ps2 raster conversion

This commit is contained in:
aap 2019-08-04 23:52:03 +02:00
parent 6b36390bdc
commit 14c773d35a
4 changed files with 184 additions and 9 deletions

View File

@ -461,6 +461,8 @@ Matrix::lookAt(const V3d &dir, const V3d &up)
this->flags = TYPEORTHONORMAL; this->flags = TYPEORTHONORMAL;
} }
/* For a row-major representation, this calculates src1 * src.
* For colum-major src2 * src1 */
void void
Matrix::mult_(Matrix *dst, const Matrix *src1, const Matrix *src2) Matrix::mult_(Matrix *dst, const Matrix *src1, const Matrix *src2)
{ {

View File

@ -506,6 +506,11 @@ Geometry::buildMeshes(void)
Triangle *tri; Triangle *tri;
Mesh *mesh; Mesh *mesh;
if(this->flags & Geometry::NATIVE){
fprintf(stderr, "WARNING: trying Geometry::buildMeshes() on pre-instanced geometry\n");
return;
}
rwFree(this->meshHeader); rwFree(this->meshHeader);
this->meshHeader = nil; this->meshHeader = nil;
int32 numMeshes = this->matList.numMaterials; int32 numMeshes = this->matList.numMaterials;

View File

@ -33,6 +33,7 @@ driverOpen(void *o, int32, int32)
engine->driver[PLATFORM_PS2]->rasterLock = rasterLock; engine->driver[PLATFORM_PS2]->rasterLock = rasterLock;
engine->driver[PLATFORM_PS2]->rasterUnlock = rasterUnlock; engine->driver[PLATFORM_PS2]->rasterUnlock = rasterUnlock;
engine->driver[PLATFORM_PS2]->rasterNumLevels = rasterNumLevels; engine->driver[PLATFORM_PS2]->rasterNumLevels = rasterNumLevels;
engine->driver[PLATFORM_PS2]->rasterFromImage = rasterFromImage;
engine->driver[PLATFORM_PS2]->rasterToImage = rasterToImage; engine->driver[PLATFORM_PS2]->rasterToImage = rasterToImage;
return o; return o;

