/* Stolen from http://cvs.php.net/viewcvs.cgi/gd/playground/gdbmp/ */ /* gd_bmp.c Bitmap format support for libgd * Written 2007, Scott MacVicar --------------------------------------------------------------------------- Todo: Bitfield encoding ---------------------------------------------------------------------------- */ /* $Id$ */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include "gd.h" #include "bmp.h" extern void* gdCalloc (size_t nmemb, size_t size); static int bmp_read_header(gdIOCtxPtr infile, bmp_hdr_t *hdr); static int bmp_read_info(gdIOCtxPtr infile, bmp_info_t *info); static int bmp_read_windows_v3_info(gdIOCtxPtr infile, bmp_info_t *info); static int bmp_read_os2_v1_info(gdIOCtxPtr infile, bmp_info_t *info); static int bmp_read_os2_v2_info(gdIOCtxPtr infile, bmp_info_t *info); static int bmp_read_direct(gdImagePtr im, gdIOCtxPtr infile, bmp_info_t *info, bmp_hdr_t *header); static int bmp_read_1bit(gdImagePtr im, gdIOCtxPtr infile, bmp_info_t *info, bmp_hdr_t *header); static int bmp_read_4bit(gdImagePtr im, gdIOCtxPtr infile, bmp_info_t *info, bmp_hdr_t *header); static int bmp_read_8bit(gdImagePtr im, gdIOCtxPtr infile, bmp_info_t *info, bmp_hdr_t *header); static int bmp_read_rle(gdImagePtr im, gdIOCtxPtr infile, bmp_info_t *info); #if GD_MAJOR_VERSION == 2 && GD_MINOR_VERSION < 1 /* Byte helper functions, since added to GD 2.1 */ static int gdGetIntLSB(signed int *result, gdIOCtx * ctx); static int gdGetWordLSB(signed short int *result, gdIOCtx * ctx); #endif #define BMP_DEBUG(s) gdImagePtr gdImageCreateFromBmpCtx(gdIOCtxPtr infile); gdImagePtr gdImageCreateFromBmp(FILE * inFile) { gdImagePtr im = 0; gdIOCtx *in = gdNewFileCtx(inFile); im = gdImageCreateFromBmpCtx(in); in->gd_free(in); return im; } gdImagePtr gdImageCreateFromBmpPtr(int size, void *data) { gdImagePtr im; gdIOCtx *in = gdNewDynamicCtxEx(size, data, 0); im = gdImageCreateFromBmpCtx(in); in->gd_free(in); return im; } gdImagePtr gdImageCreateFromBmpCtx(gdIOCtxPtr infile) { bmp_hdr_t *hdr; bmp_info_t *info; gdImagePtr im = NULL; int error = 0; if (!(hdr= (bmp_hdr_t *)gdCalloc(1, sizeof(bmp_hdr_t)))) { return NULL; } if (bmp_read_header(infile, hdr)) { gdFree(hdr); return NULL; } if (hdr->magic != 0x4d42) { gdFree(hdr); return NULL; } if (!(info = (bmp_info_t *)gdCalloc(1, sizeof(bmp_info_t)))) { gdFree(hdr); return NULL; } if (bmp_read_info(infile, info)) { gdFree(hdr); gdFree(info); return NULL; } BMP_DEBUG(printf("Numcolours: %d\n", info->numcolors)); BMP_DEBUG(printf("Width: %d\n", info->width)); BMP_DEBUG(printf("Height: %d\n", info->height)); BMP_DEBUG(printf("Planes: %d\n", info->numplanes)); BMP_DEBUG(printf("Depth: %d\n", info->depth)); BMP_DEBUG(printf("Offset: %d\n", hdr->off)); if (info->depth >= 16) { im = gdImageCreateTrueColor(info->width, info->height); } else { im = gdImageCreate(info->width, info->height); } if (!im) { gdFree(hdr); gdFree(info); return NULL; } switch (info->depth) { case 1: BMP_DEBUG(printf("1-bit image\n")); error = bmp_read_1bit(im, infile, info, hdr); break; case 4: BMP_DEBUG(printf("4-bit image\n")); error = bmp_read_4bit(im, infile, info, hdr); break; case 8: BMP_DEBUG(printf("8-bit image\n")); error = bmp_read_8bit(im, infile, info, hdr); break; case 16: case 24: case 32: BMP_DEBUG(printf("Direct BMP image\n")); error = bmp_read_direct(im, infile, info, hdr); break; default: BMP_DEBUG(printf("Unknown bit count\n")); error = 1; } gdFree(hdr); gdFree(info); if (error) { gdImageDestroy(im); return NULL; } return im; } static int bmp_read_header(gdIOCtx *infile, bmp_hdr_t *hdr) { if( !gdGetWordLSB(&hdr->magic, infile) || !gdGetIntLSB(&hdr->size, infile) || !gdGetWordLSB(&hdr->reserved1, infile) || !gdGetWordLSB(&hdr->reserved2 , infile) || !gdGetIntLSB(&hdr->off , infile) ) { return 1; } return 0; } static int bmp_read_info(gdIOCtx *infile, bmp_info_t *info) { /* read BMP length so we can work out the version */ if (!gdGetIntLSB(&info->len, infile)) { return 1; } switch (info->len) { /* For now treat Windows v4 + v5 as v3 */ case BMP_WINDOWS_V3: case BMP_WINDOWS_V4: case BMP_WINDOWS_V5: BMP_DEBUG(printf("Reading Windows Header\n")); if (bmp_read_windows_v3_info(infile, info)) { return 1; } break; case BMP_OS2_V1: if (bmp_read_os2_v1_info(infile, info)) { return 1; } break; case BMP_OS2_V2: if (bmp_read_os2_v2_info(infile, info)) { return 1; } break; default: BMP_DEBUG(printf("Unhandled bitmap\n")); return 1; } return 0; } static int bmp_read_windows_v3_info(gdIOCtxPtr infile, bmp_info_t *info) { if ( !gdGetIntLSB(&info->width, infile) || !gdGetIntLSB(&info->height, infile) || !gdGetWordLSB(&info->numplanes, infile) || !gdGetWordLSB(&info->depth, infile) || !gdGetIntLSB(&info->enctype, infile) || !gdGetIntLSB(&info->size, infile) || !gdGetIntLSB(&info->hres, infile) || !gdGetIntLSB(&info->vres, infile) || !gdGetIntLSB(&info->numcolors, infile) || !gdGetIntLSB(&info->mincolors, infile) ) { return 1; } if (info->height < 0) { info->topdown = 1; info->height = -info->height; } else { info->topdown = 0; } info->type = BMP_PALETTE_4; if (info->width <= 0 || info->height <= 0 || info->numplanes <= 0 || info->depth <= 0 || info->numcolors < 0 || info->mincolors < 0) { return 1; } return 0; } static int bmp_read_os2_v1_info(gdIOCtxPtr infile, bmp_info_t *info) { if ( !gdGetWordLSB((signed short int *)&info->width, infile) || !gdGetWordLSB((signed short int *)&info->height, infile) || !gdGetWordLSB(&info->numplanes, infile) || !gdGetWordLSB(&info->depth, infile) ) { return 1; } /* OS2 v1 doesn't support topdown */ info->topdown = 0; info->numcolors = 1 << info->depth; info->type = BMP_PALETTE_3; if (info->width <= 0 || info->height <= 0 || info->numplanes <= 0 || info->depth <= 0 || info->numcolors < 0) { return 1; } return 0; } static int bmp_read_os2_v2_info(gdIOCtxPtr infile, bmp_info_t *info) { char useless_bytes[24]; if ( !gdGetIntLSB(&info->width, infile) || !gdGetIntLSB(&info->height, infile) || !gdGetWordLSB(&info->numplanes, infile) || !gdGetWordLSB(&info->depth, infile) || !gdGetIntLSB(&info->enctype, infile) || !gdGetIntLSB(&info->size, infile) || !gdGetIntLSB(&info->hres, infile) || !gdGetIntLSB(&info->vres, infile) || !gdGetIntLSB(&info->numcolors, infile) || !gdGetIntLSB(&info->mincolors, infile) ) { return 1; } /* Lets seek the next 24 pointless bytes, we don't care too much about it */ if (!gdGetBuf(useless_bytes, 24, infile)) { return 1; } if (info->height < 0) { info->topdown = 1; info->height = -info->height; } else { info->topdown = 0; } info->type = BMP_PALETTE_4; if (info->width <= 0 || info->height <= 0 || info->numplanes <= 0 || info->depth <= 0 || info->numcolors < 0 || info->mincolors < 0) { return 1; } return 0; } static int bmp_read_direct(gdImagePtr im, gdIOCtxPtr infile, bmp_info_t *info, bmp_hdr_t *header) { int ypos = 0, xpos = 0, row = 0; int padding = 0, alpha = 0, red = 0, green = 0, blue = 0; signed short int data = 0; switch(info->enctype) { case BMP_BI_RGB: /* no-op */ break; case BMP_BI_BITFIELDS: if (info->depth == 24) { BMP_DEBUG(printf("Bitfield compression isn't supported for 24-bit\n")); return 1; } BMP_DEBUG(printf("Currently no bitfield support\n")); return 1; break; case BMP_BI_RLE8: if (info->depth != 8) { BMP_DEBUG(printf("RLE is only valid for 8-bit images\n")); return 1; } case BMP_BI_RLE4: if (info->depth != 4) { BMP_DEBUG(printf("RLE is only valid for 4-bit images\n")); return 1; } case BMP_BI_JPEG: case BMP_BI_PNG: default: BMP_DEBUG(printf("Unsupported BMP compression format\n")); return 1; } /* There is a chance the data isn't until later, would be wierd but it is possible */ if (gdTell(infile) != header->off) { /* Should make sure we don't seek past the file size */ gdSeek(infile, header->off); } /* The line must be divisible by 4, else its padded with NULLs */ padding = ((int)(info->depth / 8) * info->width) % 4; if (padding) { padding = 4 - padding; } for (ypos = 0; ypos < info->height; ++ypos) { if (info->topdown) { row = ypos; } else { row = info->height - ypos - 1; } for (xpos = 0; xpos < info->width; xpos++) { if (info->depth == 16) { if (!gdGetWordLSB(&data, infile)) { return 1; } BMP_DEBUG(printf("Data: %X\n", data)); red = ((data & 0x7C00) >> 10) << 3; green = ((data & 0x3E0) >> 5) << 3; blue = (data & 0x1F) << 3; BMP_DEBUG(printf("R: %d, G: %d, B: %d\n", red, green, blue)); } else if (info->depth == 24) { if (!gdGetByte(&blue, infile) || !gdGetByte(&green, infile) || !gdGetByte(&red, infile)) { return 1; } } else { if (!gdGetByte(&blue, infile) || !gdGetByte(&green, infile) || !gdGetByte(&red, infile) || !gdGetByte(&alpha, infile)) { return 1; } } /*alpha = gdAlphaMax - (alpha >> 1);*/ gdImageSetPixel(im, xpos, row, gdTrueColor(red, green, blue)); } for (xpos = padding; xpos > 0; --xpos) { if (!gdGetByte(&red, infile)) { return 1; } } } return 0; } static int bmp_read_palette(gdImagePtr im, gdIOCtxPtr infile, int count, int read_four) { int i; int r, g, b, z; for (i = 0; i < count; i++) { if ( !gdGetByte(&r, infile) || !gdGetByte(&g, infile) || !gdGetByte(&b, infile) || (read_four && !gdGetByte(&z, infile)) ) { return 1; } im->red[i] = r; im->green[i] = g; im->blue[i] = b; im->open[i] = 1; } return 0; } static int bmp_read_1bit(gdImagePtr im, gdIOCtxPtr infile, bmp_info_t *info, bmp_hdr_t *header) { int ypos = 0, xpos = 0, row = 0, index = 0; int padding = 0, current_byte = 0, bit = 0; if (info->enctype != BMP_BI_RGB) { return 1; } if (!info->numcolors) { info->numcolors = 2; } else if (info->numcolors < 0 || info->numcolors > 2) { return 1; } if (bmp_read_palette(im, infile, info->numcolors, (info->type == BMP_PALETTE_4))) { return 1; } im->colorsTotal = info->numcolors; /* There is a chance the data isn't until later, would be wierd but it is possible */ if (gdTell(infile) != header->off) { /* Should make sure we don't seek past the file size */ gdSeek(infile, header->off); } /* The line must be divisible by 4, else its padded with NULLs */ padding = ((int)ceill(0.1 * info->width)) % 4; if (padding) { padding = 4 - padding; } for (ypos = 0; ypos < info->height; ++ypos) { if (info->topdown) { row = ypos; } else { row = info->height - ypos - 1; } for (xpos = 0; xpos < info->width; xpos += 8) { /* Bitmaps are always aligned in bytes so we'll never overflow */ if (!gdGetByte(¤t_byte, infile)) { return 1; } for (bit = 0; bit < 8; bit++) { index = ((current_byte & (0x80 >> bit)) != 0 ? 