/** * FreeRDP: A Remote Desktop Protocol Implementation * Color Conversion Routines * * Copyright 2010 Marc-Andre Moreau * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include #include int freerdp_get_pixel(BYTE* data, int x, int y, int width, int height, int bpp) { int start; int shift; UINT16* src16; UINT32* src32; int red, green, blue; switch (bpp) { case 1: width = (width + 7) / 8; start = (y * width) + x / 8; shift = x % 8; return (data[start] & (0x80 >> shift)) != 0; case 8: return data[y * width + x]; case 15: case 16: src16 = (UINT16*) data; return src16[y * width + x]; case 24: data += y * width * 3; data += x * 3; red = data[0]; green = data[1]; blue = data[2]; return RGB24(red, green, blue); case 32: src32 = (UINT32*) data; return src32[y * width + x]; default: break; } return 0; } void freerdp_set_pixel(BYTE* data, int x, int y, int width, int height, int bpp, int pixel) { int start; int shift; int *dst32; if (bpp == 1) { width = (width + 7) / 8; start = (y * width) + x / 8; shift = x % 8; if (pixel) data[start] = data[start] | (0x80 >> shift); else data[start] = data[start] & ~(0x80 >> shift); } else if (bpp == 32) { dst32 = (int*) data; dst32[y * width + x] = pixel; } } static INLINE void freerdp_color_split_rgb(UINT32* color, int bpp, BYTE* red, BYTE* green, BYTE* blue, BYTE* alpha, HCLRCONV clrconv) { *red = *green = *blue = 0; *alpha = (clrconv->alpha) ? 0xFF : 0x00; switch (bpp) { case 32: if (clrconv->alpha) { GetARGB32(*alpha, *red, *green, *blue, *color); } else { GetRGB32(*red, *green, *blue, *color); } break; case 24: GetRGB24(*red, *green, *blue, *color); break; case 16: GetRGB16(*red, *green, *blue, *color); break; case 15: GetRGB15(*red, *green, *blue, *color); break; case 8: *color &= 0xFF; *red = clrconv->palette->entries[*color].red; *green = clrconv->palette->entries[*color].green; *blue = clrconv->palette->entries[*color].blue; break; case 1: if (*color != 0) { *red = 0xFF; *green = 0xFF; *blue = 0xFF; } break; default: break; } } static INLINE void freerdp_color_split_bgr(UINT32* color, int bpp, BYTE* red, BYTE* green, BYTE* blue, BYTE* alpha, HCLRCONV clrconv) { *red = *green = *blue = 0; *alpha = (clrconv->alpha) ? 0xFF : 0x00; switch (bpp) { case 32: if (clrconv->alpha) { GetABGR32(*alpha, *red, *green, *blue, *color); } else { GetBGR32(*red, *green, *blue, *color); } break; case 24: GetBGR24(*red, *green, *blue, *color); break; case 16: GetBGR16(*red, *green, *blue, *color); break; case 15: GetBGR15(*red, *green, *blue, *color); break; case 8: *color &= 0xFF; *red = clrconv->palette->entries[*color].red; *green = clrconv->palette->entries[*color].green; *blue = clrconv->palette->entries[*color].blue; break; case 1: if (*color != 0) { *red = 0xFF; *green = 0xFF; *blue = 0xFF; } break; default: break; } } static INLINE void freerdp_color_make_rgb(UINT32* color, int bpp, BYTE* red, BYTE* green, BYTE* blue, BYTE* alpha, HCLRCONV clrconv) { switch (bpp) { case 32: *color = ARGB32(*alpha, *red, *green, *blue); break; case 24: *color = RGB24(*red, *green, *blue); break; case 16: if (clrconv->rgb555) { *color = RGB15(*red, *green, *blue); } else { *color = RGB16(*red, *green, *blue); } break; case 15: *color = RGB15(*red, *green, *blue); break; case 8: *color = RGB24(*red, *green, *blue); break; case 1: if ((*red != 0) || (*green != 0) || (*blue != 0)) *color = 1; break; default: break; } } static INLINE void freerdp_color_make_bgr(UINT32* color, int bpp, BYTE* red, BYTE* green, BYTE* blue, BYTE* alpha, HCLRCONV clrconv) { switch (bpp) { case 32: *color = ABGR32(*alpha, *red, *green, *blue); break; case 24: *color = BGR24(*red, *green, *blue); break; case 16: if (clrconv->rgb555) { *color = BGR15(*red, *green, *blue); } else { *color = BGR16(*red, *green, *blue); } break; case 15: *color = BGR15(*red, *green, *blue); break; case 8: *color = BGR24(*red, *green, *blue); break; case 1: if ((*red != 0) || (*green != 0) || (*blue != 0)) *color = 1; break; default: break; } } UINT32 freerdp_color_convert_rgb(UINT32 srcColor, int srcBpp, int dstBpp, HCLRCONV clrconv) { BYTE red = 0; BYTE green = 0; BYTE blue = 0; BYTE alpha = 0xFF; UINT32 dstColor = 0; freerdp_color_split_rgb(&srcColor, srcBpp, &red, &green, &blue, &alpha, clrconv); freerdp_color_make_rgb(&dstColor, dstBpp, &red, &green, &blue, &alpha, clrconv); return dstColor; } UINT32 freerdp_color_convert_bgr(UINT32 srcColor, int srcBpp, int dstBpp, HCLRCONV clrconv) { BYTE red = 0; BYTE green = 0; BYTE blue = 0; BYTE alpha = 0xFF; UINT32 dstColor = 0; freerdp_color_split_bgr(&srcColor, srcBpp, &red, &green, &blue, &alpha, clrconv); freerdp_color_make_bgr(&dstColor, dstBpp, &red, &green, &blue, &alpha, clrconv); return dstColor; } UINT32 freerdp_color_convert_rgb_bgr(UINT32 srcColor, int srcBpp, int dstBpp, HCLRCONV clrconv) { BYTE red = 0; BYTE green = 0; BYTE blue = 0; BYTE alpha = 0xFF; UINT32 dstColor = 0; freerdp_color_split_rgb(&srcColor, srcBpp, &red, &green, &blue, &alpha, clrconv); freerdp_color_make_bgr(&dstColor, dstBpp, &red, &green, &blue, &alpha, clrconv); return dstColor; } UINT32 freerdp_color_convert_bgr_rgb(UINT32 srcColor, int srcBpp, int dstBpp, HCLRCONV clrconv) { BYTE red = 0; BYTE green = 0; BYTE blue = 0; BYTE alpha = 0xFF; UINT32 dstColor = 0; freerdp_color_split_bgr(&srcColor, srcBpp, &red, &green, &blue, &alpha, clrconv); freerdp_color_make_rgb(&dstColor, dstBpp, &red, &green, &blue, &alpha, clrconv); return dstColor; } UINT32 freerdp_color_convert_var(UINT32 srcColor, int srcBpp, int dstBpp, HCLRCONV clrconv) { if (clrconv->invert) return freerdp_color_convert_var_bgr(srcColor, srcBpp, dstBpp, clrconv); else return freerdp_color_convert_var_rgb(srcColor, srcBpp, dstBpp, clrconv); } UINT32 freerdp_color_convert_var_rgb(UINT32 srcColor, int srcBpp, int dstBpp, HCLRCONV clrconv) { if (srcBpp == 8) { BYTE alpha = 0xFF; UINT32 dstColor = 0; PALETTE_ENTRY* entry = &clrconv->palette->entries[srcColor & 0xFF]; freerdp_color_make_bgr(&dstColor, dstBpp, &entry->red, &entry->green, &entry->blue, &alpha, clrconv); return dstColor; } if (srcBpp > 16) return freerdp_color_convert_bgr_rgb(srcColor, srcBpp, dstBpp, clrconv); else return freerdp_color_convert_rgb(srcColor, srcBpp, dstBpp, clrconv); } UINT32 freerdp_color_convert_var_bgr(UINT32 srcColor, int srcBpp, int dstBpp, HCLRCONV clrconv) { if (srcBpp == 8) { BYTE alpha = 0xFF; UINT32 dstColor = 0; PALETTE_ENTRY* entry = &clrconv->palette->entries[srcColor & 0xFF]; freerdp_color_make_rgb(&dstColor, dstBpp, &entry->red, &entry->green, &entry->blue, &alpha, clrconv); return dstColor; } if (srcBpp > 16) return freerdp_color_convert_bgr(srcColor, srcBpp, dstBpp, clrconv); else return freerdp_color_convert_rgb_bgr(srcColor, srcBpp, dstBpp, clrconv); } UINT32 freerdp_color_convert_drawing_order_color_to_gdi_color(UINT32 color, int bpp, HCLRCONV clrconv) { UINT32 r, g, b; switch (bpp) { case 16: color = (color & (UINT32) 0xFF00) | ((color >> 16) & (UINT32) 0xFF); GetRGB16(r, g, b, color); break; case 15: color = (color & (UINT32) 0xFF00) | ((color >> 16) & (UINT32) 0xFF); GetRGB15(r, g, b, color); break; case 8: color = (color >> 16) & (UINT32) 0xFF; r = clrconv->palette->entries[color].red; g = clrconv->palette->entries[color].green; b = clrconv->palette->entries[color].blue; break; case 