diff options
Diffstat (limited to 'src/3rdparty/libpng/pngvcrd.c')
-rw-r--r-- | src/3rdparty/libpng/pngvcrd.c | 3845 |
1 files changed, 3845 insertions, 0 deletions
diff --git a/src/3rdparty/libpng/pngvcrd.c b/src/3rdparty/libpng/pngvcrd.c new file mode 100644 index 000000000..4f513eb4d --- /dev/null +++ b/src/3rdparty/libpng/pngvcrd.c @@ -0,0 +1,3845 @@ +/* pngvcrd.c - mixed C/assembler version of utilities to read a PNG file + * + * For Intel x86 CPU and Microsoft Visual C++ compiler + * + * libpng version 1.2.5 - October 3, 2002 + * For conditions of distribution and use, see copyright notice in png.h + * Copyright (c) 1998-2002 Glenn Randers-Pehrson + * Copyright (c) 1998, Intel Corporation + * + * Contributed by Nirav Chhatrapati, Intel Corporation, 1998 + * Interface to libpng contributed by Gilles Vollant, 1999 + * + * + * In png_do_read_interlace() in libpng versions 1.0.3a through 1.0.4d, + * a sign error in the post-MMX cleanup code for each pixel_depth resulted + * in bad pixels at the beginning of some rows of some images, and also + * (due to out-of-range memory reads and writes) caused heap corruption + * when compiled with MSVC 6.0. The error was fixed in version 1.0.4e. + * + * [png_read_filter_row_mmx_avg() bpp == 2 bugfix, GRR 20000916] + * + * [runtime MMX configuration, GRR 20010102] + * + */ + +#define PNG_INTERNAL +#include "png.h" + +#if defined(PNG_ASSEMBLER_CODE_SUPPORTED) && defined(PNG_USE_PNGVCRD) + +static int mmx_supported=2; + + +int PNGAPI +png_mmx_support(void) +{ + int mmx_supported_local = 0; + _asm { + push ebx //CPUID will trash these + push ecx + push edx + + pushfd //Save Eflag to stack + pop eax //Get Eflag from stack into eax + mov ecx, eax //Make another copy of Eflag in ecx + xor eax, 0x200000 //Toggle ID bit in Eflag [i.e. bit(21)] + push eax //Save modified Eflag back to stack + + popfd //Restored modified value back to Eflag reg + pushfd //Save Eflag to stack + pop eax //Get Eflag from stack + push ecx // save original Eflag to stack + popfd // restore original Eflag + xor eax, ecx //Compare the new Eflag with the original Eflag + jz NOT_SUPPORTED //If the same, CPUID instruction is not supported, + //skip following instructions and jump to + //NOT_SUPPORTED label + + xor eax, eax //Set eax to zero + + _asm _emit 0x0f //CPUID instruction (two bytes opcode) + _asm _emit 0xa2 + + cmp eax, 1 //make sure eax return non-zero value + jl NOT_SUPPORTED //If eax is zero, mmx not supported + + xor eax, eax //set eax to zero + inc eax //Now increment eax to 1. This instruction is + //faster than the instruction "mov eax, 1" + + _asm _emit 0x0f //CPUID instruction + _asm _emit 0xa2 + + and edx, 0x00800000 //mask out all bits but mmx bit(24) + cmp edx, 0 // 0 = mmx not supported + jz NOT_SUPPORTED // non-zero = Yes, mmx IS supported + + mov mmx_supported_local, 1 //set return value to 1 + +NOT_SUPPORTED: + mov eax, mmx_supported_local //move return value to eax + pop edx //CPUID trashed these + pop ecx + pop ebx + } + + //mmx_supported_local=0; // test code for force don't support MMX + //printf("MMX : %u (1=MMX supported)\n",mmx_supported_local); + + mmx_supported = mmx_supported_local; + return mmx_supported_local; +} + +/* Combines the row recently read in with the previous row. + This routine takes care of alpha and transparency if requested. + This routine also handles the two methods of progressive display + of interlaced images, depending on the mask value. + The mask value describes which pixels are to be combined with + the row. The pattern always repeats every 8 pixels, so just 8 + bits are needed. A one indicates the pixel is to be combined; a + zero indicates the pixel is to be skipped. This is in addition + to any alpha or transparency value associated with the pixel. If + you want all pixels to be combined, pass 0xff (255) in mask. */ + +/* Use this routine for x86 platform - uses faster MMX routine if machine + supports MMX */ + +void /* PRIVATE */ +png_combine_row(png_structp png_ptr, png_bytep row, int mask) +{ +#ifdef PNG_USE_LOCAL_ARRAYS + const int png_pass_inc[7] = {8, 8, 4, 4, 2, 2, 1}; +#endif + + png_debug(1,"in png_combine_row_asm\n"); + + if (mmx_supported == 2) { + /* this should have happened in png_init_mmx_flags() already */ + png_warning(png_ptr, "asm_flags may not have been initialized"); + png_mmx_support(); + } + + if (mask == 0xff) + { + png_memcpy(row, png_ptr->row_buf + 1, + (png_size_t)((png_ptr->width * png_ptr->row_info.pixel_depth + 7) >> 3)); + } + /* GRR: add "else if (mask == 0)" case? + * or does png_combine_row() not even get called in that case? */ + else + { + switch (png_ptr->row_info.pixel_depth) + { + case 1: + { + png_bytep sp; + png_bytep dp; + int s_inc, s_start, s_end; + int m; + int shift; + png_uint_32 i; + + sp = png_ptr->row_buf + 1; + dp = row; + m = 0x80; +#if defined(PNG_READ_PACKSWAP_SUPPORTED) + if (png_ptr->transformations & PNG_PACKSWAP) + { + s_start = 0; + s_end = 7; + s_inc = 1; + } + else +#endif + { + s_start = 7; + s_end = 0; + s_inc = -1; + } + + shift = s_start; + + for (i = 0; i < png_ptr->width; i++) + { + if (m & mask) + { + int value; + + value = (*sp >> shift) & 0x1; + *dp &= (png_byte)((0x7f7f >> (7 - shift)) & 0xff); + *dp |= (png_byte)(value << shift); + } + + if (shift == s_end) + { + shift = s_start; + sp++; + dp++; + } + else + shift += s_inc; + + if (m == 1) + m = 0x80; + else + m >>= 1; + } + break; + } + + case 2: + { + png_bytep sp; + png_bytep dp; + int s_start, s_end, s_inc; + int m; + int shift; + png_uint_32 i; + int value; + + sp = png_ptr->row_buf + 1; + dp = row; + m = 0x80; +#if defined(PNG_READ_PACKSWAP_SUPPORTED) + if (png_ptr->transformations & PNG_PACKSWAP) + { + s_start = 0; + s_end = 6; + s_inc = 2; + } + else +#endif + { + s_start = 6; + s_end = 0; + s_inc = -2; + } + + shift = s_start; + + for (i = 0; i < png_ptr->width; i++) + { + if (m & mask) + { + value = (*sp >> shift) & 0x3; + *dp &= (png_byte)((0x3f3f >> (6 - shift)) & 0xff); + *dp |= (png_byte)(value << shift); + } + + if (shift == s_end) + { + shift = s_start; + sp++; + dp++; + } + else + shift += s_inc; + if (m == 1) + m = 0x80; + else + m >>= 1; + } + break; + } + + case 4: + { + png_bytep sp; + png_bytep dp; + int s_start, s_end, s_inc; + int m; + int shift; + png_uint_32 i; + int value; + + sp = png_ptr->row_buf + 1; + dp = row; + m = 0x80; +#if defined(PNG_READ_PACKSWAP_SUPPORTED) + if (png_ptr->transformations & PNG_PACKSWAP) + { + s_start = 0; + s_end = 4; + s_inc = 4; + } + else +#endif + { + s_start = 4; + s_end = 0; + s_inc = -4; + } + shift = s_start; + + for (i = 0; i < png_ptr->width; i++) + { + if (m & mask) + { + value = (*sp >> shift) & 0xf; + *dp &= (png_byte)((0xf0f >> (4 - shift)) & 0xff); + *dp |= (png_byte)(value << shift); + } + + if (shift == s_end) + { + shift = s_start; + sp++; + dp++; + } + else + shift += s_inc; + if (m == 1) + m = 0x80; + else + m >>= 1; + } + break; + } + + case 8: + { + png_bytep srcptr; + png_bytep dstptr; + png_uint_32 len; + int m; + int diff, unmask; + + __int64 mask0=0x0102040810204080; + + if ((png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_COMBINE_ROW) + /* && mmx_supported */ ) + { + srcptr = png_ptr->row_buf + 1; + dstptr = row; + m = 0x80; + unmask = ~mask; + len = png_ptr->width &~7; //reduce to multiple of 8 + diff = png_ptr->width & 7; //amount lost + + _asm + { + movd mm7, unmask //load bit pattern + psubb mm6,mm6 //zero mm6 + punpcklbw mm7,mm7 + punpcklwd mm7,mm7 + punpckldq mm7,mm7 //fill register with 8 masks + + movq mm0,mask0 + + pand mm0,mm7 //nonzero if keep byte + pcmpeqb mm0,mm6 //zeros->1s, v versa + + mov ecx,len //load length of line (pixels) + mov esi,srcptr //load source + mov ebx,dstptr //load dest + cmp ecx,0 //lcr + je mainloop8end + +mainloop8: + movq mm4,[esi] + pand mm4,mm0 + movq mm6,mm0 + pandn mm6,[ebx] + por mm4,mm6 + movq [ebx],mm4 + + add esi,8 //inc by 8 bytes processed + add ebx,8 + sub ecx,8 //dec by 8 pixels processed + + ja mainloop8 +mainloop8end: + + mov ecx,diff + cmp ecx,0 + jz end8 + + mov edx,mask + sal edx,24 //make low byte the high byte + +secondloop8: + sal edx,1 //move high bit to CF + jnc skip8 //if CF = 0 + mov al,[esi] + mov [ebx],al +skip8: + inc esi + inc ebx + + dec ecx + jnz secondloop8 +end8: + emms + } + } + else /* mmx not supported - use modified C routine */ + { + register unsigned int incr1, initial_val, final_val; + png_size_t pixel_bytes; + png_uint_32 i; + register int disp = png_pass_inc[png_ptr->pass]; + int offset_table[7] = {0, 4, 0, 2, 0, 1, 0}; + + pixel_bytes = (png_ptr->row_info.pixel_depth >> 3); + srcptr = png_ptr->row_buf + 1 + offset_table[png_ptr->pass]* + pixel_bytes; + dstptr = row + offset_table[png_ptr->pass]*pixel_bytes; + initial_val = offset_table[png_ptr->pass]*pixel_bytes; + final_val = png_ptr->width*pixel_bytes; + incr1 = (disp)*pixel_bytes; + for (i = initial_val; i < final_val; i += incr1) + { + png_memcpy(dstptr, srcptr, pixel_bytes); + srcptr += incr1; + dstptr += incr1; + } + } /* end of else */ + + break; + } // end 8 bpp + + case 16: + { + png_bytep srcptr; + png_bytep dstptr; + png_uint_32 len; + int unmask, diff; + __int64 mask1=0x0101020204040808, + mask0=0x1010202040408080; + + if ((png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_COMBINE_ROW) + /* && mmx_supported */ ) + { + srcptr = png_ptr->row_buf + 1; + dstptr = row; + + unmask = ~mask; + len = (png_ptr->width)&~7; + diff = (png_ptr->width)&7; + _asm + { + movd mm7, unmask //load bit pattern + psubb mm6,mm6 //zero mm6 + punpcklbw mm7,mm7 + punpcklwd mm7,mm7 + punpckldq mm7,mm7 //fill register with 8 masks + + movq mm0,mask0 + movq mm1,mask1 + + pand mm0,mm7 + pand mm1,mm7 + + pcmpeqb mm0,mm6 + pcmpeqb mm1,mm6 + + mov ecx,len //load length of line + mov esi,srcptr //load source + mov ebx,dstptr //load dest + cmp ecx,0 //lcr + jz mainloop16end + +mainloop16: + movq mm4,[esi] + pand mm4,mm0 + movq mm6,mm0 + movq mm7,[ebx] + pandn mm6,mm7 + por mm4,mm6 + movq [ebx],mm4 + + movq mm5,[esi+8] + pand mm5,mm1 + movq mm7,mm1 + movq mm6,[ebx+8] + pandn mm7,mm6 + por mm5,mm7 + movq [ebx+8],mm5 + + add esi,16 //inc by 16 bytes processed + add ebx,16 + sub ecx,8 //dec by 8 pixels processed + + ja mainloop16 + +mainloop16end: + mov ecx,diff + cmp ecx,0 + jz end16 + + mov edx,mask + sal edx,24 //make low byte the high byte +secondloop16: + sal edx,1 //move high bit to CF + jnc skip16 //if CF = 0 + mov ax,[esi] + mov [ebx],ax +skip16: + add esi,2 + add ebx,2 + + dec ecx + jnz secondloop16 +end16: + emms + } + } + else /* mmx not supported - use modified C routine */ + { + register unsigned int incr1, initial_val, final_val; + png_size_t pixel_bytes; + png_uint_32 i; + register int disp = png_pass_inc[png_ptr->pass]; + int offset_table[7] = {0, 4, 0, 2, 0, 1, 0}; + + pixel_bytes = (png_ptr->row_info.pixel_depth >> 3); + srcptr = png_ptr->row_buf + 1 + offset_table[png_ptr->pass]* + pixel_bytes; + dstptr = row + offset_table[png_ptr->pass]*pixel_bytes; + initial_val = offset_table[png_ptr->pass]*pixel_bytes; + final_val = png_ptr->width*pixel_bytes; + incr1 = (disp)*pixel_bytes; + for (i = initial_val; i < final_val; i += incr1) + { + png_memcpy(dstptr, srcptr, pixel_bytes); + srcptr += incr1; + dstptr += incr1; + } + } /* end of else */ + + break; + } // end 16 bpp + + case 24: + { + png_bytep srcptr; + png_bytep dstptr; + png_uint_32 len; + int unmask, diff; + + __int64 mask2=0x0101010202020404, //24bpp + mask1=0x0408080810101020, + mask0=0x2020404040808080; + + srcptr = png_ptr->row_buf + 1; + dstptr = row; + + unmask = ~mask; + len = (png_ptr->width)&~7; + diff = (png_ptr->width)&7; + + if ((png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_COMBINE_ROW) + /* && mmx_supported */ ) + { + _asm + { + movd mm7, unmask //load bit pattern + psubb mm6,mm6 //zero mm6 + punpcklbw mm7,mm7 + punpcklwd mm7,mm7 + punpckldq mm7,mm7 //fill