err(|x| Error::ParseSyntaxError { crate_name: pkg.name.clone(), src_path: mod_path.to_string_lossy().into(), error: x, })?; vacant_entry.insert(i.items).clone() } Entry::Occupied(occupied_entry) => occupied_entry.get().clone(), }; // Compute module directory according to Rust 2018 rules let submod_dir_2018; let mod_dir = mod_path.parent().unwrap(); let is_mod_rs = depth == 0 || mod_path.ends_with("mod.rs"); let submod_dir = if is_mod_rs { mod_dir } else { submod_dir_2018 = mod_path .parent() .unwrap() .join(mod_path.file_stem().unwrap()); &submod_dir_2018 }; self.process_mod( pkg, Some(mod_dir), Some(submod_dir), &mod_items, depth, /* is_inline = */ false, is_mod_rs, ) } /// `mod_dir` is the path to the current directory of the module. It may be /// `None` for pre-expanded modules. /// /// `submod_dir` is the path to search submodules in by default, which might /// be different for rust 2018 for example. #[allow(clippy::too_many_arguments)] fn process_mod( &mut self, pkg: &PackageRef, mod_dir: Option<&FilePath>, submod_dir: Option<&FilePath>, items: &[syn::Item], depth: usize, is_inline: bool, is_in_mod_rs: bool, ) -> Result<(), Error> { debug_assert_eq!(mod_dir.is_some(), submod_dir.is_some()); // We process the items first then the nested modules. let nested_modules = self.out.load_syn_crate_mod( self.config, &self.binding_crate_name, &pkg.name, Cfg::join(&self.cfg_stack).as_ref(), items, ); for item in nested_modules { let next_mod_name = item.ident.to_string(); let cfg = Cfg::load(&item.attrs); if let Some(ref cfg) = cfg { self.cfg_stack.push(cfg.clone()); } if let Some((_, ref inline_items)) = item.content { // TODO(emilio): This should use #[path] attribute if present, // rather than next_mod_name. let next_submod_dir = submod_dir.map(|dir| dir.join(&next_mod_name)); let next_mod_dir = mod_dir.map(|dir| dir.join(&next_mod_name)); self.process_mod( pkg, next_mod_dir.as_deref(), next_submod_dir.as_deref(), inline_items, depth, /* is_inline = */ true, is_in_mod_rs, )?; } else if let Some(mod_dir) = mod_dir { let submod_dir = submod_dir.unwrap(); let next_mod_path1 = submod_dir.join(next_mod_name.clone() + ".rs"); let next_mod_path2 = submod_dir.join(next_mod_name.clone()).join("mod.rs"); if next_mod_path1.exists() { self.parse_mod(pkg, next_mod_path1.as_path(), depth + 1)?; } else if next_mod_path2.exists() { self.parse_mod(pkg, next_mod_path2.as_path(), depth + 1)?; } else { // Last chance to find a module path let mut path_attr_found = false; for attr in &item.attrs { if let Ok(syn::Meta::NameValue(syn::MetaNameValue { path, lit, .. })) = attr.parse_meta() { match lit { syn::Lit::Str(ref path_lit) if path.is_ident("path") => { path_attr_found = true; // https://doc.rust-lang.org/reference/items/modules.html#the-path-attribute // // For path attributes on modules not inside inline module blocks, the file path // is relative to the directory the source file is located. // // For path attributes inside inline module blocks, the relative location of the // file path depends on the kind of source file the path attribute is located // in. "mod-rs" source files are root modules (such as lib.rs or main.rs) and // modules with files named mod.rs. "non-mod-rs" source files are all other // module files. // // Paths for path attributes inside inline module blocks in a mod-rs file are // relative to the directory of the mod-rs file including the inline module // components as directories. For non-mod-rs files, it is the same except the // path starts with a directory with the name of the non-mod-rs module. // let base = if is_inline && !is_in_mod_rs { submod_dir } else { mod_dir }; self.parse_mod(pkg, &base.join(path_lit.value()), depth + 1)?; break; } _ => (), } } } // This should be an error, but it's common enough to // just elicit a warning if !path_attr_found { warn!( "Parsing crate `{}`: can't find mod {}`.", pkg.name, next_mod_name ); } } } else { warn!( "Parsing expanded crate `{}`: can't find mod {}`.", pkg.name, next_mod_name ); } if cfg.is_some() { self.cfg_stack.pop(); } } Ok(()) } } #[derive(Debug, Clone)] pub struct Parse { pub constants: ItemMap, pub globals: ItemMap, pub enums: ItemMap, pub structs: ItemMap, pub unions: ItemMap, pub opaque_items: ItemMap, pub typedefs: ItemMap, pub functions: Vec, } impl Parse { pub fn new() -> Parse { Parse { constants: ItemMap::default(), globals: ItemMap::default(), enums: ItemMap::default(), structs: ItemMap::default(), unions: ItemMap::default(), opaque_items: ItemMap::default(), typedefs: ItemMap::default(), functions: Vec::new(), } } pub fn add_std_types(&mut self) { let mut add_opaque = |path: &str, generic_params: Vec<&str>| { let path = Path::new(path); let generic_params: Vec<_> = generic_params.into_iter().map(Path::new).collect(); self.opaque_items.try_insert(OpaqueItem::new( path, GenericParams(generic_params), None, AnnotationSet::new(), Documentation::none(), )) }; add_opaque("String", vec![]); add_opaque("Box", vec!["T"]); add_opaque("RefCell", vec!["T"]); add_opaque("Rc", vec!["T"]); add_opaque("Arc", vec!["T"]); add_opaque("Result", vec!["T", "E"]); add_opaque("Option", vec!["T"]); add_opaque("NonNull", vec!["T"]); add_opaque("Vec", vec!["T"]); add_opaque("HashMap", vec!["K", "V", "Hasher"]); add_opaque("BTreeMap", vec!["K", "V"]); add_opaque("HashSet", vec!["T"]); add_opaque("BTreeSet", vec!["T"]); add_opaque("LinkedList", vec!["T"]); add_opaque("VecDeque", vec!["T"]); add_opaque("ManuallyDrop", vec!["T"]); add_opaque("MaybeUninit", vec!["T"]); } pub fn extend_with(&mut self, other: &Parse) { self.constants.extend_with(&other.constants); self.globals.extend_with(&other.globals); self.enums.extend_with(&other.enums); self.structs.extend_with(&other.structs); self.unions.extend_with(&other.unions); self.opaque_items.extend_with(&other.opaque_items); self.typedefs.extend_with(&other.typedefs); self.functions.extend_from_slice(&other.functions); } fn load_syn_crate_mod<'a>( &mut self, config: &Config, binding_crate_name: &str, crate_name: &str, mod_cfg: Option<&Cfg>, items: &'a [syn::Item], ) -> Vec<&'a syn::ItemMod> { let mut impls_with_assoc_consts = Vec::new(); let mut nested_modules = Vec::new(); for item in items { if item.should_skip_parsing() { continue; } match item { syn::Item::ForeignMod(ref item) => { self.load_syn_foreign_mod( config, binding_crate_name, crate_name, mod_cfg, item, ); } syn::Item::Fn(ref item) => { self.load_syn_fn(config, binding_crate_name, crate_name, mod_cfg, item); } syn::Item::Const(ref item) => { self.load_syn_const(config, binding_crate_name, crate_name, mod_cfg, item); } syn::Item::Static(ref item) => { self.load_syn_static(config, binding_crate_name, crate_name, mod_cfg, item); } syn::Item::Struct(ref item) => { self.load_syn_struct(config, crate_name, mod_cfg, item); } syn::Item::Union(ref item) => { self.load_syn_union(config, crate_name, mod_cfg, item); } syn::Item::Enum(ref item) => { self.load_syn_enum(config, crate_name, mod_cfg, item); } syn::Item::Type(ref item) => { self.load_syn_ty(crate_name, mod_cfg, item); } syn::Item::Impl(ref item_impl) => { let has_assoc_const = item_impl.items.iter().any(|item| match item { syn::ImplItem::Const(_) => true, _ => false, }); if has_assoc_const { impls_with_assoc_consts.push(item_impl); } if let syn::Type::Path(ref path) = *item_impl.self_ty { if let Some(type_name) = path.path.get_ident() { for method in item_impl.items.iter().filter_map(|item| match item { syn::ImplItem::Method(method) => Some(method), _ => None, }) { self.load_syn_method( config, binding_crate_name, crate_name, mod_cfg, &Path::new(type_name.to_string()), method, ) } } } } syn::Item::Macro(ref item) => { self.load_builtin_macro(config, crate_name, mod_cfg, item) } syn::Item::Mod(ref item) => { nested_modules.push(item); } _ => {} } } for item_impl in impls_with_assoc_consts { self.load_syn_assoc_consts_from_impl(crate_name, mod_cfg, item_impl) } nested_modules } fn load_syn_assoc_consts_from_impl( &mut self, crate_name: &str, mod_cfg: Option<&Cfg>, item_impl: &syn::ItemImpl, ) { let associated_constants = item_impl.items.iter().filter_map(|item| match item { syn::ImplItem::Const(ref associated_constant) => Some(associated_constant), _ => None, }); self.load_syn_assoc_consts( crate_name, mod_cfg, &item_impl.self_ty, associated_constants, ); } /// Enters a `extern "C" { }` declaration and loads function declarations. fn load_syn_foreign_mod( &mut self, config: &Config, binding_crate_name: &str, crate_name: &str, mod_cfg: Option<&Cfg>, item: &syn::ItemForeignMod, ) { if !item.abi.is_c() { info!("Skip {} - (extern block must be extern C).", crate_name); return; } for foreign_item in &item.items { if let syn::ForeignItem::Fn(ref function) = *foreign_item { if !config .parse .should_generate_top_level_item(crate_name, binding_crate_name) { info!( "Skip {}::{} - (fn's outside of the binding crate are not used).", crate_name, &function.sig.ident ); return; } let path = Path::new(function.sig.ident.to_string()); match Function::load(path, None, &function.sig, true, &function.attrs, mod_cfg) { Ok(func) => { info!("Take {}::{}.", crate_name, &function.sig.ident); self.functions.push(func); } Err(msg) => { error!( "Cannot use fn {}::{} ({}).", crate_name, &function.sig.ident, msg ); } } } } } /// Loads a `fn` declaration inside an `impl` block, if the type is a simple identifier fn load_syn_method( &mut self, config: &Config, binding_crate_name: &str, crate_name: &str, mod_cfg: Option<&Cfg>, self_type: &Path, item: &syn::ImplItemMethod, ) { self.load_fn_declaration( config, binding_crate_name, crate_name, mod_cfg, item, Some(self_type), &item.sig, &item.vis, &item.attrs, ) } /// Loads a `fn` declaration fn load_syn_fn( &mut self, config: &Config, binding_crate_name: &str, crate_name: &str, mod_cfg: Option<&Cfg>, item: &syn::ItemFn, ) { self.load_fn_declaration( config, binding_crate_name, crate_name, mod_cfg, item, None, &item.sig, &item.vis, &item.attrs, ); } #[allow(clippy::too_many_arguments)] fn load_fn_declaration( &mut self, config: &Config, binding_crate_name: &str, crate_name: &str, mod_cfg: Option<&Cfg>, named_symbol: &dyn SynItemFnHelpers, self_type: Option<&Path>, sig: &syn::Signature, vis: &syn::Visibility, attrs: &[syn::Attribute], ) { if !config .parse .should_generate_top_level_item(crate_name, binding_crate_name) { info!( "Skip {}::{} - (fn's outside of the binding crate are not used).", crate_name, &sig.ident ); return; } let loggable_item_name = || { let mut items = Vec::with_capacity(3); items.push(crate_name.to_owned()); if let Some(ref self_type) = self_type { items.push(self_type.to_string()); } items.push(sig.ident.to_string()); items.join("::") }; let is_extern_c = sig.abi.is_omitted() || sig.abi.is_c(); let exported_name = named_symbol.exported_name(); if let syn::Visibility::Public(_) = vis { match (is_extern_c, exported_name) { (true, Some(exported_name)) => { let path = Path::new(exported_name); match Function::load(path, self_type, sig, false, attrs, mod_cfg) { Ok(func) => { info!("Take {}.", loggable_item_name()); self.functions.push(func); } Err(msg) => { error!("Cannot use fn {} ({}).", loggable_item_name(), msg); } } } (true, None) => { warn!( "Skipping {} - (not `no_mangle`, and has no `export_name` attribute)", loggable_item_name() ); } (false, Some(_exported_name)) => { warn!("Skipping {} - (not `extern \"C\"`", loggable_item_name()); } (false, None) => {} } } else { match (is_extern_c, exported_name) { (true, Some(..)) => { warn!( "Skipping {} - (not `pub` but is `extern \"C\"` and `no_mangle`)", loggable_item_name() ); } (true, None) => { warn!( "Skipping {} - (not `pub` but is `extern \"C\"`)", loggable_item_name() ); } (false, Some(..)) => { warn!( "Skipping {} - (not `pub` but is `no_mangle`)", loggable_item_name() ); } (false, None) => {} } } } /// Loads associated `const` declarations fn load_syn_assoc_consts<'a, I>( &mut self, crate_name: &str, mod_cfg: Option<&Cfg>, impl_ty: &syn::Type, items: I, ) where I: IntoIterator, { let ty = match Type::load(impl_ty) { Ok(ty) => ty, Err(e) => { warn!("Skipping associated constants for {:?}: {:?}", impl_ty, e); return; } }; let ty = match ty { Some(ty) => ty, None => return, }; let impl_path = match ty.get_root_path() { Some(p) => p, None => { warn!( "Couldn't find path for {:?}, skipping associated constants", ty ); return; } }; for item in items.into_iter() { if let syn::Visibility::Public(_) = item.vis { } else { warn!("Skip {}::{} - (not `pub`).", crate_name, &item.ident); return; } let path = Path::new(item.ident.to_string()); match Constant::load( path, mod_cfg, &item.ty, &item.expr, &item.attrs, Some(impl_path.clone()), ) { Ok(constant) => { info!("Take {}::{}::{}.", crate_name, impl_path, &item.ident); let mut any = false; self.structs.for_items_mut(&impl_path, |item| { any = true; item.add_associated_constant(constant.clone()); }); // Handle associated constants to other item types that are // not structs like enums or such as regular constants. if !any && !self.constants.try_insert(constant) { error!( "Conflicting name for constant {}::{}::{}.", crate_name, impl_path, &item.ident, ); } } Err(msg) => { warn!("Skip {}::{} - ({})", crate_name, &item.ident, msg); } } } } /// Loads a `const` declaration fn load_syn_const( &mut self, config: &Config, binding_crate_name: &str, crate_name: &str, mod_cfg: Option<&Cfg>, item: &syn::ItemConst, ) { if !config .parse .should_generate_top_level_item(crate_name, binding_crate_name) { info!( "Skip {}::{} - (const's outside of the binding crate are not used).", crate_name, &item.ident ); return; } if let syn::Visibility::Public(_) = item.vis { } else { warn!("Skip {}::{} - (not `pub`).", crate_name, &item.ident); return; } let path = Path::new(item.ident.to_string()); match Constant::load(path, mod_cfg, &item.ty, &item.expr, &item.attrs, None) { Ok(constant) => { info!("Take {}::{}.", crate_name, &item.ident); let full_name = constant.path.clone(); if !self.constants.try_insert(constant) { error!("Conflicting name for constant {}", full_name); } } Err(msg) => { warn!("Skip {}::{} - ({})", crate_name, &item.ident, msg); } } } /// Loads a `static` declaration fn load_syn_static( &mut self, config: &Config, binding_crate_name: &str, crate_name: &str, mod_cfg: Option<&Cfg>, item: &syn::ItemStatic, ) { if !config .parse .should_generate_top_level_item(crate_name, binding_crate_name) { info!