0x01 : 0x00); if (im->open[index]) { im->open[index] = 0; } gdImageSetPixel(im, xpos + bit, row, index); /* No need to read anything extra */ if ((xpos + bit) >= info->width) { break; } } } for (xpos = padding; xpos > 0; --xpos) { if (!gdGetByte(&index, infile)) { return 1; } } } return 0; } static int bmp_read_4bit(gdImagePtr im, gdIOCtxPtr infile, bmp_info_t *info, bmp_hdr_t *header) { int ypos = 0, xpos = 0, row = 0, index = 0; int padding = 0, current_byte = 0; if (info->enctype != BMP_BI_RGB && info->enctype != BMP_BI_RLE4) { return 1; } if (!info->numcolors) { info->numcolors = 16; } else if (info->numcolors < 0 || info->numcolors > 16) { return 1; } if (bmp_read_palette(im, infile, info->numcolors, (info->type == BMP_PALETTE_4))) { return 1; } im->colorsTotal = info->numcolors; /* There is a chance the data isn't until later, would be wierd but it is possible */ if (gdTell(infile) != header->off) { /* Should make sure we don't seek past the file size */ gdSeek(infile, header->off); } /* The line must be divisible by 4, else its padded with NULLs */ padding = ((int)ceil(0.5 * info->width)) % 4; if (padding) { padding = 4 - padding; } switch (info->enctype) { case BMP_BI_RGB: for (ypos = 0; ypos < info->height; ++ypos) { if (info->topdown) { row = ypos; } else { row = info->height - ypos - 1; } for (xpos = 0; xpos < info->width; xpos += 2) { if (!gdGetByte(¤t_byte, infile)) { return 1; } index = (current_byte >> 4) & 0x0f; if (im->open[index]) { im->open[index] = 0; } gdImageSetPixel(im, xpos, row, index); /* This condition may get called often, potential optimsations */ if (xpos >= info->width) { break; } index = current_byte & 0x0f; if (im->open[index]) { im->open[index] = 0; } gdImageSetPixel(im, xpos + 1, row, index); } for (xpos = padding; xpos > 0; --xpos) { if (!gdGetByte(&index, infile)) { return 1; } } } break; case BMP_BI_RLE4: if (bmp_read_rle(im, infile, info)) { return 1; } break; default: return 1; } return 0; } static int bmp_read_8bit(gdImagePtr im, gdIOCtxPtr infile, bmp_info_t *info, bmp_hdr_t *header) { int ypos = 0, xpos = 0, row = 0, index = 0; int padding = 0; if (info->enctype != BMP_BI_RGB && info->enctype != BMP_BI_RLE8) { return 1; } if (!info->numcolors) { info->numcolors = 256; } else if (info->numcolors < 0 || info->numcolors > 256) { return 1; } if (bmp_read_palette(im, infile, info->numcolors, (info->type == BMP_PALETTE_4))) { return 1; } im->colorsTotal = info->numcolors; /* There is a chance the data isn't until later, would be wierd but it is possible */ if (gdTell(infile) != header->off) { /* Should make sure we don't seek past the file size */ gdSeek(infile, header->off); } /* The line must be divisible by 4, else its padded with NULLs */ padding = (1 * info->width) % 4; if (padding) { padding = 4 - padding; } switch (info->enctype) { case BMP_BI_RGB: for (ypos = 0; ypos < info->height; ++ypos) { if (info->topdown) { row = ypos; } else { row = info->height - ypos - 1; } for (xpos = 0; xpos < info->width; ++xpos) { if (!gdGetByte(&index, infile)) { return 1; } if (im->open[index]) { im->open[index] = 0; } gdImageSetPixel(im, xpos, row, index); } /* Could create a new variable, but it isn't really worth it */ for (xpos = padding; xpos > 0; --xpos) { if (!gdGetByte(&index, infile)) { return 1; } } } break; case BMP_BI_RLE8: if (bmp_read_rle(im, infile, info)) { return 1; } break; default: return 1; } return 0; } static int bmp_read_rle(gdImagePtr im, gdIOCtxPtr infile, bmp_info_t *info) { int ypos = 0, xpos = 0, row = 0, index = 0; int rle_length = 0, rle_data = 0; int padding = 0; int i = 0, j = 0; int pixels_per_byte = 8 / info->depth; for (ypos = 0; ypos < info->height && xpos <= info->width;) { if (!gdGetByte(&rle_length, infile) || !gdGetByte(&rle_data, infile)) { return 1; } row = info->height - ypos - 1; if (rle_length != BMP_RLE_COMMAND) { if (im->open[rle_data]) { im->open[rle_data] = 0; } for (i = 0; (i < rle_length) && (xpos < info->width);) { for (j = 1; (j <= pixels_per_byte) && (xpos < info->width) && (i < rle_length); j++, xpos++, i++) { index = (rle_data & (((1 << info->depth) - 1) << (8 - (j * info->depth)))) >> (8 - (j * info->depth)); if (im->open[index]) { im->open[index] = 0; } gdImageSetPixel(im, xpos, row, index); } } } else if (rle_length == BMP_RLE_COMMAND && rle_data > 2) { /* Uncompressed RLE needs to be even */ padding = 0; for (i = 0; (i < rle_data) && (xpos < info->width); i += pixels_per_byte) { int max_pixels = pixels_per_byte; if (!gdGetByte(&index, infile)) { return 1; } padding++; if (rle_data - i < max_pixels) { max_pixels = rle_data - i; } for (j = 1; (j <= max_pixels) && (xpos < info->width); j++, xpos++) { int temp = (index >> (8 - (j * info->depth))) & ((1 << info->depth) - 1); if (im->open[temp]) { im->open[temp] = 0; } gdImageSetPixel(im, xpos, row, temp); } } /* Make sure the bytes read are even */ if (padding % 2 && !gdGetByte(&index, infile)) { return 1; } } else if (rle_length == BMP_RLE_COMMAND && rle_data == BMP_RLE_ENDOFLINE) { /* Next Line */ xpos = 0; ypos++; } else if (rle_length == BMP_RLE_COMMAND && rle_data == BMP_RLE_DELTA) { /* Delta Record, used for bmp files that contain other data*/ if (!gdGetByte(&rle_length, infile) || !gdGetByte(&rle_data, infile)) { return 1; } xpos += rle_length; ypos += rle_data; } else if (rle_length == BMP_RLE_COMMAND && rle_data == BMP_RLE_ENDOFBITMAP) { /* End of bitmap */ break; } } return 0; } #if GD_MAJOR_VERSION == 2 && GD_MINOR_VERSION < 1 static int gdGetWordLSB(signed short int *result, gdIOCtx * ctx) { unsigned int high = 0, low = 0; low = (ctx->getC) (ctx); if (low == EOF) { return 0; } high = (ctx->getC) (ctx); if (high == EOF) { return 0; } if (result) { *result = (high << 8) | low; } return 1; } static int gdGetIntLSB(signed int *result, gdIOCtx * ctx) { int c = 0; unsigned int r = 0; c = (ctx->getC) (ctx); if (c == EOF) { return 0; } r |= (c << 24); r >>= 8; c = (ctx->getC) (ctx); if (c == EOF) { return 0; } r |= (c << 24); r >>= 8; c = (ctx->getC) (ctx); if (c == EOF) { return 0; } r |= (c << 24); r >>= 8; c = (ctx->getC) (ctx); if (c == EOF) { return 0; } r |= (c << 24); if (result) { *result = (signed int)r; } return 1; } #endif