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XeeDreamcastLoader.m
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XeeDreamcastLoader.m
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#import "XeeDreamcastLoader.h"
#define PIXEL_ARGB1555 0
#define PIXEL_RGB565 1
#define PIXEL_ARGB4444 2
#define PIXEL_YUV422 3
#define PIXEL_BUMP 4
#define PIXEL_4BIT 5
#define PIXEL_8BIT 6
#define PIXEL_LAST_EXPANDABLE PIXEL_ARGB4444
static int CalculateMipmapSize(int width,int height)
{
int sum=0;
while(width&&height)
{
width/=2;
height/=2;
sum+=width*height;
}
return sum+1;
}
static uint32_t InterleavedCoords(uint32_t x,uint32_t y)
{
x=(x|(x<<8))&0x00ff00ff;
x=(x|(x<<4))&0x0f0f0f0f;
x=(x|(x<<2))&0x33333333;
x=(x|(x<<1))&0x55555555;
y=(y|(y<<8))&0x00ff00ff;
y=(y|(y<<4))&0x0f0f0f0f;
y=(y|(y<<2))&0x33333333;
y=(y|(y<<1))&0x55555555;
return (x<<1)|y;
}
static uint32_t UnInterleavedXCoord(uint32_t n)
{
n=(n>>1)&0x55555555;
n=(n|(n>>1))&0x33333333;
n=(n|(n>>2))&0x0f0f0f0f;
n=(n|(n>>4))&0x00ff00ff;
n=(n|(n>>8))&0x0000ffff;
return n;
}
static uint32_t UnInterleavedYCoord(uint32_t n)
{
n=n&0x55555555;
n=(n|(n>>1))&0x33333333;
n=(n|(n>>2))&0x0f0f0f0f;
n=(n|(n>>4))&0x00ff00ff;
n=(n|(n>>8))&0x0000ffff;
return n;
}
static uint32_t ExpandColour(int col,int pixelformat)
{
switch(pixelformat)
{
case PIXEL_ARGB1555:
return XeeMakeARGB8(
(-(col>>15))&0xff,
((col>>7)&0xf8)|((col>>12)&0x07),
((col>>2)&0xf8)|((col>>7)&0x07),
((col<<3)&0xf8)|((col>>2)&0x07));
case PIXEL_RGB565:
return XeeMakeNRGB8(
((col>>8)&0xf8)|((col>>13)&0x07),
((col>>3)&0xfc)|((col>>9)&0x03),
((col<<3)&0xf8)|((col>>2)&0x07));
case PIXEL_ARGB4444:
return XeeMakeARGB8(
((col>>8)&0xf0)|((col>>12)&0x0f),
((col>>4)&0xf0)|((col>>8)&0x0f),
(col&0xf0)|((col>>4)&0x0f),
((col<<4)&0xf0)|(col&0x0f));
case PIXEL_YUV422:
return XeeMakeNRGB8(col>>8,col>>8,col>>8);
default: return 0;
}
}
#define ONE_HALF (1<<15)
#define FIX(x) ((int)((x)*(1<<16)+0.5))
#define LIMIT(x) ((x)<0?0:(x)>255?255:(x))
static uint32_t ConvertYUV(int y,int u,int v)
{
int r=y+((FIX(1.40200)*(v-128)+ONE_HALF)>>16);
int g=y+((-FIX(0.34414)*(u-128)-FIX(0.71414)*(v-128)+ONE_HALF)>>16);
int b=y+((FIX(1.77200)*(u-128)+ONE_HALF)>>16);
return XeeMakeNRGB8(LIMIT(r),LIMIT(g),LIMIT(b));
}
@implementation XeeDreamcastImage
static void WritePixel(XeeDreamcastImage *self,int x,int y,uint32_t col)
{
if(x<self->width&&y<self->height) ((uint32_t *)&self->data[y*self->bytesperrow])[x]=col;
}
+(NSArray *)fileTypes
{
return [NSArray arrayWithObject:@"pvr"];
}
+(BOOL)canOpenFile:(NSString *)name firstBlock:(NSData *)block attributes:(NSDictionary *)attributes
{
if([block length]>16)
{
uint32_t magic=XeeBEUInt32([block bytes]);
if(magic=='GBIX') return YES;
if(magic=='PVRT') return YES;
}
return NO;
}
-(void)load
{
CSHandle *fh=[self handle];
uint32_t magic=[fh readID];
if(magic=='GBIX')
{
uint32_t size=[fh readUInt32LE];
[fh skipBytes:size];
magic=[fh readID];
}
if(magic!='PVRT') return;
/*uint32_t length=*/[fh readUInt32LE];
int pixelformat=[fh readUInt8];
int packingtype=[fh readUInt8];
[fh skipBytes:2];
width=[fh readUInt16LE];
height=[fh readUInt16LE];
[self setFormat:@"Dreamcast PVR"];
switch(pixelformat)
{
case PIXEL_ARGB1555:
[self setDepth:@"1:5:5:5 bit ARGB" iconName:@"depth_rgba"];
transparent=YES;
break;
case PIXEL_RGB565:
[self setDepth:@"5:6:5 bit RGB" iconName:@"depth_rgb"];
break;
case PIXEL_ARGB4444:
[self setDepthRGBA:4];
transparent=YES;
break;
case PIXEL_YUV422:
[self setDepth:@"YUV422" iconName:@"depth_rgb"];
break;
case PIXEL_BUMP:
break;
case PIXEL_4BIT:
[self setDepthIndexed:16];
break;
case PIXEL_8BIT:
[self setDepthIndexed:256];
break;
default:
return;
}
[properties addObject:[XeePropertyItem subSectionItemWithLabel:
NSLocalizedString(@"PVR properties",@"PVR properties section title")
identifier:@"pvr.properites"
labelsAndValues:
NSLocalizedString(@"Pixel format",@"PVR pixel format property label"),
[NSString stringWithFormat:@"0x%02x",pixelformat],
NSLocalizedString(@"Pixel packing",@"PVR pixel packing property label"),
[NSString stringWithFormat:@"0x%02x",packingtype],
nil]];
XeeImageLoaderHeaderDone();
[self allocWithType:XeeBitmapTypeARGB8 width:width height:height];
switch(packingtype)
{
case 0x01: // square twiddled
case 0x0d: // rectangle twiddled
if(pixelformat<=PIXEL_LAST_EXPANDABLE) [self loadTwiddledWithOffset:0 pixelFormat:pixelformat];
else if(pixelformat==PIXEL_YUV422) [self loadTwiddledYUVWithOffset:0];
else [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
break;
case 0x02: // square twiddled with mipmap
//case 0x0e: // rectangle twiddled with mipmap
if(pixelformat<=PIXEL_LAST_EXPANDABLE) [self loadTwiddledWithOffset:CalculateMipmapSize(width,height)*2 pixelFormat:pixelformat];
else if(pixelformat==PIXEL_YUV422) [self loadTwiddledYUVWithOffset:CalculateMipmapSize(width,height)*2];
else [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
break;
case 0x03: // VQ
if(pixelformat<=PIXEL_LAST_EXPANDABLE) [self loadVQWithOffset:0 entries:256 pixelFormat:pixelformat];
else [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
break;
case 0x04: // VQ with mipmap
if(pixelformat<=PIXEL_LAST_EXPANDABLE) [self loadVQWithOffset:CalculateMipmapSize(width/2,height/2) entries:256 pixelFormat:pixelformat];
else [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
break;
case 0x05: // 4-bit direct twiddled
[self load4BitWithPalette:NO pixelFormat:0];
break;
//case 0x06: // 4-bit paletted twiddled
// if(pixelformat!=PIXEL_8BIT) [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
// [self load4BitWithPalette:YES pixelFormat:pixelformat];
//break;
case 0x07: // 8-bit direct twiddled
[self load8BitWithPalette:NO pixelFormat:0];
break;
//case 0x08: // 8-bit paletted twiddled
// if(pixelformat>PIXEL_LAST_EXPANDABLE) [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
// [self load8BitWithPalette:YES pixelFormat:pixelformat];
//break;
case 0x09: // rectangle linear
if(pixelformat<=PIXEL_LAST_EXPANDABLE) [self loadRectangleWithOffset:0 pixelFormat:pixelformat];
else [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
break;
//case 0x0a: // rectangle linear with mipmap
// if(pixelformat>PIXEL_LAST_EXPANDABLE) [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
// [self loadRectangleWithOffset:CalculateMipmapOffset(width,height)*2 pixelFormat:pixelformat];
//break;
case 0x10: // small VQ
if(pixelformat<=PIXEL_LAST_EXPANDABLE) [self loadVQWithOffset:0 entries:(width*height/32+15)&~15 pixelFormat:pixelformat];
else [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
break;
case 0x11: // small VQ with mipmap
if(pixelformat<=PIXEL_LAST_EXPANDABLE) [self loadVQWithOffset:CalculateMipmapSize(width/2,height/2)
entries:(CalculateMipmapSize(width,height)/8+31)&~31 pixelFormat:pixelformat];
else [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
break;
case 0x12: // square twiddled with mipmap and padding?