( "Skip {}::{} - (static's outside of the binding crate are not used).", crate_name, &item.ident ); return; } if let syn::Visibility::Public(_) = item.vis { if item.is_no_mangle() { match Static::load(item, mod_cfg) { Ok(constant) => { info!("Take {}::{}.", crate_name, &item.ident); self.globals.try_insert(constant); } Err(msg) => { warn!("Skip {}::{} - ({})", crate_name, &item.ident, msg); } } } } // TODO if let syn::Visibility::Public(_) = item.vis { } else { warn!("Skip {}::{} - (not `pub`).", crate_name, &item.ident); } if !item.is_no_mangle() { warn!("Skip {}::{} - (not `no_mangle`).", crate_name, &item.ident); } } /// Loads a `struct` declaration fn load_syn_struct( &mut self, config: &Config, crate_name: &str, mod_cfg: Option<&Cfg>, item: &syn::ItemStruct, ) { match Struct::load(&config.layout, item, mod_cfg) { Ok(st) => { info!("Take {}::{}.", crate_name, &item.ident); self.structs.try_insert(st); } Err(msg) => { info!("Take {}::{} - opaque ({}).", crate_name, &item.ident, msg); let path = Path::new(item.ident.to_string()); self.opaque_items.try_insert( OpaqueItem::load(path, &item.generics, &item.attrs, mod_cfg).unwrap(), ); } } } /// Loads a `union` declaration fn load_syn_union( &mut self, config: &Config, crate_name: &str, mod_cfg: Option<&Cfg>, item: &syn::ItemUnion, ) { match Union::load(&config.layout, item, mod_cfg) { Ok(st) => { info!("Take {}::{}.", crate_name, &item.ident); self.unions.try_insert(st); } Err(msg) => { info!("Take {}::{} - opaque ({}).", crate_name, &item.ident, msg); let path = Path::new(item.ident.to_string()); self.opaque_items.try_insert( OpaqueItem::load(path, &item.generics, &item.attrs, mod_cfg).unwrap(), ); } } } /// Loads a `enum` declaration fn load_syn_enum( &mut self, config: &Config, crate_name: &str, mod_cfg: Option<&Cfg>, item: &syn::ItemEnum, ) { match Enum::load(item, mod_cfg, config) { Ok(en) => { info!("Take {}::{}.", crate_name, &item.ident); self.enums.try_insert(en); } Err(msg) => { info!("Take {}::{} - opaque ({}).", crate_name, &item.ident, msg); let path = Path::new(item.ident.to_string()); self.opaque_items.try_insert( OpaqueItem::load(path, &item.generics, &item.attrs, mod_cfg).unwrap(), ); } } } /// Loads a `type` declaration fn load_syn_ty(&mut self, crate_name: &str, mod_cfg: Option<&Cfg>, item: &syn::ItemType) { match Typedef::load(item, mod_cfg) { Ok(st) => { info!("Take {}::{}.", crate_name, &item.ident); self.typedefs.try_insert(st); } Err(msg) => { info!("Take {}::{} - opaque ({}).", crate_name, &item.ident, msg); let path = Path::new(item.ident.to_string()); self.opaque_items.try_insert( OpaqueItem::load(path, &item.generics, &item.attrs, mod_cfg).unwrap(), ); } } } fn load_builtin_macro( &mut self, config: &Config, crate_name: &str, mod_cfg: Option<&Cfg>, item: &syn::ItemMacro, ) { let name = match item.mac.path.segments.last() { Some(n) => n.ident.to_string(), None => return, }; if name != "bitflags" || !config.macro_expansion.bitflags { return; } let bitflags = match bitflags::parse(item.mac.tokens.clone()) { Ok(b) => b, Err(e) => { warn!("Failed to parse bitflags invocation: {:?}", e); return; } }; let (struct_, impl_) = bitflags.expand(); self.load_syn_struct(config, crate_name, mod_cfg, &struct_); // We know that the expansion will only reference `struct_`, so it's // fine to just do it here instead of deferring it like we do with the // other calls to this function. self.load_syn_assoc_consts_from_impl(crate_name, mod_cfg, &impl_); } } cbindgen-0.20.0/src/bindgen/rename.rs000064400000000000000000000114560072674642500155250ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::borrow::Cow; use std::str::FromStr; /// The type of identifier to be renamed. #[derive(Debug, Clone, Copy)] pub enum IdentifierType<'a> { StructMember, EnumVariant { prefix: &'a str }, FunctionArg, Type, Enum, } impl<'a> IdentifierType<'a> { fn to_str(self) -> &'static str { match self { IdentifierType::StructMember => "m", IdentifierType::EnumVariant { .. } => "", IdentifierType::FunctionArg => "a", IdentifierType::Type => "", IdentifierType::Enum => "", } } } /// A rule to apply to an identifier when generating bindings. #[derive(Debug, Clone, Copy)] pub enum RenameRule { /// Do not apply any renaming. The default. None, /// Converts the identifier to PascalCase and adds a context dependent prefix GeckoCase, /// Converts the identifier to lower case. LowerCase, /// Converts the identifier to upper case. UpperCase, /// Converts the identifier to PascalCase. PascalCase, /// Converts the identifier to camelCase. CamelCase, /// Converts the identifier to snake_case. SnakeCase, /// Converts the identifier to SCREAMING_SNAKE_CASE. ScreamingSnakeCase, /// Converts the identifier to SCREAMING_SNAKE_CASE and prefixes enum variants /// with the enum name. QualifiedScreamingSnakeCase, } impl RenameRule { pub(crate) fn not_none(self) -> Option { match self { RenameRule::None => None, other => Some(other), } } /// Applies the rename rule to a string pub fn apply<'a>(self, text: &'a str, context: IdentifierType) -> Cow<'a, str> { use heck::*; if text.is_empty() { return Cow::Borrowed(text); } Cow::Owned(match self { RenameRule::None => return Cow::Borrowed(text), RenameRule::GeckoCase => context.to_str().to_owned() + &text.to_camel_case(), RenameRule::LowerCase => text.to_lowercase(), RenameRule::UpperCase => text.to_uppercase(), RenameRule::PascalCase => text.to_camel_case(), RenameRule::CamelCase => text.to_mixed_case(), RenameRule::SnakeCase => text.to_snake_case(), RenameRule::ScreamingSnakeCase => text.to_shouty_snake_case(), RenameRule::QualifiedScreamingSnakeCase => { let mut result = String::new(); if let IdentifierType::EnumVariant { prefix } = context { result.push_str( &RenameRule::ScreamingSnakeCase.apply(prefix, IdentifierType::Enum), ); result.push('_'); } result.push_str(&RenameRule::ScreamingSnakeCase.apply(text, context)); result } }) } } impl Default for RenameRule { fn default() -> RenameRule { RenameRule::None } } impl FromStr for RenameRule { type Err = String; fn from_str(s: &str) -> Result { match s { "none" => Ok(RenameRule::None), "None" => Ok(RenameRule::None), "mGeckoCase" => Ok(RenameRule::GeckoCase), "GeckoCase" => Ok(RenameRule::GeckoCase), "gecko_case" => Ok(RenameRule::GeckoCase), "lowercase" => Ok(RenameRule::LowerCase), "LowerCase" => Ok(RenameRule::LowerCase), "lower_case" => Ok(RenameRule::LowerCase), "UPPERCASE" => Ok(RenameRule::UpperCase), "UpperCase" => Ok(RenameRule::UpperCase), "upper_case" => Ok(RenameRule::UpperCase), "PascalCase" => Ok(RenameRule::PascalCase), "pascal_case" => Ok(RenameRule::PascalCase), "camelCase" => Ok(RenameRule::CamelCase), "CamelCase" => Ok(RenameRule::CamelCase), "camel_case" => Ok(RenameRule::CamelCase), "snake_case" => Ok(RenameRule::SnakeCase), "SnakeCase" => Ok(RenameRule::SnakeCase), "SCREAMING_SNAKE_CASE" => Ok(RenameRule::ScreamingSnakeCase), "ScreamingSnakeCase" => Ok(RenameRule::ScreamingSnakeCase), "screaming_snake_case" => Ok(RenameRule::ScreamingSnakeCase), "QUALIFIED_SCREAMING_SNAKE_CASE" => Ok(RenameRule::QualifiedScreamingSnakeCase), "QualifiedScreamingSnakeCase" => Ok(RenameRule::QualifiedScreamingSnakeCase), "qualified_screaming_snake_case" => Ok(RenameRule::QualifiedScreamingSnakeCase), _ => Err(format!("Unrecognized RenameRule: '{}'.", s)), } } } deserialize_enum_str!(RenameRule); cbindgen-0.20.0/src/bindgen/reserved.rs000064400000000000000000000031700072674642500160670ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /// Taken from `https://en.cppreference.com/w/cpp/keyword` /// Some experimental keywords were filtered out and the resulting list was /// sorted using a rust program. const RESERVED_KEYWORDS: &[&str] = &[ "alignas", "alignof", "auto", "bool", "break", "case", "catch", "char", "char16_t", "char32_t", "char8_t", "class", "const", "const_cast", "consteval", "constexpr", "continue", "decltype", "default", "delete", "do", "double", "dynamic_cast", "else", "enum", "explicit", "export", "extern", "false", "float", "for", "friend", "goto", "if", "inline", "int", "long", "mutable", "namespace", "new", "noexcept", "nullptr", "operator", "private", "protected", "public", "register", "reinterpret_cast", "return", "short", "signed", "sizeof", "static", "static_assert", "static_cast", "struct", "switch", "template", "this", "thread_local", "throw", "true", "try", "typedef", "typename", "union", "unsigned", "using", "virtual", "void", "volatile", "wchar_t", "while", ]; pub fn escape(rust_identifier: &mut String) { if RESERVED_KEYWORDS .binary_search(&rust_identifier.as_ref()) .is_ok() { rust_identifier.push('_'); } } cbindgen-0.20.0/src/bindgen/utilities.rs000064400000000000000000000207700072674642500162700ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #![allow(clippy::redundant_closure_call)] pub trait IterHelpers: Iterator { fn try_skip_map(&mut self, f: F) -> Result, E> where F: FnMut(&Self::Item) -> Result, E>; } impl IterHelpers for I where I: Iterator, { fn try_skip_map(&mut self, mut f: F) -> Result, E> where F: FnMut(&Self::Item) -> Result, E>, { let mut out = Vec::new(); for item in self { if let Some(x) = f(&item)? { out.push(x); } } Ok(out) } } pub trait SynItemFnHelpers: SynAttributeHelpers { fn exported_name(&self) -> Option; } impl SynItemFnHelpers for syn::ItemFn { fn exported_name(&self) -> Option { self.attrs .attr_name_value_lookup("export_name") .or_else(|| { if self.is_no_mangle() { Some(self.sig.ident.to_string()) } else { None } }) } } impl SynItemFnHelpers for syn::ImplItemMethod { fn exported_name(&self) -> Option { self.attrs .attr_name_value_lookup("export_name") .or_else(|| { if self.is_no_mangle() { Some(self.sig.ident.to_string()) } else { None } }) } } /// Returns whether this attribute causes us to skip at item. This basically /// checks for `#[cfg(test)]`, `#[test]`, `/// cbindgen::ignore` and /// variations thereof. fn is_skip_item_attr(attr: &syn::Meta) -> bool { match *attr { syn::Meta::Path(ref path) => { // TODO(emilio): It'd be great if rustc allowed us to use a syntax // like `#[cbindgen::ignore]` or such. path.is_ident("test") } syn::Meta::List(ref list) => { if !list.path.is_ident("cfg") { return false; } list.nested.iter().any(|nested| match *nested { syn::NestedMeta::Meta(ref meta) => is_skip_item_attr(meta), syn::NestedMeta::Lit(..) => false, }) } syn::Meta::NameValue(ref name_value) => { if name_value.path.is_ident("doc") { if let syn::Lit::Str(ref content) = name_value.lit { // FIXME(emilio): Maybe should use the general annotation // mechanism, but it seems overkill for this. if content.value().trim() == "cbindgen:ignore" { return true; } } } false } } } pub trait SynAttributeHelpers { /// Returns the list of attributes for an item. fn attrs(&self) -> &[syn::Attribute]; /// Searches for attributes like `#[test]`. /// Example: /// - `item.has_attr_word("test")` => `#[test]` fn has_attr_word(&self, name: &str) -> bool { self.attrs() .iter() .filter_map(|x| x.parse_meta().ok()) .any(|attr| { if let syn::Meta::Path(ref path) = attr { path.is_ident(name) } else { false } }) } fn is_no_mangle(&self) -> bool { self.has_attr_word("no_mangle") } /// Sees whether we should skip parsing a given item. fn should_skip_parsing(&self) -> bool { for attr in self.attrs() { let meta = match attr.parse_meta() { Ok(attr) => attr, Err(..) => return false, }; if is_skip_item_attr(&meta) { return true; } } false } fn attr_name_value_lookup(&self, name: &str) -> Option { self.attrs() .iter() .filter_map(|attr| { let attr = attr.parse_meta().ok()?; if let syn::Meta::NameValue(syn::MetaNameValue { path, lit: syn::Lit::Str(lit), .. }) = attr { if path.is_ident(name) { return Some(lit.value()); } } None }) .next() } fn get_comment_lines(&self) -> Vec { let mut comment = Vec::new(); for attr in self.attrs() { if attr.style == syn::AttrStyle::Outer { if let Ok(syn::Meta::NameValue(syn::MetaNameValue { path, lit: syn::Lit::Str(content), .. })) = attr.parse_meta() { if path.is_ident("doc") { comment.extend(split_doc_attr(&content.value())); } } } } comment } } macro_rules! syn_item_match_helper { ($s:ident => has_attrs: |$i:ident| $a:block, otherwise: || $b:block) => { match *$s { syn::Item::Const(ref $i) => $a, syn::Item::Enum(ref $i) => $a, syn::Item::ExternCrate(ref $i) => $a, syn::Item::Fn(ref $i) => $a, syn::Item::ForeignMod(ref $i) => $a, syn::Item::Impl(ref $i) => $a, syn::Item::Macro(ref $i) => $a, syn::Item::Macro2(ref $i) => $a, syn::Item::Mod(ref $i) => $a, syn::Item::Static(ref $i) => $a, syn::Item::Struct(ref $i) => $a, syn::Item::Trait(ref $i) => $a, syn::Item::Type(ref $i) => $a, syn::Item::Union(ref $i) => $a, syn::Item::Use(ref $i) => $a, syn::Item::TraitAlias(ref $i) => $a, syn::Item::Verbatim(_) => $b, _ => panic!("Unhandled syn::Item: {:?}", $s), } }; } impl SynAttributeHelpers for syn::Item { fn attrs(&self) -> &[syn::Attribute] { syn_item_match_helper!(self => has_attrs: |item| { &item.attrs }, otherwise: || { &[] } ) } } macro_rules! impl_syn_item_helper { ($t:ty) => { impl SynAttributeHelpers for $t { fn attrs(&self) -> &[syn::Attribute] { &self.attrs } } }; } impl_syn_item_helper!(syn::ItemExternCrate); impl_syn_item_helper!(syn::ItemUse); impl_syn_item_helper!(syn::ItemStatic); impl_syn_item_helper!(syn::ItemConst); impl_syn_item_helper!(syn::ItemFn); impl_syn_item_helper!(syn::ImplItemMethod); impl_syn_item_helper!(syn::ItemMod); impl_syn_item_helper!(syn::ItemForeignMod); impl_syn_item_helper!(syn::ItemType); impl_syn_item_helper!(syn::ItemStruct); impl_syn_item_helper!(syn::ItemEnum); impl_syn_item_helper!(syn::ItemUnion); impl_syn_item_helper!(syn::ItemTrait); impl_syn_item_helper!(syn::ItemImpl); impl_syn_item_helper!(syn::ItemMacro); impl_syn_item_helper!(syn::ItemMacro2); impl_syn_item_helper!