/** * FreeRDP: A Remote Desktop Protocol Implementation * Bitmap Compression * * Copyright 2004-2012 Jay Sorg * * 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 static INLINE UINT16 GETPIXEL16(const void* d, UINT32 x, UINT32 y, UINT32 w) { const BYTE* src = (const BYTE*)d + ((y * w + x) * sizeof(UINT16)); return (UINT16)(((UINT16)src[1] << 8) | (UINT16)src[0]); } static INLINE UINT32 GETPIXEL32(const void* d, UINT32 x, UINT32 y, UINT32 w) { const BYTE* src = (const BYTE*)d + ((y * w + x) * sizeof(UINT32)); return (((UINT32)src[3]) << 24) | (((UINT32)src[2]) << 16) | (((UINT32)src[1]) << 8) | (src[0] & 0xFF); } /*****************************************************************************/ static INLINE UINT16 IN_PIXEL16(const void* in_ptr, UINT32 in_x, UINT32 in_y, UINT32 in_w, UINT16 in_last_pixel) { if (in_ptr == 0) return 0; else if (in_x < in_w) return GETPIXEL16(in_ptr, in_x, in_y, in_w); else return in_last_pixel; } /*****************************************************************************/ static INLINE UINT32 IN_PIXEL32(const void* in_ptr, UINT32 in_x, UINT32 in_y, UINT32 in_w, UINT32 in_last_pixel) { if (in_ptr == 0) return 0; else if (in_x < in_w) return GETPIXEL32(in_ptr, in_x, in_y, in_w); else return in_last_pixel; } /*****************************************************************************/ /* color */ static UINT16 out_color_count_2(UINT16 in_count, wStream* in_s, UINT16 in_data) { if (in_count > 0) { if (in_count < 32) { const BYTE temp = ((0x3 << 5) | in_count) & 0xFF; Stream_Write_UINT8(in_s, temp); } else if (in_count < 256 + 32) { const BYTE temp = (in_count - 32) & 0xFF; Stream_Write_UINT8(in_s, 0x60); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf3); Stream_Write_UINT16(in_s, in_count); } Stream_Write_UINT16(in_s, in_data); } return 0; } #define OUT_COLOR_COUNT2(in_count, in_s, in_data) \ in_count = out_color_count_2(in_count, in_s, in_data) /*****************************************************************************/ /* color */ static UINT16 out_color_count_3(UINT16 in_count, wStream* in_s, UINT32 in_data) { if (in_count > 0) { if (in_count < 32) { const BYTE temp = ((0x3 << 5) | in_count) & 0xFF; Stream_Write_UINT8(in_s, temp); } else if (in_count < 256 + 32) { const BYTE temp = (in_count - 32) & 0xFF; Stream_Write_UINT8(in_s, 0x60); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf3); Stream_Write_UINT16(in_s, in_count); } Stream_Write_UINT8(in_s, in_data & 0xFF); \ Stream_Write_UINT8(in_s, (in_data >> 8) & 0xFF); Stream_Write_UINT8(in_s, (in_data >> 16) & 0xFF); } return 0; } #define OUT_COLOR_COUNT3(in_count, in_s, in_data) \ in_count = out_color_count_3(in_count, in_s, in_data) /*****************************************************************************/ /* copy */ static INLINE UINT16 out_copy_count_2(UINT16 in_count, wStream* in_s, wStream* in_data) { if (in_count > 0) { if (in_count < 32) { const BYTE temp = ((0x4 << 5) | in_count) & 0xFF; Stream_Write_UINT8(in_s, temp); } else if (in_count < 256 + 32) { const BYTE temp = (in_count - 32) & 0xFF; Stream_Write_UINT8(in_s, 0x80); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf4); Stream_Write_UINT16(in_s, in_count); } Stream_Write(in_s, Stream_Buffer(in_data), in_count * 2); } Stream_SetPosition(in_data, 0); return 0; } #define OUT_COPY_COUNT2(in_count, in_s, in_data) \ in_count = out_copy_count_2(in_count, in_s, in_data) /*****************************************************************************/ /* copy */ static INLINE UINT16 out_copy_count_3(UINT16 in_count, wStream* in_s, wStream* in_data) { if (in_count > 0) { if (in_count < 32) { const BYTE temp = ((0x4 << 5) | in_count) & 0xFF; Stream_Write_UINT8(in_s, temp); } else if (in_count < 256 + 32) { const BYTE temp = (in_count - 32) & 0xFF; Stream_Write_UINT8(in_s, 0x80); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf4); Stream_Write_UINT16(in_s, in_count); } Stream_Write(in_s, Stream_Pointer(in_data), in_count * 3); } Stream_SetPosition(in_data, 0); return 0; } #define OUT_COPY_COUNT3(in_count, in_s, in_data) \ in_count = out_copy_count_3(in_count, in_s, in_data) /*****************************************************************************/ /* bicolor */ static INLINE UINT16 out_bicolor_count_2(UINT16 in_count, wStream* in_s, UINT16 in_color1, UINT16 in_color2) { if (in_count > 0) { if (in_count / 2 < 16) { const BYTE temp = ((0xe << 4) | (in_count / 2)) & 0xFF; Stream_Write_UINT8(in_s, temp); } else if (in_count / 2 < 256 + 16) { const BYTE temp = (in_count / 2 - 16) & 0xFF; Stream_Write_UINT8(in_s, 0xe0); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf8); Stream_Write_UINT16(in_s, in_count / 2); } Stream_Write_UINT16(in_s, in_color1); Stream_Write_UINT16(in_s, in_color2); } return 0; } #define OUT_BICOLOR_COUNT2(in_count, in_s, in_color1, in_color2) \ in_count = out_bicolor_count_2(in_count, in_s, in_color1, in_color2) /*****************************************************************************/ /* bicolor */ static INLINE UINT16 out_bicolor_count_3(UINT16 in_count, wStream* in_s, UINT32 in_color1, UINT32 in_color2) { if (in_count > 0) { if (in_count / 2 < 16) { const BYTE temp = ((0xe << 4) | (in_count / 2)) & 0xFF; Stream_Write_UINT8(in_s, temp); } else if (in_count / 2 < 256 + 16) { const BYTE temp = (in_count / 2 - 16) & 0xFF; Stream_Write_UINT8(in_s, 0xe0); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf8); Stream_Write_UINT16(in_s, in_count / 2); } Stream_Write_UINT8(in_s, in_color1 & 0xFF); Stream_Write_UINT8(in_s, (in_color1 >> 8) & 0xFF); Stream_Write_UINT8(in_s, (in_color1 >> 16) & 0xFF); Stream_Write_UINT8(in_s, in_color2 & 0xFF); Stream_Write_UINT8(in_s, (in_color2 >> 8) & 0xFF); Stream_Write_UINT8(in_s, (in_color2 >> 16) & 0xFF); } return 0; } #define OUT_BICOLOR_COUNT3(in_count, in_s, in_color1, in_color2) \ in_count = out_bicolor_count_3(in_count, in_s, in_color1, in_color2) /*****************************************************************************/ /* fill */ static INLINE UINT16 out_fill_count_2(UINT16 in_count, wStream* in_s) { if (in_count > 0) { if (in_count < 32) { Stream_Write_UINT8(in_s, in_count & 0xFF); } else if (in_count < 256 + 32) { const BYTE temp = (in_count - 32) & 0xFF; Stream_Write_UINT8(in_s, 0x0); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf0); Stream_Write_UINT16(in_s, in_count); } } return 0; } #define OUT_FILL_COUNT2(in_count, in_s) \ in_count = out_fill_count_2(in_count, in_s) /*****************************************************************************/ /* fill */ static INLINE UINT16 out_fill_count_3(UINT16 in_count, wStream* in_s) { if (in_count > 0) { if (in_count < 32) { Stream_Write_UINT8(in_s, in_count & 0xFF); } else if (in_count < 256 + 32) { const BYTE temp = (in_count - 32) & 0xFF; Stream_Write_UINT8(in_s, 0x0); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf0); Stream_Write_UINT16(in_s, in_count); } } return 0; } #define OUT_FILL_COUNT3(in_count, in_s) \ in_count = out_fill_count_3(in_count, in_s) /*****************************************************************************/ /* mix */ static INLINE UINT16 out_mix_count_2(UINT16 in_count, wStream* in_s) { if (in_count > 0) { if (in_count < 32) { const BYTE temp = ((0x1 << 5) | in_count) & 0xFF; Stream_Write_UINT8(in_s, temp); } else if (in_count < 256 + 32) { const BYTE temp = (in_count - 32) & 0xFF; Stream_Write_UINT8(in_s, 0x20); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf1); Stream_Write_UINT16(in_s, in_count); } } return 0; } #define OUT_MIX_COUNT2(in_count, in_s) \ in_count = out_mix_count_2(in_count, in_s) /*****************************************************************************/ /* mix */ static INLINE UINT16 out_mix_count_3(UINT16 in_count, wStream* in_s) { if (in_count > 0) { if (in_count < 32) { const BYTE temp = ((0x1 << 5) | in_count) & 0xFF; Stream_Write_UINT8(in_s, temp); } else if (in_count < 256 + 32) { const BYTE temp = (in_count - 32) & 0xFF; Stream_Write_UINT8(in_s, 0x20); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf1); Stream_Write_UINT16(in_s, in_count); } } return 0; } #define OUT_MIX_COUNT3(in_count, in_s) \ in_count = out_mix_count_3(in_count, in_s) /*****************************************************************************/ /* fom */ static INLINE UINT16 out_from_count_2(UINT16 in_count, wStream* in_s, const char* in_mask, size_t in_mask_len) { if (in_count > 0) { if ((in_count % 8) == 0 && in_count < 249) { const BYTE temp = ((0x2 << 5) | (in_count / 8)) & 0xFF; Stream_Write_UINT8(in_s, temp); } else if (in_count < 256) { const BYTE temp = (in_count - 1) & 0xFF; Stream_Write_UINT8(in_s, 0x40); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf2); Stream_Write_UINT16(in_s, in_count); } Stream_Write(in_s, in_mask, in_mask_len); } return 0; } #define OUT_FOM_COUNT2(in_count, in_s, in_mask, in_mask_len) \ in_count = out_from_count_2(in_count, in_s, in_mask, in_mask_len) /*****************************************************************************/ /* fill or mix (fom) */ static INLINE UINT16 out_from_count_3(UINT16 in_count, wStream* in_s, const char* in_mask, size_t in_mask_len) { if (in_count > 0) { if ((in_count % 8) == 0 && in_count < 249) { const BYTE temp = ((0x2 << 5) | (in_count / 8)) & 0xFF; Stream_Write_UINT8(in_s, temp); } else if (in_count < 256) { const BYTE temp = (in_count - 1) & 0xFF; Stream_Write_UINT8(in_s, 0x40); Stream_Write_UINT8(in_s, temp); } else { Stream_Write_UINT8(in_s, 0xf2); Stream_Write_UINT16(in_s, in_count); } Stream_Write(in_s, in_mask, in_mask_len); } return 0; } #define OUT_FOM_COUNT3(in_count, in_s, in_mask, in_mask_len) \ in_count = out_from_count_3(in_count, in_s, in_mask, in_mask_len) #define TEST_FILL \ ((last_line == 0 && pixel == 0) || \ (last_line != 0 && pixel == ypixel)) #define TEST_MIX \ ((last_line == 0 && pixel == mix) || \ (last_line != 0 && pixel == (ypixel ^ mix))) #define TEST_FOM TEST_FILL || TEST_MIX #define TEST_COLOR pixel == last_pixel #define TEST_BICOLOR \ ( \ (pixel != last_pixel) && \ ( \ (!bicolor_spin && (pixel == bicolor1) && (last_pixel == bicolor2)) || \ (bicolor_spin && (pixel == bicolor2) && (last_pixel == bicolor1)) \ ) \ ) #define RESET_COUNTS \ { \ bicolor_count = 0; \ fill_count = 0; \ color_count = 0; \ mix_count = 0; \ fom_count = 0; \ fom_mask_len = 0; \ bicolor_spin = FALSE; \ } static SSIZE_T freerdp_bitmap_compress_24(const void* srcData, UINT32 width, UINT32 height, wStream* s, UINT32 byte_limit, UINT32 start_line, wStream* temp_s, UINT32 e) { char fom_mask[8192]; /* good for up to 64K bitmap */ SSIZE_T lines_sent = 0; UINT16 count = 0; UINT16 color_count = 0; UINT32 last_pixel = 0; UINT32 last_ypixel = 0; UINT16 bicolor_count = 0; UINT32 bicolor1 = 0; UINT32 bicolor2 = 0; BOOL bicolor_spin = FALSE; UINT32 end = width + e; UINT32 out_count = end * 3; UINT16 fill_count = 0; UINT16 mix_count = 0; const UINT32 mix = 0xFFFFFF; UINT16 fom_count = 0; size_t fom_mask_len = 0; const char* start = (const char*)srcData; const char* line = start + width * start_line * 4; const char* last_line = NULL; while ((line >= start) && (out_count < 32768)) { UINT32 j; size_t i = Stream_GetPosition(s) + count * 3U; if ((i - (color_count * 3) >= byte_limit) && (i - (bicolor_count * 3) >= byte_limit) && (i - (fill_count * 3) >= byte_limit) && (i - (mix_count * 3) >= byte_limit) && (i - (fom_count * 3) >= byte_limit)) { break; } out_count += end * 3; for (j = 0; j < end; j++) { /* read next pixel */ const UINT32 pixel = IN_PIXEL32(line, j, 0, width, last_pixel); const UINT32 ypixel = IN_PIXEL32(last_line, j, 0, width, last_ypixel); if (!TEST_FILL) { if (fill_count > 3 && fill_count >= color_count && fill_count >= bicolor_count && fill_count >= mix_count && fill_count >= fom_count) { if (fill_count > count) return -1; count -= fill_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_FILL_COUNT3(fill_count, s); RESET_COUNTS; } fill_count = 0; } if (!TEST_MIX) { if (mix_count > 3 && mix_count >= fill_count && mix_count >= bicolor_count && mix_count >= color_count && mix_count >= fom_count) { if (mix_count > count) return -1; count -= mix_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_MIX_COUNT3(mix_count, s); RESET_COUNTS; } mix_count = 0; } if (!(TEST_COLOR)) { if (color_count > 3 && color_count >= fill_count && color_count >= bicolor_count && color_count >= mix_count && color_count >= fom_count) { if (color_count > count) return -1; count -= color_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_COLOR_COUNT3(color_count, s, last_pixel); RESET_COUNTS; } color_count = 0; } if (!TEST_BICOLOR) { if (bicolor_count > 3 && bicolor_count >= fill_count && bicolor_count >= color_count && bicolor_count >= mix_count && bicolor_count >= fom_count) { if ((bicolor_count % 2) != 0) bicolor_count--; if (bicolor_count > count) return -1; count -= bicolor_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_BICOLOR_COUNT3(bicolor_count, s, bicolor2, bicolor1); RESET_COUNTS; } bicolor_count = 0; bicolor1 = last_pixel; bicolor2 = pixel; bicolor_spin = FALSE; } if (!(TEST_FOM)) { if (fom_count > 3 && fom_count >= fill_count && fom_count >= color_count && fom_count >= mix_count && fom_count >= bicolor_count) { if (fom_count > count) return -1; count -= fom_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_FOM_COUNT3(fom_count, s, fom_mask, fom_mask_len); RESET_COUNTS; } fom_count = 0; fom_mask_len = 0; } if (TEST_FILL) { fill_count++; } if (TEST_MIX) { mix_count++; } if (TEST_COLOR) { color_count++; } if (TEST_BICOLOR) { bicolor_spin = !bicolor_spin; bicolor_count++; } if (TEST_FOM) { if ((fom_count % 8) == 0) { fom_mask[fom_mask_len] = 0; fom_mask_len++; } if (pixel == (ypixel ^ mix)) { fom_mask[fom_mask_len - 1] |= (1 << (fom_count % 8)); } fom_count++; } Stream_Write_UINT8(temp_s, pixel & 0xff); Stream_Write_UINT8(temp_s, (pixel >> 8) & 0xff); Stream_Write_UINT8(temp_s, (pixel >> 16) & 0xff); count++; last_pixel = pixel; last_ypixel = ypixel; } /* can't take fix, mix, or fom past first line */ if (last_line == 0) { if (fill_count > 3 && fill_count >= color_count && fill_count >= bicolor_count && fill_count >= mix_count && fill_count >= fom_count) { if (fill_count > count) return -1; count -= fill_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_FILL_COUNT3(fill_count, s); RESET_COUNTS; } fill_count = 0; if (mix_count > 3 && mix_count >= fill_count && mix_count >= bicolor_count && mix_count >= color_count && mix_count >= fom_count) { if (mix_count > count) return -1; count -= mix_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_MIX_COUNT3(mix_count, s); RESET_COUNTS; } mix_count = 0; if (fom_count > 3 && fom_count >= fill_count && fom_count >= color_count && fom_count >= mix_count && fom_count >= bicolor_count) { if (fom_count > count) return -1; count -= fom_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_FOM_COUNT3(fom_count, s, fom_mask, fom_mask_len); RESET_COUNTS; } fom_count = 0; fom_mask_len = 0; } last_line = line; line = line - width * 4; start_line--; lines_sent++; } Stream_SetPosition(temp_s, 0); if (fill_count > 3 && fill_count >= color_count && fill_count >= bicolor_count && fill_count >= mix_count && fill_count >= fom_count) { if (fill_count > count) return -1; count -= fill_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_FILL_COUNT3(fill_count, s); } else if (mix_count > 3 && mix_count >= color_count && mix_count >= bicolor_count && mix_count >= fill_count && mix_count >= fom_count) { if (mix_count > count) return -1; count -= mix_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_MIX_COUNT3(mix_count, s); } else if (color_count > 3 && color_count >= mix_count && color_count >= bicolor_count && color_count >= fill_count && color_count >= fom_count) { if (color_count > count) return -1; count -= color_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_COLOR_COUNT3(color_count, s, last_pixel); } else if (bicolor_count > 3 && bicolor_count >= mix_count && bicolor_count >= color_count && bicolor_count >= fill_count && bicolor_count >= fom_count) { if ((bicolor_count % 2) != 0) bicolor_count--; if (bicolor_count > count) return -1; count -= bicolor_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_BICOLOR_COUNT3(bicolor_count, s, bicolor2, bicolor1); if (bicolor_count > count) return -1; count -= bicolor_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_BICOLOR_COUNT3(bicolor_count, s, bicolor1, bicolor2); } else if (fom_count > 3 && fom_count >= mix_count && fom_count >= color_count && fom_count >= fill_count && fom_count >= bicolor_count) { if (fom_count > count) return -1; count -= fom_count; OUT_COPY_COUNT3(count, s, temp_s); OUT_FOM_COUNT3(fom_count, s, fom_mask, fom_mask_len); } else { OUT_COPY_COUNT3(count, s, temp_s); } return lines_sent; } static SSIZE_T freerdp_bitmap_compress_16(const void* srcData, UINT32 width, UINT32 height, wStream* s, UINT32 bpp, UINT32 byte_limit, UINT32 start_line, wStream* temp_s, UINT32 e) { char fom_mask[8192]; /* good for up to 64K bitmap */ SSIZE_T lines_sent = 0; UINT16 count = 0; UINT16 color_count = 0; UINT16 last_pixel = 0; UINT16 last_ypixel = 0; UINT16 bicolor_count = 0; UINT16 bicolor1 = 0; UINT16 bicolor2 = 0; BOOL bicolor_spin = FALSE; UINT32 end = width + e; UINT32 out_count = end * 2; UINT16 fill_count = 0; UINT16 mix_count = 0; const UINT32 mix = (bpp == 15) ? 0xBA1F : 0xFFFF; UINT16 fom_count = 0; size_t fom_mask_len = 0; const char* start = (const char*) srcData; const char* line = start + width * start_line * 2; const char* last_line = NULL; while ((line >= start) && (out_count < 32768)) { UINT32 j; size_t i = Stream_GetPosition(s) + count * 2; if ((i - (color_count * 2) >= byte_limit) && (i - (bicolor_count * 2) >= byte_limit) && (i - (fill_count * 2) >= byte_limit) && (i - (mix_count * 2) >= byte_limit) && (i - (fom_count * 2) >= byte_limit)) { break; } out_count += end * 2; for (j = 0; j < end; j++) { /* read next pixel */ const UINT16 pixel = IN_PIXEL16(line, j, 0, width, last_pixel); const UINT16 ypixel = IN_PIXEL16(last_line, j, 0, width, last_ypixel); if (!TEST_FILL) { if (fill_count > 3 && fill_count >= color_count && fill_count >= bicolor_count && fill_count >= mix_count && fill_count >= fom_count) { if (fill_count > count) return -1; count -= fill_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_FILL_COUNT2(fill_count, s); RESET_COUNTS; } fill_count = 0; } if (!TEST_MIX) { if (mix_count > 3 && mix_count >= fill_count && mix_count >= bicolor_count && mix_count >= color_count && mix_count >= fom_count) { if (mix_count > count) return -1; count -= mix_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_MIX_COUNT2(mix_count, s); RESET_COUNTS; } mix_count = 0; } if (!(TEST_COLOR)) { if (color_count > 3 && color_count >= fill_count && color_count >= bicolor_count && color_count >= mix_count && color_count >= fom_count) { if (color_count > count) return -1; count -= color_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_COLOR_COUNT2(color_count, s, last_pixel); RESET_COUNTS; } color_count = 0; } if (!TEST_BICOLOR) { if ((bicolor_count > 3) && (bicolor_count >= fill_count) && (bicolor_count >= color_count) && (bicolor_count >= mix_count) && (bicolor_count >= fom_count)) { if ((bicolor_count % 2) != 0) bicolor_count--; if (bicolor_count > count) return -1; count -= bicolor_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_BICOLOR_COUNT2(bicolor_count, s, bicolor2, bicolor1); RESET_COUNTS; } bicolor_count = 0; bicolor1 = last_pixel; bicolor2 = pixel; bicolor_spin = FALSE; } if (!(TEST_FOM)) { if (fom_count > 3 && fom_count >= fill_count && fom_count >= color_count && fom_count >= mix_count && fom_count >= bicolor_count) { if (fom_count > count) return -1; count -= fom_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_FOM_COUNT2(fom_count, s, fom_mask, fom_mask_len); RESET_COUNTS; } fom_count = 0; fom_mask_len = 0; } if (TEST_FILL) { fill_count++; } if (TEST_MIX) { mix_count++; } if (TEST_COLOR) { color_count++; } if (TEST_BICOLOR) { bicolor_spin = !bicolor_spin; bicolor_count++; } if (TEST_FOM) { if ((fom_count % 8) == 0) { fom_mask[fom_mask_len] = 0; fom_mask_len++; } if (pixel == (ypixel ^ mix)) { fom_mask[fom_mask_len - 1] |= (1 << (fom_count % 