/* * Copyright (C) 2007 Google (Evan Stade) * Copyright (C) 2012,2016 Dmitry Timoshkov * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #define NONAMELESSUNION #include "windef.h" #include "winbase.h" #include "winuser.h" #include "wingdi.h" #define COBJMACROS #include "objbase.h" #include "olectl.h" #include "ole2.h" #include "initguid.h" #include "wincodec.h" #include "gdiplus.h" #include "gdiplus_private.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(gdiplus); HRESULT WINAPI WICCreateImagingFactory_Proxy(UINT, IWICImagingFactory**); #define PIXELFORMATBPP(x) ((x) ? ((x) >> 8) & 255 : 24) #define WMF_PLACEABLE_KEY 0x9ac6cdd7 static const struct { const WICPixelFormatGUID *wic_format; PixelFormat gdip_format; /* predefined palette type to use for pixel format conversions */ WICBitmapPaletteType palette_type; } pixel_formats[] = { { &GUID_WICPixelFormat1bppIndexed, PixelFormat1bppIndexed, WICBitmapPaletteTypeFixedBW }, { &GUID_WICPixelFormatBlackWhite, PixelFormat1bppIndexed, WICBitmapPaletteTypeFixedBW }, { &GUID_WICPixelFormat4bppIndexed, PixelFormat4bppIndexed, WICBitmapPaletteTypeFixedHalftone8 }, { &GUID_WICPixelFormat8bppIndexed, PixelFormat8bppIndexed, WICBitmapPaletteTypeFixedHalftone256 }, { &GUID_WICPixelFormat8bppGray, PixelFormat8bppIndexed, WICBitmapPaletteTypeFixedGray256 }, { &GUID_WICPixelFormat16bppBGR555, PixelFormat16bppRGB555, 0 }, { &GUID_WICPixelFormat24bppBGR, PixelFormat24bppRGB, 0 }, { &GUID_WICPixelFormat32bppBGR, PixelFormat32bppRGB, 0 }, { &GUID_WICPixelFormat32bppBGRA, PixelFormat32bppARGB, 0 }, { &GUID_WICPixelFormat32bppPBGRA, PixelFormat32bppPARGB, 0 }, { NULL } }; static ColorPalette *get_palette(IWICBitmapFrameDecode *frame, WICBitmapPaletteType palette_type) { HRESULT hr; IWICImagingFactory *factory; IWICPalette *wic_palette; ColorPalette *palette = NULL; hr = WICCreateImagingFactory_Proxy(WINCODEC_SDK_VERSION, &factory); if (hr != S_OK) return NULL; hr = IWICImagingFactory_CreatePalette(factory, &wic_palette); if (hr == S_OK) { hr = WINCODEC_ERR_PALETTEUNAVAILABLE; if (frame) hr = IWICBitmapFrameDecode_CopyPalette(frame, wic_palette); if (hr != S_OK && palette_type != 0) { TRACE("using predefined palette %#x\n", palette_type); hr = IWICPalette_InitializePredefined(wic_palette, palette_type, FALSE); } if (hr == S_OK) { WICBitmapPaletteType type; BOOL alpha; UINT count; IWICPalette_GetColorCount(wic_palette, &count); palette = heap_alloc(2 * sizeof(UINT) + count * sizeof(ARGB)); IWICPalette_GetColors(wic_palette, count, palette->Entries, &palette->Count); IWICPalette_GetType(wic_palette, &type); switch(type) { case WICBitmapPaletteTypeFixedGray4: case WICBitmapPaletteTypeFixedGray16: case WICBitmapPaletteTypeFixedGray256: palette->Flags = PaletteFlagsGrayScale; break; case WICBitmapPaletteTypeFixedHalftone8: case WICBitmapPaletteTypeFixedHalftone27: case WICBitmapPaletteTypeFixedHalftone64: case WICBitmapPaletteTypeFixedHalftone125: case WICBitmapPaletteTypeFixedHalftone216: case WICBitmapPaletteTypeFixedHalftone252: case WICBitmapPaletteTypeFixedHalftone256: palette->Flags = PaletteFlagsHalftone; break; default: palette->Flags = 0; } IWICPalette_HasAlpha(wic_palette, &alpha); if(alpha) palette->Flags |= PaletteFlagsHasAlpha; } IWICPalette_Release(wic_palette); } IWICImagingFactory_Release(factory); return palette; } static HRESULT set_palette(IWICBitmapFrameEncode *frame, ColorPalette *palette) { HRESULT hr; IWICImagingFactory *factory; IWICPalette *wic_palette; hr = WICCreateImagingFactory_Proxy(WINCODEC_SDK_VERSION, &factory); if (FAILED(hr)) return hr; hr = IWICImagingFactory_CreatePalette(factory, &wic_palette); IWICImagingFactory_Release(factory); if (SUCCEEDED(hr)) { hr = IWICPalette_InitializeCustom(wic_palette, palette->Entries, palette->Count); if (SUCCEEDED(hr)) hr = IWICBitmapFrameEncode_SetPalette(frame, wic_palette); IWICPalette_Release(wic_palette); } return hr; } GpStatus WINGDIPAPI GdipBitmapApplyEffect(GpBitmap* bitmap, CGpEffect* effect, RECT* roi, BOOL useAuxData, VOID** auxData, INT* auxDataSize) { FIXME("(%p %p %p %d %p %p): stub\n", bitmap, effect, roi, useAuxData, auxData, auxDataSize); /* * Note: According to Jose Roca's GDI+ docs, this function is not * implemented in Windows's GDI+. */ return NotImplemented; } GpStatus WINGDIPAPI GdipBitmapCreateApplyEffect(GpBitmap** inputBitmaps, INT numInputs, CGpEffect* effect, RECT* roi, RECT* outputRect, GpBitmap** outputBitmap, BOOL useAuxData, VOID** auxData, INT* auxDataSize) { FIXME("(%p %d %p %p %p %p %d %p %p): stub\n", inputBitmaps, numInputs, effect, roi, outputRect, outputBitmap, useAuxData, auxData, auxDataSize); /* * Note: According to Jose Roca's GDI+ docs, this function is not * implemented in Windows's GDI+. */ return NotImplemented; } static inline void getpixel_1bppIndexed(BYTE *index, const BYTE *row, UINT x) { *index = (row[x/8]>>(7-x%8)) & 1; } static inline void getpixel_4bppIndexed(BYTE *index, const BYTE *row, UINT x) { if (x & 1) *index = row[x/2]&0xf; else *index = row[x/2]>>4; } static inline void getpixel_8bppIndexed(BYTE *index, const BYTE *row, UINT x) { *index = row[x]; } static inline void getpixel_16bppGrayScale(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { *r = *g = *b = row[x*2+1]; *a = 255; } static inline void getpixel_16bppRGB555(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { WORD pixel = *((const WORD*)(row)+x); *r = (pixel>>7&0xf8)|(pixel>>12&0x7); *g = (pixel>>2&0xf8)|(pixel>>6&0x7); *b = (pixel<<3&0xf8)|(pixel>>2&0x7); *a = 255; } static inline void getpixel_16bppRGB565(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { WORD pixel = *((const WORD*)(row)+x); *r = (pixel>>8&0xf8)|(pixel>>13&0x7); *g = (pixel>>3&0xfc)|(pixel>>9&0x3); *b = (pixel<<3&0xf8)|(pixel>>2&0x7); *a = 255; } static inline void getpixel_16bppARGB1555(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { WORD pixel = *((const WORD*)(row)+x); *r = (pixel>>7&0xf8)|(pixel>>12&0x7); *g = (pixel>>2&0xf8)|(pixel>>6&0x7); *b = (pixel<<3&0xf8)|(pixel>>2&0x7); if ((pixel&0x8000) == 0x8000) *a = 255; else *a = 0; } static inline void getpixel_24bppRGB(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { *r = row[x*3+2]; *g = row[x*3+1]; *b = row[x*3]; *a = 255; } static inline void getpixel_32bppRGB(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { *r = row[x*4+2]; *g = row[x*4+1]; *b = row[x*4]; *a = 255; } static inline void getpixel_32bppARGB(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { *r = row[x*4+2]; *g = row[x*4+1]; *b = row[x*4]; *a = row[x*4+3]; } static inline void getpixel_32bppPARGB(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { *a = row[x*4+3]; if (*a == 0) { *r = row[x*4+2]; *g = row[x*4+1]; *b = row[x*4]; } else { DWORD scaled_q = (255 << 15) / *a; *r = (row[x*4+2] > *a) ? 0xff : (row[x*4+2] * scaled_q) >> 15; *g = (row[x*4+1] > *a) ? 0xff : (row[x*4+1] * scaled_q) >> 15; *b = (row[x*4] > *a) ? 0xff : (row[x*4] * scaled_q) >> 15; } } static inline void getpixel_48bppRGB(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { *r = row[x*6+5]; *g = row[x*6+3]; *b = row[x*6+1]; *a = 255; } static inline void getpixel_64bppARGB(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { *r = row[x*8+5]; *g = row[x*8+3]; *b = row[x*8+1]; *a = row[x*8+7]; } static inline void getpixel_64bppPARGB(BYTE *r, BYTE *g, BYTE *b, BYTE *a, const BYTE *row, UINT x) { *a = row[x*8+7]; if (*a == 0) *r = *g = *b = 0; else { *r = row[x*8+5] * 255 / *a; *g = row[x*8+3] * 255 / *a; *b = row[x*8+1] * 255 / *a; } } GpStatus WINGDIPAPI GdipBitmapGetPixel(GpBitmap* bitmap, INT x, INT y, ARGB *color) { BYTE r, g, b, a; BYTE index; BYTE *row; if(!bitmap || !color || x < 0 || y < 0 || x >= bitmap->width || y >= bitmap->height) return InvalidParameter; row = bitmap->bits+bitmap->stride*y; switch (bitmap->format) { case PixelFormat1bppIndexed: getpixel_1bppIndexed(&index,row,x); break; case PixelFormat4bppIndexed: getpixel_4bppIndexed(&index,row,x); break; case PixelFormat8bppIndexed: getpixel_8bppIndexed(&index,row,x); break; case PixelFormat16bppGrayScale: getpixel_16bppGrayScale(&r,&g,&b,&a,row,x); break; case PixelFormat16bppRGB555: getpixel_16bppRGB555(&r,&g,&b,&a,row,x); break; case PixelFormat16bppRGB565: getpixel_16bppRGB565(&r,&g,&b,&a,row,x); break; case PixelFormat16bppARGB1555: getpixel_16bppARGB1555(&r,&g,&b,&a,row,x); break; case PixelFormat24bppRGB: getpixel_24bppRGB(&r,&g,&b,&a,row,x); break; case PixelFormat32bppRGB: getpixel_32bppRGB(&r,&g,&b,&a,row,x); break; case PixelFormat32bppARGB: getpixel_32bppARGB(&r,&g,&b,&a,row,x); break; case PixelFormat32bppPARGB: getpixel_32bppPARGB(&r,&g,&b,&a,row,x); break; case PixelFormat48bppRGB: getpixel_48bppRGB(&r,&g,&b,&a,row,x); break; case PixelFormat64bppARGB: getpixel_64bppARGB(&r,&g,&b,&a,row,x); break; case PixelFormat64bppPARGB: getpixel_64bppPARGB(&r,&g,&b,&a,row,x); break; default: FIXME("not implemented for format 0x%x\n", bitmap->format); return NotImplemented; } if (bitmap->format & PixelFormatIndexed) *color = bitmap->image.palette->Entries[index]; else *color = a<<24|r<<16|g<<8|b; return Ok; } static unsigned int absdiff(unsigned int x, unsigned int y) { return x > y ? x - y : y - x; } static inline UINT get_palette_index(BYTE r, BYTE g, BYTE b, BYTE a, ColorPalette *palette) { BYTE index = 0; int best_distance = 0x7fff; int distance; UINT i; if (!palette) return 0; /* This algorithm scans entire palette, computes difference from desired color (all color components have equal weight) and returns the index of color with least difference. Note: Maybe it could be replaced with a better algorithm for better image quality and performance, though better algorithm would probably need some pre-built lookup tables and thus may actually be slower if this method is called only few times per every image. */ for(i=0;iCount;i++) { ARGB color=palette->Entries[i]; distance=absdiff(b, color & 0xff) + absdiff(g, color>>8 & 0xff) + absdiff(r, color>>16 & 0xff) + absdiff(a, color>>24 & 0xff); if (distance>3&0x001f); } static inline void setpixel_16bppRGB565(BYTE r, BYTE g, BYTE b, BYTE a, BYTE *row, UINT x) { *((WORD*)(row)+x) = (r<<8&0xf800)| (g<<3&0x07e0)| (b>>3&0x001f); } static inline void setpixel_16bppARGB1555(BYTE r, BYTE g, BYTE b, BYTE a, BYTE *row, UINT x) { *((WORD*)(row)+x) = (a<<8&0x8000)| (r<<7&0x7c00)| (g<<2&0x03e0)| (b>>3&0x001f); } static inline void setpixel_24bppRGB(BYTE r, BYTE g, BYTE b, BYTE a, BYTE *row, UINT x) { row[x*3+2] = r; row[x*3+1] = g; row[x*3] = b; } static inline void setpixel_32bppRGB(BYTE r, BYTE g, BYTE b, BYTE a, BYTE *row, UINT x) { *((DWORD*)(row)+x) = (r<<16)|(g<<8)|b; } static inline void setpixel_32bppARGB(BYTE r, BYTE g, BYTE b, BYTE a, BYTE *row, UINT x) { *((DWORD*)(row)+x) = (a<<24)|(r<<16)|(g<<8)|b; } static inline void setpixel_32bppPARGB(BYTE r, BYTE g, BYTE b, BYTE a, BYTE *row, UINT x) { r = (r * a + 127) / 255; g = (g * a + 127) / 255; b = (b * a + 127) / 255; *((DWORD*)(row)+x) = (a<<24)|(r<<16)|(g<<8)|b; } static inline void setpixel_48bppRGB(BYTE r, BYTE g, BYTE b, BYTE a, BYTE *row, UINT x) { row[x*6+5] = row[x*6+4] = r; row[x*6+3] = row[x*6+2] = g; row[x*6+1] = row[x*6] = b; } static inline void setpixel_64bppARGB(BYTE r, BYTE g, BYTE b, BYTE a, BYTE *row, UINT x) { UINT64 a64=a, r64=r, g64=g, b64=b; *((UINT64*)(row)+x) = (a64<<56)|(a64<<48)|(r64<<40)|(r64<<32)|(g64<<24)|(g64<<16)|(b64<<8)|b64; } static inline void setpixel_64bppPARGB(BYTE r, BYTE g, BYTE b, BYTE a, BYTE *row, UINT x) { UINT64 a64, r64, g64, b64; a64 = a * 257; r64 = r * a / 255; g64 = g * a / 255; b64 = b * a / 255; *((UINT64*)(row)+x) = (a64<<48)|(r64<<32)|(g64<<16)|b64; } GpStatus WINGDIPAPI GdipBitmapSetPixel(GpBitmap* bitmap, INT x, INT y, ARGB color) { BYTE a, r, g, b; BYTE *row; if(!bitmap || x < 0 || y < 0 || x >= bitmap->width || y >= bitmap->height) return InvalidParameter; a = color>>24; r = color>>16; g = color>>8; b = color; row = bitmap->bits + bitmap->stride * y; switch (bitmap->format) { case PixelFormat16bppGrayScale: setpixel_16bppGrayScale(r,g,b,a,row,x); break; case PixelFormat16bppRGB555: setpixel_16bppRGB555(r,g,b,a,row,x); break; case PixelFormat16bppRGB565: setpixel_16bppRGB565(r,g,b,a,row,x); break; case PixelFormat16bppARGB1555: setpixel_16bppARGB1555(r,g,b,a,row,x); break; case PixelFormat24bppRGB: setpixel_24bppRGB(r,g,b,a,row,x); break; case PixelFormat32bppRGB: setpixel_32bppRGB(r,g,b,a,row,x); break; case PixelFormat32bppARGB: setpixel_32bppARGB(r,g,b,a,row,x); break; case PixelFormat32bppPARGB: setpixel_32bppPARGB(r,g,b,a,row,x); break; case PixelFormat48bppRGB: setpixel_48bppRGB(r,g,b,a,row,x); break; case PixelFormat64bppARGB: setpixel_64bppARGB(r,g,b,a,row,x); break; case PixelFormat64bppPARGB: setpixel_64bppPARGB(r,g,b,a,row,x); break; case PixelFormat8bppIndexed: setpixel_8bppIndexed(r,g,b,a,row,x,bitmap->image.palette); break; case PixelFormat4bppIndexed: setpixel_4bppIndexed(r,g,b,a,row,x,bitmap->image.palette); break; case PixelFormat1bppIndexed: setpixel_1bppIndexed(r,g,b,a,row,x,bitmap->image.palette); break; default: FIXME("not implemented for format 0x%x\n", bitmap->format); return NotImplemented; } return Ok; } GpStatus convert_pixels(INT width, INT height, INT dst_stride, BYTE *dst_bits, PixelFormat dst_format, INT src_stride, const BYTE *src_bits, PixelFormat src_format, ColorPalette *palette) { INT x, y; if (src_format == dst_format || (dst_format == PixelFormat32bppRGB && PIXELFORMATBPP(src_format) == 32)) { UINT widthbytes = PIXELFORMATBPP(src_format) * width / 8; for (y=0; yCount) ? palette->Entries[index] : 0; \ setpixel_function(color[2], color[1], color[0], color[3], dst_bits+dst_stride*y, x); \ } \ return Ok; \ } while (0); #define convert_rgb_to_rgb(getpixel_function, setpixel_function) do { \ for (y=0; yimage, &unlock)) return ObjectBusy; if(rect){ if(rect->X < 0 || rect->Y < 0 || (rect->X + rect->Width > bitmap->width) || (rect->Y + rect->Height > bitmap->height) || !flags) { image_unlock(&bitmap->image, unlock); return InvalidParameter; } act_rect = *rect; } else{ act_rect.X = act_rect.Y = 0; act_rect.Width = bitmap->width; act_rect.Height = bitmap->height; } if(bitmap->lockmode) { WARN("bitmap is already locked and cannot be locked again\n"); image_unlock(&bitmap->image, unlock); return WrongState; } if (bitmap->bits && bitmap->format == format && !