(syn::ItemTraitAlias); /// Helper function for accessing Abi information pub trait SynAbiHelpers { fn is_c(&self) -> bool; fn is_omitted(&self) -> bool; } impl SynAbiHelpers for Option { fn is_c(&self) -> bool { if let Some(ref abi) = *self { if let Some(ref lit_string) = abi.name { return lit_string.value() == "C"; } } false } fn is_omitted(&self) -> bool { if let Some(ref abi) = *self { abi.name.is_none() } else { false } } } impl SynAbiHelpers for syn::Abi { fn is_c(&self) -> bool { if let Some(ref lit_string) = self.name { lit_string.value() == "C" } else { false } } fn is_omitted(&self) -> bool { self.name.is_none() } } impl SynAttributeHelpers for [syn::Attribute] { fn attrs(&self) -> &[syn::Attribute] { self } } fn split_doc_attr(input: &str) -> Vec { input // Convert two newline (indicate "new paragraph") into two line break. .replace("\n\n", " \n \n") // Convert newline after two spaces (indicate "line break") into line break. .split(" \n") // Convert single newline (indicate hard-wrapped) into space. .map(|s| s.replace('\n', " ")) .map(|s| s.trim_end().to_string()) .collect() } cbindgen-0.20.0/src/bindgen/writer.rs000064400000000000000000000156120072674642500155700ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::cmp; use std::io; use std::io::Write; use crate::bindgen::config::{Braces, Config, Language}; use crate::bindgen::Bindings; /// A type of way to format a list. pub enum ListType<'a> { /// Join each adjacent item with a str. Join(&'a str), /// End each item with a str. Cap(&'a str), } /// An empty file used for creating a null source writer and measuring line /// metrics for various code layouts. pub struct NullFile; impl Write for NullFile { fn write(&mut self, buf: &[u8]) -> io::Result { Ok(buf.len()) } fn flush(&mut self) -> io::Result<()> { Ok(()) } } /// A utility wrapper to write unbuffered data and correctly adjust positions. struct InnerWriter<'a, 'b: 'a, F: 'a + Write>(&'a mut SourceWriter<'b, F>); impl<'a, 'b, F: Write> Write for InnerWriter<'a, 'b, F> { fn write(&mut self, buf: &[u8]) -> io::Result { let writer = &mut self.0; if !writer.line_started { for _ in 0..writer.spaces() { write!(writer.out, " ").unwrap(); } writer.line_started = true; writer.line_length += writer.spaces(); } let written = writer.out.write(buf)?; writer.line_length += written; writer.max_line_length = cmp::max(writer.max_line_length, writer.line_length); Ok(written) } fn flush(&mut self) -> io::Result<()> { self.0.out.flush() } } /// A utility writer for generating code easier. pub struct SourceWriter<'a, F: Write> { out: F, bindings: &'a Bindings, spaces: Vec, line_started: bool, line_length: usize, line_number: usize, max_line_length: usize, } pub type MeasureWriter<'a> = SourceWriter<'a, NullFile>; impl<'a, F: Write> SourceWriter<'a, F> { pub fn new(out: F, bindings: &'a Bindings) -> Self { SourceWriter { out, bindings, spaces: vec![0], line_started: false, line_length: 0, line_number: 1, max_line_length: 0, } } pub fn bindings(&self) -> &Bindings { self.bindings } /// Takes a function that writes source and returns the maximum line length /// written. pub fn measure(&self, func: T) -> usize where T: Fn(&mut MeasureWriter), { let mut measurer = SourceWriter { out: NullFile, bindings: self.bindings, spaces: self.spaces.clone(), line_started: self.line_started, line_length: self.line_length, line_number: self.line_number, max_line_length: self.line_length, }; func(&mut measurer); measurer.max_line_length } fn spaces(&self) -> usize { *self.spaces.last().unwrap() } pub fn push_set_spaces(&mut self, spaces: usize) { self.spaces.push(spaces); } pub fn pop_set_spaces(&mut self) { self.pop_tab() } pub fn line_length_for_align(&self) -> usize { if self.line_started { self.line_length } else { self.line_length + self.spaces() } } pub fn push_tab(&mut self) { let spaces = self.spaces() - (self.spaces() % self.bindings.config.tab_width) + self.bindings.config.tab_width; self.spaces.push(spaces); } pub fn pop_tab(&mut self) { assert!(!self.spaces.is_empty()); self.spaces.pop(); } pub fn new_line(&mut self) { self.out .write_all(self.bindings.config.line_endings.as_str().as_bytes()) .unwrap(); self.line_started = false; self.line_length = 0; self.line_number += 1; } pub fn new_line_if_not_start(&mut self) { if self.line_number != 1 { self.new_line(); } } pub fn open_brace(&mut self) { match self.bindings.config.language { Language::Cxx | Language::C => match self.bindings.config.braces { Braces::SameLine => { self.write(" {"); self.push_tab(); self.new_line(); } Braces::NextLine => { self.new_line(); self.write("{"); self.push_tab(); self.new_line(); } }, Language::Cython => { self.write(":"); self.new_line(); self.push_tab(); } } } pub fn close_brace(&mut self, semicolon: bool) { self.pop_tab(); match self.bindings.config.language { Language::Cxx | Language::C => { self.new_line(); if semicolon { self.write("};"); } else { self.write("}"); } } Language::Cython => {} } } pub fn write(&mut self, text: &'static str) { write!(self, "{}", text); } pub fn write_raw_block(&mut self, block: &str) { self.line_started = true; write!(self, "{}", block); } pub fn write_fmt(&mut self, fmt: ::std::fmt::Arguments) { InnerWriter(self).write_fmt(fmt).unwrap(); } pub fn write_horizontal_source_list<'b, S: Source>( &mut self, items: &[S], list_type: ListType<'b>, ) { for (i, item) in items.iter().enumerate() { item.write(&self.bindings.config, self); match list_type { ListType::Join(text) => { if i != items.len() - 1 { write!(self, "{}", text); } } ListType::Cap(text) => { write!(self, "{}", text); } } } } pub fn write_vertical_source_list<'b, S: Source>( &mut self, items: &[S], list_type: ListType<'b>, ) { let align_length = self.line_length_for_align(); self.push_set_spaces(align_length); for (i, item) in items.iter().enumerate() { item.write(&self.bindings.config, self); match list_type { ListType::Join(text) => { if i != items.len() - 1 { write!(self, "{}", text); } } ListType::Cap(text) => { write!(self, "{}", text); } } if i != items.len() - 1 { self.new_line(); } } self.pop_tab(); } } pub trait Source { fn write(&self, config: &Config, _: &mut SourceWriter); } cbindgen-0.20.0/src/lib.rs000064400000000000000000000021030072674642500134030ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #[macro_use] extern crate log; extern crate proc_macro2; #[macro_use] extern crate serde; extern crate serde_json; #[macro_use] extern crate quote; #[macro_use] extern crate syn; extern crate toml; mod bindgen; pub use crate::bindgen::*; use std::path::Path; /// A utility function for build scripts to generate bindings for a crate, using /// a `cbindgen.toml` if it exists. pub fn generate>(crate_dir: P) -> Result { let config = Config::from_root_or_default(crate_dir.as_ref()); generate_with_config(crate_dir, config) } /// A utility function for build scripts to generate bindings for a crate with a /// custom config. pub fn generate_with_config>( crate_dir: P, config: Config, ) -> Result { Builder::new() .with_config(config) .with_crate(crate_dir) .generate() } cbindgen-0.20.0/src/logging.rs000064400000000000000000000047270072674642500143010ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::io; use std::io::Write; use log::*; pub struct TraceLogger; pub struct WarnLogger; pub struct InfoLogger; pub struct ErrorLogger; impl TraceLogger { pub fn init() -> Result<(), SetLoggerError> { log::set_logger(&InfoLogger)?; log::set_max_level(LevelFilter::Trace); Ok(()) } } impl log::Log for TraceLogger { fn enabled(&self, metadata: &Metadata) -> bool { metadata.level() <= Level::Trace } fn log(&self, record: &Record) { if self.enabled(record.metadata()) { eprintln!("{}: {}", record.level(), record.args()); } } fn flush(&self) { io::stderr().flush().unwrap(); } } impl WarnLogger { pub fn init() -> Result<(), SetLoggerError> { log::set_logger(&InfoLogger)?; log::set_max_level(LevelFilter::Warn); Ok(()) } } impl log::Log for WarnLogger { fn enabled(&self, metadata: &Metadata) -> bool { metadata.level() <= Level::Warn } fn log(&self, record: &Record) { if self.enabled(record.metadata()) { eprintln!("{}: {}", record.level(), record.args()); } } fn flush(&self) { io::stderr().flush().unwrap(); } } impl ErrorLogger { pub fn init() -> Result<(), SetLoggerError> { log::set_logger(&InfoLogger)?; log::set_max_level(LevelFilter::Error); Ok(()) } } impl log::Log for ErrorLogger { fn enabled(&self, metadata: &Metadata) -> bool { metadata.level() <= Level::Error } fn log(&self, record: &Record) { if self.enabled(record.metadata()) { eprintln!("{}: {}", record.level(), record.args()); } } fn flush(&self) { io::stderr().flush().unwrap(); } } impl InfoLogger { pub fn init() -> Result<(), SetLoggerError> { log::set_logger(&InfoLogger)?; log::set_max_level(LevelFilter::Info); Ok(()) } } impl log::Log for InfoLogger { fn enabled(&self, metadata: &Metadata) -> bool { metadata.level() <= Level::Info } fn log(&self, record: &Record) { if self.enabled(record.metadata()) { eprintln!("{}: {}", record.level(), record.args()); } } fn flush(&self) { io::stderr().flush().unwrap(); } } cbindgen-0.20.0/src/main.rs000064400000000000000000000241470072674642500135750ustar 00000000000000/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ use std::env; use std::io; use std::path::{Path, PathBuf}; use std::str::FromStr; extern crate clap; #[macro_use] extern crate log; extern crate proc_macro2; #[macro_use] extern crate serde; extern crate serde_json; #[macro_use] extern crate quote; #[macro_use] extern crate syn; extern crate toml; use clap::{App, Arg, ArgMatches}; mod bindgen; mod logging; use crate::bindgen::{Bindings, Builder, Cargo, Config, Error, Profile, Style}; fn apply_config_overrides<'a>(config: &mut Config, matches: &ArgMatches<'a>) { // We allow specifying a language to override the config default. This is // used by compile-tests. if let Some(lang) = matches.value_of("lang") { config.language = match lang.parse() { Ok(lang) => lang, Err(reason) => { error!("{}", reason); return; } } } if matches.is_present("cpp-compat") { config.cpp_compat = true; } if matches.is_present("only-target-dependencies") { config.only_target_dependencies = true; } if let Some(style) = matches.value_of("style") { config.style = match style { "Both" => Style::Both, "both" => Style::Both, "Tag" => Style::Tag, "tag" => Style::Tag, "Type" => Style::Type, "type" => Style::Type, _ => { error!("Unknown style specified."); return; } } } if let Some(profile) = matches.value_of("profile") { config.parse.expand.profile = match Profile::from_str(profile) { Ok(p) => p, Err(e) => { error!("{}", e); return; } } } if matches.is_present("d") { config.parse.parse_deps = true; } } fn load_bindings<'a>(input: &Path, matches: &ArgMatches<'a>) -> Result { // If a file is specified then we load it as a single source if !input.is_dir() { // Load any config specified or search in the input directory let mut config = match matches.value_of("config") { Some(c) => Config::from_file(c).unwrap(), None => Config::from_root_or_default(input), }; apply_config_overrides(&mut config, matches); return Builder::new() .with_config(config) .with_src(input) .generate(); } // We have to load a whole crate, so we use cargo to gather metadata let lib = Cargo::load( input, matches.value_of("lockfile"), matches.value_of("crate"), true, matches.is_present("clean"), matches.is_present("only-target-dependencies"), matches.value_of("metadata").map(Path::new), )?; // Load any config specified or search in the binding crate directory let mut config = match matches.value_of("config") { Some(c) => Config::from_file(c).unwrap(), None => { let binding_crate_dir = lib.find_crate_dir(&lib.binding_crate_ref()); if let Some(binding_crate_dir) = binding_crate_dir { Config::from_root_or_default(&binding_crate_dir) } else { // This shouldn't happen Config::from_root_or_default(input) } } }; apply_config_overrides(&mut config, matches); Builder::new() .with_config(config) .with_cargo(lib) .generate() } fn main() { let matches = App::new("cbindgen") .version(bindgen::VERSION) .about("Generate C bindings for a Rust library") .arg( Arg::with_name("v") .short("v") .multiple(true) .help("Enable verbose logging"), ) .arg( Arg::with_name("verify") .long("verify") .help("Generate bindings and compare it to the existing bindings file and error if they are different"), ) .arg( Arg::with_name("config") .short("c") .long("config") .value_name("PATH") .help("Specify path to a `cbindgen.toml` config to use"), ) .arg( Arg::with_name("lang") .short("l") .long("lang") .value_name("LANGUAGE") .help("Specify the language to output bindings in") .possible_values(&["c++", "C++", "c", "C", "cython", "Cython"]), ) .arg( Arg::with_name("cpp-compat") .long("cpp-compat") .help("Whether to add C++ compatibility to generated C bindings") ) .arg( Arg::with_name("only-target-dependencies") .long("only-target-dependencies") .help("Only fetch dependencies needed by the target platform. \ The target platform defaults to the host platform; set TARGET to override.") ) .arg( Arg::with_name("style") .short("s") .long("style") .value_name("STYLE") .help("Specify the declaration style to use for bindings") .possible_values(&["Both", "both", "Tag", "tag", "Type", "type"]), ) .arg( Arg::with_name("d") .short("d") .long("parse-dependencies") .help("Whether to parse dependencies when generating bindings"), ) .arg( Arg::with_name("clean") .long("clean") .help( "Whether to use a new temporary directory for expanding macros. \ Affects performance, but might be required in certain build processes.") .required(false) ) .arg( Arg::with_name("INPUT") .help( "A crate directory or source file to generate bindings for. \ In general this is the folder where the Cargo.toml file of \ source Rust library resides.") .required(false) .index(1), ) .arg( Arg::with_name("crate") .long("crate") .value_name("CRATE_NAME") .help( "If generating bindings for a crate, \ the specific crate to generate bindings for", ) .required(false), ) .arg( Arg::with_name("out") .short("o") .long("output") .value_name("PATH") .help("The file to output the bindings to") .required(false), ) .arg( Arg::with_name("lockfile") .long("lockfile") .value_name("PATH") .help( "Specify the path to the Cargo.lock file explicitly. If this \ is not specified, the Cargo.lock file is searched for in the \ same folder as the Cargo.toml file. This option is useful for \ projects that use workspaces.") .required(false), ) .arg( Arg::with_name("metadata") .long("metadata") .value_name("PATH") .help( "Specify the path to the output of a `cargo metadata` \ command that allows to get dependency information. \ This is useful because cargo metadata may be the longest \ part of cbindgen runtime, and you may want to share it \ across cbindgen invocations. By default cbindgen will run \ `cargo metadata --all-features --format-version 1 \ --manifest-path " ) .required(false), ) .arg( Arg::with_name("profile") .long("profile") .value_name("PROFILE") .help( "Specify the profile to use when expanding macros. \ Has no effect otherwise." ) .possible_values(&["Debug", "debug", "Release", "release"]), ) .arg( Arg::with_name("quiet") .short("q") .long("quiet") .help("Report errors only (overrides verbosity options).") .required(false), ) .get_matches(); if !matches.is_present("out") && matches.is_present("verify") { error!