vendor/openssl-sys-0.9.72/src/macros.rs - toolchain/rustc - Git at Google

 // vendored from the cfg-if crate to avoid breaking ctest
 macro_rules! cfg_if {
     // match if/else chains with a final `else`
     ($(
         if #[cfg($($meta:meta),*)] { $($it:item)* }
     ) else * else {
         $($it2:item)*
     }) => {
         cfg_if! {
             @__items
             () ;
             $( ( ($($meta),*) ($($it)*) ), )*
             ( () ($($it2)*) ),
         }
     };

     // match if/else chains lacking a final `else`
     (
         if #[cfg($($i_met:meta),*)] { $($i_it:item)* }
         $(
             else if #[cfg($($e_met:meta),*)] { $($e_it:item)* }
         )*
     ) => {
         cfg_if! {
             @__items
             () ;
             ( ($($i_met),*) ($($i_it)*) ),
             $( ( ($($e_met),*) ($($e_it)*) ), )*
             ( () () ),
         }
     };

     // Internal and recursive macro to emit all the items
     //
     // Collects all the negated cfgs in a list at the beginning and after the
     // semicolon is all the remaining items
     (@__items ($($not:meta,)*) ; ) => {};
     (@__items ($($not:meta,)*) ; ( ($($m:meta),*) ($($it:item)*) ), $($rest:tt)*) => {
         // Emit all items within one block, applying an approprate #[cfg]. The
         // #[cfg] will require all `$m` matchers specified and must also negate
         // all previous matchers.
         cfg_if! { @__apply cfg(all($($m,)* not(any($($not),*)))), $($it)* }

         // Recurse to emit all other items in `$rest`, and when we do so add all
         // our `$m` matchers to the list of `$not` matchers as future emissions
         // will have to negate everything we just matched as well.
         cfg_if! { @__items ($($not,)* $($m,)*) ; $($rest)* }
     };

     // Internal macro to Apply a cfg attribute to a list of items
     (@__apply $m:meta, $($it:item)*) => {
         $(#[$m] $it)*
     };
 }

 macro_rules! stack {
     ($t:ident) => {
         cfg_if! {
             if #[cfg(ossl110)] {
                 pub enum $t {}
             } else {
                 #[repr(C)]
                 pub struct $t {
                     pub stack: ::_STACK,
                 }
             }
         }
     };
 }

 #[cfg(const_fn)]
 macro_rules! const_fn {
     ($(pub const fn $name:ident($($arg:ident: $t:ty),*) -> $ret:ty $b:block)*) => {
         $(
             pub const fn $name($($arg: $t),*) -> $ret $b
         )*
     }
 }

 #[cfg(not(const_fn))]
 macro_rules! const_fn {
     ($(pub const fn $name:ident($($arg:ident: $t:ty),*) -> $ret:ty $b:block)*) => {
         $(
             pub fn $name($($arg: $t),*) -> $ret $b
         )*
     }
 }