(flags & ImageLockModeUserInputBuf)) { /* no conversion is necessary; just use the bits directly */ lockeddata->Width = act_rect.Width; lockeddata->Height = act_rect.Height; lockeddata->PixelFormat = format; lockeddata->Reserved = flags; lockeddata->Stride = bitmap->stride; lockeddata->Scan0 = bitmap->bits + (bitspp / 8) * act_rect.X + bitmap->stride * act_rect.Y; bitmap->lockmode = flags | ImageLockModeRead; image_unlock(&bitmap->image, unlock); return Ok; } /* Make sure we can convert to the requested format. */ if (flags & ImageLockModeRead) { stat = convert_pixels(0, 0, 0, NULL, format, 0, NULL, bitmap->format, NULL); if (stat == NotImplemented) { FIXME("cannot read bitmap from %x to %x\n", bitmap->format, format); image_unlock(&bitmap->image, unlock); return NotImplemented; } } /* If we're opening for writing, make sure we'll be able to write back in * the original format. */ if (flags & ImageLockModeWrite) { stat = convert_pixels(0, 0, 0, NULL, bitmap->format, 0, NULL, format, NULL); if (stat == NotImplemented) { FIXME("cannot write bitmap from %x to %x\n", format, bitmap->format); image_unlock(&bitmap->image, unlock); return NotImplemented; } } lockeddata->Width = act_rect.Width; lockeddata->Height = act_rect.Height; lockeddata->PixelFormat = format; lockeddata->Reserved = flags; if(!(flags & ImageLockModeUserInputBuf)) { lockeddata->Stride = (((act_rect.Width * bitspp + 7) / 8) + 3) & ~3; bitmap->bitmapbits = heap_alloc_zero(lockeddata->Stride * act_rect.Height); if (!bitmap->bitmapbits) { image_unlock(&bitmap->image, unlock); return OutOfMemory; } lockeddata->Scan0 = bitmap->bitmapbits; } if (flags & ImageLockModeRead) { static BOOL fixme = FALSE; if (!fixme && (PIXELFORMATBPP(bitmap->format) * act_rect.X) % 8 != 0) { FIXME("Cannot copy rows that don't start at a whole byte.\n"); fixme = TRUE; } stat = convert_pixels(act_rect.Width, act_rect.Height, lockeddata->Stride, lockeddata->Scan0, format, bitmap->stride, bitmap->bits + bitmap->stride * act_rect.Y + PIXELFORMATBPP(bitmap->format) * act_rect.X / 8, bitmap->format, bitmap->image.palette); if (stat != Ok) { heap_free(bitmap->bitmapbits); bitmap->bitmapbits = NULL; image_unlock(&bitmap->image, unlock); return stat; } } bitmap->lockmode = flags | ImageLockModeRead; bitmap->lockx = act_rect.X; bitmap->locky = act_rect.Y; image_unlock(&bitmap->image, unlock); return Ok; } GpStatus WINGDIPAPI GdipBitmapSetResolution(GpBitmap* bitmap, REAL xdpi, REAL ydpi) { TRACE("(%p, %.2f, %.2f)\n", bitmap, xdpi, ydpi); if (!bitmap || xdpi == 0.0 || ydpi == 0.0) return InvalidParameter; bitmap->image.xres = xdpi; bitmap->image.yres = ydpi; return Ok; } GpStatus WINGDIPAPI GdipBitmapUnlockBits(GpBitmap* bitmap, BitmapData* lockeddata) { GpStatus stat; static BOOL fixme = FALSE; BOOL unlock; TRACE("(%p,%p)\n", bitmap, lockeddata); if(!bitmap || !lockeddata) return InvalidParameter; if(!image_lock(&bitmap->image, &unlock)) return ObjectBusy; if(!bitmap->lockmode) { image_unlock(&bitmap->image, unlock); return WrongState; } if(!(lockeddata->Reserved & ImageLockModeWrite)){ bitmap->lockmode = 0; heap_free(bitmap->bitmapbits); bitmap->bitmapbits = NULL; image_unlock(&bitmap->image, unlock); return Ok; } if (!bitmap->bitmapbits && !(lockeddata->Reserved & ImageLockModeUserInputBuf)) { /* we passed a direct reference; no need to do anything */ bitmap->lockmode = 0; image_unlock(&bitmap->image, unlock); return Ok; } if (!fixme && (PIXELFORMATBPP(bitmap->format) * bitmap->lockx) % 8 != 0) { FIXME("Cannot copy rows that don't start at a whole byte.\n"); fixme = TRUE; } stat = convert_pixels(lockeddata->Width, lockeddata->Height, bitmap->stride, bitmap->bits + bitmap->stride * bitmap->locky + PIXELFORMATBPP(bitmap->format) * bitmap->lockx / 8, bitmap->format, lockeddata->Stride, lockeddata->Scan0, lockeddata->PixelFormat, NULL); if (stat != Ok) { ERR("failed to convert pixels; this should never happen\n"); } heap_free(bitmap->bitmapbits); bitmap->bitmapbits = NULL; bitmap->lockmode = 0; image_unlock(&bitmap->image, unlock); return stat; } GpStatus WINGDIPAPI GdipCloneBitmapArea(REAL x, REAL y, REAL width, REAL height, PixelFormat format, GpBitmap* srcBitmap, GpBitmap** dstBitmap) { Rect area; GpStatus stat; TRACE("(%f,%f,%f,%f,0x%x,%p,%p)\n", x, y, width, height, format, srcBitmap, dstBitmap); if (!srcBitmap || !dstBitmap || srcBitmap->image.type != ImageTypeBitmap || x < 0 || y < 0 || x + width > srcBitmap->width || y + height > srcBitmap->height) { TRACE("<-- InvalidParameter\n"); return InvalidParameter; } if (format == PixelFormatDontCare) format = srcBitmap->format; area.X = gdip_round(x); area.Y = gdip_round(y); area.Width = gdip_round(width); area.Height = gdip_round(height); stat = GdipCreateBitmapFromScan0(area.Width, area.Height, 0, format, NULL, dstBitmap); if (stat == Ok) { stat = convert_pixels(area.Width, area.Height, (*dstBitmap)->stride, (*dstBitmap)->bits, (*dstBitmap)->format, srcBitmap->stride, srcBitmap->bits + srcBitmap->stride * area.Y + PIXELFORMATBPP(srcBitmap->format) * area.X / 8, srcBitmap->format, srcBitmap->image.palette); if (stat == Ok && srcBitmap->image.palette) { ColorPalette *src_palette, *dst_palette; src_palette = srcBitmap->image.palette; dst_palette = heap_alloc_zero(sizeof(UINT) * 2 + sizeof(ARGB) * src_palette->Count); if (dst_palette) { dst_palette->Flags = src_palette->Flags; dst_palette->Count = src_palette->Count; memcpy(dst_palette->Entries, src_palette->Entries, sizeof(ARGB) * src_palette->Count); heap_free((*dstBitmap)->image.palette); (*dstBitmap)->image.palette = dst_palette; } else stat = OutOfMemory; } if (stat != Ok) GdipDisposeImage(&(*dstBitmap)->image); } if (stat != Ok) *dstBitmap = NULL; return stat; } GpStatus WINGDIPAPI GdipCloneBitmapAreaI(INT x, INT y, INT width, INT height, PixelFormat format, GpBitmap* srcBitmap, GpBitmap** dstBitmap) { TRACE("(%i,%i,%i,%i,0x%x,%p,%p)\n", x, y, width, height, format, srcBitmap, dstBitmap); return GdipCloneBitmapArea(x, y, width, height, format, srcBitmap, dstBitmap); } GpStatus WINGDIPAPI GdipCloneImage(GpImage *image, GpImage **cloneImage) { TRACE("%p, %p\n", image, cloneImage); if (!image || !cloneImage) return InvalidParameter; if (image->type == ImageTypeBitmap) { GpBitmap *bitmap = (GpBitmap *)image; return GdipCloneBitmapAreaI(0, 0, bitmap->width, bitmap->height, bitmap->format, bitmap, (GpBitmap **)cloneImage); } else if (image->type == ImageTypeMetafile && ((GpMetafile*)image)->hemf) { GpMetafile *result, *metafile; metafile = (GpMetafile*)image; result = heap_alloc_zero(sizeof(*result)); if (!result) return OutOfMemory; result->image.type = ImageTypeMetafile; result->image.format = image->format; result->image.flags = image->flags; result->image.frame_count = 1; result->image.xres = image->xres; result->image.yres = image->yres; result->bounds = metafile->bounds; result->unit = metafile->unit; result->metafile_type = metafile->metafile_type; result->hemf = CopyEnhMetaFileW(metafile->hemf, NULL); list_init(&result->containers); if (!result->hemf) { heap_free(result); return OutOfMemory; } *cloneImage = &result->image; return Ok; } else { WARN("GpImage with no image data (metafile in wrong state?)\n"); return InvalidParameter; } } GpStatus WINGDIPAPI GdipCreateBitmapFromFile(GDIPCONST WCHAR* filename, GpBitmap **bitmap) { GpStatus stat; IStream *stream; TRACE("(%s) %p\n", debugstr_w(filename), bitmap); if(!filename || !bitmap) return InvalidParameter; *bitmap = NULL; stat = GdipCreateStreamOnFile(filename, GENERIC_READ, &stream); if(stat != Ok) return stat; stat = GdipCreateBitmapFromStream(stream, bitmap); IStream_Release(stream); return stat; } GpStatus WINGDIPAPI GdipCreateBitmapFromGdiDib(GDIPCONST BITMAPINFO* info, VOID *bits, GpBitmap **bitmap) { DWORD height, stride; HBITMAP hbm; void *bmbits; GpStatus status; TRACE("(%p, %p, %p)\n", info, bits, bitmap); if (!info || !bits || !bitmap) return InvalidParameter; hbm = CreateDIBSection(0, info, DIB_RGB_COLORS, &bmbits, NULL, 0); if (!hbm) return InvalidParameter; height = abs(info->bmiHeader.biHeight); stride = ((info->bmiHeader.biWidth * info->bmiHeader.biBitCount + 31) >> 3) & ~3; TRACE("height %u, stride %u, image size %u\n", height, stride, height * stride); memcpy(bmbits, bits, height * stride); status = GdipCreateBitmapFromHBITMAP(hbm, NULL, bitmap); DeleteObject(hbm); return status; } /* FIXME: no icm */ GpStatus WINGDIPAPI GdipCreateBitmapFromFileICM(GDIPCONST WCHAR* filename, GpBitmap **bitmap) { TRACE("(%s) %p\n", debugstr_w(filename), bitmap); return GdipCreateBitmapFromFile(filename, bitmap); } GpStatus WINGDIPAPI GdipCreateBitmapFromResource(HINSTANCE hInstance, GDIPCONST WCHAR* lpBitmapName, GpBitmap** bitmap) { HBITMAP hbm; GpStatus stat = InvalidParameter; TRACE("%p (%s) %p\n", hInstance, debugstr_w(lpBitmapName), bitmap); if(!lpBitmapName || !bitmap) return InvalidParameter; /* load DIB */ hbm = LoadImageW(hInstance, lpBitmapName, IMAGE_BITMAP, 0, 0, LR_CREATEDIBSECTION); if(hbm){ stat = GdipCreateBitmapFromHBITMAP(hbm, NULL, bitmap); DeleteObject(hbm); } return stat; } static inline DWORD blend_argb_no_bkgnd_alpha(DWORD src, DWORD bkgnd) { BYTE b = (BYTE)src; BYTE g = (BYTE)(src >> 8); BYTE r = (BYTE)(src >> 16); DWORD alpha = (BYTE)(src >> 24); return ((b + ((BYTE)bkgnd * (255 - alpha) + 127) / 255) | (g + ((BYTE)(bkgnd >> 8) * (255 - alpha) + 127) / 255) << 8 | (r + ((BYTE)(bkgnd >> 16) * (255 - alpha) + 127) / 255) << 16 | (alpha << 24)); } GpStatus WINGDIPAPI GdipCreateHBITMAPFromBitmap(GpBitmap* bitmap, HBITMAP* hbmReturn, ARGB background) { GpStatus stat; HBITMAP result; UINT width, height; BITMAPINFOHEADER bih; LPBYTE bits; BOOL unlock; TRACE("(%p,%p,%x)\n", bitmap, hbmReturn, background); if (!bitmap || !hbmReturn) return InvalidParameter; if (!image_lock(&bitmap->image, &unlock)) return ObjectBusy; GdipGetImageWidth(&bitmap->image, &width); GdipGetImageHeight(&bitmap->image, &height); bih.biSize = sizeof(bih); bih.biWidth = width; bih.biHeight = height; bih.biPlanes = 1; bih.biBitCount = 32; bih.biCompression = BI_RGB; bih.biSizeImage = 0; bih.biXPelsPerMeter = 0; bih.biYPelsPerMeter = 0; bih.biClrUsed = 0; bih.biClrImportant = 0; result = CreateDIBSection(0, (BITMAPINFO*)&bih, DIB_RGB_COLORS, (void**)&bits, NULL, 0); if (!result) { image_unlock(&bitmap->image, unlock); return GenericError; } stat = convert_pixels(width, height, -width*4, bits + (width * 4 * (height - 1)), PixelFormat32bppPARGB, bitmap->stride, bitmap->bits, bitmap->format, bitmap->image.palette); if (stat != Ok) { DeleteObject(result); image_unlock(&bitmap->image, unlock); return stat; } if (background & 0xffffff) { DWORD *ptr; UINT i; for (ptr = (DWORD*)bits, i = 0; i < width * height; ptr++, i++) { if ((*ptr & 0xff000000) == 0xff000000) continue; *ptr = blend_argb_no_bkgnd_alpha(*ptr, background); } } *hbmReturn = result; image_unlock(&bitmap->image, unlock); return Ok; } GpStatus WINGDIPAPI GdipCreateBitmapFromGraphics(INT width, INT height, GpGraphics* target, GpBitmap** bitmap) { GpStatus ret; TRACE("(%d, %d, %p, %p)\n", width, height, target, bitmap); if(!target || !bitmap) return InvalidParameter; ret = GdipCreateBitmapFromScan0(width, height, 0, PixelFormat32bppPARGB, NULL, bitmap); if (ret == Ok) { GdipGetDpiX(target, &(*bitmap)->image.xres); GdipGetDpiY(target, &(*bitmap)->image.yres); } return ret; } GpStatus WINGDIPAPI GdipCreateBitmapFromHICON(HICON hicon, GpBitmap** bitmap) { GpStatus stat; ICONINFO iinfo; BITMAP bm; int ret; UINT width, height, stride; GpRect rect; BitmapData lockeddata; HDC screendc; BOOL has_alpha; int x, y; BITMAPINFOHEADER bih; DWORD *src; BYTE *dst_row; DWORD *dst; TRACE("%p, %p\n", hicon, bitmap); if(!bitmap || !GetIconInfo(hicon, &iinfo)) return InvalidParameter; /* get the size of the icon */ ret = GetObjectA(iinfo.hbmColor ? iinfo.hbmColor : iinfo.hbmMask, sizeof(bm), &bm); if (ret == 0) { DeleteObject(iinfo.hbmColor); DeleteObject(iinfo.hbmMask); return GenericError; } width = bm.bmWidth; height = iinfo.hbmColor ? abs(bm.bmHeight) : abs(bm.bmHeight) / 2; stride = width * 4; stat = GdipCreateBitmapFromScan0(width, height, stride, PixelFormat32bppARGB, NULL, bitmap); if (stat != Ok) { DeleteObject(iinfo.hbmColor); DeleteObject(iinfo.hbmMask); return stat; } rect.X = 0; rect.Y = 0; rect.Width = width; rect.Height = height; stat = GdipBitmapLockBits(*bitmap, &rect, ImageLockModeWrite, PixelFormat32bppARGB, &lockeddata); if (stat != Ok) { DeleteObject(iinfo.hbmColor); DeleteObject(iinfo.hbmMask); GdipDisposeImage(&(*bitmap)->image); return stat; } bih.biSize = sizeof(bih); bih.biWidth = width; bih.biHeight = iinfo.hbmColor ? -height: -height * 2; bih.biPlanes = 1; bih.biBitCount = 32; bih.biCompression = BI_RGB; bih.biSizeImage = 0; bih.biXPelsPerMeter = 0; bih.biYPelsPerMeter = 0; bih.biClrUsed = 0; bih.biClrImportant = 0; screendc = CreateCompatibleDC(0); if (iinfo.hbmColor) { GetDIBits(screendc, iinfo.hbmColor, 0, height, lockeddata.Scan0, (BITMAPINFO*)&bih, DIB_RGB_COLORS); if (bm.bmBitsPixel == 32) { has_alpha = FALSE; /* If any pixel has a non-zero alpha, ignore hbmMask */ src = (DWORD*)lockeddata.Scan0; for (x=0; xbmiHeader.biSize = sizeof(BITMAPINFOHEADER); pbmi->bmiHeader.biWidth = width; pbmi->bmiHeader.biHeight = -height; pbmi->bmiHeader.biPlanes = 1; /* FIXME: use the rest of the data from format */ pbmi->bmiHeader.biBitCount = PIXELFORMATBPP(format); pbmi->bmiHeader.biCompression = BI_RGB; pbmi->bmiHeader.biSizeImage = 0; pbmi->bmiHeader.biXPelsPerMeter = 0; pbmi->bmiHeader.biYPelsPerMeter = 0; pbmi->bmiHeader.biClrUsed = 0; pbmi->bmiHeader.biClrImportant = 0; hbitmap = CreateDIBSection(0, pbmi, DIB_RGB_COLORS, (void**)&bits, NULL, 0); if (!hbitmap) return GenericError; stride = dib_stride; } else { /* Not a GDI format; don't try to make an HBITMAP. */ if (scan0) bits = scan0; else { INT size = abs(stride) * height; own_bits = bits = heap_alloc_zero(size); if (!own_bits) return OutOfMemory; if (stride < 0) bits += stride * (1 - height); } } *bitmap = heap_alloc_zero(sizeof(GpBitmap)); if(!*bitmap) { DeleteObject(hbitmap); heap_free(own_bits); return OutOfMemory; } (*bitmap)->image.type = ImageTypeBitmap; memcpy(&(*bitmap)->image.format, &ImageFormatMemoryBMP, sizeof(GUID)); (*bitmap)->image.flags = ImageFlagsNone; (*bitmap)->image.frame_count = 1; (*bitmap)->image.current_frame = 0; (*bitmap)->image.palette = NULL; (*bitmap)->image.xres = xres; (*bitmap)->image.yres = yres; (*bitmap)->width = width; (*bitmap)->height = height; (*bitmap)->format = format; (*bitmap)->image.decoder = NULL; (*bitmap)->image.encoder = NULL; (*bitmap)->hbitmap = hbitmap; (*bitmap)->hdc = NULL; (*bitmap)->bits = bits; (*bitmap)->stride = stride; (*bitmap)->own_bits = own_bits; (*bitmap)->metadata_reader = NULL; (*bitmap)->prop_count = 0; (*bitmap)->prop_item = NULL; /* set format-related flags */ if (format & (PixelFormatAlpha|PixelFormatPAlpha|PixelFormatIndexed)) (*bitmap)->image.flags |= ImageFlagsHasAlpha; if (format == PixelFormat1bppIndexed || format == PixelFormat4bppIndexed || format == PixelFormat8bppIndexed) { (*bitmap)->image.palette = heap_alloc_zero(sizeof(UINT) * 2 + sizeof(ARGB) * (1 << PIXELFORMATBPP(format))); if (!