( "Cannot verify bindings against `stdout`, please specify a file to compare against." ); std::process::exit(2); } // Initialize logging if matches.is_present("quiet") { logging::ErrorLogger::init().unwrap(); } else { match matches.occurrences_of("v") { 0 => logging::WarnLogger::init().unwrap(), 1 => logging::InfoLogger::init().unwrap(), _ => logging::TraceLogger::init().unwrap(), } } // Find the input directory let input = match matches.value_of("INPUT") { Some(input) => PathBuf::from(input), None => env::current_dir().unwrap(), }; let bindings = match load_bindings(&input, &matches) { Ok(bindings) => bindings, Err(msg) => { error!("{}", msg); error!("Couldn't generate bindings for {}.", input.display()); std::process::exit(1); } }; // Write the bindings file match matches.value_of("out") { Some(file) => { let changed = bindings.write_to_file(file); if matches.is_present("verify") && changed { error!("Bindings changed: {}", file); std::process::exit(2); } } _ => { bindings.write(io::stdout()); } } } cbindgen-0.20.0/template.toml000064400000000000000000000051460072674642500142220ustar 00000000000000# This is a template cbindgen.toml file with all of the default values. # Some values are commented out because their absence is the real default. # # See https://github.com/eqrion/cbindgen/blob/master/docs.md#cbindgentoml # for detailed documentation of every option here. language = "C++" ############## Options for Wrapping the Contents of the Header ################# # header = "/* Text to put at the beginning of the generated file. Probably a license. */" # trailer = "/* Text to put at the end of the generated file */" # include_guard = "my_bindings_h" # pragma_once = true # autogen_warning = "/* Warning, this file is autogenerated by cbindgen. Don't modify this manually. */" include_version = false # namespace = "my_namespace" namespaces = [] using_namespaces = [] sys_includes = [] includes = [] no_includes = false after_includes = "" ############################ Code Style Options ################################ braces = "SameLine" line_length = 100 tab_width = 2 documentation = true documentation_style = "auto" line_endings = "LF" # also "CR", "CRLF", "Native" ############################# Codegen Options ################################## style = "both" sort_by = "Name" # default for `fn.sort_by` and `const.sort_by` usize_is_size_t = true [defines] # "target_os = freebsd" = "DEFINE_FREEBSD" # "feature = serde" = "DEFINE_SERDE" [export] include = [] exclude = [] # prefix = "CAPI_" item_types = [] renaming_overrides_prefixing = false [export.rename] [export.body] [export.mangle] [fn] rename_args = "None" # must_use = "MUST_USE_FUNC" # no_return = "NO_RETURN" # prefix = "START_FUNC" # postfix = "END_FUNC" args = "auto" sort_by = "Name" [struct] rename_fields = "None" # must_use = "MUST_USE_STRUCT" derive_constructor = false derive_eq = false derive_neq = false derive_lt = false derive_lte = false derive_gt = false derive_gte = false [enum] rename_variants = "None" # must_use = "MUST_USE_ENUM" add_sentinel = false prefix_with_name = false derive_helper_methods = false derive_const_casts = false derive_mut_casts = false # cast_assert_name = "ASSERT" derive_tagged_enum_destructor = false derive_tagged_enum_copy_constructor = false enum_class = true private_default_tagged_enum_constructor = false [const] allow_static_const = true allow_constexpr = false sort_by = "Name" [macro_expansion] bitflags = false ############## Options for How Your Rust library Should Be Parsed ############## [parse] parse_deps = false # include = [] exclude = [] clean = false extra_bindings = [] [parse.expand] crates = [] all_features = false default_features = true features = [] cbindgen-0.20.0/tests/rust/alias.rs000064400000000000000000000005610072674642500153040ustar 00000000000000#[repr(C)] struct Dep { a: i32, b: f32, } #[repr(C)] struct Foo { a: X, b: X, c: Dep, } #[repr(u32)] enum Status { Ok, Err, } type IntFoo = Foo; type DoubleFoo = Foo; type Unit = i32; type SpecialStatus = Status; #[no_mangle] pub extern "C" fn root( x: IntFoo, y: DoubleFoo, z: Unit, w: SpecialStatus ) { } cbindgen-0.20.0/tests/rust/annotation.rs000064400000000000000000000011610072674642500163620ustar 00000000000000/// cbindgen:derive-lt=true /// cbindgen:derive-lte=true /// cbindgen:derive-constructor=true /// cbindgen:rename-all=GeckoCase #[repr(C)] struct A(i32); /// cbindgen:field-names=[x, y] #[repr(C)] struct B(i32, f32); /// cbindgen:trailing-values=[Z, W] #[repr(u32)] enum C { X = 2, Y, } /// cbindgen:derive-helper-methods=true #[repr(u8)] enum F { Foo(i16), Bar { x: u8, y: i16 }, Baz } /// cbindgen:derive-helper-methods #[repr(C, u8)] enum H { Hello(i16), There { x: u8, y: i16 }, Everyone } #[no_mangle] pub extern "C" fn root( x: A, y: B, z: C, f: F, h: H, ) { } cbindgen-0.20.0/tests/rust/array.rs000064400000000000000000000001310072674642500153220ustar 00000000000000#[repr(C)] enum Foo { A([f32; 20]) } #[no_mangle] pub extern "C" fn root(a: Foo) {} cbindgen-0.20.0/tests/rust/array.toml000064400000000000000000000000440072674642500156540ustar 00000000000000[enum] derive_helper_methods = true cbindgen-0.20.0/tests/rust/asserted_cast.rs000064400000000000000000000014120072674642500170330ustar 00000000000000/// cbindgen:prefix-with-name #[repr(C, u8)] pub enum H { /// cbindgen:variant-mut-cast-attributes=MY_ATTRS Foo(i16), /// cbindgen:variant-const-cast-attributes=MY_ATTRS Bar { x: u8, y: i16 }, /// cbindgen:variant-is-attributes=MY_ATTRS Baz } /// cbindgen:prefix-with-name #[repr(C, u8, u16)] pub enum I { /// cbindgen:variant-constructor-attributes=MY_ATTRS Foo(i16), /// cbindgen:eq-attributes=MY_ATTRS Bar { x: u8, y: i16 }, Baz } /// cbindgen:prefix-with-name #[repr(C, u8)] pub enum J { Foo(i16), Bar { x: u8, y: i16 }, Baz } /// cbindgen:prefix-with-name #[repr(u8)] pub enum K { Foo(i16), Bar { x: u8, y: i16 }, Baz } #[no_mangle] pub extern "C" fn foo( h: H, i: I, j: J, k: K, ) {} cbindgen-0.20.0/tests/rust/asserted_cast.toml000064400000000000000000000003300072674642500173600ustar 00000000000000header = """ #define MY_ASSERT(...) do { } while (0) #define MY_ATTRS __attribute((noinline)) """ [enum] derive_helper_methods = true derive_const_casts = true derive_mut_casts = true cast_assert_name = "MY_ASSERT" cbindgen-0.20.0/tests/rust/assoc_const_conflict.rs000064400000000000000000000001360072674642500204100ustar 00000000000000#[repr(C)] struct Foo {} pub const Foo_FOO: u32 = 42; impl Foo { const FOO: i32 = 0; } cbindgen-0.20.0/tests/rust/assoc_constant.rs000064400000000000000000000004330072674642500172320ustar 00000000000000#[repr(C)] struct Foo {} impl Foo { pub const GA: i32 = 10; pub const BU: &'static str = "hello world"; pub const ZO: f32 = 3.14; pub(crate) const DONT_EXPORT_CRATE: i32 = 20; const DONT_EXPORT_PRIV: i32 = 30; } #[no_mangle] pub extern "C" fn root(x: Foo) { } cbindgen-0.20.0/tests/rust/associated_constant_panic.rs000064400000000000000000000001120072674642500214050ustar 00000000000000pub trait F { const B: u8; } impl F for u16 { const B: u8 = 3; } cbindgen-0.20.0/tests/rust/associated_in_body.rs000064400000000000000000000010570072674642500200360ustar 00000000000000bitflags! { /// Constants shared by multiple CSS Box Alignment properties /// /// These constants match Gecko's `NS_STYLE_ALIGN_*` constants. #[derive(MallocSizeOf, ToComputedValue)] #[repr(C)] pub struct AlignFlags: u8 { /// 'auto' const AUTO = 0; /// 'normal' const NORMAL = 1; /// 'start' const START = 1 << 1; /// 'end' const END = 1 << 2; /// 'flex-start' const FLEX_START = 1 << 3; } } #[no_mangle] pub extern "C" fn root(flags: AlignFlags) {} cbindgen-0.20.0/tests/rust/associated_in_body.toml000064400000000000000000000002260072674642500203620ustar 00000000000000[struct] associated_constants_in_body = true [macro_expansion] bitflags = true [export] prefix = "Style" # Just ensuring they play well together :) cbindgen-0.20.0/tests/rust/bitflags.rs000064400000000000000000000013540072674642500160070ustar 00000000000000bitflags! { /// Constants shared by multiple CSS Box Alignment properties /// /// These constants match Gecko's `NS_STYLE_ALIGN_*` constants. #[derive(MallocSizeOf, ToComputedValue)] #[repr(C)] pub struct AlignFlags: u8 { /// 'auto' const AUTO = 0; /// 'normal' const NORMAL = 1; /// 'start' const START = 1 << 1; /// 'end' const END = 1 << 2; /// 'flex-start' const FLEX_START = 1 << 3; } } bitflags! { #[repr(C)] pub struct DebugFlags: u32 { /// Flag with the topmost bit set of the u32 const BIGGEST_ALLOWED = 1 << 31; } } #[no_mangle] pub extern "C" fn root(flags: AlignFlags, bigger_flags: DebugFlags) {} cbindgen-0.20.0/tests/rust/bitflags.toml000064400000000000000000000000420072674642500163270ustar 00000000000000[macro_expansion] bitflags = true cbindgen-0.20.0/tests/rust/body.rs000064400000000000000000000014760072674642500151560ustar 00000000000000 #[repr(C)] pub struct MyFancyStruct { i: i32, } #[repr(C)] pub enum MyFancyEnum { Foo, Bar(i32), Baz(i32), } #[repr(C)] pub enum MyCLikeEnum { Foo1, Bar1, Baz1, } #[repr(C)] pub union MyUnion { pub f: f32, pub u: u32, } #[repr(C)] pub struct MyFancyStruct_Prepended { i: i32, } #[repr(C)] pub enum MyFancyEnum_Prepended { Foo_Prepended, Bar_Prepended(i32), Baz_Prepended(i32), } #[repr(C)] pub enum MyCLikeEnum_Prepended { Foo1_Prepended, Bar1_Prepended, Baz1_Prepended, } #[repr(C)] pub union MyUnion_Prepended { pub f: f32, pub u: u32, } #[no_mangle] pub extern "C" fn root(s: MyFancyStruct, e: MyFancyEnum, c: MyCLikeEnum, u: MyUnion, sp: MyFancyStruct_Prepended, ep: MyFancyEnum_Prepended, cp: MyCLikeEnum_Prepended, up: MyUnion_Prepended) {} cbindgen-0.20.0/tests/rust/body.toml000064400000000000000000000011450072674642500154760ustar 00000000000000[export.body] "MyFancyStruct" = """ #ifdef __cplusplus inline void foo(); #endif """ "MyFancyEnum" = """ #ifdef __cplusplus inline void wohoo(); #endif """ "MyCLikeEnum" = """ BogusVariantForSerializationForExample, """ "MyUnion" = """ int32_t extra_member; """ [export.pre_body] "MyFancyStruct_Prepended" = """ #ifdef __cplusplus inline void prepended_wohoo(); #endif """ "MyFancyEnum_Prepended" = """ #ifdef __cplusplus inline void wohoo(); #endif """ "MyCLikeEnum_Prepended" = """ BogusVariantForSerializationForExample, """ "MyUnion_Prepended" = """ int32_t extra_member; """ cbindgen-0.20.0/tests/rust/box.rs000064400000000000000000000005130072674642500150000ustar 00000000000000#[repr(C)] pub struct MyStruct { number: Box, } pub struct NotReprC { inner: T, } pub type Foo = NotReprC>; #[no_mangle] pub extern "C" fn root(a: &Foo, with_box: &MyStruct) {} #[no_mangle] pub extern "C" fn drop_box(x: Box) {} #[no_mangle] pub extern "C" fn drop_box_opt(x: Option>) {} cbindgen-0.20.0/tests/rust/box.toml000064400000000000000000000002310072674642500153240ustar 00000000000000header = """ #if 0 ''' ' #endif #ifdef __cplusplus template using Box = T*; #endif #if 0 ' ''' #endif """ [export] exclude = [ "Box", ] cbindgen-0.20.0/tests/rust/cdecl.rs000064400000000000000000000013010072674642500152560ustar 00000000000000type A = fn (); type B = fn () -> (); type C = fn (i32, i32) -> bool; type D = fn (i32) -> fn (f32) -> bool; type E = fn () -> *const [i32; 16]; type F = *const i32; type G = *const *const i32; type H = *const *mut i32; type I = *const [i32; 16]; type J = *const fn (f32) -> f64; type K = [i32; 16]; type L = [*const i32; 16]; type M = [fn (i32, i32) -> bool; 16]; type N = [fn (i32, i32) -> (); 16]; #[no_mangle] pub extern "C" fn O() -> fn () { } type P = fn (named1st: i32, bool, named3rd: bool, _: i32); #[no_mangle] pub extern "C" fn root( a: A, b: B, c: C, d: D, e: E, f: F, g: G, h: H, i: I, j: J, k: K, l: L, m: M, n: N, p: P ) { } cbindgen-0.20.0/tests/rust/cell.rs000064400000000000000000000003440072674642500151310ustar 00000000000000#[repr(C)] pub struct MyStruct { number: std::cell::Cell, } pub struct NotReprC { inner: T } pub type Foo = NotReprC>; #[no_mangle] pub extern "C" fn root(a: &Foo, with_cell: &MyStruct) {} cbindgen-0.20.0/tests/rust/cfg.rs000064400000000000000000000016730072674642500147570ustar 00000000000000#[cfg(all(unix, x11))] #[repr(u32)] enum FooType { A, B, C, } #[cfg(all(unix, x11))] #[repr(C)] struct FooHandle { ty: FooType, x: i32, y: f32, } #[cfg(any(windows, target_pointer_width="32"))] #[repr(u32)] enum BarType { A, B, C, } #[repr(u8)] pub enum C { C1, C2, #[cfg(windows)] C3, #[cfg(unix)] C5 { int: i32 }, } #[cfg(any(windows, target_pointer_width="32"))] #[repr(C)] struct BarHandle { ty: BarType, x: i32, y: f32, } // FIXME(#634): Support deriving methods for structs with conditional fields. /// cbindgen:derive-eq=false /// cbindgen:derive-neq=false #[repr(C)] struct ConditionalField { #[cfg(x11)] field: i32, } #[cfg(all(unix, x11))] #[no_mangle] pub extern "C" fn root(a: FooHandle, c: C) { } #[cfg(any(windows, target_pointer_width="32"))] #[no_mangle] pub extern "C" fn root(a: BarHandle, c: C) { } #[no_mangle] pub extern "C" fn cond(a: ConditionalField) { } cbindgen-0.20.0/tests/rust/cfg.toml000064400000000000000000000007170072674642500153040ustar 00000000000000header = """ #if 0 DEF PLATFORM_UNIX = 0 DEF PLATFORM_WIN = 0 DEF X11 = 0 DEF M_32 = 0 #endif """ [defines] "unix" = "PLATFORM_UNIX" "windows" = "PLATFORM_WIN" "x11" = "X11" "target_pointer_width = 32" = "M_32" [enum] derive_tagged_enum_destructor = true derive_tagged_enum_copy_constructor = true derive_tagged_enum_copy_assignment = true derive_helper_methods = true private_default_tagged_enum_constructor = true [struct] derive_eq = true derive_neq = true cbindgen-0.20.0/tests/rust/cfg_2.rs000064400000000000000000000005470072674642500151770ustar 00000000000000#[cfg(any(windows, unix))] #[repr(C)] struct Foo { x: i32, } #[cfg(windows)] #[repr(C)] struct Bar { y: Foo, } #[cfg(unix)] #[repr(C)] struct Bar { z: Foo, } #[repr(C)] struct Root { w: Bar, } #[cfg(windows)] pub