1: r = g = b = 0; if (color != 0) r = g = b = 0xFF; break; default: return color; break; } return RGB32(r, g, b); } BYTE* freerdp_image_convert_8bpp(BYTE* srcData, BYTE* dstData, int width, int height, int srcBpp, int dstBpp, HCLRCONV clrconv) { int i; BYTE red; BYTE green; BYTE blue; UINT32 pixel; BYTE *src8; UINT16 *dst16; UINT32 *dst32; if (dstBpp == 8) { if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height, 16); if (!dstData) return NULL; CopyMemory(dstData, srcData, width * height); return dstData; } else if (dstBpp == 15 || (dstBpp == 16 && clrconv->rgb555)) { if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 2, 16); if (!dstData) return NULL; dst16 = (UINT16*) dstData; for (i = width * height; i > 0; i--) { pixel = *srcData; srcData++; red = clrconv->palette->entries[pixel].red; green = clrconv->palette->entries[pixel].green; blue = clrconv->palette->entries[pixel].blue; pixel = (clrconv->invert) ? BGR15(red, green, blue) : RGB15(red, green, blue); *dst16 = pixel; dst16++; } return dstData; } else if (dstBpp == 16) { if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 2, 16); if (!dstData) return NULL; dst16 = (UINT16*) dstData; for (i = width * height; i > 0; i--) { pixel = *srcData; srcData++; red = clrconv->palette->entries[pixel].red; green = clrconv->palette->entries[pixel].green; blue = clrconv->palette->entries[pixel].blue; pixel = (clrconv->invert) ? BGR16(red, green, blue) : RGB16(red, green, blue); *dst16 = pixel; dst16++; } return dstData; } else if (dstBpp == 32) { if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 4, 16); if (!dstData) return NULL; src8 = (BYTE*) srcData; dst32 = (UINT32*) dstData; for (i = width * height; i > 0; i--) { pixel = *src8; src8++; red = clrconv->palette->entries[pixel].red; green = clrconv->palette->entries[pixel].green; blue = clrconv->palette->entries[pixel].blue; if (clrconv->alpha) { pixel = (clrconv->invert) ? ABGR32(0xFF, red, green, blue) : ARGB32(0xFF, red, green, blue); } else { pixel = (clrconv->invert) ? BGR32(red, green, blue) : RGB32(red, green, blue); } *dst32 = pixel; dst32++; } return dstData; } return srcData; } BYTE* freerdp_image_convert_15bpp(BYTE* srcData, BYTE* dstData, int width, int height, int srcBpp, int dstBpp, HCLRCONV clrconv) { int i; BYTE red; BYTE green; BYTE blue; UINT32 pixel; UINT16 *src16; UINT16 *dst16; UINT32 *dst32; if (dstBpp == 15 || (dstBpp == 16 && clrconv->rgb555)) { if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 2, 16); if (!dstData) return NULL; CopyMemory(dstData, srcData, width * height * 2); return dstData; } else if (dstBpp == 32) { if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 4, 16); if (!dstData) return NULL; src16 = (UINT16*) srcData; dst32 = (UINT32*) dstData; for (i = width * height; i > 0; i--) { pixel = *src16; src16++; GetBGR15(red, green, blue, pixel); if (clrconv->alpha) { pixel = (clrconv->invert) ? ARGB32(0xFF, red, green, blue) : ABGR32(0xFF, red, green, blue); } else { pixel = (clrconv->invert) ? RGB32(red, green, blue) : BGR32(red, green, blue); } *dst32 = pixel; dst32++; } return dstData; } else if (dstBpp == 16) { if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 2, 16); if (!dstData) return NULL; src16 = (UINT16*) srcData; dst16 = (UINT16*) dstData; for (i = width * height; i > 0; i--) { pixel = *src16; src16++; GetRGB_555(red, green, blue, pixel); RGB_555_565(red, green, blue); pixel = (clrconv->invert) ? BGR565(red, green, blue) : RGB565(red, green, blue); *dst16 = pixel; dst16++; } return dstData; } return srcData; } BYTE* freerdp_image_convert_16bpp(BYTE* srcData, BYTE* dstData, int width, int height, int