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fune/third_party/rust/bindgen/options/mod.rs
Cristian Tuns b54e9ee57c Backed out 3 changesets (bug 1670633, bug 1866014) for causing build bustages in MediaEngineWebRTCAudio.cpp CLOSED TREE 
Backed out changeset c0d256e9cde9 (bug 1866014)
Backed out changeset e7d101bd73d9 (bug 1670633)
Backed out changeset a849a8e4bd37 (bug 1670633)
2023-11-24 06:18:42 -05:00

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//! Declarations and setter methods for `bindgen` options.
//!
//! The main entry point of this module is the `options` macro.
#[macro_use]
mod helpers;
mod as_args;
use crate::callbacks::ParseCallbacks;
use crate::codegen::{
AliasVariation, EnumVariation, MacroTypeVariation, NonCopyUnionStyle,
};
use crate::deps::DepfileSpec;
use crate::features::{RustFeatures, RustTarget};
use crate::regex_set::RegexSet;
use crate::Abi;
use crate::Builder;
use crate::CodegenConfig;
use crate::FieldVisibilityKind;
use crate::Formatter;
use crate::HashMap;
use crate::DEFAULT_ANON_FIELDS_PREFIX;
use std::env;
#[cfg(feature = "experimental")]
use std::path::Path;
use std::path::PathBuf;
use std::rc::Rc;
use as_args::AsArgs;
use helpers::ignore;
/// Macro used to generate the [`BindgenOptions`] type and the [`Builder`] setter methods for each
/// one of the fields of `BindgenOptions`.
///
/// The input format of this macro resembles a `struct` pattern. Each field of the `BindgenOptions`
/// type is declared by adding the name of the field and its type using the `name: type` syntax and
/// a block of code with the following items:
///
/// - `default`: The default value for the field. If this item is omitted, `Default::default()` is
/// used instead, meaning that the type of the field must implement `Default`.
/// - `methods`: A block of code containing methods for the `Builder` type. These methods should be
/// related to the field being declared.
/// - `as_args`: This item declares how the field should be converted into a valid CLI argument for
/// `bindgen` and is used in the [`Builder::command_line_flags`] method which is used to do a
/// roundtrip test of the CLI args in the `bindgen-test` crate. This item can take one of the
/// following:
/// - A string literal with the flag if the type of the field implements the [`AsArgs`] trait.
/// - A closure with the signature `|field, args: &mut Vec<String>| -> ()` that pushes arguments
/// into the `args` buffer based on the value of the field. This is used if the field does not
/// implement `AsArgs` or if the implementation of the trait is not logically correct for the
/// option and a custom behavior must be taken into account.
/// - The `ignore` literal, which does not emit any CLI arguments for this field. This is useful
/// if the field cannot be used from the `bindgen` CLI.
///
/// As an example, this would be the declaration of a `bool` field called `be_fun` whose default
/// value is `false` (the `Default` value for `bool`):
/// ```rust,ignore
/// be_fun: bool {
/// methods: {
/// /// Ask `bindgen` to be fun. This option is disabled by default.
/// fn be_fun(mut self) -> Self {
/// self.options.be_fun = true;
/// self
/// }
/// },
/// as_args: "--be-fun",
/// }
/// ```
///
/// However, we could also set the `be_fun` field to `true` by default and use a `--not-fun` flag
/// instead. This means that we have to add the `default` item and use a closure in the `as_args`
/// item:
/// ```rust,ignore
/// be_fun: bool {
/// default: true,
/// methods: {
/// /// Ask `bindgen` to not be fun. `bindgen` is fun by default.
/// fn not_fun(mut self) -> Self {
/// self.options.be_fun = false;
/// self
/// }
/// },
/// as_args: |be_fun, args| (!be_fun).as_args(args, "--not-fun"),
/// }
/// ```
/// More complex examples can be found in the sole invocation of this macro.
macro_rules! options {
($(
$(#[doc = $docs:literal])+
$field:ident: $ty:ty {
$(default: $default:expr,)?
methods: {$($methods_tokens:tt)*}$(,)?
as_args: $as_args:expr$(,)?
}$(,)?
)*) => {
#[derive(Debug, Clone)]
pub(crate) struct BindgenOptions {
$($(#[doc = $docs])* pub(crate) $field: $ty,)*
}
impl Default for BindgenOptions {
fn default() -> Self {
Self {
$($field: default!($($default)*),)*
}
}
}
impl Builder {
/// Generates the command line flags used to create this [`Builder`].
pub fn command_line_flags(&self) -> Vec<String> {
let mut args = vec![];
let headers = match self.options.input_headers.split_last() {
Some((header, headers)) => {
// The last input header is passed as an argument in the first position.
args.push(header.clone().into());
headers
},
None => &[]
};
$({
let func: fn(&$ty, &mut Vec<String>) = as_args!($as_args);
func(&self.options.$field, &mut args);
})*
// Add the `--experimental` flag if `bindgen` is built with the `experimental`
// feature.
if cfg!(feature = "experimental") {
args.push("--experimental".to_owned());
}
// Add all the clang arguments.
args.push("--".to_owned());
if !self.options.clang_args.is_empty() {
args.extend(self.options.clang_args.iter().map(|s| s.clone().into()));
}
// We need to pass all but the last header via the `-include` clang argument.
for header in headers {
args.push("-include".to_owned());
args.push(header.clone().into());
}
args
}
$($($methods_tokens)*)*
}
};
}
options! {
/// Types that have been blocklisted and should not appear anywhere in the generated code.
blocklisted_types: RegexSet {
methods: {
regex_option! {
/// Do not generate any bindings for the given type.
///
/// This option is not recursive, meaning that it will only block types whose names
/// explicitly match the argument of this method.
pub fn blocklist_type<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.blocklisted_types.insert(arg);
self
}
}
},
as_args: "--blocklist-type",
},
/// Functions that have been blocklisted and should not appear in the generated code.
blocklisted_functions: RegexSet {
methods: {
regex_option! {
/// Do not generate any bindings for the given function.
///
/// This option is not recursive, meaning that it will only block functions whose
/// names explicitly match the argument of this method.
pub fn blocklist_function<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.blocklisted_functions.insert(arg);
self
}
}
},
as_args: "--blocklist-function",
},
/// Items that have been blocklisted and should not appear in the generated code.
blocklisted_items: RegexSet {
methods: {
regex_option! {
/// Do not generate any bindings for the given item, regardless of whether it is a
/// type, function, module, etc.
///
/// This option is not recursive, meaning that it will only block items whose names
/// explicitly match the argument of this method.
pub fn blocklist_item<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.blocklisted_items.insert(arg);
self
}
}
},
as_args: "--blocklist-item",
},
/// Files whose contents should be blocklisted and should not appear in the generated code.
blocklisted_files: RegexSet {
methods: {
regex_option! {
/// Do not generate any bindings for the contents of the given file, regardless of
/// whether the contents of the file are types, functions, modules, etc.
///
/// This option is not recursive, meaning that it will only block files whose names
/// explicitly match the argument of this method.
///
/// This method will use the argument to match the complete path of the file
/// instead of a section of it.
pub fn blocklist_file<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.blocklisted_files.insert(arg);
self
}
}
},
as_args: "--blocklist-file",
},
/// Types that should be treated as opaque structures in the generated code.
opaque_types: RegexSet {
methods: {
regex_option! {
/// Treat the given type as opaque in the generated bindings.
///
/// Opaque in this context means that none of the generated bindings will contain
/// information about the inner representation of the type and the type itself will
/// be represented as a chunk of bytes with the alignment and size of the type.
pub fn opaque_type<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.opaque_types.insert(arg);
self
}
}
},
as_args: "--opaque-type",
},
/// The explicit `rustfmt` path.
rustfmt_path: Option<PathBuf> {
methods: {
/// Set an explicit path to the `rustfmt` binary.