(*bitmap)->image.palette) { GdipDisposeImage(&(*bitmap)->image); *bitmap = NULL; return OutOfMemory; } (*bitmap)->image.palette->Count = 1 << PIXELFORMATBPP(format); if (format == PixelFormat1bppIndexed) { (*bitmap)->image.palette->Flags = PaletteFlagsGrayScale; (*bitmap)->image.palette->Entries[0] = 0xff000000; (*bitmap)->image.palette->Entries[1] = 0xffffffff; } else { if (format == PixelFormat8bppIndexed) (*bitmap)->image.palette->Flags = PaletteFlagsHalftone; generate_halftone_palette((*bitmap)->image.palette->Entries, (*bitmap)->image.palette->Count); } } TRACE("<-- %p\n", *bitmap); return Ok; } GpStatus WINGDIPAPI GdipCreateBitmapFromStream(IStream* stream, GpBitmap **bitmap) { GpStatus stat; TRACE("%p %p\n", stream, bitmap); stat = GdipLoadImageFromStream(stream, (GpImage**) bitmap); if(stat != Ok) return stat; if((*bitmap)->image.type != ImageTypeBitmap){ GdipDisposeImage(&(*bitmap)->image); *bitmap = NULL; return GenericError; /* FIXME: what error to return? */ } return Ok; } /* FIXME: no icm */ GpStatus WINGDIPAPI GdipCreateBitmapFromStreamICM(IStream* stream, GpBitmap **bitmap) { TRACE("%p %p\n", stream, bitmap); return GdipCreateBitmapFromStream(stream, bitmap); } GpStatus WINGDIPAPI GdipCreateCachedBitmap(GpBitmap *bitmap, GpGraphics *graphics, GpCachedBitmap **cachedbmp) { GpStatus stat; TRACE("%p %p %p\n", bitmap, graphics, cachedbmp); if(!bitmap || !graphics || !cachedbmp) return InvalidParameter; *cachedbmp = heap_alloc_zero(sizeof(GpCachedBitmap)); if(!*cachedbmp) return OutOfMemory; stat = GdipCloneImage(&(bitmap->image), &(*cachedbmp)->image); if(stat != Ok){ heap_free(*cachedbmp); return stat; } return Ok; } GpStatus WINGDIPAPI GdipCreateHICONFromBitmap(GpBitmap *bitmap, HICON *hicon) { GpStatus stat; BitmapData lockeddata; ULONG andstride, xorstride, bitssize; LPBYTE andbits, xorbits, androw, xorrow, srcrow; UINT x, y; TRACE("(%p, %p)\n", bitmap, hicon); if (!bitmap || !hicon) return InvalidParameter; stat = GdipBitmapLockBits(bitmap, NULL, ImageLockModeRead, PixelFormat32bppPARGB, &lockeddata); if (stat == Ok) { andstride = ((lockeddata.Width+31)/32)*4; xorstride = lockeddata.Width*4; bitssize = (andstride + xorstride) * lockeddata.Height; andbits = heap_alloc_zero(bitssize); if (andbits) { xorbits = andbits + andstride * lockeddata.Height; for (y=0; y= 128) androw[x/8] |= 1 << (7-x%8); xorrow = xorbits + xorstride * y; memcpy(xorrow, srcrow, xorstride); } *hicon = CreateIcon(NULL, lockeddata.Width, lockeddata.Height, 1, 32, andbits, xorbits); heap_free(andbits); } else stat = OutOfMemory; GdipBitmapUnlockBits(bitmap, &lockeddata); } return stat; } GpStatus WINGDIPAPI GdipDeleteCachedBitmap(GpCachedBitmap *cachedbmp) { TRACE("%p\n", cachedbmp); if(!cachedbmp) return InvalidParameter; GdipDisposeImage(cachedbmp->image); heap_free(cachedbmp); return Ok; } GpStatus WINGDIPAPI GdipDrawCachedBitmap(GpGraphics *graphics, GpCachedBitmap *cachedbmp, INT x, INT y) { TRACE("%p %p %d %d\n", graphics, cachedbmp, x, y); if(!graphics || !cachedbmp) return InvalidParameter; return GdipDrawImage(graphics, cachedbmp->image, (REAL)x, (REAL)y); } /* Internal utility function: Replace the image data of dst with that of src, * and free src. */ static void move_bitmap(GpBitmap *dst, GpBitmap *src, BOOL clobber_palette) { assert(src->image.type == ImageTypeBitmap); assert(dst->image.type == ImageTypeBitmap); heap_free(dst->bitmapbits); heap_free(dst->own_bits); DeleteDC(dst->hdc); DeleteObject(dst->hbitmap); if (clobber_palette) { heap_free(dst->image.palette); dst->image.palette = src->image.palette; } else heap_free(src->image.palette); dst->image.xres = src->image.xres; dst->image.yres = src->image.yres; dst->width = src->width; dst->height = src->height; dst->format = src->format; dst->hbitmap = src->hbitmap; dst->hdc = src->hdc; dst->bits = src->bits; dst->stride = src->stride; dst->own_bits = src->own_bits; if (dst->metadata_reader) IWICMetadataReader_Release(dst->metadata_reader); dst->metadata_reader = src->metadata_reader; heap_free(dst->prop_item); dst->prop_item = src->prop_item; dst->prop_count = src->prop_count; if (dst->image.decoder) IWICBitmapDecoder_Release(dst->image.decoder); dst->image.decoder = src->image.decoder; terminate_encoder_wic(&dst->image); /* terminate active encoder before overwriting with src */ dst->image.encoder = src->image.encoder; dst->image.frame_count = src->image.frame_count; dst->image.current_frame = src->image.current_frame; dst->image.format = src->image.format; src->image.type = ~0; heap_free(src); } static GpStatus free_image_data(GpImage *image) { if(!image) return InvalidParameter; if (image->type == ImageTypeBitmap) { heap_free(((GpBitmap*)image)->bitmapbits); heap_free(((GpBitmap*)image)->own_bits); DeleteDC(((GpBitmap*)image)->hdc); DeleteObject(((GpBitmap*)image)->hbitmap); if (((GpBitmap*)image)->metadata_reader) IWICMetadataReader_Release(((GpBitmap*)image)->metadata_reader); heap_free(((GpBitmap*)image)->prop_item); } else if (image->type == ImageTypeMetafile) METAFILE_Free((GpMetafile *)image); else { WARN("invalid image: %p\n", image); return ObjectBusy; } if (image->decoder) IWICBitmapDecoder_Release(image->decoder); terminate_encoder_wic(image); heap_free(image->palette); return Ok; } GpStatus WINGDIPAPI GdipDisposeImage(GpImage *image) { GpStatus status; TRACE("%p\n", image); status = free_image_data(image); if (status != Ok) return status; image->type = ~0; heap_free(image); return Ok; } GpStatus WINGDIPAPI GdipFindFirstImageItem(GpImage *image, ImageItemData* item) { static int calls; TRACE("(%p,%p)\n", image, item); if(!image || !item) return InvalidParameter; if (!(calls++)) FIXME("not implemented\n"); return NotImplemented; } GpStatus WINGDIPAPI GdipGetImageItemData(GpImage *image, ImageItemData *item) { static int calls; TRACE("(%p,%p)\n", image, item); if (!(calls++)) FIXME("not implemented\n"); return NotImplemented; } GpStatus WINGDIPAPI GdipGetImageBounds(GpImage *image, GpRectF *srcRect, GpUnit *srcUnit) { TRACE("%p %p %p\n", image, srcRect, srcUnit); if(!image || !srcRect || !srcUnit) return InvalidParameter; if(image->type == ImageTypeMetafile){ *srcRect = ((GpMetafile*)image)->bounds; *srcUnit = ((GpMetafile*)image)->unit; } else if(image->type == ImageTypeBitmap){ srcRect->X = srcRect->Y = 0.0; srcRect->Width = (REAL) ((GpBitmap*)image)->width; srcRect->Height = (REAL) ((GpBitmap*)image)->height; *srcUnit = UnitPixel; } else{ WARN("GpImage with no image data\n"); return InvalidParameter; } TRACE("returning (%f, %f) (%f, %f) unit type %d\n", srcRect->X, srcRect->Y, srcRect->Width, srcRect->Height, *srcUnit); return Ok; } GpStatus WINGDIPAPI GdipGetImageDimension(GpImage *image, REAL *width, REAL *height) { TRACE("%p %p %p\n", image, width, height); if(!image || !height || !width) return InvalidParameter; if(image->type == ImageTypeMetafile){ *height = units_to_pixels(((GpMetafile*)image)->bounds.Height, ((GpMetafile*)image)->unit, image->yres, ((GpMetafile*)image)->printer_display); *width = units_to_pixels(((GpMetafile*)image)->bounds.Width, ((GpMetafile*)image)->unit, image->xres, ((GpMetafile*)image)->printer_display); } else if(image->type == ImageTypeBitmap){ *height = ((GpBitmap*)image)->height; *width = ((GpBitmap*)image)->width; } else{ WARN("GpImage with no image data\n"); return InvalidParameter; } TRACE("returning (%f, %f)\n", *height, *width); return Ok; } GpStatus WINGDIPAPI GdipGetImageGraphicsContext(GpImage *image, GpGraphics **graphics) { HDC hdc; GpStatus stat; TRACE("%p %p\n", image, graphics); if(!image || !graphics) return InvalidParameter; if (image->type == ImageTypeBitmap && ((GpBitmap*)image)->hbitmap) { hdc = ((GpBitmap*)image)->hdc; if(!hdc){ hdc = CreateCompatibleDC(0); SelectObject(hdc, ((GpBitmap*)image)->hbitmap); ((GpBitmap*)image)->hdc = hdc; } stat = GdipCreateFromHDC(hdc, graphics); if (stat == Ok) { (*graphics)->image = image; (*graphics)->xres = image->xres; (*graphics)->yres = image->yres; } } else if (image->type == ImageTypeMetafile) stat = METAFILE_GetGraphicsContext((GpMetafile*)image, graphics); else stat = graphics_from_image(image, graphics); return stat; } GpStatus WINGDIPAPI GdipGetImageHeight(GpImage *image, UINT *height) { TRACE("%p %p\n", image, height); if(!image || !height) return InvalidParameter; if(image->type == ImageTypeMetafile) *height = units_to_pixels(((GpMetafile*)image)->bounds.Height, ((GpMetafile*)image)->unit, image->yres, ((GpMetafile*)image)->printer_display); else if(image->type == ImageTypeBitmap) *height = ((GpBitmap*)image)->height; else { WARN("GpImage with no image data\n"); return InvalidParameter; } TRACE("returning %d\n", *height); return Ok; } GpStatus WINGDIPAPI GdipGetImageHorizontalResolution(GpImage *image, REAL *res) { if(!image || !res) return InvalidParameter; *res = image->xres; TRACE("(%p) <-- %0.2f\n", image, *res); return Ok; } GpStatus WINGDIPAPI GdipGetImagePaletteSize(GpImage *image, INT *size) { TRACE("%p %p\n", image, size); if(!image || !size) return InvalidParameter; if (image->type == ImageTypeMetafile) { *size = 0; return GenericError; } if (!image->palette || image->palette->Count == 0) *size = sizeof(ColorPalette); else *size = sizeof(UINT)*2 + sizeof(ARGB)*image->palette->Count; TRACE("<-- %u\n", *size); return Ok; } /* FIXME: test this function for non-bitmap types */ GpStatus WINGDIPAPI GdipGetImagePixelFormat(GpImage *image, PixelFormat *format) { TRACE("%p %p\n", image, format); if(!image || !format) return InvalidParameter; if(image->type != ImageTypeBitmap) *format = PixelFormat24bppRGB; else *format = ((GpBitmap*) image)->format; return Ok; } GpStatus WINGDIPAPI GdipGetImageRawFormat(GpImage *image, GUID *format) { TRACE("(%p, %p)\n", image, format); if(!image || !format) return InvalidParameter; memcpy(format, &image->format, sizeof(GUID)); return Ok; } GpStatus WINGDIPAPI GdipGetImageType(GpImage *image, ImageType *type) { TRACE("%p %p\n", image, type); if(!image || !type) return InvalidParameter; *type = image->type; return Ok; } GpStatus WINGDIPAPI GdipGetImageVerticalResolution(GpImage *image, REAL *res) { if(!image || !res) return InvalidParameter; *res = image->yres; TRACE("(%p) <-- %0.2f\n", image, *res); return Ok; } GpStatus WINGDIPAPI GdipGetImageWidth(GpImage *image, UINT *width) { TRACE("%p %p\n", image, width); if(!image || !width) return InvalidParameter; if(image->type == ImageTypeMetafile) *width = units_to_pixels(((GpMetafile*)image)->bounds.Width, ((GpMetafile*)image)->unit, image->xres, ((GpMetafile*)image)->printer_display); else if(image->type == ImageTypeBitmap) *width = ((GpBitmap*)image)->width; else { WARN("GpImage with no image data\n"); return InvalidParameter; } TRACE("returning %d\n", *width); return Ok; } GpStatus WINGDIPAPI GdipGetPropertyCount(GpImage *image, UINT *num) { TRACE("(%p, %p)\n", image, num); if (!image || !num) return InvalidParameter; *num = 0; if (image->type == ImageTypeBitmap) { if (((GpBitmap *)image)->prop_item) { *num = ((GpBitmap *)image)->prop_count; return Ok; } if (((GpBitmap *)image)->metadata_reader) IWICMetadataReader_GetCount(((GpBitmap *)image)->metadata_reader, num); } return Ok; } GpStatus WINGDIPAPI GdipGetPropertyIdList(GpImage *image, UINT num, PROPID *list) { HRESULT hr; IWICMetadataReader *reader; IWICEnumMetadataItem *enumerator; UINT prop_count, i, items_returned; TRACE("(%p, %u, %p)\n", image, num, list); if (!image || !list) return InvalidParameter; if (image->type != ImageTypeBitmap) { FIXME("Not implemented for type %d\n", image->type); return NotImplemented; } if (((GpBitmap *)image)->prop_item) { if (num != ((GpBitmap *)image)->prop_count) return InvalidParameter; for (i = 0; i < num; i++) { list[i] = ((GpBitmap *)image)->prop_item[i].id; } return Ok; } reader = ((GpBitmap *)image)->metadata_reader; if (!reader) { if (num != 0) return InvalidParameter; return Ok; } hr = IWICMetadataReader_GetCount(reader, &prop_count); if (FAILED(hr)) return hresult_to_status(hr); if (num != prop_count) return InvalidParameter; hr = IWICMetadataReader_GetEnumerator(reader, &enumerator); if (FAILED(hr)) return hresult_to_status(hr); IWICEnumMetadataItem_Reset(enumerator); for (i = 0; i < num; i++) { PROPVARIANT id; hr = IWICEnumMetadataItem_Next(enumerator, 1, NULL, &id, NULL, &items_returned); if (hr != S_OK) break; if (id.vt != VT_UI2) { FIXME("not supported propvariant type for id: %u\n", id.vt); list[i] = 0; continue; } list[i] = id.u.uiVal; } IWICEnumMetadataItem_Release(enumerator); return hr == S_OK ? Ok : hresult_to_status(hr); } static UINT propvariant_size(PROPVARIANT *value) { switch (value->vt & ~VT_VECTOR) { case VT_EMPTY: return 0; case VT_I1: case VT_UI1: if (!(value->vt & VT_VECTOR)) return 1; return value->u.caub.cElems; case VT_I2: case VT_UI2: if (!(value->vt & VT_VECTOR)) return 2; return value->u.caui.cElems * 2; case VT_I4: case VT_UI4: case VT_R4: if (!(value->vt & VT_VECTOR)) return 4; return value->u.caul.cElems * 4; case VT_I8: case VT_UI8: case VT_R8: if (!(value->vt & VT_VECTOR)) return 8; return value->u.cauh.cElems * 8; case VT_LPSTR: return value->u.pszVal ? strlen(value->u.pszVal) + 1 : 0; case VT_BLOB: return value->u.blob.cbSize; default: FIXME("not supported variant type %d\n", value->vt); return 0; } } GpStatus WINGDIPAPI GdipGetPropertyItemSize(GpImage *image, PROPID propid, UINT *size) { HRESULT hr; IWICMetadataReader *reader; PROPVARIANT id, value; TRACE("(%p,%#x,%p)\n", image, propid, size); if (!size || !image) return InvalidParameter; if (image->type != ImageTypeBitmap) { FIXME("Not implemented for type %d\n", image->type); return NotImplemented; } if (((GpBitmap *)image)->prop_item) { UINT i; for (i = 0; i < ((GpBitmap *)image)->prop_count; i++) { if (propid == ((GpBitmap *)image)->prop_item[i].id) { *size = sizeof(PropertyItem) + ((GpBitmap *)image)->prop_item[i].length; return Ok; } } return PropertyNotFound; } reader = ((GpBitmap *)image)->metadata_reader; if (!reader) return PropertyNotFound; id.vt = VT_UI2; id.u.uiVal = propid; hr = IWICMetadataReader_GetValue(reader, NULL, &id, &value); if (FAILED(hr)) return PropertyNotFound; *size = propvariant_size(&value); if (*size) *size += sizeof(PropertyItem); PropVariantClear(&value); return Ok; } #ifndef PropertyTagTypeSByte #define PropertyTagTypeSByte 6 #define PropertyTagTypeSShort 8 #define PropertyTagTypeFloat 11 #define PropertyTagTypeDouble 12 #endif static UINT vt_to_itemtype(UINT vt) { static const struct { UINT vt, type; } vt2type[] = { { VT_I1, PropertyTagTypeSByte }, { VT_UI1, PropertyTagTypeByte }, { VT_I2, PropertyTagTypeSShort }, { VT_UI2, PropertyTagTypeShort }, { VT_I4, PropertyTagTypeSLONG }, { VT_UI4, PropertyTagTypeLong }, { VT_I8, PropertyTagTypeSRational }, { VT_UI8, PropertyTagTypeRational }, { VT_R4, PropertyTagTypeFloat }, { VT_R8, PropertyTagTypeDouble }, { VT_LPSTR, PropertyTagTypeASCII }, { VT_BLOB, PropertyTagTypeUndefined } }; UINT i; for (i = 0; i < ARRAY_SIZE(vt2type); i++) { if (vt2type[i].vt == vt) return vt2type[i].type; } FIXME("not supported variant type %u\n", vt); return 0; } static GpStatus propvariant_to_item(PROPVARIANT *value, PropertyItem *item, UINT size, PROPID id) { UINT item_size, item_type; item_size = propvariant_size(value); if (size != item_size + sizeof(PropertyItem)) return InvalidParameter; item_type = vt_to_itemtype(value->vt & ~VT_VECTOR); if (!item_type) return InvalidParameter; item->value = item + 1; switch (value->vt & ~VT_VECTOR) { case VT_I1: case VT_UI1: if (!