const DEFAULT_X: i32 = 0x08; #[cfg(unix)] pub const DEFAULT_X: i32 = 0x2a; #[no_mangle] pub extern "C" fn root(a: Root) { } cbindgen-0.20.0/tests/rust/cfg_2.toml000064400000000000000000000002220072674642500155140ustar 00000000000000header = """ #if 0 DEF DEFINED = 1 DEF NOT_DEFINED = 0 #endif """ [defines] "unix" = "DEFINED" "macos" = "NOT_DEFINED" "windows" = "NOT_DEFINED" cbindgen-0.20.0/tests/rust/cfg_field.rs000064400000000000000000000001700072674642500161110ustar 00000000000000struct Foo { #[cfg(windows)] x: i32, } pub fn foo() { Foo { #[cfg(windows)] x: 0, }; } cbindgen-0.20.0/tests/rust/char.rs000064400000000000000000000001270072674642500151260ustar 00000000000000#[repr(C)] struct Foo { a: char, } #[no_mangle] pub extern "C" fn root(a: Foo) {} cbindgen-0.20.0/tests/rust/const_conflict.rs000064400000000000000000000001360072674642500172200ustar 00000000000000#[repr(C)] struct Foo {} impl Foo { const FOO: i32 = 0; } pub const Foo_FOO: u32 = 42; cbindgen-0.20.0/tests/rust/const_transparent.rs000064400000000000000000000001560072674642500177620ustar 00000000000000#[repr(transparent)] struct Transparent { field: u8 } pub const FOO: Transparent = Transparent { field: 0 }; cbindgen-0.20.0/tests/rust/constant.rs000064400000000000000000000015470072674642500160510ustar 00000000000000pub const FOO: i32 = 10; pub const BAR: &'static str = "hello world"; pub const DELIMITER: char = ':'; pub const LEFTCURLY: char = '{'; pub const QUOTE: char = '\''; pub const TAB: char = '\t'; pub const NEWLINE: char = '\n'; pub const HEART: char = '❤'; pub const EQUID: char = '𐂃'; pub const ZOM: f32 = 3.14; pub(crate) const DONT_EXPORT_CRATE: i32 = 20; const DONT_EXPORT_PRIV: i32 = 30; /// A single-line doc comment. pub const POS_ONE: i8 = 1; /// A /// multi-line /// doc /// comment. pub const NEG_ONE: i8 = -1; // Some doc for shifting // pub const SHIFT: i64 = 3; pub const XBOOL: i64 = 1; pub const XFALSE: i64 = (0 << SHIFT) | XBOOL; pub const XTRUE: i64 = 1 << (SHIFT | XBOOL); pub const CAST: u8 = 'A' as u8; pub const DOUBLE_CAST: u32 = 1 as f32 as u32; #[repr(C)] struct Foo { x: [i32; FOO], } #[no_mangle] pub extern "C" fn root(x: Foo) {} cbindgen-0.20.0/tests/rust/constant_big.rs000064400000000000000000000005140072674642500166630ustar 00000000000000pub const UNSIGNED_NEEDS_ULL_SUFFIX: u64 = 0x8000_0000_0000_0000; pub const UNSIGNED_DOESNT_NEED_ULL_SUFFIX: u64 = 0x7000_0000_0000_0000; // i64::min_value() pub const SIGNED_NEEDS_ULL_SUFFIX: i64 = -9223372036854775808; // i64::min_value() + 1 pub const SIGNED_DOESNT_NEED_ULL_SUFFIX: i64 = -9223372036854775807; cbindgen-0.20.0/tests/rust/constant_constexpr.rs000064400000000000000000000004320072674642500201460ustar 00000000000000pub const CONSTANT_I64: i64 = 216; pub const CONSTANT_FLOAT32: f32 = 312.292; pub const DELIMITER: char = ':'; pub const LEFTCURLY: char = '{'; #[repr(C)] struct Foo { x: i32, } pub const SomeFoo: Foo = Foo { x: 99, }; impl Foo { pub const CONSTANT_I64_BODY: i64 = 216; } cbindgen-0.20.0/tests/rust/constant_constexpr.toml000064400000000000000000000001150072674642500204730ustar 00000000000000[const] allow_constexpr = true [struct] associated_constants_in_body = true cbindgen-0.20.0/tests/rust/constant_sort_name.rs000064400000000000000000000001610072674642500201070ustar 00000000000000pub const B: u8 = 0; pub const A: u8 = 0; #[no_mangle] pub static D: u8 = 0; #[no_mangle] pub static C: u8 = 0; cbindgen-0.20.0/tests/rust/constant_sort_name.toml000064400000000000000000000000310072674642500204320ustar 00000000000000[const] sort_by = "Name" cbindgen-0.20.0/tests/rust/constant_sort_none.rs000064400000000000000000000001610072674642500201260ustar 00000000000000pub const B: u8 = 0; pub const A: u8 = 0; #[no_mangle] pub static D: u8 = 0; #[no_mangle] pub static C: u8 = 0; cbindgen-0.20.0/tests/rust/constant_user_defined_type.rs000064400000000000000000000003240072674642500216160ustar 00000000000000#[repr(C)] pub struct S { field: u8, } /// cbindgen:enum-class=false #[repr(C)] pub enum E { V, } use E::*; pub type A = u8; pub const C1: S = S { field: 0 }; pub const C2: E = V; pub const C3: A = 0; cbindgen-0.20.0/tests/rust/custom_header.rs000064400000000000000000000000520072674642500170300ustar 00000000000000#[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/custom_header.toml000064400000000000000000000003270072674642500173640ustar 00000000000000no_includes = true header = """ #if 0 # This file is generated by cbindgen. DO NOT EDIT #endif """ trailer = """ #if 0 # This is a simple test to ensure that trailers do not cause extra newlines in files #endif """ cbindgen-0.20.0/tests/rust/cython_options.rs000064400000000000000000000000000072674642500172560ustar 00000000000000cbindgen-0.20.0/tests/rust/cython_options.toml000064400000000000000000000001610072674642500176150ustar 00000000000000[cython] header = '"my_header.h"' [cython.cimports] "libc.stdint" = ["int8_t", "int16_t"] "libc.stddef" = ["*"] cbindgen-0.20.0/tests/rust/decl_name_conflicting.rs000064400000000000000000000004450072674642500205020ustar 00000000000000mod uhoh { enum BindingType { Buffer, NotBuffer } } #[repr(u32)] pub enum BindingType { Buffer = 0, NotBuffer = 1 } #[repr(C)] pub struct BindGroupLayoutEntry { pub ty: BindingType, // This is the repr(u32) enum } #[no_mangle] pub extern "C" fn root(entry: BindGroupLayoutEntry) {} cbindgen-0.20.0/tests/rust/derive_ostream.rs000064400000000000000000000014650072674642500172270ustar 00000000000000/// cbindgen:derive-ostream #[repr(C)] pub struct A(i32); /// cbindgen:field-names=[x, y] /// cbindgen:derive-ostream #[repr(C)] pub struct B(i32, f32); /// cbindgen:derive-ostream #[repr(u32)] pub enum C { X = 2, Y, } /// cbindgen:derive-ostream #[repr(C)] pub struct D { List: u8, Of: usize, Things: B, } /// cbindgen:derive-ostream #[repr(u8)] pub enum F { Foo(i16), Bar { x: u8, y: i16 }, Baz } /// cbindgen:derive-ostream #[repr(C, u8)] pub enum H { Hello(i16), There { x: u8, y: i16 }, Everyone } /// cbindgen:derive-ostream=false #[repr(C, u8)] pub enum I { /// cbindgen:derive-ostream=true ThereAgain { x: u8, y: i16 }, SomethingElse } #[no_mangle] pub extern "C" fn root( a: A, b: B, c: C, d: D, f: F, h: H, i: I, ) { } cbindgen-0.20.0/tests/rust/destructor_and_copy_ctor.rs000064400000000000000000000035220072674642500213140ustar 00000000000000use std::ptr::NonNull; /// This will have a destructor manually implemented via variant_body, and /// similarly a Drop impl in Rust. #[repr(C)] pub struct OwnedSlice { len: usize, ptr: NonNull, } #[repr(u8)] pub enum FillRule { A, B } #[repr(C)] pub struct Polygon { pub fill: FillRule, pub coordinates: OwnedSlice, } #[repr(C, u8)] pub enum Foo { Bar, Polygon1(Polygon), Slice1(OwnedSlice), Slice2(OwnedSlice), Slice3 { fill: FillRule, coords: OwnedSlice, }, Slice4 { fill: FillRule, coords: OwnedSlice, }, } #[repr(u8)] pub enum Baz { Bar2, Polygon21(Polygon), Slice21(OwnedSlice), Slice22(OwnedSlice), Slice23 { fill: FillRule, coords: OwnedSlice, }, Slice24 { fill: FillRule, coords: OwnedSlice, }, } #[repr(u8)] pub enum Taz { Bar3, Taz1(i32), Taz3(OwnedSlice), } /// cbindgen:derive-tagged-enum-destructor=false /// cbindgen:derive-tagged-enum-copy-constructor=false #[repr(u8)] pub enum Tazz { Bar4, Taz2(i32), } /// cbindgen:derive-tagged-enum-copy-assignment=false #[repr(u8)] pub enum Tazzz { Bar5, Taz5(i32), } #[repr(u8)] pub enum Tazzzz { Taz6(i32), Taz7(u32), } /// cbindgen:derive-eq=true /// cbindgen:derive-neq=true /// cbindgen:neq-attributes=NODISCARD /// cbindgen:eq-attributes=NODISCARD /// cbindgen:destructor-attributes=NOINLINE /// cbindgen:copy-constructor-attributes=NOINLINE /// cbindgen:copy-assignment-attributes=NOINLINE #[repr(u8)] pub enum Qux { /// cbindgen:derive-eq=true Qux1(i32), /// cbindgen:derive-eq=true Qux2(u32), } #[no_mangle] pub extern "C" fn root(a: &Foo, b: &Baz, c: &Taz, d: Tazz, e: &Tazzz, f: &Tazzzz, g: &Qux) {} cbindgen-0.20.0/tests/rust/destructor_and_copy_ctor.toml000064400000000000000000000005430072674642500216430ustar 00000000000000header = """ #define NOINLINE __attribute__((noinline)) #define NODISCARD [[nodiscard]] """ [enum] derive_tagged_enum_destructor = true derive_tagged_enum_copy_constructor = true derive_tagged_enum_copy_assignment = true derive_helper_methods = true private_default_tagged_enum_constructor = true [export.body] "OwnedSlice" = """ ~OwnedSlice() {} """ cbindgen-0.20.0/tests/rust/display_list.rs000064400000000000000000000005340072674642500167130ustar 00000000000000#[repr(u8)] pub enum DisplayItem { Fill(Rect, Color), Image { id: u32, bounds: Rect }, ClearScreen, } #[repr(C)] pub struct Rect { x: f32, y: f32, w: f32, h: f32 } #[repr(C)] pub struct Color { r: u8, g: u8, b: u8, a: u8 } #[no_mangle] pub extern "C" fn push_item(item: DisplayItem) -> bool { ::std::mem::drop(item); true } cbindgen-0.20.0/tests/rust/docstyle_auto.rs000064400000000000000000000001040072674642500170620ustar 00000000000000/// The root of all evil. #[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/docstyle_auto.toml000064400000000000000000000000350072674642500174140ustar 00000000000000documentation_style = "auto" cbindgen-0.20.0/tests/rust/docstyle_c99.rs000064400000000000000000000001040072674642500165160ustar 00000000000000/// The root of all evil. #[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/docstyle_c99.toml000064400000000000000000000000340072674642500170470ustar 00000000000000documentation_style = "c99" cbindgen-0.20.0/tests/rust/docstyle_doxy.rs000064400000000000000000000001040072674642500170750ustar 00000000000000/// The root of all evil. #[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/docstyle_doxy.toml000064400000000000000000000000350072674642500174270ustar 00000000000000documentation_style = "doxy" cbindgen-0.20.0/tests/rust/documentation.rs000064400000000000000000000012540072674642500170640ustar 00000000000000/// The root of all evil. /// /// But at least it contains some more documentation as someone would expect /// from a simple test case like this. /// /// # Hint /// /// Always ensure that everything is properly documented, even if you feel lazy. /// **Sometimes** it is also helpful to include some markdown formatting. /// /// //////////////////////////////////////////////////////////////////////////// /// /// Attention: /// /// Rust is going to trim all leading `/` symbols. If you want to use them as a /// marker you need to add at least a single whitespace inbetween the tripple /// slash doc-comment marker and the rest. /// #[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/documentation_attr.rs000064400000000000000000000007300072674642500201140ustar 00000000000000#[doc="With doc attr, each attr contribute to one line of document"] #[doc="like this one with a new line character at its end"] #[doc="and this one as well. So they are in the same paragraph"] #[doc=""] #[doc="Line ends with one new line\nshould not break"] #[doc=""] #[doc="Line ends with two spaces and a new line \nshould break to next line"] #[doc=""] #[doc="Line ends with two new lines\n\nShould break to next paragraph"] #[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/enum.rs000064400000000000000000000027200072674642500151560ustar 00000000000000enum Opaque { Foo(i32), Bar, } #[repr(u64)] enum A { a1 = 0, a2 = 2, a3, a4 = 5, } #[repr(u32)] enum B { b1 = 0, b2 = 2, b3, b4 = 5, } #[repr(u16)] enum C { c1 = 0, c2 = 2, c3, c4 = 5, } #[repr(u8)] enum D { d1 = 0, d2 = 2, d3, d4 = 5, } #[repr(usize)] enum E { e1 = 0, e2 = 2, e3, e4 = 5, } #[repr(isize)] enum F { f1 = 0, f2 = 2, f3, f4 = 5, } #[repr(u8)] enum G { Foo(i16), Bar { x: u8, y: i16 }, Baz, } /// cbindgen:prefix-with-name #[repr(C)] enum H { Foo(i16), Bar { x: u8, y: i16 }, Baz, } /// cbindgen:prefix-with-name #[repr(C, u8)] enum I { Foo(i16), Bar { x: u8, y: i16 }, Baz, } #[repr(C, u8, u16)] enum J { Foo(i16), Bar { x: u8, y: i16 }, Baz, } #[repr(C, u8, unknown_hint)] enum K { Foo(i16), Bar { x: u8, y: i16 }, Baz, } #[repr(C)] enum L { l1, l2, l3, l4, } #[repr(i8)] enum M { m1 = -1, m2 = 0, m3 = 1, } /// cbindgen:enum-class=false #[repr(C)] enum N { n1, n2, n3, n4, } /// cbindgen:enum-class=false #[repr(i8)] enum O { o1, o2, o3, o4, } #[repr(C, u8)] enum P { P0(u8), P1(u8, u8, u8), } #[no_mangle] pub extern "C" fn root( opaque: *mut Opaque, a: A, b: B, c: C, d: D, e: E, f: F, g: G, h: H, i: I, j: J, k: K, l: L, m: M, n: N, o: O, p: P, ) { } cbindgen-0.20.0/tests/rust/enum.toml000064400000000000000000000007110072674642500155030ustar 00000000000000trailer = """ #if 0 ''' ' #endif #include #include "testing-helpers.h" static_assert(offsetof(CBINDGEN_STRUCT(P), tag) == 0, "unexpected offset for tag"); static_assert(offsetof(CBINDGEN_STRUCT(P), p0) == 1, "unexpected offset for p0"); static_assert(offsetof(CBINDGEN_STRUCT(P), p0) == 1, "unexpected offset for p1"); static_assert(sizeof(CBINDGEN_STRUCT(P)) == 4, "unexpected size for P"); #if 0 ' ''' #endif """ [export.rename] "I" = "ExI" cbindgen-0.20.0/tests/rust/enum_discriminant.rs000064400000000000000000000003110072674642500177140ustar 00000000000000pub const FOUR: i8 = 4; #[repr(i8)] enum E { A = 1, B = -1, C = 1 + 2, D = FOUR, F = (5), G = b'6' as i8, H = false as i8, } #[no_mangle] pub extern "C" fn root(_: &E) {} cbindgen-0.20.0/tests/rust/enum_discriminant.toml000064400000000000000000000000470072674642500202510ustar 00000000000000[export.rename] "FOUR" = "FOURTY_FOUR" cbindgen-0.20.0/tests/rust/enum_self.rs000064400000000000000000000003470072674642500161720ustar 00000000000000#[repr(C)] pub struct Foo { something: *const i32, phantom: std::marker::PhantomData, } #[repr(u8)] pub enum Bar { Min(Foo), Max(Foo), Other, } #[no_mangle] pub extern "C" fn root(b: Bar) {} cbindgen-0.20.0/tests/rust/euclid.rs000064400000000000000000000041160072674642500154600ustar 00000000000000struct UnknownUnit; struct LayoutUnit; #[repr(C)] struct TypedLength(T, PhantomData); #[repr(C)] struct TypedSideOffsets2D { top: T, right: T, bottom: T, left: T, _phantom: PhantomData, } #[repr(C)] struct TypedSize2D { width: T, height: T, _phantom: PhantomData, } #[repr(C)] struct TypedPoint2D { x: T, y: T, _phantom: PhantomData, } #[repr(C)] struct TypedRect { origin: TypedPoint2D, size: TypedSize2D, _phantom: PhantomData, } #[repr(C)] struct TypedTransform2D { m11: T, m12: T, m21: T, m22: T, m31: T, m32: T, _phantom: PhantomData, } type Length = TypedLength; type SideOffsets2D = TypedSideOffsets2D; type Size2D = TypedSize2D; type Point2D = TypedPoint2D; type Rect = TypedRect; type LayoutLength = TypedLength; type LayoutSideOffsets2D = TypedSideOffsets2D; type LayoutSize2D = TypedSize2D; type LayoutPoint2D = TypedPoint2D; type LayoutRect = TypedRect; #[no_mangle] pub extern "C" fn root( length_a: TypedLength, length_b: TypedLength, length_c: Length, length_d: LayoutLength, side_offsets_a: TypedSideOffsets2D, side_offsets_b: TypedSideOffsets2D, side_offsets_c: SideOffsets2D, side_offsets_d: LayoutSideOffsets2D, size_a: TypedSize2D, size_b: TypedSize2D, size_c: Size2D, size_d: LayoutSize2D, point_a: TypedPoint2D, point_b: TypedPoint2D, point_c: Point2D, point_d: LayoutPoint2D, rect_a: TypedRect, rect_b: TypedRect, rect_c: Rect, rect_d: LayoutRect, transform_a: TypedTransform2D, transform_b: TypedTransform2D ) { } cbindgen-0.20.0/tests/rust/exclude_generic_monomorph.rs000064400000000000000000000002240072674642500214320ustar 00000000000000#[repr(transparent)] pub struct Foo(NonZeroU64); #[repr(C)] pub struct Bar { foo: Option, } #[no_mangle] pub extern "C" fn root(f: Bar) {} cbindgen-0.20.0/tests/rust/exclude_generic_monomorph.toml000064400000000000000000000003570072674642500217700ustar 00000000000000language = "C" header = """ #include #if 0 ''' ' #endif typedef uint64_t Option_Foo; #if 0 ' ''' #endif #if 0 from libc.stdint cimport uint64_t ctypedef uint64_t Option_Foo #endif """ [export] exclude = [ "Option_Foo", ] cbindgen-0.20.0/tests/rust/export_name.rs000064400000000000000000000001650072674642500165340ustar 00000000000000#[export_name = "do_the_thing_with_export_name"] pub extern "C" fn do_the_thing() { println!