project64/Source/GlideHQ/TxHiResCache.cpp

1071 lines
37 KiB
C++

/*
* Texture Filtering
* Version: 1.0
*
* Copyright (C) 2007 Hiroshi Morii All Rights Reserved.
* Email koolsmoky(at)users.sourceforge.net
* Web http://www.3dfxzone.it/koolsmoky
*
* this 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 2, or (at your option)
* any later version.
*
* this 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 GNU Make; see the file COPYING. If not, write to
* the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/* 2007 Gonetz <gonetz(at)ngs.ru>
* Added callback to display hires texture info. */
#ifdef _WIN32
#pragma warning(disable: 4786)
#endif
/* dump processed hirestextures to disk
* (0:disable, 1:enable) */
#define DUMP_CACHE 1
/* handle oversized textures by
* 0: minification
* 1: Glide64 style tiling
*/
#define TEXTURE_TILING 1
/* use power of 2 texture size
* (0:disable, 1:enable, 2:3dfx) */
#define POW2_TEXTURES 2
#if TEXTURE_TILING
#undef POW2_TEXTURES
#define POW2_TEXTURES 2
#endif
/* hack to reduce texture footprint to achieve
* better performace on midrange gfx cards.
* (0:disable, 1:enable) */
#define REDUCE_TEXTURE_FOOTPRINT 0
/* use aggressive format assumption for quantization
* (0:disable, 1:enable, 2:extreme) */
#define AGGRESSIVE_QUANTIZATION 1
#include "TxHiResCache.h"
#include "TxDbg.h"
#include <zlib/zlib.h>
#include <string>
#include <common/path.h>
#include <common/std string.h>
#include <io.h>
TxHiResCache::~TxHiResCache()
{
#if DUMP_CACHE
if ((_options & DUMP_HIRESTEXCACHE) && !_haveCache && !_abortLoad) {
/* dump cache to disk */
std::wstring filename = _ident + L"_HIRESTEXTURES.dat";
CPath cachepath(stdstr().FromUTF16(_path.c_str()).c_str(),"");
cachepath.AppendDirectory("cache");
int config = _options & (HIRESTEXTURES_MASK|COMPRESS_HIRESTEX|COMPRESSION_MASK|TILE_HIRESTEX|FORCE16BPP_HIRESTEX|GZ_HIRESTEXCACHE|LET_TEXARTISTS_FLY);
TxCache::save(stdstr((std::string &)cachepath).ToUTF16().c_str(), filename.c_str(), config);
}
#endif
delete _txImage;
delete _txQuantize;
delete _txReSample;
}
TxHiResCache::TxHiResCache(int maxwidth, int maxheight, int maxbpp, int options,
const wchar_t *path, const wchar_t *ident,
dispInfoFuncExt callback
) : TxCache((options & ~GZ_TEXCACHE), 0, path, ident, callback)
{
_txImage = new TxImage();
_txQuantize = new TxQuantize();
_txReSample = new TxReSample();
_maxwidth = maxwidth;
_maxheight = maxheight;
_maxbpp = maxbpp;
_abortLoad = 0;
_haveCache = 0;
/* assert local options */
if (!(_options & COMPRESS_HIRESTEX))
_options &= ~COMPRESSION_MASK;
if (_path.empty() || _ident.empty()) {
_options &= ~DUMP_HIRESTEXCACHE;
return;
}
#if DUMP_CACHE
/* read in hires texture cache */
if (_options & DUMP_HIRESTEXCACHE) {
/* find it on disk */
std::wstring filename = _ident + L"_HIRESTEXTURES.dat";
CPath cachepath(stdstr().FromUTF16(_path.c_str()).c_str(),"");
cachepath.AppendDirectory("cache");
int config = _options & (HIRESTEXTURES_MASK|COMPRESS_HIRESTEX|COMPRESSION_MASK|TILE_HIRESTEX|FORCE16BPP_HIRESTEX|GZ_HIRESTEXCACHE|LET_TEXARTISTS_FLY);
_haveCache = TxCache::load(stdstr((std::string &)cachepath).ToUTF16().c_str(), filename.c_str(), config);
}
#endif
/* read in hires textures */
if (!_haveCache) TxHiResCache::load(0);
}
boolean
TxHiResCache::empty()
{
return _cache.empty();
}
boolean
TxHiResCache::load(boolean replace) /* 0 : reload, 1 : replace partial */
{
if (!_path.empty() && !_ident.empty()) {
if (!replace) TxCache::clear();
CPath dir_path(stdstr().FromUTF16(_path.c_str()).c_str(),"");
switch (_options & HIRESTEXTURES_MASK) {
case GHQ_HIRESTEXTURES:
break;
case RICE_HIRESTEXTURES:
INFO(80, L"-----\n");
INFO(80, L"using Rice hires texture format...\n");
INFO(80, L" must be one of the following;\n");
INFO(80, L" 1) *_rgb.png + *_a.png\n");
INFO(80, L" 2) *_all.png\n");
