Google Git
Sign in
fuchsia / third_party / rust / 9d09331e00b02f81c714b0c41ce3a38380dd36a2 / . / src / librustc_codegen_llvm / type_.rs
blob: 854eff31733805e349062e7876efd4889b756cc9 [file] [log] [blame]
pub use crate::llvm::Type;
use crate::abi::{FnAbiLlvmExt, LlvmType};
use crate::common;
use crate::context::CodegenCx;
use crate::llvm;
use crate::llvm::{Bool, False, True};
use crate::type_of::LayoutLlvmExt;
use crate::value::Value;
use rustc_ast::ast;
use rustc_codegen_ssa::common::TypeKind;
use rustc_codegen_ssa::traits::*;
use rustc_data_structures::small_c_str::SmallCStr;
use rustc_middle::bug;
use rustc_middle::ty::layout::TyAndLayout;
use rustc_middle::ty::Ty;
use rustc_target::abi::call::{CastTarget, FnAbi, Reg};
use rustc_target::abi::{Align, Integer, Size};
use std::fmt;
use std::ptr;
use libc::c_uint;
impl PartialEq for Type {
fn eq(&self, other: &Self) -> bool {
ptr::eq(self, other)
}
}
impl fmt::Debug for Type {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.write_str(
&llvm::build_string(|s| unsafe {
llvm::LLVMRustWriteTypeToString(self, s);
})
.expect("non-UTF8 type description from LLVM"),
)
}
}
impl CodegenCx<'ll, 'tcx> {
crate fn type_named_struct(&self, name: &str) -> &'ll Type {
let name = SmallCStr::new(name);
unsafe { llvm::LLVMStructCreateNamed(self.llcx, name.as_ptr()) }
}
crate fn set_struct_body(&self, ty: &'ll Type, els: &[&'ll Type], packed: bool) {
unsafe { llvm::LLVMStructSetBody(ty, els.as_ptr(), els.len() as c_uint, packed as Bool) }
}
crate fn type_void(&self) -> &'ll Type {
unsafe { llvm::LLVMVoidTypeInContext(self.llcx) }
}
crate fn type_metadata(&self) -> &'ll Type {
unsafe { llvm::LLVMRustMetadataTypeInContext(self.llcx) }
}
///x Creates an integer type with the given number of bits, e.g., i24
crate fn type_ix(&self, num_bits: u64) -> &'ll Type {
unsafe { llvm::LLVMIntTypeInContext(self.llcx, num_bits as c_uint) }
}
crate fn type_x86_mmx(&self) -> &'ll Type {
unsafe { llvm::LLVMX86MMXTypeInContext(self.llcx) }
}
crate fn type_vector(&self, ty: &'ll Type, len: u64) -> &'ll Type {
unsafe { llvm::LLVMVectorType(ty, len as c_uint) }
}
crate fn func_params_types(&self, ty: &'ll Type) -> Vec<&'ll Type> {
unsafe {
let n_args = llvm::LLVMCountParamTypes(ty) as usize;
let mut args = Vec::with_capacity(n_args);
llvm::LLVMGetParamTypes(ty, args.as_mut_ptr());
args.set_len(n_args);
args
}
}
crate fn type_bool(&self) -> &'ll Type {
self.type_i8()
}
crate fn type_int_from_ty(&self, t: ast::IntTy) -> &'ll Type {
match t {
ast::IntTy::Isize => self.type_isize(),
ast::IntTy::I8 => self.type_i8(),
ast::IntTy::I16 => self.type_i16(),
ast::IntTy::I32 => self.type_i32(),
ast::IntTy::I64 => self.type_i64(),
ast::IntTy::I128 => self.type_i128(),
}
}
crate fn type_uint_from_ty(&self, t: ast::UintTy) -> &'ll Type {
match t {
ast::UintTy::Usize => self.type_isize(),
ast::UintTy::U8 => self.type_i8(),
ast::UintTy::U16 => self.type_i16(),
ast::UintTy::U32 => self.type_i32(),
ast::UintTy::U64 => self.type_i64(),
ast::UintTy::U128 => self.type_i128(),
}
}
crate fn type_float_from_ty(&self, t: ast::FloatTy) -> &'ll Type {
match t {
ast::FloatTy::F32 => self.type_f32(),
ast::FloatTy::F64 => self.type_f64(),
}
}
crate fn type_pointee_for_align(&self, align: Align) -> &'ll Type {
// FIXME(eddyb) We could find a better approximation if ity.align < align.
let ity = Integer::approximate_align(self, align);
self.type_from_integer(ity)
}
/// Return a LLVM type that has at most the required alignment,
/// and exactly the required size, as a best-effort padding array.