(value->vt & VT_VECTOR)) *(BYTE *)item->value = value->u.bVal; else memcpy(item->value, value->u.caub.pElems, item_size); break; case VT_I2: case VT_UI2: if (!(value->vt & VT_VECTOR)) *(USHORT *)item->value = value->u.uiVal; else memcpy(item->value, value->u.caui.pElems, item_size); break; case VT_I4: case VT_UI4: case VT_R4: if (!(value->vt & VT_VECTOR)) *(ULONG *)item->value = value->u.ulVal; else memcpy(item->value, value->u.caul.pElems, item_size); break; case VT_I8: case VT_UI8: case VT_R8: if (!(value->vt & VT_VECTOR)) *(ULONGLONG *)item->value = value->u.uhVal.QuadPart; else memcpy(item->value, value->u.cauh.pElems, item_size); break; case VT_LPSTR: memcpy(item->value, value->u.pszVal, item_size); break; case VT_BLOB: memcpy(item->value, value->u.blob.pBlobData, item_size); break; default: FIXME("not supported variant type %d\n", value->vt); return InvalidParameter; } item->length = item_size; item->type = item_type; item->id = id; return Ok; } GpStatus WINGDIPAPI GdipGetPropertyItem(GpImage *image, PROPID propid, UINT size, PropertyItem *buffer) { GpStatus stat; HRESULT hr; IWICMetadataReader *reader; PROPVARIANT id, value; TRACE("(%p,%#x,%u,%p)\n", image, propid, size, buffer); if (!image || !buffer) return InvalidParameter; if (image->type != ImageTypeBitmap) { FIXME("Not implemented for type %d\n", image->type); return NotImplemented; } if (((GpBitmap *)image)->prop_item) { UINT i; for (i = 0; i < ((GpBitmap *)image)->prop_count; i++) { if (propid == ((GpBitmap *)image)->prop_item[i].id) { if (size != sizeof(PropertyItem) + ((GpBitmap *)image)->prop_item[i].length) return InvalidParameter; *buffer = ((GpBitmap *)image)->prop_item[i]; buffer->value = buffer + 1; memcpy(buffer->value, ((GpBitmap *)image)->prop_item[i].value, buffer->length); return Ok; } } return PropertyNotFound; } reader = ((GpBitmap *)image)->metadata_reader; if (!reader) return PropertyNotFound; id.vt = VT_UI2; id.u.uiVal = propid; hr = IWICMetadataReader_GetValue(reader, NULL, &id, &value); if (FAILED(hr)) return PropertyNotFound; stat = propvariant_to_item(&value, buffer, size, propid); PropVariantClear(&value); return stat; } GpStatus WINGDIPAPI GdipGetPropertySize(GpImage *image, UINT *size, UINT *count) { HRESULT hr; IWICMetadataReader *reader; IWICEnumMetadataItem *enumerator; UINT prop_count, prop_size, i; PROPVARIANT id, value; TRACE("(%p,%p,%p)\n", image, size, count); if (!image || !size || !count) return InvalidParameter; if (image->type != ImageTypeBitmap) { FIXME("Not implemented for type %d\n", image->type); return NotImplemented; } if (((GpBitmap *)image)->prop_item) { *count = ((GpBitmap *)image)->prop_count; *size = 0; for (i = 0; i < ((GpBitmap *)image)->prop_count; i++) { *size += sizeof(PropertyItem) + ((GpBitmap *)image)->prop_item[i].length; } return Ok; } reader = ((GpBitmap *)image)->metadata_reader; if (!reader) return PropertyNotFound; hr = IWICMetadataReader_GetCount(reader, &prop_count); if (FAILED(hr)) return hresult_to_status(hr); hr = IWICMetadataReader_GetEnumerator(reader, &enumerator); if (FAILED(hr)) return hresult_to_status(hr); IWICEnumMetadataItem_Reset(enumerator); prop_size = 0; PropVariantInit(&id); PropVariantInit(&value); for (i = 0; i < prop_count; i++) { UINT items_returned, item_size; hr = IWICEnumMetadataItem_Next(enumerator, 1, NULL, &id, &value, &items_returned); if (hr != S_OK) break; item_size = propvariant_size(&value); if (item_size) prop_size += sizeof(PropertyItem) + item_size; PropVariantClear(&id); PropVariantClear(&value); } IWICEnumMetadataItem_Release(enumerator); if (hr != S_OK) return PropertyNotFound; *count = prop_count; *size = prop_size; return Ok; } GpStatus WINGDIPAPI GdipGetAllPropertyItems(GpImage *image, UINT size, UINT count, PropertyItem *buf) { GpStatus status; HRESULT hr; IWICMetadataReader *reader; IWICEnumMetadataItem *enumerator; UINT prop_count, prop_size, i; PROPVARIANT id, value; char *item_value; TRACE("(%p,%u,%u,%p)\n", image, size, count, buf); if (!image || !buf) return InvalidParameter; if (image->type != ImageTypeBitmap) { FIXME("Not implemented for type %d\n", image->type); return NotImplemented; } status = GdipGetPropertySize(image, &prop_size, &prop_count); if (status != Ok) return status; if (prop_count != count || prop_size != size) return InvalidParameter; if (((GpBitmap *)image)->prop_item) { memcpy(buf, ((GpBitmap *)image)->prop_item, prop_size); item_value = (char *)(buf + prop_count); for (i = 0; i < prop_count; i++) { buf[i].value = item_value; item_value += buf[i].length; } return Ok; } reader = ((GpBitmap *)image)->metadata_reader; if (!reader) return PropertyNotFound; hr = IWICMetadataReader_GetEnumerator(reader, &enumerator); if (FAILED(hr)) return hresult_to_status(hr); IWICEnumMetadataItem_Reset(enumerator); item_value = (char *)(buf + prop_count); PropVariantInit(&id); PropVariantInit(&value); for (i = 0; i < prop_count; i++) { PropertyItem *item; UINT items_returned, item_size; hr = IWICEnumMetadataItem_Next(enumerator, 1, NULL, &id, &value, &items_returned); if (hr != S_OK) break; if (id.vt != VT_UI2) { FIXME("not supported propvariant type for id: %u\n", id.vt); continue; } item_size = propvariant_size(&value); if (item_size) { item = heap_alloc(item_size + sizeof(*item)); propvariant_to_item(&value, item, item_size + sizeof(*item), id.u.uiVal); buf[i].id = item->id; buf[i].type = item->type; buf[i].length = item_size; buf[i].value = item_value; memcpy(item_value, item->value, item_size); item_value += item_size; heap_free(item); } PropVariantClear(&id); PropVariantClear(&value); } IWICEnumMetadataItem_Release(enumerator); if (hr != S_OK) return PropertyNotFound; return Ok; } struct image_format_dimension { const GUID *format; const GUID *dimension; }; static const struct image_format_dimension image_format_dimensions[] = { {&ImageFormatGIF, &FrameDimensionTime}, {&ImageFormatIcon, &FrameDimensionResolution}, {NULL} }; GpStatus WINGDIPAPI GdipImageGetFrameCount(GpImage *image, GDIPCONST GUID* dimensionID, UINT* count) { TRACE("(%p,%s,%p)\n", image, debugstr_guid(dimensionID), count); if(!image || !count) return InvalidParameter; if (!dimensionID || IsEqualGUID(dimensionID, &image->format) || IsEqualGUID(dimensionID, &FrameDimensionPage) || IsEqualGUID(dimensionID, &FrameDimensionTime)) { *count = image->frame_count; return Ok; } return InvalidParameter; } GpStatus WINGDIPAPI GdipImageGetFrameDimensionsCount(GpImage *image, UINT* count) { TRACE("(%p, %p)\n", image, count); /* Native gdiplus 1.1 does not yet support multiple frame dimensions. */ if(!image || !count) return InvalidParameter; *count = 1; return Ok; } GpStatus WINGDIPAPI GdipImageGetFrameDimensionsList(GpImage* image, GUID* dimensionIDs, UINT count) { int i; const GUID *result=NULL; TRACE("(%p,%p,%u)\n", image, dimensionIDs, count); if(!image || !dimensionIDs || count != 1) return InvalidParameter; for (i=0; image_format_dimensions[i].format; i++) { if (IsEqualGUID(&image->format, image_format_dimensions[i].format)) { result = image_format_dimensions[i].dimension; break; } } if (!result) result = &FrameDimensionPage; memcpy(dimensionIDs, result, sizeof(GUID)); return Ok; } GpStatus WINGDIPAPI GdipLoadImageFromFile(GDIPCONST WCHAR* filename, GpImage **image) { GpStatus stat; IStream *stream; TRACE("(%s) %p\n", debugstr_w(filename), image); if (!filename || !image) return InvalidParameter; *image = NULL; stat = GdipCreateStreamOnFile(filename, GENERIC_READ, &stream); if (stat != Ok) return stat; stat = GdipLoadImageFromStream(stream, image); IStream_Release(stream); return stat; } /* FIXME: no icm handling */ GpStatus WINGDIPAPI GdipLoadImageFromFileICM(GDIPCONST WCHAR* filename,GpImage **image) { TRACE("(%s) %p\n", debugstr_w(filename), image); return GdipLoadImageFromFile(filename, image); } static void add_property(GpBitmap *bitmap, PropertyItem *item) { UINT prop_size, prop_count; PropertyItem *prop_item; if (bitmap->prop_item == NULL) { prop_size = prop_count = 0; prop_item = heap_alloc_zero(item->length + sizeof(PropertyItem)); if (!prop_item) return; } else { UINT i; char *item_value; GdipGetPropertySize(&bitmap->image, &prop_size, &prop_count); prop_item = heap_alloc_zero(prop_size + item->length + sizeof(PropertyItem)); if (!prop_item) return; memcpy(prop_item, bitmap->prop_item, sizeof(PropertyItem) * bitmap->prop_count); prop_size -= sizeof(PropertyItem) * bitmap->prop_count; memcpy(prop_item + prop_count + 1, bitmap->prop_item + prop_count, prop_size); item_value = (char *)(prop_item + prop_count + 1); for (i = 0; i < prop_count; i++) { prop_item[i].value = item_value; item_value += prop_item[i].length; } } prop_item[prop_count].id = item->id; prop_item[prop_count].type = item->type; prop_item[prop_count].length = item->length; prop_item[prop_count].value = (char *)(prop_item + prop_count + 1) + prop_size; memcpy(prop_item[prop_count].value, item->value, item->length); heap_free(bitmap->prop_item); bitmap->prop_item = prop_item; bitmap->prop_count++; } static BOOL get_bool_property(IWICMetadataReader *reader, const GUID *guid, const WCHAR *prop_name) { HRESULT hr; GUID format; PROPVARIANT id, value; BOOL ret = FALSE; hr = IWICMetadataReader_GetMetadataFormat(reader, &format); if (FAILED(hr) || !IsEqualGUID(&format, guid)) return FALSE; PropVariantInit(&id); PropVariantInit(&value); id.vt = VT_LPWSTR; id.u.pwszVal = CoTaskMemAlloc((lstrlenW(prop_name) + 1) * sizeof(WCHAR)); if (!id.u.pwszVal) return FALSE; lstrcpyW(id.u.pwszVal, prop_name); hr = IWICMetadataReader_GetValue(reader, NULL, &id, &value); if (hr == S_OK && value.vt == VT_BOOL) ret = value.u.boolVal; PropVariantClear(&id); PropVariantClear(&value); return ret; } static PropertyItem *get_property(IWICMetadataReader *reader, const GUID *guid, const WCHAR *prop_name) { HRESULT hr; GUID format; PROPVARIANT id, value; PropertyItem *item = NULL; hr = IWICMetadataReader_GetMetadataFormat(reader, &format); if (FAILED(hr) || !IsEqualGUID(&format, guid)) return NULL; PropVariantInit(&id); PropVariantInit(&value); id.vt = VT_LPWSTR; id.u.pwszVal = CoTaskMemAlloc((lstrlenW(prop_name) + 1) * sizeof(WCHAR)); if (!id.u.pwszVal) return NULL; lstrcpyW(id.u.pwszVal, prop_name); hr = IWICMetadataReader_GetValue(reader, NULL, &id, &value); if (hr == S_OK) { UINT item_size = propvariant_size(&value); if (item_size) { item_size += sizeof(*item); item = heap_alloc_zero(item_size); if (propvariant_to_item(&value, item, item_size, 0) != Ok) { heap_free(item); item = NULL; } } } PropVariantClear(&id); PropVariantClear(&value); return item; } static PropertyItem *get_gif_comment(IWICMetadataReader *reader) { PropertyItem *comment; comment = get_property(reader, &GUID_MetadataFormatGifComment, L"TextEntry"); if (comment) comment->id = PropertyTagExifUserComment; return comment; } static PropertyItem *get_gif_loopcount(IWICMetadataReader *reader) { PropertyItem *appext = NULL, *appdata = NULL, *loop = NULL; appext = get_property(reader, &GUID_MetadataFormatAPE, L"Application"); if (appext) { if (appext->type == PropertyTagTypeByte && appext->length == 11 && (!memcmp(appext->value, "NETSCAPE2.0", 11) || !memcmp(appext->value, "ANIMEXTS1.0", 11))) { appdata = get_property(reader, &GUID_MetadataFormatAPE, L"Data"); if (appdata) { if (appdata->type == PropertyTagTypeByte && appdata->length == 4) { BYTE *data = appdata->value; if (data[0] == 3 && data[1] == 1) { loop = heap_alloc_zero(sizeof(*loop) + sizeof(SHORT)); if (loop) { loop->type = PropertyTagTypeShort; loop->id = PropertyTagLoopCount; loop->length = sizeof(SHORT); loop->value = loop + 1; *(SHORT *)loop->value = data[2] | (data[3] << 8); } } } } } } heap_free(appext); heap_free(appdata); return loop; } static PropertyItem *get_gif_background(IWICMetadataReader *reader) { PropertyItem *background; background = get_property(reader, &GUID_MetadataFormatLSD, L"BackgroundColorIndex"); if (background) background->id = PropertyTagIndexBackground; return background; } static PropertyItem *get_gif_palette(IWICBitmapDecoder *decoder, IWICMetadataReader *reader) { HRESULT hr; IWICImagingFactory *factory; IWICPalette *palette; UINT count = 0; WICColor colors[256]; if (!get_bool_property(reader, &GUID_MetadataFormatLSD, L"GlobalColorTableFlag")) return NULL; hr = WICCreateImagingFactory_Proxy(WINCODEC_SDK_VERSION, &factory); if (hr != S_OK) return NULL; hr = IWICImagingFactory_CreatePalette(factory, &palette); if (hr == S_OK) { hr = IWICBitmapDecoder_CopyPalette(decoder, palette); if (hr == S_OK) IWICPalette_GetColors(palette, 256, colors, &count); IWICPalette_Release(palette); } IWICImagingFactory_Release(factory); if (count) { PropertyItem *pal; UINT i; BYTE *rgb; pal = heap_alloc_zero(sizeof(*pal) + count * 3); if (!pal) return NULL; pal->type = PropertyTagTypeByte; pal->id = PropertyTagGlobalPalette; pal->value = pal + 1; pal->length = count * 3; rgb = pal->value; for (i = 0; i < count; i++) { rgb[i*3] = (colors[i] >> 16) & 0xff; rgb[i*3 + 1] = (colors[i] >> 8) & 0xff; rgb[i*3 + 2] = colors[i] & 0xff; } return pal; } return NULL; } static PropertyItem *get_gif_transparent_idx(IWICMetadataReader *reader) { PropertyItem *index = NULL; if (get_bool_property(reader, &GUID_MetadataFormatGCE, L"TransparencyFlag")) { index = get_property(reader, &GUID_MetadataFormatGCE, L"TransparentColorIndex"); if (index) index->id = PropertyTagIndexTransparent; } return index; } static LONG get_gif_frame_property(IWICBitmapFrameDecode *frame, const GUID *format, const WCHAR *property) { HRESULT hr; IWICMetadataBlockReader *block_reader; IWICMetadataReader *reader; UINT block_count, i; PropertyItem *prop; LONG value = 0; hr = IWICBitmapFrameDecode_QueryInterface(frame, &IID_IWICMetadataBlockReader, (void **)&block_reader); if (hr == S_OK) { hr = IWICMetadataBlockReader_GetCount(block_reader, &block_count); if (hr == S_OK) { for (i = 0; i < block_count; i++) { hr = IWICMetadataBlockReader_GetReaderByIndex(block_reader, i, &reader); if (hr == S_OK) { prop = get_property(reader, format, property); if (prop) { if (prop->type == PropertyTagTypeByte && prop->length == 1) value = *(BYTE *)prop->value; else if (prop->type == PropertyTagTypeShort && prop->length == 2) value = *(SHORT *)prop->value; heap_free(prop); } IWICMetadataReader_Release(reader); } } } IWICMetadataBlockReader_Release(block_reader); } return value; } static void gif_metadata_reader(GpBitmap *bitmap, IWICBitmapDecoder *decoder, UINT active_frame) { HRESULT hr; IWICBitmapFrameDecode *frame; IWICMetadataBlockReader *block_reader; IWICMetadataReader *reader; UINT frame_count, block_count, i; PropertyItem *delay = NULL, *comment = NULL, *background = NULL; PropertyItem *transparent_idx = NULL, *loop = NULL, *palette = NULL; IWICBitmapDecoder_GetFrameCount(decoder, &frame_count); if (frame_count > 1) { delay = heap_alloc_zero(sizeof(*delay) + frame_count * sizeof(LONG)); if (delay) { LONG *value; delay->type = PropertyTagTypeLong; delay->id = PropertyTagFrameDelay; delay->length = frame_count * sizeof(LONG); delay->value = delay + 1; value = delay->value; for (i = 0; i < frame_count; i++) { hr = IWICBitmapDecoder_GetFrame(decoder, i, &frame); if (hr == S_OK) { value[i] = get_gif_frame_property(frame, &GUID_MetadataFormatGCE, L"Delay"); IWICBitmapFrameDecode_Release(frame); } else value[i] = 0; } } } hr = IWICBitmapDecoder_QueryInterface(decoder, &IID_IWICMetadataBlockReader, (void **)&block_reader); if (hr == S_OK) { hr = IWICMetadataBlockReader_GetCount(block_reader, &block_count); if (hr == S_OK) { for (i = 0; i < block_count; i++) { hr = IWICMetadataBlockReader_GetReaderByIndex(block_reader, i, &reader); if (hr == S_OK) { if (!comment) comment = get_gif_comment(reader); if (frame_count > 1 && !loop) loop = get_gif_loopcount(reader); if (!background) background = get_gif_background(reader); if (!palette) palette = get_gif_palette(decoder, reader); IWICMetadataReader_Release(reader); } } } IWICMetadataBlockReader_Release(block_reader); } if (frame_count > 1 && !loop) { loop = heap_alloc_zero(sizeof(*loop) + sizeof(SHORT)); if (loop) { loop->type = PropertyTagTypeShort; loop->id = PropertyTagLoopCount; loop->length = sizeof(SHORT); loop->value = loop + 1; *(SHORT *)loop->value = 1; } } if (delay) add_property(bitmap, delay); if (comment) add_property(bitmap, comment); if (loop) add_property(bitmap, loop); if (palette) add_property(bitmap, palette); if (background) add_property(bitmap, background); heap_free(delay); heap_free(comment); heap_free(loop); heap_free(palette); heap_free(background); /* Win7 gdiplus always returns transparent color index from frame 0 */ hr = IWICBitmapDecoder_GetFrame(decoder, 0, &frame); if (hr != S_OK) return; hr = IWICBitmapFrameDecode_QueryInterface(frame, &IID_IWICMetadataBlockReader, (void **)&block_reader); if (hr == S_OK) { hr = IWICMetadataBlockReader_GetCount(block_reader, &block_count); if (hr == S_OK) { for (i = 0; i < block_count; i++) { hr = IWICMetadataBlockReader_GetReaderByIndex(block_reader, i, &reader); if (hr == S_OK) { if (!transparent_idx) transparent_idx = get_gif_transparent_idx(reader); IWICMetadataReader_Release(reader); } } } IWICMetadataBlockReader_Release(block_reader); } if (transparent_idx) add_property(bitmap, transparent_idx); heap_free(transparent_idx); IWICBitmapFrameDecode_Release(frame); } static PropertyItem* create_prop(PROPID propid, PROPVARIANT* value) { PropertyItem *item = NULL; UINT item_size = propvariant_size(value); if (item_size) { item_size += sizeof(*item); item = heap_alloc_zero(item_size); if (propvariant_to_item(value, item, item_size, propid) != Ok) { heap_free(item); item = NULL; } } return item; } static ULONG get_ulong_by_index(IWICMetadataReader* reader, ULONG index) { PROPVARIANT value; HRESULT hr; ULONG result=0; hr = IWICMetadataReader_GetValueByIndex(reader, index, NULL, NULL, &value); if (SUCCEEDED(hr)) { switch (value.vt) { case VT_UI4: result = value.u.ulVal; break; default: ERR("unhandled case %u\n", value.vt); break; } PropVariantClear(&value); } return result; } static void png_metadata_reader(GpBitmap *bitmap, IWICBitmapDecoder *decoder, UINT active_frame) { HRESULT hr; IWICBitmapFrameDecode *frame; IWICMetadataBlockReader *block_reader; IWICMetadataReader *reader; UINT block_count, i, j; struct keyword_info { const char* name; PROPID propid; BOOL seen; } keywords[] = { { "Title", PropertyTagImageTitle }, { "Author", PropertyTagArtist }, { "Description", PropertyTagImageDescription }, { "Copyright", PropertyTagCopyright }, { "Software", PropertyTagSoftwareUsed }, { "Source", PropertyTagEquipModel }, { "Comment", PropertyTagExifUserComment }, }; BOOL seen_gamma=FALSE, seen_whitepoint=FALSE, seen_chrm=FALSE; hr = IWICBitmapDecoder_GetFrame(decoder, active_frame, &frame); if (hr != S_OK) return; hr = IWICBitmapFrameDecode_QueryInterface(frame, &IID_IWICMetadataBlockReader, (void **)&block_reader); if (hr == S_OK) { hr = IWICMetadataBlockReader_GetCount(block_reader, &block_count); if (hr == S_OK) { for (i = 0; i < block_count; i++) { hr = IWICMetadataBlockReader_GetReaderByIndex(block_reader, i, &reader); if (hr == S_OK) { GUID format; hr = IWICMetadataReader_GetMetadataFormat(reader, &format); if (SUCCEEDED(hr) && IsEqualGUID(&GUID_MetadataFormatChunktEXt, &format)) { PROPVARIANT name, value; PropertyItem* item; hr = IWICMetadataReader_GetValueByIndex(reader, 0, NULL, &name, &value); if (SUCCEEDED(hr)) { if (name.vt == VT_LPSTR) { for (j = 0; j < ARRAY_SIZE(keywords); j++) if (!strcmp(keywords[j].name, name.u.pszVal)) break; if (j < ARRAY_SIZE(keywords) && !keywords[j].seen) { keywords[j].seen = TRUE; item = create_prop(keywords[j].propid, &value); if (item) add_property(bitmap, item); heap_free(item); } } PropVariantClear(&name); PropVariantClear(&value); } } else if (SUCCEEDED(hr) && IsEqualGUID(&GUID_MetadataFormatChunkgAMA, &format)) { PropertyItem* item; if (!seen_gamma) { item = heap_alloc_zero(sizeof(PropertyItem) + sizeof(ULONG) * 2); if (item) { ULONG *rational; item->length = sizeof(ULONG) * 2; item->type = PropertyTagTypeRational; item->id = PropertyTagGamma; rational = item->value = item + 1; rational[0] = 100000; rational[1] = get_ulong_by_index(reader, 0); add_property(bitmap, item); seen_gamma = TRUE; heap_free(item); } } } else if (SUCCEEDED(hr) && IsEqualGUID(&GUID_MetadataFormatChunkcHRM, &format)) { PropertyItem* item; if (!seen_whitepoint) { item = GdipAlloc(sizeof(PropertyItem) + sizeof(ULONG) * 4); if (item) { ULONG *rational; item->length = sizeof(ULONG) * 4; item->type = PropertyTagTypeRational; item->id = PropertyTagWhitePoint; rational = item->value = item + 1; rational[0] = get_ulong_by_index(reader, 0); rational[1] = 100000; rational[2] = get_ulong_by_index(reader, 1); rational[3] = 100000; add_property(bitmap, item); seen_whitepoint = TRUE; GdipFree(item); } } if (!seen_chrm) { item = GdipAlloc(sizeof(PropertyItem) + sizeof(ULONG) * 12); if (item) { ULONG *rational; item->length = sizeof(ULONG) * 12; item->type = PropertyTagTypeRational; item->id = PropertyTagPrimaryChromaticities; rational = item->value = item + 1; rational[0] = get_ulong_by_index(reader, 2); rational[1] = 100000; rational[2] = get_ulong_by_index(reader, 3); rational[3] = 100000; rational[4] = get_ulong_by_index(reader, 4); rational[5] = 100000; rational[6] = get_ulong_by_index(reader, 5); rational[7] = 100000; rational[8] = get_ulong_by_index(reader, 6); rational[9] = 100000; rational[10] = get_ulong_by_index(reader, 7); rational[11] = 100000; add_property(bitmap, item); seen_chrm = TRUE; GdipFree(item); } } } IWICMetadataReader_Release(reader); } } } IWICMetadataBlockReader_Release(block_reader); } IWICBitmapFrameDecode_Release(frame); } static GpStatus initialize_decoder_wic(IStream *stream, REFGUID container, IWICBitmapDecoder **decoder) { IWICImagingFactory *factory; HRESULT hr; TRACE("%p,%s\n", stream, wine_dbgstr_guid(container)); hr = WICCreateImagingFactory_Proxy(WINCODEC_SDK_VERSION, &factory); if (FAILED(hr)) return hresult_to_status(hr); hr = IWICImagingFactory_CreateDecoder(factory, container, NULL, decoder); IWICImagingFactory_Release(factory); if (FAILED(hr)) return hresult_to_status(hr); hr = IWICBitmapDecoder_Initialize(*decoder, stream, WICDecodeMetadataCacheOnLoad); if (FAILED(hr)) { IWICBitmapDecoder_Release(*decoder); return hresult_to_status(hr); } return Ok; } typedef void (*metadata_reader_func)(GpBitmap *bitmap, IWICBitmapDecoder *decoder, UINT frame); static GpStatus decode_frame_wic(IWICBitmapDecoder *decoder, BOOL force_conversion, UINT active_frame, metadata_reader_func metadata_reader, GpImage **image) { GpStatus status=Ok; GpBitmap *bitmap; HRESULT hr; IWICBitmapFrameDecode *frame; IWICBitmapSource *source=NULL; IWICMetadataBlockReader *block_reader; WICPixelFormatGUID wic_format; PixelFormat gdip_format=0; ColorPalette *palette = NULL; WICBitmapPaletteType palette_type = WICBitmapPaletteTypeFixedHalftone256; int i; UINT width, height, frame_count; BitmapData lockeddata; WICRect wrc; TRACE("%p,%u,%p\n", decoder, active_frame, image); IWICBitmapDecoder_GetFrameCount(decoder, &frame_count); hr = IWICBitmapDecoder_GetFrame(decoder, active_frame, &frame); if (SUCCEEDED(hr)) /* got frame */ { hr = IWICBitmapFrameDecode_GetPixelFormat(frame, &wic_format); if (SUCCEEDED(hr)) { if (!force_conversion) { for (i=0; pixel_formats[i].wic_format; i++) { if (IsEqualGUID(&wic_format, pixel_formats[i].wic_format)) { source = (IWICBitmapSource*)frame; IWICBitmapSource_AddRef(source); gdip_format = pixel_formats[i].gdip_format; palette_type = pixel_formats[i].palette_type; break; } } } if (!source) { /* unknown format; fall back on 32bppARGB */ hr = WICConvertBitmapSource(&GUID_WICPixelFormat32bppBGRA, (IWICBitmapSource*)frame, &source); gdip_format = PixelFormat32bppARGB; } TRACE("%s => %#x\n", wine_dbgstr_guid(&wic_format), gdip_format); } if (SUCCEEDED(hr)) /* got source */ { hr = IWICBitmapSource_GetSize(source, &width, &height); if (SUCCEEDED(hr)) status = GdipCreateBitmapFromScan0(width, height, 0, gdip_format, NULL, &bitmap); if (SUCCEEDED(hr) && status == Ok) /* created bitmap */ { status = GdipBitmapLockBits(bitmap, NULL, ImageLockModeWrite, gdip_format, &lockeddata); if (status == Ok) /* locked bitmap */ { wrc.X = 0; wrc.Width = width; wrc.Height = 1; for (i=0; iimage; else { *image = NULL; GdipDisposeImage(&bitmap->image); } if (SUCCEEDED(hr) && status == Ok) { double dpix, dpiy; hr = IWICBitmapSource_GetResolution(source, &dpix, &dpiy); if (SUCCEEDED(hr)) { bitmap->image.xres = dpix; bitmap->image.yres = dpiy; } hr = S_OK; } } IWICBitmapSource_Release(source); } if (SUCCEEDED(hr) && status == Ok) { bitmap->metadata_reader = NULL; if (metadata_reader) metadata_reader(bitmap, decoder, active_frame); else if (IWICBitmapFrameDecode_QueryInterface(frame, &IID_IWICMetadataBlockReader, (void **)&block_reader) == S_OK) { UINT block_count = 0; if (IWICMetadataBlockReader_GetCount(block_reader, &block_count) == S_OK && block_count) IWICMetadataBlockReader_GetReaderByIndex(block_reader, 0, &bitmap->metadata_reader); IWICMetadataBlockReader_Release(block_reader); } palette = get_palette(frame, palette_type); IWICBitmapFrameDecode_Release(frame); } } if (FAILED(hr) && status == Ok) status = hresult_to_status(hr); if (status == Ok) { /* Native GDI+ used to be smarter, but since Win7 it just sets these flags. */ bitmap->image.flags |= ImageFlagsReadOnly|ImageFlagsHasRealPixelSize|ImageFlagsHasRealDPI; if (IsEqualGUID(&wic_format, &GUID_WICPixelFormat2bppGray) || IsEqualGUID(&wic_format, &GUID_WICPixelFormat4bppGray) || IsEqualGUID(&wic_format, &GUID_WICPixelFormat8bppGray) || IsEqualGUID(&wic_format, &GUID_WICPixelFormat16bppGray)) bitmap->image.flags |= ImageFlagsColorSpaceGRAY; else bitmap->image.flags |= ImageFlagsColorSpaceRGB; bitmap->image.frame_count = frame_count; bitmap->image.current_frame = active_frame; bitmap->image.decoder = decoder; IWICBitmapDecoder_AddRef(decoder); if (palette) { heap_free(bitmap->image.palette); bitmap->image.palette = palette; } else { if (IsEqualGUID(&wic_format, &GUID_WICPixelFormatBlackWhite)) bitmap->image.palette->Flags = 0; } TRACE("=> %p\n", *image); } return status; } static GpStatus decode_image_wic(IStream *stream, REFGUID container, metadata_reader_func metadata_reader, GpImage **image) { IWICBitmapDecoder *decoder; GpStatus status; status = initialize_decoder_wic(stream, container, &decoder); if(status != Ok) return status; status = decode_frame_wic(decoder, FALSE, 0, metadata_reader, image); IWICBitmapDecoder_Release(decoder); return status; } static GpStatus select_frame_wic(GpImage *image, UINT active_frame) { GpImage *new_image; GpStatus status; status = decode_frame_wic(image->decoder, FALSE, active_frame, NULL, &new_image); if(status != Ok) return status; new_image->busy = image->busy; memcpy(&new_image->format, &image->format, sizeof(GUID)); new_image->encoder = image->encoder; image->encoder = NULL; free_image_data(image); if (image->type == ImageTypeBitmap) *(GpBitmap *)image = *(GpBitmap *)new_image; else if (image->type == ImageTypeMetafile) *(GpMetafile *)image = *(GpMetafile *)new_image; new_image->type = ~0; heap_free(new_image); return Ok; } static HRESULT get_gif_frame_rect(IWICBitmapFrameDecode *frame, UINT *left, UINT *top, UINT *width, UINT *height) { *left = get_gif_frame_property(frame, &GUID_MetadataFormatIMD, L"Left"); *top = get_gif_frame_property(frame, &GUID_MetadataFormatIMD, L"Top"); return IWICBitmapFrameDecode_GetSize(frame, width, height); } static HRESULT blit_gif_frame(GpBitmap *bitmap, IWICBitmapFrameDecode *frame, BOOL first_frame) { UINT i, j, left, top, width, height; IWICBitmapSource *source; BYTE *new_bits; HRESULT hr; hr = get_gif_frame_rect(frame, &left, &top, &width, &height); if(FAILED(hr)) return hr; hr = WICConvertBitmapSource(&GUID_WICPixelFormat32bppBGRA, (IWICBitmapSource*)frame, &source); if(FAILED(hr)) return hr; new_bits = heap_alloc_zero(width*height*4); if(!new_bits) return E_OUTOFMEMORY; hr = IWICBitmapSource_CopyPixels(source, NULL, width*4, width*height*4, new_bits); IWICBitmapSource_Release(source); if(FAILED(hr)) { heap_free(new_bits); return hr; } for(i=0; iheight; i++) { for(j=0; jwidth; j++) { DWORD *src = (DWORD*)(new_bits+i*width*4+j*4); DWORD *dst = (DWORD*)(bitmap->bits+(i+top)*bitmap->stride+(j+left)*4); if(first_frame || *src>>24 != 0) *dst = *src; } } heap_free(new_bits); return hr; } static DWORD get_gif_background_color(GpBitmap *bitmap) { BYTE bgcolor_idx = 0; UINT i; for(i=0; iprop_count; i++) { if(bitmap->prop_item[i].id == PropertyTagIndexBackground) { bgcolor_idx = *(BYTE*)bitmap->prop_item[i].value; break; } } for(i=0; iprop_count; i++) { if(bitmap->prop_item[i].id == PropertyTagIndexTransparent) { BYTE transparent_idx; transparent_idx = *(BYTE*)bitmap->prop_item[i].value; if(transparent_idx == bgcolor_idx) return 0; } } for(i=0; iprop_count; i++) { if(bitmap->prop_item[i].id == PropertyTagGlobalPalette) { if(bitmap->prop_item[i].length/3 > bgcolor_idx) { BYTE *color = ((BYTE*)bitmap->prop_item[i].value)+bgcolor_idx*3; return color[2] + (color[1]<<8) + (color[0]<<16) + (0xffu<<24); } break; } } FIXME("can't get gif background color\n"); return 0xffffffff; } static GpStatus select_frame_gif(GpImage* image, UINT active_frame) { GpBitmap *bitmap = (GpBitmap*)image; IWICBitmapFrameDecode *frame; int cur_frame=0, disposal; BOOL bgcolor_set = FALSE; DWORD bgcolor = 0; HRESULT hr; if(active_frame > image->current_frame) { hr = IWICBitmapDecoder_GetFrame(bitmap->image.decoder, image->current_frame, &frame); if(FAILED(hr)) return hresult_to_status(hr); disposal = get_gif_frame_property(frame, &GUID_MetadataFormatGCE, L"Disposal"); IWICBitmapFrameDecode_Release(frame); if(disposal == GIF_DISPOSE_RESTORE_TO_BKGND) cur_frame = image->current_frame; else if(disposal != GIF_DISPOSE_RESTORE_TO_PREV) cur_frame = image->current_frame+1; } while(cur_frame != active_frame) { hr = IWICBitmapDecoder_GetFrame(bitmap->image.decoder, cur_frame, &frame); if(FAILED(hr)) return hresult_to_status(hr); disposal = get_gif_frame_property(frame, &GUID_MetadataFormatGCE, L"Disposal"); if(disposal==GIF_DISPOSE_UNSPECIFIED || disposal==GIF_DISPOSE_DO_NOT_DISPOSE) { hr = blit_gif_frame(bitmap, frame, cur_frame==0); if(FAILED(hr)) return hresult_to_status(hr); }else if(disposal == GIF_DISPOSE_RESTORE_TO_BKGND) { UINT left, top, width, height, i, j; if(!bgcolor_set) { bgcolor = get_gif_background_color(bitmap); bgcolor_set = TRUE; } hr = get_gif_frame_rect(frame, &left, &top, &width, &height); if(FAILED(hr)) return hresult_to_status(hr); for(i=top; iheight; i++) { DWORD *bits = (DWORD*)(bitmap->bits+i*bitmap->stride); for(j=left; jwidth; j++) bits[j] = bgcolor; } } IWICBitmapFrameDecode_Release(frame); cur_frame++; } hr = IWICBitmapDecoder_GetFrame(bitmap->image.decoder, active_frame, &frame); if(FAILED(hr)) return hresult_to_status(hr); hr = blit_gif_frame(bitmap, frame, cur_frame==0); IWICBitmapFrameDecode_Release(frame); if(FAILED(hr)) return hresult_to_status(hr); image->current_frame = active_frame; return Ok; } static GpStatus decode_image_icon(IStream* stream, GpImage **image) { return decode_image_wic(stream, &GUID_ContainerFormatIco, NULL, image); } static GpStatus decode_image_bmp(IStream* stream, GpImage **image) { GpStatus status; GpBitmap* bitmap; status = decode_image_wic(stream, &GUID_ContainerFormatBmp, NULL, image); bitmap = (GpBitmap*)*image; if (status == Ok && bitmap->format == PixelFormat32bppARGB) { /* WIC supports bmp files with alpha, but gdiplus does not */ bitmap->format = PixelFormat32bppRGB; } return status; } static GpStatus decode_image_jpeg(IStream* stream, GpImage **image) { return decode_image_wic(stream, &GUID_ContainerFormatJpeg, NULL, image); } static BOOL has_png_transparency_chunk(IStream *pIStream) { LARGE_INTEGER seek; BOOL has_tRNS = FALSE; HRESULT hr; BYTE header[8]; seek.QuadPart = 8; do { ULARGE_INTEGER chunk_start; ULONG bytesread, chunk_size; hr = IStream_Seek(pIStream, seek, STREAM_SEEK_SET, &chunk_start); if (FAILED(hr)) break; hr = IStream_Read(pIStream, header, 8, &bytesread); if (FAILED(hr) || bytesread < 8) break; chunk_size = (header[0] << 24) | (header[1] << 16) | (header[2] << 8) | header[3]; if (!memcmp(&header[4], "tRNS", 4)) { has_tRNS = TRUE; break; } seek.QuadPart = chunk_start.QuadPart + chunk_size + 12; /* skip data and CRC */ } while (memcmp(&header[4], "IDAT", 4) && memcmp(&header[4], "IEND", 4)); TRACE("has_tRNS = %d\n", has_tRNS); return has_tRNS; } static GpStatus decode_image_png(IStream* stream, GpImage **image) { IWICBitmapDecoder *decoder; IWICBitmapFrameDecode *frame; GpStatus status; HRESULT hr; GUID format; BOOL force_conversion = FALSE; status = initialize_decoder_wic(stream, &GUID_ContainerFormatPng, &decoder); if (status != Ok) return status; hr = IWICBitmapDecoder_GetFrame(decoder, 0, &frame); if (hr == S_OK) { hr = IWICBitmapFrameDecode_GetPixelFormat(frame, &format); if (hr == S_OK) { if (IsEqualGUID(&format, &GUID_WICPixelFormat8bppGray)) force_conversion = TRUE; else if ((IsEqualGUID(&format, &GUID_WICPixelFormat8bppIndexed) || IsEqualGUID(&format, &GUID_WICPixelFormat4bppIndexed) || IsEqualGUID(&format, &GUID_WICPixelFormat2bppIndexed) || IsEqualGUID(&format, &GUID_WICPixelFormat1bppIndexed) || IsEqualGUID(&format, &GUID_WICPixelFormat24bppBGR)) && has_png_transparency_chunk(stream)) force_conversion = TRUE; status = decode_frame_wic(decoder, force_conversion, 0, png_metadata_reader, image); } else status = hresult_to_status(hr); IWICBitmapFrameDecode_Release(frame); } else status = hresult_to_status(hr); IWICBitmapDecoder_Release(decoder); return status; } static GpStatus decode_image_gif(IStream* stream, GpImage **image) { IWICBitmapDecoder *decoder; UINT frame_count; GpStatus status; HRESULT hr; status = initialize_decoder_wic(stream, &GUID_ContainerFormatGif, &decoder); if(status != Ok) return status; hr = IWICBitmapDecoder_GetFrameCount(decoder, &frame_count); if(FAILED(hr)) return hresult_to_status(hr); status = decode_frame_wic(decoder, frame_count > 1, 0, gif_metadata_reader, image); IWICBitmapDecoder_Release(decoder); if(status != Ok) return status; if(frame_count > 1) { heap_free((*image)->palette); (*image)->palette = NULL; } return Ok; } static GpStatus decode_image_tiff(IStream* stream, GpImage **image) { return decode_image_wic(stream, &GUID_ContainerFormatTiff, NULL, image); } static GpStatus load_wmf(IStream *stream, GpMetafile **metafile) { WmfPlaceableFileHeader pfh; BOOL is_placeable = FALSE; LARGE_INTEGER seek; GpStatus status; METAHEADER mh; HMETAFILE hmf; HRESULT hr; UINT size; void *buf; hr = IStream_Read(stream, &mh, sizeof(mh), &size); if (hr != S_OK || size != sizeof(mh)) return GenericError; if (((WmfPlaceableFileHeader *)&mh)->Key == WMF_PLACEABLE_KEY) { seek.QuadPart = 0; hr = IStream_Seek(stream, seek, STREAM_SEEK_SET, NULL); if (FAILED(hr)) return hresult_to_status(hr); hr = IStream_Read(stream, &pfh, sizeof(pfh), &size); if (hr != S_OK || size != sizeof(pfh)) return GenericError; hr = IStream_Read(stream, &mh, sizeof(mh), &size); if (hr != S_OK || size != sizeof(mh)) return GenericError; is_placeable = TRUE; } seek.QuadPart = is_placeable ? sizeof(pfh) : 0; hr = IStream_Seek(stream, seek, STREAM_SEEK_SET, NULL); if (FAILED(hr)) return hresult_to_status(hr); buf = heap_alloc(mh.mtSize * 2); if (!buf) return OutOfMemory; hr = IStream_Read(stream, buf, mh.mtSize * 2, &size); if (hr != S_OK || size != mh.mtSize * 2) { heap_free(buf); return GenericError; } hmf = SetMetaFileBitsEx(mh.mtSize * 2, buf); heap_free(buf); if (!hmf) return GenericError; status = GdipCreateMetafileFromWmf(hmf, TRUE, is_placeable ? &pfh : NULL, metafile); if (status != Ok) DeleteMetaFile(hmf); return status; } static GpStatus decode_image_wmf(IStream *stream, GpImage **image) { GpMetafile *metafile; GpStatus status; TRACE("%p %p\n", stream, image); if (!stream || !image) return InvalidParameter; status = load_wmf(stream, &metafile); if (status != Ok) { TRACE("Could not load metafile\n"); return status; } *image = (GpImage *)metafile; TRACE("<-- %p\n", *image); return Ok; } static GpStatus load_emf(IStream *stream, GpMetafile **metafile) { LARGE_INTEGER seek; ENHMETAHEADER emh; HENHMETAFILE hemf; GpStatus status; HRESULT hr; UINT size; void *buf; hr = IStream_Read(stream, &emh, sizeof(emh), &size); if (hr != S_OK || size != sizeof(emh) || emh.dSignature != ENHMETA_SIGNATURE) return GenericError; seek.QuadPart = 0; hr = IStream_Seek(stream, seek, STREAM_SEEK_SET, NULL); if (FAILED(hr)) return hresult_to_status(hr); buf = heap_alloc(emh.nBytes); if (!buf) return OutOfMemory; hr = IStream_Read(stream, buf, emh.nBytes, &size); if (hr != S_OK || size != emh.nBytes) { heap_free(buf); return GenericError; } hemf = SetEnhMetaFileBits(emh.nBytes, buf); heap_free(buf); if (!hemf) return GenericError; status = GdipCreateMetafileFromEmf(hemf, TRUE, metafile); if (status != Ok) DeleteEnhMetaFile(hemf); return status; } static GpStatus decode_image_emf(IStream *stream, GpImage **image) { GpMetafile *metafile; GpStatus status; TRACE("%p %p\n", stream, image); if (!stream || !image) return InvalidParameter; status = load_emf(stream, &metafile); if (status != Ok) { TRACE("Could not load metafile\n"); return status; } *image = (GpImage *)metafile; TRACE("<-- %p\n", *image); return Ok; } typedef GpStatus (*encode_image_func)(GpImage *image, IStream* stream, GDIPCONST EncoderParameters* params); typedef GpStatus (*decode_image_func)(IStream *stream, GpImage **image); typedef GpStatus (*select_image_func)(GpImage *image, UINT active_frame); typedef struct image_codec { ImageCodecInfo info; encode_image_func encode_func; decode_image_func decode_func; select_image_func select_func; } image_codec; typedef enum { BMP, JPEG, GIF, TIFF, EMF, WMF, PNG, ICO, NUM_CODECS } ImageFormat; static const struct image_codec codecs[NUM_CODECS]; static GpStatus get_decoder_info(IStream* stream, const struct image_codec **result) { BYTE signature[8]; const BYTE *pattern, *mask; LARGE_INTEGER seek; HRESULT hr; UINT bytesread; int i; DWORD j, sig; /* seek to the start of the stream */ seek.QuadPart = 0; hr = IStream_Seek(stream, seek, STREAM_SEEK_SET, NULL); if (FAILED(hr)) return hresult_to_status(hr); /* read the first 8 bytes */ /* FIXME: This assumes all codecs have signatures <= 8 bytes in length */ hr = IStream_Read(stream, signature, 8, &bytesread); if (FAILED(hr)) return hresult_to_status(hr); if (hr == S_FALSE || bytesread == 0) return GenericError; for (i = 0; i < NUM_CODECS; i++) { if ((codecs[i].info.Flags & ImageCodecFlagsDecoder) && bytesread >= codecs[i].info.SigSize) { for (sig=0; sigformat)) { *result = &codecs[i]; return Ok; } } TRACE("no match for format: %s\n", wine_dbgstr_guid(&image->format)); return GenericError; } GpStatus WINGDIPAPI GdipImageSelectActiveFrame(GpImage *image, GDIPCONST GUID *dimensionID, UINT frame) { GpStatus stat; const struct image_codec *codec = NULL; BOOL unlock; TRACE("(%p,%s,%u)\n", image, debugstr_guid(dimensionID), frame); if (!image || !dimensionID) return InvalidParameter; if(!image_lock(image, &unlock)) return ObjectBusy; if (frame >= image->frame_count) { WARN("requested frame %u, but image has only %u\n", frame, image->frame_count); image_unlock(image, unlock); return InvalidParameter; } if (image->type != ImageTypeBitmap && image->type != ImageTypeMetafile) { WARN("invalid image type %d\n", image->type); image_unlock(image, unlock); return InvalidParameter; } if (image->current_frame == frame) { image_unlock(image, unlock); return Ok; } if (!image->decoder) { TRACE("image doesn't have an associated decoder\n"); image_unlock(image, unlock); return Ok; } /* choose an appropriate image decoder */ stat = get_decoder_info_from_image(image, &codec); if (stat != Ok) { WARN("can't find decoder info\n"); image_unlock(image, unlock); return stat; } stat = codec->select_func(image, frame); image_unlock(image, unlock); return stat; } GpStatus WINGDIPAPI GdipLoadImageFromStream(IStream *stream, GpImage **image) { GpStatus stat; LARGE_INTEGER seek; HRESULT hr; const struct image_codec *codec=NULL; TRACE("%p %p\n", stream, image); if (!stream || !image) return InvalidParameter; /* choose an appropriate image decoder */ stat = get_decoder_info(stream, &codec); if (stat != Ok) return stat; /* seek to the start of the stream */ seek.QuadPart = 0; hr = IStream_Seek(stream, seek, STREAM_SEEK_SET, NULL); if (FAILED(hr)) return hresult_to_status(hr); /* call on the image decoder to do the real work */ stat = codec->decode_func(stream, image); /* take note of the original data format */ if (stat == Ok) { memcpy(&(*image)->format, &codec->info.FormatID, sizeof(GUID)); return Ok; } return stat; } /* FIXME: no ICM */ GpStatus WINGDIPAPI GdipLoadImageFromStreamICM(IStream* stream, GpImage **image) { TRACE("%p %p\n", stream, image); return GdipLoadImageFromStream(stream, image); } GpStatus WINGDIPAPI GdipRemovePropertyItem(GpImage *image, PROPID propId) { static int calls; TRACE("(%p,%u)\n", image, propId); if(!image) return InvalidParameter; if(!(calls++)) FIXME("not implemented\n"); return NotImplemented; } GpStatus WINGDIPAPI GdipSetPropertyItem(GpImage *image, GDIPCONST PropertyItem* item) { static int calls; if (!image || !item) return InvalidParameter; TRACE("(%p,%p:%#x,%u,%u,%p)\n", image, item, item->id, item->type, item->length, item->value); if(!