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author | giraffedata <giraffedata@9d0c8265-081b-0410-96cb-a4ca84ce46f8> | 2009-03-29 22:19:36 +0000 |
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committer | giraffedata <giraffedata@9d0c8265-081b-0410-96cb-a4ca84ce46f8> | 2009-03-29 22:19:36 +0000 |
commit | ac138b159f6a208dd964a8147cb39a2571092008 (patch) | |
tree | 5a4dfa10a5923670c9e160e96a29967f9aa76700 /editor/pnmscale.c | |
parent | 56fbd619bbac49a77ec0b48f06e6ed7bfb84468a (diff) | |
download | netpbm-mirror-ac138b159f6a208dd964a8147cb39a2571092008.tar.gz netpbm-mirror-ac138b159f6a208dd964a8147cb39a2571092008.tar.xz netpbm-mirror-ac138b159f6a208dd964a8147cb39a2571092008.zip |
Release 10.46.00
git-svn-id: http://svn.code.sf.net/p/netpbm/code/advanced@869 9d0c8265-081b-0410-96cb-a4ca84ce46f8
Diffstat (limited to 'editor/pnmscale.c')
-rw-r--r-- | editor/pnmscale.c | 748 |
1 files changed, 0 insertions, 748 deletions
diff --git a/editor/pnmscale.c b/editor/pnmscale.c deleted file mode 100644 index f75f440c..00000000 --- a/editor/pnmscale.c +++ /dev/null @@ -1,748 +0,0 @@ -/* pnmscale.c - read a portable anymap and scale it -** -** Copyright (C) 1989, 1991 by Jef Poskanzer. -** -** 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. -** -*/ - -/* - - DON'T ADD NEW FUNCTION TO THIS PROGRAM. ADD IT TO pamscale.c - INSTEAD. - -*/ - - -#include <math.h> -#include <string.h> - -#include "pnm.h" -#include "shhopt.h" - -/* The pnm library allows us to code this program without branching cases - for PGM and PPM, but we do the branch anyway to speed up processing of - PGM images. -*/ - - -struct cmdline_info { - /* All the information the user supplied in the command line, - in a form easy for the program to use. - */ - const char *input_filespec; /* Filespecs of input files */ - unsigned int xsize; - unsigned int ysize; - float xscale; - float yscale; - unsigned int xbox; - unsigned int ybox; - unsigned int pixels; - unsigned int verbose; - unsigned int nomix; -}; - - -static void -parse_command_line(int argc, char ** argv, - struct cmdline_info *cmdline_p) { -/*---------------------------------------------------------------------------- - Note that the file spec array we return is stored in the storage that - was passed to us as the argv array. ------------------------------------------------------------------------------*/ - optEntry *option_def = malloc( 100*sizeof( optEntry ) ); - /* Instructions to optParseOptions3 on how to parse our options. - */ - optStruct3 opt; - - unsigned int option_def_index; - unsigned int xysize; - int xsize, ysize, pixels; - int reduce; - float xscale, yscale, scale_parm; - - option_def_index = 0; /* incremented by OPTENTRY */ - OPTENT3(0, "xsize", OPT_UINT, &xsize, NULL, 0); - OPTENT3(0, "width", OPT_UINT, &xsize, NULL, 0); - OPTENT3(0, "ysize", OPT_UINT, &ysize, NULL, 0); - OPTENT3(0, "height", OPT_UINT, &ysize, NULL, 0); - OPTENT3(0, "xscale", OPT_FLOAT, &xscale, NULL, 0); - OPTENT3(0, "yscale", OPT_FLOAT, &yscale, NULL, 0); - OPTENT3(0, "pixels", OPT_UINT, &pixels, NULL, 0); - OPTENT3(0, "reduce", OPT_UINT, &reduce, NULL, 0); - OPTENT3(0, "xysize", OPT_FLAG, NULL, &xysize, 0); - OPTENT3(0, "verbose", OPT_FLAG, NULL, &cmdline_p->verbose, 0); - OPTENT3(0, "nomix", OPT_FLAG, NULL, &cmdline_p->nomix, 0); - - /* Set the defaults. -1 = unspecified */ - /* (Now that we're using ParseOptions3, we don't have to do this -1 - nonsense, but we don't want to risk screwing these complex - option compatibilities up, so we'll convert that later. - */ - xsize = -1; - ysize = -1; - xscale = -1.0; - yscale = -1.0; - pixels = -1; - reduce = -1; - - 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 */ - - optParseOptions3( &argc, argv, opt, sizeof(opt), 0 ); - /* Uses and sets argc, argv, and some of *cmdline_p and others. */ - - if (xsize == 0) - pm_error("-xsize/width must be greater than