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[svn r372] Fixed extern(C++) handling now same as DMD, which is to treat it like extern(C). Fixed a problem in resolving struct types where the size of elements might not yet be known. Switched to using DMD size() instead of LLVM ABI size (TargetData).
author lindquist
date Mon, 14 Jul 2008 03:23:43 +0200
parents 5ab8e92611f9
children 373489eeaf90
line wrap: on
line source


// Copyright (C) 2001-2002 by Digital Mars
// All Rights Reserved
// www.digitalmars.com
// Written by Walter Bright

import std.c.string;
import std.c.stdlib;
import std.outofmemory;
import std.intrinsic;

//version = Asm86;
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()
{
}
+/