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TileStorage.cpp
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TileStorage.cpp
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/*
<one line to give the program's name and a brief idea of what it does.>
Copyright (C) 2011 Tiziano <email>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "TileStorage.h"
#include <iostream>
#include <cstring>
#include <math.h>
#include <IL/il.h>
#include <IL/ilu.h>
#include <sstream>
#include <stdlib.h>
inline float tilediff(uint8_t * t1,uint8_t * t2)
{
float diff = 0.0;
for ( int i = 0; i < 32*32*4; i++ )
{
float d1 = fabs(float(t1[i])-float(t2[i]));
if ( d1 < 30 )
diff += d1;
else
diff += 255.0f;//If it has a point that is VERY different , it must not be reused
}
diff /= 32.0*32.0*4.0f*10.0f;
return diff;
}
TileStorage::TileStorage()
{
Reset();
m_dictcount = 64;
}
TileStorage::~TileStorage()
{
Reset();
}
void TileStorage::Reset()
{
for ( std::map<uint64_t,uint8_t*>::iterator it = m_tiles.begin(); it != m_tiles.end(); it++ )
{
if ( m_tiles_compressed.find((*it).first) != m_tiles_compressed.end() )
{
delete m_tiles_compressed[(*it).first];
}
delete (*it).second;
}
m_tiles.clear();
m_lasttiles.clear();
m_tiles_compressed.clear();
}
uint64_t TileStorage::AddTile(uint8_t* data)
{
uint64_t checksum = tilechecksum(data);
if ( m_tiles.find(checksum) != m_tiles.end() )
{
std::cerr << "Duplicate tile detected, dropping!" << std::endl;
return checksum;
}
uint8_t* data_copy = new uint8_t[32*32*4];
memcpy(data_copy,data,32*32*4);
m_tiles.insert(std::pair<uint64_t,uint8_t*>(checksum,data_copy));
m_lasttiles.push_back(checksum);
if ( m_lasttiles.size() > m_dictcount )
m_lasttiles.pop_front();
return checksum;
}
void TileStorage::CompressAll()
{
for ( std::map<uint64_t,uint8_t*>::iterator it = m_tiles.begin(); it != m_tiles.end(); it++ )
{
if ( m_tiles_compressed.find((*it).first) == m_tiles_compressed.end() )
{
CompressTile((*it).first);
}
}
}
void TileStorage::SetDictSize(uint32_t s)
{
m_dictcount = s;
}
void TileStorage::CompressTile(uint64_t uid)
{
uint8_t * m0;
uint8_t * m1;
uint8_t * m2;
uint8_t * m3;
uint8_t * dataptr = m_tiles[uid];
uint8_t * compressedmipmaps = new uint8_t[680];
if ( !dataptr )
{
delete [] compressedmipmaps;
throw InvalidTileDataPointerException();
}
uint32_t s;
uint32_t s2 = 0;
ILuint mip1 = ilGenImage();
ilBindImage(mip1);
ilTexImage(32,32,1,4,IL_RGBA,IL_UNSIGNED_BYTE,dataptr);
/*std::stringstream ss;
ss << "Tile" << uid << ".png";
ilSaveImage(ss.str().c_str());*/
m0 = ilCompressDXT(ilGetData(),32,32,1,IL_DXT1,&s);
memcpy(&compressedmipmaps[s2],m0,s);
s2 += s;
iluScale(16,16,1);
m1 = ilCompressDXT(ilGetData(),16,16,1,IL_DXT1,&s);
memcpy(&compressedmipmaps[s2],m1,s);
s2 += s;
iluScale(8,8,1);
m2 = ilCompressDXT(ilGetData(),8,8,1,IL_DXT1,&s);
memcpy(&compressedmipmaps[s2],m2,s);
s2 += s;
iluScale(4,4,1);
m3 = ilCompressDXT(ilGetData(),4,4,1,IL_DXT1,&s);
memcpy(&compressedmipmaps[s2],m3,s);
s2 += s;
ilDeleteImage(mip1);
/*squish::CompressImage(dataptr,32,32,m0,squish::kDxt1);
squish::CompressImage(dataptr,16,16,m1,squish::kDxt1);
squish::CompressImage(dataptr,8,8,m2,squish::kDxt1);
squish::CompressImage(dataptr,4,4,m3,squish::kDxt1);*/
free(m0);
free(m1);
free(m2);
free(m3);
m_tiles_compressed[uid] = compressedmipmaps;
//std::cout << "Tile " << uid << " compressed!" << std::endl;
}
void TileStorage::WriteToFile(FILE* f, std::vector< uint64_t >& tile_order)
{
char magic[16];
strcpy(magic,"spring tilefile");
int version = 1;
int numtiles = m_tiles_compressed.size();
int tileSize = 32;
int compressionType = 1;
fwrite(magic,16,1,f);
fwrite(&version,4,1,f);
fwrite(&numtiles,4,1,f);
fwrite(&tileSize,4,1,f);
fwrite(&compressionType,4,1,f);
for ( std::vector< uint64_t >::const_iterator it = tile_order.begin(); it != tile_order.end(); it++ )
{
if ( m_tiles_compressed.find(*it) == m_tiles_compressed.end() )
{
CompressAll();
}
if ( m_tiles_compressed.find(*it) == m_tiles_compressed.end() )
{
throw InvalidTileIndexException();
}
fwrite(m_tiles_compressed[*it],680,1,f);
}
fflush(f);
}
uint64_t TileStorage::AddTileOrGetSimiliar(uint8_t* data, float th, int compresslevel)
{
uint64_t checksum = tilechecksum(data);
if ( m_tiles.find(checksum) != m_tiles.end() )
{
//std::cout << "Debug(AddTileOrGetSimiliar): " << checksum << " already exists" << std::endl;
return checksum;
}
if ( compresslevel == COMPRESS_INSANE )
{
for ( std::map<uint64_t,uint8_t*>::iterator it = m_tiles.begin(); it != m_tiles.end(); it++ )
{
if ( tilediff(data,(*it).second) < th )
{
return (*it).first;
}
}
}else if ( compresslevel == COMPRESS_REASONABLE )
{
for ( std::list<uint64_t>::iterator it = m_lasttiles.begin(); it != m_lasttiles.end(); it++ )
{
if ( tilediff(data,m_tiles[(*it)]) < th )
{
return (*it);
}
}
}else if ( compresslevel == COMPRESS_SHITTY )
{
//do nothing...
}else if ( compresslevel == COMPRESS_REASONABLE_BESTQUALITY )
{
float mindiff = 9999999.0f;
uint64_t besttile;
for ( std::list<uint64_t>::iterator it = m_lasttiles.begin(); it != m_lasttiles.end(); it++ )
{
float diff = tilediff(data,m_tiles[(*it)]);
if ( diff < mindiff )
{
besttile = (*it);
mindiff = diff;
}
}
if ( mindiff <= th )
return besttile;
}
return AddTile(data);
}
uint32_t TileStorage::GetTileCount()
{
return std::max(m_tiles_compressed.size(),m_tiles.size());
}