/** rlatopam.c - read Alias/Wavefront RLA or RPF file ** ** Copyright (C) 2005 Matte World Digital ** ** Author: Simon Walton ** ** Permission to use, copy, modify, and distribute this software and its ** documentation for any purpose and without fee is hereby granted, provided ** that the above copyright notice appear in all copies and that both that ** copyright notice and this permission notice appear in supporting ** documentation. This software is provided "as is" without express or ** implied warranty. **/ #include #include #include "pm_c_util.h" #include "shhopt.h" #include "mallocvar.h" #include "pam.h" #include "rla.h" static int * offsets; static bool is_float; static bool has_matte; static unsigned int depth; static unsigned int width; static unsigned int height; static unsigned int chanBits; static short storageType; static struct pam outpam; static unsigned int numChan; static void parseCommandLine(int const argc, char ** const argv, const char ** const inputFileNameP) { if (argc-1 < 1) *inputFileNameP = "-"; else { *inputFileNameP = argv[1]; if (argc-1 > 1) pm_error("There is at most one argument - input file name. " "You specified %u", argc-1); } } static bool littleEndian; static void determineEndianness(void) { union { unsigned char bytes[2]; unsigned short number; } u; u.number = 1; littleEndian = (u.bytes[0] == 1); } static unsigned short byteswap(unsigned short const input) { return (input << 8) | (input >> 8); } static void read_header(FILE * const ifP, rlahdr * const hdrP) { rlahdr hdr; size_t bytesRead; fseek (ifP, 0, SEEK_SET); /* Here we have a hack. The bytes in the file are almost in the same format as the compiler stores 'hdr' in memory. The only difference is that the compiler may store the integer values in the obscene little-endian format. So we just read the whole header into 'hdr' as if it were the right format, and then correct the integer values by swapping their bytes. The _right_ way to do this is to read the file one field at a time, using pm_readbigshort() where appropriate. */ bytesRead = fread(&hdr, sizeof hdr, 1, ifP); if (bytesRead != 1) pm_error("Unexpected EOF on input file."); if (littleEndian) { hdr.window.left = byteswap(hdr.window.left); hdr.window.right = byteswap(hdr.window.right); hdr.window.bottom = byteswap(hdr.window.bottom); hdr.window.top = byteswap(hdr.window.top); hdr.active_window.left = byteswap(hdr.active_window.left); hdr.active_window.right = byteswap(hdr.active_window.right); hdr.active_window.bottom = byteswap(hdr.active_window.bottom); hdr.active_window.top = byteswap(hdr.active_window.top); hdr.storage_type = byteswap(hdr.storage_type); hdr.num_chan = byteswap(hdr.num_chan); hdr.num_matte = byteswap(hdr.num_matte); hdr.revision = byteswap(hdr.revision); hdr.chan_bits = byteswap(hdr.chan_bits); hdr.matte_type = byteswap(hdr.matte_type); hdr.matte_bits = byteswap(hdr.matte_bits); } if (hdr.revision != 0xfffe && hdr.revision != 0xfffd) pm_error("Invalid file header. \"revision\" field should contain " "0xfffe or 0xfffd, but contains 0x%04x", hdr.revision); *hdrP = hdr; } static void decodeFP(unsigned char * const in, unsigned char * const out, int const width, int const stride) { unsigned int x; unsigned char * inputCursor; unsigned char * outputCursor; inputCursor = &in[0]; for (x = 0; x < width; ++x) { union {char bytes [4]; float fv;} fi; unsigned short val; if (littleEndian) { fi.bytes [3] = *inputCursor++; fi.bytes [2] = *inputCursor++; fi.bytes [1] = *inputCursor++; fi.bytes [0] = *inputCursor++; } else { fi.bytes [0] = *inputCursor++; fi.bytes [1] = *inputCursor++; fi.bytes [2] = *inputCursor++; fi.bytes [3] = *inputCursor++; } val = fi.fv > 1 ? 65535 : (fi.fv < 0 ? 0 : (unsigned short) (65535 * fi.fv + .5)); outputCursor[0] = val >> 8; outputCursor[1] = val & 0xff; outputCursor += stride; } } static unsigned char * decode(unsigned char * const input, unsigned char * const output, int const xFile, int const xImage, int const stride) { int x; unsigned int bytes; unsigned int useX; unsigned char * inputCursor; unsigned char * outputCursor; inputCursor = &input[0]; outputCursor = &output[0]; x = xFile; bytes = 0; useX = 0; while (x > 0) { int count; count = *(signed char *)inputCursor++; ++bytes; if (count >= 0) { /* Repeat pixel value (count + 1) times. */ while (count-- >= 0) { if (useX < xImage) { *outputCursor = *inputCursor; outputCursor += stride; } --x; ++useX; } ++inputCursor; ++bytes; } else { /* Copy (-count) unencoded values. */ for (count = -count; count > 0; --count) { if (useX < xImage) { *outputCursor = *inputCursor; outputCursor += stride; } ++inputCursor; ++bytes; --x; ++useX; } } } return inputCursor; } static void decode_row(FILE * const ifP, int const row, unsigned char * const rb) { static unsigned char * read_buffer = NULL; unsigned int chan; int rc; if (!read_buffer) { MALLOCARRAY(read_buffer, width * 4); if (read_buffer == 0) pm_error("Unable to get memory for read_buffer"); } rc = fseek (ifP, offsets [height - row - 1], SEEK_SET); if (rc != 0) pm_error("fseek() failed with errno %d (%s)", errno, strerror(errno)); for (chan = 0; chan < outpam.depth; ++chan) { unsigned short length; size_t bytesRead; pm_readbigshortu(ifP, &length); if (length > width * 4) pm_error("Line too long - row %u, channel %u", row, chan); bytesRead = fread(read_buffer, 1, length, ifP); if (bytesRead != length) pm_error("EOF encountered unexpectedly"); if (is_float) decodeFP(read_buffer, rb + chan * 2, width, outpam.depth * 2); else if (depth > 8) { /* Hi byte */ unsigned char * const newpos = decode(read_buffer, rb + chan * 2, width, width, outpam.depth * 2); /* Lo byte */ decode(newpos, rb + chan * 2 + 1, width, width, outpam.depth * 2); } else decode(read_buffer, rb + chan, width, width, outpam.depth); } } static void getHeaderInfo(FILE * const ifP, unsigned int * const widthP, unsigned int * const heightP, unsigned int * const depthP, bool * const hasMatteP, unsigned int * const chanBitsP, short * const storageType) { rlahdr hdr; int width, height; read_header(ifP, &hdr); height = hdr.active_window.top - hdr.active_window.bottom + 1; width = hdr.active_window.right - hdr.active_window.left + 1; if (width <=0) pm_error("Invalid input image. It says its width isn't positive"); if (height <=0) pm_error("Invalid input image. It says its height isn't positive"); *widthP = width; *heightP = height; if (hdr.num_chan != 1 && hdr.num_chan != 3) pm_error ("Input image has bad number of channels: %d. " "Should be 1 or 3.", hdr.num_chan); *depthP = hdr.chan_bits <= 8 ? 8 : 16; *hasMatteP = (hdr.num_matte > 0); *chanBitsP = hdr.chan_bits; } static void readOffsetArray(FILE * const ifP, int ** const offsetsP, unsigned int const height) { int * offsets; unsigned int row; MALLOCARRAY(offsets, height); if (offsets == NULL) pm_error("Unable to allocate memory for the offsets array"); for (row = 0; row < height; ++row) { long l; pm_readbiglong(ifP, &l); offsets[row] = l; } *offsetsP = offsets; } static void destroyOffsetArray(int * const offsets) { free(offsets); } static void readAndWriteRaster(FILE * const ifP, const struct pam * const outpamP) { unsigned char * rowBuffer; tuple * tuplerow; unsigned int row; /* Hold one row of all image planes */ rowBuffer = calloc(1, width * outpamP->depth * 4); if (rowBuffer == NULL) pm_error("Unable to allocate memory for row buffer."); tuplerow = pnm_allocpamrow(outpamP); for (row = 0; row < height; ++row) { unsigned int col; unsigned char * rbP; decode_row(ifP, row, rowBuffer); for (col = 0, rbP = rowBuffer; col < width; ++col) { unsigned int chan; for (chan = 0; chan < outpamP->depth; ++chan) { if (depth > 8) { tuplerow[col][chan] = 256 * rbP[0] + rbP[1]; rbP += 2; } else { tuplerow[col][chan] = *rbP; rbP += 1; } } } pnm_writepamrow(outpamP, tuplerow); } pnm_freepamrow(tuplerow); free(rowBuffer); } int main(int argc, char * argv[]) { const char * inputFileName; FILE * ifP; pnm_init(&argc, argv); determineEndianness(); parseCommandLine(argc, argv, &inputFileName); ifP = pm_openr_seekable(inputFileName); getHeaderInfo(ifP, &width, &height, &depth, &has_matte, &chanBits, &storageType); outpam.size = outpam.len = sizeof (struct pam); outpam.file = stdout; outpam.format = PAM_FORMAT; outpam.height = height; outpam.width = width; outpam.depth = numChan + (has_matte ? 1 : 0); outpam.maxval = (1 << (chanBits > 16 ? (9 + (chanBits - 1) % 8) /* Take top 2 of 3 or 4 bytes */ : chanBits)) - 1; /* Most apps seem to assume 32 bit integer is really floating point */ if (chanBits == 32 || storageType == 4) { is_float = TRUE; outpam.maxval = 65535; depth = 16; } outpam.bytes_per_sample = depth / 8; strcpy(outpam.tuple_type, (numChan == 3 ? "RGB" : "GRAYSCALE")); if (has_matte) strcat(outpam.tuple_type, "A"); readOffsetArray(ifP, &offsets, height); pnm_writepaminit(&outpam); readAndWriteRaster(ifP, &outpam); destroyOffsetArray(offsets); pm_close(ifP); return 0; }