 // openssl changes `*mut` to `*const` in certain parameters in certain versions;
 // in C this is ABI and (mostly) API compatible.
 //
 // We need to handle this explicitly, and this macro helps annotate which
 // parameter got converted in which version.
 //
 // Input is:
 //    extern "C" {
 //        #[attributes...]
 //        pub fn name(args) -> rettype; // `-> rettype` optional
 //        // more functions...
 //    }
 //
 // This macro replaces `#[const_ptr_if(...)]` in types with `*const` or `*mut`
 // (depending on the inner cfg flags)
 //
 // Walks through all argument and return types, but only finds inner types of
 // `*const` and `*mut`; doesn't walk arrays or generics.
 //
 // NOTE: can't abstract `pub` as `$fn_vis:vis`, as ctest macro handling doesn't
 // support it (old syntax crate). But we really only need `pub` anyway.
 //
 // NOTE: ctest seams to simply ignore macros it can't expand (whatever the
 // reason)
 macro_rules! const_ptr_api {
     // ----------------------------------------------------------------
     // (partialarg): partial argument, waiting for "final" argument type
     // MAGIC PART 1: hande conditional const ptr in argument type
     ( (partialarg)
         { $(#[$fn_attr:meta])* pub fn $fn_name:ident }
         $args_packed:tt
         [ $($part_arg:tt)* ]
         [ #[const_ptr_if( $($cfg:tt)* )] $($arg_rem:tt)* ]
         $ret_packed:tt
     ) => {
         const_ptr_api!( (partialarg) { #[cfg($($cfg)*)]      $(#[$fn_attr])* pub fn $fn_name } $args_packed [ $($part_arg)* *const ] [ $($arg_rem)* ] $ret_packed );
         const_ptr_api!( (partialarg) { #[cfg(not($($cfg)*))] $(#[$fn_attr])* pub fn $fn_name } $args_packed [ $($part_arg)* *mut   ] [ $($arg_rem)* ] $ret_packed );
     };
     // continue partial argument with `*mut` pointer (might need special const handling in inner type)
     ( (partialarg)
         $def_packed:tt
         $args_packed:tt
         [ $($part_arg:tt)* ]
         [ *mut $($arg_rem:tt)* ]
         $ret_packed:tt
     ) => {
         const_ptr_api!( (partialarg) $def_packed $args_packed [ $($part_arg)* *mut ] [ $($arg_rem)* ] $ret_packed );
     };
     // continue partial argument with `*const` pointer (might need special const handling in inner type)
     ( (partialarg)
         $def_packed:tt
         $args_packed:tt
         [ $($part_arg:tt)* ]
         [ *const $($arg_rem:tt)* ]
         $ret_packed:tt
     ) => {
         const_ptr_api!( (partialarg) $def_packed $args_packed [ $($part_arg)* *const ] [ $($arg_rem)* ] $ret_packed );
     };
     // finish partial argument with trailing comma
     ( (partialarg)
         $def_packed:tt
         { $($args_tt:tt)* }
         [ $($part_arg:tt)* ]
         [ $arg_ty:ty, $($arg_rem:tt)* ]
         $ret_packed:tt
     ) => {
         const_ptr_api!( (parseargs) $def_packed { $($args_tt)* { $($part_arg)* $arg_ty } } [ $($arg_rem)* ] $ret_packed );
     };
     // finish final partial argument (no trailing comma)
     ( (partialarg)
         $def_packed:tt
         { $($args_tt:tt)* }
         [ $($part_arg:tt)* ]
         [ $arg_ty:ty ]
         $ret_packed:tt
     ) => {
         const_ptr_api!( (parseargs) $def_packed { $($args_tt)* { $($part_arg)* $arg_ty } } [ ] $ret_packed );
     };

     // ----------------------------------------------------------------
     // (parseargs): parsing arguments
     // start next argument
     ( (parseargs)
         $def_packed:tt
         $args_packed:tt
         [ $arg_name:ident : $($arg_rem:tt)* ]
         $ret_packed:tt
     ) => {
         const_ptr_api!( (partialarg) $def_packed $args_packed [ $arg_name: ] [ $($arg_rem)* ] $ret_packed );
     };
     // end of arguments, there is a return type; start parsing it
     ( (parseargs)
         $def_packed:tt
         $args_packed:tt
         [ ]
         [ -> $($rem:tt)* ]
     ) => {
         const_ptr_api!( (partialret) $def_packed $args_packed [] [ $($rem)* ] );
     };
     // end of arguments, no return type
     ( (parseargs)
         $def_packed:tt
         $args_packed:tt
         [ ]
         [ ]
     ) => {
         const_ptr_api!( (generate) $def_packed $args_packed { () } );
     };

     // ----------------------------------------------------------------
     // (partialret): have partial return type, waiting for final return type
     // MAGIC PART 2: hande conditional const ptr in return type
     ( (partialret)
         { $(#[$fn_attr:meta])* pub fn $fn_name:ident }
         $args_packed:tt
         [ $($part_ret:tt)* ]
         [ #[const_ptr_if( $($cfg:tt)* )] $($rem:tt)* ]
     ) => {
         const_ptr_api!( (partialret) { #[cfg($($cfg)*)]      $(#[$fn_attr])* pub fn $fn_name } $args_packed [ $($part_ret)* *const ] [ $($rem)* ] );
         const_ptr_api!( (partialret) { #[cfg(not($($cfg)*))] $(#[$fn_attr])* pub fn $fn_name } $args_packed [ $($part_ret)* *mut   ] [ $($rem)* ] );
     };
     // `* mut` part in return type; continue parsing to find inner conditional const ptr
     ( (partialret)
         $def_packed:tt
         $args_packed:tt
         [ $($part_ret:tt)* ]
         [ *mut $($rem:tt)* ]
     ) => {
         const_ptr_api!( (partialret) $def_packed $args_packed [ $($part_ret)* *mut ] [ $($rem)* ] );
     };
     // `* const` part in return type; continue parsing to find inner conditional const ptr
     ( (partialret)
         $def_packed:tt
         $args_packed:tt
         [ $($part_ret:tt)* ]
         [ *const $($rem:tt)* ]
     ) => {
         const_ptr_api!( (partialret) $def_packed $args_packed [ $($part_ret)* *const ] [ $($rem)* ] );
     };
     // final part of return type
     ( (partialret)
         $def_packed:tt
         $args_packed:tt
         [ $($part_ret:tt)* ]
         [ $ret_ty:ty ]
     ) => {
         const_ptr_api!( (generate) $def_packed $args_packed { $($part_ret)* $ret_ty } );
     };

