/* sbigtopgm.c - read a Santa Barbara Instruments Group CCDOPS file Note: All SBIG CCD astronomical cameras produce 14 bits (the ST-4 and ST-5) or 16 bits (ST-6 and later) per pixel. If you find yourself having to add functionality included subsequent to the implementation of this program, you can probably find documentation of any changes to the SBIG file format on their Web site: http://www.sbig.com/ Copyright (C) 1998 by John Walker http://www.fourmilab.ch/ 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 "pm_c_util.h" #include "mallocvar.h" #include "nstring.h" #include "shhopt.h" #include "pm.h" #include "pgm.h" struct CmdlineInfo { /* All the information the user supplied in the command line, in a form easy for the program to use. */ const char * inputFileName; }; static void parseCommandLine(int argc, const char ** argv, struct CmdlineInfo * const cmdlineP) { /*---------------------------------------------------------------------------- Note that the file spec array we return is stored in the storage that was passed to as as the argv array. -----------------------------------------------------------------------------*/ optEntry * option_def; optStruct3 opt; unsigned int option_def_index; MALLOCARRAY_NOFAIL(option_def, 100); OPTENTINIT; opt.opt_table = option_def; opt.short_allowed = FALSE; /* We have no short (old-fashioned) options */ opt.allowNegNum = FALSE; /* We have no parms that are negative numbers */ pm_optParseOptions4(&argc, argv, opt, sizeof(opt), 0); /* Uses and sets argc, argv, and some of *cmdlineP and others */ if (argc-1 < 1) cmdlineP->inputFileName = "-"; else { cmdlineP->inputFileName = argv[1]; if (argc-1 > 1) pm_error("Too many arguments. The only possible argument is the " "optional input file name"); } } #define SBIG_HEADER_LENGTH 2048 /* File header length */ static void looseCanon(char * const cpArg) { /*---------------------------------------------------------------------------- Canonicalize a line from the file header so items more sloppily formatted than those written by CCDOPS are still accepted. Remove all whitespace and make all letters lowercase. Note that the SBIG Type 3 format specification at www.sbig.com in January 2015 says header parameter names are capitalized like 'Height'; we change that to "height". The spec also says the line ends with LF, then CR (yes, really). Assuming Caller separates lines at LF, that means we see CR at the beginning of all lines but the first. We remove that. -----------------------------------------------------------------------------*/ char * cp; char * op; char c; cp = cpArg; /* initial value */ op = cpArg; /* initial value */ while ((c = *cp++) != 0) { if (!ISSPACE(c)) { if (ISUPPER(c)) c = tolower(c); *op++ = c; } } *op++ = '\0'; } struct SbigHeader { /*---------------------------------------------------------------------------- The information in an SBIG file header. This is only the information this program cares about; the header may have much more information in it. -----------------------------------------------------------------------------*/ unsigned int rows; unsigned int cols; unsigned int maxval; bool isCompressed; const char * cameraType; /* Null means information not in header */ }; static void readSbigHeader(FILE * const ifP, struct SbigHeader * const sbigHeaderP) { size_t rc; bool gotCompression; bool gotWidth; bool gotHeight; char * buffer; /* malloced */ char * cursor; bool endOfHeader; MALLOCARRAY_NOFAIL(buffer, SBIG_HEADER_LENGTH + 1); rc = fread(buffer, SBIG_HEADER_LENGTH, 1, ifP); if (rc < 1) pm_error("error reading SBIG file header"); buffer[SBIG_HEADER_LENGTH] = '\0'; /* The SBIG header specification equivalent to maxval is "Sat_level", the saturation level of the image. This specification is optional, and was not included in files written by early versions of CCDOPS. It was introduced when it became necessary to distinguish 14-bit images with a Sat_level of 16383 from 16-bit images which saturate at 65535. In addition, co-adding images or capturing with Track and Accumulate can increase the saturation level. Since files which don't have a Sat_level line in the header were most probably written by early drivers for the ST-4 or ST-5, it might seem reasonable to make the default for maxval 16383, the correct value for those cameras. I