///
/// This option only comes into effect if `rustfmt` is set to be the formatter used by
/// `bindgen`. Check the documentation of the [`Builder::formatter`] method for more
/// information.
pub fn with_rustfmt<P: Into<PathBuf>>(mut self, path: P) -> Self {
self.options.rustfmt_path = Some(path.into());
self
}
},
// This option cannot be set from the CLI.
as_args: ignore,
},
/// The path to which we should write a Makefile-syntax depfile (if any).
depfile: Option<DepfileSpec> {
methods: {
/// Add a depfile output which will be written alongside the generated bindings.
pub fn depfile<H: Into<String>, D: Into<PathBuf>>(
mut self,
output_module: H,
depfile: D,
) -> Builder {
self.options.depfile = Some(DepfileSpec {
output_module: output_module.into(),
depfile_path: depfile.into(),
});
self
}
},
as_args: |depfile, args| {
if let Some(depfile) = depfile {
args.push("--depfile".into());
args.push(depfile.depfile_path.display().to_string());
}
},
},
/// Types that have been allowlisted and should appear in the generated code.
allowlisted_types: RegexSet {
methods: {
regex_option! {
/// Generate bindings for the given type.
///
/// This option is transitive by default. Check the documentation of the
/// [`Builder::allowlist_recursively`] method for further information.
pub fn allowlist_type<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.allowlisted_types.insert(arg);
self
}
}
},
as_args: "--allowlist-type",
},
/// Functions that have been allowlisted and should appear in the generated code.
allowlisted_functions: RegexSet {
methods: {
regex_option! {
/// Generate bindings for the given function.
///
/// This option is transitive by default. Check the documentation of the
/// [`Builder::allowlist_recursively`] method for further information.
pub fn allowlist_function<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.allowlisted_functions.insert(arg);
self
}
}
},
as_args: "--allowlist-function",
},
/// Variables that have been allowlisted and should appear in the generated code.
allowlisted_vars: RegexSet {
methods: {
regex_option! {
/// Generate bindings for the given variable.
///
/// This option is transitive by default. Check the documentation of the
/// [`Builder::allowlist_recursively`] method for further information.
pub fn allowlist_var<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.allowlisted_vars.insert(arg);
self
}
}
},
as_args: "--allowlist-var",
},
/// Files whose contents have been allowlisted and should appear in the generated code.
allowlisted_files: RegexSet {
methods: {
regex_option! {
/// Generate bindings for the content of the given file.
///
/// This option is transitive by default. Check the documentation of the
/// [`Builder::allowlist_recursively`] method for further information.
///
/// This method will use the argument to match the complete path of the file
/// instead of a section of it.
pub fn allowlist_file<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.allowlisted_files.insert(arg);
self
}
}
},
as_args: "--allowlist-file",
},
/// Items that have been allowlisted and should appear in the generated code.
allowlisted_items: RegexSet {
methods: {
regex_option! {
/// Generate bindings for the given item, regardless of whether it is a type,
/// function, module, etc.
///
/// This option is transitive by default. Check the documentation of the
/// [`Builder::allowlist_recursively`] method for further information.
pub fn allowlist_item<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.allowlisted_items.insert(arg);
self
}
}
},
as_args: "--allowlist-item",
},
/// The default style of for generated `enum`s.
default_enum_style: EnumVariation {
methods: {
/// Set the default style for generated `enum`s.
///
/// If this method is not called, the [`EnumVariation::Consts`] style will be used by
/// default.
///
/// To set the style for individual `enum`s, use [`Builder::bitfield_enum`],
/// [`Builder::newtype_enum`], [`Builder::newtype_global_enum`],
/// [`Builder::rustified_enum`], [`Builder::rustified_non_exhaustive_enum`],
/// [`Builder::constified_enum_module`] or [`Builder::constified_enum`].
pub fn default_enum_style(
mut self,
arg: EnumVariation,
) -> Builder {
self.options.default_enum_style = arg;
self
}
},
as_args: |variation, args| {
if *variation != Default::default() {
args.push("--default-enum-style".to_owned());
args.push(variation.to_string());
}
},
},
/// `enum`s marked as bitfield-like. This is, newtypes with bitwise operations.
bitfield_enums: RegexSet {
methods: {
regex_option! {
/// Mark the given `enum` as being bitfield-like.
///
/// This is similar to the [`Builder::newtype_enum`] style, but with the bitwise
/// operators implemented.
pub fn bitfield_enum<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.bitfield_enums.insert(arg);
self
}
}
},
as_args: "--bitfield-enum",
},
/// `enum`s marked as newtypes.
newtype_enums: RegexSet {
methods: {
regex_option! {
/// Mark the given `enum` as a newtype.
///
/// This means that an integer newtype will be declared to represent the `enum`
/// type and its variants will be represented as constants inside of this type's
/// `impl` block.
pub fn newtype_enum<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.newtype_enums.insert(arg);
self
}
}
},
as_args: "--newtype-enum",
},
/// `enum`s marked as global newtypes .
newtype_global_enums: RegexSet {
methods: {
regex_option! {
/// Mark the given `enum` as a global newtype.
///
/// This is similar to the [`Builder::newtype_enum`] style, but the constants for
/// each variant are free constants instead of being declared inside an `impl`
/// block for the newtype.
pub fn newtype_global_enum<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.newtype_global_enums.insert(arg);
self
}
}
},
as_args: "--newtype-global-enum",
},
/// `enum`s marked as Rust `enum`s.
rustified_enums: RegexSet {
methods: {
regex_option! {
/// Mark the given `enum` as a Rust `enum`.
///
/// This means that each variant of the `enum` will be represented as a Rust `enum`
/// variant.
///
/// **Use this with caution**, creating an instance of a Rust `enum` with an
/// invalid value will cause undefined behaviour. To avoid this, use the
/// [`Builder::newtype_enum`] style instead.
pub fn rustified_enum<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.rustified_enums.insert(arg);
self
}
}
},
as_args: "--rustified-enum",
},
/// `enum`s marked as non-exhaustive Rust `enum`s.
rustified_non_exhaustive_enums: RegexSet {
methods: {
regex_option! {
/// Mark the given `enum` as a non-exhaustive Rust `enum`.
///
/// This is similar to the [`Builder::rustified_enum`] style, but the `enum` is
/// tagged with the `#[non_exhaustive]` attribute.
pub fn rustified_non_exhaustive_enum<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.rustified_non_exhaustive_enums.insert(arg);
self
}
}
},
as_args: "--rustified-non-exhaustive-enums",
},
/// `enum`s marked as modules of constants.
constified_enum_modules: RegexSet {
methods: {
regex_option! {
/// Mark the given `enum` as a module with a set of integer constants.
pub fn constified_enum_module<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.constified_enum_modules.insert(arg);
self
}
}
},
as_args: "--constified-enum-module",
},
/// `enum`s marked as a set of constants.
constified_enums: RegexSet {
methods: {
regex_option! {
/// Mark the given `enum` as a set o integer constants.
///
/// This is similar to the [`Builder::constified_enum_module`] style, but the
/// constants are generated in the current module instead of in a new module.
pub fn constified_enum<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.constified_enums.insert(arg);
self
}
}
},
as_args: "--constified-enum",
},
/// The default type signedness for C macro constants.
default_macro_constant_type: MacroTypeVariation {
methods: {
/// Set the default type signedness to be used for macro constants.
///
/// If this method is not called, [`MacroTypeVariation::Unsigned`] is used by default.