View File

@ -1339,7 +1339,7 @@ rasterCreate(Raster *raster)
break; break;
case Raster::CAMERATEXTURE: case Raster::CAMERATEXTURE:
// TODO. only RW_PS2 // TODO. only RW_PS2
// check wdith/height and fall through to texture // check width/height and fall through to texture
break; break;
} }
@ -1421,6 +1421,30 @@ unswizzle32to8(uint8 *dst, uint8 *src, int32 w, int32 h)
dst[y*w+x] = src[swizzled]; dst[y*w+x] = src[swizzled];
} }
} }
static void
swizzle8to32(uint8 *dst, uint8 *src, int32 w, int32 h)
{
int32 x, y;
for(y = 0; y < h; y++)
for(x = 0; x < w; x++) {
// byte address of beginning of PSMCT32 block
// yblock = y/16 * w/16 * 256
int32 block_loc = (y&(~0xF))*w + (x&(~0xF))*2;
// y coordinate in PSMCT32 block
int32 ypos = (((y&~3)>>1) // column number
+ (y&1))&0x7; // row inside column
// indices are swapped in groups of 4 every 4
// pixel rows in a block, first at y = 2
int32 swap_sel = (y+2)&4;
// byte address of word in PSMCT32 block
int32 word_loc = ypos*w*2 + ((x+swap_sel)&0x7)*4;
// byte offset in 32 bit word
int32 byte_loc = ((y>>1)&1) + ((x>>2)&2);
int32 swizzled = block_loc + word_loc + byte_loc;
dst[swizzled] = src[y*w+x];
}
}
// Unswizzle PSMT4 from PSMCT16 format // Unswizzle PSMT4 from PSMCT16 format
static void static void
@ -1453,6 +1477,37 @@ unswizzle16to4(uint8 *dst, uint8 *src, int32 w, int32 h)
dst[addr>>1] = dst[addr>>1]&0xF0 | c; dst[addr>>1] = dst[addr>>1]&0xF0 | c;
} }
} }
static void
swizzle4to16(uint8 *dst, uint8 *src, int32 w, int32 h)
{
int32 x, y;
for(y = 0; y < h; y++)
for(x = 0; x < w; x++){
// byte address of beginning of PSMCT16 block
// yblock = y/16 * w/32 * 256
int32 block_loc = (y&(~0xF))*w/2 + (x&(~0x1F));
// y coordinate in PSMCT16 block
int32 ypos = (((y&~3)>>1) // column number
+ (y&1))&0x7; // row inside column
// indices are swapped in groups of 4 every 4
// pixel rows in a block, first at y = 2
int32 swap_sel = (y+2)&4;
// byte address of halfword in PSMCT16 block
int32 hword_loc = ypos*w
+ (((x+swap_sel) & 0x7) + ((x & 0x10)>>1))*2;
// byte offset in 16 bit word
int32 byte_loc = (x>>3)&1;
uint32 swizzled = block_loc + hword_loc + byte_loc;
int32 addr = y*w + x;
int8 c = addr & 1 ? src[addr>>1] >> 4 : src[addr>>1] & 0xF;
// y&2 selects nibbles
if(y & 2)
dst[swizzled] = dst[swizzled]&0xF | c<<4;
else
dst[swizzled] = dst[swizzled]&0xF0 | c;
}
}
void void
expandPSMT4(uint8 *dst, uint8 *src, int32 w, int32 h, int32 srcw) expandPSMT4(uint8 *dst, uint8 *src, int32 w, int32 h, int32 srcw)
@ -1464,6 +1519,14 @@ expandPSMT4(uint8 *dst, uint8 *src, int32 w, int32 h, int32 srcw)
dst[y*w + x*2 + 1] = src[y*srcw/2 + x] >> 4; dst[y*w + x*2 + 1] = src[y*srcw/2 + x] >> 4;
} }
} }
void
compressPSMT4(uint8 *dst, uint8 *src, int32 w, int32 h, int32 srcw)
{
int32 x, y;
for(y = 0; y < h; y++)
for(x = 0; x < w/2; x++)
dst[y*srcw/2 + x] = src[y*w + x*2 + 0] | src[y*w + x*2 + 1] << 4;
}
void void
copyPSMT8(uint8 *dst, uint8 *src, int32 w, int32 h, int32 srcw) copyPSMT8(uint8 *dst, uint8 *src, int32 w, int32 h, int32 srcw)
@ -1474,6 +1537,92 @@ copyPSMT8(uint8 *dst, uint8 *src, int32 w, int32 h, int32 srcw)
dst[y*w + x] = src[y*srcw + x]; dst[y*w + x] = src[y*srcw + x];
} }
void
rasterFromImage(Raster *raster, Image *image)
{
Ps2Raster *natras = PLUGINOFFSET(Ps2Raster, raster, nativeRasterOffset);
raster->flags &= ~Raster::DONTALLOCATE;
if(raster->format & (Raster::PAL4|Raster::PAL8) &&
(raster->format & 0xF00) == Raster::C1555){
raster->format &= 0xF000;
raster->format |= Raster::C8888;
}
rasterCreate(raster);
uint8 *in, *out;
if(image->depth <= 8){
in = image->palette;
out = paletteLock(raster);
if(image->depth == 4)
memcpy(out, in, 4*16);
else
convertCSM1_32((uint32*)out, (uint32*)in);
paletteUnlock(raster);
}
int32 w, h;
w = image->width;
h = image->height;
int minw, minh;
int th, tw;
transferMinSize(image->depth == 4 ? PSMT4 : PSMT8, natras->flags, &minw, &minh);
tw = max(w, minw);
th = max(h, minh);
in = image->pixels;
out = raster->lock(0);
if(image->depth == 4){
if(natras->flags & Ps2Raster::SWIZZLED4){
uint8 *tmp = rwNewT(uint8, tw*th/2, MEMDUR_FUNCTION | ID_RASTERPS2);
compressPSMT4(tmp, in, w, h, tw);
swizzle4to16(out, tmp, tw, th);
rwFree(tmp);
}else
compressPSMT4(out, in, w, h, tw);
}else if(image->depth == 8){
if(natras->flags & Ps2Raster::SWIZZLED8){