srcBpp, int dstBpp, HCLRCONV clrconv) { if (srcBpp == 15) return freerdp_image_convert_15bpp(srcData, dstData, width, height, srcBpp, dstBpp, clrconv); if (dstBpp == 16) { if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 2, 16); if (!dstData) return NULL; if (clrconv->rgb555) { int i; BYTE red, green, blue; UINT16* src16 = (UINT16 *) srcData; UINT16* dst16 = (UINT16 *) dstData; for (i = width * height; i > 0; i--) { GetRGB_565(red, green, blue, (*src16)); RGB_565_555(red, green, blue); (*dst16) = (clrconv->invert) ? BGR555(red, green, blue) : RGB555(red, green, blue); src16++; dst16++; } } else { CopyMemory(dstData, srcData, width * height * 2); } return dstData; } else if (dstBpp == 24) { int i; BYTE *dst8; UINT16 *src16; BYTE red, green, blue; if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 3, 16); if (!dstData) return NULL; dst8 = (BYTE*) dstData; src16 = (UINT16*) srcData; for (i = width * height; i > 0; i--) { GetBGR16(red, green, blue, *src16); src16++; if (clrconv->invert) { *dst8++ = blue; *dst8++ = green; *dst8++ = red; } else { *dst8++ = red; *dst8++ = green; *dst8++ = blue; } } return dstData; } else if (dstBpp == 32) { primitives_t* prims; if (!dstData) dstData = _aligned_malloc(width * height * sizeof(UINT32), 16); if (!dstData) return NULL; prims = primitives_get(); prims->RGB565ToARGB_16u32u_C3C4( (const UINT16*) srcData, width * sizeof(UINT16), (UINT32*) dstData, width * sizeof(UINT32), width, height, clrconv->alpha, clrconv->invert); return dstData; } return srcData; } BYTE* freerdp_image_convert_24bpp(BYTE* srcData, BYTE* dstData, int width, int height, int srcBpp, int dstBpp, HCLRCONV clrconv) { int i; if (dstBpp == 32) { UINT32 pixel, alpha_mask, temp; UINT32* srcp; UINT32* dstp; if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 4, 16); if (!dstData) return NULL; alpha_mask = clrconv->alpha ? 0xFF000000 : 0; srcp = (UINT32*) srcData; dstp = (UINT32*) dstData; if (clrconv->invert) { /* Each iteration handles four pixels using 32-bit load and store operations. */ for (i = ((width * height) / 4); i > 0; i--) { temp = 0; pixel = temp; temp = *srcp++; pixel |= temp & 0x00FFFFFF; temp = temp >> 24; *dstp++ = alpha_mask | RGB32_to_BGR32(pixel); pixel = temp; temp = *srcp++; pixel |= (temp & 0x0000FFFF) << 8; temp = temp >> 16; *dstp++ = alpha_mask | RGB32_to_BGR32(pixel); pixel = temp; temp = *srcp++; pixel |= (temp & 0x000000FF) << 16; temp = temp >> 8; *dstp++ = alpha_mask | RGB32_to_BGR32(pixel); *dstp++ = alpha_mask | RGB32_to_BGR32(temp); } /* Handle any remainder. */ for (i = (width * height) % 4; i > 0; i--) { pixel = ABGR32(alpha_mask, srcData[2], srcData[1], srcData[0]); *dstp++ = pixel; srcData += 3; } } else { for (i = ((width * height) / 4); i > 0; i--) { temp = 0; pixel = temp; temp = *srcp++; pixel |= temp & 0x00FFFFFF; temp = temp >> 24; *dstp++ = alpha_mask | pixel; pixel = temp; temp = *srcp++; pixel |= (temp & 0x0000FFFF) << 8; temp = temp >> 16; *dstp++ = alpha_mask | pixel; pixel = temp; temp = *srcp++; pixel |= (temp & 0x000000FF) << 16; temp = temp >> 8; *dstp++ = alpha_mask | pixel; *dstp++ = alpha_mask | temp; } for (i = (width * height) % 4; i > 0; i--) { pixel = ARGB32(alpha_mask, srcData[2], srcData[1], srcData[0]); *dstp++ = pixel; srcData += 3; } } return dstData; } return srcData; } BYTE* freerdp_image_convert_32bpp(BYTE* srcData, BYTE* dstData, int width, int height, int srcBpp, int dstBpp, HCLRCONV clrconv) { if (dstBpp == 16) { int index; UINT16 *dst16; UINT32 *src32; BYTE red, green, blue; if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 2, 16); if (!dstData) return NULL; dst16 = (UINT16*) dstData; src32 = (UINT32*) srcData; for (index = 0; index < width * height; index++) { GetBGR32(blue, green, red, *src32); *dst16 = (clrconv->invert) ? BGR16(red, green, blue) : RGB16(red, green, blue); src32++; dst16++; } return dstData; } else if (dstBpp == 24) { int index; BYTE* dstp; BYTE red, green, blue; if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 3, 16); if (!dstData) return NULL; dstp = dstData; for (index = 0; index < width * height; index++) { red = *(srcData++); green = *(srcData++); blue = *(srcData++); if (clrconv->invert) { *dstp++ = blue; *dstp++ = green; *dstp++ = red; } else { *dstp++ = red; *dstp++ = green; *dstp++ = blue; } srcData++; } return dstData; } else if (dstBpp == 32) { int i; UINT32 pixel; UINT32 alpha_mask; UINT32* srcp; UINT32* dstp; BYTE red, green, blue; if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * 4, 16); if (!dstData) return NULL; alpha_mask = clrconv->alpha ? 0xFF000000 : 0; srcp = (UINT32*) srcData; dstp = (UINT32*) dstData; if (clrconv->invert) { for (i = width * height; i > 0; i--) { pixel = *srcp; srcp++; GetRGB32(red, green, blue, pixel); pixel = alpha_mask | BGR32(red, green, blue); *dstp = pixel; dstp++; } } else { for (i = width * height; i > 0; i--) { pixel = *srcp; srcp++; GetRGB32(red, green, blue, pixel); pixel = alpha_mask | RGB32(red, green, blue); *dstp = pixel; dstp++; } } return dstData; } return srcData; } p_freerdp_image_convert freerdp_image_convert_[5] = { NULL, freerdp_image_convert_8bpp, freerdp_image_convert_16bpp, freerdp_image_convert_24bpp, freerdp_image_convert_32bpp }; BYTE* freerdp_image_convert(BYTE* srcData, BYTE* dstData, int width, int height, int srcBpp, int dstBpp, HCLRCONV clrconv) { p_freerdp_image_convert _p_freerdp_image_convert = freerdp_image_convert_[IBPP(srcBpp)]; if (_p_freerdp_image_convert != NULL) return _p_freerdp_image_convert(srcData, dstData, width, height, srcBpp, dstBpp, clrconv); else return 0; } void freerdp_bitmap_flip(BYTE * src, BYTE * dst, int scanLineSz, int height) { int i; BYTE * bottomLine = dst + (scanLineSz * (height - 1)); BYTE * topLine = src; /* Special processing if called for flip-in-place. */ if (src == dst) { /* Allocate a scanline buffer. * (FIXME: malloc / xfree below should be replaced by "get/put * scanline buffer from a pool/Q of fixed buffers" to reuse * fixed size buffers (of max scanline size (or adaptative?) ) * -- would be much faster). */ BYTE* tmpBfr = _aligned_malloc(scanLineSz, 16); int half = height / 2; /* Flip buffer in place by line permutations through the temp * scan line buffer. * Note that if height has an odd number of line, we don't need * to move the center scanline anyway. * Also note that in place flipping takes three memcpy() calls * to process two scanlines while src to distinct dest would * only requires two memcpy() calls for two scanlines. */ height--; for (i = 0; i < half ; i++) { CopyMemory(tmpBfr, topLine, scanLineSz); CopyMemory(topLine, bottomLine, scanLineSz); CopyMemory(bottomLine, tmpBfr, scanLineSz); topLine += scanLineSz; bottomLine -= scanLineSz; height--; } _aligned_free(tmpBfr); } /* Flip from source buffer to destination buffer. */ else { for (i = 0; i < height; i++) { CopyMemory(bottomLine, topLine, scanLineSz); topLine += scanLineSz; bottomLine -= scanLineSz; } } } BYTE* freerdp_image_flip(BYTE* srcData, BYTE* dstData, int width, int height, int bpp) { int scanline; scanline = width * ((bpp + 7) / 8); if (!dstData) dstData = (BYTE*) _aligned_malloc(width * height * ((bpp + 7) / 8), 16); if (!dstData) return NULL; freerdp_bitmap_flip(srcData, dstData, scanline, height); return