///
/// To set the type for individual macro constants, use the
/// [`ParseCallbacks::int_macro`] method.
pub fn default_macro_constant_type(mut self, arg: MacroTypeVariation) -> Builder {
self.options.default_macro_constant_type = arg;
self
}
},
as_args: |variation, args| {
if *variation != Default::default() {
args.push("--default-macro-constant-type".to_owned());
args.push(variation.to_string());
}
},
},
/// The default style of code generation for `typedef`s.
default_alias_style: AliasVariation {
methods: {
/// Set the default style of code generation for `typedef`s.
///
/// If this method is not called, the [`AliasVariation::TypeAlias`] style is used by
/// default.
///
/// To set the style for individual `typedefs`s, use [`Builder::type_alias`],
/// [`Builder::new_type_alias`] or [`Builder::new_type_alias_deref`].
pub fn default_alias_style(
mut self,
arg: AliasVariation,
) -> Builder {
self.options.default_alias_style = arg;
self
}
},
as_args: |variation, args| {
if *variation != Default::default() {
args.push("--default-alias-style".to_owned());
args.push(variation.to_string());
}
},
},
/// `typedef` patterns that will use regular type aliasing.
type_alias: RegexSet {
methods: {
regex_option! {
/// Mark the given `typedef` as a regular Rust `type` alias.
///
/// This is the default behavior, meaning that this method only comes into effect
/// if a style different from [`AliasVariation::TypeAlias`] was passed to the
/// [`Builder::default_alias_style`] method.
pub fn type_alias<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.type_alias.insert(arg);
self
}
}
},
as_args: "--type-alias",
},
/// `typedef` patterns that will be aliased by creating a newtype.
new_type_alias: RegexSet {
methods: {
regex_option! {
/// Mark the given `typedef` as a Rust newtype by having the aliased
/// type be wrapped in a `struct` with `#[repr(transparent)]`.
///
/// This method can be used to enforce stricter type checking.
pub fn new_type_alias<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.new_type_alias.insert(arg);
self
}
}
},
as_args: "--new-type-alias",
},
/// `typedef` patterns that will be wrapped in a newtype implementing `Deref` and `DerefMut`.
new_type_alias_deref: RegexSet {
methods: {
regex_option! {
/// Mark the given `typedef` to be generated as a newtype that can be dereferenced.
///
/// This is similar to the [`Builder::new_type_alias`] style, but the newtype
/// implements `Deref` and `DerefMut` with the aliased type as a target.
pub fn new_type_alias_deref<T: AsRef<str>>(mut self, arg: T) -> Builder {
self.options.new_type_alias_deref.insert(arg);
self
}
}
},
as_args: "--new-type-alias-deref",
},
/// The default style of code to generate for `union`s containing non-`Copy` members.
default_non_copy_union_style: NonCopyUnionStyle {
methods: {
/// Set the default style of code to generate for `union`s with non-`Copy` members.
///
/// If this method is not called, the [`NonCopyUnionStyle::BindgenWrapper`] style is
/// used by default.
///
/// To set the style for individual `union`s, use [`Builder::bindgen_wrapper_union`] or
/// [`Builder::manually_drop_union`].
pub fn default_non_copy_union_style(mut self, arg: NonCopyUnionStyle) -> Self {
self.options.default_non_copy_union_style = arg;
self
}
},
as_args: |style, args| {
if *style != Default::default() {
args.push("--default-non-copy-union-style".to_owned());
args.push(style.to_string());
}
},
},
/// The patterns marking non-`Copy` `union`s as using the `bindgen` generated wrapper.
bindgen_wrapper_union: RegexSet {
methods: {
regex_option! {
/// Mark the given `union` to use a `bindgen`-generated wrapper for its members if at
/// least one them is not `Copy`.
///
/// This is the default behavior, meaning that this method only comes into effect
/// if a style different from [`NonCopyUnionStyle::BindgenWrapper`] was passed to
/// the [`Builder::default_non_copy_union_style`] method.
pub fn bindgen_wrapper_union<T: AsRef<str>>(mut self, arg: T) -> Self {
self.options.bindgen_wrapper_union.insert(arg);
self
}
}
},
as_args: "--bindgen-wrapper-union",
},
/// The patterns marking non-`Copy` `union`s as using the `ManuallyDrop` wrapper.
manually_drop_union: RegexSet {
methods: {
regex_option! {
/// Mark the given `union` to use [`::core::mem::ManuallyDrop`] for its members if
/// at least one of them is not `Copy`.
///
/// The `ManuallyDrop` type was stabilized in Rust 1.20.0, do not use this option
/// if your target version is lower than this.
pub fn manually_drop_union<T: AsRef<str>>(mut self, arg: T) -> Self {
self.options.manually_drop_union.insert(arg);
self
}
}
},
as_args: "--manually-drop-union",
},
/// Whether we should generate built-in definitions.
builtins: bool {
methods: {
/// Generate Rust bindings for built-in definitions (for example `__builtin_va_list`).
///
/// Bindings for built-in definitions are not emitted by default.
pub fn emit_builtins(mut self) -> Builder {
self.options.builtins = true;
self
}
},
as_args: "--builtins",
},
/// Whether we should dump the Clang AST for debugging purposes.
emit_ast: bool {
methods: {
/// Emit the Clang AST to `stdout` for debugging purposes.
///
/// The Clang AST is not emitted by default.
pub fn emit_clang_ast(mut self) -> Builder {
self.options.emit_ast = true;
self
}
},
as_args: "--emit-clang-ast",
},
/// Whether we should dump our IR for debugging purposes.
emit_ir: bool {
methods: {
/// Emit the `bindgen` internal representation to `stdout` for debugging purposes.
///
/// This internal representation is not emitted by default.
pub fn emit_ir(mut self) -> Builder {
self.options.emit_ir = true;
self
}
},
as_args: "--emit-ir",
},
/// Output path for the `graphviz` DOT file.
emit_ir_graphviz: Option<String> {
methods: {
/// Set the path for the file where the`bindgen` internal representation will be
/// emitted as a graph using the `graphviz` DOT language.
///
/// This graph representation is not emitted by default.
pub fn emit_ir_graphviz<T: Into<String>>(mut self, path: T) -> Builder {
let path = path.into();
self.options.emit_ir_graphviz = Some(path);
self
}
},
as_args: "--emit-ir-graphviz",
},
/// Whether we should emulate C++ namespaces with Rust modules.
enable_cxx_namespaces: bool {
methods: {
/// Emulate C++ namespaces using Rust modules in the generated bindings.
///
/// C++ namespaces are not emulated by default.
pub fn enable_cxx_namespaces(mut self) -> Builder {
self.options.enable_cxx_namespaces = true;
self
}
},
as_args: "--enable-cxx-namespaces",
},
/// Whether we should try to find unexposed attributes in functions.
enable_function_attribute_detection: bool {
methods: {
/// Enable detecting function attributes on C functions.
///
/// This enables the following features:
/// - Add `#[must_use]` attributes to Rust items whose C counterparts are marked as so.
/// This feature also requires that the Rust target version supports the attribute.
/// - Set `!` as the return type for Rust functions whose C counterparts are marked as
/// diverging.
///
/// This option can be quite slow in some cases (check [#1465]), so it is disabled by
/// default.
///
/// [#1465]: https://github.com/rust-lang/rust-bindgen/issues/1465
pub fn enable_function_attribute_detection(mut self) -> Self {
self.options.enable_function_attribute_detection = true;
self
}
},
as_args: "--enable-function-attribute-detection",
},
/// Whether we should avoid mangling names with namespaces.
disable_name_namespacing: bool {
methods: {
/// Disable name auto-namespacing.
///
/// By default, `bindgen` mangles names like `foo::bar::Baz` to look like `foo_bar_Baz`
/// instead of just `Baz`. This method disables that behavior.