if(pixelformat<=PIXEL_LAST_EXPANDABLE) [self loadTwiddledWithOffset:CalculateMipmapSize(width,height)*2+4 pixelFormat:pixelformat];
else if(pixelformat==PIXEL_YUV422) [self loadTwiddledYUVWithOffset:CalculateMipmapSize(width,height)*2+4];
else [self raiseFormatMismatchWithPixelFormat:pixelformat packingType:packingtype];
break;
default:
[NSException raise:@"XeeDreamcastException" format:@"Unknown PVR packing type %02x",packingtype];
break;
}
[self setCompleted];
XeeImageLoaderDone(YES);
}
-(void)loadTwiddledWithOffset:(int)offset pixelFormat:(int)pixelformat
{
CSHandle *fh=[self handle];
[fh skipBytes:offset];
int x_offs,y_offs,size;
if(width>height) { x_offs=height; y_offs=0; size=height*height; }
else { x_offs=0; y_offs=width; size=width*width; }
for(int n=0;n<height*width;n++)
{
int n_square=n%size;
int offs=n/size;
int x=UnInterleavedXCoord(n_square)+offs*x_offs;
int y=UnInterleavedYCoord(n_square)+offs*y_offs;
WritePixel(self,x,y,ExpandColour([fh readUInt16LE],pixelformat));
if(n%1024==0) XeeImageLoaderYield();
}
}
-(void)loadTwiddledYUVWithOffset:(int)offset
{
CSHandle *fh=[self handle];
[fh skipBytes:offset];
int x_offs,y_offs,size;
if(width>height) { x_offs=height; y_offs=0; size=height*height; }
else { x_offs=0; y_offs=width; size=width*width; }
for(int n=0;n<height*width;n+=4)
{
uint16_t val11=[fh readUInt16LE];
uint16_t val21=[fh readUInt16LE];
uint16_t val12=[fh readUInt16LE];
uint16_t val22=[fh readUInt16LE];
int y11=val11>>8,y21=val21>>8,y12=val12>>8,y22=val22>>8;
int u1=val11&0xff,u2=val21&0xff,v1=val12&0xff,v2=val22&0xff;
int n_square=n%size;
int offs=n/size;
int x=UnInterleavedXCoord(n_square)+offs*x_offs;
int y=UnInterleavedYCoord(n_square)+offs*y_offs;
WritePixel(self,x,y,ConvertYUV(y11,u1,v1));
WritePixel(self,x,y+1,ConvertYUV(y21,u2,v2));
WritePixel(self,x+1,y,ConvertYUV(y12,u1,v1));
WritePixel(self,x+1,y+1,ConvertYUV(y22,u2,v2));
if(n%1024==0) XeeImageLoaderYield();
}
}
-(void)load8BitWithPalette:(BOOL)haspalette pixelFormat:(int)pixelformat
{
CSHandle *fh=[self handle];
uint32_t palette[256];
if(haspalette)
{
for(int i=0;i<256;i++) palette[i]=ExpandColour([fh readUInt16LE],pixelformat);
[fh skipBytes:1024-256*2];
}
else
{
for(int i=0;i<256;i++) palette[i]=XeeMakeNRGB8(i,i,i);
}
int x_offs,y_offs,size;
if(width>height) { x_offs=height; y_offs=0; size=height*height; }
else { x_offs=0; y_offs=width; size=width*width; }
for(int n=0;n<height*width;n++)
{
int n_square=n%size;
int offs=n/size;
int x=UnInterleavedXCoord(n_square)+offs*x_offs;
int y=UnInterleavedYCoord(n_square)+offs*y_offs;
WritePixel(self,x,y,palette[[fh readUInt8]]);
if(n%1024==0) XeeImageLoaderYield();
}
}
-(void)load4BitWithPalette:(BOOL)haspalette pixelFormat:(int)pixelformat
{
CSHandle *fh=[self handle];
uint32_t palette[16];
if(haspalette)
{
for(int i=0;i<16;i++) palette[i]=ExpandColour([fh readUInt16LE],pixelformat);
[fh skipBytes:1024-16*2];
}
else
{
for(int i=0;i<16;i++) palette[i]=XeeMakeNRGB8(i*0x11,i*0x11,i*0x11);
/* if([self ref]) @try
{
CSHandle *binfile=[CSFileHandle fileHandleForReadingAtPath:
[[[[self ref] path] stringByDeletingPathExtension] stringByAppendingPathExtension:@"BIN"]];