register with 8 masks + + movq mm0,mask0 + movq mm1,mask1 + movq mm2,mask2 + + pand mm0,mm7 + pand mm1,mm7 + pand mm2,mm7 + + pcmpeqb mm0,mm6 + pcmpeqb mm1,mm6 + pcmpeqb mm2,mm6 + + mov ecx,len //load length of line + mov esi,srcptr //load source + mov ebx,dstptr //load dest + cmp ecx,0 + jz mainloop24end + +mainloop24: + movq mm4,[esi] + pand mm4,mm0 + movq mm6,mm0 + movq mm7,[ebx] + pandn mm6,mm7 + por mm4,mm6 + movq [ebx],mm4 + + + movq mm5,[esi+8] + pand mm5,mm1 + movq mm7,mm1 + movq mm6,[ebx+8] + pandn mm7,mm6 + por mm5,mm7 + movq [ebx+8],mm5 + + movq mm6,[esi+16] + pand mm6,mm2 + movq mm4,mm2 + movq mm7,[ebx+16] + pandn mm4,mm7 + por mm6,mm4 + movq [ebx+16],mm6 + + add esi,24 //inc by 24 bytes processed + add ebx,24 + sub ecx,8 //dec by 8 pixels processed + + ja mainloop24 + +mainloop24end: + mov ecx,diff + cmp ecx,0 + jz end24 + + mov edx,mask + sal edx,24 //make low byte the high byte +secondloop24: + sal edx,1 //move high bit to CF + jnc skip24 //if CF = 0 + mov ax,[esi] + mov [ebx],ax + xor eax,eax + mov al,[esi+2] + mov [ebx+2],al +skip24: + add esi,3 + add ebx,3 + + dec ecx + jnz secondloop24 + +end24: + emms + } + } + else /* mmx not supported - use modified C routine */ + { + register unsigned int incr1, initial_val, final_val; + png_size_t pixel_bytes; + png_uint_32 i; + register int disp = png_pass_inc[png_ptr->pass]; + int offset_table[7] = {0, 4, 0, 2, 0, 1, 0}; + + pixel_bytes = (png_ptr->row_info.pixel_depth >> 3); + srcptr = png_ptr->row_buf + 1 + offset_table[png_ptr->pass]* + pixel_bytes; + dstptr = row + offset_table[png_ptr->pass]*pixel_bytes; + initial_val = offset_table[png_ptr->pass]*pixel_bytes; + final_val = png_ptr->width*pixel_bytes; + incr1 = (disp)*pixel_bytes; + for (i = initial_val; i < final_val; i += incr1) + { + png_memcpy(dstptr, srcptr, pixel_bytes); + srcptr += incr1; + dstptr += incr1; + } + } /* end of else */ + + break; + } // end 24 bpp + + case 32: + { + png_bytep srcptr; + png_bytep dstptr; + png_uint_32 len; + int unmask, diff; + + __int64 mask3=0x0101010102020202, //32bpp + mask2=0x0404040408080808, + mask1=0x1010101020202020, + mask0=0x4040404080808080; + + srcptr = png_ptr->row_buf + 1; + dstptr = row; + + unmask = ~mask; + len = (png_ptr->width)&~7; + diff = (png_ptr->width)&7; + + if ((png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_COMBINE_ROW) + /* && mmx_supported */ ) + { + _asm + { + movd mm7, unmask //load bit pattern + psubb mm6,mm6 //zero mm6 + punpcklbw mm7,mm7 + punpcklwd mm7,mm7 + punpckldq mm7,mm7 //fill register with 8 masks + + movq mm0,mask0 + movq mm1,mask1 + movq mm2,mask2 + movq mm3,mask3 + + pand mm0,mm7 + pand mm1,mm7 + pand mm2,mm7 + pand mm3,mm7 + + pcmpeqb mm0,mm6 + pcmpeqb mm1,mm6 + pcmpeqb mm2,mm6 + pcmpeqb mm3,mm6 + + mov ecx,len //load length of line + mov esi,srcptr //load source + mov ebx,dstptr //load dest + + cmp ecx,0 //lcr + jz mainloop32end + +mainloop32: + movq mm4,[esi] + pand mm4,mm0 + movq mm6,mm0 + movq mm7,[ebx] + pandn mm6,mm7 + por mm4,mm6 + movq [ebx],mm4 + + movq mm5,[esi+8] + pand mm5,mm1 + movq mm7,mm1 + movq mm6,[ebx+8] + pandn mm7,mm6 + por mm5,mm7 + movq [ebx+8],mm5 + + movq mm6,[esi+16] + pand mm6,mm2 + movq mm4,mm2 + movq mm7,[ebx+16] + pandn mm4,mm7 + por mm6,mm4 + movq [ebx+16],mm6 + + movq mm7,[esi+24] + pand mm7,mm3 + movq mm5,mm3 + movq mm4,[ebx+24] + pandn mm5,mm4 + por mm7,mm5 + movq [ebx+24],mm7 + + add esi,32 //inc by 32 bytes processed + add ebx,32 + sub ecx,8 //dec by 8 pixels processed + + ja mainloop32 + +mainloop32end: + mov ecx,diff + cmp ecx,0 + jz end32 + + mov edx,mask + sal edx,24 //make low byte the high byte +secondloop32: + sal edx,1 //move high bit to CF + jnc skip32 //if CF = 0 + mov eax,[esi] + mov [ebx],eax +skip32: + add esi,4 + add ebx,4 + + dec ecx + jnz secondloop32 + +end32: + emms + } + } + else /* mmx _not supported - Use modified C routine */ + { + register unsigned int incr1, initial_val, final_val; + png_size_t pixel_bytes; + png_uint_32 i; + register int disp = png_pass_inc[png_ptr->pass]; + int offset_table[7] = {0, 4, 0, 2, 0, 1, 0}; + + pixel_bytes = (png_ptr->row_info.pixel_depth >> 3); + srcptr = png_ptr->row_buf + 1 + offset_table[png_ptr->pass]* + pixel_bytes; + dstptr = row + offset_table[png_ptr->pass]*pixel_bytes; + initial_val = offset_table[png_ptr->pass]*pixel_bytes; + final_val = png_ptr->width*pixel_bytes; + incr1 = (disp)*pixel_bytes; + for (i = initial_val; i < final_val; i += incr1) + { + png_memcpy(dstptr, srcptr, pixel_bytes); + srcptr += incr1; + dstptr += incr1; + } + } /* end of else */ + + break; + } // end 32 bpp + + case 48: + { + png_bytep srcptr; + png_bytep dstptr; + png_uint_32 len; + int unmask, diff; + + __int64 mask5=0x0101010101010202, + mask4=0x0202020204040404, + mask3=0x0404080808080808, + mask2=0x1010101010102020, + mask1=0x2020202040404040, + mask0=0x4040808080808080; + + if ((png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_COMBINE_ROW) + /* && mmx_supported */ ) + { + srcptr = png_ptr->row_buf + 1; + dstptr = row; + + unmask = ~mask; + len = (png_ptr->width)&~7; + diff = (png_ptr->width)&7; + _asm + { + movd mm7, unmask //load bit pattern + psubb mm6,mm6 //zero mm6 + punpcklbw mm7,mm7 + punpcklwd mm7,mm7 + punpckldq mm7,mm7 //fill register with 8 masks + + movq mm0,mask0 + movq mm1,mask1 + movq mm2,mask2 + movq mm3,mask3 + movq mm4,mask4 + movq mm5,mask5 + + pand mm0,mm7 + pand mm1,mm7 + pand mm2,mm7 + pand mm3,mm7 + pand mm4,mm7 + pand mm5,mm7 + + pcmpeqb mm0,mm6 + pcmpeqb mm1,mm6 + pcmpeqb mm2,mm6 + pcmpeqb mm3,mm6 + pcmpeqb mm4,mm6 + pcmpeqb mm5,mm6 + + mov ecx,len //load length of line + mov esi,srcptr //load source + mov ebx,dstptr //load dest + + cmp ecx,0 + jz mainloop48end + +mainloop48: + movq mm7,[esi] + pand mm7,mm0 + movq mm6,mm0 + pandn mm6,[ebx] + por mm7,mm6 + movq [ebx],mm7 + + movq mm6,[esi+8] + pand mm6,mm1 + movq mm7,mm1 + pandn mm7,[ebx+8] + por mm6,mm7 + movq [ebx+8],mm6 + + movq mm6,[esi+16] + pand mm6,mm2 + movq mm7,mm2 + pandn mm7,[ebx+16] + por mm6,mm7 + movq [ebx+16],mm6 + + movq mm7,[esi+24] + pand mm7,mm3 + movq mm6,mm3 + pandn mm6,[ebx+24] + por mm7,mm6 + movq [ebx+24],mm7 + + movq mm6,[esi+32] + pand mm6,mm4 + movq mm7,mm4 + pandn mm7,[ebx+32] + por mm6,mm7 + movq [ebx+32],mm6 + + movq mm7,[esi+40] + pand mm7,mm5 + movq mm6,mm5 + pandn mm6,[ebx+40] + por mm7,mm6 + movq [ebx+40],mm7 + + add esi,48 //inc by 32 bytes processed + add ebx,48 + sub ecx,8 //dec by 8 pixels processed + + ja mainloop48 +mainloop48end: + + mov ecx,diff + cmp ecx,0 + jz end48 + + mov edx,mask + sal edx,24 //make low byte the high byte + +secondloop48: + sal edx,1 //move high bit to CF + jnc skip48 //if CF = 0 + mov eax,[esi] + mov [ebx],eax +skip48: + add esi,4 + add ebx,4 + + dec ecx + jnz secondloop48 + +end48: + emms + } + } + else /* mmx _not supported - Use modified C routine */ + { + register unsigned int incr1, initial_val, final_val; + png_size_t pixel_bytes; + png_uint_32 i; + register int disp = png_pass_inc[png_ptr->pass]; + int offset_table[7] = {0, 4, 0, 2, 0, 1, 0}; + + pixel_bytes = (png_ptr->row_info.pixel_depth >> 3); + srcptr = png_ptr->row_buf + 1 + offset_table[png_ptr->pass]* + pixel_bytes; + dstptr = row + offset_table[png_ptr->pass]*pixel_bytes; + initial_val = offset_table[png_ptr->pass]*pixel_bytes; + final_val = png_ptr->width*pixel_bytes; + incr1 = (disp)*pixel_bytes; + for (i = initial_val; i < final_val; i += incr1) + { + png_memcpy(dstptr, srcptr, pixel_bytes); + srcptr += incr1; + dstptr += incr1; + } + } /* end of else */ + + break; + } // end 48 bpp + + default: + { + png_bytep sptr; + png_bytep dp; + png_size_t pixel_bytes; + int offset_table[7] = {0, 4, 0, 2, 0, 1, 0}; + unsigned int i; + register int disp = png_pass_inc[png_ptr->pass]; // get the offset + register unsigned int incr1, initial_val, final_val; + + pixel_bytes = (png_ptr->row_info.pixel_depth >> 3); + sptr = png_ptr->row_buf + 1 + offset_table[png_ptr->pass]* + pixel_bytes; + dp = row + offset_table[png_ptr->pass]*pixel_bytes; + initial_val = offset_table[png_ptr->pass]*pixel_bytes; + final_val = png_ptr->width*pixel_bytes; + incr1 = (disp)*pixel_bytes; + for (i = initial_val; i < final_val; i += incr1) + { + png_memcpy(dp, sptr, pixel_bytes); + sptr += incr1; + dp += incr1; + } + break; + } + } /* end switch (png_ptr->row_info.pixel_depth) */ + } /* end if (non-trivial mask) */ + +} /* end png_combine_row() */ + + +#if defined(PNG_READ_INTERLACING_SUPPORTED) + +void /* PRIVATE */ +png_do_read_interlace(png_structp png_ptr) +{ + png_row_infop row_info = &(png_ptr->row_info); + png_bytep row = png_ptr->row_buf + 1; + int pass = png_ptr->pass; + png_uint_32 transformations = png_ptr->transformations; +#ifdef PNG_USE_LOCAL_ARRAYS + const int png_pass_inc[7] = {8, 8, 4, 4, 2, 2, 1}; +#endif + + png_debug(1,"in png_do_read_interlace\n"); + + if (mmx_supported == 2) { + /* this should have happened in png_init_mmx_flags() already */ + png_warning(png_ptr, "asm_flags may not have been initialized"); + png_mmx_support(); + } + + if (row != NULL && row_info != NULL) + { + png_uint_32 final_width; + + final_width = row_info->width * png_pass_inc[pass]; + + switch (row_info->pixel_depth) + { + case 1: + { + png_bytep sp, dp; + int sshift, dshift; + int s_start, s_end, s_inc; + png_byte v; + png_uint_32 i; + int j; + + sp = row + (png_size_t)((row_info->width - 1) >> 3); + dp = row + (png_size_t)((final_width - 1) >> 3); +#if defined(PNG_READ_PACKSWAP_SUPPORTED) + if (transformations & PNG_PACKSWAP) + { + sshift = (int)((row_info->width + 7) & 7); + dshift = (int)((final_width + 7) & 7); + s_start = 7; + s_end = 0; + s_inc = -1; + } + else +#endif + { + sshift = 7 - (int)((row_info->width + 7) & 7); + dshift = 7 - (int)((final_width + 7) & 7); + s_start = 0; + s_end = 7; + s_inc = 1; + } + + for (i = row_info->width; i; i--) + { + v = (png_byte)((*sp >> sshift) & 0x1); + for (j = 0; j < png_pass_inc[pass]; j++) + { + *dp &= (png_byte)((0x7f7f >> (7 - dshift)) & 0xff); + *dp |= (png_byte)(v << dshift); + if (dshift == s_end) + { + dshift = s_start; + dp--; + } + else + dshift += s_inc; + } + if (sshift == s_end) + { + sshift = s_start; + sp--; + } + else + sshift += s_inc; + } + break; + } + + case 2: + { + png_bytep sp, dp; + int sshift, dshift; + int s_start, s_end, s_inc; + png_uint_32 i; + + sp = row + (png_size_t)((row_info->width - 1) >> 2); + dp = row + (png_size_t)((final_width - 1) >> 2); +#if defined(PNG_READ_PACKSWAP_SUPPORTED) + if (transformations & PNG_PACKSWAP) + { + sshift = (png_size_t)(((row_info->width + 3) & 3) << 1); + dshift = (png_size_t)(((final_width + 3) & 3) << 1); + s_start = 6; + s_end = 0; + s_inc = -2; + } + else +#endif + { + sshift = (png_size_t)((3 - ((row_info->width + 3) & 3)) << 1); + dshift = (png_size_t)((3 - ((final_width + 3) & 3)) << 1); + s_start = 0; + s_end = 6; + s_inc = 2; + } + + for (i = row_info->width; i; i--) + { + png_byte v; + int j; + + v = (png_byte)((*sp >> sshift) & 0x3); + for (j = 0; j < png_pass_inc[pass]; j++) + { + *dp &= (png_byte)((0x3f3f >> (6 - dshift)) & 0xff); + *dp |= (png_byte)(v << dshift); + if (dshift == s_end) + { + dshift = s_start; + dp--; + } + else + dshift += s_inc; + } + if (sshift == s_end) + { + sshift = s_start; + sp--; + } + else + sshift += s_inc; + } + break; + } + + case 4: + { + png_bytep sp, dp; + int sshift, dshift; + int s_start, s_end, s_inc; + png_uint_32 i; + + sp = row + (png_size_t)((row_info->width - 1) >> 1); + dp = row + (png_size_t)((final_width - 1) >> 1); +#if defined(PNG_READ_PACKSWAP_SUPPORTED) + if (transformations & PNG_PACKSWAP) + { + sshift = (png_size_t)(((row_info->width + 1) & 1) << 2); + dshift = (png_size_t)(((final_width + 1) & 1) << 2); + s_start = 4; + s_end = 0; + s_inc = -4; + } + else +#endif + { + sshift = (png_size_t)((1 - ((row_info->width + 1) & 1)) << 2); + dshift = (png_size_t)((1 - ((final_width + 1) & 1)) << 2); + s_start = 