Mercurial > projects > ldc
view lphobos/gc/gcbits.d @ 715:30b42a283c8e
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 |
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// Copyright (C) 2001-2002 by Digital Mars // All Rights Reserved // www.digitalmars.com // Written by Walter Bright /* NOTE: This file has been patched from the original DMD distribution to work with the GDC compiler. Modified by David Friedman, September 2004 */ import std.c.string; import std.c.stdlib; import std.outofmemory; import std.intrinsic; //version = Asm86; version (GNU) { // bitop intrinsics not implemented yet } else { version = bitops; } struct GCBits { const int BITS_PER_WORD = 32; const int BITS_SHIFT = 5; const int BITS_MASK = 31; uint *data = null; uint nwords = 0; // allocated words in data[] excluding sentinals uint nbits = 0; // number of bits in data[] excluding sentinals void Dtor() { if (data) { free(data); data = null; } } invariant { if (data) { assert(nwords * data[0].sizeof * 8 >= nbits); } } void alloc(uint nbits) { this.nbits = nbits; nwords = (nbits + (BITS_PER_WORD - 1)) >> BITS_SHIFT; data = cast(uint *)calloc(nwords + 2, uint.sizeof); if (!data) _d_OutOfMemory(); } uint test(uint i) in { assert(i < nbits); } body { //return (cast(bit *)(data + 1))[i]; return data[1 + (i >> BITS_SHIFT)] & (1 << (i & BITS_MASK)); } void set(uint i) in { assert(i < nbits); } body { //(cast(bit *)(data + 1))[i] = 1; data[1 + (i >> BITS_SHIFT)] |= (1 << (i & BITS_MASK)); } void clear(uint i) in { assert(i < nbits); } body { //(cast(bit *)(data + 1))[i] = 0; data[1 + (i >> BITS_SHIFT)] &= ~(1 << (i & BITS_MASK)); } uint testClear(uint i) { version (bitops) { return std.intrinsic.btr(data + 1, i); } else version (Asm86) { asm { naked ; mov EAX,data[EAX] ; mov ECX,i-4[ESP] ; btr 4[EAX],ECX ; sbb EAX,EAX ; ret 4 ; } } else { uint result; //result = (cast(bit *)(data + 1))[i]; //(cast(bit *)(data + 1))[i] = 0; uint *p = &data[1 + (i >> BITS_SHIFT)]; uint mask = (1 << (i & BITS_MASK)); result = *p & mask; *p &= ~mask; return result; } } void zero() { memset(data + 1, 0, nwords * uint.sizeof); } void copy(GCBits *f) in { assert(nwords == f.nwords); } body { memcpy(data + 1, f.data + 1, nwords * uint.sizeof); } uint *base() in { assert(data); } body { return data + 1; } } unittest { GCBits b; b.alloc(786); assert(b.test(123) == 0); assert(b.testClear(123) == 0); b.set(123); assert(b.test(123) != 0); assert(b.testClear(123) != 0); assert(b.test(123) == 0); b.set(785); b.set(0); assert(b.test(785) != 0); assert(b.test(0) != 0); b.zero(); assert(b.test(785) == 0); assert(b.test(0) == 0); GCBits b2; b2.alloc(786); b2.set(38); b.copy(&b2); assert(b.test(38) != 0); b2.Dtor(); b.Dtor(); } /+ void main() { } +/