080d5452e1
Implement sym operands for global_asm! Tracking issue: #93333 This PR is pretty much a complete rewrite of `sym` operand support for inline assembly so that the same implementation can be shared by `asm!` and `global_asm!`. The main changes are: - At the AST level, `sym` is represented as a special `InlineAsmSym` AST node containing a path instead of an `Expr`. - At the HIR level, `sym` is split into `SymStatic` and `SymFn` depending on whether the path resolves to a static during AST lowering (defaults to `SynFn` if `get_early_res` fails). - `SymFn` is just an `AnonConst`. It runs through typeck and we just collect the resulting type at the end. An error is emitted if the type is not a `FnDef`. - `SymStatic` directly holds a path and the `DefId` of the `static` that it is pointing to. - The representation at the MIR level is mostly unchanged. There is a minor change to THIR where `SymFn` is a constant instead of an expression. - At the codegen level we need to apply the target's symbol mangling to the result of `tcx.symbol_name()` depending on the target. This is done by calling the LLVM name mangler, which handles all of the details. - On Mach-O, all symbols have a leading underscore. - On x86 Windows, different mangling is used for cdecl, stdcall, fastcall and vectorcall. - No mangling is needed on other platforms. r? `@nagisa` cc `@eddyb` |
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Cargo.toml | ||
README.md |
The rustc_ast
crate contains those things concerned purely with syntax
– that is, the AST ("abstract syntax tree"), along with some definitions for tokens and token streams, data structures/traits for mutating ASTs, and shared definitions for other AST-related parts of the compiler (like the lexer and macro-expansion).
For more information about how these things work in rustc, see the rustc dev guide: