/* * Change Logs: * Date Author Notes * 2012-01-24 onelife Reimplement to improve efficiency and add * features. The new decoder uses configurable fixed size working buffer and * provides scaledown function. */ #include #include #include #include #include #include #ifdef RTGUI_USING_DFS_FILERW #include #endif #ifdef RTGUI_IMAGE_BMP /* Compression encodings for BMP files */ #ifndef BI_RGB #define BI_RGB 0 #define BI_RLE8 1 #define BI_RLE4 2 #define BI_BITFIELDS 3 #endif #define BMP_WORKING_BUFFER_SIZE (384) /* In multiple of 12 and bigger than 48 */ #define BMP_MAX_SCALING_FACTOR (10) // TODO: find the max value! #define hw_driver (rtgui_graphic_driver_get_default()) struct rtgui_image_bmp { rt_bool_t is_loaded; rt_uint8_t *pixels; struct rtgui_filerw *filerw; rt_uint32_t w, h; rt_uint32_t pixel_offset; rt_uint32_t pitch; rt_uint8_t scale; rt_uint8_t bit_per_pixel; rt_uint8_t pad; }; static rt_bool_t rtgui_image_bmp_check(struct rtgui_filerw *file); static rt_bool_t rtgui_image_bmp_load(struct rtgui_image *image, struct rtgui_filerw *file, rt_bool_t load); static void rtgui_image_bmp_unload(struct rtgui_image *image); static void rtgui_image_bmp_blit(struct rtgui_image *image, struct rtgui_dc *dc, struct rtgui_rect *rect); static struct rtgui_image* rtgui_image_bmp_zoom(struct rtgui_image* image, float scalew, float scaleh, rt_uint32_t mode); static struct rtgui_image* rtgui_image_bmp_rotate(struct rtgui_image* image, float angle); struct rtgui_image_engine rtgui_image_bmp_engine = { "bmp", { RT_NULL }, rtgui_image_bmp_check, rtgui_image_bmp_load, rtgui_image_bmp_unload, rtgui_image_bmp_blit, rtgui_image_bmp_zoom, rtgui_image_bmp_rotate }; static rt_bool_t rtgui_image_bmp_check(struct rtgui_filerw *file) { rt_uint8_t buffer[18]; rt_bool_t is_bmp = RT_FALSE; do { if (!file) { break; } /* Prepare to decode */ if (rtgui_filerw_seek(file, 0, RTGUI_FILE_SEEK_SET) < 0) { break; } if (rtgui_filerw_read(file, (void *)buffer, 18, 1) != 18) { break; } /* Read file type */ if (buffer[0] != 'B' || buffer[1] != 'M') { break; } /* Read BMP header size */ if (*(rt_uint32_t *)&buffer[14] == 12) { /* Bitmap Header Version 2.x */ if (rtgui_filerw_read(file, (void *)buffer, 8, 1) != 8) { break; } /* Read image size */ is_bmp = RT_TRUE; } else { /* Bitmap Header Version bigger than 2.x */ if (rtgui_filerw_read(file, (void *)buffer, 8, 1) != 8) { break; } /* Read image size */ is_bmp = RT_TRUE; } } while (0); return is_bmp; } static struct rtgui_image_palette *rtgui_image_bmp_load_palette( struct rtgui_filerw *file, rt_uint32_t colorsUsed, rt_bool_t alpha) { /* Load the palette, if any */ rt_uint32_t i; struct rtgui_image_palette *palette; palette = rtgui_image_palette_create(colorsUsed); if (palette == RT_NULL) { return RT_NULL; } if (alpha) { rt_uint8_t temp[4]; for (i = 0; i < colorsUsed; i++) { if (rtgui_filerw_read(file, (void *)&temp, 1, 4) != 4) { rtgui_free(palette); return RT_NULL; } palette->colors[i] = RTGUI_ARGB(temp[3], temp[2], temp[1], temp[0]); } } else { rt_uint8_t temp[3]; for (i = 0; i < colorsUsed; i++) { if (rtgui_filerw_read(file, (void *)&temp, 1, 3) != 3) { rtgui_free(palette); return RT_NULL; } palette->colors[i] = RTGUI_RGB(temp[2], temp[1], temp[0]); } } return palette; } static rt_bool_t rtgui_image_bmp_load(struct rtgui_image *image, struct rtgui_filerw *file, rt_bool_t load) { rt_uint8_t scale = 0; rt_uint8_t *wrkBuffer; struct