INFO(80, L" 3) *_ciByRGBA.png\n");
INFO(80, L" 4) *_allciByRGBA.png\n");
INFO(80, L" 5) *_ci.bmp\n");
INFO(80, L" usage of only 2) and 3) highly recommended!\n");
INFO(80, L" folder names must be in US-ASCII characters!\n");
dir_path.AppendDirectory(stdstr().FromUTF16(_ident.c_str()).c_str());
loadHiResTextures(dir_path, replace);
break;
case JABO_HIRESTEXTURES:
;
}
return 1;
}
return 0;
}
boolean TxHiResCache::loadHiResTextures(LPCSTR dir_path, boolean replace)
{
DBG_INFO(80, L"-----\n");
DBG_INFO(80, L"path: %s\n", stdstr(dir_path).ToUTF16().c_str());
CPath TextureDir(dir_path,"");
/* find it on disk */
if (!TextureDir.DirectoryExists())
{
INFO(80, L"Error: path not found!\n");
return 0;
}
/* recursive read into sub-directory */
TextureDir.SetNameExtension("*.*");
if (TextureDir.FindFirst(_A_SUBDIR))
{
do
{
loadHiResTextures(TextureDir, replace);
} while (TextureDir.FindNext());
}
TextureDir.SetNameExtension("*.*");
if (TextureDir.FindFirst())
{
do
{
if (KBHIT(0x1B)) {
_abortLoad = 1;
if (_callback) (*_callback)(L"Aborted loading hiresolution texture!\n");
INFO(80, L"Error: aborted loading hiresolution texture!\n");
}
if (_abortLoad) break;
DBG_INFO(80, L"-----\n");
DBG_INFO(80, L"file: %ls\n", stdstr(TextureDir.GetNameExtension().c_str()).ToUTF16().c_str());
int width = 0, height = 0;
uint16 format = 0;
uint8 *tex = NULL;
int tmpwidth = 0, tmpheight = 0;
uint16 tmpformat = 0;
uint8 *tmptex= NULL;
int untiled_width = 0, untiled_height = 0;
uint16 destformat = 0;
/* Rice hi-res textures: begin
*/
uint32 chksum = 0, fmt = 0, siz = 0, palchksum = 0;
char *pfname = NULL, fname[MAX_PATH];
std::string ident;
FILE *fp = NULL;
wcstombs(fname, _ident.c_str(), MAX_PATH);
/* XXX case sensitivity fiasco!
* files must use _a, _rgb, _all, _allciByRGBA, _ciByRGBA, _ci
* and file extensions must be in lower case letters! */
#ifdef _WIN32
{
unsigned int i;
for (i = 0; i < strlen(fname); i++) fname[i] = (char)tolower(fname[i]);
}
#endif
ident.assign(fname);
/* read in Rice's file naming convention */
#define CRCFMTSIZ_LEN 13
#define PALCRC_LEN 9
wcstombs(fname, stdstr(TextureDir.GetNameExtension()).ToUTF16().c_str(), MAX_PATH);
/* XXX case sensitivity fiasco!
* files must use _a, _rgb, _all, _allciByRGBA, _ciByRGBA, _ci
* and file extensions must be in lower case letters! */
#ifdef _WIN32
{
unsigned int i;
for (i = 0; i < strlen(fname); i++) fname[i] = (char)tolower(fname[i]);
}
#endif
pfname = fname + strlen(fname) - 4;
if (!(pfname == strstr(fname, ".png") ||
pfname == strstr(fname, ".bmp") ||
pfname == strstr(fname, ".dds")))
{
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
INFO(80, L"Error: not png or bmp or dds!\n");
continue;
}
pfname = strstr(fname, ident.c_str());
if (pfname != fname) pfname = 0;
if (pfname) {
if (sscanf(pfname + ident.size(), "#%08X#%01X#%01X#%08X", &chksum, &fmt, &siz, &palchksum) == 4)
pfname += (ident.size() + CRCFMTSIZ_LEN + PALCRC_LEN);
else if (sscanf(pfname + ident.size(), "#%08X#%01X#%01X", &chksum, &fmt, &siz) == 3)
pfname += (ident.size() + CRCFMTSIZ_LEN);
else
pfname = 0;
}
if (!pfname) {
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
INFO(80, L"Error: not Rice texture naming convention!\n");
continue;
}
if (!chksum) {
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
INFO(80, L"Error: crc32 = 0!\n");
continue;
}
/* check if we already have it in hires texture cache */
if (!replace) {
uint64 chksum64 = (uint64)palchksum;
chksum64 <<= 32;
chksum64 |= (uint64)chksum;
if (TxCache::is_cached(chksum64)) {
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
INFO(80, L"Error: already cached! duplicate texture!\n");
continue;
}
}
DBG_INFO(80, L"rom: %ls chksum:%08X %08X fmt:%x size:%x\n", _ident.c_str(), chksum, palchksum, fmt, siz);
/* Deal with the wackiness some texture packs utilize Rice format.
