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

// 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};

use middle::trans::type_::Type;

use std::num;
use std::option::{Option, None, Some};

fn align_up_to(off: uint, a: uint) -> uint {
    return (off + a - 1u) / a * a;
}

fn align(off: uint, ty: Type) -> uint {
    let a = ty_align(ty);
    return align_up_to(off, a);
}

fn ty_align(ty: Type) -> uint {
    match ty.kind() {
        Integer => {
            unsafe {
                ((llvm::LLVMGetIntTypeWidth(ty.to_ref()) as uint) + 7) / 8
            }
        }
        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| num::max(a, ty_align(*t)))
            }
        }
        Array => {
            let elt = ty.element_type();
            ty_align(elt)
        }
        _ => fail!("ty_align: unhandled type")
    }
}

fn ty_size(ty: Type) -> uint {
    match ty.kind() {
        Integer => {
            unsafe {
                ((llvm::LLVMGetIntTypeWidth(ty.to_ref()) as uint) + 7) / 8
            }
        }
        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)
            }
        }
        Array => {
            let len = ty.array_length();
            let elt = ty.element_type();
            let eltsz = ty_size(elt);
            len * eltsz
        }
        _ => fail!("ty_size: unhandled type")
    }
}

fn classify_ret_ty(ty: Type) -> (LLVMType, Option<Attribute>) {
    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 {
            Type::i8()
        } else if size <= 2 {
            Type::i16()
        } else {
            Type::i32()
        };
        return (LLVMType { cast: true, ty: llty }, None);
    }
    (LLVMType { cast: false, ty: ty.ptr_to() }, Some(StructRetAttribute))
}

fn classify_arg_ty(ty: Type) -> (LLVMType, Option<Attribute>) {
    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 {
        Type::array(&Type::i32(), (size + 3) / 4 as u64)
    } else {
        Type::array(&Type::i64(), (size + 7) / 8 as u64)
    };
    (LLVMType { cast: true, ty: llty }, None)
}

fn is_reg_ty(ty: Type) -> bool {
    match ty.kind() {
        Integer
        | Pointer
        | Float
        | Double => true,
        _ => false
    }
}

enum ARM_ABIInfo { ARM_ABIInfo }

impl ABIInfo for ARM_ABIInfo {
    fn compute_info(&self,
                    atys: &[Type],
                    rty: Type,
                    ret_def: bool) -> FnType {
        let mut arg_tys = ~[];
        let mut attrs = ~[];
        for atys.iter().advance |&aty| {
            let (ty, attr) = classify_arg_ty(aty);
            arg_tys.push(ty);
            attrs.push(attr);
        }

        let (ret_ty, ret_attr) = if ret_def {
            classify_ret_ty(rty)
        } else {
            (LLVMType { cast: false, ty: Type::void() }, None)
        };

        let mut ret_ty = ret_ty;

        let sret = ret_attr.is_some();
        if sret {
            arg_tys.unshift(ret_ty);
            attrs.unshift(ret_attr);
            ret_ty = LLVMType { cast: false, ty: Type::void() };
        }

        return FnType {
            arg_tys: arg_tys,
            ret_ty: ret_ty,
            attrs: attrs,
            sret: sret
        };
    }
}

pub fn abi_info() -> @ABIInfo {
    return @ARM_ABIInfo as @ABIInfo;
}
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`// 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};`

Finish up Type refactoring 2013-06-16 05:52:44 -05:00			`use middle::trans::type_::Type;`

Replaces the free-standing functions in f32, &c. The free-standing functions in f32, f64, i8, i16, i32, i64, u8, u16, u32, u64, float, int, and uint are replaced with generic functions in num instead. If you were previously using any of those functions, just replace them with the corresponding function with the same name in num. Note: If you were using a function that corresponds to an operator, use the operator instead. 2013-07-08 11:05:17 -05:00			`use std::num;`
Great renaming: propagate throughout the rest of the codebase 2013-06-28 17:32:26 -05:00			`use std::option::{Option, None, Some};`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00
			`fn align_up_to(off: uint, a: uint) -> uint {`
			`return (off + a - 1u) / a * a;`
			`}`

More Type refactorings 2013-06-15 09:29:52 -05:00			`fn align(off: uint, ty: Type) -> uint {`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`let a = ty_align(ty);`
			`return align_up_to(off, a);`
			`}`

More Type refactorings 2013-06-15 09:29:52 -05:00			`fn ty_align(ty: Type) -> uint {`
Finish up Type refactoring 2013-06-16 05:52:44 -05:00			`match ty.kind() {`
			`Integer => {`
			`unsafe {`
More Type refactorings 2013-06-15 09:29:52 -05:00			`((llvm::LLVMGetIntTypeWidth(ty.to_ref()) as uint) + 7) / 8`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`}`
Finish up Type refactoring 2013-06-16 05:52:44 -05:00			`}`
			`Pointer => 4,`
			`Float => 4,`
			`Double => 8,`
			`Struct => {`
			`if ty.is_packed() {`
			`1`
			`} else {`
			`let str_tys = ty.field_types();`
Replaces the free-standing functions in f32, &c. The free-standing functions in f32, f64, i8, i16, i32, i64, u8, u16, u32, u64, float, int, and uint are replaced with generic functions in num instead. If you were previously using any of those functions, just replace them with the corresponding function with the same name in num. Note: If you were using a function that corresponds to an operator, use the operator instead. 2013-07-08 11:05:17 -05:00			`str_tys.iter().fold(1, \|a, t\| num::max(a, ty_align(*t)))`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`}`
More Type refactorings 2013-06-15 09:29:52 -05:00			`}`
Finish up Type refactoring 2013-06-16 05:52:44 -05:00			`Array => {`
			`let elt = ty.element_type();`
			`ty_align(elt)`
			`}`
			`_ => fail!("ty_align: unhandled type")`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`}`
			`}`