0; + s_end = 4; + s_inc = 4; + } + + for (i = row_info->width; i; i--) + { + png_byte v; + int j; + + v = (png_byte)((*sp >> sshift) & 0xf); + for (j = 0; j < png_pass_inc[pass]; j++) + { + *dp &= (png_byte)((0xf0f >> (4 - dshift)) & 0xff); + *dp |= (png_byte)(v << dshift); + if (dshift == s_end) + { + dshift = s_start; + dp--; + } + else + dshift += s_inc; + } + if (sshift == s_end) + { + sshift = s_start; + sp--; + } + else + sshift += s_inc; + } + break; + } + + default: // This is the place where the routine is modified + { + __int64 const4 = 0x0000000000FFFFFF; + // __int64 const5 = 0x000000FFFFFF0000; // unused... + __int64 const6 = 0x00000000000000FF; + png_bytep sptr, dp; + png_uint_32 i; + png_size_t pixel_bytes; + int width = row_info->width; + + pixel_bytes = (row_info->pixel_depth >> 3); + + sptr = row + (width - 1) * pixel_bytes; + dp = row + (final_width - 1) * pixel_bytes; + // New code by Nirav Chhatrapati - Intel Corporation + // sign fix by GRR + // NOTE: there is NO MMX code for 48-bit and 64-bit images + + // use MMX routine if machine supports it + if ((png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_INTERLACE) + /* && mmx_supported */ ) + { + if (pixel_bytes == 3) + { + if (((pass == 0) || (pass == 1)) && width) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width + sub edi, 21 // (png_pass_inc[pass] - 1)*pixel_bytes +loop_pass0: + movd mm0, [esi] ; X X X X X v2 v1 v0 + pand mm0, const4 ; 0 0 0 0 0 v2 v1 v0 + movq mm1, mm0 ; 0 0 0 0 0 v2 v1 v0 + psllq mm0, 16 ; 0 0 0 v2 v1 v0 0 0 + movq mm2, mm0 ; 0 0 0 v2 v1 v0 0 0 + psllq mm0, 24 ; v2 v1 v0 0 0 0 0 0 + psrlq mm1, 8 ; 0 0 0 0 0 0 v2 v1 + por mm0, mm2 ; v2 v1 v0 v2 v1 v0 0 0 + por mm0, mm1 ; v2 v1 v0 v2 v1 v0 v2 v1 + movq mm3, mm0 ; v2 v1 v0 v2 v1 v0 v2 v1 + psllq mm0, 16 ; v0 v2 v1 v0 v2 v1 0 0 + movq mm4, mm3 ; v2 v1 v0 v2 v1 v0 v2 v1 + punpckhdq mm3, mm0 ; v0 v2 v1 v0 v2 v1 v0 v2 + movq [edi+16] , mm4 + psrlq mm0, 32 ; 0 0 0 0 v0 v2 v1 v0 + movq [edi+8] , mm3 + punpckldq mm0, mm4 ; v1 v0 v2 v1 v0 v2 v1 v0 + sub esi, 3 + movq [edi], mm0 + sub edi, 24 + //sub esi, 3 + dec ecx + jnz loop_pass0 + EMMS + } + } + else if (((pass == 2) || (pass == 3)) && width) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width + sub edi, 9 // (png_pass_inc[pass] - 1)*pixel_bytes +loop_pass2: + movd mm0, [esi] ; X X X X X v2 v1 v0 + pand mm0, const4 ; 0 0 0 0 0 v2 v1 v0 + movq mm1, mm0 ; 0 0 0 0 0 v2 v1 v0 + psllq mm0, 16 ; 0 0 0 v2 v1 v0 0 0 + movq mm2, mm0 ; 0 0 0 v2 v1 v0 0 0 + psllq mm0, 24 ; v2 v1 v0 0 0 0 0 0 + psrlq mm1, 8 ; 0 0 0 0 0 0 v2 v1 + por mm0, mm2 ; v2 v1 v0 v2 v1 v0 0 0 + por mm0, mm1 ; v2 v1 v0 v2 v1 v0 v2 v1 + movq [edi+4], mm0 ; move to memory + psrlq mm0, 16 ; 0 0 v2 v1 v0 v2 v1 v0 + movd [edi], mm0 ; move to memory + sub esi, 3 + sub edi, 12 + dec ecx + jnz loop_pass2 + EMMS + } + } + else if (width) /* && ((pass == 4) || (pass == 5)) */ + { + int width_mmx = ((width >> 1) << 1) - 8; + if (width_mmx < 0) + width_mmx = 0; + width -= width_mmx; // 8 or 9 pix, 24 or 27 bytes + if (width_mmx) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width_mmx + sub esi, 3 + sub edi, 9 +loop_pass4: + movq mm0, [esi] ; X X v2 v1 v0 v5 v4 v3 + movq mm7, mm0 ; X X v2 v1 v0 v5 v4 v3 + movq mm6, mm0 ; X X v2 v1 v0 v5 v4 v3 + psllq mm0, 24 ; v1 v0 v5 v4 v3 0 0 0 + pand mm7, const4 ; 0 0 0 0 0 v5 v4 v3 + psrlq mm6, 24 ; 0 0 0 X X v2 v1 v0 + por mm0, mm7 ; v1 v0 v5 v4 v3 v5 v4 v3 + movq mm5, mm6 ; 0 0 0 X X v2 v1 v0 + psllq mm6, 8 ; 0 0 X X v2 v1 v0 0 + movq [edi], mm0 ; move quad to memory + psrlq mm5, 16 ; 0 0 0 0 0 X X v2 + pand mm5, const6 ; 0 0 0 0 0 0 0 v2 + por mm6, mm5 ; 0 0 X X v2 v1 v0 v2 + movd [edi+8], mm6 ; move double to memory + sub esi, 6 + sub edi, 12 + sub ecx, 2 + jnz loop_pass4 + EMMS + } + } + + sptr -= width_mmx*3; + dp -= width_mmx*6; + for (i = width; i; i--) + { + png_byte v[8]; + int j; + + png_memcpy(v, sptr, 3); + for (j = 0; j < png_pass_inc[pass]; j++) + { + png_memcpy(dp, v, 3); + dp -= 3; + } + sptr -= 3; + } + } + } /* end of pixel_bytes == 3 */ + + else if (pixel_bytes == 1) + { + if (((pass == 0) || (pass == 1)) && width) + { + int width_mmx = ((width >> 2) << 2); + width -= width_mmx; + if (width_mmx) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width_mmx + sub edi, 31 + sub esi, 3 +loop1_pass0: + movd mm0, [esi] ; X X X X v0 v1 v2 v3 + movq mm1, mm0 ; X X X X v0 v1 v2 v3 + punpcklbw mm0, mm0 ; v0 v0 v1 v1 v2 v2 v3 v3 + movq mm2, mm0 ; v0 v0 v1 v1 v2 v2 v3 v3 + punpcklwd mm0, mm0 ; v2 v2 v2 v2 v3 v3 v3 v3 + movq mm3, mm0 ; v2 v2 v2 v2 v3 v3 v3 v3 + punpckldq mm0, mm0 ; v3 v3 v3 v3 v3 v3 v3 v3 + punpckhdq mm3, mm3 ; v2 v2 v2 v2 v2 v2 v2 v2 + movq [edi], mm0 ; move to memory v3 + punpckhwd mm2, mm2 ; v0 v0 v0 v0 v1 v1 v1 v1 + movq [edi+8], mm3 ; move to memory v2 + movq mm4, mm2 ; v0 v0 v0 v0 v1 v1 v1 v1 + punpckldq mm2, mm2 ; v1 v1 v1 v1 v1 v1 v1 v1 + punpckhdq mm4, mm4 ; v0 v0 v0 v0 v0 v0 v0 v0 + movq [edi+16], mm2 ; move to memory v1 + movq [edi+24], mm4 ; move to memory v0 + sub esi, 4 + sub edi, 32 + sub ecx, 4 + jnz loop1_pass0 + EMMS + } + } + + sptr -= width_mmx; + dp -= width_mmx*8; + for (i = width; i; i--) + { + int j; + + /* I simplified this part in version 1.0.4e + * here and in several other instances where + * pixel_bytes == 1 -- GR-P + * + * Original code: + * + * png_byte v[8]; + * png_memcpy(v, sptr, pixel_bytes); + * for (j = 0; j < png_pass_inc[pass]; j++) + * { + * png_memcpy(dp, v, pixel_bytes); + * dp -= pixel_bytes; + * } + * sptr -= pixel_bytes; + * + * Replacement code is in the next three lines: + */ + + for (j = 0; j < png_pass_inc[pass]; j++) + *dp-- = *sptr; + sptr--; + } + } + else if (((pass == 2) || (pass == 3)) && width) + { + int width_mmx = ((width >> 2) << 2); + width -= width_mmx; + if (width_mmx) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width_mmx + sub edi, 15 + sub esi, 3 +loop1_pass2: + movd mm0, [esi] ; X X X X v0 v1 v2 v3 + punpcklbw mm0, mm0 ; v0 v0 v1 v1 v2 v2 v3 v3 + movq mm1, mm0 ; v0 v0 v1 v1 v2 v2 v3 v3 + punpcklwd mm0, mm0 ; v2 v2 v2 v2 v3 v3 v3 v3 + punpckhwd mm1, mm1 ; v0 v0 v0 v0 v1 v1 v1 v1 + movq [edi], mm0 ; move to memory v2 and v3 + sub esi, 4 + movq [edi+8], mm1 ; move to memory v1 and v0 + sub edi, 16 + sub ecx, 4 + jnz loop1_pass2 + EMMS + } + } + + sptr -= width_mmx; + dp -= width_mmx*4; + for (i = width; i; i--) + { + int j; + + for (j = 0; j < png_pass_inc[pass]; j++) + { + *dp-- = *sptr; + } + sptr --; + } + } + else if (width) /* && ((pass == 4) || (pass == 5))) */ + { + int width_mmx = ((width >> 3) << 3); + width -= width_mmx; + if (width_mmx) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width_mmx + sub edi, 15 + sub esi, 7 +loop1_pass4: + movq mm0, [esi] ; v0 v1 v2 v3 v4 v5 v6 v7 + movq mm1, mm0 ; v0 v1 v2 v3 v4 v5 v6 v7 + punpcklbw mm0, mm0 ; v4 v4 v5 v5 v6 v6 v7 v7 + //movq mm1, mm0 ; v0 v0 v1 v1 v2 v2 v3 v3 + punpckhbw mm1, mm1 ;v0 v0 v1 v1 v2 v2 v3 v3 + movq [edi+8], mm1 ; move to memory v0 v1 v2 and v3 + sub esi, 8 + movq [edi], mm0 ; move to memory v4 v5 v6 and v7 + //sub esi, 4 + sub edi, 16 + sub ecx, 8 + jnz loop1_pass4 + EMMS + } + } + + sptr -= width_mmx; + dp -= width_mmx*2; + for (i = width; i; i--) + { + int j; + + for (j = 0; j < png_pass_inc[pass]; j++) + { + *dp-- = *sptr; + } + sptr --; + } + } + } /* end of pixel_bytes == 1 */ + + else if (pixel_bytes == 2) + { + if (((pass == 0) || (pass == 1)) && width) + { + int width_mmx = ((width >> 1) << 1); + width -= width_mmx; + if (width_mmx) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width_mmx + sub esi, 2 + sub edi, 30 +loop2_pass0: + movd mm0, [esi] ; X X X X v1 v0 v3 v2 + punpcklwd mm0, mm0 ; v1 v0 v1 v0 v3 v2 v3 v2 + movq mm1, mm0 ; v1 v0 v1 v0 v3 v2 v3 v2 + punpckldq mm0, mm0 ; v3 v2 v3 v2 v3 v2 v3 v2 + punpckhdq mm1, mm1 ; v1 v0 v1 v0 v1 v0 v1 v0 + movq [edi], mm0 + movq [edi + 8], mm0 + movq [edi + 16], mm1 + movq [edi + 24], mm1 + sub esi, 4 + sub edi, 32 + sub ecx, 2 + jnz loop2_pass0 + EMMS + } + } + + sptr -= (width_mmx*2 - 2); // sign fixed + dp -= (width_mmx*16 - 2); // sign fixed + for (i = width; i; i--) + { + png_byte v[8]; + int j; + sptr -= 2; + png_memcpy(v, sptr, 2); + for (j = 0; j < png_pass_inc[pass]; j++) + { + dp -= 2; + png_memcpy(dp, v, 2); + } + } + } + else if (((pass == 2) || (pass == 3)) && width) + { + int width_mmx = ((width >> 1) << 1) ; + width -= width_mmx; + if (width_mmx) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width_mmx + sub esi, 2 + sub edi, 14 +loop2_pass2: + movd mm0, [esi] ; X X X X v1 v0 v3 v2 + punpcklwd mm0, mm0 ; v1 v0 v1 v0 v3 v2 v3 v2 + movq mm1, mm0 ; v1 v0 v1 v0 v3 v2 v3 v2 + punpckldq mm0, mm0 ; v3 v2 v3 v2 v3 v2 v3 v2 + punpckhdq mm1, mm1 ; v1 v0 v1 v0 v1 v0 v1 v0 + movq [edi], mm0 + sub esi, 4 + movq [edi + 8], mm1 + //sub esi, 4 + sub edi, 16 + sub ecx, 2 + jnz loop2_pass2 + EMMS + } + } + + sptr -= (width_mmx*2 - 2); // sign fixed + dp -= (width_mmx*8 - 2); // sign fixed + for (i = width; i; i--) + { + png_byte v[8]; + int j; + sptr -= 2; + png_memcpy(v, sptr, 2); + for (j = 0; j < png_pass_inc[pass]; j++) + { + dp -= 2; + png_memcpy(dp, v, 2); + } + } + } + else if (width) // pass == 4 or 5 + { + int width_mmx = ((width >> 1) << 1) ; + width -= width_mmx; + if (width_mmx) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width_mmx + sub esi, 2 + sub edi, 6 +loop2_pass4: + movd mm0, [esi] ; X X X X v1 v0 v3 v2 + punpcklwd mm0, mm0 ; v1 v0 v1 v0 v3 v2 v3 v2 + sub esi, 4 + movq [edi], mm0 + sub edi, 8 + sub ecx, 2 + jnz loop2_pass4 + EMMS + } + } + + sptr -= (width_mmx*2 - 2); // sign fixed + dp -= (width_mmx*4 - 2); // sign fixed + for (i = width; i; i--) + { + png_byte v[8]; + int j; + sptr -= 2; + png_memcpy(v, sptr, 2); + for (j = 0; j < png_pass_inc[pass]; j++) + { + dp -= 2; + png_memcpy(dp, v, 2); + } + } + } + } /* end of pixel_bytes == 2 */ + + else if (pixel_bytes == 4) + { + if (((pass == 0) || (pass == 1)) && width) + { + int width_mmx = ((width >> 1) << 1) ; + width -= width_mmx; + if (width_mmx) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width_mmx + sub esi, 4 + sub edi, 60 +loop4_pass0: + movq mm0, [esi] ; v3 v2 v1 v0 v7 v6 v5 v4 + movq mm1, mm0 ; v3 v2 v1 v0 v7 v6 v5 v4 + punpckldq mm0, mm0 ; v7 v6 v5 v4 v7 v6 v5 v4 + punpckhdq mm1, mm1 ; v3 v2 v1 v0 v3 v2 v1 v0 + movq [edi], mm0 + movq [edi + 8], mm0 + movq [edi + 16], mm0 + movq [edi + 24], mm0 + movq [edi+32], mm1 + movq [edi + 40], mm1 + movq [edi+ 48], mm1 + sub esi, 8 + movq [edi + 56], mm1 + sub edi, 64 + sub ecx, 2 + jnz loop4_pass0 + EMMS + } + } + + sptr -= (width_mmx*4 - 4); // sign fixed + dp -= (width_mmx*32 - 4); // sign fixed + for (i = width; i; i--) + { + png_byte v[8]; + int j; + sptr -= 4; + png_memcpy(v, sptr, 4); + for (j = 0; j < png_pass_inc[pass]; j++) + { + dp -= 4; + png_memcpy(dp, v, 4); + } + } + } + else if (((pass == 2) || (pass == 3)) && width) + { + int width_mmx = ((width >> 1) << 1) ; + width -= width_mmx; + if (width_mmx) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width_mmx + sub esi, 4 + sub edi, 28 +loop4_pass2: + movq mm0, [esi] ; v3 v2 v1 v0 v7 v6 v5 v4 + movq mm1, mm0 ; v3 v2 v1 v0 v7 v6 v5 v4 + punpckldq mm0, mm0 ; v7 v6 v5 v4 v7 v6 v5 v4 + punpckhdq mm1, mm1 ; v3 v2 v1 v0 v3 v2 v1 v0 + movq [edi], mm0 + movq [edi + 8], mm0 + movq [edi+16], mm1 + movq [edi + 24], mm1 + sub esi, 8 + sub edi, 32 + sub ecx, 2 + jnz loop4_pass2 + EMMS + } + } + + sptr -= (width_mmx*4 - 4); // sign fixed + dp -= (width_mmx*16 - 4); // sign fixed + for (i = width; i; i--) + { + png_byte v[8]; + int j; + sptr -= 4; + png_memcpy(v, sptr, 4); + for (j = 0; j < png_pass_inc[pass]; j++) + { + dp -= 4; + png_memcpy(dp, v, 4); + } + } + } + else if (width) // pass == 4 or 5 + { + int width_mmx = ((width >> 1) << 1) ; + width -= width_mmx; + if (width_mmx) + { + _asm + { + mov esi, sptr + mov edi, dp + mov ecx, width_mmx + sub esi, 4 + sub edi, 12 +loop4_pass4: + movq mm0, [esi] ; v3 v2 v1 v0 v7 v6 