Fix for bug 2283 (RVCT 4.0 support is missing from PDK 3.0.h)
Have multiple extension sections in the bld.inf, one for each version
of the compiler. The RVCT version building the tools will build the
runtime libraries for its version, but make sure we extract all the other
versions from zip archives. Also add the archive for RVCT4.
// Copyright (c) 2007-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// e32\include\byte_pair_compress.h
// This header file contains both the prototype and implementation for the byte pair compressor.
// This is done to facilitate sharing the code between the e32 test code and the tools. The
// implementation is only included if the macro BYTE_PAIR_COMPRESS_INCLUDE_IMPLEMENTATION is
// defined.
//
// WARNING: This file contains some APIs which are internal and are subject
// to change without notice. Such APIs should therefore not be used
// outside the Kernel and Hardware Services package.
//
#ifndef __BYTE_PAIR_COMPRESS_H__
#define __BYTE_PAIR_COMPRESS_H__
#include <e32std.h>
/**
* @internalTechnology
*
* Compress up to 4096 bytes of data usign the byte-pair compression algorithm.
*
* @param aDest Destination buffer, must be at least four times the size of the source data.
* @param aSrc Source data to compress.
* @param aSize The size of the source data.
*/
extern TInt BytePairCompress(TUint8* aDest, TUint8* aSrc, TInt aSize);
#ifdef BYTE_PAIR_COMPRESS_INCLUDE_IMPLEMENTATION
const TInt BlockSize = 0x1000;
TInt ExtraSave = 0;
TUint16 PairCount[0x10000];
TUint16 PairBuffer[BlockSize*2];
TUint16 GlobalPairs[0x10000] = {0};
TUint16 GlobalTokenCounts[0x100] = {0};
TUint16 ByteCount[0x100+4];
void CountBytes(TUint8* data, TInt size)
{
memset(ByteCount,0,sizeof(ByteCount));
TUint8* dataEnd = data+size;
while(data<dataEnd)
++ByteCount[*data++];
}
inline void ByteUsed(TInt b)
{
ByteCount[b] = 0xffff;
}
int TieBreak(int b1,int b2)
{
return -ByteCount[b1]-ByteCount[b2];
}
TInt MostCommonPair(TInt& pair, TUint8* data, TInt size, TInt minFrequency, TInt marker)
{
memset(PairCount,0,sizeof(PairCount));
TUint8* dataEnd = data+size-1;
TInt pairsFound = 0;
TInt lastPair = -1;
while(data<dataEnd)
{
TInt b1 = *data++;
if(b1==marker)
{
// skip marker and following byte
lastPair = -1;
++data;
continue;
}
TInt b2 = *data;
if(b2==marker)
{
// skip marker and following byte
lastPair = -1;
data+=2;
continue;
}
TInt p = (b2<<8)|b1;
if(p==lastPair)
{
// ensure a pair of identical bytes don't get double counted
lastPair = -1;
continue;
}
lastPair = p;
++PairCount[p];
if(PairCount[p]==minFrequency)
PairBuffer[pairsFound++] = (TUint16)p;
}
TInt bestCount = -1;
TInt bestPair = -1;
TInt bestTieBreak = 0;
TInt p;
while(pairsFound--)
{
p = PairBuffer[pairsFound];
TInt f=PairCount[p];
if(f>bestCount)
{
bestCount = f;
bestPair = p;
bestTieBreak = TieBreak(p&0xff,p>>8);
}
else if(f==bestCount)
{
TInt tieBreak = TieBreak(p&0xff,p>>8);
if(tieBreak>bestTieBreak)
