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authorgiraffedata <giraffedata@9d0c8265-081b-0410-96cb-a4ca84ce46f8>2013-04-11 14:27:34 +0000
committergiraffedata <giraffedata@9d0c8265-081b-0410-96cb-a4ca84ce46f8>2013-04-11 14:27:34 +0000
commitcaa6d1fe1bec3de42de6ac18536bd09e4385a18c (patch)
treec84523849d2a65f6bdf012dcf7e4e4b36c02ccef /converter/other/winicontopam.c
parent13ec8910d04a4b0f192a3b100d16c40898f59a0d (diff)
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Add winicontopam
git-svn-id: http://svn.code.sf.net/p/netpbm/code/trunk@1877 9d0c8265-081b-0410-96cb-a4ca84ce46f8
Diffstat (limited to 'converter/other/winicontopam.c')
-rw-r--r--converter/other/winicontopam.c1266
1 files changed, 1266 insertions, 0 deletions
diff --git a/converter/other/winicontopam.c b/converter/other/winicontopam.c
new file mode 100644
index 00000000..ba852083
--- /dev/null
+++ b/converter/other/winicontopam.c
@@ -0,0 +1,1266 @@
+#include <assert.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "pm_config.h"
+#include "pm_c_util.h"
+#include "mallocvar.h"
+#include "nstring.h"
+#include "shhopt.h"
+#include "pam.h"
+#include "pm_system.h"
+
+#include "winicon.h"
+
+#define RED   0
+#define GRN   1
+#define BLU   2
+#define ALPHA 3
+#define CHANNEL_CHARS "RGBA"
+
+
+
+static bool verbose;
+
+
+
+struct CmdlineInfo {
+    
+    const char * inputFileName;
+    unsigned int allimages;
+    unsigned int imageSpec;
+    unsigned int image;
+    unsigned int andmasks;
+    unsigned int headerdump;
+    unsigned int verbose;
+};
+
+
+
+static void
+parseCommandLine(int argc, const char **argv,
+                 struct CmdlineInfo * const cmdlineP) {
+
+    optEntry *   option_def;
+    unsigned int option_def_index;
+    optStruct3   opt3;
+
+    MALLOCARRAY_NOFAIL(option_def, 100);
+
+    option_def_index = 0;
+
+    OPTENT3 (0, "allimages",   OPT_FLAG,   NULL,
+             &cmdlineP->allimages,         0);
+    OPTENT3 (0, "image",     OPT_UINT,   &cmdlineP->image,
+             &cmdlineP->imageSpec,         0);
+    OPTENT3 (0, "andmasks",  OPT_FLAG,   NULL,
+             &cmdlineP->andmasks,          0);
+    OPTENT3 (0, "headerdump",   OPT_FLAG,   NULL,
+             &cmdlineP->headerdump,        0);
+    OPTENT3 (0, "verbose",   OPT_FLAG,   NULL,
+             &cmdlineP->verbose,           0);
+
+    opt3.opt_table     = option_def;
+    opt3.short_allowed = false;
+    opt3.allowNegNum   = false;
+
+    pm_optParseOptions3(&argc, (char **)argv, opt3, sizeof(opt3), 0);
+
+    if (cmdlineP->allimages && cmdlineP->imageSpec)
+        pm_error("You cannot specify both -allimages and -image");
+
+    if (argc-1 < 1)
+        cmdlineP->inputFileName = "-";
+    else {
+        cmdlineP->inputFileName = argv[1];
+
+        if (argc-1 > 1)
+            pm_error("Too many arguments.  The only possible "
+                     "non-option argument is the input file name");
+    }
+        
+    free(option_def);
+}
+
+
+
+static unsigned char const pngHeader[] = PNG_HEADER;
+
+
+
+struct File {
+
+    FILE *       fileP;
+    const char * name;
+    pm_filepos   pos;
+    
+};
+
+
+
+static uint32_t
+u8_le(const unsigned char * const buf,
+      size_t                const offset) {
+
+    return buf[offset + 0];
+}
+
+
+
+static uint32_t
+u16_le(const unsigned char * const buf,
+       size_t                const offset) {
+
+    return
+        ((uint32_t)buf[offset + 0] << 0) +
+        ((uint32_t)buf[offset + 1] << 8);
+}
+
+
+
+static uint32_t
+u32_le(const unsigned char * const buf,
+       size_t                const offset) {
+
+    return 
+        ((uint32_t)buf[offset + 0] <<  0) +
+        ((uint32_t)buf[offset + 1] <<  8) +
+        ((uint32_t)buf[offset + 2] << 16) +
+        ((uint32_t)buf[offset + 3] << 24);
+}
+
+
+
+static uint32_t
+s32_le(const unsigned char * const buf,
+       size_t                const offset) {
+
+    return 
+        ((uint32_t)buf[offset + 0] <<  0) +
+        ((uint32_t)buf[offset + 1] <<  8) +
+        ((uint32_t)buf[offset + 2] << 16) +
+        ((uint32_t)buf[offset + 3] << 24);
+}
+
+
+
+static uint32_t
+u8_be(const unsigned char * const buf,
+      size_t                const offset) {
+
+    return buf[offset + 0];
+}
+
+
+
+static uint32_t
+u32_be(const unsigned char * const buf,
+       size_t                const offset) {
+    
+    return 
+        ((uint32_t)buf[offset + 0] << 24) +
+        ((uint32_t)buf[offset + 1] << 16) +
+        ((uint32_t)buf[offset + 2] <<  8) +
+        ((uint32_t)buf[offset + 3] <<  0);
+}
+
+
+
+static uint32_t
+u32_xx(const unsigned char * const buf,
+       size_t                const offset) {
+
+    uint32_t u32;
+
+    ((uint8_t*) &u32)[0] = buf[offset + 0];
+    ((uint8_t*) &u32)[1] = buf[offset + 1];
+    ((uint8_t*) &u32)[2] = buf[offset + 2];