uint8 *tmp = rwNewT(uint8, tw*th, MEMDUR_FUNCTION | ID_RASTERPS2);
copyPSMT8(tmp, in, w, h, tw);
swizzle8to32(out, tmp, tw, th);
rwFree(tmp);
}else
copyPSMT8(out, in, w, h, tw);
}else{
// TODO: stride
for(int32 y = 0; y < image->height; y++)
for(int32 x = 0; x < image->width; x++)
switch(raster->format & 0xF00){
case Raster::C8888:
out[0] = in[0];
out[1] = in[1];
out[2] = in[2];
out[3] = in[3]*128/255;
in += 4;
out += 4;
break;
case Raster::C888:
out[0] = in[0];
out[1] = in[1];
out[2] = in[2];
out[3] = 0x80;
in += 3;
out += 4;
break;
case Raster::C1555:
out[0] = in[0];
out[1] = in[1];
in += 2;
out += 2;
break;
default:
assert(0 && "unknown ps2 raster format");
break;
}
}
raster->unlock(0);
}
Image* Image*
rasterToImage(Raster *raster) rasterToImage(Raster *raster)
{ {
@ -1866,11 +2015,12 @@ streamExt.mipmapVal);
rw::version = oldversion; rw::version = oldversion;
tex->raster = raster; tex->raster = raster;
natras = PLUGINOFFSET(Ps2Raster, raster, nativeRasterOffset); natras = PLUGINOFFSET(Ps2Raster, raster, nativeRasterOffset);
//printf("%X %X\n", natras->paletteOffset, natras->tex1low); //printf("%X %X\n", natras->paletteBase, natras->tex1low);
// printf("%08X%08X %08X%08X %08X%08X\n", // printf("%08X%08X %08X%08X %08X%08X\n",
// natras->tex0[1], natras->tex0[0], // (uint32)natras->tex0, (uint32)(natras->tex0>>32),
// natras->miptbp1[0], natras->miptbp1[1], natras->miptbp2[0], natras->miptbp2[1]); // (uint32)natras->miptbp1, (uint32)(natras->miptbp1>>32),
// printTEX0(((uint64)natras->tex0[1] << 32) | natras->tex0[0]); // (uint32)natras->miptbp2, (uint32)(natras->miptbp2>>32));
// printTEX0(natras->tex0);
uint64 tex1; uint64 tex1;
calcTEX1(raster, &tex1, tex->filterAddressing & 0xF); calcTEX1(raster, &tex1, tex->filterAddressing & 0xF);
// printTEX1(tex1); // printTEX1(tex1);
@ -1879,6 +2029,22 @@ streamExt.mipmapVal);
assert(natras->pixelSize >= streamExt.pixelSize); assert(natras->pixelSize >= streamExt.pixelSize);
assert(natras->paletteSize >= streamExt.paletteSize); assert(natras->paletteSize >= streamExt.paletteSize);
//if(natras->tex0 != streamExt.tex0)
//printf("TEX0: %016llX\n %016llX\n", natras->tex0, streamExt.tex0);
//if(natras->tex1low != streamExt.tex1low)
//printf("TEX1: %08X\n %08X\n", natras->tex1low, streamExt.tex1low);
//if(natras->miptbp1 != streamExt.miptbp1)
//printf("MIP1: %016llX\n %016llX\n", natras->miptbp1, streamExt.miptbp1);
//if(natras->miptbp2 != streamExt.miptbp2)
//printf("MIP2: %016llX\n %016llX\n", natras->miptbp2, streamExt.miptbp2);
//if(natras->paletteBase != streamExt.paletteOffset)
//printf("PAL: %08X\n %08X\n", natras->paletteBase, streamExt.paletteOffset);
//if(natras->pixelSize != streamExt.pixelSize)
//printf("PXS: %08X\n %08X\n", natras->pixelSize, streamExt.pixelSize);
//if(natras->paletteSize != streamExt.paletteSize)
//printf("PLS: %08X\n %08X\n", natras->paletteSize, streamExt.paletteSize);
//if(natras->totalSize != streamExt.totalSize)
//printf("TSZ: %08X\n %08X\n", natras->totalSize, streamExt.totalSize);
natras->tex0 = streamExt.tex0; natras->tex0 = streamExt.tex0;
natras->paletteBase = streamExt.paletteOffset; natras->paletteBase = streamExt.paletteOffset;
natras->tex1low = streamExt.tex1low; natras->tex1low = streamExt.tex1low;
@ -1888,11 +2054,12 @@ streamExt.mipmapVal);
natras->paletteSize = streamExt.paletteSize; natras->paletteSize = streamExt.paletteSize;
natras->totalSize = streamExt.totalSize; natras->totalSize = streamExt.totalSize;
natras->kl = streamExt.mipmapVal; natras->kl = streamExt.mipmapVal;
//printf("%X %X\n", natras->paletteOffset, natras->tex1low); //printf("%X %X\n", natras->paletteBase, natras->tex1low);
// printf("%08X%08X %08X%08X %08X%08X\n", // printf("%08X%08X %08X%08X %08X%08X\n",
// natras->tex0[1], natras->tex0[0], // (uint32)natras->tex0, (uint32)(natras->tex0>>32),
// natras->miptbp1[0], natras->miptbp1[1], natras->miptbp2[0], natras->miptbp2[1]); // (uint32)natras->miptbp1, (uint32)(natras->miptbp1>>32),
// printTEX0(((uint64)natras->tex0[1] << 32) | natras->tex0[0]); // (uint32)natras->miptbp2, (uint32)(natras->miptbp2>>32));
// printTEX0(natras->tex0);
calcTEX1(raster, &tex1, tex->filterAddressing & 0xF); calcTEX1(raster, &tex1, tex->filterAddressing & 0xF);
// printTEX1(tex1); // printTEX1(tex1);