* Read in the following order: _a.* + _rgb.*, _all.png _ciByRGBA.png,
* _allciByRGBA.png, and _ci.bmp. PNG are prefered over BMP.
*
* For some reason there are texture packs that include them all. Some
* even have RGB textures named as _all.* and ARGB textures named as
* _rgb.*... Someone pleeeez write a GOOD guideline for the texture
* designers!!!
*
* We allow hires textures to have higher bpp than the N64 originals.
*/
/* N64 formats
* Format: 0 - RGBA, 1 - YUV, 2 - CI, 3 - IA, 4 - I
* Size: 0 - 4bit, 1 - 8bit, 2 - 16bit, 3 - 32 bit
*/
/*
* read in _rgb.* and _a.*
*/
if (pfname == strstr(fname, "_rgb.") || pfname == strstr(fname, "_a.")) {
strcpy(pfname, "_rgb.png");
CPath TargetFile(dir_path,fname);
if (!TargetFile.Exists())
{
strcpy(pfname, "_rgb.bmp");
TargetFile = CPath(dir_path,fname);
if (!TargetFile.Exists())
{
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
INFO(80, L"Error: missing _rgb.*! _a.* must be paired with _rgb.*!\n");
continue;
}
}
/* _a.png */
strcpy(pfname, "_a.png");
TargetFile = CPath(dir_path,fname);
if ((fp = fopen(TargetFile, "rb")) != NULL) {
tmptex = _txImage->readPNG(fp, &tmpwidth, &tmpheight, &tmpformat);
fclose(fp);
}
if (!tmptex) {
/* _a.bmp */
strcpy(pfname, "_a.bmp");
TargetFile = CPath(dir_path,fname);
if ((fp = fopen(TargetFile, "rb")) != NULL) {
tmptex = _txImage->readBMP(fp, &tmpwidth, &tmpheight, &tmpformat);
fclose(fp);
}
}
/* _rgb.png */
strcpy(pfname, "_rgb.png");
TargetFile = CPath(dir_path,fname);
if ((fp = fopen(TargetFile, "rb")) != NULL) {
tex = _txImage->readPNG(fp, &width, &height, &format);
fclose(fp);
}
if (!tex) {
/* _rgb.bmp */
strcpy(pfname, "_rgb.bmp");
TargetFile = CPath(dir_path,fname);
if ((fp = fopen(TargetFile, "rb")) != NULL) {
tex = _txImage->readBMP(fp, &width, &height, &format);
fclose(fp);
}
}
if (tmptex) {
/* check if _rgb.* and _a.* have matching size and format. */
if (!tex || width != tmpwidth || height != tmpheight ||
format != GR_TEXFMT_ARGB_8888 || tmpformat != GR_TEXFMT_ARGB_8888) {
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
if (!tex) {
INFO(80, L"Error: missing _rgb.*!\n");
} else if (width != tmpwidth || height != tmpheight) {
INFO(80, L"Error: _rgb.* and _a.* have mismatched width or height!\n");
} else if (format != GR_TEXFMT_ARGB_8888 || tmpformat != GR_TEXFMT_ARGB_8888) {
INFO(80, L"Error: _rgb.* or _a.* not in 32bit color!\n");
}
if (tex) free(tex);
if (tmptex) free(tmptex);
tex = NULL;
tmptex = NULL;
continue;
}
}
/* make adjustments */
if (tex) {
if (tmptex) {
/* merge (A)RGB and A comp */
DBG_INFO(80, L"merge (A)RGB and A comp\n");
int i;
for (i = 0; i < height * width; i++) {
#if 1
/* use R comp for alpha. this is what Rice uses. sigh... */
((uint32*)tex)[i] &= 0x00ffffff;
((uint32*)tex)[i] |= ((((uint32*)tmptex)[i] & 0x00ff0000) << 8);
#endif
#if 0
/* use libpng style grayscale conversion */
uint32 texel = ((uint32*)tmptex)[i];
uint32 acomp = (((texel >> 16) & 0xff) * 6969 +
((texel >> 8) & 0xff) * 23434 +
((texel ) & 0xff) * 2365) / 32768;
((uint32*)tex)[i] = (acomp << 24) | (((uint32*)tex)[i] & 0x00ffffff);
#endif
#if 0
/* use the standard NTSC gray scale conversion */
uint32 texel = ((uint32*)tmptex)[i];