rtgui_image_bmp *bmp; rt_uint32_t bmpHeaderSize; rt_uint32_t colorsUsed; if (scale > BMP_MAX_SCALING_FACTOR) { return RT_FALSE; } do { wrkBuffer = (rt_uint8_t *)rtgui_malloc(BMP_WORKING_BUFFER_SIZE); if (wrkBuffer == RT_NULL) { rt_kprintf("BMP err: no mem\n"); break; } bmp = (struct rtgui_image_bmp *)rtgui_malloc(sizeof(struct rtgui_image_bmp)); if (bmp == RT_NULL) { break; } /* Prepare to decode */ if (rtgui_filerw_seek(file, 0, RTGUI_FILE_SEEK_SET) < 0) { break; } if (rtgui_filerw_read(file, (void *)wrkBuffer, 18, 1) != 18) { break; } /* Read file type */ if (wrkBuffer[0] != 'B' || wrkBuffer[1] != 'M') { break; } // rt_kprintf("BMP: format ok\n"); /* Read pixel array offset */ bmp->pixel_offset = *(rt_uint32_t *)&wrkBuffer[10]; // rt_kprintf("BMP: bmp->pixel_offset %d\n", bmp->pixel_offset); /* Read BMP header size */ bmpHeaderSize = *(rt_uint32_t *)&wrkBuffer[14]; // rt_kprintf("BMP: bmpHeaderSize %d\n", bmpHeaderSize); colorsUsed = 0; if (bmpHeaderSize == 12) { /* Bitmap Header Version 2.x */ if (rtgui_filerw_read(file, (void *)wrkBuffer, 8, 1) != 8) { break; } /* Read image size */ bmp->w = (rt_uint32_t) * (rt_uint16_t *)&wrkBuffer[0]; bmp->h = (rt_uint32_t) * (rt_uint16_t *)&wrkBuffer[2]; /* Read bits per pixel */ bmp->bit_per_pixel = (rt_uint8_t) * (rt_uint16_t *)&wrkBuffer[6]; } else { /* Bitmap Header Version bigger than 2.x */ rt_uint32_t compression; if (rtgui_filerw_read(file, (void *)wrkBuffer, 36, 1) != 36) { break; } /* Read image size */ bmp->w = *(rt_uint32_t *)&wrkBuffer[0]; bmp->h = *(rt_uint32_t *)&wrkBuffer[4]; /* Read bits per pixel */ bmp->bit_per_pixel = (rt_uint8_t) * (rt_uint16_t *)&wrkBuffer[10]; if (bmp->bit_per_pixel > 32) { rt_kprintf("BMP err: unsupported format\n"); break; } /* Read compression method */ compression = *(rt_uint32_t *)&wrkBuffer[12]; if (compression != BI_RGB && compression != BI_BITFIELDS) { rt_kprintf("BMP err: unsupported format\n"); break; } /* Read number of colors */ colorsUsed = *(rt_uint32_t *)&wrkBuffer[28]; } if (!colorsUsed) { colorsUsed = 1 << bmp->bit_per_pixel; } /* Load palette */ if (bmp->bit_per_pixel <= 8) { if (rtgui_filerw_seek(file, 14 + bmpHeaderSize, RTGUI_FILE_SEEK_SET) < 0) { break; } image->palette = rtgui_image_bmp_load_palette(file, colorsUsed, bmpHeaderSize > 12 ? RT_TRUE : RT_FALSE); if (image->palette == RT_NULL) { break; } } /* Set image information */ bmp->is_loaded = RT_FALSE; bmp->scale = scale; if (bmp->bit_per_pixel == 1) { bmp->pitch = (bmp->w + 7) >> 3; } else if (bmp->bit_per_pixel == 4) { bmp->pitch = (bmp->w + 1) >> 1; } else { bmp->pitch = bmp->w * (bmp->bit_per_pixel >> 3); } bmp->pad = ((bmp->pitch % 4) ? (4 - (bmp->pitch % 4)) : 0); bmp->pixels = RT_NULL; bmp->filerw = file; image->w = (rt_uint16_t)bmp->w >> bmp->scale; image->h = (rt_uint16_t)bmp->h >> bmp->scale; image->engine = &rtgui_image_bmp_engine; image->data = bmp; /* Start to decode */ if (load == RT_TRUE) { rt_bool_t error = RT_FALSE; rt_uint8_t *dst; rt_uint32_t imageWidth; rt_uint16_t readLength, readIndex, loadIndex; rt_uint8_t skipLength; rt_uint16_t y; rt_uint8_t bytePerPixel; rt_int8_t scale1, scale2; bytePerPixel = bmp->bit_per_pixel / 8; if (!bytePerPixel) { bytePerPixel = 1; } imageWidth = image->w * bytePerPixel; /* Scaled width in byte */ bmp->pixels = rtgui_malloc(image->h * imageWidth); if (bmp->pixels == RT_NULL) { rt_kprintf("BMP err: no mem to load (%d)\n", image->h * imageWidth); break; } /* Read the pixels. Note that the bmp image is upside down */ if (rtgui_filerw_seek(file, bmp->pixel_offset, RTGUI_FILE_SEEK_SET) < 0) { break; } if (bmp->bit_per_pixel == 1) { if (bmp->scale > 3) { scale1 = bmp->scale - 3; scale2 = 3; } else { scale1 = 0; scale2 = bmp->scale; } } else if (bmp->bit_per_pixel == 4) { if (bmp->scale > 1) { scale1 = bmp->scale - 1; scale2 = 1; } else { scale1 = 0; scale2 = bmp->scale; } } /* Process whole image */ y = 0; while (y < image->h) { dst = bmp->pixels + (image->h - y - 1) * imageWidth; readIndex = 0; skipLength = 0; /* Process a line */ while (readIndex < bmp->pitch) { /* Put progress indicator */ rt_kprintf("\r%lu%%", y * 100UL / image->h); /* Read data to buffer */ readLength = (BMP_WORKING_BUFFER_SIZE > ((rt_uint16_t)bmp->pitch - readIndex)) ? \ ((rt_uint16_t)bmp->pitch - readIndex) : BMP_WORKING_BUFFER_SIZE; if (rtgui_filerw_read(file, (void *)wrkBuffer, 1, readLength) != readLength) { rt_kprintf("BMP err: read failed\n"); error = RT_TRUE; break; } readIndex += readLength; /* Process read buffer */ if (bmp->bit_per_pixel == 1) { rt_uint8_t j; for (loadIndex = skipLength; loadIndex < readLength; loadIndex += 1 << scale1) { for (j = 0; j < 8; j += 1 << scale2) { *(dst++) = (wrkBuffer[loadIndex] & (1 << (7 - j))) >> (7 - j); } } if (scale1 && (readLength % (1 << scale1))) { skipLength = (1 << scale1) - readLength % (1 << scale1); } } else if (bmp->bit_per_pixel == 4) { rt_uint8_t j; for (loadIndex = skipLength; loadIndex < readLength; loadIndex += 1 << scale1) { for (j = 0; j < 8; j += 1 << (2 + scale2)) { *(dst++) = (wrkBuffer[loadIndex] & (0x0F << (4 - j))) >> (4 - j); } } if (scale1 && (readLength % (1 << scale1))) { skipLength = (1 << scale1) - readLength % (1 << scale1); } } else { if (bmp->scale == 0) { rt_memcpy((void *)dst, (void *)wrkBuffer, readLength); dst += readLength; } else { for (loadIndex = skipLength; loadIndex < readLength; loadIndex += bytePerPixel << bmp->scale) { rt_memcpy((void *)dst, (void *)&wrkBuffer[loadIndex], bytePerPixel); dst += bytePerPixel; } if (readLength % (1 << bmp->scale)) { skipLength = (1 << bmp->scale) - readLength % (1 << bmp->scale); } } } } if (error) { break; } y++; /* Skip padding bytes */ if (bmp->pad) { if (rtgui_filerw_seek(file, bmp->pad, RTGUI_FILE_SEEK_CUR) < 0) { error = RT_TRUE; break; } } /* Height scale down */ if (bmp->scale) { if (rtgui_filerw_seek(file, (bmp->pitch + bmp->pad) * ((1 << bmp->scale) - 1), RTGUI_FILE_SEEK_CUR) < 0) { error = RT_TRUE; break; } } } if (error) { break; } /* Close file */ rtgui_filerw_close(bmp->filerw); bmp->filerw = RT_NULL; bmp->is_loaded = RT_TRUE; // rt_kprintf("BMP: load to RAM\n"); } /* Release memory */ rtgui_free(wrkBuffer); return RT_TRUE; } while (0); /* Release memory */ rtgui_free(wrkBuffer); rtgui_free(image->palette); rtgui_free(bmp->pixels); rtgui_free(bmp); return RT_FALSE; } static void rtgui_image_bmp_unload(struct rtgui_image *image) { struct rtgui_image_bmp *bmp; if (image != RT_NULL) { bmp = (struct rtgui_image_bmp *)image->data; /* Release memory */ rtgui_free(bmp->pixels); if (bmp->filerw != RT_NULL) { /* Close file */ rtgui_filerw_close(bmp->filerw); bmp->filerw = RT_NULL; } rtgui_free(bmp); } } static void rtgui_image_bmp_blit(struct rtgui_image *image, struct rtgui_dc *dc, struct rtgui_rect *dst_rect) { rt_uint16_t w, h; struct rtgui_image_bmp *bmp; rt_uint8_t bytePerPixel; rt_uint32_t imageWidth; rt_bool_t error; bmp = (struct rtgui_image_bmp *)image->data; RT_ASSERT(image != RT_NULL || dc != RT_NULL || dst_rect != RT_NULL || bmp != RT_NULL); bytePerPixel = bmp->bit_per_pixel / 8; if (!bytePerPixel) { bytePerPixel = 1; } imageWidth = image->w * bytePerPixel; /* Scaled width in byte */ error = RT_FALSE; do { /* this dc is not visible */ if (rtgui_dc_get_visible(dc) != RT_TRUE) { break; } /* the minimum rect */ if (image->w < rtgui_rect_width(*dst_rect)) { w = image->w; } else { w = rtgui_rect_width(*dst_rect); } if (image->h < rtgui_rect_height(*dst_rect)) { h = image->h; } else { h = rtgui_rect_height(*dst_rect); } if (!bmp->is_loaded) { rt_uint8_t *wrkBuffer; rt_uint16_t readLength, readIndex, loadIndex; rt_uint8_t skipLength; rt_uint16_t x, y; rt_int8_t scale1, scale2; rt_uint16_t y_start = dst_rect->y1 + h - 1; /* Read the pixels. Note that the bmp image is upside down */ if (rtgui_filerw_seek(bmp->filerw, bmp->pixel_offset, RTGUI_FILE_SEEK_SET) < 0) { break; } /* the image is upside down. So we need to start from middle if the * image is higher than the dst_rect. */ if (image->h > rtgui_rect_height(*dst_rect)) { int hdelta = image->h - rtgui_rect_height(*dst_rect); if (rtgui_filerw_seek(bmp->filerw, hdelta * (bmp->pitch + bmp->pad) * (1 << bmp->scale), RTGUI_FILE_SEEK_CUR) < 0) { error = RT_TRUE; break; } } if (bmp->bit_per_pixel == 1) { if (bmp->scale > 3) { scale1 = bmp->scale - 3; scale2 = 3; } else { scale1 = 0; scale2 = bmp->scale; } } else if (bmp->bit_per_pixel == 4) { if (bmp->scale > 1) { scale1 = bmp->scale - 1; scale2 = 1; } else { scale1 = 0; scale2 = bmp->scale; } } wrkBuffer = (rt_uint8_t *)rtgui_malloc( (BMP_WORKING_BUFFER_SIZE > bmp->pitch) ? \ bmp->pitch : BMP_WORKING_BUFFER_SIZE); if (wrkBuffer == RT_NULL) { rt_kprintf("BMP err: no mem (%d)\n", BMP_WORKING_BUFFER_SIZE); break; } /* Process whole image */ y = 0; while (y < h) { x = 0; readIndex = 0; skipLength = 0; /* Process a line */ while (readIndex < bmp->pitch) { /* Put progress indicator */ rt_kprintf("\r%lu%%", y * 100UL / h); /* Read data to buffer */ readLength = (BMP_WORKING_BUFFER_SIZE > ((rt_uint16_t)bmp->pitch - readIndex)) ? \ ((rt_uint16_t)bmp->pitch - readIndex) : BMP_WORKING_BUFFER_SIZE; if (rtgui_filerw_read(bmp->filerw, (void *)wrkBuffer, 1, readLength) != readLength) { rt_kprintf("BMP err: read failed\n"); error = RT_TRUE; break; } readIndex += readLength; /* Process read buffer */ if (bmp->bit_per_pixel == 1) { for (loadIndex = skipLength; loadIndex < readLength; loadIndex += 1 << scale1) { rt_uint8_t j; for (j = 0; j < 8; j += 1 << scale2) { rtgui_color_t color; color = image->palette->colors[(wrkBuffer[loadIndex] & (1 << (7 - j))) >> (7 - j)]; rtgui_dc_draw_color_point(dc, dst_rect->x1 + x++, y_start - y, color); if (x >= w) break; } if (scale1 && (readLength % (1 << scale1))) { skipLength = (1 << scale1) - readLength % (1 << scale1); } } } else if (bmp->bit_per_pixel == 4) { for (loadIndex = skipLength; loadIndex < readLength; loadIndex += 1 << scale1) { rt_uint8_t j; for (j = 0; j < 8; j += 1 << (2 + scale2)) { rtgui_color_t color; color = image->palette->colors[(wrkBuffer[loadIndex] & (0x0F << (4 - j))) >> (4 - j)]; rtgui_dc_draw_color_point(dc, dst_rect->x1 + x++, y_start - y, color); if (x >= w) break; } } if (scale1 && (readLength % (1 << scale1))) { skipLength = (1 << scale1) - readLength % (1 << scale1); } } else if (bmp->bit_per_pixel == 8) { for (loadIndex = skipLength; loadIndex < readLength; loadIndex += 1 << bmp->scale) { rtgui_color_t color; color = image->palette->colors[wrkBuffer[loadIndex]]; rtgui_dc_draw_color_point(dc, dst_rect->x1 + x++, y_start - y, color); if (x >= w) break; } if (readLength % (1 << bmp->scale)) { skipLength = (1 << bmp->scale) - readLength % (1 << bmp->scale); } } else { rtgui_blit_line_func blit_line; rt_uint8_t hw_bytePerPixel = hw_driver->bits_per_pixel / 8; rt_uint8_t temp[4] = {0}; if (!hw_bytePerPixel) { hw_bytePerPixel = 1; } if (hw_driver->pixel_format == RTGRAPHIC_PIXEL_FORMAT_RGB565) { blit_line = rtgui_blit_line_get_inv(hw_bytePerPixel, bytePerPixel); } else { blit_line = rtgui_blit_line_get(hw_bytePerPixel, bytePerPixel); } for (loadIndex = skipLength; loadIndex < readLength; loadIndex += bytePerPixel << bmp->scale) { blit_line(temp, &wrkBuffer[loadIndex], bytePerPixel); dc->engine->blit_line(dc, dst_rect->x1 + x, dst_rect->x1 + x + 1, y_start - y, temp); x++; if (x >= w) break; } if (readLength % (1 << bmp->scale)) { skipLength = (1 << bmp->scale) - readLength % (1 << bmp->scale); } } } if (error) { break; } y++; /* Skip padding bytes */ if (bmp->pad) { if (rtgui_filerw_seek(bmp->filerw, bmp->pad, RTGUI_FILE_SEEK_CUR) < 0) { error = RT_TRUE; break; } } /* Height scale down */ if (bmp->scale) { if (rtgui_filerw_seek(bmp->filerw, (bmp->pitch + bmp->pad) * ((1 << bmp->scale) - 1), RTGUI_FILE_SEEK_CUR) < 0) { error = RT_TRUE; break; } } } if (error) { break; } /* Release memory */ rtgui_free(wrkBuffer); // rt_kprintf("BMP: load to display\n"); } else { rt_uint16_t x, y; rt_uint8_t *ptr; for (y = 0; y < h; y ++) { ptr = bmp->pixels + (y * imageWidth); if (bmp->bit_per_pixel <= 8) { rtgui_color_t color; /* Using palette */ for (x = 0; x < w; x ++) { color = image->palette->colors[*(ptr++)]; rtgui_dc_draw_color_point(dc, dst_rect->x1 + x, dst_rect->y1 + y, color); } } else { rtgui_blit_line_func blit_line; rt_uint8_t hw_bytePerPixel = hw_driver->bits_per_pixel / 8; rt_uint8_t temp[4] = {0}; if (!hw_bytePerPixel) { hw_bytePerPixel = 1; } if (hw_driver->pixel_format == RTGRAPHIC_PIXEL_FORMAT_RGB565) { blit_line = rtgui_blit_line_get_inv(hw_bytePerPixel, bytePerPixel); } else { blit_line = rtgui_blit_line_get(hw_bytePerPixel, bytePerPixel); } for (x = 0; x < w; x ++) { blit_line(temp, ptr, bytePerPixel); ptr += bytePerPixel; dc->engine->blit_line(dc, dst_rect->x1 + x, dst_rect->x1 + x + 1, dst_rect->y1 + y, temp); } } } } // rt_kprintf("BMP: blit ok\n"); } while (0); } /* * config bitmap header. */ void rtgui_image_bmp_header_cfg(struct rtgui_image_bmp_header *bhr, rt_int32_t w, rt_int32_t h, rt_uint16_t bits_per_pixel) { int image_size = w * h * bits_per_pixel/8; int header_size = sizeof(struct rtgui_image_bmp_header); bhr->bfType = 0x4d42; /* BM */ bhr->bfSize = header_size + image_size; /* data size */ bhr->bfReserved1 = 0; bhr->bfReserved2 = 0; bhr->bfOffBits = header_size; bhr->biSize = 40; /* sizeof BITMAPINFOHEADER */ bhr->biWidth = w; bhr->biHeight = h; bhr->biPlanes = 1; bhr->biBitCount = bits_per_pixel; bhr->biCompression = BI_BITFIELDS; bhr->biSizeImage = image_size; bhr->biXPelsPerMeter = 0; bhr->biYPelsPerMeter = 0; bhr->biClrUsed = 0; bhr->biClrImportant = 0; if(bhr->biBitCount == 16 && bhr->biCompression == BI_BITFIELDS) { bhr->bfSize += 12; bhr->bfOffBits += 12; } } #ifdef RTGUI_USING_DFS_FILERW #define WRITE_CLUSTER_SIZE 2048 void bmp_align_write(struct rtgui_filerw *file, char *dest, char *src, rt_int32_t len, rt_int32_t *count) { rt_int32_t len_bak = len; while(len) { if(*count >= WRITE_CLUSTER_SIZE) { rtgui_filerw_write(file, dest, WRITE_CLUSTER_SIZE, 1); *count = 0; } *(dest + *count) = *(src + (len_bak-len)); len --; (*count) ++; } } /* * Grab screen and save as a BMP file * MACRO RGB_CONVERT_TO_BGR: If the pixel of colors is BGR mode, defined it. */ void screenshot(const char *filename) { struct rtgui_filerw *file; int w, h, i, pitch; rt_uint16_t *src; rt_uint32_t mask; struct rtgui_image_bmp_header bhr; struct rtgui_graphic_driver *grp = hw_driver; #ifdef RGB_CONVERT_TO_BGR int j; rt_uint16_t *line_buf; rt_uint16_t color, tmp; #endif char *pixel_buf; rt_int32_t write_count=0; file = rtgui_filerw_create_file(filename, "wb"); if(file == RT_NULL) { rt_kprintf("create file failed\n"); return; } w = grp->width; h = grp->height; pitch = w * sizeof(rt_uint16_t); #ifdef RGB_CONVERT_TO_BGR line_buf = rt_malloc(pitch); if(line_buf == RT_NULL) { rt_kprintf("no memory!\n"); return; } #endif pixel_buf = rt_malloc(WRITE_CLUSTER_SIZE); if(pixel_buf == RT_NULL) { rt_kprintf("no memory!\n"); #ifdef RGB_CONVERT_TO_BGR rt_free(line_buf); #endif return; } rtgui_image_bmp_header_cfg(&bhr, w, h, grp->bits_per_pixel); bmp_align_write(file, pixel_buf, (char*)&bhr, sizeof(struct rtgui_image_bmp_header), &write_count); if(bhr.biCompression == BI_BITFIELDS) { mask = 0xF800; /* Red Mask */ bmp_align_write(file, pixel_buf, (char*)&mask, 4, &write_count); mask = 0x07E0; /* Green Mask */ bmp_align_write(file, pixel_buf, (char*)&mask, 4, &write_count); mask = 0x001F; /* Blue Mask */ bmp_align_write(file, pixel_buf, (char*)&mask, 4, &write_count); } rtgui_screen_lock(RT_WAITING_FOREVER); if(grp->framebuffer != RT_NULL) { src = (rt_uint16_t*)grp->framebuffer; src += w * h; for(i=0; i>11; *(line_buf + i) = color; } bmp_align_write(file, pixel_buf, (char*)line_buf, pitch, &write_count); #else bmp_align_write(file, pixel_buf, (char*)src, pitch, &write_count); #endif } } else { rtgui_color_t pixel_color; rt_uint16_t write_color; int x; for(i=h-1; i>=0; i--) { x = 0; if(i%10==0)rt_kprintf(">",i); while(x < w) { grp->ops->get_pixel(&pixel_color, x, i); write_color = rtgui_color_to_565p(pixel_color); bmp_align_write(file, pixel_buf, (char*)&write_color, sizeof(rt_uint16_t), &write_count); x++; } } } /* write The tail of the last */ if(write_count < WRITE_CLUSTER_SIZE) rtgui_filerw_write(file, pixel_buf, write_count, 1); rtgui_screen_unlock(); #ifdef RGB_CONVERT_TO_BGR rt_free(line_buf); #endif rt_free(pixel_buf); rt_kprintf("bmp create succeed.\n"); rtgui_filerw_close(file); } #ifdef RT_USING_FINSH #include FINSH_FUNCTION_EXPORT(screenshot, usage: screenshot(filename)); #endif #endif /* * image zoom in, zoom out interface * Support 16/24 bits format image */ static struct rtgui_image* rtgui_image_bmp_zoom(struct rtgui_image* image, float scalew, float scaleh, rt_uint32_t mode) { struct rtgui_image *d_img; struct rtgui_image_bmp *bmp, *d_bmp; int bitcount, nbytes, i, j; int sw, sh, dw, dh; int dest_buff_size; int src_line_size, dest_line_size; char *src_buf; char *des_buf; bmp = (struct rtgui_image_bmp*)image->data; src_buf = bmp->pixels; sw = bmp->w; sh = bmp->h; bitcount = bmp->bit_per_pixel; if(bitcount != 16 && bitcount != 24) { rt_kprintf("Does not support %d bits format\n", bitcount); return RT_NULL; } nbytes = bitcount / 8; src_line_size = sw * nbytes; dw = (int)(sw / scalew); dh = (int)(sh / scaleh); d_img = rt_malloc(sizeof(struct rtgui_image)); if(d_img == RT_NULL) { rt_kprintf("Not enough memory allocation IMG!\n"); return RT_NULL; } d_img->w = dw; d_img->h = dh; d_img->engine = &rtgui_image_bmp_engine; d_img->palette = RT_NULL; /* config dest bmp data */ dest_line_size = ((dw * bitcount + (bitcount-1)) / bitcount) * nbytes; dest_buff_size = dest_line_size * dh; d_bmp = rt_malloc(sizeof(struct rtgui_image_bmp)); if(d_bmp == RT_NULL) { rt_free(d_img); rt_kprintf("Not enough memory allocation BMP!\n"); return RT_NULL; } d_bmp->w = dw; d_bmp->h = dh; d_bmp->bit_per_pixel = bitcount; d_bmp->pixel_offset = 54; /* insignificant parameter */ d_bmp->filerw = RT_NULL; d_bmp->is_loaded = RT_TRUE; /* Don't want to loading */ d_bmp->pitch = d_bmp->w * nbytes; d_bmp->pad = ((d_bmp->pitch % 4) ? (4 - (d_bmp->pitch%4)) : 0); d_bmp->scale = 0; d_bmp->pixels = rt_malloc(dest_buff_size); if(d_bmp->pixels == RT_NULL) { rt_free(d_img); rt_free(d_bmp); rt_kprintf("Not enough memory allocation BMP data!\n"); return RT_NULL; } des_buf = d_bmp->pixels; if (mode == RTGUI_IMG_ZOOM_NEAREST) { for (i = 0; i < dh; i++) { int src_th = (int)(scaleh * i + 0.5); for (j = 0; j < dw; j++) { int src_tw = (int)(scalew * j + 0.5); rt_memcpy (&des_buf[i * dest_line_size] + j * nbytes, &src_buf[src_th * src_line_size] + src_tw * nbytes, nbytes); } } } else if (mode == RTGUI_IMG_ZOOM_BILINEAR) { /* ** known: (i,j), (i+1,j), (i,j+1), (i+1,j+1), u, v ** float coord: (i+u, j+v) ** f(i+u,j+v) = (1-u)(1-v)f(i,j) + (1-u)vf(i,j+1) + u(1-v)f(i+1,j) + uvf(i+1,j+1) */ for (i = 0; i < dh; i++) { int y = (int)(scaleh * i); float u = (float)(scaleh * i - y); unsigned char c1, c2, c3, c4; for (j = 0; j < dw; j++) { int x = (int)(scalew * j); float v = (float)(scalew * j - x); if(bitcount == 16) { /* Each color component is calculated separately */ rt_uint32_t cc1,cc2,cc3,cc4; unsigned char r, g, b; cc1 = rtgui_color_from_565p(*(rt_uint16_t*)(src_buf + src_line_size * y + nbytes * x )); cc2 = rtgui_color_from_565p(*(rt_uint16_t*)(src_buf + src_line_size * y + nbytes * (x+1))); cc3 = rtgui_color_from_565p(*(rt_uint16_t*)(src_buf + src_line_size * (y+1) + nbytes * x )); cc4 = rtgui_color_from_565p(*(rt_uint16_t*)(src_buf + src_line_size * (y+1) + nbytes * (x+1))); r = (unsigned char)((1-u)*(1-v)*(float)RTGUI_RGB_R(cc1) + (1-u)*v*(float)RTGUI_RGB_R(cc2) + u*(1-v)*(float)RTGUI_RGB_R(cc3) + u*v*(float)RTGUI_RGB_R(cc4)); g = (unsigned char)((1-u)*(1-v)*(float)RTGUI_RGB_G(cc1) + (1-u)*v*(float)RTGUI_RGB_G(cc2) + u*(1-v)*(float)RTGUI_RGB_G(cc3) + u*v*(float)RTGUI_RGB_G(cc4)); b = (unsigned char)((1-u)*(1-v)*(float)RTGUI_RGB_B(cc1) + (1-u)*v*(float)RTGUI_RGB_B(cc2) + u*(1-v)*(float)RTGUI_RGB_B(cc3) + u*v*(float)RTGUI_RGB_B(cc4)); *(rt_uint16_t*)(des_buf + i * dest_line_size + j * nbytes) = rtgui_color_to_565p(RTGUI_RGB(r, g, b)); } else if(bitcount == 24) { int k; for (k = 0; k < 3; k++) { /* 24 bits color is 3 bytes R:G:B */ c1 = (src_buf[src_line_size * y + nbytes * x + k]); c2 = (src_buf[src_line_size * y + nbytes * (x+1) + k]); c3 = (src_buf[src_line_size * (y+1) + nbytes * x + k]); c4 = (src_buf[src_line_size * (y+1) + nbytes * (x+1) + k]); des_buf[i * dest_line_size + j * nbytes + k] = (unsigned