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authorgiraffedata <giraffedata@9d0c8265-081b-0410-96cb-a4ca84ce46f8>2023-12-30 20:48:33 +0000
committergiraffedata <giraffedata@9d0c8265-081b-0410-96cb-a4ca84ce46f8>2023-12-30 20:48:33 +0000
commitb60dd2c9bd33467cb35fba57c89a673b6a4b03e2 (patch)
treee38958a386455f11f0826d239cbb1bb74c1861ff /converter
parentdc09b02cda8e0c43a2bc05ea0e7bb970bda120cf (diff)
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cleanup
git-svn-id: http://svn.code.sf.net/p/netpbm/code/trunk@4832 9d0c8265-081b-0410-96cb-a4ca84ce46f8
Diffstat (limited to 'converter')
-rw-r--r--converter/other/pamtogif.c292
1 files changed, 157 insertions, 135 deletions
diff --git a/converter/other/pamtogif.c b/converter/other/pamtogif.c
index 11e9bdcd..bc89607d 100644
--- a/converter/other/pamtogif.c
+++ b/converter/other/pamtogif.c
@@ -118,7 +118,7 @@ pamAlphaPlane(struct pam * const pamP) {
 
 
 static void
-parseCommandLine(int argc, char ** argv,
+parseCommandLine(int argc, const char ** argv,
                  struct CmdlineInfo * const cmdlineP) {
 /*----------------------------------------------------------------------------
    Parse the program arguments (given by argc and argv) into a form
@@ -172,7 +172,7 @@ parseCommandLine(int argc, char ** argv,
     opt.short_allowed = FALSE;  /* We have no short (old-fashioned) options */
     opt.allowNegNum = FALSE;  /* We have no parms that are negative numbers */
 
-    pm_optParseOptions3(&argc, argv, opt, sizeof(opt), 0);
+    pm_optParseOptions3(&argc, (char **)argv, opt, sizeof(opt), 0);
         /* Uses and sets argc, argv, and some of *cmdlineP and others. */
 
     if (argc-1 == 0)
@@ -316,7 +316,7 @@ rowReader_destroy(RowReader * const rdrP) {
 
 
 static void
-rowReaderSkipRows(RowReader *  const rdrP,
+rowReader_skipRows(RowReader *  const rdrP,
                   unsigned int const rowCount,
                   bool *       const eofP) {
 /*----------------------------------------------------------------------------
@@ -347,7 +347,7 @@ rowReaderSkipRows(RowReader *  const rdrP,
 
 
 static void
-rowReaderGotoNextInterlaceRow(RowReader * const rdrP) {
+rowReader_gotoNextInterlaceRow(RowReader * const rdrP) {
 /*----------------------------------------------------------------------------
   Position reader to the next row in the interlace pattern, assuming it
   is now positioned immediately after the current row.
@@ -363,16 +363,16 @@ rowReaderGotoNextInterlaceRow(RowReader * const rdrP) {
 
     switch (rdrP->pass) {
     case MULT8PLUS0:
-        rowReaderSkipRows(rdrP, 7, &endOfPass);
+        rowReader_skipRows(rdrP, 7, &endOfPass);
         break;
     case MULT8PLUS4:
-        rowReaderSkipRows(rdrP, 7, &endOfPass);
+        rowReader_skipRows(rdrP, 7, &endOfPass);
         break;
     case MULT4PLUS2:
-        rowReaderSkipRows(rdrP, 3, &endOfPass);
+        rowReader_skipRows(rdrP, 3, &endOfPass);
         break;
     case MULT2PLUS1:
-        rowReaderSkipRows(rdrP, 1, &endOfPass);
+        rowReader_skipRows(rdrP, 1, &endOfPass);
         break;
     }
 