(calls++)) FIXME("not implemented\n"); return Ok; } GpStatus WINGDIPAPI GdipSaveImageToFile(GpImage *image, GDIPCONST WCHAR* filename, GDIPCONST CLSID *clsidEncoder, GDIPCONST EncoderParameters *encoderParams) { GpStatus stat; IStream *stream; TRACE("%p (%s) %p %p\n", image, debugstr_w(filename), clsidEncoder, encoderParams); if (!image || !filename|| !clsidEncoder) return InvalidParameter; /* this might release an old file stream held by the encoder so we can re-create it below */ terminate_encoder_wic(image); stat = GdipCreateStreamOnFile(filename, GENERIC_WRITE, &stream); if (stat != Ok) return GenericError; stat = GdipSaveImageToStream(image, stream, clsidEncoder, encoderParams); IStream_Release(stream); return stat; } /************************************************************************* * Encoding functions - * These functions encode an image in different image file formats. */ static GpStatus initialize_encoder_wic(IStream *stream, REFGUID container, GpImage *image) { IWICImagingFactory *factory; HRESULT hr; TRACE("%p,%s\n", stream, wine_dbgstr_guid(container)); terminate_encoder_wic(image); /* terminate previous encoder if it exists */ hr = WICCreateImagingFactory_Proxy(WINCODEC_SDK_VERSION, &factory); if (FAILED(hr)) return hresult_to_status(hr); hr = IWICImagingFactory_CreateEncoder(factory, container, NULL, &image->encoder); IWICImagingFactory_Release(factory); if (FAILED(hr)) { image->encoder = NULL; return hresult_to_status(hr); } hr = IWICBitmapEncoder_Initialize(image->encoder, stream, WICBitmapEncoderNoCache); if (FAILED(hr)) { IWICBitmapEncoder_Release(image->encoder); image->encoder = NULL; return hresult_to_status(hr); } return Ok; } GpStatus terminate_encoder_wic(GpImage *image) { if (!image->encoder) return Ok; else { HRESULT hr = IWICBitmapEncoder_Commit(image->encoder); IWICBitmapEncoder_Release(image->encoder); image->encoder = NULL; return hresult_to_status(hr); } } static GpStatus encode_frame_wic(IWICBitmapEncoder *encoder, GpImage *image) { GpStatus stat; GpBitmap *bitmap; IWICBitmapFrameEncode *frameencode; IPropertyBag2 *encoderoptions; HRESULT hr; UINT width, height; PixelFormat gdipformat=0; const WICPixelFormatGUID *desired_wicformat; WICPixelFormatGUID wicformat; GpRect rc; BitmapData lockeddata; UINT i; if (image->type != ImageTypeBitmap) return GenericError; bitmap = (GpBitmap*)image; GdipGetImageWidth(image, &width); GdipGetImageHeight(image, &height); rc.X = 0; rc.Y = 0; rc.Width = width; rc.Height = height; hr = IWICBitmapEncoder_CreateNewFrame(encoder, &frameencode, &encoderoptions); if (SUCCEEDED(hr)) /* created frame */ { hr = IWICBitmapFrameEncode_Initialize(frameencode, encoderoptions); if (SUCCEEDED(hr)) hr = IWICBitmapFrameEncode_SetSize(frameencode, width, height); if (SUCCEEDED(hr)) hr = IWICBitmapFrameEncode_SetResolution(frameencode, image->xres, image->yres); if (SUCCEEDED(hr)) { for (i=0; pixel_formats[i].wic_format; i++) { if (pixel_formats[i].gdip_format == bitmap->format) { desired_wicformat = pixel_formats[i].wic_format; gdipformat = bitmap->format; break; } } if (!gdipformat) { desired_wicformat = &GUID_WICPixelFormat32bppBGRA; gdipformat = PixelFormat32bppARGB; } memcpy(&wicformat, desired_wicformat, sizeof(GUID)); hr = IWICBitmapFrameEncode_SetPixelFormat(frameencode, &wicformat); } if (SUCCEEDED(hr) && !IsEqualGUID(desired_wicformat, &wicformat)) { /* Encoder doesn't support this bitmap's format. */ gdipformat = 0; for (i=0; pixel_formats[i].wic_format; i++) { if (IsEqualGUID(&wicformat, pixel_formats[i].wic_format)) { gdipformat = pixel_formats[i].gdip_format; break; } } if (!gdipformat) { ERR("Cannot support encoder format %s\n", debugstr_guid(&wicformat)); hr = E_FAIL; } } if (SUCCEEDED(hr) && IsIndexedPixelFormat(gdipformat) && image->palette) hr = set_palette(frameencode, image->palette); if (SUCCEEDED(hr)) { stat = GdipBitmapLockBits(bitmap, &rc, ImageLockModeRead, gdipformat, &lockeddata); if (stat == Ok) { UINT row_size = (lockeddata.Width * PIXELFORMATBPP(gdipformat) + 7)/8; BYTE *row; /* write one row at a time in case stride is negative */ row = lockeddata.Scan0; for (i=0; iCount; param_idx++) { EncoderParameter param = params->Parameter[param_idx]; if (param.Type == EncoderParameterValueTypeLong && IsEqualCLSID(¶m.Guid, ¶m_guid)) { ULONG *value_array = (ULONG*) param.Value; for (value_idx = 0; value_idx < param.NumberOfValues; value_idx++) { if (value_array[value_idx] == val) return TRUE; } } } return FALSE; } static GpStatus encode_image_wic(GpImage *image, IStream *stream, REFGUID container, GDIPCONST EncoderParameters *params) { GpStatus status, terminate_status; if (image->type != ImageTypeBitmap) return GenericError; status = initialize_encoder_wic(stream, container, image); if (status == Ok) status = encode_frame_wic(image->encoder, image); if (!has_encoder_param_long(params, EncoderSaveFlag, EncoderValueMultiFrame)) { /* always try to terminate, but if something already failed earlier, keep the old status. */ terminate_status = terminate_encoder_wic(image); if (status == Ok) status = terminate_status; } return status; } static GpStatus encode_image_BMP(GpImage *image, IStream* stream, GDIPCONST EncoderParameters* params) { return encode_image_wic(image, stream, &GUID_ContainerFormatBmp, params); } static GpStatus encode_image_tiff(GpImage *image, IStream* stream, GDIPCONST EncoderParameters* params) { return encode_image_wic(image, stream, &GUID_ContainerFormatTiff, params); } GpStatus encode_image_png(GpImage *image, IStream* stream, GDIPCONST EncoderParameters* params) { return encode_image_wic(image, stream, &GUID_ContainerFormatPng, params); } static GpStatus encode_image_jpeg(GpImage *image, IStream* stream, GDIPCONST EncoderParameters* params) { return encode_image_wic(image, stream, &GUID_ContainerFormatJpeg, params); } static GpStatus encode_image_gif(GpImage *image, IStream* stream, GDIPCONST EncoderParameters* params) { return encode_image_wic(image, stream, &GUID_ContainerFormatGif, params); } /***************************************************************************** * GdipSaveImageToStream [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipSaveImageToStream(GpImage *image, IStream* stream, GDIPCONST CLSID* clsid, GDIPCONST EncoderParameters* params) { GpStatus stat; encode_image_func encode_image; int i; TRACE("%p, %p, %s, %p\n", image, stream, wine_dbgstr_guid(clsid), params); if(!image || !stream) return InvalidParameter; /* select correct encoder */ encode_image = NULL; for (i = 0; i < NUM_CODECS; i++) { if ((codecs[i].info.Flags & ImageCodecFlagsEncoder) && IsEqualCLSID(clsid, &codecs[i].info.Clsid)) encode_image = codecs[i].encode_func; } if (encode_image == NULL) return UnknownImageFormat; stat = encode_image(image, stream, params); return stat; } /***************************************************************************** * GdipSaveAdd [GDIPLUS.@] * * Like GdipSaveAddImage(), but encode the currently active frame of the given image into the file * or stream that is currently being encoded. */ GpStatus WINGDIPAPI GdipSaveAdd(GpImage *image, GDIPCONST EncoderParameters *params) { return GdipSaveAddImage(image, image, params); } /***************************************************************************** * GdipSaveAddImage [GDIPLUS.@] * * Encode the currently active frame of additional_image into the file or stream that is currently * being encoded by the image given in the image parameter. The first frame of a multi-frame image * must be encoded using the normal GdipSaveImageToStream() or GdipSaveImageToFile() functions, * but with the "MultiFrame" encoding parameter set. The multi-frame encoding process must be * finished after adding the last frame by calling GdipSaveAdd() with the "Flush" encoding parameter * set. */ GpStatus WINGDIPAPI GdipSaveAddImage(GpImage *image, GpImage *additional_image, GDIPCONST EncoderParameters *params) { TRACE("%p, %p, %p\n", image, additional_image, params); if (!image || !additional_image || !params) return InvalidParameter; if (!image->encoder) return Win32Error; if (has_encoder_param_long(params, EncoderSaveFlag, EncoderValueFlush)) return terminate_encoder_wic(image); else if (has_encoder_param_long(params, EncoderSaveFlag, EncoderValueFrameDimensionPage)) return encode_frame_wic(image->encoder, additional_image); else return InvalidParameter; } /***************************************************************************** * GdipGetImagePalette [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipGetImagePalette(GpImage *image, ColorPalette *palette, INT size) { INT count; TRACE("(%p,%p,%i)\n", image, palette, size); if (!image || !palette) return InvalidParameter; count = image->palette ? image->palette->Count : 0; if (size < (sizeof(UINT)*2+sizeof(ARGB)*count)) { TRACE("<-- InsufficientBuffer\n"); return InsufficientBuffer; } if (image->palette) { palette->Flags = image->palette->Flags; palette->Count = image->palette->Count; memcpy(palette->Entries, image->palette->Entries, sizeof(ARGB)*image->palette->Count); } else { palette->Flags = 0; palette->Count = 0; } return Ok; } /***************************************************************************** * GdipSetImagePalette [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipSetImagePalette(GpImage *image, GDIPCONST ColorPalette *palette) { ColorPalette *new_palette; TRACE("(%p,%p)\n", image, palette); if(!image || !palette || palette->Count > 256) return InvalidParameter; new_palette = heap_alloc_zero(2 * sizeof(UINT) + palette->Count * sizeof(ARGB)); if (!new_palette) return OutOfMemory; heap_free(image->palette); image->palette = new_palette; image->palette->Flags = palette->Flags; image->palette->Count = palette->Count; memcpy(image->palette->Entries, palette->Entries, sizeof(ARGB)*palette->Count); return Ok; } /************************************************************************* * Encoders - * Structures that represent which formats we support for encoding. */ /* ImageCodecInfo creation routines taken from libgdiplus */ static const WCHAR bmp_codecname[] = L"Built-in BMP"; static const WCHAR bmp_extension[] = L"*.BMP;*.DIB;*.RLE"; static const WCHAR bmp_mimetype[] = L"image/bmp"; static const WCHAR bmp_format[] = L"BMP"; static const BYTE bmp_sig_pattern[] = { 0x42, 0x4D }; static const BYTE bmp_sig_mask[] = { 0xFF, 0xFF }; static const WCHAR jpeg_codecname[] = L"Built-in JPEG"; static const WCHAR jpeg_extension[] = L"*.JPG;*.JPEG;*.JPE;*.JFIF"; static const WCHAR jpeg_mimetype[] = L"image/jpeg"; static const WCHAR jpeg_format[] = L"JPEG"; static const BYTE jpeg_sig_pattern[] = { 0xFF, 0xD8 }; static const BYTE jpeg_sig_mask[] = { 0xFF, 0xFF }; static const WCHAR gif_codecname[] = L"Built-in GIF"; static const WCHAR gif_extension[] = L"*.GIF"; static const WCHAR gif_mimetype[] = L"image/gif"; static const WCHAR gif_format[] = L"GIF"; static const BYTE gif_sig_pattern[12] = "GIF87aGIF89a"; static const BYTE gif_sig_mask[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }; static const WCHAR tiff_codecname[] = L"Built-in TIFF"; static const WCHAR tiff_extension[] = L"*.TIFF;*.TIF"; static const WCHAR tiff_mimetype[] = L"image/tiff"; static const WCHAR tiff_format[] = L"TIFF"; static const BYTE tiff_sig_pattern[] = {0x49,0x49,42,0,0x4d,0x4d,0,42}; static const BYTE tiff_sig_mask[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }; static const WCHAR emf_codecname[] = L"Built-in EMF"; static const WCHAR emf_extension[] = L"*.EMF"; static const WCHAR emf_mimetype[] = L"image/x-emf"; static const WCHAR emf_format[] = L"EMF"; static const BYTE emf_sig_pattern[] = { 0x01, 0x00, 0x00, 0x00 }; static const BYTE emf_sig_mask[] = { 0xFF, 0xFF, 0xFF, 0xFF }; static const WCHAR wmf_codecname[] = L"Built-in WMF"; static const WCHAR wmf_extension[] = L"*.WMF"; static const WCHAR wmf_mimetype[] = L"image/x-wmf"; static const WCHAR wmf_format[] = L"WMF"; static const BYTE wmf_sig_pattern[] = { 0xd7, 0xcd }; static const BYTE wmf_sig_mask[] = { 0xFF, 0xFF }; static const WCHAR png_codecname[] = L"Built-in PNG"; static const WCHAR png_extension[] = L"*.PNG"; static const WCHAR png_mimetype[] = L"image/png"; static const WCHAR png_format[] = L"PNG"; static const BYTE png_sig_pattern[] = { 137, 80, 78, 71, 13, 10, 26, 10, }; static const BYTE png_sig_mask[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }; static const WCHAR ico_codecname[] = L"Built-in ICO"; static const WCHAR ico_extension[] = L"*.ICO"; static const WCHAR ico_mimetype[] = L"image/x-icon"; static const WCHAR ico_format[] = L"ICO"; static const BYTE ico_sig_pattern[] = { 0x00, 0x00, 0x01, 0x00 }; static const BYTE ico_sig_mask[] = { 0xFF, 0xFF, 0xFF, 0xFF }; static const struct image_codec codecs[NUM_CODECS] = { { { /* BMP */ /* Clsid */ { 0x557cf400, 0x1a04, 0x11d3, { 0x9a, 0x73, 0x0, 0x0, 0xf8, 0x1e, 0xf3, 0x2e } }, /* FormatID */ { 0xb96b3cabU, 0x0728U, 0x11d3U, {0x9d, 0x7b, 0x00, 0x00, 0xf8, 0x1e, 0xf3, 0x2e} }, /* CodecName */ bmp_codecname, /* DllName */ NULL, /* FormatDescription */ bmp_format, /* FilenameExtension */ bmp_extension, /* MimeType */ bmp_mimetype, /* Flags */ ImageCodecFlagsEncoder | ImageCodecFlagsDecoder | ImageCodecFlagsSupportBitmap | ImageCodecFlagsBuiltin, /* Version */ 1, /* SigCount */ 1, /* SigSize */ 2, /* SigPattern */ bmp_sig_pattern, /* SigMask */ bmp_sig_mask, }, encode_image_BMP, decode_image_bmp, select_frame_wic }, { { /* JPEG */ /* Clsid */ { 0x557cf401, 0x1a04, 0x11d3, { 0x9a, 0x73, 0x0, 0x0, 0xf8, 0x1e, 0xf3, 0x2e } }, /* FormatID */ { 0xb96b3caeU, 0x0728U, 0x11d3U, {0x9d, 0x7b, 0x00, 0x00, 0xf8, 0x1e, 0xf3, 0x2e} }, /* CodecName */ jpeg_codecname, /* DllName */ NULL, /* FormatDescription */ jpeg_format, /* FilenameExtension */ jpeg_extension, /* MimeType */ jpeg_mimetype, /* Flags */ ImageCodecFlagsEncoder | ImageCodecFlagsDecoder | ImageCodecFlagsSupportBitmap | ImageCodecFlagsBuiltin, /* Version */ 1, /* SigCount */ 1, /* SigSize */ 2, /* SigPattern */ jpeg_sig_pattern, /* SigMask */ jpeg_sig_mask, }, encode_image_jpeg, decode_image_jpeg, select_frame_wic }, { { /* GIF */ /* Clsid */ { 0x557cf402, 0x1a04, 0x11d3, { 0x9a, 0x73, 0x0, 0x0, 0xf8, 0x1e, 0xf3, 0x2e } }, /* FormatID */ { 0xb96b3cb0U, 0x0728U, 0x11d3U, {0x9d, 0x7b, 0x00, 0x00, 0xf8, 0x1e, 0xf3, 0x2e} }, /* CodecName */ gif_codecname, /* DllName */ NULL, /* FormatDescription */ gif_format, /* FilenameExtension */ gif_extension, /* MimeType */ gif_mimetype, /* Flags */ ImageCodecFlagsDecoder | ImageCodecFlagsEncoder | ImageCodecFlagsSupportBitmap | ImageCodecFlagsBuiltin, /* Version */ 1, /* SigCount */ 2, /* SigSize */ 6, /* SigPattern */ gif_sig_pattern, /* SigMask */ gif_sig_mask, }, encode_image_gif, decode_image_gif, select_frame_gif }, { { /* TIFF */ /* Clsid */ { 0x557cf405, 0x1a04, 0x11d3, { 0x9a, 0x73, 0x0, 0x0, 0xf8, 0x1e, 0xf3, 0x2e } }, /* FormatID */ { 0xb96b3cb1U, 0x0728U, 0x11d3U, {0x9d, 0x7b, 0x00, 0x00, 0xf8, 0x1e, 0xf3, 0x2e} }, /* CodecName */ tiff_codecname, /* DllName */ NULL, /* FormatDescription */ tiff_format, /* FilenameExtension */ tiff_extension, /* MimeType */ tiff_mimetype, /* Flags */ ImageCodecFlagsDecoder | ImageCodecFlagsEncoder | ImageCodecFlagsSupportBitmap | ImageCodecFlagsBuiltin, /* Version */ 1, /* SigCount */ 2, /* SigSize */ 4, /* SigPattern */ tiff_sig_pattern, /* SigMask */ tiff_sig_mask, }, encode_image_tiff, decode_image_tiff, select_frame_wic }, { { /* EMF */ /* Clsid */ { 0x557cf403, 0x1a04, 0x11d3, { 0x9a, 0x73, 0x0, 0x0, 0xf8, 0x1e, 0xf3, 0x2e } }, /* FormatID */ { 0xb96b3cacU, 0x0728U, 0x11d3U, {0x9d, 0x7b, 0x00, 0x00, 0xf8, 0x1e, 0xf3, 0x2e} }, /* CodecName */ emf_codecname, /* DllName */ NULL, /* FormatDescription */ emf_format, /* FilenameExtension */ emf_extension, /* MimeType */ emf_mimetype, /* Flags */ ImageCodecFlagsDecoder | ImageCodecFlagsSupportVector | ImageCodecFlagsBuiltin, /* Version */ 1, /* SigCount */ 1, /* SigSize */ 4, /* SigPattern */ emf_sig_pattern, /* SigMask */ emf_sig_mask, }, NULL, decode_image_emf, NULL }, { { /* WMF */ /* Clsid */ { 0x557cf404, 0x1a04, 0x11d3, { 0x9a, 0x73, 0x0, 0x0, 0xf8, 0x1e, 0xf3, 0x2e } }, /* FormatID */ { 0xb96b3cadU, 0x0728U, 0x11d3U, {0x9d, 0x7b, 0x00, 0x00, 0xf8, 0x1e, 0xf3, 0x2e} }, /* CodecName */ wmf_codecname, /* DllName */ NULL, /* FormatDescription */ wmf_format, /* FilenameExtension */ wmf_extension, /* MimeType */ wmf_mimetype, /* Flags */ ImageCodecFlagsDecoder | ImageCodecFlagsSupportVector | ImageCodecFlagsBuiltin, /* Version */ 1, /* SigCount */ 1, /* SigSize */ 2, /* SigPattern */ wmf_sig_pattern, /* SigMask */ wmf_sig_mask, }, NULL, decode_image_wmf, NULL }, { { /* PNG */ /* Clsid */ { 0x557cf406, 0x1a04, 0x11d3, { 0x9a, 0x73, 0x0, 0x0, 0xf8, 0x1e, 0xf3, 0x2e } }, /* FormatID */ { 0xb96b3cafU, 0x0728U, 0x11d3U, {0x9d, 0x7b, 0x00, 0x00, 0xf8, 0x1e, 0xf3, 0x2e} }, /* CodecName */ png_codecname, /* DllName */ NULL, /* FormatDescription */ png_format, /* FilenameExtension */ png_extension, /* MimeType */ png_mimetype, /* Flags */ ImageCodecFlagsEncoder | ImageCodecFlagsDecoder | ImageCodecFlagsSupportBitmap | ImageCodecFlagsBuiltin, /* Version */ 1, /* SigCount */ 1, /* SigSize */ 8, /* SigPattern */ png_sig_pattern, /* SigMask */ png_sig_mask, }, encode_image_png, decode_image_png, select_frame_wic }, { { /* ICO */ /* Clsid */ { 0x557cf407, 0x1a04, 0x11d3, { 0x9a, 0x73, 0x0, 0x0, 0xf8, 0x1e, 0xf3, 0x2e } }, /* FormatID */ { 0xb96b3cabU, 0x0728U, 0x11d3U, {0x9d, 0x7b, 0x00, 0x00, 0xf8, 0x1e, 0xf3, 0x2e} }, /* CodecName */ ico_codecname, /* DllName */ NULL, /* FormatDescription */ ico_format, /* FilenameExtension */ ico_extension, /* MimeType */ ico_mimetype, /* Flags */ ImageCodecFlagsDecoder | ImageCodecFlagsSupportBitmap | ImageCodecFlagsBuiltin, /* Version */ 1, /* SigCount */ 1, /* SigSize */ 4, /* SigPattern */ ico_sig_pattern, /* SigMask */ ico_sig_mask, }, NULL, decode_image_icon, select_frame_wic }, }; /***************************************************************************** * GdipGetImageDecodersSize [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipGetImageDecodersSize(UINT *numDecoders, UINT *size) { int decoder_count=0; int i; TRACE("%p %p\n", numDecoders, size); if (!numDecoders || !size) return InvalidParameter; for (i=0; ibmiHeader.biSize = sizeof(BITMAPINFOHEADER); pbmi->bmiHeader.biBitCount = 0; GetDIBits(hdc, hbm, 0, 0, NULL, pbmi, DIB_RGB_COLORS); src_height = abs(pbmi->bmiHeader.biHeight); pbmi->bmiHeader.biHeight = -src_height; GetDIBits(hdc, hbm, 0, src_height, lockeddata.Scan0, pbmi, DIB_RGB_COLORS); DeleteDC(hdc); GdipBitmapUnlockBits(*bitmap, &lockeddata); } /* According to the tests hpal is ignored */ if (retval == Ok && pbmi->bmiHeader.biBitCount <= 8) { ColorPalette *palette; int i, num_palette_entries; num_palette_entries = pbmi->bmiHeader.biClrUsed; if (!num_palette_entries) num_palette_entries = 1 << pbmi->bmiHeader.biBitCount; palette = heap_alloc_zero(sizeof(ColorPalette) + sizeof(ARGB) * (num_palette_entries-1)); if (!palette) retval = OutOfMemory; else { palette->Flags = 0; palette->Count = num_palette_entries; for (i=0; iEntries[i] = 0xff000000 | pbmi->bmiColors[i].rgbRed << 16 | pbmi->bmiColors[i].rgbGreen << 8 | pbmi->bmiColors[i].rgbBlue; } retval = GdipSetImagePalette(&(*bitmap)->image, palette); } heap_free(palette); } if (retval != Ok) { GdipDisposeImage(&(*bitmap)->image); *bitmap = NULL; } } return retval; } /***************************************************************************** * GdipCreateEffect [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipCreateEffect(const GUID guid, CGpEffect **effect) { FIXME("(%s, %p): stub\n", debugstr_guid(&guid), effect); if(!effect) return InvalidParameter; *effect = NULL; return NotImplemented; } /***************************************************************************** * GdipDeleteEffect [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipDeleteEffect(CGpEffect *effect) { FIXME("(%p): stub\n", effect); /* note: According to Jose Roca's GDI+ Docs, this is not implemented * in Windows's gdiplus */ return NotImplemented; } /***************************************************************************** * GdipSetEffectParameters [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipSetEffectParameters(CGpEffect *effect, const VOID *params, const UINT size) { static int calls; TRACE("(%p,%p,%u)\n", effect, params, size); if(!(calls++)) FIXME("not implemented\n"); return NotImplemented; } /***************************************************************************** * GdipGetImageFlags [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipGetImageFlags(GpImage *image, UINT *flags) { TRACE("%p %p\n", image, flags); if(!image || !flags) return InvalidParameter; *flags = image->flags; return Ok; } GpStatus WINGDIPAPI GdipTestControl(GpTestControlEnum control, void *param) { TRACE("(%d, %p)\n", control, param); switch(control){ case TestControlForceBilinear: if(param) FIXME("TestControlForceBilinear not handled\n"); break; case TestControlNoICM: if(param) FIXME("TestControlNoICM not handled\n"); break; case TestControlGetBuildNumber: *((DWORD*)param) = 3102; break; } return Ok; } GpStatus WINGDIPAPI GdipImageForceValidation(GpImage *image) { TRACE("%p\n", image); return Ok; } /***************************************************************************** * GdipGetImageThumbnail [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipGetImageThumbnail(GpImage *image, UINT width, UINT height, GpImage **ret_image, GetThumbnailImageAbort cb, VOID * cb_data) { GpStatus stat; GpGraphics *graphics; UINT srcwidth, srcheight; TRACE("(%p %u %u %p %p %p)\n", image, width, height, ret_image, cb, cb_data); if (!image || !ret_image) return InvalidParameter; if (!width) width = 120; if (!height) height = 120; GdipGetImageWidth(image, &srcwidth); GdipGetImageHeight(image, &srcheight); stat = GdipCreateBitmapFromScan0(width, height, 0, PixelFormat32bppPARGB, NULL, (GpBitmap**)ret_image); if (stat == Ok) { stat = GdipGetImageGraphicsContext(*ret_image, &graphics); if (stat == Ok) { stat = GdipDrawImageRectRectI(graphics, image, 0, 0, width, height, 0, 0, srcwidth, srcheight, UnitPixel, NULL, NULL, NULL); GdipDeleteGraphics(graphics); } if (stat != Ok) { GdipDisposeImage(*ret_image); *ret_image = NULL; } } return stat; } /***************************************************************************** * GdipImageRotateFlip [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipImageRotateFlip(GpImage *image, RotateFlipType type) { GpBitmap *new_bitmap; GpBitmap *bitmap; int bpp, bytesperpixel; BOOL rotate_90, flip_x, flip_y; int src_x_offset, src_y_offset; LPBYTE src_origin; UINT x, y, width, height; BitmapData src_lock, dst_lock; GpStatus stat; BOOL unlock; TRACE("(%p, %u)\n", image, type); if (!image) return InvalidParameter; if (!image_lock(image, &unlock)) return ObjectBusy; rotate_90 = type&1; flip_x = (type&6) == 2 || (type&6) == 4; flip_y = (type&3) == 1 || (type&3) == 2; if (image->type != ImageTypeBitmap) { FIXME("Not implemented for type %i\n", image->type); image_unlock(image, unlock); return NotImplemented; } bitmap = (GpBitmap*)image; bpp = PIXELFORMATBPP(bitmap->format); if (bpp < 8) { FIXME("Not implemented for %i bit images\n", bpp); image_unlock(image, unlock); return NotImplemented; } if (rotate_90) { width = bitmap->height; height = bitmap->width; } else { width = bitmap->width; height = bitmap->height; } bytesperpixel = bpp/8; stat = GdipCreateBitmapFromScan0(width, height, 0, bitmap->format, NULL, &new_bitmap); if (stat != Ok) { image_unlock(image, unlock); return stat; } stat = GdipBitmapLockBits(bitmap, NULL, ImageLockModeRead, bitmap->format, &src_lock); if (stat == Ok) { stat = GdipBitmapLockBits(new_bitmap, NULL, ImageLockModeWrite, bitmap->format, &dst_lock); if (stat == Ok) { LPBYTE src_row, src_pixel; LPBYTE dst_row, dst_pixel; src_origin = src_lock.Scan0; if (flip_x) src_origin += bytesperpixel * (bitmap->width - 1); if (flip_y) src_origin += src_lock.Stride * (bitmap->height - 1); if (rotate_90) { if (flip_y) src_x_offset = -src_lock.Stride; else src_x_offset = src_lock.Stride; if (flip_x) src_y_offset = -bytesperpixel; else src_y_offset = bytesperpixel; } else { if (flip_x) src_x_offset = -bytesperpixel; else src_x_offset = bytesperpixel; if (flip_y) src_y_offset = -src_lock.Stride; else src_y_offset = src_lock.Stride; } src_row = src_origin; dst_row = dst_lock.Scan0; for (y=0; yimage); image_unlock(image, unlock); return stat; } /***************************************************************************** * GdipImageSetAbort [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipImageSetAbort(GpImage *image, GdiplusAbort *pabort) { TRACE("(%p, %p)\n", image, pabort); if (!image) return InvalidParameter; if (pabort) FIXME("Abort callback is not supported.\n"); return Ok; } /***************************************************************************** * GdipBitmapConvertFormat [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipBitmapConvertFormat(GpBitmap *bitmap, PixelFormat format, DitherType dithertype, PaletteType palettetype, ColorPalette *palette, REAL alphathreshold) { FIXME("(%p, 0x%08x, %d, %d, %p, %f): stub\n", bitmap, format, dithertype, palettetype, palette, alphathreshold); return NotImplemented; } static void set_histogram_point_argb(ARGB color, UINT *ch0, UINT *ch1, UINT *ch2, UINT *ch3) { ch0[ color >> 24 ]++; ch1[(color >> 16) & 0xff]++; ch2[(color >> 8) & 0xff]++; ch3[ color & 0xff]++; } static void set_histogram_point_pargb(ARGB color, UINT *ch0, UINT *ch1, UINT *ch2, UINT *ch3) { BYTE alpha = color >> 24; ch0[alpha]++; ch1[(((color >> 16) & 0xff) * alpha) / 0xff]++; ch2[(((color >> 8) & 0xff) * alpha) / 0xff]++; ch3[(( color & 0xff) * alpha) / 0xff]++; } static void set_histogram_point_rgb(ARGB color, UINT *ch0, UINT *ch1, UINT *ch2, UINT *ch3) { ch0[(color >> 16) & 0xff]++; ch1[(color >> 8) & 0xff]++; ch2[ color & 0xff]++; } static void set_histogram_point_gray(ARGB color, UINT *ch0, UINT *ch1, UINT *ch2, UINT *ch3) { ch0[(76 * ((color >> 16) & 0xff) + 150 * ((color >> 8) & 0xff) + 29 * (color & 0xff)) / 0xff]++; } static void set_histogram_point_b(ARGB color, UINT *ch0, UINT *ch1, UINT *ch2, UINT *ch3) { ch0[color & 0xff]++; } static void set_histogram_point_g(ARGB color, UINT *ch0, UINT *ch1, UINT *ch2, UINT *ch3) { ch0[(color >> 8) & 0xff]++; } static void set_histogram_point_r(ARGB color, UINT *ch0, UINT *ch1, UINT *ch2, UINT *ch3) { ch0[(color >> 16) & 0xff]++; } static void set_histogram_point_a(ARGB color, UINT *ch0, UINT *ch1, UINT *ch2, UINT *ch3) { ch0[(color >> 24) & 0xff]++; } /***************************************************************************** * GdipBitmapGetHistogram [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipBitmapGetHistogram(GpBitmap *bitmap, HistogramFormat format, UINT num_of_entries, UINT *ch0, UINT *ch1, UINT *ch2, UINT *ch3) { static void (* const set_histogram_point[])(ARGB color, UINT *ch0, UINT *ch1, UINT *ch2, UINT *ch3) = { set_histogram_point_argb, set_histogram_point_pargb, set_histogram_point_rgb, set_histogram_point_gray, set_histogram_point_b, set_histogram_point_g, set_histogram_point_r, set_histogram_point_a, }; UINT width, height, x, y; TRACE("(%p, %d, %u, %p, %p, %p, %p)\n", bitmap, format, num_of_entries, ch0, ch1, ch2, ch3); if (!bitmap || num_of_entries != 256) return InvalidParameter; /* Make sure passed channel pointers match requested format */ switch (format) { case HistogramFormatARGB: case HistogramFormatPARGB: if (!ch0 || !ch1 || !ch2 || !ch3) return InvalidParameter; memset(ch0, 0, num_of_entries * sizeof(UINT)); memset(ch1, 0, num_of_entries * sizeof(UINT)); memset(ch2, 0, num_of_entries * sizeof(UINT)); memset(ch3, 0, num_of_entries * sizeof(UINT)); break; case HistogramFormatRGB: if (!ch0 || !ch1 || !ch2 || ch3) return InvalidParameter; memset(ch0, 0, num_of_entries * sizeof(UINT)); memset(ch1, 0, num_of_entries * sizeof(UINT)); memset(ch2, 0, num_of_entries * sizeof(UINT)); break; case HistogramFormatGray: case HistogramFormatB: case HistogramFormatG: case HistogramFormatR: case HistogramFormatA: if (!ch0 || ch1 || ch2 || ch3) return InvalidParameter; memset(ch0, 0, num_of_entries * sizeof(UINT)); break; default: WARN("Invalid histogram format requested, %d\n", format); return InvalidParameter; } GdipGetImageWidth(&bitmap->image, &width); GdipGetImageHeight(&bitmap->image, &height); for (y = 0; y < height; y++) for (x = 0; x < width; x++) { ARGB color; GdipBitmapGetPixel(bitmap, x, y, &color); set_histogram_point[format](color, ch0, ch1, ch2, ch3); } return Ok; } /***************************************************************************** * GdipBitmapGetHistogramSize [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipBitmapGetHistogramSize(HistogramFormat format, UINT *num_of_entries) { TRACE("(%d, %p)\n", format, num_of_entries); if (!num_of_entries) return InvalidParameter; *num_of_entries = 256; return Ok; } static GpStatus create_optimal_palette(ColorPalette *palette, INT desired, BOOL transparent, GpBitmap *bitmap) { GpStatus status; BitmapData data; HRESULT hr; IWICImagingFactory *factory; IWICPalette *wic_palette; if (!bitmap) return InvalidParameter; if (palette->Count < desired) return GenericError; status = GdipBitmapLockBits(bitmap, NULL, ImageLockModeRead, PixelFormat24bppRGB, &data); if (status != Ok) return status; hr = WICCreateImagingFactory_Proxy(WINCODEC_SDK_VERSION, &factory); if (hr != S_OK) { GdipBitmapUnlockBits(bitmap, &data); return hresult_to_status(hr); } hr = IWICImagingFactory_CreatePalette(factory, &wic_palette); if (hr == S_OK) { IWICBitmap *bitmap; /* PixelFormat24bppRGB actually stores the bitmap bits as BGR. */ hr = IWICImagingFactory_CreateBitmapFromMemory(factory, data.Width, data.Height, &GUID_WICPixelFormat24bppBGR, data.Stride, data.Stride * data.Width, data.Scan0, &bitmap); if (hr == S_OK) { hr = IWICPalette_InitializeFromBitmap(wic_palette, (IWICBitmapSource *)bitmap, desired, transparent); if (hr == S_OK) { palette->Flags = 0; IWICPalette_GetColorCount(wic_palette, &palette->Count); IWICPalette_GetColors(wic_palette, palette->Count, palette->Entries, &palette->Count); } IWICBitmap_Release(bitmap); } IWICPalette_Release(wic_palette); } IWICImagingFactory_Release(factory); GdipBitmapUnlockBits(bitmap, &data); return hresult_to_status(hr); } /***************************************************************************** * GdipInitializePalette [GDIPLUS.@] */ GpStatus WINGDIPAPI GdipInitializePalette(ColorPalette *palette, PaletteType type, INT desired, BOOL transparent, GpBitmap *bitmap) { TRACE("(%p,%d,%d,%d,%p)\n", palette, type, desired, transparent, bitmap); if (!palette) return InvalidParameter; switch (type) { case PaletteTypeCustom: return Ok; case PaletteTypeOptimal: return create_optimal_palette(palette, desired, transparent, bitmap); /* WIC palette type enumeration matches these gdiplus enums */ case PaletteTypeFixedBW: case PaletteTypeFixedHalftone8: case PaletteTypeFixedHalftone27: case PaletteTypeFixedHalftone64: case PaletteTypeFixedHalftone125: case PaletteTypeFixedHalftone216: case PaletteTypeFixedHalftone252: case PaletteTypeFixedHalftone256: { ColorPalette *wic_palette; GpStatus status = Ok; wic_palette = get_palette(NULL, type); if (!wic_palette) return OutOfMemory; if (palette->Count >= wic_palette->Count) { palette->Flags = wic_palette->Flags; palette->Count = wic_palette->Count; memcpy(palette->Entries, wic_palette->Entries, wic_palette->Count * sizeof(wic_palette->Entries[0])); } else status = GenericError; heap_free(wic_palette); return status; } default: FIXME("unknown palette type %d\n", type); break; } return InvalidParameter; }