zero."); - if (ysize == 0) - pm_error("-ysize/height must be greater than zero."); - if (xscale != -1.0 && xscale <= 0.0) - pm_error("-xscale must be greater than zero."); - if (yscale != -1.0 && yscale <= 0.0) - pm_error("-yscale must be greater than zero."); - if (reduce <= 0 && reduce != -1) - pm_error("-reduce must be greater than zero."); - - if (xsize != -1 && xscale != -1) - pm_error("Cannot specify both -xsize/width and -xscale."); - if (ysize != -1 && yscale != -1) - pm_error("Cannot specify both -ysize/height and -yscale."); - - if (xysize && - (xsize != -1 || xscale != -1 || ysize != -1 || yscale != -1 || - reduce != -1 || pixels != -1) ) - pm_error("Cannot specify -xysize with other dimension options."); - if (pixels != -1 && - (xsize != -1 || xscale != -1 || ysize != -1 || yscale != -1 || - reduce != -1) ) - pm_error("Cannot specify -pixels with other dimension options."); - if (reduce != -1 && - (xsize != -1 || xscale != -1 || ysize != -1 || yscale != -1) ) - pm_error("Cannot specify -reduce with other dimension options."); - - if (pixels == 0) - pm_error("-pixels must be greater than zero"); - - /* Get the program parameters */ - - if (xysize) { - /* parameters are xbox, ybox, and optional filespec */ - scale_parm = 0.0; - if (argc-1 < 2) - pm_error("You must supply at least two parameters with -xysize:\n " - "x and y dimensions of the bounding box."); - else if (argc-1 > 3) - pm_error("Too many arguments. With -xysize, you need 2 or 3 " - "arguments."); - else { - char * endptr; - cmdline_p->xbox = strtol(argv[1], &endptr, 10); - if (strlen(argv[1]) > 0 && *endptr != '\0') - pm_error("horizontal xysize not an integer: '%s'", argv[1]); - if (cmdline_p->xbox <= 0) - pm_error("horizontal size is not positive: %d", - cmdline_p->xbox); - - cmdline_p->ybox = strtol(argv[2], &endptr, 10); - if (strlen(argv[2]) > 0 && *endptr != '\0') - pm_error("vertical xysize not an integer: '%s'", argv[2]); - if (cmdline_p->ybox <= 0) - pm_error("vertical size is not positive: %d", - cmdline_p->ybox); - - if (argc-1 < 3) - cmdline_p->input_filespec = "-"; - else - cmdline_p->input_filespec = argv[3]; - } - } else { - cmdline_p->xbox = 0; - cmdline_p->ybox = 0; - - if (xsize == -1 && xscale == -1 && ysize == -1 && yscale == -1 - && pixels == -1 && reduce == -1) { - /* parameters are scale factor and optional filespec */ - if (argc-1 < 1) - pm_error("With no dimension options, you must supply at least " - "one parameter: \nthe scale factor."); - else { - scale_parm = atof(argv[1]); - - if (scale_parm == 0.0) - pm_error("The scale parameter %s is not " - "a positive number.", - argv[1]); - else { - if (argc-1 < 2) - cmdline_p->input_filespec = "-"; - else - cmdline_p->input_filespec = argv[2]; - } - } - } else { - /* Only parameter allowed is optional filespec */ - if (argc-1 < 1) - cmdline_p->input_filespec = "-"; - else - cmdline_p->input_filespec = argv[1]; - - if (reduce != -1) { - scale_parm = ((double) 1.0) / ((double) reduce); - pm_message("reducing by %d gives scale factor of %f.", - reduce, scale_parm); - } else - scale_parm = 0.0; - } - } - - cmdline_p->xsize = xsize == -1 ? 0 : xsize; - cmdline_p->ysize = ysize == -1 ? 0 : ysize; - cmdline_p->pixels = pixels == -1 ? 0 : pixels; - - if (scale_parm) { - cmdline_p->xscale = scale_parm; - cmdline_p->yscale = scale_parm; - } else { - cmdline_p->xscale = xscale == -1.0 ? 0.0 : xscale; - cmdline_p->yscale = yscale == -1.0 ? 