("doing the thing!"); }cbindgen-0.20.0/tests/rust/extern.rs000064400000000000000000000001620072674642500155150ustar 00000000000000#[repr(C)] struct Normal { x: i32, y: f32, } extern "C" { fn foo() -> i32; fn bar(a: Normal); } cbindgen-0.20.0/tests/rust/extern_2.rs000064400000000000000000000001650072674642500157410ustar 00000000000000#[no_mangle] pub extern "C" fn first() { } #[no_mangle] pub extern fn second() { } #[no_mangle] pub fn third() { } cbindgen-0.20.0/tests/rust/fns.rs000064400000000000000000000005020072674642500147740ustar 00000000000000#[repr(C)] pub struct Fns { noArgs: fn(), anonymousArg: fn(i32), returnsNumber: fn() -> i32, namedArgs: fn(first: i32, snd: i16) -> i8, namedArgsWildcards: fn(_: i32, named: i16, _: i64) -> i8, } #[no_mangle] pub extern "C" fn root(_fns: Fns) {} #[no_mangle] pub extern "C" fn no_return() -> ! { loop {} } cbindgen-0.20.0/tests/rust/forward_declaration.rs000064400000000000000000000004610072674642500202230ustar 00000000000000#[repr(C)] struct TypeInfo { data: TypeData, } #[repr(C)] enum TypeData { Primitive, Struct(StructInfo), } #[repr(C)] struct StructInfo { fields: *const *const TypeInfo, // requires forward declaration num_fields: usize, } #[no_mangle] pub extern "C" fn root( x: TypeInfo, ) {} cbindgen-0.20.0/tests/rust/forward_declaration.toml000064400000000000000000000003750072674642500205560ustar 00000000000000header = """ #if 0 ''' ' #endif #if defined(CBINDGEN_STYLE_TYPE) /* ANONYMOUS STRUCTS DO NOT SUPPORT FORWARD DECLARATIONS! #endif #if 0 ' ''' #endif """ trailer = """ #if 0 ''' ' #endif #if defined(CBINDGEN_STYLE_TYPE) */ #endif #if 0 ' ''' #endif """ cbindgen-0.20.0/tests/rust/function_args.rs000064400000000000000000000007230072674642500170540ustar 00000000000000#[no_mangle] pub unsafe extern fn array_print(a: &[u64]) { eprintln!("{:?}", a); } #[no_mangle] pub unsafe extern fn array_test(a: [u64; 3]) { array_print(&a); } #[no_mangle] pub unsafe extern fn unnamed(_: *const u64) { } #[no_mangle] pub unsafe extern fn pointer_test(a: *const u64) { let a = std::slice::from_raw_parts(a, 3); array_print(a); } #[no_mangle] pub unsafe extern fn print_from_rust() { let a = [0, 1, 2]; array_print(&a); } cbindgen-0.20.0/tests/rust/function_noreturn.rs000064400000000000000000000001730072674642500177730ustar 00000000000000#[no_mangle] pub extern fn loop_forever() -> ! { loop {} } #[no_mangle] pub extern fn normal_return() -> u8 { 0 } cbindgen-0.20.0/tests/rust/function_noreturn.toml000064400000000000000000000003700072674642500203210ustar 00000000000000after_includes = """ #ifndef NO_RETURN_ATTR #ifdef __GNUC__ #define NO_RETURN_ATTR __attribute__ ((noreturn)) #else // __GNUC__ #define NO_RETURN_ATTR #endif // __GNUC__ #endif // NO_RETURN_ATTR """ [fn] no_return = "NO_RETURN_ATTR" cbindgen-0.20.0/tests/rust/function_sort_name.rs000064400000000000000000000002370072674642500201070ustar 00000000000000#[no_mangle] pub extern "C" fn C() { } #[no_mangle] pub extern "C" fn B() { } #[no_mangle] pub extern "C" fn D() { } #[no_mangle] pub extern "C" fn A() { } cbindgen-0.20.0/tests/rust/function_sort_name.toml000064400000000000000000000000260072674642500204320ustar 00000000000000[fn] sort_by = "Name" cbindgen-0.20.0/tests/rust/function_sort_none.rs000064400000000000000000000002370072674642500201260ustar 00000000000000#[no_mangle] pub extern "C" fn C() { } #[no_mangle] pub extern "C" fn B() { } #[no_mangle] pub extern "C" fn D() { } #[no_mangle] pub extern "C" fn A() { } cbindgen-0.20.0/tests/rust/generic_pointer.rs000064400000000000000000000002010072674642500173560ustar 00000000000000#[repr(C)] pub struct Foo { a: T, } pub type Boo = Foo<*mut u8>; #[no_mangle] pub extern "C" fn root( x: Boo, ) { } cbindgen-0.20.0/tests/rust/global_attr.rs000064400000000000000000000000340072674642500165000ustar 00000000000000#![allow(unused_variables)] cbindgen-0.20.0/tests/rust/global_variable.rs000064400000000000000000000002170072674642500173160ustar 00000000000000#[no_mangle] pub static mut MUT_GLOBAL_ARRAY: [c_char; 128] = [0; 128]; #[no_mangle] pub static CONST_GLOBAL_ARRAY: [c_char; 128] = [0; 128]; cbindgen-0.20.0/tests/rust/ignore.rs000064400000000000000000000003170072674642500154750ustar 00000000000000/// cbindgen:ignore #[no_mangle] pub extern "C" fn root() {} /// cbindgen:ignore /// /// Something else. #[no_mangle] pub extern "C" fn another_root() {} #[no_mangle] pub extern "C" fn no_ignore_root() {} cbindgen-0.20.0/tests/rust/include.rs000064400000000000000000000000000072674642500156220ustar 00000000000000cbindgen-0.20.0/tests/rust/include.toml000064400000000000000000000000320072674642500161560ustar 00000000000000sys_includes = ["math.h"] cbindgen-0.20.0/tests/rust/include_guard.rs000064400000000000000000000000520072674642500170130ustar 00000000000000#[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/include_guard.toml000064400000000000000000000000650072674642500173460ustar 00000000000000include_guard = "INCLUDE_GUARD_H" no_includes = true cbindgen-0.20.0/tests/rust/include_item.rs000064400000000000000000000001260072674642500166510ustar 00000000000000#[repr(C)] struct A { x: i32, y: f32, } #[repr(C)] struct B { data: A, } cbindgen-0.20.0/tests/rust/include_item.toml000064400000000000000000000000310072674642500171730ustar 00000000000000[export] include = ["B"] cbindgen-0.20.0/tests/rust/include_specific.rs000064400000000000000000000000000072674642500174670ustar 00000000000000cbindgen-0.20.0/tests/rust/include_specific.toml000064400000000000000000000000550072674642500200300ustar 00000000000000sys_includes = ["math.h"] no_includes = true cbindgen-0.20.0/tests/rust/infinite_recursion_typedef_monomorph.rs000064400000000000000000000001550072674642500237260ustar 00000000000000pub type TryVec = fallible_collections::TryVec; pub type TryString = fallible_collections::TryVec; cbindgen-0.20.0/tests/rust/inner_mod.rs000064400000000000000000000001700072674642500161610ustar 00000000000000mod foo { #[repr(C)] struct Foo { x: f32, } } #[no_mangle] pub extern "C" fn root(a: foo::Foo) { } cbindgen-0.20.0/tests/rust/item_types.rs000064400000000000000000000002300072674642500163660ustar 00000000000000 pub const MY_CONST: u8 = 4; #[no_mangle] pub extern "C" fn ExternFunction() { } #[repr(u8)] pub enum OnlyThisShouldBeGenerated { Foo, Bar, } cbindgen-0.20.0/tests/rust/item_types.toml000064400000000000000000000001100072674642500167120ustar 00000000000000[export] item_types = ["enums"] include = ["OnlyThisShouldBeGenerated"] cbindgen-0.20.0/tests/rust/item_types_renamed.rs000064400000000000000000000002300072674642500200610ustar 00000000000000 pub const MY_CONST: u8 = 4; #[no_mangle] pub extern "C" fn ExternFunction() { } #[repr(u8)] pub enum OnlyThisShouldBeGenerated { Foo, Bar, } cbindgen-0.20.0/tests/rust/item_types_renamed.toml000064400000000000000000000001310072674642500204100ustar 00000000000000[export] item_types = ["enums"] include = ["OnlyThisShouldBeGenerated"] prefix = "Style" cbindgen-0.20.0/tests/rust/layout.rs000064400000000000000000000037000072674642500155260ustar 00000000000000#[repr(align(1), C)] pub struct Align1Struct { pub arg1: usize, pub arg2: *mut u8, } #[repr(align(2), C)] pub struct Align2Struct { pub arg1: usize, pub arg2: *mut u8, } #[repr(align(4), C)] pub struct Align4Struct { pub arg1: usize, pub arg2: *mut u8, } #[repr(align(8), C)] pub struct Align8Struct { pub arg1: usize, pub arg2: *mut u8, } #[repr(align(32), C)] pub struct Align32Struct { pub arg1: usize, pub arg2: *mut u8, } #[repr(packed, C)] pub struct PackedStruct { pub arg1: usize, pub arg2: *mut u8, } #[repr(align(1), C)] pub union Align1Union { pub variant1: usize, pub variant2: *mut u8, } #[repr(align(4), C)] pub union Align4Union { pub variant1: usize, pub variant2: *mut u8, } #[repr(align(16), C)] pub union Align16Union { pub variant1: usize, pub variant2: *mut u8, } #[repr(packed, C)] pub union PackedUnion { pub variant1: usize, pub variant2: *mut u8, } // #[repr(packed(n), C)] structs are currently unsupported. #[repr(packed(4), C)] pub struct UnsupportedPacked4Struct { pub arg1: usize, pub arg2: *mut u8, } // #[repr(packed(n), C)] unions are currently unsupported. #[repr(packed(4), C)] pub union UnsupportedPacked4Union { pub variant1: usize, pub variant2: *mut u8, } // #[repr(align(n), C)] enums are currently unsupported. #[repr(align(4), C)] pub enum UnsupportedAlign4Enum { Variant1, Variant2, } // Non-repr(C) structs aren't translated. #[repr(align(4))] pub struct RustAlign4Struct { pub arg1: usize, pub arg2: *mut u8, } // Non-repr(C) structs aren't translated. #[repr(packed)] pub struct RustPackedStruct { pub arg1: usize, pub arg2: *mut u8, } // Non-repr(C) unions aren't translated. #[repr(align(4))] pub struct RustAlign4Union { pub arg1: usize, pub arg2: *mut u8, } // Non-repr(C) unions aren't translated. #[repr(packed)] pub struct RustPackedUnion { pub arg1: usize, pub arg2: *mut u8, } cbindgen-0.20.0/tests/rust/layout.toml000064400000000000000000000010500072674642500160510ustar 00000000000000header = """ #define CBINDGEN_PACKED __attribute__ ((packed)) #define CBINDGEN_ALIGNED(n) __attribute__ ((aligned(n))) """ [layout] packed = "CBINDGEN_PACKED" aligned_n = "CBINDGEN_ALIGNED" [export] include = [ "Align1Struct", "Align2Struct", "Align4Struct", "Align8Struct", "Align32Struct", "PackedStruct", "Align1Union", "Align4Union", "Align16Union", "PackedUnion", "UnsupportedPacked4Struct", "UnsupportedPacked4Union", "UnsupportedAlign4Enum", "RustAlign4Struct", "RustPackedStruct", "RustAlign4Union", "RustPackedUnion", ] cbindgen-0.20.0/tests/rust/layout_aligned_opaque.rs000064400000000000000000000025230072674642500205650ustar 00000000000000#[repr(packed, C)] pub struct PackedStruct { pub arg1: usize, pub arg2: *mut u8, } #[repr(packed, C)] pub union PackedUnion { pub variant1: usize, pub variant2: *mut u8, } // Opaque because aligned_n is not defined. #[repr(align(1), C)] pub union OpaqueAlign1Union { pub variant1: usize, pub variant2: *mut u8, } // Opaque because aligned_n is not defined. #[repr(align(4), C)] pub union OpaqueAlign4Union { pub variant1: usize, pub variant2: *mut u8, } // Opaque because aligned_n is not defined. #[repr(align(16), C)] pub union OpaqueAlign16Union { pub variant1: usize, pub variant2: *mut u8, } // Opaque because aligned_n is not defined. #[repr(align(1), C)] pub struct OpaqueAlign1Struct { pub arg1: usize, pub arg2: *mut u8, } // Opaque because aligned_n is not defined. #[repr(align(2), C)] pub struct OpaqueAlign2Struct { pub arg1: usize, pub arg2: *mut u8, } // Opaque because aligned_n is not defined. #[repr(align(4), C)] pub struct OpaqueAlign4Struct { pub arg1: usize, pub arg2: *mut u8, } // Opaque because aligned_n is not defined. #[repr(align(8), C)] pub struct OpaqueAlign8Struct { pub arg1: usize, pub arg2: *mut u8, } // Opaque because aligned_n is not defined. #[repr(align(32), C)] pub struct OpaqueAlign32Struct { pub arg1: usize, pub arg2: *mut u8, } cbindgen-0.20.0/tests/rust/layout_aligned_opaque.toml000064400000000000000000000006700072674642500211150ustar 00000000000000header = """ #define CBINDGEN_PACKED __attribute__ ((packed)) #define CBINDGEN_ALIGNED(n) __attribute__ ((aligned(n))) """ [layout] # We do not define aligned_n. packed = "CBINDGEN_PACKED" [export] include = [ "PackedStruct", "PackedUnion", "OpaqueAlign1Union", "OpaqueAlign4Union", "OpaqueAlign16Union", "OpaqueAlign1Struct", "OpaqueAlign2Struct", "OpaqueAlign4Struct", "OpaqueAlign8Struct", "OpaqueAlign32Struct", ] cbindgen-0.20.0/tests/rust/layout_packed_opaque.rs000064400000000000000000000020410072674642500204040ustar 00000000000000#[repr(align(1), C)] pub union Align1Union { pub variant1: usize, pub variant2: *mut u8, } #[repr(align(4), C)] pub union Align4Union { pub variant1: usize, pub variant2: *mut u8, } #[repr(align(16), C)] pub union Align16Union { pub variant1: usize, pub variant2: *mut u8, } #[repr(align(1), C)] pub struct Align1Struct { pub arg1: usize, pub arg2: *mut u8, } #[repr(align(2), C)] pub struct Align2Struct { pub arg1: usize, pub arg2: *mut u8, } #[repr(align(4), C)] pub struct Align4Struct { pub arg1: usize, pub arg2: *mut u8, } #[repr(align(8), C)] pub struct Align8Struct { pub arg1: usize, pub arg2: *mut u8, } #[repr(align(32), C)] pub struct Align32Struct { pub arg1: usize, pub arg2: *mut u8, } // Opaque because packed is not defined. #[repr(packed, C)] pub struct OpaquePackedStruct { pub arg1: usize, pub arg2: *mut u8, } // Opaque because packed is not defined. #[repr(packed, C)] pub union OpaquePackedUnion { pub variant1: usize, pub variant2: *mut u8, } cbindgen-0.20.0/tests/rust/layout_packed_opaque.toml000064400000000000000000000006250072674642500207410ustar 