uint32 acomp = (((texel >> 16) & 0xff) * 299 +
((texel >> 8) & 0xff) * 587 +
((texel ) & 0xff) * 114) / 1000;
((uint32*)tex)[i] = (acomp << 24) | (((uint32*)tex)[i] & 0x00ffffff);
#endif
}
free(tmptex);
tmptex = NULL;
} else {
/* clobber A comp. never a question of alpha. only RGB used. */
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
INFO(80, L"Warning: missing _a.*! only using _rgb.*. treat as opaque texture.\n");
int i;
for (i = 0; i < height * width; i++) {
((uint32*)tex)[i] |= 0xff000000;
}
}
}
} else
/*
* read in _all.png, _all.dds, _allciByRGBA.png, _allciByRGBA.dds
* _ciByRGBA.png, _ciByRGBA.dds, _ci.bmp
*/
if (pfname == strstr(fname, "_all.png") ||
pfname == strstr(fname, "_all.dds") ||
#ifdef _WIN32
pfname == strstr(fname, "_allcibyrgba.png") ||
pfname == strstr(fname, "_allcibyrgba.dds") ||
pfname == strstr(fname, "_cibyrgba.png") ||
pfname == strstr(fname, "_cibyrgba.dds") ||
#else
pfname == strstr(fname, "_allciByRGBA.png") ||
pfname == strstr(fname, "_allciByRGBA.dds") ||
pfname == strstr(fname, "_ciByRGBA.png") ||
pfname == strstr(fname, "_ciByRGBA.dds") ||
#endif
pfname == strstr(fname, "_ci.bmp")) {
CPath TargetFile(dir_path,fname);
if ((fp = fopen(TargetFile, "rb")) != NULL) {
if (strstr(fname, ".png")) tex = _txImage->readPNG(fp, &width, &height, &format);
else if (strstr(fname, ".dds")) tex = _txImage->readDDS(fp, &width, &height, &format);
else tex = _txImage->readBMP(fp, &width, &height, &format);
fclose(fp);
}
/* XXX: auto-adjustment of dxt dds textures unsupported for now */
if (tex && strstr(fname, ".dds")) {
const float aspectratio = (width > height) ? (float)width/(float)height : (float)height/(float)width;
if (!(aspectratio == 1.0 ||
aspectratio == 2.0 ||
aspectratio == 4.0 ||
aspectratio == 8.0)) {
free(tex);
tex = NULL;
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
INFO(80, L"Error: W:H aspect ratio range not 8:1 - 1:8!\n");
continue;
}
if (width != _txReSample->nextPow2(width) ||
height != _txReSample->nextPow2(height)) {
free(tex);
tex = NULL;
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
INFO(80, L"Error: not power of 2 size!\n");
continue;
}
}
}
/* if we do not have a texture at this point we are screwed */
if (!tex) {
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
INFO(80, L"Error: load failed!\n");
continue;
}
DBG_INFO(80, L"read in as %d x %d gfmt:%x\n", tmpwidth, tmpheight, tmpformat);
/* check if size and format are OK */
if (!(format == GR_TEXFMT_ARGB_8888 ||
format == GR_TEXFMT_P_8 ||
format == GR_TEXFMT_ARGB_CMP_DXT1 ||
format == GR_TEXFMT_ARGB_CMP_DXT3 ||
format == GR_TEXFMT_ARGB_CMP_DXT5) ||
(width * height) < 4) { /* TxQuantize requirement: width * height must be 4 or larger. */
free(tex);
tex = NULL;
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
INFO(80, L"Error: not width * height > 4 or 8bit palette color or 32bpp or dxt1 or dxt3 or dxt5!\n");
continue;
}
/* analyze and determine best format to quantize */
if (format == GR_TEXFMT_ARGB_8888) {
int i;
int alphabits = 0;
int fullalpha = 0;
boolean intensity = 1;
if (!(_options & LET_TEXARTISTS_FLY)) {
/* HACK ALERT! */
/* Account for Rice's weirdness with fmt:0 siz:2 textures.