char) ((1-u)*(1-v)*(float)c1 + (1-u)*v*(float)c2 + u*(1-v)*(float)c3 + u*v*(float)c4); } } } } } d_img->data = d_bmp; return d_img; } #include #ifndef M_PI #define M_PI 3.14159265358979323846 #endif /* * around a pos o, rotating pos p */ rt_inline rtgui_point_t _rotate_pos(rtgui_point_t o, rtgui_point_t p, float sina, float cosa) { rtgui_point_t rp; float dx, dy; dx = p.x - o.x; dy = p.y - o.y; rp.x = (float)o.x + dx * cosa + dy * sina; rp.y = (float)o.y + dy * cosa - dx * sina; return rp; } /* * image rotate interface, rotate direction: clockwise * Support 16/24 bits format image */ static struct rtgui_image* rtgui_image_bmp_rotate(struct rtgui_image* image, float angle) { float age, sina, cosa; rtgui_point_t o, p, cp; rtgui_rect_t rect; struct rtgui_image *d_img; struct rtgui_image_bmp *bmp, *d_bmp; int bitcount, nbytes, i, j; int sw, sh, dw, dh; int dest_buff_size; int src_line_size, dest_line_size; char *src_buf; char *des_buf; /* rt_tick_t tick = rt_tick_get(); */ bmp = (struct rtgui_image_bmp*)image->data; src_buf = bmp->pixels; sw = bmp->w; sh = bmp->h; bitcount = bmp->bit_per_pixel; if(bitcount != 16 && bitcount != 24) { rt_kprintf("Does not support %d bits format\n", bitcount); return RT_NULL; } nbytes = bitcount / 8; src_line_size = sw * nbytes; /* convert angle to radians */ age = angle * M_PI / 180.0; sina = sin(age); cosa = cos(age); /* ** known: a, b, angle; ** solve: aa = a*abs(cos(angle)) + b*abs(sin(angle)); ** solve: bb = b*abs(cos(angle)) + a*abs(sin(angle)); */ dw = (int)(sw * fabs(cosa) + sh * fabs(sina)); dh = (int)(sh * fabs(cosa) + sw * fabs(sina)); rect.x1 = rect.y1 = 0; rect.x2 = sw; rect.y2 = sh; d_img = rt_malloc(sizeof(struct rtgui_image)); if(d_img == RT_NULL) { rt_kprintf("Not enough memory allocation IMG!\n"); return RT_NULL; } d_img->w = dw; d_img->h = dh; d_img->engine = &rtgui_image_bmp_engine; d_img->palette = RT_NULL; /* config dest bmp data */ dest_line_size = ((dw * bitcount + (bitcount-1)) / bitcount) * nbytes; dest_buff_size = dest_line_size * dh; d_bmp = rt_malloc(sizeof(struct rtgui_image_bmp)); if(d_bmp == RT_NULL) { rt_free(d_img); rt_kprintf("Not enough memory allocation BMP!\n"); return RT_NULL; } d_bmp->w = dw; d_bmp->h = dh; d_bmp->bit_per_pixel = bitcount; d_bmp->pixel_offset = 54; /* insignificant parameter */ d_bmp->filerw = RT_NULL; d_bmp->is_loaded = RT_TRUE; /* Don't want to loading */ d_bmp->pitch = d_bmp->w * nbytes; d_bmp->pad = ((d_bmp->pitch % 4) ? (4 - (d_bmp->pitch%4)) : 0); d_bmp->scale = 0; d_bmp->pixels = rt_malloc(dest_buff_size); if(d_bmp->pixels == RT_NULL) { rt_free(d_img); rt_free(d_bmp); rt_kprintf("Not enough memory allocation BMP data!\n"); return RT_NULL; } des_buf = d_bmp->pixels; /* use white fill empty pixel */ rt_memset(des_buf, 0xFF, dest_buff_size); o.x = dw>>1; o.y = dh>>1; if(bitcount == 16 || bitcount == 24) { for (i = 0; i < dh; i++) { for (j = 0; j < dw; j++) { p.x = j; p.y = i; cp = _rotate_pos(o, p, sina, cosa); cp.x -= (dw-sw)>>1; cp.y -= (dh-sh)>>1; if(rtgui_rect_contains_point(&rect, cp.x, cp.y) != RT_EOK) continue; rt_memcpy (&des_buf[dest_line_size * i] + nbytes * j, &src_buf[src_line_size * cp.y] + nbytes * cp.x, nbytes); } } } d_img->data = d_bmp; /* rt_kprintf("rotate use %d ticks\n", rt_tick_get()-tick); */ return d_img; } void rtgui_image_bmp_init() { /* register bmp on image system */ rtgui_image_register_engine(&rtgui_image_bmp_engine); } #endif