///
/// Note that this does not change the names used for allowlisting and blocklisting,
/// which should still be mangled with the namespaces. Additionally, this option may
/// cause `bindgen` to generate duplicate names.
pub fn disable_name_namespacing(mut self) -> Builder {
self.options.disable_name_namespacing = true;
self
}
},
as_args: "--disable-name-namespacing",
},
/// Whether we should avoid generating nested `struct` names.
disable_nested_struct_naming: bool {
methods: {
/// Disable nested `struct` naming.
///
/// The following `struct`s have different names for C and C++. In C, they are visible
/// as `foo` and `bar`. In C++, they are visible as `foo` and `foo::bar`.
///
/// ```c
/// struct foo {
/// struct bar {
/// } b;
/// };
/// ```
///
/// `bindgen` tries to avoid duplicate names by default, so it follows the C++ naming
/// convention and it generates `foo` and `foo_bar` instead of just `foo` and `bar`.
///
/// This method disables this behavior and it is indented to be used only for headers
/// that were written in C.
pub fn disable_nested_struct_naming(mut self) -> Builder {
self.options.disable_nested_struct_naming = true;
self
}
},
as_args: "--disable-nested-struct-naming",
},
/// Whether we should avoid embedding version identifiers into source code.
disable_header_comment: bool {
methods: {
/// Do not insert the `bindgen` version identifier into the generated bindings.
///
/// This identifier is inserted by default.
pub fn disable_header_comment(mut self) -> Self {
self.options.disable_header_comment = true;
self
}
},
as_args: "--disable-header-comment",
},
/// Whether we should generate layout tests for generated `struct`s.
layout_tests: bool {
default: true,
methods: {
/// Set whether layout tests should be generated.
///
/// Layout tests are generated by default.
pub fn layout_tests(mut self, doit: bool) -> Self {
self.options.layout_tests = doit;
self
}
},
as_args: |value, args| (!value).as_args(args, "--no-layout-tests"),
},
/// Whether we should implement `Debug` for types that cannot derive it.
impl_debug: bool {
methods: {
/// Set whether `Debug` should be implemented for types that cannot derive it.
///
/// This option is disabled by default.
pub fn impl_debug(mut self, doit: bool) -> Self {
self.options.impl_debug = doit;
self
}
},
as_args: "--impl-debug",
},
/// Whether we should implement `PartialEq` types that cannot derive it.
impl_partialeq: bool {
methods: {
/// Set whether `PartialEq` should be implemented for types that cannot derive it.
///
/// This option is disabled by default.
pub fn impl_partialeq(mut self, doit: bool) -> Self {
self.options.impl_partialeq = doit;
self
}
},
as_args: "--impl-partialeq",
},
/// Whether we should derive `Copy` when possible.
derive_copy: bool {
default: true,
methods: {
/// Set whether the `Copy` trait should be derived when possible.
///
/// `Copy` is derived by default.
pub fn derive_copy(mut self, doit: bool) -> Self {
self.options.derive_copy = doit;
self
}
},
as_args: |value, args| (!value).as_args(args, "--no-derive-copy"),
},
/// Whether we should derive `Debug` when possible.
derive_debug: bool {
default: true,
methods: {
/// Set whether the `Debug` trait should be derived when possible.
///
/// The [`Builder::impl_debug`] method can be used to implement `Debug` for types that
/// cannot derive it.
///
/// `Debug` is derived by default.
pub fn derive_debug(mut self, doit: bool) -> Self {
self.options.derive_debug = doit;
self
}
},
as_args: |value, args| (!value).as_args(args, "--no-derive-debug"),
},
/// Whether we should derive `Default` when possible.
derive_default: bool {
methods: {
/// Set whether the `Default` trait should be derived when possible.
///
/// `Default` is not derived by default.
pub fn derive_default(mut self, doit: bool) -> Self {
self.options.derive_default = doit;
self
}
},
as_args: |&value, args| {
let arg = if value {
"--with-derive-default"
} else {
"--no-derive-default"
};
args.push(arg.to_owned());
},
},
/// Whether we should derive `Hash` when possible.
derive_hash: bool {
methods: {
/// Set whether the `Hash` trait should be derived when possible.
///
/// `Hash` is not derived by default.
pub fn derive_hash(mut self, doit: bool) -> Self {
self.options.derive_hash = doit;
self
}
},
as_args: "--with-derive-hash",
},
/// Whether we should derive `PartialOrd` when possible.
derive_partialord: bool {
methods: {
/// Set whether the `PartialOrd` trait should be derived when possible.
///
/// Take into account that `Ord` cannot be derived for a type that does not implement
/// `PartialOrd`. For this reason, setting this method to `false` also sets
/// automatically [`Builder::derive_ord`] to `false`.
///
/// `PartialOrd` is not derived by default.
pub fn derive_partialord(mut self, doit: bool) -> Self {
self.options.derive_partialord = doit;
if !doit {
self.options.derive_ord = false;
}
self
}
},
as_args: "--with-derive-partialord",
},
/// Whether we should derive `Ord` when possible.
derive_ord: bool {
methods: {
/// Set whether the `Ord` trait should be derived when possible.
///
/// Take into account that `Ord` cannot be derived for a type that does not implement
/// `PartialOrd`. For this reason, the value set with this method will also be set
/// automatically for [`Builder::derive_partialord`].
///
/// `Ord` is not derived by default.
pub fn derive_ord(mut self, doit: bool) -> Self {
self.options.derive_ord = doit;
self.options.derive_partialord = doit;
self
}
},
as_args: "--with-derive-ord",
},
/// Whether we should derive `PartialEq` when possible.
derive_partialeq: bool {
methods: {
/// Set whether the `PartialEq` trait should be derived when possible.
///
/// Take into account that `Eq` cannot be derived for a type that does not implement
/// `PartialEq`. For this reason, setting this method to `false` also sets
/// automatically [`Builder::derive_eq`] to `false`.
///
/// The [`Builder::impl_partialeq`] method can be used to implement `PartialEq` for
/// types that cannot derive it.
///
/// `PartialEq` is not derived by default.
pub fn derive_partialeq(mut self, doit: bool) -> Self {
self.options.derive_partialeq = doit;
if !doit {
self.options.derive_eq = false;
}
self
}
},
as_args: "--with-derive-partialeq",
},
/// Whether we should derive `Eq` when possible.
derive_eq: bool {
methods: {
/// Set whether the `Eq` trait should be derived when possible.
///
/// Take into account that `Eq` cannot be derived for a type that does not implement
/// `PartialEq`. For this reason, the value set with this method will also be set
/// automatically for [`Builder::derive_partialeq`].
///
/// `Eq` is not derived by default.
pub fn derive_eq(mut self, doit: bool) -> Self {
self.options.derive_eq = doit;
if doit {
self.options.derive_partialeq = doit;
}
self
}
},
as_args: "--with-derive-eq",
},
/// Whether we should use `core` instead of `std`.
///
/// If this option is enabled and the Rust target version is greater than 1.64, the prefix for
/// C platform-specific types will be `::core::ffi` instead of `::core::os::raw`.
use_core: bool {
methods: {
/// Use `core` instead of `std` in the generated bindings.
///
/// `std` is used by default.
pub fn use_core(mut self) -> Builder {
self.options.use_core = true;
self
}
},
as_args: "--use-core",
},
/// An optional prefix for the C platform-specific types.
ctypes_prefix: Option<String> {
methods: {
/// Use the given prefix for the C platform-specific types instead of `::std::os::raw`.
///
/// Alternatively, the [`Builder::use_core`] method can be used to set the prefix to
/// `::core::ffi` or `::core::os::raw`.
pub fn ctypes_prefix<T: Into<String>>(mut self, prefix: T) -> Builder {
self.options.ctypes_prefix = Some(prefix.into());
self
}
},
as_args: "--ctypes-prefix",
},
/// The prefix for anonymous fields.
anon_fields_prefix: String {
default: DEFAULT_ANON_FIELDS_PREFIX.into(),
methods: {
/// Use the given prefix for the anonymous fields.