00000000000000header = """ #define CBINDGEN_PACKED __attribute__ ((packed)) #define CBINDGEN_ALIGNED(n) __attribute__ ((aligned(n))) """ [layout] # We do not define packed. aligned_n = "CBINDGEN_ALIGNED" [export] include = [ "Align1Union", "Align4Union", "Align16Union", "Align1Struct", "Align2Struct", "Align4Struct", "Align8Struct", "Align32Struct", "OpaquePackedStruct", "OpaquePackedUnion", ] cbindgen-0.20.0/tests/rust/lifetime_arg.rs000064400000000000000000000002420072674642500166360ustar 00000000000000#[repr(C)] struct A<'a> { data: &'a i32 } #[repr(C)] enum E<'a> { V, U(&'a u8), } #[no_mangle] pub extern "C" fn root<'a>(_a: A<'a>, _e: E<'a>) { } cbindgen-0.20.0/tests/rust/linestyle_cr.rs000064400000000000000000000001460072674642500167060ustar 00000000000000#[repr(C)] struct Dummy { x: i32, y: f32, } #[no_mangle] pub extern "C" fn root(d: Dummy) {} cbindgen-0.20.0/tests/rust/linestyle_cr.toml000064400000000000000000000000240072674642500172300ustar 00000000000000line_endings = "CR" cbindgen-0.20.0/tests/rust/linestyle_crlf.rs000064400000000000000000000001460072674642500172300ustar 00000000000000#[repr(C)] struct Dummy { x: i32, y: f32, } #[no_mangle] pub extern "C" fn root(d: Dummy) {} cbindgen-0.20.0/tests/rust/linestyle_crlf.toml000064400000000000000000000000260072674642500175540ustar 00000000000000line_endings = "CRLF" cbindgen-0.20.0/tests/rust/linestyle_lf.rs000064400000000000000000000001460072674642500167030ustar 00000000000000#[repr(C)] struct Dummy { x: i32, y: f32, } #[no_mangle] pub extern "C" fn root(d: Dummy) {} cbindgen-0.20.0/tests/rust/linestyle_lf.toml000064400000000000000000000000240072674642500172250ustar 00000000000000line_endings = "LF" cbindgen-0.20.0/tests/rust/mangle.rs000064400000000000000000000001740072674642500154560ustar 00000000000000#[repr(C)] pub struct Foo { a: T, } pub type Boo = Foo; #[no_mangle] pub extern "C" fn root( x: Boo, ) { } cbindgen-0.20.0/tests/rust/mangle.toml000064400000000000000000000001060072674642500160000ustar 00000000000000[export.mangle] remove_underscores = true rename_types = "PascalCase" cbindgen-0.20.0/tests/rust/manuallydrop.rs000064400000000000000000000006200072674642500167160ustar 00000000000000#[repr(C)] pub struct Point { x: i32, y: i32, } #[repr(C)] pub struct MyStruct { point: std::mem::ManuallyDrop, } pub struct NotReprC { inner: T, } pub type Foo = NotReprC>; #[no_mangle] pub extern "C" fn root(a: &Foo, with_manual_drop: &MyStruct) {} #[no_mangle] pub extern "C" fn take(with_manual_drop: std::mem::ManuallyDrop) {} cbindgen-0.20.0/tests/rust/manuallydrop.toml000064400000000000000000000002520072674642500172460ustar 00000000000000header = """ #if 0 ''' ' #endif #ifdef __cplusplus template using ManuallyDrop = T; #endif #if 0 ' ''' #endif """ [export] exclude = [ "ManuallyDrop", ] cbindgen-0.20.0/tests/rust/maybeuninit.rs000064400000000000000000000004300072674642500165320ustar 00000000000000#[repr(C)] pub struct MyStruct<'a> { number: std::mem::MaybeUninit<&'a i32>, } pub struct NotReprC { inner: T, } pub type Foo<'a> = NotReprC>; #[no_mangle] pub extern "C" fn root<'a, 'b>(a: &'a Foo, with_maybe_uninit: &'b MyStruct) {} cbindgen-0.20.0/tests/rust/maybeuninit.toml000064400000000000000000000002500072674642500170610ustar 00000000000000header = """ #if 0 ''' ' #endif #ifdef __cplusplus template using MaybeUninit = T; #endif #if 0 ' ''' #endif """ [export] exclude = [ "MaybeUninit", ] cbindgen-0.20.0/tests/rust/monomorph_1.rs000064400000000000000000000006270072674642500164540ustar 00000000000000#[repr(C)] struct Foo { data: *const T } struct Bar { data: *const T } #[repr(C)] struct Tuple { a: *const T, b: *const E, } type Indirection = Tuple; #[no_mangle] pub extern "C" fn root( a: Foo, b: Foo, c: Bar, d: Foo>, e: Bar>, f: Bar>, g: Tuple, f32>, h: Indirection ) { } cbindgen-0.20.0/tests/rust/monomorph_2.rs000064400000000000000000000003040072674642500164450ustar 00000000000000#[repr(C)] struct List { members: *mut T, count: usize } struct A; struct B; #[no_mangle] pub extern "C" fn foo(a: List) { } #[no_mangle] pub extern "C" fn bar(b: List) { } cbindgen-0.20.0/tests/rust/monomorph_3.rs000064400000000000000000000006240072674642500164530ustar 00000000000000#[repr(C)] union Foo { data: *const T } union Bar { data: *const T } #[repr(C)] union Tuple { a: *const T, b: *const E, } type Indirection = Tuple; #[no_mangle] pub extern "C" fn root( a: Foo, b: Foo, c: Bar, d: Foo>, e: Bar>, f: Bar>, g: Tuple, f32>, h: Indirection ) { } cbindgen-0.20.0/tests/rust/must_use.rs000064400000000000000000000004050072674642500160540ustar 00000000000000 #[repr(C)] #[must_use] pub struct OwnedPtr { ptr: *mut T, } #[repr(C, u8)] #[must_use] pub enum MaybeOwnedPtr { Owned(*mut T), None, } #[no_mangle] #[must_use] pub extern "C" fn maybe_consume(input: OwnedPtr) -> MaybeOwnedPtr { } cbindgen-0.20.0/tests/rust/must_use.toml000064400000000000000000000004170072674642500164060ustar 00000000000000header = """ #define MUST_USE_FUNC __attribute__((warn_unused_result)) #define MUST_USE_STRUCT __attribute__((warn_unused)) #define MUST_USE_ENUM /* nothing */ """ [fn] must_use = "MUST_USE_FUNC" [struct] must_use = "MUST_USE_STRUCT" [enum] must_use = "MUST_USE_ENUM" cbindgen-0.20.0/tests/rust/namespace_constant.rs000064400000000000000000000003000072674642500200470ustar 00000000000000pub const FOO: i32 = 10; pub const BAR: &'static str = "hello world"; pub const ZOM: f32 = 3.14; #[repr(C)] struct Foo { x: [i32; FOO], } #[no_mangle] pub extern "C" fn root(x: Foo) { } cbindgen-0.20.0/tests/rust/namespace_constant.toml000064400000000000000000000000300072674642500203760ustar 00000000000000namespace = "constants" cbindgen-0.20.0/tests/rust/namespaces_constant.rs000064400000000000000000000003000072674642500202320ustar 00000000000000pub const FOO: i32 = 10; pub const BAR: &'static str = "hello world"; pub const ZOM: f32 = 3.14; #[repr(C)] struct Foo { x: [i32; FOO], } #[no_mangle] pub extern "C" fn root(x: Foo) { } cbindgen-0.20.0/tests/rust/namespaces_constant.toml000064400000000000000000000000430072674642500205650ustar 00000000000000namespaces = ["constants", "test"] cbindgen-0.20.0/tests/rust/nested_import.rs000064400000000000000000000000500072674642500170600ustar 00000000000000use std::{result, marker::PhantomData}; cbindgen-0.20.0/tests/rust/no_includes.rs000064400000000000000000000000520072674642500165100ustar 00000000000000#[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/no_includes.toml000064400000000000000000000000230072674642500170350ustar 00000000000000no_includes = true cbindgen-0.20.0/tests/rust/nonnull.rs000064400000000000000000000006570072674642500157060ustar 00000000000000use std::ptr::NonNull; struct Opaque; #[repr(C)] pub struct Foo { a: NonNull, b: NonNull, c: NonNull, d: NonNull>, e: NonNull>, f: NonNull>, g: Option>, h: Option>, i: Option>>, } #[no_mangle] pub extern "C" fn root(arg: NonNull, foo: *mut Foo, d: NonNull>) { } cbindgen-0.20.0/tests/rust/nonnull_attribute.rs000064400000000000000000000022270072674642500177640ustar 00000000000000use std::ptr::NonNull; struct Opaque; #[repr(C)] pub struct Pointers { a: NonNull, b: NonNull, c: NonNull, d: NonNull>, e: NonNull>, f: NonNull>, g: Option>, h: Option>, i: Option>>, j: *const T, k: *mut T, } #[repr(C)] pub struct References<'a> { a: &'a Opaque, b: &'a mut Opaque, c: Option<&'a Opaque>, d: Option<&'a mut Opaque>, } #[no_mangle] pub extern "C" fn value_arg(arg: References<'static>) {} #[no_mangle] pub extern "C" fn mutltiple_args( arg: NonNull, foo: *mut Pointers, d: NonNull>, ) { } #[no_mangle] pub extern "C" fn ref_arg(arg: &Pointers) {} #[no_mangle] pub extern "C" fn mut_ref_arg(arg: &mut Pointers) {} #[no_mangle] pub extern "C" fn optional_ref_arg(arg: Option<&Pointers>) {} #[no_mangle] pub extern "C" fn optional_mut_ref_arg(arg: Option<&mut Pointers>) {} #[no_mangle] pub extern "C" fn nullable_const_ptr(arg: *const Pointers) {} #[no_mangle] pub extern "C" fn nullable_mut_ptr(arg: *mut Pointers) {} cbindgen-0.20.0/tests/rust/nonnull_attribute.toml000064400000000000000000000002300072674642500203030ustar 00000000000000header = """ #ifdef __clang__ #define CBINDGEN_NONNULL _Nonnull #else #define CBINDGEN_NONNULL #endif """ [ptr] non_null_attribute = "CBINDGEN_NONNULL"cbindgen-0.20.0/tests/rust/nonzero.rs000064400000000000000000000011300072674642500156760ustar 00000000000000use std::num::*; #[repr(C)] pub struct NonZeroTest { pub a: NonZeroU8, pub b: NonZeroU16, pub c: NonZeroU32, pub d: NonZeroU64, pub e: NonZeroI8, pub f: NonZeroI16, pub g: NonZeroI32, pub h: NonZeroI64, pub i: Option, pub j: *const Option>, } #[no_mangle] pub extern "C" fn root( test: NonZeroTest, a: NonZeroU8, b: NonZeroU16, c: NonZeroU32, d: NonZeroU64, e: NonZeroI8, f: NonZeroI16, g: NonZeroI32, h: NonZeroI64, i: Option, j: *const Option>, ) {} cbindgen-0.20.0/tests/rust/nonzero.toml000064400000000000000000000001460072674642500162330ustar 00000000000000header = """ #if 0 ''' ' #endif #ifdef __cplusplus struct NonZeroI64; #endif #if 0 ' ''' #endif """ cbindgen-0.20.0/tests/rust/opaque.rs000064400000000000000000000004550072674642500155070ustar 00000000000000/// Fast hash map used internally. type FastHashMap = std::collections::HashMap>; pub type Foo = FastHashMap; pub type Bar = Result; #[no_mangle] pub extern "C" fn root(a: &Foo, b: &Bar) {} cbindgen-0.20.0/tests/rust/opaque.toml000064400000000000000000000003140072674642500160300ustar 00000000000000header = """ #if 0 ''' ' #endif #ifdef __cplusplus // These could be added as opaque types I guess. template struct BuildHasherDefault; struct DefaultHasher; #endif #if 0 ' ''' #endif """ cbindgen-0.20.0/tests/rust/pin.rs000064400000000000000000000002410072674642500147740ustar 00000000000000#[repr(C)] struct PinTest { pinned_box: Pin>, pinned_ref: Pin<&mut i32> } #[no_mangle] pub extern "C" fn root(s: Pin<&mut i32>, p: PinTest) {} cbindgen-0.20.0/tests/rust/pin.toml000064400000000000000000000003120072674642500153220ustar 00000000000000header = """ #if 0 ''' ' #endif #ifdef __cplusplus template using Pin = T; template using Box = T*; #endif #if 0 ' ''' #endif """ [export] exclude = [ "Pin", "Box" ] cbindgen-0.20.0/tests/rust/pragma_once.skip_warning_as_error.rs000064400000000000000000000000520072674642500230470ustar 00000000000000#[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/pragma_once.skip_warning_as_error.toml000064400000000000000000000000230072674642500233740ustar 00000000000000pragma_once = true cbindgen-0.20.0/tests/rust/prefix.rs000064400000000000000000000005570072674642500155150ustar 00000000000000pub const LEN: i32 = 22; pub type NamedLenArray = [i32; LEN]; pub type ValuedLenArray = [i32; 22]; #[repr(u8)] pub enum AbsoluteFontWeight { Weight(f32), Normal, Bold, } #[no_mangle] pub extern "C" fn root(x: NamedLenArray, y: ValuedLenArray, z: AbsoluteFontWeight) {} #[no_mangle] pub const X: i64 = 22 << 22; #[no_mangle] pub const Y: i64 = X + X; cbindgen-0.20.0/tests/rust/prefix.toml000064400000000000000000000000340072674642500160320ustar 00000000000000[export] prefix = "PREFIX_" cbindgen-0.20.0/tests/rust/prefixed_struct_literal.rs000064400000000000000000000003160072674642500211370ustar 00000000000000#[repr(C)] struct Foo { a: i32, b: u32, } impl Foo { pub const FOO: Foo = Foo{ a: 42, b: 47, }; } pub const BAR: Foo = Foo{ a: 42, b: 1337, }; #[no_mangle] pub extern "C" fn root(x: Foo) { } cbindgen-0.20.0/tests/rust/prefixed_struct_literal.toml000064400000000000000000000000330072674642500214620ustar 00000000000000[export] prefix = "PREFIX" cbindgen-0.20.0/tests/rust/prefixed_struct_literal_deep.rs000064400000000000000000000003470072674642500221400ustar 00000000000000#[repr(C)] struct Foo { a: i32, b: u32, bar: Bar, } #[repr(C)] struct Bar { a: i32, } pub const VAL: Foo = Foo { a: 42, b: 1337, bar: Bar { a: 323 }, }; #[no_mangle] pub extern "C" fn root(x: Foo) {} cbindgen-0.20.0/tests/rust/prefixed_struct_literal_deep.toml000064400000000000000000000000330072674642500224570ustar 00000000000000[export] prefix = "PREFIX" cbindgen-0.20.0/tests/rust/ptrs_as_arrays.rs000064400000000000000000000013060072674642500172450ustar 00000000000000/// cbindgen:ptrs-as-arrays=[[arg;3]] #[no_mangle] pub unsafe extern "C" fn ptr_as_array(n: u32, arg: *const u32, v: *const u64) {} /// cbindgen:ptrs-as-arrays=[[arg;3], [v; 4]] #[no_mangle] pub unsafe extern "C" fn ptr_as_array1(n: u32, arg: *const u32, v: *mut u64) {} /// cbindgen:ptrs-as-arrays=[[n;2], [arg; ], [v;], [k; 3]] #[no_mangle] pub unsafe extern "C" fn ptr_as_array2(n: u32, arg: *mut u32, v: *const u64) {} /// cbindgen:ptrs-as-arrays=[[a;2;3]] #[no_mangle] pub unsafe extern "C" fn ptr_as_array_wrong_syntax(arg: *mut u32, v: *const u32, _: *const u32) {} /// cbindgen:ptrs-as-arrays=[[_;2], [_;3]] #[no_mangle] pub unsafe extern "C" fn ptr_as_array_unnamed(_: *mut u32, _: *const u32) {} cbindgen-0.20.0/tests/rust/raw_lines.rs000064400000000000000000000000520072674642500161710ustar 00000000000000#[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/raw_lines.toml000064400000000000000000000001330072674642500165200ustar 00000000000000include_guard = "INCLUDE_GUARD_H" no_includes = false after_includes = "#define VERSION 1" cbindgen-0.20.0/tests/rust/rename.rs000064400000000000000000000007010072674642500154560ustar 00000000000000struct A { x: i32, y: f32, } #[repr(C)] struct B { x: i32, y: f32, } union C { x: i32, y: f32, } #[repr(C)] union D { x: i32, y: f32, } #[repr(u8)] enum E { x = 0, y = 1, } type F = A; #[no_mangle] pub static G: i32 = 10; pub const H: i32 = 10; pub const I: isize = 10 as *mut F as isize; #[no_mangle] pub extern "C" fn root( a: *const A, b: B, c: C, d: D, e: E, f: F, ) { } cbindgen-0.20.0/tests/rust/rename.toml000064400000000000000000000000710072674642500160050ustar 00000000000000[export] prefix = "C_" [export.rename] "B" = "AwesomeB" cbindgen-0.20.0/tests/rust/renaming_overrides_prefixing.rs000064400000000000000000000002210072674642500221410ustar 00000000000000struct A { x: i32, y: f32, } #[repr(C)] struct B { x: i32, y: f32, } #[no_mangle] pub extern "C" fn root(a: *const A, b: B) {} cbindgen-0.20.0/tests/rust/renaming_overrides_prefixing.toml000064400000000000000000000001670072674642500225010ustar 00000000000000[export] prefix = "Style" renaming_overrides_prefixing = true [export.rename] "B" = "B" # B should remain unprefixed. cbindgen-0.20.0/tests/rust/reserved.rs000064400000000000000000000007030072674642500160300ustar 