v5 v4 + movq mm1, mm0 ; v3 v2 v1 v0 v7 v6 v5 v4 + punpckldq mm0, mm0 ; v7 v6 v5 v4 v7 v6 v5 v4 + punpckhdq mm1, mm1 ; v3 v2 v1 v0 v3 v2 v1 v0 + movq [edi], mm0 + sub esi, 8 + movq [edi + 8], mm1 + sub edi, 16 + sub ecx, 2 + jnz loop4_pass4 + EMMS + } + } + + sptr -= (width_mmx*4 - 4); // sign fixed + dp -= (width_mmx*8 - 4); // sign fixed + for (i = width; i; i--) + { + png_byte v[8]; + int j; + sptr -= 4; + png_memcpy(v, sptr, 4); + for (j = 0; j < png_pass_inc[pass]; j++) + { + dp -= 4; + png_memcpy(dp, v, 4); + } + } + } + + } /* end of pixel_bytes == 4 */ + + else if (pixel_bytes == 6) + { + for (i = width; i; i--) + { + png_byte v[8]; + int j; + png_memcpy(v, sptr, 6); + for (j = 0; j < png_pass_inc[pass]; j++) + { + png_memcpy(dp, v, 6); + dp -= 6; + } + sptr -= 6; + } + } /* end of pixel_bytes == 6 */ + + else + { + for (i = width; i; i--) + { + png_byte v[8]; + int j; + png_memcpy(v, sptr, pixel_bytes); + for (j = 0; j < png_pass_inc[pass]; j++) + { + png_memcpy(dp, v, pixel_bytes); + dp -= pixel_bytes; + } + sptr-= pixel_bytes; + } + } + } /* end of mmx_supported */ + + else /* MMX not supported: use modified C code - takes advantage + * of inlining of memcpy for a constant */ + { + if (pixel_bytes == 1) + { + for (i = width; i; i--) + { + int j; + for (j = 0; j < png_pass_inc[pass]; j++) + *dp-- = *sptr; + sptr--; + } + } + else if (pixel_bytes == 3) + { + for (i = width; i; i--) + { + png_byte v[8]; + int j; + png_memcpy(v, sptr, pixel_bytes); + for (j = 0; j < png_pass_inc[pass]; j++) + { + png_memcpy(dp, v, pixel_bytes); + dp -= pixel_bytes; + } + sptr -= pixel_bytes; + } + } + else if (pixel_bytes == 2) + { + for (i = width; i; i--) + { + png_byte v[8]; + int j; + png_memcpy(v, sptr, pixel_bytes); + for (j = 0; j < png_pass_inc[pass]; j++) + { + png_memcpy(dp, v, pixel_bytes); + dp -= pixel_bytes; + } + sptr -= pixel_bytes; + } + } + else if (pixel_bytes == 4) + { + for (i = width; i; i--) + { + png_byte v[8]; + int j; + png_memcpy(v, sptr, pixel_bytes); + for (j = 0; j < png_pass_inc[pass]; j++) + { + png_memcpy(dp, v, pixel_bytes); + dp -= pixel_bytes; + } + sptr -= pixel_bytes; + } + } + else if (pixel_bytes == 6) + { + for (i = width; i; i--) + { + png_byte v[8]; + int j; + png_memcpy(v, sptr, pixel_bytes); + for (j = 0; j < png_pass_inc[pass]; j++) + { + png_memcpy(dp, v, pixel_bytes); + dp -= pixel_bytes; + } + sptr -= pixel_bytes; + } + } + else + { + for (i = width; i; i--) + { + png_byte v[8]; + int j; + png_memcpy(v, sptr, pixel_bytes); + for (j = 0; j < png_pass_inc[pass]; j++) + { + png_memcpy(dp, v, pixel_bytes); + dp -= pixel_bytes; + } + sptr -= pixel_bytes; + } + } + + } /* end of MMX not supported */ + break; + } + } /* end switch (row_info->pixel_depth) */ + + row_info->width = final_width; + row_info->rowbytes = ((final_width * + (png_uint_32)row_info->pixel_depth + 7) >> 3); + } + +} + +#endif /* PNG_READ_INTERLACING_SUPPORTED */ + + +// These variables are utilized in the functions below. They are declared +// globally here to ensure alignment on 8-byte boundaries. + +union uAll { + __int64 use; + double align; +} LBCarryMask = {0x0101010101010101}, + HBClearMask = {0x7f7f7f7f7f7f7f7f}, + ActiveMask, ActiveMask2, ActiveMaskEnd, ShiftBpp, ShiftRem; + + +// Optimized code for PNG Average filter decoder +void /* PRIVATE */ +png_read_filter_row_mmx_avg(png_row_infop row_info, png_bytep row + , png_bytep prev_row) +{ + int bpp; + png_uint_32 FullLength; + png_uint_32 MMXLength; + //png_uint_32 len; + int diff; + + bpp = (row_info->pixel_depth + 7) >> 3; // Get # bytes per pixel + FullLength = row_info->rowbytes; // # of bytes to filter + _asm { + // Init address pointers and offset + mov edi, row // edi ==> Avg(x) + xor ebx, ebx // ebx ==> x + mov edx, edi + mov esi, prev_row // esi ==> Prior(x) + sub edx, bpp // edx ==> Raw(x-bpp) + + xor eax, eax + // Compute the Raw value for the first bpp bytes + // Raw(x) = Avg(x) + (Prior(x)/2) +davgrlp: + mov al, [esi + ebx] // Load al with Prior(x) + inc ebx + shr al, 1 // divide by 2 + add al, [edi+ebx-1] // Add Avg(x); -1 to offset inc ebx + cmp ebx, bpp + mov [edi+ebx-1], al // Write back Raw(x); + // mov does not affect flags; -1 to offset inc ebx + jb davgrlp + // get # of bytes to alignment + mov diff, edi // take start of row + add diff, ebx // add bpp + add diff, 0xf // add 7 + 8 to incr past alignment boundary + and diff, 0xfffffff8 // mask to alignment boundary + sub diff, edi // subtract from start ==> value ebx at alignment + jz davggo + // fix alignment + // Compute the Raw value for the bytes upto the alignment boundary + // Raw(x) = Avg(x) + ((Raw(x-bpp) + Prior(x))/2) + xor ecx, ecx +davglp1: + xor eax, eax + mov cl, [esi + ebx] // load cl with Prior(x) + mov al, [edx + ebx] // load al with Raw(x-bpp) + add ax, cx + inc ebx + shr ax, 1 // divide by 2 + add al, [edi+ebx-1] // Add Avg(x); -1 to offset inc ebx + cmp ebx, diff // Check if at alignment boundary + mov [edi+ebx-1], al // Write back Raw(x); + // mov does not affect flags; -1 to offset inc ebx + jb davglp1 // Repeat until at alignment boundary +davggo: + mov eax, FullLength + mov ecx, eax + sub eax, ebx // subtract alignment fix + and eax, 0x00000007 // calc bytes over mult of 8 + sub ecx, eax // drop over bytes from original length + mov MMXLength, ecx + } // end _asm block + // Now do the math for the rest of the row + switch ( bpp ) + { + case 3: + { + ActiveMask.use = 0x0000000000ffffff; + ShiftBpp.use = 24; // == 3 * 8 + ShiftRem.use = 40; // == 64 - 24 + _asm { + // Re-init address pointers and offset + movq mm7, ActiveMask + mov ebx, diff // ebx ==> x = offset to alignment boundary + movq mm5, LBCarryMask + mov edi, row // edi ==> Avg(x) + movq mm4, HBClearMask + mov esi, prev_row // esi ==> Prior(x) + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm2, [edi + ebx - 8] // Load previous aligned 8 bytes + // (we correct position in loop below) +davg3lp: + movq mm0, [edi + ebx] // Load mm0 with Avg(x) + // Add (Prev_row/2) to Average + movq mm3, mm5 + psrlq mm2, ShiftRem // Correct position Raw(x-bpp) data + movq mm1, [esi + ebx] // Load mm1 with Prior(x) + movq mm6, mm7 + pand mm3, mm1 // get lsb for each prev_row byte + psrlq mm1, 1 // divide prev_row bytes by 2 + pand mm1, mm4 // clear invalid bit 7 of each byte + paddb mm0, mm1 // add (Prev_row/2) to Avg for each byte + // Add 1st active group (Raw(x-bpp)/2) to Average with LBCarry + movq mm1, mm3 // now use mm1 for getting LBCarrys + pand mm1, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 (Only valid for active group) + psrlq mm2, 1 // divide raw bytes by 2 + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm2, mm1 // add LBCarrys to (Raw(x-bpp)/2) for each byte + pand mm2, mm6 // Leave only Active Group 1 bytes to add to Avg + paddb mm0, mm2 // add (Raw/2) + LBCarrys to Avg for each Active + // byte + // Add 2nd active group (Raw(x-bpp)/2) to Average with LBCarry + psllq mm6, ShiftBpp // shift the mm6 mask to cover bytes 3-5 + movq mm2, mm0 // mov updated Raws to mm2 + psllq mm2, ShiftBpp // shift data to position correctly + movq mm1, mm3 // now use mm1 for getting LBCarrys + pand mm1, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 (Only valid for active group) + psrlq mm2, 1 // divide raw bytes by 2 + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm2, mm1 // add LBCarrys to (Raw(x-bpp)/2) for each byte + pand mm2, mm6 // Leave only Active Group 2 bytes to add to Avg + paddb mm0, mm2 // add (Raw/2) + LBCarrys to Avg for each Active + // byte + + // Add 3rd active group (Raw(x-bpp)/2) to Average with LBCarry + psllq mm6, ShiftBpp // shift the mm6 mask to cover the last two + // bytes + movq mm2, mm0 // mov updated Raws to mm2 + psllq mm2, ShiftBpp // shift data to position correctly + // Data only needs to be shifted once here to + // get the correct x-bpp offset. + movq mm1, mm3 // now use mm1 for getting LBCarrys + pand mm1, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 (Only valid for active group) + psrlq mm2, 1 // divide raw bytes by 2 + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm2, mm1 // add LBCarrys to (Raw(x-bpp)/2) for each byte + pand mm2, mm6 // Leave only Active Group 2 bytes to add to Avg + add ebx, 8 + paddb mm0, mm2 // add (Raw/2) + LBCarrys to Avg for each Active + // byte + + // Now ready to write back to memory + movq [edi + ebx - 8], mm0 + // Move updated Raw(x) to use as Raw(x-bpp) for next loop + cmp ebx, MMXLength + movq mm2, mm0 // mov updated Raw(x) to mm2 + jb davg3lp + } // end _asm block + } + break; + + case 6: + case 4: + case 7: + case 5: + { + ActiveMask.use = 0xffffffffffffffff; // use shift below to clear + // appropriate inactive bytes + ShiftBpp.use = bpp << 3; + ShiftRem.use = 64 - ShiftBpp.use; + _asm { + movq mm4, HBClearMask + // Re-init address pointers and offset + mov ebx, diff // ebx ==> x = offset to alignment boundary + // Load ActiveMask and clear all bytes except for 1st active group + movq mm7, ActiveMask + mov edi, row // edi ==> Avg(x) + psrlq mm7, ShiftRem + mov esi, prev_row // esi ==> Prior(x) + movq mm6, mm7 + movq mm5, LBCarryMask + psllq mm6, ShiftBpp // Create mask for 2nd active group + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm2, [edi + ebx - 8] // Load previous aligned 8 bytes + // (we correct position in loop below) +davg4lp: + movq mm0, [edi + ebx] + psrlq mm2, ShiftRem // shift data to position correctly + movq mm1, [esi + ebx] + // Add (Prev_row/2) to Average + movq mm3, mm5 + pand mm3, mm1 // get lsb for each prev_row byte + psrlq mm1, 1 // divide prev_row bytes by 2 + pand mm1, mm4 // clear invalid bit 7 of each byte + paddb mm0, mm1 // add (Prev_row/2) to Avg for each byte + // Add 1st active group (Raw(x-bpp)/2) to Average with LBCarry + movq mm1, mm3 // now use mm1 for getting LBCarrys + pand mm1, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 (Only valid for active group) + psrlq mm2, 1 // divide raw bytes by 2 + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm2, mm1 // add LBCarrys to (Raw(x-bpp)/2) for each byte + pand mm2, mm7 // Leave only Active Group 1 bytes to add to Avg + paddb mm0, mm2 // add (Raw/2) + LBCarrys to Avg for each Active + // byte + // Add 2nd active group (Raw(x-bpp)/2) to Average with LBCarry + movq mm2, mm0 // mov updated Raws to mm2 + psllq mm2, ShiftBpp // shift data to position correctly + add ebx, 8 + movq mm1, mm3 // now use mm1 for getting LBCarrys + pand mm1, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 (Only valid for active group) + psrlq mm2, 1 // divide raw bytes by 2 + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm2, mm1 // add LBCarrys to (Raw(x-bpp)/2) for each byte + pand mm2, mm6 // Leave only Active Group 2 bytes to add to Avg + paddb mm0, mm2 // add (Raw/2) + LBCarrys to Avg for each Active + // byte + cmp ebx, MMXLength + // Now ready to write back to memory + movq [edi + ebx - 8], mm0 + // Prep Raw(x-bpp) for next loop + movq mm2, mm0 // mov updated Raws to mm2 + jb davg4lp + } // end _asm block + } + break; + case 2: + { + ActiveMask.use = 0x000000000000ffff; + ShiftBpp.use = 16; // == 2 * 8 [BUGFIX] + ShiftRem.use = 48; // == 64 - 16 [BUGFIX] + _asm { + // Load ActiveMask + movq mm7, ActiveMask + // Re-init address pointers and offset + mov ebx, diff // ebx ==> x = offset to alignment boundary + movq mm5, LBCarryMask + mov edi, row // edi ==> Avg(x) + movq mm4, HBClearMask + mov esi, prev_row // esi ==> Prior(x) + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm2, [edi + ebx - 8] // Load previous aligned 8 bytes + // (we correct position in loop below) +davg2lp: + movq mm0, [edi + ebx] + psrlq mm2, ShiftRem // shift data to position correctly [BUGFIX] + movq mm1, [esi + ebx] + // Add (Prev_row/2) to Average + movq mm3, mm5 + pand mm3, mm1 // get lsb for each prev_row byte + psrlq mm1, 1 // divide prev_row bytes by 2 + pand mm1, mm4 // clear invalid bit 7 of each byte + movq mm6, mm7 + paddb mm0, mm1 // add (Prev_row/2) to Avg for each byte + // Add 1st active group (Raw(x-bpp)/2) to Average with LBCarry + movq mm1, mm3 // now use mm1 for getting LBCarrys + pand mm1, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 (Only valid for active group) + psrlq mm2, 1 // divide raw bytes by 2 + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm2, mm1 // add LBCarrys to (Raw(x-bpp)/2) for each byte + pand mm2, mm6 // Leave only Active Group 1 bytes to add to Avg + paddb mm0, mm2 // add (Raw/2) + LBCarrys to Avg for each Active byte + // Add 2nd active group (Raw(x-bpp)/2) to Average with LBCarry + psllq mm6, ShiftBpp // shift the mm6 mask to cover bytes 2 & 3 + movq mm2, mm0 // mov updated Raws to mm2 + psllq mm2, ShiftBpp // shift data to position correctly + movq mm1, mm3 // now use mm1 for getting LBCarrys + pand mm1, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 (Only valid for active group) + psrlq mm2, 1 // divide raw bytes by 2 + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm2, mm1 // add LBCarrys to (Raw(x-bpp)/2) for each byte + pand mm2, mm6 // Leave only Active Group 2 bytes to add to Avg + paddb mm0, mm2 // add (Raw/2) + LBCarrys to Avg for each Active byte + + // Add rdd active group (Raw(x-bpp)/2) to Average with LBCarry + psllq mm6, ShiftBpp // shift the mm6 mask to cover bytes 4 & 5 + movq mm2, mm0 // mov updated Raws to mm2 + psllq mm2, ShiftBpp // shift data to position correctly + // Data only needs to be shifted once here to + // get the correct x-bpp offset. + movq mm1, mm3 // now use mm1 for getting LBCarrys + pand mm1, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 (Only valid for active group) + psrlq mm2, 1 // divide raw bytes by 2 + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm2, mm1 // add LBCarrys to (Raw(x-bpp)/2) for each byte + pand mm2, mm6 // Leave only Active Group 2 bytes to add to Avg + paddb mm0, mm2 // add (Raw/2) + LBCarrys to Avg for each Active byte + + // Add 4th active group (Raw(x-bpp)/2) to Average with LBCarry + psllq mm6, ShiftBpp // shift the mm6 mask to cover bytes 6 & 7 + movq mm2, mm0 // mov updated Raws to mm2 + psllq mm2, ShiftBpp // shift data to position correctly + // Data only needs to be shifted once here to + // get the correct x-bpp offset. + add ebx, 8 + movq mm1, mm3 // now use mm1 for getting LBCarrys + pand mm1, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 (Only valid for active group) + psrlq mm2, 1 // divide raw bytes by 2 + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm2, mm1 // add LBCarrys to (Raw(x-bpp)/2) for each byte + pand mm2, mm6 // Leave only Active Group 2 bytes to add to Avg + paddb mm0, mm2 // add (Raw/2) + LBCarrys to Avg for each Active byte + + cmp ebx, MMXLength + // Now ready to write back to memory + movq [edi + ebx - 8], mm0 + // Prep Raw(x-bpp) for next loop + movq mm2, mm0 // mov updated Raws to mm2 + jb davg2lp + } // end _asm block + } + break; + + case 1: // bpp == 1 + { + _asm { + // Re-init address pointers and offset + mov ebx, diff // ebx ==> x = offset to alignment boundary + mov edi, row // edi ==> Avg(x) + cmp ebx, FullLength // Test if offset at end of array + jnb davg1end + // Do Paeth decode for remaining bytes + mov esi, prev_row // esi ==> Prior(x) + mov edx, edi + xor ecx, ecx // zero ecx before using cl & cx in loop below + sub edx, bpp // edx ==> Raw(x-bpp) +davg1lp: + // Raw(x) = Avg(x) + ((Raw(x-bpp) + Prior(x))/2) + xor eax, eax + mov cl, [esi + ebx] // load cl with Prior(x) + mov al, [edx + ebx] // load al with Raw(x-bpp) + add ax, cx + inc ebx + shr ax, 1 // divide by 2 + add al, [edi+ebx-1] // Add Avg(x); -1 to offset inc ebx + cmp ebx, FullLength // Check if at end of array + mov [edi+ebx-1], al // Write back Raw(x); + // mov does not affect flags; -1 to offset inc ebx + jb davg1lp +davg1end: + } // end _asm block + } + return; + + case 8: // bpp == 8 + { + _asm { + // Re-init address pointers and offset + mov ebx, diff // ebx ==> x = offset to alignment boundary + movq mm5, LBCarryMask + mov edi, row // edi ==> Avg(x) + movq mm4, HBClearMask + mov esi, prev_row // esi ==> Prior(x) + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm2, [edi + ebx - 8] // Load previous aligned 8 bytes + // (NO NEED to correct position in loop below) +davg8lp: + movq mm0, [edi + ebx] + movq mm3, mm5 + movq mm1, [esi + ebx] + add ebx, 8 + pand mm3, mm1 // get lsb for each prev_row byte + psrlq mm1, 1 // divide prev_row bytes by 2 + pand mm3, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 + psrlq mm2, 1 // divide raw bytes by 2 + pand mm1, mm4 // clear invalid bit 7 of each byte + paddb mm0, mm3 // add LBCarrys to Avg for each byte + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm0, mm1 // add (Prev_row/2) to Avg for each byte + paddb mm0, mm2 // add (Raw/2) to Avg for each byte + cmp ebx, MMXLength + movq [edi + ebx - 8], mm0 + movq mm2, mm0 // reuse as Raw(x-bpp) + jb davg8lp + } // end _asm block + } + break; + default: // bpp greater than 8 + { + _asm { + movq mm5, LBCarryMask + // Re-init address pointers and offset + mov ebx, diff // ebx ==> x = offset to alignment boundary + mov edi, row // edi ==> Avg(x) + movq mm4, HBClearMask + mov edx, edi + mov esi, prev_row // esi ==> Prior(x) + sub edx, bpp // edx ==> Raw(x-bpp) +davgAlp: + movq mm0, [edi + ebx] + movq mm3, mm5 + movq mm1, [esi + ebx] + pand mm3, mm1 // get lsb for each prev_row byte + movq mm2, [edx + ebx] + psrlq mm1, 1 // divide prev_row bytes by 2 + pand mm3, mm2 // get LBCarrys for each byte where both + // lsb's were == 1 + psrlq mm2, 1 // divide raw bytes by 2 + pand mm1, mm4 // clear invalid bit 7 of each byte + paddb mm0, mm3 // add LBCarrys to Avg for each byte + pand mm2, mm4 // clear invalid bit 7 of each byte + paddb mm0, mm1 // add (Prev_row/2) to Avg for each byte + add ebx, 8 + paddb mm0, mm2 // add (Raw/2) to Avg for each byte + cmp ebx, MMXLength + movq [edi + ebx - 8], mm0 + jb davgAlp + } // end _asm block + } + break; + } // end switch ( bpp ) + + _asm { + // MMX acceleration complete now do clean-up + // Check if any remaining bytes left to decode + mov ebx, MMXLength // ebx ==> x = offset bytes remaining after MMX + mov edi, row // edi ==> Avg(x) + cmp ebx, FullLength // Test if offset at end of array + jnb davgend + // Do Paeth decode for remaining bytes + mov esi, prev_row // esi ==> Prior(x) + mov edx, edi + xor ecx, ecx // zero ecx before using cl & cx in loop below + sub edx, bpp // edx ==> Raw(x-bpp) +davglp2: + // Raw(x) = Avg(x) + ((Raw(x-bpp) + Prior(x))/2) + xor eax, eax + mov cl, [esi + ebx] // load cl with Prior(x) + mov al, [edx + ebx] // load al with Raw(x-bpp) + add ax, cx + inc ebx + shr ax, 1 // divide by 2 + add al, [edi+ebx-1] // Add Avg(x); -1 to offset inc ebx + cmp ebx, FullLength // Check if at end of array + mov [edi+ebx-1], al // Write back Raw(x); + // mov does not affect flags; -1 to offset inc ebx + jb davglp2 +davgend: + emms // End MMX instructions; prep for possible FP instrs. + } // end _asm block +} + +// Optimized code for PNG Paeth filter decoder +void /* PRIVATE */ +png_read_filter_row_mmx_paeth(png_row_infop row_info, png_bytep row, + png_bytep prev_row) +{ + png_uint_32 FullLength; + png_uint_32 MMXLength; + //png_uint_32 len; + int bpp; + int diff; + //int ptemp; + int patemp, pbtemp, pctemp; + + bpp = (row_info->pixel_depth + 7) >> 3; // Get # bytes per pixel + FullLength = row_info->rowbytes; // # of bytes to filter + _asm + { + xor ebx, ebx // ebx ==> x offset + mov edi, row + xor edx, edx // edx ==> x-bpp offset + mov esi, prev_row + xor eax, eax + + // Compute the Raw value for the first bpp bytes + // Note: the formula works out to be always + // Paeth(x) = Raw(x) + Prior(x) where x < bpp +dpthrlp: + mov al, [edi + ebx] + add al, [esi + ebx] + inc ebx + cmp ebx, bpp + mov [edi + ebx - 1], al + jb dpthrlp + // get # of bytes to alignment + mov diff, edi // take start of row + add diff, ebx // add bpp + xor ecx, ecx + add diff, 0xf // add 7 + 8 to incr past alignment boundary + and diff, 0xfffffff8 // mask to alignment boundary + sub diff, edi // subtract from start ==> value ebx at alignment + jz dpthgo + // fix alignment +dpthlp1: + xor eax, eax + // pav = p - a = (a + b - c) - a = b - c + mov al, [esi + ebx] // load Prior(x) into al + mov cl, [esi + edx] // load Prior(x-bpp) into cl + sub eax, ecx // subtract Prior(x-bpp) + mov patemp, eax // Save pav for later use + xor eax, eax + // pbv = p - b = (a + b - c) - b = a - c + mov al, [edi + edx] // load Raw(x-bpp) into al + sub eax, ecx // subtract Prior(x-bpp) + mov ecx, eax + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + add eax, patemp // pcv = pav + pbv + // pc = abs(pcv) + test eax, 0x80000000 + jz dpthpca + neg eax // reverse sign of neg values +dpthpca: + mov pctemp, eax // save pc for later use + // pb = abs(pbv) + test ecx, 0x80000000 + jz dpthpba + neg ecx // reverse sign of neg values +dpthpba: + mov pbtemp, ecx // save pb for later use + // pa = abs(pav) + mov eax, patemp + test eax, 0x80000000 + jz dpthpaa + neg eax // reverse sign of neg values +dpthpaa: + mov patemp, eax // save pa for later use + // test if pa <= pb + cmp eax, ecx + jna dpthabb + // pa > pb; now test if pb <= pc + cmp ecx, pctemp + jna dpthbbc + // pb > pc; Raw(x) = Paeth(x) + Prior(x-bpp) + mov cl, [esi + edx] // load Prior(x-bpp) into cl + jmp dpthpaeth +dpthbbc: + // pb <= pc; Raw(x) = Paeth(x) + Prior(x) + mov cl, [esi + ebx] // load Prior(x) into cl + jmp dpthpaeth +dpthabb: + // pa <= pb; now test if pa <= pc + cmp eax, pctemp + jna dpthabc + // pa > pc; Raw(x) = Paeth(x) + Prior(x-bpp) + mov cl, [esi + edx] // load Prior(x-bpp) into cl + jmp dpthpaeth +dpthabc: + // pa <= pc; Raw(x) = Paeth(x) + Raw(x-bpp) + mov cl, [edi + edx] // load Raw(x-bpp) into cl +dpthpaeth: + inc ebx + inc edx + // Raw(x) = (Paeth(x) + Paeth_Predictor( a, b, c )) mod 256 + add [edi + ebx - 1], cl + cmp ebx, diff + jb dpthlp1 +dpthgo: + mov ecx, FullLength + mov eax, ecx + sub eax, ebx // subtract alignment fix + and eax, 0x00000007 // calc bytes over mult of 8 + sub ecx, eax // drop over bytes from original length + mov MMXLength, ecx + } // end _asm block + // Now do the math for the rest of the row + switch ( bpp ) + { + case 3: + { + ActiveMask.use = 0x0000000000ffffff; + ActiveMaskEnd.use = 0xffff000000000000; + ShiftBpp.use = 24; // == bpp(3) * 8 + ShiftRem.use = 40; // == 64 - 24 + _asm + { + mov ebx, diff + mov edi, row + mov esi, prev_row + pxor mm0, mm0 + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm1, [edi+ebx-8] +dpth3lp: + psrlq mm1, ShiftRem // shift last 3 bytes to 1st 3 bytes + movq mm2, [esi + ebx] // load b=Prior(x) + punpcklbw mm1, mm0 // Unpack High bytes of a + movq mm3, [esi+ebx-8] // Prep c=Prior(x-bpp) bytes + punpcklbw mm2, mm0 // Unpack High bytes of b + psrlq mm3, ShiftRem // shift last 3 bytes to 1st 3 bytes + // pav = p - a = (a + b - c) - a = b - c + movq mm4, mm2 + punpcklbw mm3, mm0 // Unpack High bytes of c + // pbv = p - b = (a + b - c) - b = a - c + movq mm5, mm1 + psubw mm4, mm3 + pxor mm7, mm7 + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + movq mm6, mm4 + psubw mm5, mm3 + + // pa = abs(p-a) = abs(pav) + // pb = abs(p-b) = abs(pbv) + // pc = abs(p-c) = abs(pcv) + pcmpgtw mm0, mm4 // Create mask pav bytes < 0 + paddw mm6, mm5 + pand mm0, mm4 // Only pav bytes < 0 in mm7 + pcmpgtw mm7, mm5 // Create mask pbv bytes < 0 + psubw mm4, mm0 + pand mm7, mm5 // Only pbv bytes < 0 in mm0 + psubw mm4, mm0 + psubw mm5, mm7 + pxor mm0, mm0 + pcmpgtw mm0, mm6 // Create mask pcv bytes < 0 + pand mm0, mm6 // Only pav bytes < 0 in mm7 + psubw mm5, mm7 + psubw mm6, mm0 + // test pa <= pb + movq mm7, mm4 + psubw mm6, mm0 + pcmpgtw mm7, mm5 // pa > pb? + movq mm0, mm7 + // use mm7 mask to merge pa & pb + pand mm5, mm7 + // use mm0 mask