0.0 : yscale; - } -} - - - -static void -compute_output_dimensions(const struct cmdline_info cmdline, - const int rows, const int cols, - int * newrowsP, int * newcolsP) { - - if (cmdline.pixels) { - if (rows * cols <= cmdline.pixels) { - *newrowsP = rows; - *newcolsP = cols; - } else { - const double scale = - sqrt( (float) cmdline.pixels / ((float) cols * (float) rows)); - *newrowsP = rows * scale; - *newcolsP = cols * scale; - } - } else if (cmdline.xbox) { - const double aspect_ratio = (float) cols / (float) rows; - const double box_aspect_ratio = - (float) cmdline.xbox / (float) cmdline.ybox; - - if (box_aspect_ratio > aspect_ratio) { - *newrowsP = cmdline.ybox; - *newcolsP = *newrowsP * aspect_ratio + 0.5; - } else { - *newcolsP = cmdline.xbox; - *newrowsP = *newcolsP / aspect_ratio + 0.5; - } - } else { - if (cmdline.xsize) - *newcolsP = cmdline.xsize; - else if (cmdline.xscale) - *newcolsP = cmdline.xscale * cols + .5; - else if (cmdline.ysize) - *newcolsP = cols * ((float) cmdline.ysize/rows) +.5; - else - *newcolsP = cols; - - if (cmdline.ysize) - *newrowsP = cmdline.ysize; - else if (cmdline.yscale) - *newrowsP = cmdline.yscale * rows +.5; - else if (cmdline.xsize) - *newrowsP = rows * ((float) cmdline.xsize/cols) +.5; - else - *newrowsP = rows; - } - - /* If the calculations above yielded (due to rounding) a zero - dimension, we fudge it up to 1. We do this rather than considering - it a specification error (and dying) because it's friendlier to - automated processes that work on arbitrary input. It saves them - having to check their numbers to avoid catastrophe. - */ - - if (*newcolsP < 1) *newcolsP = 1; - if (*newrowsP < 1) *newrowsP = 1; -} - - - -static void -horizontal_scale(const xel inputxelrow[], xel newxelrow[], - const int cols, const int newcols, const float xscale, - const int format, const xelval maxval, - float * const stretchP) { -/*---------------------------------------------------------------------------- - Take the input row inputxelrow[], which is 'cols' columns wide, and - scale it by a factor of 'xscale', to create - the output row newxelrow[], which is 'newcols' columns wide. - - 'format' and 'maxval' describe the Netpbm format of the both input and - output rows. ------------------------------------------------------------------------------*/ - float r, g, b; - float fraccoltofill, fraccolleft; - unsigned int col; - unsigned int newcol; - - newcol = 0; - fraccoltofill = 1.0; /* Output column is "empty" now */ - r = g = b = 0; /* initial value */ - for (col = 0; col < cols; ++col) { - /* Process one pixel from input ('inputxelrow') */ - fraccolleft = xscale; - /* Output all columns, if any, that can be filled using information - from this input column, in addition to what's already in the output - column. - */ - while (fraccolleft >= fraccoltofill) { - /* Generate one output pixel in 'newxelrow'. It will consist - of anything accumulated from prior input pixels in 'r','g', - and 'b', plus a fraction of the current input pixel. - */ - switch (PNM_FORMAT_TYPE(format)) { - case PPM_TYPE: - r += fraccoltofill * PPM_GETR(inputxelrow[col]); - g += fraccoltofill * PPM_GETG(inputxelrow[col]); - b += fraccoltofill * PPM_GETB(inputxelrow[col]); - PPM_ASSIGN( newxelrow[newcol], - MIN(maxval, (int) (r + 0.5)), - MIN(maxval, (int) (g + 0.5)), - MIN(maxval, (int) (b + 0.5)) - ); - break; - - default: - g += fraccoltofill * PNM_GET1(inputxelrow[col]); - PNM_ASSIGN1( newxelrow[newcol], MIN(maxval, (int) (g + 0.5))); - break; - } - fraccolleft -= fraccoltofill; - /* Set up to start filling next output column */ - newcol++; - fraccoltofill = 1.0; - r = g = b = 0.0; - } - /* There's not enough left in the current input pixel to fill up - a whole output column, so just accumulate the remainder of the - pixel into the current output column. - */ - if (fraccolleft > 0.0) { - switch (PNM_FORMAT_TYPE(format)) { - case PPM_TYPE: - r += fraccolleft * PPM_GETR(inputxelrow[col]); - g += fraccolleft * PPM_GETG(inputxelrow[col]); - b += fraccolleft * PPM_GETB(inputxelrow[col]); - break; - - default: - g += fraccolleft * PNM_GET1(inputxelrow[col]); - break; - } - fraccoltofill -= fraccolleft; - } - } - - if (newcol < newcols-1 || newcol > newcols) - pm_error("Internal error: last column filled is %d, but %d " - "is the rightmost output column.", - newcol, newcols-1); - - if (newcol < newcols ) { - /* We were still working on the last output column when we - ran out of input columns. This would be because of rounding - down, and we should be missing only a tiny fraction of that - last output column. - */ - - *stretchP = fraccoltofill; - - switch (PNM_FORMAT_TYPE(format)) { - case PPM_TYPE: - r += fraccoltofill * PPM_GETR(inputxelrow[cols-1]); - g += fraccoltofill * PPM_GETG(inputxelrow[cols-1]); - b += fraccoltofill * PPM_GETB(inputxelrow[cols-1]); - - PPM_ASSIGN(newxelrow[newcol], - MIN(maxval, (int) (r + 0.5)), - MIN(maxval, (int) (g + 0.5)), - MIN(maxval, (int) (b + 0.5)) - ); - break; - - default: - g += fraccoltofill * PNM_GET1(inputxelrow[cols-1]); - PNM_ASSIGN1( newxelrow[newcol], MIN(maxval, (int) (g + 0.5))); - break; - } - } else - *stretchP = 0; -} - - - -static void -zeroAccum(int const cols, int const format, - float rs[], float gs[], float bs[]) { - - int col; - - for ( col = 0; col < cols; ++col ) - rs[col] = gs[col] = bs[col] = 0.0; -} - - - -static void -accumOutputRow(xel * const xelrow, float const fraction, - float rs[], float gs[], float bs[], - int const cols, int const format) { -/*---------------------------------------------------------------------------- - Take 'fraction' times the color in row xelrow and add it to - rs/gs/bs. 'fraction' is less than 1.0. ------------------------------------------------------------------------------*/ - int col; - - switch ( PNM_FORMAT_TYPE(format) ) { - case PPM_TYPE: - for ( col = 0; col < cols; ++col ) { - rs[col] += fraction * PPM_GETR(xelrow[col]); - gs[col] += fraction * PPM_GETG(xelrow[col]); - bs[col] += fraction * PPM_GETB(xelrow[col]); - } - break; - - default: - for ( col = 0; col < cols; ++col) - gs[col] += fraction * PNM_GET1(xelrow[col]); - break; - } -} - - - -static void -makeRow(xel * const xelrow, float rs[], float gs[], float bs[], - int const cols, xelval const maxval, int const format) { -/*---------------------------------------------------------------------------- - Make an xel row at 'xelrow' with format 'format' and - maxval 'maxval' out of the color values in - rs[], gs[], and bs[]. ------------------------------------------------------------------------------*/ - int col; - - switch ( PNM_FORMAT_TYPE(format) ) { - case PPM_TYPE: - for ( col = 0; col < cols; ++col) { - PPM_ASSIGN(xelrow[col], - MIN(maxval, (int) (rs[col] + 0.5)), - MIN(maxval, (int) (gs[col] + 0.5)), - MIN(maxval, (int) (bs[col] + 0.5)) - ); - } - break; - - default: - for ( col = 0; col < cols; ++col ) { - PNM_ASSIGN1(xelrow[col], - MIN(maxval, (int) (gs[col] + 0.5))); - } - break; - } -} - - - -static void -scaleWithMixing(FILE * const ifP, - int const cols, int const rows, - xelval const maxval, int const format, - int const newcols, int const newrows, - xelval const newmaxval, int const newformat, - float const xscale, float const yscale, - bool const verbose) { -/*---------------------------------------------------------------------------- - Scale the image on input file 'ifP' (which is described by - 'cols', 'rows', 'format', and 'maxval') by xscale horizontally and - yscale vertically and write the result to standard output as format - 'newformat' and with maxval 'newmaxval'. - - The input file is positioned past the header, to the beginning of the - raster. The output file is too. - - Mix colors from input rows together in the output rows. ------------------------------------------------------------------------------*/ - /* Here's how we think of the color mixing scaling operation: - - First, I'll describe scaling in one dimension. Assume we have - a one row image. A raster row is ordinarily a sequence of - discrete pixels which have no width and no distance between - them -- only a sequence. Instead, think of the raster row as a - bunch of pixels 1 unit wide adjacent to each other. For - example, we are going to scale a 100 