@@ -387,15 +387,15 @@ rowReaderGotoNextInterlaceRow(RowReader * const rdrP) {
         switch (rdrP->pass) {
         case MULT8PLUS0:
             rdrP->pass = MULT8PLUS4;
-            rowReaderSkipRows(rdrP, 4, &endOfPass);
+            rowReader_skipRows(rdrP, 4, &endOfPass);
             break;
         case MULT8PLUS4:
             rdrP->pass = MULT4PLUS2;
-            rowReaderSkipRows(rdrP, 2, &endOfPass);
+            rowReader_skipRows(rdrP, 2, &endOfPass);
             break;
         case MULT4PLUS2:
             rdrP->pass = MULT2PLUS1;
-            rowReaderSkipRows(rdrP, 1, &endOfPass);
+            rowReader_skipRows(rdrP, 1, &endOfPass);
             break;
         case MULT2PLUS1:
             rdrP->eof = TRUE;
@@ -407,7 +407,7 @@ rowReaderGotoNextInterlaceRow(RowReader * const rdrP) {
 
 
 static void
-rowReaderGotoNextStraightRow(RowReader * const rdrP) {
+rowReader_gotoNextStraightRow(RowReader * const rdrP) {
 /*----------------------------------------------------------------------------
   Position reader to the next row in a straight, non-interlace
   pattern, assuming the file is now positioned immediately after the
@@ -434,9 +434,9 @@ rowReader_read(RowReader * const rdrP,
     ++rdrP->nextRow;
 
     if (rdrP->interlace)
-        rowReaderGotoNextInterlaceRow(rdrP);
+        rowReader_gotoNextInterlaceRow(rdrP);
     else
-        rowReaderGotoNextStraightRow(rdrP);
+        rowReader_gotoNextStraightRow(rdrP);
 }
 
 
@@ -1270,89 +1270,6 @@ writePixelUncompressed(LzwCompressor * const lzwP,
 
 
 static void
-writeRaster(struct pam *  const pamP,
-            RowReader *   const rowReaderP,
-            unsigned int  const alphaPlane,
-            unsigned int  const alphaThreshold,
-            struct Cmap * const cmapP,
-            unsigned int  const initBits,
-            FILE *        const ofP,
-            bool          const lzw,
-            bool          const noclear) {
-/*----------------------------------------------------------------------------
-   Write the raster to file 'ofP'.
-
-   Get the raster to write from 'rowReaderP', which gives tuples whose
-   format is described by 'pamP'.
-
-   'alphaPlane' is the number of the plane in the tuples supplied by
-   'rowReaderP' that we should use for transparency information, and
-   'alphaThreshold' is the value in that plane below which we should consider
-   the pixel transparent for GIF purposes.
-
-   'alphaPlane' is zero to indicate we should not use any plane as an alpha
-   plane (so it's not possible to specify Plane 0 as alpha).
-
-   Use the colormap 'cmapP' to generate the raster ('rowReaderP' gives
-   pixel values as RGB samples; the GIF raster is colormap indices).
-
-   Write the raster using LZW compression, or uncompressed depending
-   on 'lzw'.
-
-   If 'noclear', don't use any GIF clear codes in the output; i.e. don't
-   recompute the string table from current input.  Once the string table gets
-   to maximum size, just keep using that table for the rest of the image.
------------------------------------------------------------------------------*/
-    LzwCompressor * lzwP;
-    tuple * tuplerow;
-    unsigned int nRowsDone;
-        /* Number of rows we have read so far from the the input (the
-           last of which is the one we're working on now).  Note that
-           in case of interlace, this is not the same thing as the row
-           number of the current row.
-        */
-
-    lzwP = lzw_create(ofP, initBits, lzw, noclear, pamP->height * pamP->width);
-
-    tuplerow = pnm_allocpamrow(pamP);
-
-    lzw_clearBlock(lzwP);
-
-    nRowsDone = 0;
-
-    while (nRowsDone < pamP->height) {
-        unsigned int col;
-
-        rowReader_read(rowReaderP, tuplerow);
-
-        for (col = 0; col < pamP->width; ++col) {
-            unsigned int const colorIndex =
-                gifPixel(pamP, tuplerow[col], alphaPlane, alphaThreshold,
-                         cmapP);
-
-                /* The value for the pixel in the GIF image.  I.e. the colormap
-                   index.
-                */
-            if (lzw)
-                lzw_encodePixel(lzwP, colorIndex);
-            else
-                writePixelUncompressed(lzwP, colorIndex);
-        }
-        ++nRowsDone;
-    }
-    /* Gif is no good with no pixels; fortunately, that's impossible: */
-    assert(nRowsDone > 0);
-
-    lzw_flush(lzwP);
-
-    pnm_freepamrow(tuplerow);
-
-    lzw_destroy(lzwP);
-}
-
-
-
-static void
 writeGlobalColorMap(FILE *              const ofP,
                     const struct Cmap * const cmapP,
                     unsigned int        const bitsPerPixel) {
@@ -1404,6 +1321,23 @@ writeGlobalColorMap(FILE *              const ofP,
 