* Although the conditions are relaxed with other formats,
* the D3D RGBA5551 surface is used for this format in certain
* cases. See Nintemod's SuperMario64 life gauge and power
* meter. The same goes for fmt:2 textures. See Mollymutt's
* PaperMario text. */
if ((fmt == 0 && siz == 2) || fmt == 2) {
DBG_INFO(80, L"Remove black, white, etc borders along the alpha edges.\n");
/* round A comp */
for (i = 0; i < height * width; i++) {
uint32 texel = ((uint32*)tex)[i];
((uint32*)tex)[i] = ((texel & 0xff000000) == 0xff000000 ? 0xff000000 : 0) |
(texel & 0x00ffffff);
}
/* Substitute texel color with the average of the surrounding
* opaque texels. This removes borders regardless of hardware
* texture filtering (bilinear, etc). */
int j;
for (i = 0; i < height; i++) {
for (j = 0; j < width; j++) {
uint32 texel = ((uint32*)tex)[i * width + j];
if ((texel & 0xff000000) != 0xff000000) {
uint32 tmptexel[8];
uint32 k, numtexel, r, g, b;
numtexel = r = g = b = 0;
memset(&tmptexel, 0, sizeof(tmptexel));
if (i > 0) {
tmptexel[0] = ((uint32*)tex)[(i - 1) * width + j]; /* north */
if (j > 0) tmptexel[1] = ((uint32*)tex)[(i - 1) * width + j - 1]; /* north-west */
if (j < width - 1) tmptexel[2] = ((uint32*)tex)[(i - 1) * width + j + 1]; /* north-east */
}
if (i < height - 1) {
tmptexel[3] = ((uint32*)tex)[(i + 1) * width + j]; /* south */
if (j > 0) tmptexel[4] = ((uint32*)tex)[(i + 1) * width + j - 1]; /* south-west */
if (j < width - 1) tmptexel[5] = ((uint32*)tex)[(i + 1) * width + j + 1]; /* south-east */
}
if (j > 0) tmptexel[6] = ((uint32*)tex)[i * width + j - 1]; /* west */
if (j < width - 1) tmptexel[7] = ((uint32*)tex)[i * width + j + 1]; /* east */
for (k = 0; k < 8; k++) {
if ((tmptexel[k] & 0xff000000) == 0xff000000) {
r += ((tmptexel[k] & 0x00ff0000) >> 16);
g += ((tmptexel[k] & 0x0000ff00) >> 8);
b += ((tmptexel[k] & 0x000000ff) );
numtexel++;
}
}
if (numtexel) {
((uint32*)tex)[i * width + j] = ((r / numtexel) << 16) |
((g / numtexel) << 8) |
((b / numtexel) );
} else {
((uint32*)tex)[i * width + j] = texel & 0x00ffffff;
}
}
}
}
}
}
/* simple analysis of texture */
for (i = 0; i < height * width; i++) {
uint32 texel = ((uint32*)tex)[i];
if (alphabits != 8) {
#if AGGRESSIVE_QUANTIZATION
if ((texel & 0xff000000) < 0x00000003) {
alphabits = 1;
fullalpha++;
} else if ((texel & 0xff000000) < 0xfe000000) {
alphabits = 8;
}
#else
if ((texel & 0xff000000) == 0x00000000) {
alphabits = 1;
fullalpha++;
} else if ((texel & 0xff000000) != 0xff000000) {
alphabits = 8;
}
#endif
}
if (intensity) {
int rcomp = (texel >> 16) & 0xff;
int gcomp = (texel >> 8) & 0xff;
int bcomp = (texel ) & 0xff;
#if AGGRESSIVE_QUANTIZATION
if (abs(rcomp - gcomp) > 8 || abs(rcomp - bcomp) > 8 || abs(gcomp - bcomp) > 8) intensity = 0;
#else
if (rcomp != gcomp || rcomp != bcomp || gcomp != bcomp) intensity = 0;
#endif
}
if (!intensity && alphabits == 8) break;
}
DBG_INFO(80, L"required alpha bits:%d zero acomp texels:%d rgb as intensity:%d\n", alphabits, fullalpha, intensity);
/* preparations based on above analysis */
#if !REDUCE_TEXTURE_FOOTPRINT
if (_maxbpp < 32 || _options & (FORCE16BPP_HIRESTEX|COMPRESSION_MASK)) {
#endif
if (alphabits == 0) destformat = GR_TEXFMT_RGB_565;
else if (alphabits == 1) destformat = GR_TEXFMT_ARGB_1555;
else destformat = GR_TEXFMT_ARGB_8888;
#if !REDUCE_TEXTURE_FOOTPRINT
} else {
destformat = GR_TEXFMT_ARGB_8888;
}
#endif
if (fmt == 4 && alphabits == 0) {
destformat = GR_TEXFMT_ARGB_8888;
/* Rice I format; I = (R + G + B) / 3 */
for (i = 0; i < height * width; i++) {
uint32 texel = ((uint32*)tex)[i];
uint32 icomp = (((texel >> 16) & 0xff) +
