rust/src/librustc/middle/trans/cabi_arm.rs

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// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
use lib::llvm::{llvm, Integer, Pointer, Float, Double, Struct, Array};
use lib::llvm::{Attribute, StructRetAttribute};
use middle::trans::cabi::{ABIInfo, FnType, LLVMType};
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use middle::trans::type_::Type;
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use core::option::{Option, None, Some};
use core::uint;
fn align_up_to(off: uint, a: uint) -> uint {
return (off + a - 1u) / a * a;
}
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fn align(off: uint, ty: Type) -> uint {
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let a = ty_align(ty);
return align_up_to(off, a);
}
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fn ty_align(ty: Type) -> uint {
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match ty.kind() {
Integer => {
unsafe {
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((llvm::LLVMGetIntTypeWidth(ty.to_ref()) as uint) + 7) / 8
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}
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}
Pointer => 4,
Float => 4,
Double => 8,
Struct => {
if ty.is_packed() {
1
} else {
let str_tys = ty.field_types();
str_tys.iter().fold(1, |a, t| uint::max(a, ty_align(*t)))
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}
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}
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Array => {
let elt = ty.element_type();
ty_align(elt)
}
_ => fail!("ty_align: unhandled type")
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}
}
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fn ty_size(ty: Type) -> uint {
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match ty.kind() {
Integer => {
unsafe {
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((llvm::LLVMGetIntTypeWidth(ty.to_ref()) as uint) + 7) / 8
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}
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}
Pointer => 4,
Float => 4,
Double => 8,
Struct => {
if ty.is_packed() {
let str_tys = ty.field_types();
str_tys.iter().fold(0, |s, t| s + ty_size(*t))
} else {
let str_tys = ty.field_types();
let size = str_tys.iter().fold(0, |s, t| align(s, *t) + ty_size(*t));
align(size, ty)
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}
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}
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Array => {
let len = ty.array_length();
let elt = ty.element_type();
let eltsz = ty_size(elt);
len * eltsz
}
_ => fail!("ty_size: unhandled type")
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}
}
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fn classify_ret_ty(ty: Type) -> (LLVMType, Option<Attribute>) {
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if is_reg_ty(ty) {
return (LLVMType { cast: false, ty: ty }, None);
}
let size = ty_size(ty);
if size <= 4 {
let llty = if size <= 1 {
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Type::i8()
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} else if size <= 2 {
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Type::i16()
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} else {
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Type::i32()
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};
return (LLVMType { cast: true, ty: llty }, None);
}
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(LLVMType { cast: false, ty: ty.ptr_to() }, Some(StructRetAttribute))
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}
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fn classify_arg_ty(ty: Type) -> (LLVMType, Option<Attribute>) {
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if is_reg_ty(ty) {
return (LLVMType { cast: false, ty: ty }, None);
}
let align = ty_align(ty);
let size = ty_size(ty);
let llty = if align <= 4 {
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Type::array(&Type::i32(), (size + 3) / 4 as u64)
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} else {
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Type::array(&Type::i64(), (size + 7) / 8 as u64)
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};
(LLVMType { cast: true, ty: llty }, None)
}
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fn is_reg_ty(ty: Type) -> bool {
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match ty.kind() {
Integer
| Pointer
| Float
| Double => true,
_ => false
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}
}
enum ARM_ABIInfo { ARM_ABIInfo }
impl ABIInfo for ARM_ABIInfo {
fn compute_info(&self,
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atys: &[Type],
rty: Type,
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ret_def: bool) -> FnType {
let mut arg_tys = ~[];
let mut attrs = ~[];
for atys.iter().advance |&aty| {
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let (ty, attr) = classify_arg_ty(aty);
arg_tys.push(ty);
attrs.push(attr);
}
let mut (ret_ty, ret_attr) = if ret_def {
classify_ret_ty(rty)
} else {
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(LLVMType { cast: false, ty: Type::void() }, None)
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};
let sret = ret_attr.is_some();
if sret {
arg_tys.unshift(ret_ty);
attrs.unshift(ret_attr);
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ret_ty = LLVMType { cast: false, ty: Type::void() };
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}
return FnType {
arg_tys: arg_tys,
ret_ty: ret_ty,
attrs: attrs,
sret: sret
};
}
}
pub fn abi_info() -> @ABIInfo {
return @ARM_ABIInfo as @ABIInfo;
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}