chose instead to use 65535 as the default because the overwhelming majority of cameras in use today are 16 bit, and it's possible some non-SBIG software may omit the "optional" Sat_level specification. Also, no harm is done if a larger maxval is specified than appears in the image--a simple contrast stretch will adjust pixels to use the full 0 to maxval range. The converse, pixels having values greater than maxval, results in an invalid file which may cause problems in programs which attempt to process it. According to the official specification, the camera type name is the first item in the header, and may or may not start with "ST-". But this program has historically had an odd method of detecting camera type, which allows any string starting with "ST-" anywhere in the header, and for now we leave that undisturbed. 2015.05.27. */ gotCompression = false; /* initial value */ gotWidth = false; /* initial value */ gotHeight = false; /* initial value */ sbigHeaderP->maxval = 65535; /* initial assumption */ sbigHeaderP->cameraType = NULL; /* initial assumption */ for (cursor = &buffer[0], endOfHeader = false; !endOfHeader;) { char * const cp = strchr(cursor, '\n'); if (cp == NULL) { pm_error("malformed SBIG file header at character %u", (unsigned)(cursor - &buffer[0])); } *cp = '\0'; if (strneq(cursor, "ST-", 3) || (cursor == &buffer[0] && strstr(cursor,"Image") != NULL)) { char * const ep = strchr(cursor + 3, ' '); if (ep != NULL) { *ep = '\0'; sbigHeaderP->cameraType = pm_strdup(cursor); *ep = ' '; } } looseCanon(cursor); /* Convert from standard SBIG to an internal format */ if (strneq(cursor, "st-", 3) || cursor == &buffer[0]) { sbigHeaderP->isCompressed = (strstr(cursor, "compressedimage") != NULL); gotCompression = true; } else if (strneq(cursor, "height=", 7)) { sbigHeaderP->rows = atoi(cursor + 7); gotHeight = true; } else if (strneq(cursor, "width=", 6)) { sbigHeaderP->cols = atoi(cursor + 6); gotWidth = true; } else if (strneq(cursor, "sat_level=", 10)) { sbigHeaderP->maxval = atoi(cursor + 10); } else if (streq("end", cursor)) { endOfHeader = true; } cursor = cp + 1; } if (!gotCompression) pm_error("Required 'ST-*' specification missing " "from SBIG file header"); if (!gotHeight) pm_error("required 'height=' specification missing" "from SBIG file header"); if (!gotWidth) pm_error("required 'width=' specification missing " "from SBIG file header"); } static void termSbigHeader(struct SbigHeader const sbigHeader) { if (sbigHeader.cameraType) pm_strfree(sbigHeader.cameraType); } static void writeRaster(FILE * const ifP, struct SbigHeader const hdr, FILE * const ofP) { gray * grayrow; unsigned int row; grayrow = pgm_allocrow(hdr.cols); for (row = 0; row < hdr.rows; ++row) { bool compthis; unsigned int col; if (hdr.isCompressed) { unsigned short rowlen; /* Compressed row length */ pm_readlittleshortu(ifP, &rowlen); /* If compression results in a row length >= the uncompressed row length, that row is output uncompressed. We detect this by observing that the compressed row length is equal to that of an uncompressed row. */ if (rowlen == hdr.cols * 2) compthis = false; else compthis = hdr.isCompressed; } else compthis = hdr.isCompressed; for (col = 0; col < hdr.cols; ++col) { unsigned short g; if (compthis) { if (col == 0) { pm_readlittleshortu(ifP, &g); } else { int const delta = getc(ifP); if (delta == 0x80) pm_readlittleshortu(ifP, &g); else g += ((signed char) delta); } } else pm_readlittleshortu(ifP, &g); grayrow[col] = g; } pgm_writepgmrow(ofP, grayrow, hdr.cols, hdr.maxval, 0); } pgm_freerow(grayrow); } int main(int argc, const char ** argv) { FILE * ifP; struct CmdlineInfo cmdline; struct SbigHeader hdr; pm_proginit(&argc, argv); parseCommandLine(argc, argv, &cmdline); ifP = pm_openr(cmdline.inputFileName); readSbigHeader(ifP, &hdr); pm_message("SBIG '%s' %ux%u %s image, saturation level = %u", (hdr.cameraType ? hdr.cameraType : "ST-?"), hdr.cols, hdr.rows, hdr.isCompressed ? "compressed" : "uncompressed", hdr.maxval); if (hdr.maxval > PGM_OVERALLMAXVAL) { pm_error("Saturation level (%u levels) is too large" "This program's limit is %u.", hdr.maxval, PGM_OVERALLMAXVAL); } pgm_writepgminit(stdout, hdr.cols, hdr.rows, hdr.maxval, 0); writeRaster(ifP, hdr, stdout); termSbigHeader(hdr); pm_close(ifP); pm_close(stdout); return 0; }