((texel >> 8) & 0xff) +
((texel ) & 0xff)) / 3;
((uint32*)tex)[i] = (icomp << 24) | (texel & 0x00ffffff);
}
}
if (intensity) {
if (alphabits == 0) {
if (fmt == 4) destformat = GR_TEXFMT_ALPHA_8;
else destformat = GR_TEXFMT_INTENSITY_8;
} else {
destformat = GR_TEXFMT_ALPHA_INTENSITY_88;
}
}
DBG_INFO(80, L"best gfmt:%x\n", destformat);
}
/*
* Rice hi-res textures: end */
/* XXX: only ARGB8888 for now. comeback to this later... */
if (format == GR_TEXFMT_ARGB_8888) {
#if TEXTURE_TILING
/* Glide64 style texture tiling */
/* NOTE: narrow wide textures can be tiled into 256x256 size textures */
/* adjust texture size to allow tiling for V1, Rush, V2, Banshee, V3 */
/* NOTE: we skip this for palette textures that need minification
* becasue it will look ugly. */
/* minification */
{
int ratio = 1;
/* minification to enable glide64 style texture tiling */
/* determine the minification ratio to tile the texture into 256x256 size */
if ((_options & TILE_HIRESTEX) && _maxwidth >= 256 && _maxheight >= 256) {
DBG_INFO(80, L"determine minification ratio to tile\n");
tmpwidth = width;
tmpheight = height;
if (height > 256) {
ratio = ((height - 1) >> 8) + 1;
tmpwidth = width / ratio;
tmpheight = height / ratio;
DBG_INFO(80, L"height > 256, minification ratio:%d %d x %d -> %d x %d\n",
ratio, width, height, tmpwidth, tmpheight);
}
if (tmpwidth > 256 && (((tmpwidth - 1) >> 8) + 1) * tmpheight > 256) {
ratio *= ((((((tmpwidth - 1) >> 8) + 1) * tmpheight) - 1) >> 8) + 1;
DBG_INFO(80, L"width > 256, minification ratio:%d %d x %d -> %d x %d\n",
ratio, width, height, width / ratio, height / ratio);
}
} else {
/* normal minification to fit max texture size */
if (width > _maxwidth || height > _maxheight) {
DBG_INFO(80, L"determine minification ratio to fit max texture size\n");
tmpwidth = width;
tmpheight = height;
while (tmpwidth > _maxwidth) {
tmpheight >>= 1;
tmpwidth >>= 1;
ratio <<= 1;
}
while (tmpheight > _maxheight) {
tmpheight >>= 1;
tmpwidth >>= 1;
ratio <<= 1;
}
DBG_INFO(80, L"minification ratio:%d %d x %d -> %d x %d\n",
ratio, width, height, tmpwidth, tmpheight);
}
}
if (ratio > 1) {
if (!_txReSample->minify(&tex, &width, &height, ratio)) {
free(tex);
tex = NULL;
DBG_INFO(80, L"Error: minification failed!\n");
continue;
}
}
}
/* tiling */
if ((_options & TILE_HIRESTEX) && _maxwidth >= 256 && _maxheight >= 256) {
boolean usetile = 0;
/* to tile or not to tile, that is the question */
if (width > 256 && height <= 128 && (((width - 1) >> 8) + 1) * height <= 256) {
if (width > _maxwidth) usetile = 1;
else {
/* tile if the tiled texture memory footprint is smaller */
int tilewidth = 256;
int tileheight = _txReSample->nextPow2((((width - 1) >> 8) + 1) * height);
tmpwidth = width;
tmpheight = height;
/* 3dfx Glide3 tmpheight, W:H aspect ratio range (8:1 - 1:8) */
if (tilewidth > (tileheight << 3)) tileheight = tilewidth >> 3;
/* HACKALERT: see TxReSample::pow2(); */
if (tmpwidth > 64) tmpwidth -= 4;
else if (tmpwidth > 16) tmpwidth -= 2;
else if (tmpwidth > 4) tmpwidth -= 1;
if (tmpheight > 64) tmpheight -= 4;
else if (tmpheight > 16) tmpheight -= 2;
else if (tmpheight > 4) tmpheight -= 1;
tmpwidth = _txReSample->nextPow2(tmpwidth);
tmpheight = _txReSample->nextPow2(tmpheight);
/* 3dfx Glide3 tmpheight, W:H aspect ratio range (8:1 - 1:8) */
if (tmpwidth > tmpheight) {
if (tmpwidth > (tmpheight << 3)) tmpheight = tmpwidth >> 3;
} else {
if (tmpheight > (tmpwidth << 3)) tmpwidth = tmpheight >> 3;
}
usetile = (tilewidth * tileheight < tmpwidth * tmpheight);
}
}
/* tile it! do the actual tiling into 256x256 size */
if (usetile) {
DBG_INFO(80, L"Glide64 style texture tiling\n");