 
 static void
+reportImageInfo(bool         const interlace,
+                unsigned int const background,
+                unsigned int const bitsPerPixel) {
+
+    if (verbose) {
+        if (interlace)
+            pm_message("interlaced");
+        else
+            pm_message("not interlaced");
+        pm_message("Background color index = %u", background);
+        pm_message("%u bits per pixel", bitsPerPixel);
+    }
+}
+
+
+
+static void
 writeGifHeader(FILE *              const ofP,
                unsigned int        const width,
                unsigned int        const height,
@@ -1460,6 +1394,15 @@ writeGifHeader(FILE *              const ofP,
 
 
 static void
+writeImageSeparator(FILE * const ofP) {
+
+    fputc(',', ofP);
+
+}
+
+
+
+static void
 writeImageHeader(FILE *       const ofP,
                  unsigned int const leftOffset,
                  unsigned int const topOffset,
@@ -1486,35 +1429,119 @@ writeImageHeader(FILE *       const ofP,
 
 
 static void
-reportImageInfo(bool         const interlace,
-                unsigned int const background,
-                unsigned int const bitsPerPixel) {
+writeRaster(struct pam *  const pamP,
+            RowReader *   const rowReaderP,
+            unsigned int  const alphaPlane,
+            unsigned int  const alphaThreshold,
+            struct Cmap * const cmapP,
+            unsigned int  const initBits,
+            FILE *        const ofP,
+            bool          const lzw,
+            bool          const noclear) {
+/*----------------------------------------------------------------------------
+   Write the raster to file 'ofP'.
 
-    if (verbose) {
-        if (interlace)
-            pm_message("interlaced");
-        else
-            pm_message("not interlaced");
-        pm_message("Background color index = %u", background);
-        pm_message("%u bits per pixel", bitsPerPixel);
+   Get the raster to write from 'rowReaderP', which gives tuples whose
+   format is described by 'pamP'.
+
+   'alphaPlane' is the number of the plane in the tuples supplied by
+   'rowReaderP' that we should use for transparency information, and
+   'alphaThreshold' is the value in that plane below which we should consider
+   the pixel transparent for GIF purposes.
+
+   'alphaPlane' is zero to indicate we should not use any plane as an alpha
+   plane (so it's not possible to specify Plane 0 as alpha).
+
+   Use the colormap 'cmapP' to generate the raster ('rowReaderP' gives
+   pixel values as RGB samples; the GIF raster is colormap indices).
+
+   Write the raster using LZW compression, or uncompressed depending
+   on 'lzw'.
+
+   If 'noclear', don't use any GIF clear codes in the output; i.e. don't
+   recompute the string table from current input.  Once the string table gets
+   to maximum size, just keep using that table for the rest of the image.
+-----------------------------------------------------------------------------*/
+    LzwCompressor * lzwP;
+    tuple * tuplerow;
+    unsigned int nRowsDone;
+        /* Number of rows we have read so far from the the input (the
+           last of which is the one we're working on now).  Note that
+           in case of interlace, this is not the same thing as the row
+           number of the current row.
+        */
+
+    lzwP = lzw_create(ofP, initBits, lzw, noclear, pamP->height * pamP->width);
+
+    tuplerow = pnm_allocpamrow(pamP);
+
+    lzw_clearBlock(lzwP);
+
+    nRowsDone = 0;
+
+    while (nRowsDone < pamP->height) {
+        unsigned int col;
+
+        rowReader_read(rowReaderP, tuplerow);
+
+        for (col = 0; col < pamP->width; ++col) {
+            unsigned int const colorIndex =
+                gifPixel(pamP, tuplerow[col], alphaPlane, alphaThreshold,
+                         cmapP);
+
+                /* The value for the pixel in the GIF image.  I.e. the colormap
+                   index.
+                */
+            if (lzw)
+                lzw_encodePixel(lzwP, colorIndex);
+            else
+                writePixelUncompressed(lzwP, colorIndex);
+        }
+        ++nRowsDone;
     }
+    /* Gif is no good with no pixels; fortunately, that's impossible: */
+    assert(nRowsDone > 0);
+
+    lzw_flush(lzwP);
+
+    pnm_freepamrow(tuplerow);
+
+    lzw_destroy(lzwP);
+}
+
+
+
+static void
+writeEndOfImage(FILE * const ofP) {
+
+    /* An empty block marks the end of a series of blocks */
+
+    fputc(0, ofP);
 }
 