///
/// An anonymous field, is a field of a C/C++ type that does not have a name. For
/// example, in the following C code:
/// ```c
/// struct integer {
/// struct {
/// int inner;
/// };
/// }
/// ```
///
/// The only field of the `integer` `struct` is an anonymous field and its Rust
/// representation will be named using this prefix followed by an integer identifier.
///
/// The default prefix is `__bindgen_anon_`.
pub fn anon_fields_prefix<T: Into<String>>(mut self, prefix: T) -> Builder {
self.options.anon_fields_prefix = prefix.into();
self
}
},
as_args: |prefix, args| {
if prefix != DEFAULT_ANON_FIELDS_PREFIX {
args.push("--anon-fields-prefix".to_owned());
args.push(prefix.clone());
}
},
},
/// Whether to measure the time for each one of the `bindgen` phases.
time_phases: bool {
methods: {
/// Set whether to measure the elapsed time for each one of the `bindgen` phases. This
/// information is printed to `stderr`.
///
/// The elapsed time is not measured by default.
pub fn time_phases(mut self, doit: bool) -> Self {
self.options.time_phases = doit;
self
}
},
as_args: "--time-phases",
},
/// Whether to convert C float types to `f32` and `f64`.
convert_floats: bool {
default: true,
methods: {
/// Avoid converting C float types to `f32` and `f64`.
pub fn no_convert_floats(mut self) -> Self {
self.options.convert_floats = false;
self
}
},
as_args: |value, args| (!value).as_args(args, "--no-convert-floats"),
},
/// The set of raw lines to be prepended to the top-level module of the generated Rust code.
raw_lines: Vec<Box<str>> {
methods: {
/// Add a line of Rust code at the beginning of the generated bindings. The string is
/// passed through without any modification.
pub fn raw_line<T: Into<String>>(mut self, arg: T) -> Self {
self.options.raw_lines.push(arg.into().into_boxed_str());
self
}
},
as_args: |raw_lines, args| {
for line in raw_lines {
args.push("--raw-line".to_owned());
args.push(line.clone().into());
}
},
},
/// The set of raw lines to prepend to different modules.
module_lines: HashMap<Box<str>, Vec<Box<str>>> {
methods: {
/// Add a given line to the beginning of a given module.
///
/// This option only comes into effect if the [`Builder::enable_cxx_namespaces`] method
/// is also being called.
pub fn module_raw_line<T, U>(mut self, module: T, line: U) -> Self
where
T: Into<String>,
U: Into<String>,
{
self.options
.module_lines
.entry(module.into().into_boxed_str())
.or_default()
.push(line.into().into_boxed_str());
self
}
},
as_args: |module_lines, args| {
for (module, lines) in module_lines {
for line in lines.iter() {
args.push("--module-raw-line".to_owned());
args.push(module.clone().into());
args.push(line.clone().into());
}
}
},
},
/// The input header files.
input_headers: Vec<Box<str>> {
methods: {
/// Add an input C/C++ header to generate bindings for.
///
/// This can be used to generate bindings for a single header:
///
/// ```ignore
/// let bindings = bindgen::Builder::default()
/// .header("input.h")
/// .generate()
/// .unwrap();
/// ```
///
/// Or for multiple headers:
///
/// ```ignore
/// let bindings = bindgen::Builder::default()
/// .header("first.h")
/// .header("second.h")
/// .header("third.h")
/// .generate()
/// .unwrap();
/// ```
pub fn header<T: Into<String>>(mut self, header: T) -> Builder {
self.options.input_headers.push(header.into().into_boxed_str());
self
}
},
// This field is handled specially inside the macro.
as_args: ignore,
},
/// The set of arguments to be passed straight through to Clang.
clang_args: Vec<Box<str>> {
methods: {
/// Add an argument to be passed straight through to Clang.
pub fn clang_arg<T: Into<String>>(self, arg: T) -> Builder {
self.clang_args([arg.into().into_boxed_str()])
}
/// Add several arguments to be passed straight through to Clang.
pub fn clang_args<I: IntoIterator>(mut self, args: I) -> Builder
where
I::Item: AsRef<str>,
{
for arg in args {
self.options.clang_args.push(arg.as_ref().to_owned().into_boxed_str());
}
self
}
},
// This field is handled specially inside the macro.
as_args: ignore,
},
/// Tuples of unsaved file contents of the form (name, contents).
input_header_contents: Vec<(Box<str>, Box<str>)> {
methods: {
/// Add `contents` as an input C/C++ header named `name`.
///
/// This can be used to inject additional C/C++ code as an input without having to
/// create additional header files.
pub fn header_contents(mut self, name: &str, contents: &str) -> Builder {
// Apparently clang relies on having virtual FS correspondent to
// the real one, so we need absolute paths here
let absolute_path = env::current_dir()
.expect("Cannot retrieve current directory")
.join(name)
.to_str()
.expect("Cannot convert current directory name to string")
.into();
self.options
.input_header_contents
.push((absolute_path, contents.into()));
self
}
},
// Header contents cannot be added from the CLI.
as_args: ignore,
},
/// A user-provided visitor to allow customizing different kinds of situations.
parse_callbacks: Vec<Rc<dyn ParseCallbacks>> {
methods: {
/// Add a new [`ParseCallbacks`] instance to configure types in different situations.
pub fn parse_callbacks(mut self, cb: Box<dyn ParseCallbacks>) -> Self {
self.options.parse_callbacks.push(Rc::from(cb));
self
}
},
as_args: |_callbacks, _args| {
#[cfg(feature = "__cli")]
for cb in _callbacks {
_args.extend(cb.cli_args());
}
},
},
/// Which kind of items should we generate. We generate all of them by default.
codegen_config: CodegenConfig {
default: CodegenConfig::all(),
methods: {
/// Do not generate any functions.
///
/// Functions are generated by default.
pub fn ignore_functions(mut self) -> Builder {
self.options.codegen_config.remove(CodegenConfig::FUNCTIONS);
self
}
/// Do not generate any methods.
///
/// Methods are generated by default.
pub fn ignore_methods(mut self) -> Builder {
self.options.codegen_config.remove(CodegenConfig::METHODS);
self
}
/// Choose what to generate using a [`CodegenConfig`].
///
/// This option overlaps with [`Builder::ignore_functions`] and
/// [`Builder::ignore_methods`].
///
/// All the items in `CodegenConfig` are generated by default.
pub fn with_codegen_config(mut self, config: CodegenConfig) -> Self {
self.options.codegen_config = config;
self
}
},
as_args: |codegen_config, args| {
if !codegen_config.functions() {
args.push("--ignore-functions".to_owned());
}
args.push("--generate".to_owned());
//Temporary placeholder for the 4 options below.
let mut options: Vec<String> = Vec::new();
if codegen_config.functions() {
options.push("functions".to_owned());
}
if codegen_config.types() {
options.push("types".to_owned());
}
if codegen_config.vars() {
options.push("vars".to_owned());
}
if codegen_config.methods() {
options.push("methods".to_owned());
}
if codegen_config.constructors() {
options.push("constructors".to_owned());
}
if codegen_config.destructors() {
options.push("destructors".to_owned());
}
args.push(options.join(","));
if !codegen_config.methods() {
args.push("--ignore-methods".to_owned());
}
},
},
/// Whether to treat inline namespaces conservatively.
conservative_inline_namespaces: bool {
methods: {
/// Treat inline namespaces conservatively.
///
/// This is tricky, because in C++ is technically legal to override an item
/// defined in an inline namespace:
///
/// ```cpp
/// inline namespace foo {
/// using Bar = int;
/// }
/// using Bar = long;
/// ```
///
/// Even though referencing `Bar` is a compiler error.
