rust/src/librustc_codegen_llvm/va_arg.rs

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use crate::builder::Builder;
use crate::type_::Type;
use crate::type_of::LayoutLlvmExt;
use crate::value::Value;
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use rustc_codegen_ssa::mir::operand::OperandRef;
use rustc_codegen_ssa::traits::{
BaseTypeMethods, BuilderMethods, ConstMethods, DerivedTypeMethods,
};
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use rustc_middle::ty::layout::{Align, HasDataLayout, HasTyCtxt, LayoutOf, Size};
use rustc_middle::ty::Ty;
#[allow(dead_code)]
fn round_pointer_up_to_alignment(
bx: &mut Builder<'a, 'll, 'tcx>,
addr: &'ll Value,
align: Align,
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ptr_ty: &'ll Type,
) -> &'ll Value {
let mut ptr_as_int = bx.ptrtoint(addr, bx.cx().type_isize());
ptr_as_int = bx.add(ptr_as_int, bx.cx().const_i32(align.bytes() as i32 - 1));
ptr_as_int = bx.and(ptr_as_int, bx.cx().const_i32(-(align.bytes() as i32)));
bx.inttoptr(ptr_as_int, ptr_ty)
}
fn emit_direct_ptr_va_arg(
bx: &mut Builder<'a, 'll, 'tcx>,
list: OperandRef<'tcx, &'ll Value>,
llty: &'ll Type,
size: Size,
align: Align,
slot_size: Align,
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allow_higher_align: bool,
) -> (&'ll Value, Align) {
let va_list_ptr_ty = bx.cx().type_ptr_to(bx.cx.type_i8p());
let va_list_addr = if list.layout.llvm_type(bx.cx) != va_list_ptr_ty {
bx.bitcast(list.immediate(), va_list_ptr_ty)
} else {
list.immediate()
};
let ptr = bx.load(va_list_addr, bx.tcx().data_layout.pointer_align.abi);
let (addr, addr_align) = if allow_higher_align && align > slot_size {
(round_pointer_up_to_alignment(bx, ptr, align, bx.cx().type_i8p()), align)
} else {
(ptr, slot_size)
};
let aligned_size = size.align_to(slot_size).bytes() as i32;
let full_direct_size = bx.cx().const_i32(aligned_size);
let next = bx.inbounds_gep(addr, &[full_direct_size]);
bx.store(next, va_list_addr, bx.tcx().data_layout.pointer_align.abi);
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if size.bytes() < slot_size.bytes() && &*bx.tcx().sess.target.target.target_endian == "big" {
let adjusted_size = bx.cx().const_i32((slot_size.bytes() - size.bytes()) as i32);
let adjusted = bx.inbounds_gep(addr, &[adjusted_size]);
(bx.bitcast(adjusted, bx.cx().type_ptr_to(llty)), addr_align)
} else {
(bx.bitcast(addr, bx.cx().type_ptr_to(llty)), addr_align)
}
}
fn emit_ptr_va_arg(
bx: &mut Builder<'a, 'll, 'tcx>,
list: OperandRef<'tcx, &'ll Value>,
target_ty: Ty<'tcx>,
indirect: bool,
slot_size: Align,
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allow_higher_align: bool,
) -> &'ll Value {
let layout = bx.cx.layout_of(target_ty);
let (llty, size, align) = if indirect {
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(
bx.cx.layout_of(bx.cx.tcx.mk_imm_ptr(target_ty)).llvm_type(bx.cx),
bx.cx.data_layout().pointer_size,
bx.cx.data_layout().pointer_align,
)
} else {
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(layout.llvm_type(bx.cx), layout.size, layout.align)
};
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let (addr, addr_align) =
emit_direct_ptr_va_arg(bx, list, llty, size, align.abi, slot_size, allow_higher_align);
if indirect {
let tmp_ret = bx.load(addr, addr_align);
bx.load(tmp_ret, align.abi)
} else {
bx.load(addr, addr_align)
}
}
pub(super) fn emit_va_arg(
bx: &mut Builder<'a, 'll, 'tcx>,
addr: OperandRef<'tcx, &'ll Value>,
target_ty: Ty<'tcx>,
) -> &'ll Value {
// Determine the va_arg implementation to use. The LLVM va_arg instruction
// is lacking in some instances, so we should only use it as a fallback.
let target = &bx.cx.tcx.sess.target.target;
let arch = &bx.cx.tcx.sess.target.target.arch;
match (&**arch, target.options.is_like_windows) {
// Windows x86
("x86", true) => {
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emit_ptr_va_arg(bx, addr, target_ty, false, Align::from_bytes(4).unwrap(), false)
}
// Generic x86
("x86", _) => {
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emit_ptr_va_arg(bx, addr, target_ty, false, Align::from_bytes(4).unwrap(), true)
}
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// Windows AArch64
("aarch64", true) => {
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emit_ptr_va_arg(bx, addr, target_ty, false, Align::from_bytes(8).unwrap(), false)
}
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// iOS AArch64
("aarch64", _) if target.target_os == "ios" => {
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emit_ptr_va_arg(bx, addr, target_ty, false, Align::from_bytes(8).unwrap(), true)
}
// Windows x86_64
("x86_64", true) => {
let target_ty_size = bx.cx.size_of(target_ty).bytes();
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let indirect: bool = target_ty_size > 8 || !target_ty_size.is_power_of_two();
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emit_ptr_va_arg(bx, addr, target_ty, indirect, Align::from_bytes(8).unwrap(), false)
}
// For all other architecture/OS combinations fall back to using
// the LLVM va_arg instruction.
// https://llvm.org/docs/LangRef.html#va-arg-instruction
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_ => bx.va_arg(addr.immediate(), bx.cx.layout_of(target_ty).llvm_type(bx.cx)),
}
}