     // ----------------------------------------------------------------
     // generate
     ( (generate)
         { $(#[$fn_attr:meta])* pub fn $fn_name:ident }
         { $({ $arg_name:ident: $($arg_ty:tt)* })* }
         { $ret_ty:ty }
     ) => {
         extern "C" {
             $(#[$fn_attr])*
             pub fn $fn_name( $(
                 $arg_name: $($arg_ty)*
             ),* ) -> $ret_ty;
         }
     };

     // ----------------------------------------------------------------
     // (fn): gather tokens for return type until ";"
     // found end; start parsing current function, and parse remaining functions
     ( (fn)
         $def_packed:tt
         $arg_tts_packed:tt
         $ret_packed:tt
         [ ; $($rem:tt)* ]
     ) => {
         const_ptr_api!( (parseargs) $def_packed {} $arg_tts_packed $ret_packed );
         const_ptr_api!( (extern) [ $($rem)* ] );
     };
     // not ";" - all other tokens are part of the return type.
     // don't expand return type yet; otherwise we'd have to remember in which branch `rem` needs
     // to be used to parse further functions.
     ( (fn)
         $def_packed:tt
         $arg_tts_packed:tt
         [ $($ret_tt:tt)* ]
         [ $tt:tt $($rem:tt)* ]
     ) => {
         const_ptr_api!( (fn) $def_packed $arg_tts_packed [ $($ret_tt)* $tt ] [ $($rem)* ] );
     };

     // ----------------------------------------------------------------
     // (extern): in extern block, find next function
     // try to split into functions as fast as possible to reduce recursion depth
     ( (extern) [
         $(#[$fn_attr:meta])*
         pub fn $fn_name:ident( $($arg_rem:tt)* ) $($rem:tt)*
     ] ) => {
         const_ptr_api!( (fn)
             { $(#[$fn_attr])* pub fn $fn_name } [ $($arg_rem)* ] [] [ $($rem)* ]
         );
     };
     // end of extern block
     ( (extern) [] ) => {};

     // ----------------------------------------------------------------
     // macro start; find extern block
     ( extern "C" { $($rem:tt)* } ) => {
         const_ptr_api!( (extern) [ $($rem)* ] );
     };
 }
	// vendored from the cfg-if crate to avoid breaking ctest
	macro_rules! cfg_if {
	// match if/else chains with a final `else`
	($(
	if #[cfg($($meta:meta),)] { $($it:item) }
	) else * else {
	$($it2:item)*
	}) => {
	cfg_if! {
	@__items
	() ;
	$( ( ($($meta),) ($($it)) ), )*
	( () ($($it2)*) ),
	}
	};

	// match if/else chains lacking a final `else`
	(
	if #[cfg($($i_met:meta),)] { $($i_it:item) }
	$(
	else if #[cfg($($e_met:meta),)] { $($e_it:item) }
	)*
	) => {
	cfg_if! {
	@__items
	() ;
	( ($($i_met),) ($($i_it)) ),
	$( ( ($($e_met),) ($($e_it)) ), )*
	( () () ),
	}
	};

	// Internal and recursive macro to emit all the items
	//
	// Collects all the negated cfgs in a list at the beginning and after the
	// semicolon is all the remaining items
	(@__items ($($not:meta,)*) ; ) => {};
	(@__items ($($not:meta,)) ; ( ($($m:meta),) ($($it:item)) ), $($rest:tt)) => {
	// Emit all items within one block, applying an approprate #[cfg]. The
	// #[cfg] will require all `$m` matchers specified and must also negate
	// all previous matchers.
	cfg_if! { @__apply cfg(all($($m,)* not(any($($not),)))), $($it) }

	// Recurse to emit all other items in `$rest`, and when we do so add all
	// our `$m` matchers to the list of `$not` matchers as future emissions
	// will have to negate everything we just matched as well.
	cfg_if! { @__items ($($not,)* $($m,)) ; $($rest) }
	};

	// Internal macro to Apply a cfg attribute to a list of items
	(@__apply $m:meta, $($it:item)*) => {
	$(#[$m] $it)*
	};
	}

	macro_rules! stack {
	($t:ident) => {
	cfg_if! {
	if #[cfg(ossl110)] {
	pub enum $t {}
	} else {
	#[repr(C)]
	pub struct $t {
	pub stack: ::_STACK,
	}
	}
	}
	};
	}