///
/// We want to support this (arguably esoteric) use case, but we do not want to make
/// the rest of `bindgen` users pay an usability penalty for that.
///
/// To support this, we need to keep all the inline namespaces around, but then using
/// `bindgen` becomes a bit more difficult, because you cannot reference paths like
/// `std::string` (you'd need to use the proper inline namespace).
///
/// We could complicate a lot of the logic to detect name collisions and, in the
/// absence of collisions, generate a `pub use inline_ns::*` or something like that.
///
/// That is probably something we can do to improve the usability of this option if we
/// realize it is needed way more often. Our guess is that this extra logic is not
/// going to be very useful.
///
/// This option is disabled by default.
pub fn conservative_inline_namespaces(mut self) -> Builder {
self.options.conservative_inline_namespaces = true;
self
}
},
as_args: "--conservative-inline-namespaces",
},
/// Whether to keep documentation comments in the generated output.
generate_comments: bool {
default: true,
methods: {
/// Set whether the generated bindings should contain documentation comments.
///
/// Documentation comments are included by default.
///
/// Note that clang excludes comments from system headers by default, pass
/// `"-fretain-comments-from-system-headers"` to the [`Builder::clang_arg`] method to
/// include them.
///
/// It is also possible to process all comments and not just documentation using the
/// `"-fparse-all-comments"` flag. Check [these slides on clang comment parsing](
/// https://llvm.org/devmtg/2012-11/Gribenko_CommentParsing.pdf) for more information
/// and examples.
pub fn generate_comments(mut self, doit: bool) -> Self {
self.options.generate_comments = doit;
self
}
},
as_args: |value, args| (!value).as_args(args, "--no-doc-comments"),
},
/// Whether to generate inline functions.
generate_inline_functions: bool {
methods: {
/// Set whether to generate inline functions.
///
/// This option is disabled by default.
///
/// Note that they will usually not work. However you can use `-fkeep-inline-functions`
/// or `-fno-inline-functions` if you are responsible of compiling the library to make
/// them callable.
#[cfg_attr(
features = "experimental",
doc = "\nCheck the [`Builder::wrap_static_fns`] method for an alternative."
)]
pub fn generate_inline_functions(mut self, doit: bool) -> Self {
self.options.generate_inline_functions = doit;
self
}
},
as_args: "--generate-inline-functions",
},
/// Whether to allowlist types recursively.
allowlist_recursively: bool {
default: true,
methods: {
/// Set whether to recursively allowlist items.
///
/// Items are allowlisted recursively by default.
///
/// Given that we have explicitly allowlisted the `initiate_dance_party` function in
/// this C header:
///
/// ```c
/// typedef struct MoonBoots {
/// int bouncy_level;
/// } MoonBoots;
///
/// void initiate_dance_party(MoonBoots* boots);
/// ```
///
/// We would normally generate bindings to both the `initiate_dance_party` function and
/// the `MoonBoots` type that it transitively references. If `false` is passed to this
/// method, `bindgen` will not emit bindings for anything except the explicitly
/// allowlisted items, meaning that the definition for `MoonBoots` would not be
/// generated. However, the `initiate_dance_party` function would still reference
/// `MoonBoots`!
///
/// **Disabling this feature will almost certainly cause `bindgen` to emit bindings
/// that will not compile!** If you disable this feature, then it is *your*
/// responsibility to provide definitions for every type that is referenced from an
/// explicitly allowlisted item. One way to provide the missing definitions is by using
/// the [`Builder::raw_line`] method, another would be to define them in Rust and then
/// `include!(...)` the bindings immediately afterwards.
pub fn allowlist_recursively(mut self, doit: bool) -> Self {
self.options.allowlist_recursively = doit;
self
}
},
as_args: |value, args| (!value).as_args(args, "--no-recursive-allowlist"),
},
/// Whether to emit `#[macro_use] extern crate objc;` instead of `use objc;` in the prologue of
/// the files generated from objective-c files.
objc_extern_crate: bool {
methods: {
/// Emit `#[macro_use] extern crate objc;` instead of `use objc;` in the prologue of
/// the files generated from objective-c files.
///
/// `use objc;` is emitted by default.
pub fn objc_extern_crate(mut self, doit: bool) -> Self {
self.options.objc_extern_crate = doit;
self
}
},
as_args: "--objc-extern-crate",
},
/// Whether to generate proper block signatures instead of `void` pointers.
generate_block: bool {
methods: {
/// Generate proper block signatures instead of `void` pointers.
///
/// `void` pointers are used by default.
pub fn generate_block(mut self, doit: bool) -> Self {
self.options.generate_block = doit;
self
}
},
as_args: "--generate-block",
},
/// Whether to generate strings as `CStr`.
generate_cstr: bool {
methods: {
/// Set whether string constants should be generated as `&CStr` instead of `&[u8]`.
///
/// A minimum Rust target of 1.59 is required for this to have any effect as support
/// for `CStr::from_bytes_with_nul_unchecked` in `const` contexts is needed.
///
/// This option is disabled by default but will become enabled by default in a future
/// release, so enabling this is recommended.
pub fn generate_cstr(mut self, doit: bool) -> Self {
self.options.generate_cstr = doit;
self
}
},
as_args: "--generate-cstr",
},
/// Whether to emit `#[macro_use] extern crate block;` instead of `use block;` in the prologue
/// of the files generated from apple block files.
block_extern_crate: bool {
methods: {
/// Emit `#[macro_use] extern crate block;` instead of `use block;` in the prologue of
/// the files generated from apple block files.
///
/// `use block;` is emitted by default.
pub fn block_extern_crate(mut self, doit: bool) -> Self {
self.options.block_extern_crate = doit;
self
}
},
as_args: "--block-extern-crate",
},
/// Whether to use the clang-provided name mangling.
enable_mangling: bool {
default: true,
methods: {
/// Set whether to use the clang-provided name mangling. This is probably needed for
/// C++ features.
///
/// The mangling provided by clang is used by default.
///
/// We allow disabling this option because some old `libclang` versions seem to return
/// incorrect results in some cases for non-mangled functions, check [#528] for more
/// information.
///
/// [#528]: https://github.com/rust-lang/rust-bindgen/issues/528
pub fn trust_clang_mangling(mut self, doit: bool) -> Self {
self.options.enable_mangling = doit;
self
}
},
as_args: |value, args| (!value).as_args(args, "--distrust-clang-mangling"),
},
/// Whether to detect include paths using `clang_sys`.
detect_include_paths: bool {
default: true,
methods: {
/// Set whether to detect include paths using `clang_sys`.
///
/// `clang_sys` is used to detect include paths by default.
pub fn detect_include_paths(mut self, doit: bool) -> Self {
self.options.detect_include_paths = doit;
self
}
},
as_args: |value, args| (!value).as_args(args, "--no-include-path-detection"),
},
/// Whether we should try to fit macro constants into types smaller than `u32` and `i32`.
fit_macro_constants: bool {
methods: {
/// Set whether `bindgen` should try to fit macro constants into types smaller than `u32`
/// and `i32`.
///
/// This option is disabled by default.
pub fn fit_macro_constants(mut self, doit: bool) -> Self {
self.options.fit_macro_constants = doit;
self
}
},
as_args: "--fit-macro-constant-types",
},
/// Whether to prepend the `enum` name to constant or newtype variants.
prepend_enum_name: bool {
default: true,
methods: {
/// Set whether to prepend the `enum` name to constant or newtype variants.
///
/// The `enum` name is prepended by default.
pub fn prepend_enum_name(mut self, doit: bool) -> Self {
self.options.prepend_enum_name = doit;
self
}
},
as_args: |value, args| (!value).as_args(args, "--no-prepend-enum-name"),
},
/// Version of the Rust compiler to target.
rust_target: RustTarget {
methods: {
/// Specify the Rust target version.