dstData; } BYTE* freerdp_icon_convert(BYTE* srcData, BYTE* dstData, BYTE* mask, int width, int height, int bpp, HCLRCONV clrconv) { BYTE* data; BYTE bmask; UINT32* icon; int x, y, bit; int maskIndex; if (bpp == 16) { /* Server sends 16 bpp field, but data is usually 15-bit 555 */ bpp = 15; } data = freerdp_image_flip(srcData, dstData, width, height, bpp); dstData = freerdp_image_convert(data, NULL, width, height, bpp, 32, clrconv); _aligned_free(data); /* Read the AND alpha plane */ if (bpp < 32) { maskIndex = 0; icon = (UINT32*) dstData; for (y = 0; y < height; y++) { for (x = 0; x < width-7; x+=8) { bmask = mask[maskIndex++]; for (bit = 0; bit < 8; bit++) if ((bmask & (0x80 >> bit)) == 0) { UINT32 *tmp = (icon + (height - y - 1) * width + x + bit); if (tmp) *tmp |= 0xFF000000; } } if ((width % 8) != 0) { bmask = mask[maskIndex++]; for (bit = 0; bit < width % 8; bit++) if ((bmask & (0x80 >> bit)) == 0) { UINT32 *tmp = (icon + (height - y - 1) * width + x + bit); if (tmp) *tmp |= 0xFF000000; } } /* Skip padding */ if ((width % 32) != 0) maskIndex += (32 - (width % 32)) / 8; } } return dstData; } BYTE* freerdp_glyph_convert(int width, int height, BYTE* data) { int x, y; BYTE* srcp; BYTE* dstp; BYTE* dstData; int scanline; /* * converts a 1-bit-per-pixel glyph to a one-byte-per-pixel glyph: * this approach uses a little more memory, but provides faster * means of accessing individual pixels in blitting operations */ scanline = (width + 7) / 8; dstData = (BYTE*) _aligned_malloc(width * height, 16); if (!dstData) return NULL; ZeroMemory(dstData, width * height); dstp = dstData; for (y = 0; y < height; y++) { srcp = data + (y * scanline); for (x = 0; x < width; x++) { if ((*srcp & (0x80 >> (x % 8))) != 0) *dstp = 0xFF; dstp++; if (((x + 1) % 8 == 0) && x != 0) srcp++; } } return dstData; } BYTE* freerdp_mono_image_convert(BYTE* srcData, int width, int height, int srcBpp, int dstBpp, UINT32 bgcolor, UINT32 fgcolor, HCLRCONV clrconv) { int index; UINT16* dst16; UINT32* dst32; BYTE* dstData; BYTE bitMask; int bitIndex; BYTE redBg, greenBg, blueBg; BYTE redFg, greenFg, blueFg; GetRGB32(redBg, greenBg, blueBg, bgcolor); GetRGB32(redFg, greenFg, blueFg, fgcolor); if (dstBpp == 16) { dstData = (BYTE*) _aligned_malloc(width * height * 2, 16); if (!dstData) return NULL; dst16 = (UINT16*) dstData; if (clrconv->rgb555) { bgcolor = clrconv->invert ? BGR15(redBg, greenBg, blueBg) : RGB15(redBg, greenBg, blueBg); fgcolor = clrconv->invert ? BGR15(redFg, greenFg, blueFg) : RGB15(redFg, greenFg, blueFg); } else { bgcolor = clrconv->invert ? BGR16(redBg, greenBg, blueBg) : RGB16(redBg, greenBg, blueBg); fgcolor = clrconv->invert ? BGR16(redFg, greenFg, blueFg) : RGB16(redFg, greenFg, blueFg); } for (index = height; index > 0; index--) { /* each bit encodes a pixel */ bitMask = *srcData; for (bitIndex = 7; bitIndex >= 0; bitIndex--) { if ((bitMask >> bitIndex) & 0x01) { *dst16 = bgcolor; } else { *dst16 = fgcolor; } dst16++; } srcData++; } return dstData; } else if (dstBpp == 32) { dstData = (BYTE*) _aligned_malloc(width * height * 4, 16); if (!dstData) return NULL; dst32 = (UINT32*) dstData; for (index = height; index > 0; index--) { /* each bit encodes a pixel */ bitMask = *srcData; for (bitIndex = 7; bitIndex >= 0; bitIndex--) { if ((bitMask >> bitIndex) & 0x01) { if (clrconv->alpha) { *dst32 = (clrconv->invert) ? ABGR32(0xFF, redBg, greenBg, blueBg) : ARGB32(0xFF, redBg, greenBg, blueBg); } else { *dst32 = (clrconv->invert) ? BGR32(redBg, greenBg, blueBg) : RGB32(redBg, greenBg, blueBg); } } else { if (clrconv->alpha) { *dst32 = (clrconv->invert) ? ABGR32(0xFF, redFg, greenFg, blueFg) : ARGB32(0xFF, redFg, greenFg, blueFg); } else { *dst32 = (clrconv->invert) ? BGR32(redFg, greenFg, blueFg) : RGB32(redFg, greenFg, blueFg); } } dst32++; } srcData++; } return dstData; } return srcData; } void freerdp_alpha_cursor_convert(BYTE* alphaData, BYTE* xorMask, BYTE* andMask, int width, int height, int bpp, HCLRCONV clrconv) { int xpixel; int apixel; int i, j, jj; for (j = 0; j < height; j++) { jj = (bpp == 1) ? j : (height - 1) - j; for (i = 0; i < width; i++) { xpixel = freerdp_get_pixel(xorMask, i, jj, width, height, bpp); xpixel = freerdp_color_convert_rgb(xpixel, bpp, 32, clrconv); apixel = freerdp_get_pixel(andMask, i, jj, width, height, 1); if (apixel != 0) { if ((xpixel & 0xffffff) == 0xffffff) { /* use pattern (not solid black) for xor area */ xpixel = (i & 1) == (j & 1); xpixel = xpixel ? 0xFFFFFF : 0; xpixel |= 0xFF000000; } else if (xpixel == 0xFF000000) { xpixel = 0; } } freerdp_set_pixel(alphaData, i, j, width, height, 32, xpixel); } } } void freerdp_image_swap_color_order(BYTE* data, int width, int height) { int x, y; UINT32* pixel; BYTE a, r, g, b; pixel = (UINT32*) data; for (y = 0; y < height; y++) { for (x = 0; x < width; x++) { GetARGB32(a, r, g, b, *pixel); *pixel = ABGR32(a, r, g, b); pixel++; } } } HCLRCONV freerdp_clrconv_new(UINT32 flags) { HCLRCONV clrconv; clrconv = (CLRCONV*) calloc(1, sizeof(CLRCONV)); if (!clrconv) return NULL; clrconv->alpha = (flags & CLRCONV_ALPHA) ? TRUE : FALSE; clrconv->invert = (flags & CLRCONV_INVERT) ? TRUE : FALSE; clrconv->rgb555 = (flags & CLRCONV_RGB555) ? TRUE : FALSE; clrconv->palette = (rdpPalette*) calloc(1, sizeof(rdpPalette)); if (!clrconv->palette) return NULL; return clrconv; } void freerdp_clrconv_free(HCLRCONV clrconv) { if (clrconv) { if (clrconv->palette) free(clrconv->palette); free(clrconv); } } int freerdp_image_copy(BYTE* pDstData, DWORD dwDstFormat, int nDstStep, int nXDst, int nYDst, int nWidth, int nHeight, BYTE* pSrcData, DWORD dwSrcFormat, int nSrcStep, int nXSrc, int nYSrc) { int x, y; int srcFlip; int dstFlip; BYTE a, r, g, b; int beg, end, inc; int srcBitsPerPixel; int srcBytesPerPixel; int dstBitsPerPixel; int dstBytesPerPixel; BOOL overlap = FALSE; BOOL vFlip = FALSE; srcBitsPerPixel = FREERDP_PIXEL_FORMAT_DEPTH(dwSrcFormat); srcBytesPerPixel = (FREERDP_PIXEL_FORMAT_BPP(dwSrcFormat) / 8); srcFlip = FREERDP_PIXEL_FORMAT_FLIP(dwSrcFormat); dstBitsPerPixel = FREERDP_PIXEL_FORMAT_DEPTH(dwDstFormat); dstBytesPerPixel = (FREERDP_PIXEL_FORMAT_BPP(dwDstFormat) / 8); dstFlip = FREERDP_PIXEL_FORMAT_FLIP(dwDstFormat); if (srcFlip != dstFlip) vFlip = TRUE; if (pDstData == pSrcData) { overlap = (((nXDst + nWidth) > nXSrc) && (nXDst < (nXSrc + nWidth)) && ((nYDst + nHeight) > nYSrc) && (nYDst < (nYSrc + nHeight))) ? TRUE : FALSE; } if (srcBytesPerPixel == 4) { if (nSrcStep < 0) nSrcStep = srcBytesPerPixel * nWidth; if (srcBitsPerPixel == 24) { if (dstBytesPerPixel == 4) /* srcBytesPerPixel == dstBytesPerPixel */ { if (dstBitsPerPixel == 32) { UINT32* pSrcPixel; UINT32* pDstPixel; if (nDstStep < 0) nDstStep = dstBytesPerPixel * nWidth; pSrcPixel = (UINT32*) &pSrcData[(nYSrc * nSrcStep) + (nXSrc * srcBytesPerPixel)]; pDstPixel = (UINT32*) &pDstData[(nYDst * nDstStep) + (nXDst * dstBytesPerPixel)]; for (y = 0; y < nHeight; y++) { for (x = 0; x < nWidth; x++) { GetARGB32(a, r, g, b, *pSrcPixel); *pDstPixel = ARGB32(a, r, g, b); pSrcPixel++; pDstPixel++; } pSrcPixel = (UINT32*) &((BYTE*) pSrcPixel)[(nSrcStep - (nWidth * srcBytesPerPixel))]; pDstPixel = (UINT32*) &((BYTE*) pDstPixel)[(nDstStep - (nWidth * dstBytesPerPixel))]; } } else if (dstBitsPerPixel == 24) /* srcBitsPerPixel == dstBitsPerPixel */ { UINT32* pSrcPixel; UINT32* pDstPixel; if (nDstStep < 0) nDstStep = dstBytesPerPixel * nWidth; if (overlap && (nYSrc < nYDst)) { beg = nHeight - 1; inc = -1; /* downward copy */ end = -1; } else { beg = 0; inc = 1; /* upward copy */ end = nHeight; } if (!vFlip) { for (y = beg; y != end; y += inc) { pSrcPixel = (UINT32*) &pSrcData[((nYSrc + y) * nSrcStep) + (nXSrc * srcBytesPerPixel)]; pDstPixel = (UINT32*) &pDstData[((nYDst + y) * nDstStep) + (nXDst * dstBytesPerPixel)]; MoveMemory(pDstPixel, pSrcPixel, nWidth * 4); } } else { for (y = beg; y != end; y += inc) { pSrcPixel = (UINT32*) &pSrcData[((nYSrc + y) * nSrcStep) + (nXSrc * srcBytesPerPixel)]; pDstPixel = (UINT32*) &pDstData[((nYDst + (nHeight - y - 1)) * nDstStep) + (nXDst * dstBytesPerPixel)]; MoveMemory(pDstPixel, pSrcPixel, nWidth * 4); } } } } else if (dstBytesPerPixel == 3) { UINT32* pSrcPixel; BYTE* pDstPixel; if (nDstStep < 0) nDstStep = dstBytesPerPixel * nWidth; pSrcPixel = (UINT32*) &pSrcData[(nYSrc * nSrcStep) + (nXSrc * srcBytesPerPixel)]; pDstPixel = (BYTE*) &pDstData[(nYDst * nDstStep) + (nXDst * dstBytesPerPixel)]; for (y = 0; y < nHeight; y++) { for (x = 0; x < nWidth; x++) { GetRGB32(r, g, b, *pSrcPixel); *(pDstPixel++) = r; *(pDstPixel++) = g; *(pDstPixel++) = b; pSrcPixel++; } pSrcPixel = (UINT32*) &((BYTE*) pSrcPixel)[(nSrcStep - (nWidth * srcBytesPerPixel))]; pDstPixel = (BYTE*) &((BYTE*) pDstPixel)[(nDstStep - (nWidth * dstBytesPerPixel))]; } } else if (dstBytesPerPixel == 2) { if (dstBitsPerPixel == 16) { UINT32* pSrcPixel; UINT16* pDstPixel; if (nDstStep < 0) nDstStep = dstBytesPerPixel * nWidth; pSrcPixel = (UINT32*) &pSrcData[(nYSrc * nSrcStep) + (nXSrc * srcBytesPerPixel)]; pDstPixel = (UINT16*) &pDstData[(nYDst * nDstStep) + (nXDst * dstBytesPerPixel)]; for (y = 0; y < nHeight; y++) { for (x = 0; x < nWidth; x++) { GetRGB32(r, g, b, *pSrcPixel); RGB_888_565(r, g, b); *pDstPixel = RGB565(r, g, b); pSrcPixel++; pDstPixel++; } pSrcPixel = (UINT32*) &((BYTE*) pSrcPixel)[(nSrcStep - (nWidth * srcBytesPerPixel))]; pDstPixel = (UINT16*) &((BYTE*) pDstPixel)[(nDstStep - (nWidth * dstBytesPerPixel))]; } } else if (dstBitsPerPixel == 15) { UINT32* pSrcPixel; UINT16* pDstPixel; if (nDstStep < 0) nDstStep = dstBytesPerPixel * nWidth; pSrcPixel = (UINT32*) &pSrcData[(nYSrc * nSrcStep) + (nXSrc * srcBytesPerPixel)]; pDstPixel = (UINT16*) &pDstData[(nYDst * nDstStep) + (nXDst * dstBytesPerPixel)]; for (y = 0; y < nHeight; y++) { for (x = 0; x < nWidth; x++) { GetRGB32(r, g, b, *pSrcPixel); RGB_888_555(r, g, b); *pDstPixel = RGB555(r, g, b); pSrcPixel++; pDstPixel++; } pSrcPixel = (UINT32*) &((BYTE*) pSrcPixel)[(nSrcStep - (nWidth * srcBytesPerPixel))]; pDstPixel = (UINT16*) &((BYTE*) pDstPixel)[(nDstStep - (nWidth * dstBytesPerPixel))]; } } } } } return 0; } void* freerdp_image_memset32(UINT32* ptr, UINT32 fill, size_t length) { while (length--) { *ptr++ = fill; } return (void*) ptr; } int freerdp_image_fill(BYTE* pDstData, DWORD dwDstFormat, int nDstStep, int nXDst, int nYDst, int nWidth, int nHeight, UINT32 color) { int y; int dstBitsPerPixel; int dstBytesPerPixel; dstBitsPerPixel = FREERDP_PIXEL_FORMAT_DEPTH(dwDstFormat); dstBytesPerPixel = (FREERDP_PIXEL_FORMAT_BPP(dwDstFormat) / 8); if (dstBytesPerPixel == 4) { UINT32* pDstPixel; if (nDstStep < 0) nDstStep = dstBytesPerPixel * nWidth; for (y = 0; y < nHeight; y++) { pDstPixel = (UINT32*) &pDstData[((nYDst + y) * nDstStep) + (nXDst * dstBytesPerPixel)]; freerdp_image_memset32(pDstPixel, color, nWidth); } } else if (dstBytesPerPixel == 3) { } else if (dstBytesPerPixel == 2) { if (dstBitsPerPixel == 16) { } else if (dstBitsPerPixel == 15) { } } return 0; }