 
 
 static void
-gifEncode(struct pam *  const pamP,
-          FILE *        const ofP,
-          pm_filepos    const rasterPos,
-          bool          const gInterlace,
-          int           const background,
-          unsigned int  const bitsPerPixel,
-          struct Cmap * const cmapP,
-          char          const comment[],
-          float         const aspect,
-          bool          const lzw,
-          bool          const noclear,
-          bool          const usingAlpha) {
+writeGifStreamTerminator(FILE * const ofP) {
+
+    fputc(';', ofP);
+}
+
+
+
+static void
+writeGifImage(struct pam *  const pamP,
+              FILE *        const ofP,
+              pm_filepos    const rasterPos,
+              bool          const gInterlace,
+              int           const background,
+              unsigned int  const bitsPerPixel,
+              struct Cmap * const cmapP,
+              char          const comment[],
+              float         const aspect,
+              bool          const lzw,
+              bool          const noclear,
+              bool          const usingAlpha) {
 /*----------------------------------------------------------------------------
    'usingAlpha' means use the alpha (transparency) plane, if there is one, to
    determine which GIF pixels are transparent.  When this is true, the
@@ -1548,26 +1575,19 @@ gifEncode(struct pam *  const pamP,
     writeGifHeader(ofP, pamP->width, pamP->height, background,
                    bitsPerPixel, cmapP, comment, aspect);
 
-    /* Write an Image separator */
-    fputc(',', ofP);
+    writeImageSeparator(ofP);
 
     writeImageHeader(ofP, leftOffset, topOffset, pamP->width, pamP->height,
                      gInterlace, initCodeSize);
 
     rowReaderP = rowReader_create(pamP, rasterPos, gInterlace);
 
-    /* Write the actual raster */
-
     writeRaster(pamP, rowReaderP, alphaPlane, alphaThreshold,
                 cmapP, initCodeSize + 1, ofP, lzw, noclear);
 
     rowReader_destroy(rowReaderP);
 
-    /* Write out a zero length data block (to end the series) */
-    fputc(0, ofP);
-
-    /* Write the GIF file terminator */
-    fputc(';', ofP);
+    writeEndOfImage(ofP);
 }
 
 
@@ -1985,7 +2005,8 @@ destroyCmap(struct Cmap * const cmapP) {
 
 
 int
-main(int argc, char *argv[]) {
+main(int argc, const char ** argv) {
+
     struct CmdlineInfo cmdline;
     FILE * ifP;
     struct pam pam;
@@ -2000,7 +2021,7 @@ main(int argc, char *argv[]) {
            TRANS_ALPHA.
         */
 
-    pnm_init(&argc, argv);
+    pm_proginit(&argc, argv);
 
     parseCommandLine(argc, argv, &cmdline);
 
@@ -2033,14 +2054,15 @@ main(int argc, char *argv[]) {
 
     computeTransparent(transType, cmdline.transparent, fakeTransparent, &cmap);
 
-    /* All set, let's do it. */
-    gifEncode(&pam, stdout, rasterPos,
-              cmdline.interlace, 0, bitsPerPixel, &cmap, cmdline.comment,
-              cmdline.aspect, !cmdline.nolzw, cmdline.noclear,
-              transType==TRANS_ALPHA);
+    writeGifImage(&pam, stdout, rasterPos,
+                  cmdline.interlace, 0, bitsPerPixel, &cmap, cmdline.comment,
+                  cmdline.aspect, !cmdline.nolzw, cmdline.noclear,
+                  transType==TRANS_ALPHA);
 
     destroyCmap(&cmap);
 
+    writeGifStreamTerminator(stdout);
+
     pm_close(ifP);
     pm_close(stdout);