///
/// The default target is the latest stable Rust version.
pub fn rust_target(mut self, rust_target: RustTarget) -> Self {
self.options.set_rust_target(rust_target);
self
}
},
as_args: |rust_target, args| {
args.push("--rust-target".to_owned());
args.push(rust_target.to_string());
},
},
/// Features to be enabled. They are derived from `rust_target`.
rust_features: RustFeatures {
default: RustTarget::default().into(),
methods: {},
// This field cannot be set from the CLI,
as_args: ignore,
},
/// Enable support for native Rust unions if they are supported.
untagged_union: bool {
default: true,
methods: {
/// Disable support for native Rust unions, if supported.
///
/// The default value of this option is set based on the value passed to
/// [`Builder::rust_target`].
pub fn disable_untagged_union(mut self) -> Self {
self.options.untagged_union = false;
self
}
}
as_args: |value, args| (!value).as_args(args, "--disable-untagged-union"),
},
/// Whether we should record which items in the regex sets did match any C items.
record_matches: bool {
default: true,
methods: {
/// Set whether we should record which items in our regex sets did match any C items.
///
/// Matches are recorded by default.
pub fn record_matches(mut self, doit: bool) -> Self {
self.options.record_matches = doit;
self
}
},
as_args: |value, args| (!value).as_args(args, "--no-record-matches"),
},
/// Whether `size_t` should be translated to `usize` automatically.
size_t_is_usize: bool {
default: true,
methods: {
/// Set whether `size_t` should be translated to `usize`.
///
/// If `size_t` is translated to `usize`, type definitions for `size_t` will not be
/// emitted.
///
/// `size_t` is translated to `usize` by default.
pub fn size_t_is_usize(mut self, is: bool) -> Self {
self.options.size_t_is_usize = is;
self
}
},
as_args: |value, args| (!value).as_args(args, "--no-size_t-is-usize"),
},
/// The tool that should be used to format the generated bindings.
formatter: Formatter {
methods: {
/// Set whether `rustfmt` should be used to format the generated bindings.
///
/// `rustfmt` is used by default.
///
/// This method overlaps in functionality with the more general [`Builder::formatter`].
/// Thus, the latter should be preferred.
#[deprecated]
pub fn rustfmt_bindings(mut self, doit: bool) -> Self {
self.options.formatter = if doit {
Formatter::Rustfmt
} else {
Formatter::None
};
self
}
/// Set which tool should be used to format the generated bindings.
///
/// The default formatter is [`Formatter::Rustfmt`].
///
/// To be able to use `prettyplease` as a formatter, the `"prettyplease"` feature for
/// `bindgen` must be enabled in the Cargo manifest.
pub fn formatter(mut self, formatter: Formatter) -> Self {
self.options.formatter = formatter;
self
}
},
as_args: |formatter, args| {
if *formatter != Default::default() {
args.push("--formatter".to_owned());
args.push(formatter.to_string());
}
},
},
/// The absolute path to the `rustfmt` configuration file.
rustfmt_configuration_file: Option<PathBuf> {
methods: {
/// Set the absolute path to the `rustfmt` configuration file.
///
/// The default `rustfmt` options are used if `None` is passed to this method or if
/// this method is not called at all.
///
/// Calling this method will set the [`Builder::rustfmt_bindings`] option to `true`
/// and the [`Builder::formatter`] option to [`Formatter::Rustfmt`].
pub fn rustfmt_configuration_file(mut self, path: Option<PathBuf>) -> Self {
self = self.formatter(Formatter::Rustfmt);
self.options.rustfmt_configuration_file = path;
self
}
},
as_args: "--rustfmt-configuration-file",
},
/// Types that should not derive `PartialEq`.
no_partialeq_types: RegexSet {
methods: {
regex_option! {
/// Do not derive `PartialEq` for a given type.
pub fn no_partialeq<T: Into<String>>(mut self, arg: T) -> Builder {
self.options.no_partialeq_types.insert(arg.into());
self
}
}
},
as_args: "--no-partialeq",
},
/// Types that should not derive `Copy`.
no_copy_types: RegexSet {
methods: {
regex_option! {
/// Do not derive `Copy` and `Clone` for a given type.
pub fn no_copy<T: Into<String>>(mut self, arg: T) -> Self {
self.options.no_copy_types.insert(arg.into());
self
}
}
},
as_args: "--no-copy",
},
/// Types that should not derive `Debug`.
no_debug_types: RegexSet {
methods: {
regex_option! {
/// Do not derive `Debug` for a given type.
pub fn no_debug<T: Into<String>>(mut self, arg: T) -> Self {
self.options.no_debug_types.insert(arg.into());
self
}
}
},
as_args: "--no-debug",
},
/// Types that should not derive or implement `Default`.
no_default_types: RegexSet {
methods: {
regex_option! {
/// Do not derive or implement `Default` for a given type.
pub fn no_default<T: Into<String>>(mut self, arg: T) -> Self {
self.options.no_default_types.insert(arg.into());
self
}
}
},
as_args: "--no-default",
},
/// Types that should not derive `Hash`.
no_hash_types: RegexSet {
methods: {
regex_option! {
/// Do not derive `Hash` for a given type.
pub fn no_hash<T: Into<String>>(mut self, arg: T) -> Builder {
self.options.no_hash_types.insert(arg.into());
self
}
}
},
as_args: "--no-hash",
},
/// Types that should be annotated with `#[must_use]`.
must_use_types: RegexSet {
methods: {
regex_option! {
/// Annotate the given type with the `#[must_use]` attribute.
pub fn must_use_type<T: Into<String>>(mut self, arg: T) -> Builder {
self.options.must_use_types.insert(arg.into());
self
}
}
},
as_args: "--must-use-type",
},
/// Whether C arrays should be regular pointers in rust or array pointers
array_pointers_in_arguments: bool {
methods: {
/// Translate arrays `T arr[size]` into array pointers `*mut [T; size]` instead of
/// translating them as `*mut T` which is the default.
///
/// The same is done for `*const` pointers.
pub fn array_pointers_in_arguments(mut self, doit: bool) -> Self {
self.options.array_pointers_in_arguments = doit;
self
}
},
as_args: "--use-array-pointers-in-arguments",
},
/// The name of the `wasm_import_module`.
wasm_import_module_name: Option<String> {
methods: {
/// Adds the `#[link(wasm_import_module = import_name)]` attribute to all the `extern`
/// blocks generated by `bindgen`.
///
/// This attribute is not added by default.
pub fn wasm_import_module_name<T: Into<String>>(
mut self,
import_name: T,
) -> Self {
self.options.wasm_import_module_name = Some(import_name.into());
self
}
},
as_args: "--wasm-import-module-name",
},
/// The name of the dynamic library (if we are generating bindings for a shared library).
dynamic_library_name: Option<String> {
methods: {
/// Generate bindings for a shared library with the given name.
///
/// This option is disabled by default.
pub fn dynamic_library_name<T: Into<String>>(
mut self,
dynamic_library_name: T,
) -> Self {
self.options.dynamic_library_name = Some(dynamic_library_name.into());
self
}
},
as_args: "--dynamic-loading",
},
/// Whether to equire successful linkage for all routines in a shared library.
dynamic_link_require_all: bool {
methods: {
/// Set whether to require successful linkage for all routines in a shared library.
/// This allows us to optimize function calls by being able to safely assume function
/// pointers are valid.
///
/// This option only comes into effect if the [`Builder::dynamic_library_name`] option
/// is set.