	#[cfg(const_fn)]
	macro_rules! const_fn {
	($(pub const fn $name:ident($($arg:ident: $t:ty),) -> $ret:ty $b:block)) => {
	$(
	pub const fn $name($($arg: $t),*) -> $ret $b
	)*
	}
	}

	#[cfg(not(const_fn))]
	macro_rules! const_fn {
	($(pub const fn $name:ident($($arg:ident: $t:ty),) -> $ret:ty $b:block)) => {
	$(
	pub fn $name($($arg: $t),*) -> $ret $b
	)*
	}
	}

	// openssl changes `mut` to `const` in certain parameters in certain versions;
	// in C this is ABI and (mostly) API compatible.
	//
	// We need to handle this explicitly, and this macro helps annotate which
	// parameter got converted in which version.
	//
	// Input is:
	// extern "C" {
	// #[attributes...]
	// pub fn name(args) -> rettype; // `-> rettype` optional
	// // more functions...
	// }
	//
	// This macro replaces `#[const_ptr_if(...)]` in types with `const` or `mut`
	// (depending on the inner cfg flags)
	//
	// Walks through all argument and return types, but only finds inner types of
	// `const` and `mut`; doesn't walk arrays or generics.
	//
	// NOTE: can't abstract `pub` as `$fn_vis:vis`, as ctest macro handling doesn't
	// support it (old syntax crate). But we really only need `pub` anyway.
	//
	// NOTE: ctest seams to simply ignore macros it can't expand (whatever the
	// reason)
	macro_rules! const_ptr_api {
	// ----------------------------------------------------------------
	// (partialarg): partial argument, waiting for "final" argument type
	// MAGIC PART 1: hande conditional const ptr in argument type
	( (partialarg)
	{ $(#[$fn_attr:meta])* pub fn $fn_name:ident }
	$args_packed:tt
	[ $($part_arg:tt)* ]
	[ #[const_ptr_if( $($cfg:tt)* )] $($arg_rem:tt)* ]
	$ret_packed:tt
	) => {
	const_ptr_api!( (partialarg) { #[cfg($($cfg))] $(#[$fn_attr]) pub fn $fn_name } $args_packed [ $($part_arg)* const ] [ $($arg_rem) ] $ret_packed );
	const_ptr_api!( (partialarg) { #[cfg(not($($cfg)))] $(#[$fn_attr]) pub fn $fn_name } $args_packed [ $($part_arg)* mut ] [ $($arg_rem) ] $ret_packed );
	};
	// continue partial argument with `*mut` pointer (might need special const handling in inner type)
	( (partialarg)
	$def_packed:tt
	$args_packed:tt
	[ $($part_arg:tt)* ]
	[ mut $($arg_rem:tt) ]
	$ret_packed:tt
	) => {
	const_ptr_api!( (partialarg) $def_packed $args_packed [ $($part_arg)* mut ] [ $($arg_rem) ] $ret_packed );
	};
	// continue partial argument with `*const` pointer (might need special const handling in inner type)
	( (partialarg)
	$def_packed:tt
	$args_packed:tt
	[ $($part_arg:tt)* ]
	[ const $($arg_rem:tt) ]
	$ret_packed:tt
	) => {
	const_ptr_api!( (partialarg) $def_packed $args_packed [ $($part_arg)* const ] [ $($arg_rem) ] $ret_packed );
	};
	// finish partial argument with trailing comma
	( (partialarg)
	$def_packed:tt
	{ $($args_tt:tt)* }
	[ $($part_arg:tt)* ]
	[ $arg_ty:ty, $($arg_rem:tt)* ]
	$ret_packed:tt
	) => {
	const_ptr_api!( (parseargs) $def_packed { $($args_tt)* { $($part_arg)* $arg_ty } } [ $($arg_rem)* ] $ret_packed );
	};
	// finish final partial argument (no trailing comma)
	( (partialarg)
	$def_packed:tt
	{ $($args_tt:tt)* }
	[ $($part_arg:tt)* ]
	[ $arg_ty:ty ]
	$ret_packed:tt
	) => {
	const_ptr_api!( (parseargs) $def_packed { $($args_tt)* { $($part_arg)* $arg_ty } } [ ] $ret_packed );
	};