More Type refactorings 2013-06-15 09:29:52 -05:00			`fn ty_size(ty: Type) -> uint {`
Finish up Type refactoring 2013-06-16 05:52:44 -05:00			`match ty.kind() {`
			`Integer => {`
			`unsafe {`
More Type refactorings 2013-06-15 09:29:52 -05:00			`((llvm::LLVMGetIntTypeWidth(ty.to_ref()) as uint) + 7) / 8`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`}`
Finish up Type refactoring 2013-06-16 05:52:44 -05:00			`}`
			`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)`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`}`
More Type refactorings 2013-06-15 09:29:52 -05:00			`}`
Finish up Type refactoring 2013-06-16 05:52:44 -05:00			`Array => {`
			`let len = ty.array_length();`
			`let elt = ty.element_type();`
			`let eltsz = ty_size(elt);`
			`len * eltsz`
			`}`
			`_ => fail!("ty_size: unhandled type")`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`}`
			`}`

More Type refactorings 2013-06-15 09:29:52 -05:00			`fn classify_ret_ty(ty: Type) -> (LLVMType, Option<Attribute>) {`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`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 {`
More Type refactorings 2013-06-15 09:29:52 -05:00			`Type::i8()`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`} else if size <= 2 {`
More Type refactorings 2013-06-15 09:29:52 -05:00			`Type::i16()`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`} else {`
More Type refactorings 2013-06-15 09:29:52 -05:00			`Type::i32()`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`};`
			`return (LLVMType { cast: true, ty: llty }, None);`
			`}`
More Type refactorings 2013-06-15 09:29:52 -05:00			`(LLVMType { cast: false, ty: ty.ptr_to() }, Some(StructRetAttribute))`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`}`

More Type refactorings 2013-06-15 09:29:52 -05:00			`fn classify_arg_ty(ty: Type) -> (LLVMType, Option<Attribute>) {`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`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 {`
Finish up Type refactoring 2013-06-16 05:52:44 -05:00			`Type::array(&Type::i32(), (size + 3) / 4 as u64)`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`} else {`
Finish up Type refactoring 2013-06-16 05:52:44 -05:00			`Type::array(&Type::i64(), (size + 7) / 8 as u64)`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`};`
			`(LLVMType { cast: true, ty: llty }, None)`
			`}`

More Type refactorings 2013-06-15 09:29:52 -05:00			`fn is_reg_ty(ty: Type) -> bool {`
Fix warnings in trans 2013-06-16 06:11:17 -05:00			`match ty.kind() {`
			`Integer`
			`\| Pointer`
			`\| Float`
			`\| Double => true,`
			`_ => false`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`}`
			`}`

			`enum ARM_ABIInfo { ARM_ABIInfo }`

			`impl ABIInfo for ARM_ABIInfo {`
			`fn compute_info(&self,`
More Type refactorings 2013-06-15 09:29:52 -05:00			`atys: &[Type],`
			`rty: Type,`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`ret_def: bool) -> FnType {`
			`let mut arg_tys = ~[];`
			`let mut attrs = ~[];`
vec: remove BaseIter implementation I removed the `static-method-test.rs` test because it was heavily based on `BaseIter` and there are plenty of other more complex uses of static methods anyway. 2013-06-21 07:29:53 -05:00			`for atys.iter().advance \|&aty\| {`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`let (ty, attr) = classify_arg_ty(aty);`
			`arg_tys.push(ty);`
			`attrs.push(attr);`
			`}`

librustc: Disallow "mut" from distributing over bindings. This is the backwards-incompatible part of per-binding-site "mut". 2013-06-06 20:54:14 -05:00			`let (ret_ty, ret_attr) = if ret_def {`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`classify_ret_ty(rty)`
			`} else {`
More Type refactorings 2013-06-15 09:29:52 -05:00			`(LLVMType { cast: false, ty: Type::void() }, None)`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`};`

librustc: Disallow "mut" from distributing over bindings. This is the backwards-incompatible part of per-binding-site "mut". 2013-06-06 20:54:14 -05:00			`let mut ret_ty = ret_ty;`

ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`let sret = ret_attr.is_some();`
			`if sret {`
			`arg_tys.unshift(ret_ty);`
			`attrs.unshift(ret_attr);`
More Type refactorings 2013-06-15 09:29:52 -05:00			`ret_ty = LLVMType { cast: false, ty: Type::void() };`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`}`

			`return FnType {`
			`arg_tys: arg_tys,`
			`ret_ty: ret_ty,`
			`attrs: attrs,`
			`sret: sret`
			`};`
			`}`
			`}`

Remove legacy object creation mode, and convert remaining uses of it 2013-02-26 20:42:00 -06:00			`pub fn abi_info() -> @ABIInfo {`
			`return @ARM_ABIInfo as @ABIInfo;`
ARM C ABI implementation 2013-02-26 05:24:15 -06:00			`}`