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Removed TypeOpaque from DMD. Changed runtime functions taking opaque[] to void[]. Implemented proper type painting, to avoid "resizing" array casts in runtime calls that previously took opaque[]. Implemented dynamic arrays as first class types, this implements proper ABI for these types on x86. Added dwarf region end after call to assert function, fixes some problems with llvm not allowing this to be missing. Reverted change to WithStatement from rev [704] it breaks MiniD, mini/with2.d needs to be fixed some other way... Fixed tango bug 1339 in runtime, problem with _adReverseChar on invalid UTF-8. Disabled .bc generation in the compiler runtime part, genobj.d triggers some llvm bug when using debug info. the .o seems to work fine.
author Tomas Lindquist Olsen <tomas.l.olsen@gmail.com>
date Wed, 22 Oct 2008 14:55:33 +0200
parents 373489eeaf90
children
line wrap: on
line source

module llvm.intrinsic;

// code generator intrinsics
/*
pragma(intrinsic, "llvm.returnaddress")
    void* llvm_returnaddress(uint level);
*/
pragma(intrinsic, "llvm.frameaddress")
    void* llvm_frameaddress(uint level);
/*
pragma(intrinsic, "llvm.stacksave")
    void* llvm_stacksave();

pragma(intrinsic, "llvm.stackrestore")
    void llvm_stackrestore(void* ptr);

pragma(intrinsic, "llvm.pcmarker")
    void llvm_pcmarker(uint id);

pragma(intrinsic, "llvm.prefetch")
    void llvm_prefetch(void* ptr, uint rw, uint locality);
*/

pragma(intrinsic, "llvm.readcyclecounter")
    ulong readcyclecounter();

// standard C intrinsics
pragma(intrinsic, "llvm.memcpy.i32")
    void llvm_memcpy_i32(void* dst, void* src, uint len, uint alignment);

pragma(intrinsic, "llvm.memcpy.i64")
    void llvm_memcpy_i64(void* dst, void* src, ulong len, uint alignment);

pragma(intrinsic, "llvm.memmove.i32")
    void llvm_memmove_i32(void* dst, void* src, uint len, uint alignment);

pragma(intrinsic, "llvm.memmove.i64")
    void llvm_memmove_i64(void* dst, void* src, ulong len, int alignment);

pragma(intrinsic, "llvm.memset.i32")
    void llvm_memset_i32(void* dst, ubyte val, uint len, uint alignment);

pragma(intrinsic, "llvm.memset.i64")
    void llvm_memset_i64(void* dst, ubyte val, ulong len, uint alignment);

pragma(intrinsic, "llvm.sqrt.f32")
    float llvm_sqrt(float val);

pragma(intrinsic, "llvm.sqrt.f64")
{
    double llvm_sqrt(double val);
    // real llvm_sqrt(real val);
}

pragma(intrinsic, "llvm.powi.f32")
    float llvm_powi(float val, int power);

pragma(intrinsic, "llvm.powi.f64")
{
    double llvm_powi(double val, int power);
    // real llvm_powi(real val, int power);
}

// bit manipulation intrinsics
pragma(intrinsic, "llvm.bswap.i16.i16")
    ushort llvm_bswap(ushort val);

pragma(intrinsic, "llvm.bswap.i32.i32")
    uint llvm_bswap(uint val);

pragma(intrinsic, "llvm.bswap.i64.i64")
    ulong llvm_bswap(ulong val);

/*
pragma(intrinsic, "llvm.ctpop.i8")
    uint llvm_ctpop_i8(ubyte src);

pragma(intrinsic, "llvm.ctpop.i16")
    uint llvm_ctpop_i16(ushort src);

pragma(intrinsic, "llvm.ctpop.i32")
    uint llvm_ctpop_i32(uint src);

pragma(intrinsic, "llvm.ctpop.i64")
    uint llvm_ctpop_i64(ulong src);

pragma(intrinsic, "llvm.ctlz.i8")
    uint llvm_ctlz_i8(ubyte src);

pragma(intrinsic, "llvm.ctlz.i16")
    uint llvm_ctlz_i16(ushort src);

pragma(intrinsic, "llvm.ctlz.i32")
    uint llvm_ctlz_i32(uint src);

pragma(intrinsic, "llvm.ctlz.i64")
    uint llvm_ctlz_i64(ulong src);

pragma(intrinsic, "llvm.cttz.i8")
    uint llvm_cttz_i8(ubyte src);

pragma(intrinsic, "llvm.cttz.i16")
    uint llvm_cttz_i16(ushort src);

pragma(intrinsic, "llvm.cttz.i32")
    uint llvm_cttz_i32(uint src);

pragma(intrinsic, "llvm.cttz.i64")
    uint llvm_cttz_i64(ulong src);
*/

// atomic operations and synchronization intrinsics
// TODO
/*

//declare i8 @llvm.atomic.lcs.i8.i8p.i8.i8( i8* <ptr>, i8 <cmp>, i8 <val> )
pragma(intrinsic, "llvm.atomic.lcs.i8.i8p.i8.i8")
    ubyte llvm_atomic_lcs_i8(void* ptr, ubyte cmp, ubyte val);

declare i16 @llvm.atomic.lcs.i16.i16p.i16.i16( i16* <ptr>, i16 <cmp>, i16 <val> )
declare i32 @llvm.atomic.lcs.i32.i32p.i32.i32( i32* <ptr>, i32 <cmp>, i32 <val> )
declare i64 @llvm.atomic.lcs.i64.i64p.i64.i64( i64* <ptr>, i64 <cmp>, i64 <val> )

declare i8 @llvm.atomic.ls.i8.i8p.i8( i8* <ptr>, i8 <val> )
declare i16 @llvm.atomic.ls.i16.i16p.i16( i16* <ptr>, i16 <val> )
declare i32 @llvm.atomic.ls.i32.i32p.i32( i32* <ptr>, i32 <val> )
declare i64 @llvm.atomic.ls.i64.i64p.i64( i64* <ptr>, i64 <val> )

declare i8 @llvm.atomic.las.i8.i8p.i8( i8* <ptr>, i8 <delta> )
declare i16 @llvm.atomic.las.i16.i16p.i16( i16* <ptr>, i16 <delta> )
declare i32 @llvm.atomic.las.i32.i32p.i32( i32* <ptr>, i32 <delta> )
declare i64 @llvm.atomic.las.i64.i64p.i64( i64* <ptr>, i64 <delta> )

declare i8 @llvm.atomic.lss.i8.i8.i8( i8* <ptr>, i8 <delta> )
declare i16 @llvm.atomic.lss.i16.i16.i16( i16* <ptr>, i16 <delta> )
declare i32 @llvm.atomic.lss.i32.i32.i32( i32* <ptr>, i32 <delta> )
declare i64 @llvm.atomic.lss.i64.i64.i64( i64* <ptr>, i64 <delta> )

declare void @llvm.memory.barrier( i1 <ll>, i1 <ls>, i1 <sl>, i1 <ss> )
*/