[binfile skipBytes:8];
for(int i=0;i<16;i++) palette[i]=XeeMakeNRGB8([binfile readUInt8],[binfile readUInt8],[binfile readUInt8]);
}
@catch(id e) { }*/
// [NSException raise:@"XeeDreamcastException" format:"Direct palette mode not implemented"];
}
int x_offs,y_offs,size;
if(width>height) { x_offs=height; y_offs=0; size=height*height; }
else { x_offs=0; y_offs=width; size=width*width; }
for(int n=0;n<height*width;n+=2)
{
uint8_t val=[fh readUInt8];
int n_square=n%size;
int offs=n/size;
int x1=UnInterleavedXCoord(n_square)+offs*x_offs;
int y1=UnInterleavedYCoord(n_square)+offs*y_offs;
WritePixel(self,x1,y1,palette[val&0x0f]);
int x2=x1; //=UnInterleavedXCoord(n+1);
int y2=y1+1; //=UnInterleavedYCoord(n+1);
WritePixel(self,x2,y2,palette[val>>4]);
if(n%1024==0) XeeImageLoaderYield();
}
}
-(void)loadVQWithOffset:(int)offset entries:(int)entries pixelFormat:(int)pixelformat
{
CSHandle *fh=[self handle];
uint32_t vqtab[entries][4];
for(int i=0;i<entries;i++)
for(int j=0;j<4;j++)
vqtab[i][j]=ExpandColour([fh readUInt16LE],pixelformat);
[fh skipBytes:offset];
for(int n=0;n<(height/2)*(height/2);n++)
{
int x=UnInterleavedXCoord(n)*2;
int y=UnInterleavedYCoord(n)*2;
uint32_t *vq=vqtab[[fh readUInt8]];
WritePixel(self,x,y,vq[0]);
WritePixel(self,x,y+1,vq[1]);
WritePixel(self,x+1,y,vq[2]);
WritePixel(self,x+1,y+1,vq[3]);
if(n%1024==0) XeeImageLoaderYield();
}
}
-(void)loadRectangleWithOffset:(int)offset pixelFormat:(int)pixelformat
{
CSHandle *fh=[self handle];
[fh skipBytes:offset];
uint8_t rowbuf[width*2];
for(int row=0;row<height;row++)
{
[fh readBytes:width*2 toBuffer:rowbuf];
uint32_t *dest=(uint32_t *)(data+row*bytesperrow);
for(int col=0;col<width;col++) dest[col]=ExpandColour(XeeLEUInt16(&rowbuf[2*col]),pixelformat);
[self setCompletedRowCount:row+1];
XeeImageLoaderYield();
}
}
-(void)raiseFormatMismatchWithPixelFormat:(int)pixelformat packingType:(int)packingtype
{
[NSException raise:@"XeeDreamcastException" format:@"Pixel format %02x not compatible with packing type %02x",pixelformat,packingtype];
}
@end
@implementation XeeDreamcastMultiImage
+(NSArray *)fileTypes
{
return [NSArray arrayWithObject:@"pvm"];
}
+(BOOL)canOpenFile:(NSString *)name firstBlock:(NSData *)block attributes:(NSDictionary *)attributes
{
if([block length]>16)
{
uint32_t magic=XeeBEUInt32([block bytes]);
if(magic=='GBIX') return YES;
if(magic=='PVMH') return YES;
}
return NO;
}
-(void)load
{
CSHandle *fh=[self handle];
uint32_t magic=[fh readID];
if(magic=='GBIX')
{
uint32_t size=[fh readUInt32LE];
[fh skipBytes:size];
magic=[fh readID];
}
if(magic!='PVMH') return;
uint32_t headsize=[fh readUInt32LE];
[fh skipBytes:headsize];
int numimages=(headsize-4)/38;
[self setFormat:@"Dreamcast PVM"];
for(int i=0;i<numimages;i++)
{
off_t start=[fh offsetInFile];
int magic=[fh readID];
if(magic!='PVRT') break;
int len=[fh readUInt32LE];
XeeDreamcastImage *subimage=[[[XeeDreamcastImage alloc]
initWithHandle:[fh subHandleFrom:start length:len+8]] autorelease];
[self addSubImage:subimage];
if(i==0) XeeImageLoaderHeaderDone();
[self runLoaderOnSubImage:subimage];
[fh skipBytes:len];
}
XeeImageLoaderDone(YES);
}
@end