crate fn type_padding_filler(&self, size: Size, align: Align) -> &'ll Type {
let unit = Integer::approximate_align(self, align);
let size = size.bytes();
let unit_size = unit.size().bytes();
assert_eq!(size % unit_size, 0);
self.type_array(self.type_from_integer(unit), size / unit_size)
}
crate fn type_variadic_func(&self, args: &[&'ll Type], ret: &'ll Type) -> &'ll Type {
unsafe { llvm::LLVMFunctionType(ret, args.as_ptr(), args.len() as c_uint, True) }
}
crate fn type_array(&self, ty: &'ll Type, len: u64) -> &'ll Type {
unsafe { llvm::LLVMRustArrayType(ty, len) }
}
}
impl BaseTypeMethods<'tcx> for CodegenCx<'ll, 'tcx> {
fn type_i1(&self) -> &'ll Type {
unsafe { llvm::LLVMInt1TypeInContext(self.llcx) }
}
fn type_i8(&self) -> &'ll Type {
unsafe { llvm::LLVMInt8TypeInContext(self.llcx) }
}
fn type_i16(&self) -> &'ll Type {
unsafe { llvm::LLVMInt16TypeInContext(self.llcx) }
}
fn type_i32(&self) -> &'ll Type {
unsafe { llvm::LLVMInt32TypeInContext(self.llcx) }
}
fn type_i64(&self) -> &'ll Type {
unsafe { llvm::LLVMInt64TypeInContext(self.llcx) }
}
fn type_i128(&self) -> &'ll Type {
unsafe { llvm::LLVMIntTypeInContext(self.llcx, 128) }
}
fn type_isize(&self) -> &'ll Type {
self.isize_ty
}
fn type_f32(&self) -> &'ll Type {
unsafe { llvm::LLVMFloatTypeInContext(self.llcx) }
}
fn type_f64(&self) -> &'ll Type {
unsafe { llvm::LLVMDoubleTypeInContext(self.llcx) }
}
fn type_func(&self, args: &[&'ll Type], ret: &'ll Type) -> &'ll Type {
unsafe { llvm::LLVMFunctionType(ret, args.as_ptr(), args.len() as c_uint, False) }
}
fn type_struct(&self, els: &[&'ll Type], packed: bool) -> &'ll Type {
unsafe {
llvm::LLVMStructTypeInContext(
self.llcx,
els.as_ptr(),
els.len() as c_uint,
packed as Bool,
)
}
}
fn type_kind(&self, ty: &'ll Type) -> TypeKind {
unsafe { llvm::LLVMRustGetTypeKind(ty).to_generic() }
}
fn type_ptr_to(&self, ty: &'ll Type) -> &'ll Type {
assert_ne!(
self.type_kind(ty),
TypeKind::Function,
"don't call ptr_to on function types, use ptr_to_llvm_type on FnAbi instead"
);
ty.ptr_to()
}
fn element_type(&self, ty: &'ll Type) -> &'ll Type {
unsafe { llvm::LLVMGetElementType(ty) }
}
fn vector_length(&self, ty: &'ll Type) -> usize {
unsafe { llvm::LLVMGetVectorSize(ty) as usize }
}
fn float_width(&self, ty: &'ll Type) -> usize {
match self.type_kind(ty) {
TypeKind::Float => 32,
TypeKind::Double => 64,
TypeKind::X86_FP80 => 80,
TypeKind::FP128 | TypeKind::PPC_FP128 => 128,
_ => bug!("llvm_float_width called on a non-float type"),
}
}
fn int_width(&self, ty: &'ll Type) -> u64 {
unsafe { llvm::LLVMGetIntTypeWidth(ty) as u64 }
}
fn val_ty(&self, v: &'ll Value) -> &'ll Type {
common::val_ty(v)
}
}
impl Type {
pub fn i8_llcx(llcx: &llvm::Context) -> &Type {
unsafe { llvm::LLVMInt8TypeInContext(llcx) }
}
// Creates an integer type with the given number of bits, e.g., i24
pub fn ix_llcx(llcx: &llvm::Context, num_bits: u64) -> &Type {
unsafe { llvm::LLVMIntTypeInContext(llcx, num_bits as c_uint) }
}
pub fn i8p_llcx(llcx: &llvm::Context) -> &Type {
Type::i8_llcx(llcx).ptr_to()
}
fn ptr_to(&self) -> &Type {
unsafe { llvm::LLVMPointerType(&self, 0) }
}
}
impl LayoutTypeMethods<'tcx> for CodegenCx<'ll, 'tcx> {
fn backend_type(&self, layout: TyAndLayout<'tcx>) -> &'ll Type {
layout.llvm_type(self)
}
fn immediate_backend_type(&self, layout: TyAndLayout<'tcx>) -> &'ll Type {
layout.immediate_llvm_type(self)
}
fn is_backend_immediate(&self, layout: TyAndLayout<'tcx>) -> bool {
layout.is_llvm_immediate()
}
fn is_backend_scalar_pair(&self, layout: TyAndLayout<'tcx>) -> bool {
layout.is_llvm_scalar_pair()
}
fn backend_field_index(&self, layout: TyAndLayout<'tcx>, index: usize) -> u64 {
layout.llvm_field_index(index)
}
fn scalar_pair_element_backend_type(
&self,
layout: TyAndLayout<'tcx>,
index: usize,
immediate: bool,
) -> &'ll Type {
layout.scalar_pair_element_llvm_type(self, index, immediate)
}
fn cast_backend_type(&self, ty: &CastTarget) -> &'ll Type {
ty.llvm_type(self)
}
fn fn_ptr_backend_type(&self, fn_abi: &FnAbi<'tcx, Ty<'tcx>>) -> &'ll Type {
fn_abi.ptr_to_llvm_type(self)
}
fn reg_backend_type(&self, ty: &Reg) -> &'ll Type {
ty.llvm_type(self)
}
}