copy to merge a & b + pand mm2, mm0 + pandn mm7, mm4 + pandn mm0, mm1 + paddw mm7, mm5 + paddw mm0, mm2 + // test ((pa <= pb)? pa:pb) <= pc + pcmpgtw mm7, mm6 // pab > pc? + pxor mm1, mm1 + pand mm3, mm7 + pandn mm7, mm0 + paddw mm7, mm3 + pxor mm0, mm0 + packuswb mm7, mm1 + movq mm3, [esi + ebx] // load c=Prior(x-bpp) + pand mm7, ActiveMask + movq mm2, mm3 // load b=Prior(x) step 1 + paddb mm7, [edi + ebx] // add Paeth predictor with Raw(x) + punpcklbw mm3, mm0 // Unpack High bytes of c + movq [edi + ebx], mm7 // write back updated value + movq mm1, mm7 // Now mm1 will be used as Raw(x-bpp) + // Now do Paeth for 2nd set of bytes (3-5) + psrlq mm2, ShiftBpp // load b=Prior(x) step 2 + punpcklbw mm1, mm0 // Unpack High bytes of a + pxor mm7, mm7 + punpcklbw mm2, mm0 // Unpack High bytes of b + // pbv = p - b = (a + b - c) - b = a - c + movq mm5, mm1 + // pav = p - a = (a + b - c) - a = b - c + movq mm4, mm2 + psubw mm5, mm3 + psubw mm4, mm3 + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = + // pav + pbv = pbv + pav + movq mm6, mm5 + paddw mm6, mm4 + + // pa = abs(p-a) = abs(pav) + // pb = abs(p-b) = abs(pbv) + // pc = abs(p-c) = abs(pcv) + pcmpgtw mm0, mm5 // Create mask pbv bytes < 0 + pcmpgtw mm7, mm4 // Create mask pav bytes < 0 + pand mm0, mm5 // Only pbv bytes < 0 in mm0 + pand mm7, mm4 // Only pav bytes < 0 in mm7 + psubw mm5, mm0 + psubw mm4, mm7 + psubw mm5, mm0 + psubw mm4, mm7 + pxor mm0, mm0 + pcmpgtw mm0, mm6 // Create mask pcv bytes < 0 + pand mm0, mm6 // Only pav bytes < 0 in mm7 + psubw mm6, mm0 + // test pa <= pb + movq mm7, mm4 + psubw mm6, mm0 + pcmpgtw mm7, mm5 // pa > pb? + movq mm0, mm7 + // use mm7 mask to merge pa & pb + pand mm5, mm7 + // use mm0 mask copy to merge a & b + pand mm2, mm0 + pandn mm7, mm4 + pandn mm0, mm1 + paddw mm7, mm5 + paddw mm0, mm2 + // test ((pa <= pb)? pa:pb) <= pc + pcmpgtw mm7, mm6 // pab > pc? + movq mm2, [esi + ebx] // load b=Prior(x) + pand mm3, mm7 + pandn mm7, mm0 + pxor mm1, mm1 + paddw mm7, mm3 + pxor mm0, mm0 + packuswb mm7, mm1 + movq mm3, mm2 // load c=Prior(x-bpp) step 1 + pand mm7, ActiveMask + punpckhbw mm2, mm0 // Unpack High bytes of b + psllq mm7, ShiftBpp // Shift bytes to 2nd group of 3 bytes + // pav = p - a = (a + b - c) - a = b - c + movq mm4, mm2 + paddb mm7, [edi + ebx] // add Paeth predictor with Raw(x) + psllq mm3, ShiftBpp // load c=Prior(x-bpp) step 2 + movq [edi + ebx], mm7 // write back updated value + movq mm1, mm7 + punpckhbw mm3, mm0 // Unpack High bytes of c + psllq mm1, ShiftBpp // Shift bytes + // Now mm1 will be used as Raw(x-bpp) + // Now do Paeth for 3rd, and final, set of bytes (6-7) + pxor mm7, mm7 + punpckhbw mm1, mm0 // Unpack High bytes of a + psubw mm4, mm3 + // pbv = p - b = (a + b - c) - b = a - c + movq mm5, mm1 + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + movq mm6, mm4 + psubw mm5, mm3 + pxor mm0, mm0 + paddw mm6, mm5 + + // pa = abs(p-a) = abs(pav) + // pb = abs(p-b) = abs(pbv) + // pc = abs(p-c) = abs(pcv) + pcmpgtw mm0, mm4 // Create mask pav bytes < 0 + pcmpgtw mm7, mm5 // Create mask pbv bytes < 0 + pand mm0, mm4 // Only pav bytes < 0 in mm7 + pand mm7, mm5 // Only pbv bytes < 0 in mm0 + psubw mm4, mm0 + psubw mm5, mm7 + psubw mm4, mm0 + psubw mm5, mm7 + pxor mm0, mm0 + pcmpgtw mm0, mm6 // Create mask pcv bytes < 0 + pand mm0, mm6 // Only pav bytes < 0 in mm7 + psubw mm6, mm0 + // test pa <= pb + movq mm7, mm4 + psubw mm6, mm0 + pcmpgtw mm7, mm5 // pa > pb? + movq mm0, mm7 + // use mm0 mask copy to merge a & b + pand mm2, mm0 + // use mm7 mask to merge pa & pb + pand mm5, mm7 + pandn mm0, mm1 + pandn mm7, mm4 + paddw mm0, mm2 + paddw mm7, mm5 + // test ((pa <= pb)? pa:pb) <= pc + pcmpgtw mm7, mm6 // pab > pc? + pand mm3, mm7 + pandn mm7, mm0 + paddw mm7, mm3 + pxor mm1, mm1 + packuswb mm1, mm7 + // Step ebx to next set of 8 bytes and repeat loop til done + add ebx, 8 + pand mm1, ActiveMaskEnd + paddb mm1, [edi + ebx - 8] // add Paeth predictor with Raw(x) + + cmp ebx, MMXLength + pxor mm0, mm0 // pxor does not affect flags + movq [edi + ebx - 8], mm1 // write back updated value + // mm1 will be used as Raw(x-bpp) next loop + // mm3 ready to be used as Prior(x-bpp) next loop + jb dpth3lp + } // end _asm block + } + break; + + case 6: + case 7: + case 5: + { + ActiveMask.use = 0x00000000ffffffff; + ActiveMask2.use = 0xffffffff00000000; + ShiftBpp.use = bpp << 3; // == bpp * 8 + ShiftRem.use = 64 - ShiftBpp.use; + _asm + { + mov ebx, diff + mov edi, row + mov esi, prev_row + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm1, [edi+ebx-8] + pxor mm0, mm0 +dpth6lp: + // Must shift to position Raw(x-bpp) data + psrlq mm1, ShiftRem + // Do first set of 4 bytes + movq mm3, [esi+ebx-8] // read c=Prior(x-bpp) bytes + punpcklbw mm1, mm0 // Unpack Low bytes of a + movq mm2, [esi + ebx] // load b=Prior(x) + punpcklbw mm2, mm0 // Unpack Low bytes of b + // Must shift to position Prior(x-bpp) data + psrlq mm3, ShiftRem + // pav = p - a = (a + b - c) - a = b - c + movq mm4, mm2 + punpcklbw mm3, mm0 // Unpack Low bytes of c + // pbv = p - b = (a + b - c) - b = a - c + movq mm5, mm1 + psubw mm4, mm3 + pxor mm7, mm7 + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + movq mm6, mm4 + psubw mm5, mm3 + // pa = abs(p-a) = abs(pav) + // pb = abs(p-b) = abs(pbv) + // pc = abs(p-c) = abs(pcv) + pcmpgtw mm0, mm4 // Create mask pav bytes < 0 + paddw mm6, mm5 + pand mm0, mm4 // Only pav bytes < 0 in mm7 + pcmpgtw mm7, mm5 // Create mask pbv bytes < 0 + psubw mm4, mm0 + pand mm7, mm5 // Only pbv bytes < 0 in mm0 + psubw mm4, mm0 + psubw mm5, mm7 + pxor mm0, mm0 + pcmpgtw mm0, mm6 // Create mask pcv bytes < 0 + pand mm0, mm6 // Only pav bytes < 0 in mm7 + psubw mm5, mm7 + psubw mm6, mm0 + // test pa <= pb + movq mm7, mm4 + psubw mm6, mm0 + pcmpgtw mm7, mm5 // pa > pb? + movq mm0, mm7 + // use mm7 mask to merge pa & pb + pand mm5, mm7 + // use mm0 mask copy to merge a & b + pand mm2, mm0 + pandn mm7, mm4 + pandn mm0, mm1 + paddw mm7, mm5 + paddw mm0, mm2 + // test ((pa <= pb)? pa:pb) <= pc + pcmpgtw mm7, mm6 // pab > pc? + pxor mm1, mm1 + pand mm3, mm7 + pandn mm7, mm0 + paddw mm7, mm3 + pxor mm0, mm0 + packuswb mm7, mm1 + movq mm3, [esi + ebx - 8] // load c=Prior(x-bpp) + pand mm7, ActiveMask + psrlq mm3, ShiftRem + movq mm2, [esi + ebx] // load b=Prior(x) step 1 + paddb mm7, [edi + ebx] // add Paeth predictor with Raw(x) + movq mm6, mm2 + movq [edi + ebx], mm7 // write back updated value + movq mm1, [edi+ebx-8] + psllq mm6, ShiftBpp + movq mm5, mm7 + psrlq mm1, ShiftRem + por mm3, mm6 + psllq mm5, ShiftBpp + punpckhbw mm3, mm0 // Unpack High bytes of c + por mm1, mm5 + // Do second set of 4 bytes + punpckhbw mm2, mm0 // Unpack High bytes of b + punpckhbw mm1, mm0 // Unpack High bytes of a + // pav = p - a = (a + b - c) - a = b - c + movq mm4, mm2 + // pbv = p - b = (a + b - c) - b = a - c + movq mm5, mm1 + psubw mm4, mm3 + pxor mm7, mm7 + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + movq mm6, mm4 + psubw mm5, mm3 + // pa = abs(p-a) = abs(pav) + // pb = abs(p-b) = abs(pbv) + // pc = abs(p-c) = abs(pcv) + pcmpgtw mm0, mm4 // Create mask pav bytes < 0 + paddw mm6, mm5 + pand mm0, mm4 // Only pav bytes < 0 in mm7 + pcmpgtw mm7, mm5 // Create mask pbv bytes < 0 + psubw mm4, mm0 + pand mm7, mm5 // Only pbv bytes < 0 in mm0 + psubw mm4, mm0 + psubw mm5, mm7 + pxor mm0, mm0 + pcmpgtw mm0, mm6 // Create mask pcv bytes < 0 + pand mm0, mm6 // Only pav bytes < 0 in mm7 + psubw mm5, mm7 + psubw mm6, mm0 + // test pa <= pb + movq mm7, mm4 + psubw mm6, mm0 + pcmpgtw mm7, mm5 // pa > pb? + movq mm0, mm7 + // use mm7 mask to merge pa & pb + pand mm5, mm7 + // use mm0 mask copy to merge a & b + pand mm2, mm0 + pandn mm7, mm4 + pandn mm0, mm1 + paddw mm7, mm5 + paddw mm0, mm2 + // test ((pa <= pb)? pa:pb) <= pc + pcmpgtw mm7, mm6 // pab > pc? + pxor mm1, mm1 + pand mm3, mm7 + pandn mm7, mm0 + pxor mm1, mm1 + paddw mm7, mm3 + pxor mm0, mm0 + // Step ex to next set of 8 bytes and repeat loop til done + add ebx, 8 + packuswb mm1, mm7 + paddb mm1, [edi + ebx - 8] // add Paeth predictor with Raw(x) + cmp ebx, MMXLength + movq [edi + ebx - 8], mm1 // write back updated value + // mm1 will be used as Raw(x-bpp) next loop + jb dpth6lp + } // end _asm block + } + break; + + case 4: + { + ActiveMask.use = 0x00000000ffffffff; + _asm { + mov ebx, diff + mov edi, row + mov esi, prev_row + pxor mm0, mm0 + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm1, [edi+ebx-8] // Only time should need to read + // a=Raw(x-bpp) bytes +dpth4lp: + // Do first set of 4 bytes + movq mm3, [esi+ebx-8] // read c=Prior(x-bpp) bytes + punpckhbw mm1, mm0 // Unpack Low bytes of a + movq mm2, [esi + ebx] // load b=Prior(x) + punpcklbw mm2, mm0 // Unpack High bytes of b + // pav = p - a = (a + b - c) - a = b - c + movq mm4, mm2 + punpckhbw mm3, mm0 // Unpack High bytes of c + // pbv = p - b = (a + b - c) - b = a - c + movq mm5, mm1 + psubw mm4, mm3 + pxor mm7, mm7 + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + movq mm6, mm4 + psubw mm5, mm3 + // pa = abs(p-a) = abs(pav) + // pb = abs(p-b) = abs(pbv) + // pc = abs(p-c) = abs(pcv) + pcmpgtw mm0, mm4 // Create mask pav bytes < 0 + paddw mm6, mm5 + pand mm0, mm4 // Only pav bytes < 0 in mm7 + pcmpgtw mm7, mm5 // Create mask pbv bytes < 0 + psubw mm4, mm0 + pand mm7, mm5 // Only pbv bytes < 0 in mm0 + psubw mm4, mm0 + psubw mm5, mm7 + pxor mm0, mm0 + pcmpgtw mm0, mm6 // Create mask pcv bytes < 0 + pand mm0, mm6 // Only pav bytes < 0 in mm7 + psubw mm5, mm7 + psubw mm6, mm0 + // test pa <= pb + movq mm7, mm4 + psubw mm6, mm0 + pcmpgtw mm7, mm5 // pa > pb? + movq mm0, mm7 + // use mm7 mask to merge pa & pb + pand mm5, mm7 + // use mm0 mask copy to merge a & b + pand mm2, mm0 + pandn mm7, mm4 + pandn mm0, mm1 + paddw mm7, mm5 + paddw mm0, mm2 + // test ((pa <= pb)? pa:pb) <= pc + pcmpgtw mm7, mm6 // pab > pc? + pxor mm1, mm1 + pand mm3, mm7 + pandn mm7, mm0 + paddw mm7, mm3 + pxor mm0, mm0 + packuswb mm7, mm1 + movq mm3, [esi + ebx] // load c=Prior(x-bpp) + pand mm7, ActiveMask + movq mm2, mm3 // load b=Prior(x) step 1 + paddb mm7, [edi + ebx] // add Paeth predictor with Raw(x) + punpcklbw mm3, mm0 // Unpack High bytes of c + movq [edi + ebx], mm7 // write back updated value + movq mm1, mm7 // Now mm1 will be used as Raw(x-bpp) + // Do second set of 4 bytes + punpckhbw mm2, mm0 // Unpack Low bytes of b + punpcklbw mm1, mm0 // Unpack Low bytes of a + // pav = p - a = (a + b - c) - a = b - c + movq mm4, mm2 + // pbv = p - b = (a + b - c) - b = a - c + movq mm5, mm1 + psubw mm4, mm3 + pxor mm7, mm7 + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + movq mm6, mm4 + psubw mm5, mm3 + // pa = abs(p-a) = abs(pav) + // pb = abs(p-b) = abs(pbv) + // pc = abs(p-c) = abs(pcv) + pcmpgtw mm0, mm4 // Create mask pav bytes < 0 + paddw mm6, mm5 + pand mm0, mm4 // Only pav bytes < 0 in mm7 + pcmpgtw mm7, mm5 // Create mask pbv bytes < 0 + psubw mm4, mm0 + pand mm7, mm5 // Only pbv bytes < 0 in mm0 + psubw mm4, mm0 + psubw mm5, mm7 + pxor mm0, mm0 + pcmpgtw mm0, mm6 // Create mask pcv bytes < 0 + pand mm0, mm6 // Only pav bytes < 0 in mm7 + psubw mm5, mm7 + psubw mm6, mm0 + // test pa <= pb + movq mm7, mm4 + psubw mm6, mm0 + pcmpgtw mm7, mm5 // pa > pb? + movq mm0, mm7 + // use mm7 mask to merge pa & pb + pand mm5, mm7 + // use mm0 mask copy to merge a & b + pand mm2, mm0 + pandn mm7, mm4 + pandn mm0, mm1 + paddw mm7, mm5 + paddw mm0, mm2 + // test ((pa <= pb)? pa:pb) <= pc + pcmpgtw mm7, mm6 // pab > pc? + pxor mm1, mm1 + pand mm3, mm7 + pandn mm7, mm0 + pxor mm1, mm1 + paddw mm7, mm3 + pxor mm0, mm0 + // Step ex to next set of 8 bytes and repeat loop til done + add ebx, 8 + packuswb mm1, mm7 + paddb mm1, [edi + ebx - 8] // add Paeth predictor with Raw(x) + cmp ebx, MMXLength + movq [edi + ebx - 8], mm1 // write back updated value + // mm1 will be used as Raw(x-bpp) next loop + jb dpth4lp + } // end _asm block + } + break; + case 8: // bpp == 8 + { + ActiveMask.use = 0x00000000ffffffff; + _asm { + mov ebx, diff + mov edi, row + mov esi, prev_row + pxor mm0, mm0 + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm1, [edi+ebx-8] // Only time should need to read + // a=Raw(x-bpp) bytes +dpth8lp: + // Do first set of 4 bytes + movq mm3, [esi+ebx-8] // read c=Prior(x-bpp) bytes + punpcklbw mm1, mm0 // Unpack Low bytes of a + movq mm2, [esi + ebx] // load b=Prior(x) + punpcklbw mm2, mm0 // Unpack Low bytes of b + // pav = p - a = (a + b - c) - a = b - c + movq mm4, mm2 + punpcklbw mm3, mm0 // Unpack Low bytes of c + // pbv = p - b = (a + b - c) - b = a - c + movq mm5, mm1 + psubw mm4, mm3 + pxor mm7, mm7 + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + movq mm6, mm4 + psubw mm5, mm3 + // pa = abs(p-a) = abs(pav) + // pb = abs(p-b) = abs(pbv) + // pc = abs(p-c) = abs(pcv) + pcmpgtw mm0, mm4 // Create mask pav bytes < 0 + paddw mm6, mm5 + pand mm0, mm4 // Only pav bytes < 0 in mm7 + pcmpgtw mm7, mm5 // Create mask pbv bytes < 0 + psubw mm4, mm0 + pand mm7, mm5 // Only pbv bytes < 0 in mm0 + psubw mm4, mm0 + psubw mm5, mm7 + pxor mm0, mm0 + pcmpgtw mm0, mm6 // Create mask pcv bytes < 0 + pand mm0, mm6 // Only pav bytes < 0 in mm7 + psubw mm5, mm7 + psubw mm6, mm0 + // test pa <= pb + movq mm7, mm4 + psubw mm6, mm0 + pcmpgtw mm7, mm5 // pa > pb? + movq mm0, mm7 + // use mm7 mask to merge pa & pb + pand mm5, mm7 + // use mm0 mask copy to merge a & b + pand mm2, mm0 + pandn mm7, mm4 + pandn mm0, mm1 + paddw mm7, mm5 + paddw mm0, mm2 + // test ((pa <= pb)? pa:pb) <= pc + pcmpgtw mm7, mm6 // pab > pc? + pxor mm1, mm1 + pand mm3, mm7 + pandn mm7, mm0 + paddw mm7, mm3 + pxor mm0, mm0 + packuswb mm7, mm1 + movq mm3, [esi+ebx-8] // read c=Prior(x-bpp) bytes + pand mm7, ActiveMask + movq mm2, [esi + ebx] // load b=Prior(x) + paddb mm7, [edi + ebx] // add Paeth predictor with Raw(x) + punpckhbw mm3, mm0 // Unpack High bytes of c + movq [edi + ebx], mm7 // write back updated value + movq mm1, [edi+ebx-8] // read a=Raw(x-bpp) bytes + + // Do second set of 4 bytes + punpckhbw mm2, mm0 // Unpack High bytes of b + punpckhbw mm1, mm0 // Unpack High bytes of a + // pav = p - a = (a + b - c) - a = b - c + movq mm4, mm2 + // pbv = p - b = (a + b - c) - b = a - c + movq mm5, mm1 + psubw mm4, mm3 + pxor mm7, mm7 + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + movq mm6, mm4 + psubw mm5, mm3 + // pa = abs(p-a) = abs(pav) + // pb = abs(p-b) = abs(pbv) + // pc = abs(p-c) = abs(pcv) + pcmpgtw mm0, mm4 // Create mask pav bytes < 0 + paddw mm6, mm5 + pand mm0, mm4 // Only pav bytes < 0 in mm7 + pcmpgtw mm7, mm5 // Create mask pbv bytes < 0 + psubw mm4, mm0 + pand mm7, mm5 // Only pbv bytes < 0 in mm0 + psubw mm4, mm0 + psubw mm5, mm7 + pxor mm0, mm0 + pcmpgtw mm0, mm6 // Create mask pcv bytes < 0 + pand mm0, mm6 // Only pav bytes < 0 in mm7 + psubw mm5, mm7 + psubw mm6, mm0 + // test pa <= pb + movq mm7, mm4 + psubw mm6, mm0 + pcmpgtw mm7, mm5 // pa > pb? + movq mm0, mm7 + // use mm7 mask to merge pa & pb + pand mm5, mm7 + // use mm0 mask copy to merge a & b + pand mm2, mm0 + pandn mm7, mm4 + pandn mm0, mm1 + paddw mm7, mm5 + paddw mm0, mm2 + // test ((pa <= pb)? pa:pb) <= pc + pcmpgtw mm7, mm6 // pab > pc? + pxor mm1, mm1 + pand mm3, mm7 + pandn mm7, mm0 + pxor mm1, mm1 + paddw mm7, mm3 + pxor mm0, mm0 + // Step ex to next set of 8 bytes and repeat loop til done + add ebx, 8 + packuswb mm1, mm7 + paddb mm1, [edi + ebx - 8] // add Paeth predictor with Raw(x) + cmp ebx, MMXLength + movq [edi + ebx - 8], mm1 // write back updated value + // mm1 will be used as Raw(x-bpp) next loop + jb dpth8lp + } // end _asm block + } + break; + + case 1: // bpp = 1 + case 2: // bpp = 2 + default: // bpp > 8 + { + _asm { + mov ebx, diff + cmp ebx, FullLength + jnb dpthdend + mov edi, row + mov esi, prev_row + // Do Paeth decode for remaining bytes + mov edx, ebx + xor ecx, ecx // zero ecx before using cl & cx in loop below + sub edx, bpp // Set edx = ebx - bpp +dpthdlp: + xor eax, eax + // pav = p - a = (a + b - c) - a = b - c + mov al, [esi + ebx] // load Prior(x) into al + mov cl, [esi + edx] // load Prior(x-bpp) into cl + sub eax, ecx // subtract Prior(x-bpp) + mov patemp, eax // Save pav for later use + xor eax, eax + // pbv = p - b = (a + b - c) - b = a - c + mov al, [edi + edx] // load Raw(x-bpp) into al + sub eax, ecx // subtract Prior(x-bpp) + mov ecx, eax + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + add eax, patemp // pcv = pav + pbv + // pc = abs(pcv) + test eax, 0x80000000 + jz dpthdpca + neg eax // reverse sign of neg values +dpthdpca: + mov pctemp, eax // save pc for later use + // pb = abs(pbv) + test ecx, 0x80000000 + jz dpthdpba + neg ecx // reverse sign of neg values +dpthdpba: + mov pbtemp, ecx // save pb for later use + // pa = abs(pav) + mov eax, patemp + test eax, 0x80000000 + jz dpthdpaa + neg eax // reverse sign of neg values +dpthdpaa: + mov patemp, eax // save pa for later use + // test if pa <= pb + cmp eax, ecx + jna dpthdabb + // pa > pb; now test if pb <= pc + cmp ecx, pctemp + jna dpthdbbc + // pb > pc; Raw(x) = Paeth(x) + Prior(x-bpp) + mov cl, [esi + edx] // load Prior(x-bpp) into cl + jmp dpthdpaeth +dpthdbbc: + // pb <= pc; Raw(x) = Paeth(x) + Prior(x) + mov cl, [esi + ebx] // load Prior(x) into cl + jmp dpthdpaeth +dpthdabb: + // pa <= pb; now test if pa <= pc + cmp eax, pctemp + jna dpthdabc + // pa > pc; Raw(x) = Paeth(x) + Prior(x-bpp) + mov cl, [esi + edx] // load Prior(x-bpp) into cl + jmp dpthdpaeth +dpthdabc: + // pa <= pc; Raw(x) = Paeth(x) + Raw(x-bpp) + mov cl, [edi + edx] // load Raw(x-bpp) into cl +dpthdpaeth: + inc ebx + inc edx + // Raw(x) = (Paeth(x) + Paeth_Predictor( a, b, c )) mod 256 + add [edi + ebx - 1], cl + cmp ebx, FullLength + jb dpthdlp +dpthdend: + } // end _asm block + } + return; // No need to go further with this one + } // end switch ( bpp ) + _asm + { + // MMX acceleration complete now do clean-up + // Check if any remaining bytes left to decode + mov ebx, MMXLength + cmp ebx, FullLength + jnb dpthend + mov edi, row + mov esi, prev_row + // Do Paeth decode for remaining bytes + mov edx, ebx + xor ecx, ecx // zero ecx before using cl & cx in loop below + sub edx, bpp // Set edx = ebx - bpp +dpthlp2: + xor eax, eax + // pav = p - a = (a + b - c) - a = b - c + mov al, [esi + ebx] // load Prior(x) into al + mov cl, [esi + edx] // load Prior(x-bpp) into cl + sub eax, ecx // subtract Prior(x-bpp) + mov patemp, eax // Save pav for later use + xor eax, eax + // pbv = p - b = (a + b - c) - b = a - c + mov al, [edi + edx] // load Raw(x-bpp) into al + sub eax, ecx // subtract Prior(x-bpp) + mov ecx, eax + // pcv = p - c = (a + b - c) -c = (a - c) + (b - c) = pav + pbv + add eax, patemp // pcv = pav + pbv + // pc = abs(pcv) + test eax, 0x80000000 + jz dpthpca2 + neg eax // reverse sign of neg values +dpthpca2: + mov pctemp, eax // save pc for later use + // pb = abs(pbv) + test ecx, 0x80000000 + jz dpthpba2 + neg ecx // reverse sign of neg values +dpthpba2: + mov pbtemp, ecx // save pb for later use + // pa = abs(pav) + mov eax, patemp + test eax, 0x80000000 + jz dpthpaa2 + neg eax // reverse sign of neg values +dpthpaa2: + mov patemp, eax // save pa for later use + // test if pa <= pb + cmp eax, ecx + jna dpthabb2 + // pa > pb; now test if pb <= pc + cmp ecx, pctemp + jna dpthbbc2 + // pb > pc; Raw(x) = Paeth(x) + Prior(x-bpp) + mov cl, [esi + edx] // load Prior(x-bpp) into cl + jmp dpthpaeth2 +dpthbbc2: + // pb <= pc; Raw(x) = Paeth(x) + Prior(x) + mov cl, [esi + ebx] // load Prior(x) into cl + jmp dpthpaeth2 +dpthabb2: + // pa <= pb; now test if pa <= pc + cmp eax, pctemp + jna dpthabc2 + // pa > pc; Raw(x) = Paeth(x) + Prior(x-bpp) + mov cl, [esi + edx] // load Prior(x-bpp) into cl + jmp dpthpaeth2 +dpthabc2: + // pa <= pc; Raw(x) = Paeth(x) + Raw(x-bpp) + mov cl, [edi + edx] // load Raw(x-bpp) into cl +dpthpaeth2: + inc ebx + inc edx + // Raw(x) = (Paeth(x) + Paeth_Predictor( a, b, c )) mod 256 + add [edi + ebx - 1], cl + cmp ebx, FullLength + jb dpthlp2 +dpthend: + emms // End MMX instructions; prep for possible FP instrs. + } // end _asm block +} + +// Optimized code for PNG Sub filter decoder +void /* PRIVATE */ +png_read_filter_row_mmx_sub(png_row_infop row_info, png_bytep row) +{ + //int test; + int bpp; + png_uint_32 FullLength; + png_uint_32 MMXLength; + int diff; + + bpp = (row_info->pixel_depth + 7) >> 3; // Get # bytes per pixel + FullLength = row_info->rowbytes - bpp; // # of bytes to filter + _asm { + mov edi, row + mov esi, edi // lp = row + add edi, bpp // rp = row + bpp + xor eax, eax + // get # of bytes to alignment + mov diff, edi // take start of row + add diff, 0xf // add 7 + 8 to incr past + // alignment boundary + xor ebx, ebx + and diff, 0xfffffff8 // mask to alignment boundary + sub diff, edi // subtract from start ==> value + // ebx at alignment + jz dsubgo + // fix alignment +dsublp1: + mov al, [esi+ebx] + add [edi+ebx], al + inc ebx + cmp ebx, diff + jb dsublp1 +dsubgo: + mov ecx, FullLength + mov edx, ecx + sub edx, ebx // subtract alignment fix + and edx, 0x00000007 // calc bytes over mult of 8 + sub ecx, edx // drop over bytes from length + mov MMXLength, ecx + } // end _asm block + + // Now do the math for the rest of the row + switch ( bpp ) + { + case 3: + { + ActiveMask.use = 0x0000ffffff000000; + ShiftBpp.use = 24; // == 3 * 8 + ShiftRem.use = 40; // == 64 - 24 + _asm { + mov edi, row + movq mm7, ActiveMask // Load ActiveMask for 2nd active byte group + mov esi, edi // lp = row + add edi, bpp // rp = row + bpp + movq mm6, mm7 + mov ebx, diff + psllq mm6, ShiftBpp // Move mask in mm6 to cover 3rd active + // byte group + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm1, [edi+ebx-8] +dsub3lp: + psrlq mm1, ShiftRem // Shift data for adding 1st bpp bytes + // no need for mask; shift clears inactive bytes + // Add 1st active group + movq mm0, [edi+ebx] + paddb mm0, mm1 + // Add 2nd active group + movq mm1, mm0 // mov updated Raws to mm1 + psllq mm1, ShiftBpp // shift data to position correctly + pand mm1, mm7 // mask to use only 2nd active group + paddb mm0, mm1 + // Add 3rd active group + movq mm1, mm0 // mov updated Raws to mm1 + psllq mm1, ShiftBpp // shift data to position correctly + pand mm1, mm6 // mask to use only 3rd active group + add ebx, 8 + paddb mm0, mm1 + cmp ebx, MMXLength + movq [edi+ebx-8], mm0 // Write updated Raws back to array + // Prep for doing 1st add at top of loop + movq mm1, mm0 + jb dsub3lp + } // end _asm block + } + break; + + case 1: + { + // Placed here just in case this is a duplicate of the + // non-MMX code for the SUB filter in png_read_filter_row below + // + // png_bytep rp; + // png_bytep lp; + // png_uint_32 i; + // bpp = (row_info->pixel_depth + 7) >> 3; + // for (i = (png_uint_32)bpp, rp = row + bpp, lp = row; + // i < row_info->rowbytes; i++, rp++, lp++) + // { + // *rp = (png_byte)(((int)(*rp) + (int)(*lp)) & 0xff); + // } + _asm { + mov ebx, diff + mov edi, row + cmp ebx, FullLength + jnb dsub1end + mov esi, edi // lp = row + xor eax, eax + add edi, bpp // rp = row + bpp +dsub1lp: + mov al, [esi+ebx] + add [edi+ebx], al + inc ebx + cmp ebx, FullLength + jb dsub1lp +dsub1end: + } // end _asm block + } + return; + + case 6: + case 7: + case 4: + case 5: + { + ShiftBpp.use = bpp << 3; + ShiftRem.use = 64 - ShiftBpp.use; + _asm { + mov edi, row + mov ebx, diff + mov esi, edi // lp = row + add edi, bpp // rp = row + bpp + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm1, [edi+ebx-8] +dsub4lp: + psrlq mm1, ShiftRem // Shift data for adding 1st bpp bytes + // no need for mask; shift clears inactive bytes + movq mm0, [edi+ebx] + paddb mm0, mm1 + // Add 2nd active group + movq mm1, mm0 // mov updated Raws to mm1 + psllq mm1, ShiftBpp // shift data to position correctly + // there is no need for any mask + // since shift clears inactive bits/bytes + add ebx, 8 + paddb mm0, mm1 + cmp ebx, MMXLength + movq [edi+ebx-8], mm0 + movq mm1, mm0 // Prep for doing 1st add at top of loop + jb dsub4lp + } // end _asm block + } + break; + + case 2: + { + ActiveMask.use = 0x00000000ffff0000; + ShiftBpp.use = 16; // == 2 * 8 + ShiftRem.use = 48; // == 64 - 16 + _asm { + movq mm7, ActiveMask // Load ActiveMask for 2nd active byte group + mov ebx, diff + movq mm6, mm7 + mov edi, row + psllq mm6, ShiftBpp // Move mask in mm6 to cover 3rd active + // byte group + mov esi, edi // lp = row + movq mm5, mm6 + add edi, bpp // rp = row + bpp + psllq mm5, ShiftBpp // Move mask in mm5 to cover 4th active + // byte group + // PRIME the pump (load the first Raw(x-bpp) data set + movq mm1, [edi+ebx-8] +dsub2lp: + // Add 1st active group + psrlq mm1, ShiftRem // Shift data for adding 1st bpp bytes + // no need for mask; shift clears inactive + // bytes + movq mm0, [edi+ebx] + paddb mm0, mm1 + // Add 2nd active group + movq mm1, mm0 // mov updated Raws to mm1 + psllq mm1, ShiftBpp // shift data to position correctly + pand mm1, mm7 // mask to use only 2nd active group + paddb mm0, mm1 + // Add 3rd active group + movq mm1, mm0 // mov updated Raws to mm1 + psllq mm1, ShiftBpp // shift data to position correctly + pand mm1, mm6 // mask to use only 3rd active group + paddb mm0, mm1 + // Add 4th active group + movq mm1, mm0 // mov updated Raws to mm1 + psllq mm1, ShiftBpp // shift data to position correctly + pand mm1, mm5 // mask to use only 4th active group + add ebx, 8 + paddb mm0, mm1 + cmp ebx, MMXLength + movq [edi+ebx-8], mm0 // Write updated Raws back to array + movq mm1, mm0 // Prep for doing 1st add at top of loop + jb dsub2lp + } // end _asm block + } + break; + case 8: + { + _asm { + mov edi, row + mov ebx, diff + mov esi, edi // lp = row + add edi, bpp // rp = row + bpp + mov ecx, MMXLength + movq mm7, [edi+ebx-8] // PRIME the pump (load the first + // Raw(x-bpp) data set + and ecx, 0x0000003f // calc bytes over mult of 64 +dsub8lp: + movq mm0, [edi+ebx] // Load Sub(x) for 1st 8 bytes + paddb mm0, mm7 + movq mm1, [edi+ebx+8] // Load Sub(x) for 2nd 8 bytes + movq [edi+ebx], mm0 // Write Raw(x) for 1st 8 bytes + // Now mm0 will be used as Raw(x-bpp) for + // the 2nd group of 8 bytes. This will be + // repeated for each group of 8 bytes with + // the 8th group being used as the Raw(x-bpp) + // for the 1st group of the next loop. + paddb mm1, mm0 + movq mm2, [edi+ebx+16] // Load Sub(x) for 3rd 8 bytes + movq [edi+ebx+8], mm1 // Write Raw(x) for 2nd 8 bytes + paddb mm2, mm1 + movq mm3, [edi+ebx+24] // Load Sub(x) for 4th 8 bytes + movq [edi+ebx+16], mm2 // Write Raw(x) for 3rd 8 bytes + paddb mm3, mm2 + movq mm4, [edi+ebx+32] // Load Sub(x) for 5th 8 bytes + movq [edi+ebx+24], mm3 // Write Raw(x) for 4th 8 bytes + paddb mm4, mm3 + movq mm5, [edi+ebx+40] // Load Sub(x) for 6th 8 bytes + movq [edi+ebx+32], mm4 // Write Raw(x) for 5th 8 bytes + paddb mm5, mm4 + movq mm6, [edi+ebx+48] // Load Sub(x) for 7th 8 bytes + movq [edi+ebx+40], mm5 // Write Raw(x) for 6th 8 bytes + paddb mm6, mm5 + movq mm7, [edi+ebx+56] // Load Sub(x) for 8th 8 bytes + movq [edi+ebx+48], mm6 // Write Raw(x) for 7th 8 bytes + add ebx, 64 + paddb mm7, mm6 + cmp ebx, ecx + movq [edi+ebx-8], mm7 // Write Raw(x) for 8th 8 bytes + jb dsub8lp + cmp ebx, MMXLength + jnb dsub8lt8 +dsub8lpA: + movq mm0, [edi+ebx] + add ebx, 8 + paddb mm0, mm7 + cmp ebx, MMXLength + movq [edi+ebx-8], mm0 // use -8 to offset early add to ebx + movq mm7, mm0 // Move calculated Raw(x) data to mm1 to + // be the new Raw(x-bpp) for the next loop + jb dsub8lpA +dsub8lt8: + } // end _asm block + } + break; + + default: // bpp greater than 8 bytes + { + _asm { + mov ebx, diff + mov edi, row + mov esi, edi // lp = row + add edi, bpp // rp = row + bpp +dsubAlp: + movq mm0, [edi+ebx] + movq mm1, [esi+ebx] + add ebx, 8 + paddb mm0, mm1 + cmp ebx, MMXLength + movq [edi+ebx-8], mm0 // mov does not affect flags; -8 to offset + // add ebx + jb dsubAlp + } // end _asm block + } + break; + + } // end switch ( bpp ) + + _asm { + mov ebx, MMXLength + mov edi, row + cmp ebx, FullLength + jnb dsubend + mov esi, edi // lp = row + xor eax, eax + add edi, bpp // rp = row + bpp +dsublp2: + mov al, [esi+ebx] + add [edi+ebx], al + inc ebx + cmp ebx, FullLength + jb dsublp2 +dsubend: + emms // End MMX instructions; prep for possible FP instrs. + } // end _asm block +} + +// Optimized code for PNG Up filter decoder +void /* PRIVATE */ +png_read_filter_row_mmx_up(png_row_infop row_info, png_bytep row, + png_bytep prev_row) +{ + png_uint_32 len; + len = row_info->rowbytes; // # of bytes to filter + _asm { + mov edi, row + // get # of bytes to alignment + mov ecx, edi + xor ebx, ebx + add ecx, 0x7 + xor eax, eax + and ecx, 0xfffffff8 + mov esi, prev_row + sub ecx, edi + jz dupgo + // fix alignment +duplp1: + mov al, [edi+ebx] + add al, [esi+ebx] + inc ebx + cmp ebx, ecx + mov [edi + ebx-1], al // mov does not affect flags; -1 to offset inc ebx + jb duplp1 +dupgo: + mov ecx, len + mov edx, ecx + sub edx, ebx // subtract alignment fix + and edx, 0x0000003f // calc bytes over mult of 64 + sub ecx, edx // drop over bytes from length + // Unrolled loop - use all MMX registers and interleave to reduce + // number of branch instructions (loops) and reduce partial stalls +duploop: + movq mm1, [esi+ebx] + movq mm0, [edi+ebx] + movq mm3, [esi+ebx+8] + paddb mm0, mm1 + movq mm2, [edi+ebx+8] + movq [edi+ebx], mm0 + paddb mm2, mm3 + movq mm5, [esi+ebx+16] + movq [edi+ebx+8], mm2 + movq mm4, [edi+ebx+16] + movq mm7, [esi+ebx+24] + paddb mm4, mm5 + movq mm6, [edi+ebx+24] + movq [edi+ebx+16], mm4 + paddb mm6, mm7 + movq mm1, [esi+ebx+32] + movq [edi+ebx+24], mm6 + movq mm0, [edi+ebx+32] + movq mm3, [esi+ebx+40] + paddb mm0, mm1 + movq mm2, [edi+ebx+40] + movq [edi+ebx+32], mm0 + paddb mm2, mm3 + movq mm5, [esi+ebx+48] + movq [edi+ebx+40], mm2 + movq mm4, [edi+ebx+48] + movq mm7, [esi+ebx+56] + paddb mm4, mm5 + movq mm6, [edi+ebx+56] + movq [edi+ebx+48], mm4 + add ebx, 64 + paddb mm6, mm7 + cmp ebx, ecx + movq [edi+ebx-8], mm6 // (+56)movq does not affect flags; + // -8 to offset add ebx + jb duploop + + cmp edx, 0 // Test for bytes over mult of 64 + jz dupend + + + // 2 lines added by lcreeve@netins.net + // (mail 11 Jul 98 in png-implement list) + cmp edx, 8 //test for less than 8 bytes + jb duplt8 + + + add ecx, edx + and edx, 0x00000007 // calc bytes over mult of 8 + sub ecx, edx // drop over bytes from length + jz duplt8 + // Loop using MMX registers mm0 & mm1 to update 8 bytes simultaneously +duplpA: + movq mm1, [esi+ebx] + movq mm0, [edi+ebx] + add ebx, 8 + paddb mm0, mm1 + cmp ebx, ecx + movq [edi+ebx-8], mm0 // movq does not affect flags; -8 to offset add ebx + jb duplpA + cmp edx, 0 // Test for bytes over mult of 8 + jz dupend +duplt8: + xor eax, eax + add ecx, edx // move over byte count into counter + // Loop using x86 registers to update remaining bytes +duplp2: + mov al, [edi + ebx] + add al, [esi + ebx] + inc ebx + cmp ebx, ecx + mov [edi + ebx-1], al // mov does not affect flags; -1 to offset inc ebx + jb duplp2 +dupend: + // Conversion of filtered row completed + emms // End MMX instructions; prep for possible FP instrs. + } // end _asm block +} + + +// Optimized png_read_filter_row routines +void /* PRIVATE */ +png_read_filter_row(png_structp png_ptr, png_row_infop row_info, png_bytep + row, png_bytep prev_row, int filter) +{ +#ifdef PNG_DEBUG + char filnm[10]; +#endif + + if (mmx_supported == 2) { + /* this should have happened in png_init_mmx_flags() already */ + png_warning(png_ptr, "asm_flags may not have been initialized"); + png_mmx_support(); + } + +#ifdef PNG_DEBUG + png_debug(1, "in png_read_filter_row\n"); + switch (filter) + { + case 0: sprintf(filnm, "none"); + break; + case 1: sprintf(filnm, "sub-%s", + (png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_FILTER_SUB)? "MMX" : "x86"); + break; + case 2: sprintf(filnm, "up-%s", + (png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_FILTER_UP)? "MMX" : "x86"); + break; + case 3: sprintf(filnm, "avg-%s", + (png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_FILTER_AVG)? "MMX" : "x86"); + break; + case 4: sprintf(filnm, "Paeth-%s", + (png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_FILTER_PAETH)? "MMX":"x86"); + break; + default: sprintf(filnm, "unknw"); + break; + } + png_debug2(0,"row=%5d, %s, ", png_ptr->row_number, filnm); + png_debug2(0, "pd=%2d, b=%d, ", (int)row_info->pixel_depth, + (int)((row_info->pixel_depth + 7) >> 3)); + png_debug1(0,"len=%8d, ", row_info->rowbytes); +#endif /* PNG_DEBUG */ + + switch (filter) + { + case PNG_FILTER_VALUE_NONE: + break; + + case PNG_FILTER_VALUE_SUB: + { + if ((png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_FILTER_SUB) && + (row_info->pixel_depth >= png_ptr->mmx_bitdepth_threshold) && + (row_info->rowbytes >= png_ptr->mmx_rowbytes_threshold)) + { + png_read_filter_row_mmx_sub(row_info, row); + } + else + { + png_uint_32 i; + png_uint_32 istop = row_info->rowbytes; + png_uint_32 bpp = (row_info->pixel_depth + 7) >> 3; + png_bytep rp = row + bpp; + png_bytep lp = row; + + for (i = bpp; i < istop; i++) + { + *rp = (png_byte)(((int)(*rp) + (int)(*lp++)) & 0xff); + rp++; + } + } + break; + } + + case PNG_FILTER_VALUE_UP: + { + if ((png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_FILTER_UP) && + (row_info->pixel_depth >= png_ptr->mmx_bitdepth_threshold) && + (row_info->rowbytes >= png_ptr->mmx_rowbytes_threshold)) + { + png_read_filter_row_mmx_up(row_info, row, prev_row); + } + else + { + png_uint_32 i; + png_uint_32 istop = row_info->rowbytes; + png_bytep rp = row; + png_bytep pp = prev_row; + + for (i = 0; i < istop; ++i) + { + *rp = (png_byte)(((int)(*rp) + (int)(*pp++)) & 0xff); + rp++; + } + } + break; + } + + case PNG_FILTER_VALUE_AVG: + { + if ((png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_FILTER_AVG) && + (row_info->pixel_depth >= png_ptr->mmx_bitdepth_threshold) && + (row_info->rowbytes >= png_ptr->mmx_rowbytes_threshold)) + { + png_read_filter_row_mmx_avg(row_info, row, prev_row); + } + else + { + png_uint_32 i; + png_bytep rp = row; + png_bytep pp = prev_row; + png_bytep lp = row; + png_uint_32 bpp = (row_info->pixel_depth + 7) >> 3; + png_uint_32 istop = row_info->rowbytes - bpp; + + for (i = 0; i < bpp; i++) + { + *rp = (png_byte)(((int)(*rp) + + ((int)(*pp++) >> 1)) & 0xff); + rp++; + } + + for (i = 0; i < istop; i++) + { + *rp = (png_byte)(((int)(*rp) + + ((int)(*pp++ + *lp++) >> 1)) & 0xff); + rp++; + } + } + break; + } + + case PNG_FILTER_VALUE_PAETH: + { + if ((png_ptr->asm_flags & PNG_ASM_FLAG_MMX_READ_FILTER_PAETH) && + (row_info->pixel_depth >= png_ptr->mmx_bitdepth_threshold) && + (row_info->rowbytes >= png_ptr->mmx_rowbytes_threshold)) + { + png_read_filter_row_mmx_paeth(row_info, row, prev_row); + } + else + { + png_uint_32 i; + png_bytep rp = row; + png_bytep pp = prev_row; + png_bytep lp = row; + png_bytep cp = prev_row; + png_uint_32 bpp = (row_info->pixel_depth + 7) >> 3; + png_uint_32 istop=row_info->rowbytes - bpp; + + for (i = 0; i < bpp; i++) + { + *rp = (png_byte)(((int)(*rp) + (int)(*pp++)) & 0xff); + rp++; + } + + for (i = 0; i < istop; i++) // use leftover rp,pp + { + int a, b, c, pa, pb, pc, p; + + a = *lp++; + b = *pp++; + c = *cp++; + + p = b - c; + pc = a - c; + +#ifdef PNG_USE_ABS + pa = abs(p); + pb = abs(pc); + pc = abs(p + pc); +#else + pa = p < 0 ? -p : p; + pb = pc < 0 ? -pc : pc; + pc = (p + pc) < 0 ? -(p + pc) : p + pc; +#endif + + /* + if (pa <= pb && pa <= pc) + p = a; + else if (pb <= pc) + p = b; + else + p = c; + */ + + p = (pa <= pb && pa <=pc) ? a : (pb <= pc) ? b : c; + + *rp = (png_byte)(((int)(*rp) + p) & 0xff); + rp++; + } + } + break; + } + + default: + png_warning(png_ptr, "Ignoring bad row filter type"); + *row=0; + break; + } +} + +#endif /* PNG_ASSEMBLER_CODE_SUPPORTED && PNG_USE_PNGVCRD */ |