{
bestCount = f;
bestPair = p;
bestTieBreak = tieBreak;
}
}
}
pair = bestPair;
return bestCount;
}
TInt LeastCommonByte(TInt& byte)
{
TInt bestCount = 0xffff;
TInt bestByte = -1;
for(TInt b = 0; b<0x100; b++)
{
TInt f = ByteCount[b];
if(f<bestCount)
{
bestCount = f;
bestByte = b;
}
}
byte = bestByte;
return bestCount;
}
TInt BytePairCompress(TUint8* dst, TUint8* src, TInt size)
{
TInt originalSize = size;
TUint8* dst2 = dst+size*2;
TUint8* in = src;
TUint8* out = dst;
TUint8 tokens[0x100*3];
TInt tokenCount = 0;
CountBytes(in,size);
TInt marker = -1;
TInt overhead = 1+3+LeastCommonByte(marker);
ByteUsed(marker);
TUint8* inEnd = in+size;
TUint8* outStart = out;
while(in<inEnd)
{
TInt b=*in++;
if(b==marker)
*out++ = (TUint8)b;
*out++ = (TUint8)b;
}
size = out-outStart;
TInt outToggle = 1;
in = dst;
out = dst2;
for(TInt r=256; r>0; --r)
{
TInt byte;
TInt byteCount = LeastCommonByte(byte);
TInt pair;
TInt pairCount = MostCommonPair(pair,in,size,overhead+1,marker);
TInt saving = pairCount-byteCount;
if(saving<=overhead)
break;
overhead = 3;
if(tokenCount>=32)
overhead = 2;
TUint8* d=tokens+3*tokenCount;
++tokenCount;
*d++ = (TUint8)byte;
ByteUsed(byte);
*d++ = (TUint8)pair;
ByteUsed(pair&0xff);
*d++ = (TUint8)(pair>>8);
ByteUsed(pair>>8);
++GlobalPairs[pair];
inEnd = in+size;
outStart = out;
while(in<inEnd)
{
TInt b=*in++;
if(b==marker)
{
*out++ = (TUint8)marker;
b = *in++;
}
else if(b==byte)
{
*out++ = (TUint8)marker;
--byteCount;
}
else if(b==(pair&0xff) && in<inEnd && *in==(pair>>8))
{
++in;
b = byte;
--pairCount;
}
*out++ = (TUint8)b;
}
ASSERT(!byteCount);
ASSERT(!pairCount);
size = out-outStart;
outToggle ^= 1;
if(outToggle)
{
in = dst;
out = dst2;
}
else
{
in = dst2;
out = dst;
}
}
// sort tokens with a bubble sort...
for(TInt x=0; x<tokenCount-1; x++)
for(TInt y=x+1; y<tokenCount; y++)
if(tokens[x*3]>tokens[y*3])
{
TInt z = tokens[x*3];
tokens[x*3] = tokens[y*3];
tokens[y*3] = (TUint8)z;
z = tokens[x*3+1];
tokens[x*3+1] = tokens[y*3+1];
tokens[y*3+1] = (TUint8)z;
z = tokens[x*3+2];
tokens[x*3+2] = tokens[y*3+2];
tokens[y*3+2] = (TUint8)z;
}
// check for not being able to compress...
if(size>originalSize)
{
*dst++ = 0; // store zero token count
memcpy(dst,src,originalSize); // store original data
return originalSize+1;
}
// make sure data is in second buffer (dst2)
if(in!=dst2)
memcpy(dst2,dst,size);
// store tokens...
TUint8* originalDst = dst;
*dst++ = (TUint8)tokenCount;
if(tokenCount)
{
*dst++ = (TUint8)marker;
if(tokenCount<32)
{
memcpy(dst,tokens,tokenCount*3);
dst += tokenCount*3;
}
else
{
TUint8* bitMask = dst;
memset(bitMask,0,32);
dst += 32;
TUint8* d=tokens;
do
{
TInt t=*d++;
bitMask[t>>3] |= (1<<(t&7));
*dst++ = *d++;
*dst++ = *d++;
}
while(--tokenCount);
}
}
// store data...
memcpy(dst,dst2,size);
dst += size;
// get stats...
++GlobalTokenCounts[tokenCount];
// return total size of compressed data...
return dst-originalDst;
}
#endif
#endif