pixel row to a 150 pixel - row. Imagine placing the input row right above the output row - and stretching it so it is the same size as the output row. It - still contains 100 pixels, but they are 1.5 units wide each. - Our goal is to make the output row look as much as possible - like the input row, while observing that a pixel can be only - one color. - - Output Pixel 0 is completely covered by Input Pixel 0, so we - make Output Pixel 0 the same color as Input Pixel 0. Output - Pixel 1 is covered half by Input Pixel 0 and half by Input - Pixel 1. So we make Output Pixel 1 a 50/50 mix of Input Pixels - 0 and 1. If you stand back far enough, input and output will - look the same. - - This works for all scale factors, both scaling up and scaling down. - - This program always stretches or squeezes the input row to be the - same length as the output row; The output row's pixels are always - 1 unit wide. - - The same thing works in the vertical direction. We think of - rows as stacked strips of 1 unit height. We conceptually - stretch the image vertically first (same process as above, but - in place of a single-color pixels, we have a vector of colors). - Then we take each row this vertical stretching generates and - stretch it horizontally. - */ - - xel* xelrow; /* An input row */ - xel* vertScaledRow; - /* An output row after vertical scaling, but before horizontal - scaling - */ - xel* newxelrow; - float rowsleft; - /* The number of rows of output that need to be formed from the - current input row (the one in xelrow[]), less the number that - have already been formed (either in the rs/gs/bs accumulators - or output to the file). This can be fractional because of the - way we define rows as having height. - */ - float fracrowtofill; - /* The fraction of the current output row (the one in vertScaledRow[]) - that hasn't yet been filled in from an input row. - */ - float *rs, *gs, *bs; - /* The red, green, and blue color intensities so far accumulated - from input rows for the current output row. - */ - int rowsread; - /* Number of rows of the input file that have been read */ - int row; - - xelrow = pnm_allocrow(cols); - vertScaledRow = pnm_allocrow(cols); - rs = (float*) pm_allocrow( cols, sizeof(float) ); - gs = (float*) pm_allocrow( cols, sizeof(float) ); - bs = (float*) pm_allocrow( cols, sizeof(float) ); - rowsread = 0; - rowsleft = 0.0; - zeroAccum(cols, format, rs, gs, bs); - fracrowtofill = 1.0; - - newxelrow = pnm_allocrow( newcols ); - - for ( row = 0; row < newrows; ++row ) { - /* First scale Y from xelrow[] into vertScaledRow[]. */ - - if ( newrows == rows ) { /* shortcut Y scaling if possible */ - pnm_readpnmrow( ifP, vertScaledRow, cols, newmaxval, format ); - } else { - while (fracrowtofill > 0) { - if (rowsleft <= 0.0) { - if (rowsread < rows) { - pnm_readpnmrow(ifP, xelrow, cols, newmaxval, format); - ++rowsread; - } else { - /* We need another input row to fill up this - output row, but there aren't any more. - That's because of rounding down on our - scaling arithmetic. So we go ahead with - the data from the last row we read, which - amounts to stretching out the last output - row. - */ - if (verbose) - pm_message("%f of bottom row stretched due to " - "arithmetic imprecision", - fracrowtofill); - } - rowsleft = yscale; - } - if (rowsleft < fracrowtofill) { - accumOutputRow(xelrow, rowsleft, rs, gs, bs, - cols, format); - fracrowtofill -= rowsleft; - rowsleft = 0.0; - } else { - accumOutputRow(xelrow, fracrowtofill, rs, gs, bs, - cols, format); - rowsleft = rowsleft - fracrowtofill; - fracrowtofill = 0.0; - } - } - makeRow(vertScaledRow, rs, gs, bs, cols, newmaxval, format); - zeroAccum(cols, format, rs, gs, bs); - fracrowtofill = 1.0; - } - - /* Now scale vertScaledRow horizontally into newxelrow and write - it out. - */ - - if (newcols == cols) /* shortcut X scaling if possible */ - pnm_writepnmrow(stdout, vertScaledRow, newcols, - newmaxval, newformat, 0); - else { - float stretch; - - horizontal_scale(vertScaledRow, newxelrow, cols, newcols, xscale, - format, newmaxval, &stretch); - - if (verbose && row == 0) - pm_message("%f of right column stretched due to " - "arithmetic imprecision", - stretch); - - pnm_writepnmrow(stdout, newxelrow, newcols, - newmaxval, newformat, 0 ); - } - } - pnm_freerow(newxelrow); - pnm_freerow(xelrow); - pnm_freerow(vertScaledRow); -} - - - -static void -scaleWithoutMixing(FILE * const ifP, - int const cols, int const rows, - xelval const maxval, int const format, - int const newcols, int const newrows, - xelval const newmaxval, int const newformat, - float const xscale, float const yscale) { -/*---------------------------------------------------------------------------- - Scale the image on input file 'ifP' (which is described by - 'cols', 'rows', 'format', and 'maxval') by xscale horizontally and - yscale vertically and write the result to standard output as format - 'newformat' and with maxval 'newmaxval'. - - The input file is positioned past the header, to the beginning of the - raster. The output file is too. - - Don't mix colors from different input pixels together in the output - pixels. Each output pixel is an exact copy of some corresponding - input pixel. ------------------------------------------------------------------------------*/ - xel* xelrow; /* An input row */ - xel* newxelrow; - int row; - int rowInXelrow; - - xelrow = pnm_allocrow(cols); - rowInXelrow = -1; - - newxelrow = pnm_allocrow(newcols); - - for (row = 0; row < newrows; ++row) { - int col; - - int const inputRow = (int) (row / yscale); - - for (; rowInXelrow < inputRow; ++rowInXelrow) - pnm_readpnmrow(ifP, xelrow, cols, newmaxval, format); - - - for (col = 0; col < newcols; ++col) { - int const inputCol = (int) (col / xscale); - - newxelrow[col] = xelrow[inputCol]; - } - - pnm_writepnmrow(stdout, newxelrow, newcols, - newmaxval, newformat, 0 ); - } - pnm_freerow(xelrow); - pnm_freerow(newxelrow); -} - - - -int -main(int argc, char **argv ) { - - struct cmdline_info cmdline; - FILE* ifP; - int rows, cols, format, newformat, newrows, newcols; - xelval maxval, newmaxval; - float xscale, yscale; - - pnm_init( &argc, argv ); - - parse_command_line(argc, argv, &cmdline); - - ifP = pm_openr(cmdline.input_filespec); - - pnm_readpnminit( ifP, &cols, &rows, &maxval, &format ); - - /* Promote PBM files to PGM. */ - if ( PNM_FORMAT_TYPE(format) == PBM_TYPE ) { - newformat = PGM_TYPE; - newmaxval = PGM_MAXMAXVAL; - pm_message( "promoting from PBM to PGM" ); - } else { - newformat = format; - newmaxval = maxval; - } - compute_output_dimensions(cmdline, rows, cols, &newrows, &newcols); - - /* We round the scale factor down so that we never fill up the - output while (a fractional pixel of) input remains unused. Instead, - we will run out of input while (a fractional pixel of) output is - unfilled -- which is easier for our algorithm to handle. - */ - xscale = (float) newcols / cols; - yscale = (float) newrows / rows; - - if (cmdline.verbose) { - pm_message("Scaling by %f horizontally to %d columns.", - xscale, newcols ); - pm_message("Scaling by %f vertically to %d rows.", - yscale, newrows); - } - - if (xscale * cols < newcols - 1 || - yscale * rows < newrows - 1) - pm_error("Arithmetic precision of this program is inadequate to " - "do the specified scaling. Use a smaller input image " - "or a slightly different scale factor."); - - pnm_writepnminit(stdout, newcols, newrows, newmaxval, newformat, 0); - - if (cmdline.nomix) - scaleWithoutMixing(ifP, cols, rows, maxval, format, - newcols, newrows, newmaxval, newformat, - xscale, yscale); - else - scaleWithMixing(ifP, cols, rows, maxval, format, - newcols, newrows, newmaxval, newformat, - xscale, yscale, cmdline.verbose); - - pm_close(ifP); - pm_close(stdout); - - exit(0); -} |