8)); } fom_count++; } Stream_Write_UINT16(temp_s, pixel); count++; last_pixel = pixel; last_ypixel = ypixel; } /* can't take fix, mix, or fom past first line */ if (last_line == 0) { if (fill_count > 3 && fill_count >= color_count && fill_count >= bicolor_count && fill_count >= mix_count && fill_count >= fom_count) { if (fill_count > count) return -1; count -= fill_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_FILL_COUNT2(fill_count, s); RESET_COUNTS; } fill_count = 0; if (mix_count > 3 && mix_count >= fill_count && mix_count >= bicolor_count && mix_count >= color_count && mix_count >= fom_count) { if (mix_count > count) return -1; count -= mix_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_MIX_COUNT2(mix_count, s); RESET_COUNTS; } mix_count = 0; if (fom_count > 3 && fom_count >= fill_count && fom_count >= color_count && fom_count >= mix_count && fom_count >= bicolor_count) { if (fom_count > count) return -1; count -= fom_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_FOM_COUNT2(fom_count, s, fom_mask, fom_mask_len); RESET_COUNTS; } fom_count = 0; fom_mask_len = 0; } last_line = line; line = line - width * 2; start_line--; lines_sent++; } Stream_SetPosition(temp_s, 0); if (fill_count > 3 && fill_count >= color_count && fill_count >= bicolor_count && fill_count >= mix_count && fill_count >= fom_count) { if (fill_count > count) return -1; count -= fill_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_FILL_COUNT2(fill_count, s); } else if (mix_count > 3 && mix_count >= color_count && mix_count >= bicolor_count && mix_count >= fill_count && mix_count >= fom_count) { if (mix_count > count) return -1; count -= mix_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_MIX_COUNT2(mix_count, s); } else if (color_count > 3 && color_count >= mix_count && color_count >= bicolor_count && color_count >= fill_count && color_count >= fom_count) { if (color_count > count) return -1; count -= color_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_COLOR_COUNT2(color_count, s, last_pixel); } else if (bicolor_count > 3 && bicolor_count >= mix_count && bicolor_count >= color_count && bicolor_count >= fill_count && bicolor_count >= fom_count) { if ((bicolor_count % 2) != 0) bicolor_count--; if (bicolor_count > count) return -1; count -= bicolor_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_BICOLOR_COUNT2(bicolor_count, s, bicolor2, bicolor1); if (bicolor_count > count) return -1; count -= bicolor_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_BICOLOR_COUNT2(bicolor_count, s, bicolor1, bicolor2); } else if (fom_count > 3 && fom_count >= mix_count && fom_count >= color_count && fom_count >= fill_count && fom_count >= bicolor_count) { if (fom_count > count) return -1; count -= fom_count; OUT_COPY_COUNT2(count, s, temp_s); OUT_FOM_COUNT2(fom_count, s, fom_mask, fom_mask_len); } else { OUT_COPY_COUNT2(count, s, temp_s); } return lines_sent; } SSIZE_T freerdp_bitmap_compress(const void* srcData, UINT32 width, UINT32 height, wStream* s, UINT32 bpp, UINT32 byte_limit, UINT32 start_line, wStream* temp_s, UINT32 e) { Stream_SetPosition(temp_s, 0); switch (bpp) { case 15: case 16: return freerdp_bitmap_compress_16(srcData, width, height, s, bpp, byte_limit, start_line, temp_s, e); case 24: return freerdp_bitmap_compress_24(srcData, width, height, s, byte_limit, start_line, temp_s, e); default: return -1; } }