int x, y, z, ratio, offset;
offset = 0;
ratio = ((width - 1) >> 8) + 1;
tmptex = (uint8 *)malloc(_txUtil->sizeofTx(256, height * ratio, format));
if (tmptex) {
for (x = 0; x < ratio; x++) {
for (y = 0; y < height; y++) {
if (x < ratio - 1) {
memcpy(&tmptex[offset << 2], &tex[(x * 256 + y * width) << 2], 256 << 2);
} else {
for (z = 0; z < width - 256 * (ratio - 1); z++) {
((uint32*)tmptex)[offset + z] = ((uint32*)tex)[x * 256 + y * width + z];
}
for (; z < 256; z++) {
((uint32*)tmptex)[offset + z] = ((uint32*)tmptex)[offset + z - 1];
}
}
offset += 256;
}
}
free(tex);
tex = tmptex;
untiled_width = width;
untiled_height = height;
width = 256;
height *= ratio;
DBG_INFO(80, L"Tiled: %d x %d -> %d x %d\n", untiled_width, untiled_height, width, height);
}
}
}
#else /* TEXTURE_TILING */
/* minification */
if (width > _maxwidth || height > _maxheight) {
int ratio = 1;
if (width / _maxwidth > height / _maxheight) {
ratio = (int)ceil((double)width / _maxwidth);
} else {
ratio = (int)ceil((double)height / _maxheight);
}
if (!_txReSample->minify(&tex, &width, &height, ratio)) {
free(tex);
tex = NULL;
DBG_INFO(80, L"Error: minification failed!\n");
continue;
}
}
#endif /* TEXTURE_TILING */
/* texture compression */
if ((_options & COMPRESSION_MASK) &&
(width >= 64 && height >= 64) /* Texture compression is not suitable for low pixel coarse detail
* textures. The assumption here is that textures larger than 64x64
* have enough detail to produce decent quality when compressed. The
* down side is that narrow stripped textures that the N64 often use
* for large background textures are also ignored. It would be more
* reasonable if decisions are made based on fourier-transform
* spectrum or RMS error.
*
* NOTE: texture size must be checked before expanding to pow2 size.
*/
) {
int dataSize = 0;
int compressionType = _options & COMPRESSION_MASK;
#if POW2_TEXTURES
#if (POW2_TEXTURES == 2)
/* 3dfx Glide3x aspect ratio (8:1 - 1:8) */
if (!_txReSample->nextPow2(&tex, &width , &height, 32, 1)) {
#else
/* normal pow2 expansion */
if (!_txReSample->nextPow2(&tex, &width , &height, 32, 0)) {
#endif
free(tex);
tex = NULL;
DBG_INFO(80, L"Error: aspect ratio adjustment failed!\n");
continue;
}
#endif
switch (_options & COMPRESSION_MASK) {
case S3TC_COMPRESSION:
switch (destformat) {
case GR_TEXFMT_ARGB_8888:
#if GLIDE64_DXTN
case GR_TEXFMT_ARGB_1555: /* for ARGB1555 use DXT5 instead of DXT1 */
#endif
case GR_TEXFMT_ALPHA_INTENSITY_88:
dataSize = width * height;
break;
#if !GLIDE64_DXTN
case GR_TEXFMT_ARGB_1555:
#endif
case GR_TEXFMT_RGB_565:
case GR_TEXFMT_INTENSITY_8:
dataSize = (width * height) >> 1;
break;
case GR_TEXFMT_ALPHA_8: /* no size benefit with dxtn */
;
}
break;
case FXT1_COMPRESSION:
switch (destformat) {
case GR_TEXFMT_ARGB_1555:
case GR_TEXFMT_RGB_565:
case GR_TEXFMT_INTENSITY_8:
dataSize = (width * height) >> 1;
break;
/* XXX: textures that use 8bit alpha channel look bad with the current
* fxt1 library, so we substitute it with dxtn for now. afaik all gfx
* cards that support fxt1 also support dxtn. (3dfx and Intel) */
case GR_TEXFMT_ALPHA_INTENSITY_88:
case GR_TEXFMT_ARGB_8888:
compressionType = S3TC_COMPRESSION;
dataSize = width * height;
break;
case GR_TEXFMT_ALPHA_8: /* no size benefit with dxtn */
;
}
}
/* compress it! */
if (dataSize) {
#if 0 /* TEST: dither before compression for better results with gradients */
tmptex = (uint8 *)malloc(_txUtil->sizeofTx(width, height, destformat));
if (tmptex) {
if (_txQuantize->quantize(tex, tmptex, width, height, GR_TEXFMT_ARGB_8888, destformat, 0))
_txQuantize->quantize(tmptex, tex, width, height, destformat, GR_TEXFMT_ARGB_8888, 0);