///
/// This option is disabled by default.
pub fn dynamic_link_require_all(mut self, req: bool) -> Self {
self.options.dynamic_link_require_all = req;
self
}
},
as_args: "--dynamic-link-require-all",
},
/// Whether to only make generated bindings `pub` if the items would be publicly accessible by
/// C++.
respect_cxx_access_specs: bool {
methods: {
/// Set whether to respect the C++ access specifications.
///
/// Passing `true` to this method will set the visibility of the generated Rust items
/// as `pub` only if the corresponding C++ items are publicly accessible instead of
/// marking all the items as public, which is the default.
pub fn respect_cxx_access_specs(mut self, doit: bool) -> Self {
self.options.respect_cxx_access_specs = doit;
self
}
},
as_args: "--respect-cxx-access-specs",
},
/// Whether to translate `enum` integer types to native Rust integer types.
translate_enum_integer_types: bool {
methods: {
/// Set whether to always translate `enum` integer types to native Rust integer types.
///
/// Passing `true` to this method will result in `enum`s having types such as `u32` and
/// `i16` instead of `c_uint` and `c_short` which is the default. The `#[repr]` types
/// of Rust `enum`s are always translated to Rust integer types.
pub fn translate_enum_integer_types(mut self, doit: bool) -> Self {
self.options.translate_enum_integer_types = doit;
self
}
},
as_args: "--translate-enum-integer-types",
},
/// Whether to generate types with C style naming.
c_naming: bool {
methods: {
/// Set whether to generate types with C style naming.
///
/// Passing `true` to this method will add prefixes to the generated type names. For
/// example, instead of a `struct` with name `A` we will generate a `struct` with
/// `struct_A`. Currently applies to `struct`s, `union`s, and `enum`s.
pub fn c_naming(mut self, doit: bool) -> Self {
self.options.c_naming = doit;
self
}
},
as_args: "--c-naming",
},
/// Wether to always emit explicit padding fields.
force_explicit_padding: bool {
methods: {
/// Set whether to always emit explicit padding fields.
///
/// This option should be enabled if a `struct` needs to be serialized in its native
/// format (padding bytes and all). This could be required if such `struct` will be
/// written to a file or sent over the network, as anything reading the padding bytes
/// of a struct may cause undefined behavior.
///
/// Padding fields are not emitted by default.
pub fn explicit_padding(mut self, doit: bool) -> Self {
self.options.force_explicit_padding = doit;
self
}
},
as_args: "--explicit-padding",
},
/// Whether to emit vtable functions.
vtable_generation: bool {
methods: {
/// Set whether to enable experimental support to generate virtual table functions.
///
/// This option should mostly work, though some edge cases are likely to be broken.
///
/// Virtual table generation is disabled by default.
pub fn vtable_generation(mut self, doit: bool) -> Self {
self.options.vtable_generation = doit;
self
}
},
as_args: "--vtable-generation",
},
/// Whether to sort the generated Rust items.
sort_semantically: bool {
methods: {
/// Set whether to sort the generated Rust items in a predefined manner.
///
/// Items are not ordered by default.
pub fn sort_semantically(mut self, doit: bool) -> Self {
self.options.sort_semantically = doit;
self
}
},
as_args: "--sort-semantically",
},
/// Whether to deduplicate `extern` blocks.
merge_extern_blocks: bool {
methods: {
/// Merge all extern blocks under the same module into a single one.
///
/// Extern blocks are not merged by default.
pub fn merge_extern_blocks(mut self, doit: bool) -> Self {
self.options.merge_extern_blocks = doit;
self
}
},
as_args: "--merge-extern-blocks",
},
/// Whether to wrap unsafe operations in unsafe blocks.
wrap_unsafe_ops: bool {
methods: {
/// Wrap all unsafe operations in unsafe blocks.
///
/// Unsafe operations are not wrapped by default.
pub fn wrap_unsafe_ops(mut self, doit: bool) -> Self {
self.options.wrap_unsafe_ops = doit;
self
}
},
as_args: "--wrap-unsafe-ops",
},
/// Patterns for functions whose ABI should be overriden.
abi_overrides: HashMap<Abi, RegexSet> {
methods: {
regex_option! {
/// Override the ABI of a given function.
pub fn override_abi<T: Into<String>>(mut self, abi: Abi, arg: T) -> Self {
self.options
.abi_overrides
.entry(abi)
.or_default()
.insert(arg.into());
self
}
}
},
as_args: |overrides, args| {
for (abi, set) in overrides {
for item in set.get_items() {
args.push("--override-abi".to_owned());
args.push(format!("{}={}", item, abi));
}
}
},
},
/// Whether to generate wrappers for `static` functions.
wrap_static_fns: bool {
methods: {
#[cfg(feature = "experimental")]
/// Set whether to generate wrappers for `static`` functions.
///
/// Passing `true` to this method will generate a C source file with non-`static`
/// functions that call the `static` functions found in the input headers and can be
/// called from Rust once the source file is compiled.
///
/// The path of this source file can be set using the [`Builder::wrap_static_fns_path`]
/// method.
pub fn wrap_static_fns(mut self, doit: bool) -> Self {
self.options.wrap_static_fns = doit;
self
}
},
as_args: "--wrap-static-fns",
},
/// The suffix to be added to the function wrappers for `static` functions.
wrap_static_fns_suffix: Option<String> {
methods: {
#[cfg(feature = "experimental")]
/// Set the suffix added to the wrappers for `static` functions.
///
/// This option only comes into effect if `true` is passed to the
/// [`Builder::wrap_static_fns`] method.
///
/// The default suffix is `__extern`.
pub fn wrap_static_fns_suffix<T: AsRef<str>>(mut self, suffix: T) -> Self {
self.options.wrap_static_fns_suffix = Some(suffix.as_ref().to_owned());
self
}
},
as_args: "--wrap-static-fns-suffix",
},
/// The path of the file where the wrappers for `static` functions will be emitted.
wrap_static_fns_path: Option<PathBuf> {
methods: {
#[cfg(feature = "experimental")]
/// Set the path for the source code file that would be created if any wrapper
/// functions must be generated due to the presence of `static` functions.
///
/// `bindgen` will automatically add the right extension to the header and source code
/// files.
///
/// This option only comes into effect if `true` is passed to the
/// [`Builder::wrap_static_fns`] method.
///
/// The default path is `temp_dir/bindgen/extern`, where `temp_dir` is the path
/// returned by [`std::env::temp_dir`] .
pub fn wrap_static_fns_path<T: AsRef<Path>>(mut self, path: T) -> Self {
self.options.wrap_static_fns_path = Some(path.as_ref().to_owned());
self
}
},
as_args: "--wrap-static-fns-path",
},
/// Default visibility of fields.
default_visibility: FieldVisibilityKind {
methods: {
/// Set the default visibility of fields, including bitfields and accessor methods for
/// bitfields.
///
/// This option only comes into effect if the [`Builder::respect_cxx_access_specs`]
/// option is disabled.
pub fn default_visibility(
mut self,
visibility: FieldVisibilityKind,
) -> Self {
self.options.default_visibility = visibility;
self
}
},
as_args: |visibility, args| {
if *visibility != Default::default() {
args.push("--default-visibility".to_owned());
args.push(visibility.to_string());
}
},
},
/// Whether to emit diagnostics or not.
emit_diagnostics: bool {
methods: {
#[cfg(feature = "experimental")]
/// Emit diagnostics.
///
/// These diagnostics are emitted to `stderr` if you are using `bindgen-cli` or printed
/// using `cargo:warning=` if you are using `bindgen` as a `build-dependency`.
///
/// Diagnostics are not emitted by default.
///
/// The layout and contents of these diagnostic messages are not covered by versioning
/// and can change without notice.
pub fn emit_diagnostics(mut self) -> Self {
self.options.emit_diagnostics = true;
self
}
},
as_args: "--emit-diagnostics",
}
}
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