00000000000000#[repr(C)] struct A { namespace: i32, float: f32, } /// cbindgen:field-names=[namespace, float] #[repr(C)] struct B(i32, f32); #[repr(C, u8)] enum C { D { namespace: i32, float: f32 }, } #[repr(C, u8)] enum E { Double(f64), Float(f32), } #[repr(C, u8)] enum F { double(f64), float(f32), } #[no_mangle] pub extern "C" fn root( a: A, b: B, c: C, e: E, f: F, namespace: i32, float: f32, ) { } cbindgen-0.20.0/tests/rust/sentinel.rs000064400000000000000000000003530072674642500160330ustar 00000000000000#[repr(u8)] pub enum A { A1, A2, A3, } #[repr(u8)] pub enum B { B1, B2, B3, } #[repr(u8)] pub enum C { C1 { a: u32 }, C2 { b: u32 }, C3, } #[no_mangle] pub extern "C" fn root(a: A, b: B, c: C) {} cbindgen-0.20.0/tests/rust/sentinel.toml000064400000000000000000000000630072674642500163600ustar 00000000000000[enum] add_sentinel = true prefix_with_name = true cbindgen-0.20.0/tests/rust/simplify_option_ptr.rs000064400000000000000000000007500072674642500203240ustar 00000000000000 struct Opaque(); #[repr(C)] struct Foo { x: Option<&Opaque>, y: Option<&mut Opaque>, z: Option ()>, zz: *mut Option ()>, } #[repr(C)] union Bar { x: Option<&Opaque>, y: Option<&mut Opaque>, z: Option ()>, zz: *mut Option ()>, } #[no_mangle] pub extern "C" fn root( a: Option<&Opaque>, b: Option<&mut Opaque>, c: Foo, d: Bar, e: *mut Option<*mut Opaque>, f: extern "C" fn(Option<&Opaque>), ) { } cbindgen-0.20.0/tests/rust/size_types.rs000064400000000000000000000002720072674642500164100ustar 00000000000000type Usize = usize; type Isize = isize; #[repr(usize)] enum UE { UV, } #[repr(isize)] enum IE { IV, } #[no_mangle] pub extern "C" fn root(_: Usize, _: Isize, _: UE, _: IE) {} cbindgen-0.20.0/tests/rust/size_types.toml000064400000000000000000000000270072674642500167350ustar 00000000000000usize_is_size_t = true cbindgen-0.20.0/tests/rust/static.rs000064400000000000000000000003350072674642500155010ustar 00000000000000#[no_mangle] pub static NUMBER: i32 = 10; #[repr(C)] struct Foo { } struct Bar { } #[no_mangle] pub static mut FOO: Foo = Foo { }; #[no_mangle] pub static BAR: Bar = Bar { }; #[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/std_lib.rs000064400000000000000000000001560072674642500156330ustar 00000000000000#[no_mangle] pub extern "C" fn root( a: &Vec, b: &Option, c: &Result ) { } cbindgen-0.20.0/tests/rust/struct.rs000064400000000000000000000010300072674642500155270ustar 00000000000000use std::marker::PhantomData; struct Opaque { x: i32, y: f32, } #[repr(C)] struct Normal { x: i32, y: f32, } #[repr(C)] struct NormalWithZST { x: i32, y: f32, z: (), w: PhantomData, v: PhantomPinned, } /// cbindgen:rename-all=GeckoCase #[repr(C)] struct TupleRenamed(i32, f32); /// cbindgen:field-names=[x, y] #[repr(C)] struct TupleNamed(i32, f32); #[no_mangle] pub extern "C" fn root( a: *mut Opaque, b: Normal, c: NormalWithZST, d: TupleRenamed, e: TupleNamed ) { } cbindgen-0.20.0/tests/rust/struct_literal.rs000064400000000000000000000007060072674642500172540ustar 00000000000000#[repr(C)] struct Foo { a: i32, b: u32, } struct Bar { a: i32, b: u32, } impl Foo { pub const FOO: Foo = Foo { a: 42, b: 47, }; pub const FOO2: Self = Foo { a: 42, b: 47, }; pub const FOO3: Self = Self { a: 42, b: 47, }; pub const BAZ: Bar = Bar { a: 42, b: 47, }; } pub const BAR: Foo = Foo { a: 42, b: 1337, }; pub const BAZZ: Bar = Bar { a: 42, b: 1337, }; #[no_mangle] pub extern "C" fn root(x: Foo, bar: Bar) { } cbindgen-0.20.0/tests/rust/struct_literal_order.rs000064400000000000000000000010510072674642500204410ustar 00000000000000#[repr(C)] struct ABC { pub a: f32, pub b: u32, pub c: u32, } #[repr(C)] struct BAC { pub b: u32, pub a: f32, pub c: i32, } impl ABC { pub const abc: ABC = ABC { a: 1.0, b: 2, c: 3 }; pub const bac: ABC = ABC { b: 2, a: 1.0, c: 3 }; pub const cba: ABC = ABC { c: 3, b: 2, a: 1.0 }; } impl BAC { pub const abc: BAC = BAC { a: 2.0, b: 1, c: 3 }; pub const bac: BAC = BAC { b: 1, a: 2.0, c: 3 }; pub const cba: BAC = BAC { c: 3, b: 1, a: 2.0 }; } #[no_mangle] pub extern "C" fn root(a1: ABC, a2: BAC) {} cbindgen-0.20.0/tests/rust/struct_self.rs000064400000000000000000000003500072674642500165440ustar 00000000000000#[repr(C)] pub struct Foo { something: *const i32, phantom: std::marker::PhantomData, } #[repr(C)] pub struct Bar { something: i32, subexpressions: Foo, } #[no_mangle] pub extern "C" fn root(b: Bar) {} cbindgen-0.20.0/tests/rust/style_crash.rs000064400000000000000000000002640072674642500165330ustar 00000000000000pub trait SpecifiedValueInfo { const SUPPORTED_TYPES: u8 = 0; } impl SpecifiedValueInfo for [T] { const SUPPORTED_TYPES: u8 = T::SUPPORTED_TYPES; } cbindgen-0.20.0/tests/rust/swift_name.rs000064400000000000000000000072440072674642500163540ustar 00000000000000#[export_name="rust_print_hello_world"] pub extern fn say_hello() { println!("Hello, World!"); } #[repr(C)] pub struct SelfTypeTestStruct { times: u8, } impl SelfTypeTestStruct { #[export_name="SelfTypeTestStruct_should_exist_ref"] #[no_mangle] pub extern fn should_exist_ref(&self) { println!("should_exist_ref"); } #[export_name="SelfTypeTestStruct_should_exist_ref_mut"] #[no_mangle] pub extern fn should_exist_ref_mut(&mut self) { println!("should_exist_ref_mut"); } #[export_name="SelfTypeTestStruct_should_not_exist_box"] #[no_mangle] pub extern fn should_not_exist_box(self: Box) { println!("should_not_exist_box"); } #[export_name="SelfTypeTestStruct_should_not_exist_return_box"] #[no_mangle] pub extern fn should_not_exist_box() -> Box { println!("should_not_exist_box"); } #[export_name="SelfTypeTestStruct_should_exist_annotated_self"] #[no_mangle] pub extern fn should_exist_annotated_self(self: Self) { println!("should_exist_annotated_self"); } #[export_name="SelfTypeTestStruct_should_exist_annotated_mut_self"] #[no_mangle] #[allow(unused_mut)] pub extern fn should_exist_annotated_mut_self(mut self: Self) { println!("should_exist_annotated_mut_self"); } #[export_name="SelfTypeTestStruct_should_exist_annotated_by_name"] #[no_mangle] pub extern fn should_exist_annotated_by_name(self: SelfTypeTestStruct) { println!("should_exist_annotated_by_name"); } #[export_name="SelfTypeTestStruct_should_exist_annotated_mut_by_name"] #[no_mangle] #[allow(unused_mut)] pub extern fn should_exist_annotated_mut_by_name(mut self: SelfTypeTestStruct) { println!("should_exist_annotated_mut_by_name"); } #[export_name="SelfTypeTestStruct_should_exist_unannotated"] #[no_mangle] pub extern fn should_exist_unannotated(self) { println!("should_exist_unannotated"); } #[export_name="SelfTypeTestStruct_should_exist_mut_unannotated"] #[no_mangle] #[allow(unused_mut)] pub extern fn should_exist_mut_unannotated(mut self) { println!("should_exist_mut_unannotated"); } } #[no_mangle] #[allow(unused_variables)] pub extern fn free_function_should_exist_ref(test_struct: &SelfTypeTestStruct) { println!("free_function_should_exist_ref"); } #[no_mangle] #[allow(unused_variables)] pub extern fn free_function_should_exist_ref_mut(test_struct: &mut SelfTypeTestStruct) { println!("free_function_should_exist_ref_mut"); } #[no_mangle] pub extern fn unnamed_argument(_: &mut SelfTypeTestStruct) { println!("unnamed_argument"); } #[no_mangle] #[allow(unused_variables)] pub extern fn free_function_should_not_exist_box(boxed: Box) { println!("free_function_should_not_exist_box"); } #[no_mangle] #[allow(unused_variables)] pub extern fn free_function_should_exist_annotated_by_name(test_struct: SelfTypeTestStruct) { println!("free_function_should_exist_annotated_by_name"); } #[no_mangle] #[allow(unused_mut)] #[allow(unused_variables)] pub extern fn free_function_should_exist_annotated_mut_by_name(mut test_struct: SelfTypeTestStruct) { println!("free_function_should_exist_annotated_mut_by_name"); } struct Opaque { times: u8 } #[repr(C)] pub struct PointerToOpaque { ptr: *mut Opaque } impl PointerToOpaque { #[export_name="PointerToOpaque_create"] pub extern fn create(times: u8) -> PointerToOpaque { PointerToOpaque { ptr: Box::into_raw(Box::new(Opaque { times })) } } #[export_name="PointerToOpaque_sayHello"] pub extern fn say_hello(self: PointerToOpaque) { if let Some(nonnull) = std::ptr::NonNull::new(self.ptr) { for _ in 0 .. unsafe { nonnull.as_ref().times } { println!("Hello!") } } } } cbindgen-0.20.0/tests/rust/swift_name.toml000064400000000000000000000001650072674642500166760ustar 00000000000000header = "#define CF_SWIFT_NAME(_name) __attribute__((swift_name(#_name)))" [fn] swift_name_macro = "CF_SWIFT_NAME" cbindgen-0.20.0/tests/rust/transform_op.rs000064400000000000000000000012050072674642500167200ustar 00000000000000#[repr(C)] pub struct Point { pub x: T, pub y: T, } #[repr(u8)] pub enum Foo { Foo { x: i32, y: Point, z: Point, }, Bar(T), Baz(Point), Bazz, } #[repr(C)] pub enum Bar { Bar1 { x: i32, y: Point, z: Point, u: unsafe extern "C" fn(i32) -> i32, }, Bar2(T), Bar3(Point), Bar4, } #[repr(u8)] pub enum Baz { Baz1(Bar), Baz2(Point), Baz3, } #[repr(C, u8)] pub enum Taz { Taz1(Bar), Taz2(Baz), Taz3, } #[no_mangle] pub extern "C" fn foo( foo: *const Foo, bar: *const Bar, baz: *const Baz, taz: *const Taz, ) {} cbindgen-0.20.0/tests/rust/transform_op.toml000064400000000000000000000001610072674642500172470ustar 00000000000000[export] prefix = "Style" [enum] derive_helper_methods = true derive_const_casts = true derive_mut_casts = true cbindgen-0.20.0/tests/rust/transparent.rs000064400000000000000000000042230072674642500165530ustar 00000000000000struct DummyStruct; // Transparent struct tuple wrapping a struct. #[repr(transparent)] struct TransparentComplexWrappingStructTuple(DummyStruct); // Transparent struct tuple wrapping a primitive. #[repr(transparent)] struct TransparentPrimitiveWrappingStructTuple(u32); // Transparent structure wrapping a struct. #[repr(transparent)] struct TransparentComplexWrappingStructure { only_field: DummyStruct } // Transparent structure wrapping a primitive. #[repr(transparent)] struct TransparentPrimitiveWrappingStructure { only_field: u32 } // Transparent struct wrapper with a marker wrapping a struct. #[repr(transparent)] struct TransparentComplexWrapper { only_non_zero_sized_field: DummyStruct, marker: PhantomData, } // Transparent struct wrapper with a marker wrapping a primitive. #[repr(transparent)] struct TransparentPrimitiveWrapper { only_non_zero_sized_field: u32, marker: PhantomData, } // Associated constant declared before struct declaration. impl TransparentPrimitiveWithAssociatedConstants { pub const ZERO: TransparentPrimitiveWithAssociatedConstants = TransparentPrimitiveWithAssociatedConstants { bits: 0 }; } // Transparent structure wrapping a primitive with associated constants. #[repr(transparent)] struct TransparentPrimitiveWithAssociatedConstants { bits: u32 } // Associated constant declared after struct declaration. impl TransparentPrimitiveWithAssociatedConstants { pub const ONE: TransparentPrimitiveWithAssociatedConstants = TransparentPrimitiveWithAssociatedConstants { bits: 1 }; } enum EnumWithAssociatedConstantInImpl { A } impl EnumWithAssociatedConstantInImpl { pub const TEN: TransparentPrimitiveWrappingStructure = TransparentPrimitiveWrappingStructure { only_field: 10 }; } #[no_mangle] pub extern "C" fn root( a: TransparentComplexWrappingStructTuple, b: TransparentPrimitiveWrappingStructTuple, c: TransparentComplexWrappingStructure, d: TransparentPrimitiveWrappingStructure, e: TransparentComplexWrapper, f: TransparentPrimitiveWrapper, g: TransparentPrimitiveWithAssociatedConstants, h: EnumWithAssociatedConstantInImpl, ) { } cbindgen-0.20.0/tests/rust/typedef.rs000064400000000000000000000002140072674642500156460ustar 00000000000000#[repr(C)] struct Foo { x: T, y: U, } type IntFoo = Foo; #[no_mangle] pub extern "C" fn root(a: IntFoo) { } cbindgen-0.20.0/tests/rust/union.rs000064400000000000000000000005010072674642500153350ustar 00000000000000use std::marker::PhantomData; union Opaque { x: i32, y: f32, } #[repr(C)] union Normal { x: i32, y: f32, } #[repr(C)] union NormalWithZST { x: i32, y: f32, z: (), w: PhantomData, } #[no_mangle] pub extern "C" fn root( a: *mut Opaque, b: Normal, c: NormalWithZST ) { } cbindgen-0.20.0/tests/rust/union_self.rs000064400000000000000000000003470072674642500163560ustar 00000000000000#[repr(C)] pub struct Foo { something: *const i32, phantom: std::marker::PhantomData, } #[repr(C)] pub union Bar { something: i32, subexpressions: Foo, } #[no_mangle] pub extern "C" fn root(b: Bar) {} cbindgen-0.20.0/tests/rust/using_namespaces.rs000064400000000000000000000000520072674642500175320ustar 00000000000000#[no_mangle] pub extern "C" fn root() { } cbindgen-0.20.0/tests/rust/using_namespaces.toml000064400000000000000000000000600072674642500200600ustar 00000000000000namespaces = ["root"] using_namespaces = ["std"]cbindgen-0.20.0/tests/rust/va_list.rs000064400000000000000000000001660072674642500156550ustar 00000000000000use std::ffi::VaList; #[no_mangle] pub unsafe extern "C" fn va_list_test(mut ap: VaList) -> int32_t { ap.arg() } cbindgen-0.20.0/tests/rust/zst.rs000064400000000000000000000003030072674642500150250ustar 00000000000000#[repr(C)] pub struct TraitObject { pub data: *mut (), pub vtable: *mut (), } #[no_mangle] pub extern "C" fn root(ptr: *const (), t: TraitObject) -> *mut () { std::ptr::null_mut() } cbindgen-0.20.0/tests/testing-helpers.h000064400000000000000000000007320072674642500161360ustar 00000000000000#ifndef testing_helpers_h #define testing_helpers_h // This is a helper file to easily add static_asserts to C / C++ tests. #ifndef __cplusplus #include #endif #if defined(CBINDGEN_STYLE_TAG) && !defined(__cplusplus) #define CBINDGEN_STRUCT(name) struct name #define CBINDGEN_UNION(name) union name #define CBINDGEN_ENUM(name) enum name #else #define CBINDGEN_STRUCT(name) name #define CBINDGEN_UNION(name) name #define CBINDGEN_ENUM(name) name #endif #endif cbindgen-0.20.0/tests/tests.rs000064400000000000000000000214240072674642500143610ustar 00000000000000extern crate cbindgen; use cbindgen::*; use std::collections::HashSet; use std::path::Path; use std::process::Command; use std::{env, fs, str}; fn style_str(style: Style) -> &'static str { match style { Style::Both => "both", Style::Tag => "tag", Style::Type => "type", } } fn run_cbindgen( cbindgen_path: &'static str, path: &Path, output: &Path, language: Language, cpp_compat: bool, style: Option