	// ----------------------------------------------------------------
	// (parseargs): parsing arguments
	// start next argument
	( (parseargs)
	$def_packed:tt
	$args_packed:tt
	[ $arg_name:ident : $($arg_rem:tt)* ]
	$ret_packed:tt
	) => {
	const_ptr_api!( (partialarg) $def_packed $args_packed [ $arg_name: ] [ $($arg_rem)* ] $ret_packed );
	};
	// end of arguments, there is a return type; start parsing it
	( (parseargs)
	$def_packed:tt
	$args_packed:tt
	[ ]
	[ -> $($rem:tt)* ]
	) => {
	const_ptr_api!( (partialret) $def_packed $args_packed [] [ $($rem)* ] );
	};
	// end of arguments, no return type
	( (parseargs)
	$def_packed:tt
	$args_packed:tt
	[ ]
	[ ]
	) => {
	const_ptr_api!( (generate) $def_packed $args_packed { () } );
	};

	// ----------------------------------------------------------------
	// (partialret): have partial return type, waiting for final return type
	// MAGIC PART 2: hande conditional const ptr in return type
	( (partialret)
	{ $(#[$fn_attr:meta])* pub fn $fn_name:ident }
	$args_packed:tt
	[ $($part_ret:tt)* ]
	[ #[const_ptr_if( $($cfg:tt)* )] $($rem:tt)* ]
	) => {
	const_ptr_api!( (partialret) { #[cfg($($cfg))] $(#[$fn_attr]) pub fn $fn_name } $args_packed [ $($part_ret)* const ] [ $($rem) ] );
	const_ptr_api!( (partialret) { #[cfg(not($($cfg)))] $(#[$fn_attr]) pub fn $fn_name } $args_packed [ $($part_ret)* mut ] [ $($rem) ] );
	};
	// `* mut` part in return type; continue parsing to find inner conditional const ptr
	( (partialret)
	$def_packed:tt
	$args_packed:tt
	[ $($part_ret:tt)* ]
	[ mut $($rem:tt) ]
	) => {
	const_ptr_api!( (partialret) $def_packed $args_packed [ $($part_ret)* mut ] [ $($rem) ] );
	};
	// `* const` part in return type; continue parsing to find inner conditional const ptr
	( (partialret)
	$def_packed:tt
	$args_packed:tt
	[ $($part_ret:tt)* ]
	[ const $($rem:tt) ]
	) => {
	const_ptr_api!( (partialret) $def_packed $args_packed [ $($part_ret)* const ] [ $($rem) ] );
	};
	// final part of return type
	( (partialret)
	$def_packed:tt
	$args_packed:tt
	[ $($part_ret:tt)* ]
	[ $ret_ty:ty ]
	) => {
	const_ptr_api!( (generate) $def_packed $args_packed { $($part_ret)* $ret_ty } );
	};

	// ----------------------------------------------------------------
	// generate
	( (generate)
	{ $(#[$fn_attr:meta])* pub fn $fn_name:ident }
	{ $({ $arg_name:ident: $($arg_ty:tt)* })* }
	{ $ret_ty:ty }
	) => {
	extern "C" {
	$(#[$fn_attr])*
	pub fn $fn_name( $(
	$arg_name: $($arg_ty)*
	),* ) -> $ret_ty;
	}
	};

	// ----------------------------------------------------------------
	// (fn): gather tokens for return type until ";"
	// found end; start parsing current function, and parse remaining functions
	( (fn)
	$def_packed:tt
	$arg_tts_packed:tt
	$ret_packed:tt
	[ ; $($rem:tt)* ]
	) => {
	const_ptr_api!( (parseargs) $def_packed {} $arg_tts_packed $ret_packed );
	const_ptr_api!( (extern) [ $($rem)* ] );
	};
	// not ";" - all other tokens are part of the return type.
	// don't expand return type yet; otherwise we'd have to remember in which branch `rem` needs
	// to be used to parse further functions.
	( (fn)
	$def_packed:tt
	$arg_tts_packed:tt
	[ $($ret_tt:tt)* ]
	[ $tt:tt $($rem:tt)* ]
	) => {
	const_ptr_api!( (fn) $def_packed $arg_tts_packed [ $($ret_tt)* $tt ] [ $($rem)* ] );
	};

	// ----------------------------------------------------------------
	// (extern): in extern block, find next function
	// try to split into functions as fast as possible to reduce recursion depth
	( (extern) [
	$(#[$fn_attr:meta])*
	pub fn $fn_name:ident( $($arg_rem:tt)* ) $($rem:tt)*
	] ) => {
	const_ptr_api!( (fn)
	{ $(#[$fn_attr])* pub fn $fn_name } [ $($arg_rem)* ] [] [ $($rem)* ]
	);
	};
	// end of extern block
	( (extern) [] ) => {};

	// ----------------------------------------------------------------
	// macro start; find extern block
	( extern "C" { $($rem:tt)* } ) => {
	const_ptr_api!( (extern) [ $($rem)* ] );
	};
	}