free(tmptex);
}
#endif
tmptex = (uint8 *)malloc(dataSize);
if (tmptex) {
if (_txQuantize->compress(tex, tmptex,
width, height, destformat,
&tmpwidth, &tmpheight, &tmpformat,
compressionType)) {
free(tex);
tex = tmptex;
width = tmpwidth;
height = tmpheight;
format = destformat = tmpformat;
} else {
free(tmptex);
}
}
}
} else {
#if POW2_TEXTURES
#if (POW2_TEXTURES == 2)
/* 3dfx Glide3x aspect ratio (8:1 - 1:8) */
if (!_txReSample->nextPow2(&tex, &width , &height, 32, 1)) {
#else
/* normal pow2 expansion */
if (!_txReSample->nextPow2(&tex, &width , &height, 32, 0)) {
#endif
free(tex);
tex = NULL;
DBG_INFO(80, L"Error: aspect ratio adjustment failed!\n");
continue;
}
#endif
}
/* quantize */
{
tmptex = (uint8 *)malloc(_txUtil->sizeofTx(width, height, destformat));
if (tmptex) {
switch (destformat) {
case GR_TEXFMT_ARGB_8888:
case GR_TEXFMT_ARGB_4444:
#if !REDUCE_TEXTURE_FOOTPRINT
if (_maxbpp < 32 || _options & FORCE16BPP_HIRESTEX)
#endif
destformat = GR_TEXFMT_ARGB_4444;
break;
case GR_TEXFMT_ARGB_1555:
#if !REDUCE_TEXTURE_FOOTPRINT
if (_maxbpp < 32 || _options & FORCE16BPP_HIRESTEX)
#endif
destformat = GR_TEXFMT_ARGB_1555;
break;
case GR_TEXFMT_RGB_565:
#if !REDUCE_TEXTURE_FOOTPRINT
if (_maxbpp < 32 || _options & FORCE16BPP_HIRESTEX)
#endif
destformat = GR_TEXFMT_RGB_565;
break;
case GR_TEXFMT_ALPHA_INTENSITY_88:
case GR_TEXFMT_ALPHA_INTENSITY_44:
#if !REDUCE_TEXTURE_FOOTPRINT
destformat = GR_TEXFMT_ALPHA_INTENSITY_88;
#else
destformat = GR_TEXFMT_ALPHA_INTENSITY_44;
#endif
break;
case GR_TEXFMT_ALPHA_8:
destformat = GR_TEXFMT_ALPHA_8; /* yes, this is correct. ALPHA_8 instead of INTENSITY_8 */
break;
case GR_TEXFMT_INTENSITY_8:
destformat = GR_TEXFMT_INTENSITY_8;
}
if (_txQuantize->quantize(tex, tmptex, width, height, GR_TEXFMT_ARGB_8888, destformat, 0)) {
format = destformat;
free(tex);
tex = tmptex;
}
}
}
}
/* last minute validations */
if (!tex || !chksum || !width || !height || !format || width > _maxwidth || height > _maxheight) {
#if !DEBUG
INFO(80, L"-----\n");
INFO(80, L"path: %ls\n", stdstr(dir_path).ToUTF16().c_str());
INFO(80, L"file: %ls\n", TextureDir.GetNameExtension().ToUTF16().c_str());
#endif
if (tex) {
free(tex);
tex = NULL;
INFO(80, L"Error: bad format or size! %d x %d gfmt:%x\n", width, height, format);
} else {
INFO(80, L"Error: load failed!!\n");
}
continue;
}
/* load it into hires texture cache. */
{
uint64 chksum64 = (uint64)palchksum;
chksum64 <<= 32;
chksum64 |= (uint64)chksum;
GHQTexInfo tmpInfo;
memset(&tmpInfo, 0, sizeof(GHQTexInfo));
tmpInfo.data = tex;
tmpInfo.width = width;
tmpInfo.height = height;
tmpInfo.format = format;
tmpInfo.largeLodLog2 = _txUtil->grLodLog2(width, height);
tmpInfo.smallLodLog2 = tmpInfo.largeLodLog2;
tmpInfo.aspectRatioLog2 = _txUtil->grAspectRatioLog2(width, height);
tmpInfo.is_hires_tex = 1;
#if TEXTURE_TILING
/* Glide64 style texture tiling. */
if (untiled_width && untiled_height) {
tmpInfo.tiles = ((untiled_width - 1) >> 8) + 1;
tmpInfo.untiled_width = untiled_width;
tmpInfo.untiled_height = untiled_height;
}
#endif
/* remove redundant in cache */
if (replace && TxCache::del(chksum64)) {
DBG_INFO(80, L"removed duplicate old cache.\n");
}
/* add to cache */
if (TxCache::add(chksum64, &tmpInfo)) {
/* Callback to display hires texture info.
* Gonetz <gonetz(at)ngs.ru> */
if (_callback) {
wchar_t tmpbuf[MAX_PATH];
mbstowcs(tmpbuf, fname, MAX_PATH);
(*_callback)(L"[%d] total mem:%.2fmb - %ls\n", _cache.size(), (float)_totalSize/1000000, tmpbuf);
}
DBG_INFO(80, L"texture loaded!\n");
}
free(tex);
}
} while (TextureDir.FindNext());
}
return 1;
}