+    ((uint8_t*) &u32)[3] = buf[offset + 3];
+
+    return (u32);
+}
+
+
+
+static int
+cmpfn(const void * const aP,
+      const void * const bP) {
+
+    const struct IconDirEntry * const dirEntryAP = aP;
+    const struct IconDirEntry * const dirEntryBP = bP;
+
+    if (dirEntryAP->offset < dirEntryBP->offset)
+        return -1;
+    else if (dirEntryAP->offset > dirEntryBP->offset)
+        return +1;
+    else
+        return 0;
+}
+
+
+
+static void
+dumpIconDir(const struct IconDir * const dirP) {
+
+    unsigned int i;
+
+    pm_message("Type: %u", dirP->type);
+    pm_message("Icon directory has %u images:", dirP->count);
+
+    for (i = 0; i < dirP->count; ++i) {
+        const struct IconDirEntry * const dirEntryP = &dirP->entries[i];
+
+        pm_message("width: %u", dirEntryP->width);
+        pm_message("height: %u", dirEntryP->height);
+        pm_message("color count: %u", dirEntryP->color_count);
+        pm_message("# color planes: %u", dirEntryP->color_planes);
+        pm_message("bits per pixel: %u", dirEntryP->bits_per_pixel);
+        pm_message("offset in file of image: %u", dirEntryP->offset);
+        pm_message("size of image: %u", dirEntryP->size);
+        pm_message("zero field: %u", dirEntryP->zero);
+    }
+}
+
+            
+
+static struct IconDir *
+readIconDir(struct File * const fP,
+            bool          const needHeaderDump) {
+
+    struct IconDir head;
+    struct IconDir * dirP;
+    uint32_t  imageIndex; /* more bits than dir.count */
+
+    pm_readlittleshortu(fP->fileP, &head.zero);
+    pm_readlittleshortu(fP->fileP, &head.type);
+    pm_readlittleshortu(fP->fileP, &head.count);
+    fP->pos += 6;
+
+    if (head.zero != 0 || head.type != ICONDIR_TYPE_ICO)
+        pm_error("Not a valid windows icon file");
+
+    dirP = malloc(sizeof(struct IconDir)
+                  - sizeof(struct IconDirEntry)
+                  + head.count * sizeof(struct IconDirEntry));
+    if (dirP == NULL)
+        pm_error("out of memory.");
+
+    dirP->zero  = head.zero;
+    dirP->type  = head.type;
+    dirP->count = head.count;
+
+    for (imageIndex = 0; imageIndex < head.count; ++imageIndex) {
+        struct IconDirEntry * const dirEntryP = &dirP->entries[imageIndex];
+
+        unsigned char widthField, heightField;
+
+        unsigned long ul;
+
+        pm_readcharu(fP->fileP, &widthField);
+        dirEntryP->width  = (widthField == 0 ? 256 : widthField);
+
+        pm_readcharu(fP->fileP, &heightField);
+        dirEntryP->height = (heightField == 0 ? 256 : heightField);
+        
+        pm_readcharu(fP->fileP, &dirEntryP->color_count);
+
+        pm_readcharu(fP->fileP, &dirEntryP->zero);
+
+        pm_readlittleshortu(fP->fileP, &dirEntryP->color_planes);
+
+        pm_readlittleshortu(fP->fileP, &dirEntryP->bits_per_pixel);
+
+        pm_readlittlelongu(fP->fileP, &ul); dirEntryP->size = ul;
+
+        pm_readlittlelongu(fP->fileP, &ul); dirEntryP->offset = ul;
+
+        fP->pos += 16;
+
+        dirEntryP->index = imageIndex;
+    }
+
+    /* The following is paranoia code only:
+     
+       I've never seen a windows icon file in the wild with having the entries
+       in the directory stored in a different order than the images
+       themselves.  However, the file format allows for it ...
+     */
+    qsort(dirP->entries, dirP->count, sizeof(struct IconDirEntry), cmpfn);
+
+    if (verbose) {
+        pm_message("%s icon directory (%u image%s):",
+                   fP->name,
+                   dirP->count, dirP->count == 1 ? "" : "s");
+        
+        for (imageIndex = 0; imageIndex < dirP->count; ++imageIndex) {
+            const struct IconDirEntry * const dirEntryP =
+                &dirP->entries[imageIndex];
+
+            uint32_t colorCt;
+
+            if (dirEntryP->bits_per_pixel == 0)
+                colorCt = 0;
+            else if (dirEntryP->bits_per_pixel >= 32)
+                colorCt = 1u << 24;
+            else
+                colorCt = 1u << dirEntryP->bits_per_pixel;
+
+            if (dirEntryP->color_count != 0 &&
+                colorCt > dirEntryP->color_count) {
+                colorCt = dirEntryP->color_count;
+            }
+            pm_message ("%5u: %3u x %3u, %8u colors, %5u bytes",
+                        dirEntryP->index,
+                        dirEntryP->width,
+                        dirEntryP->height,
+                        colorCt,
+                        dirEntryP->size);
+        }
+    }
+
+    if (needHeaderDump)
+        dumpIconDir(dirP);
+
+    return dirP;
+}
+
+
+
+static const unsigned char *
+readImage(struct File *         const fP,
+          struct IconDirEntry * const dirEntryP) {
+
+    size_t rc;
+    unsigned char * image;
+    uint32_t skippedCt;
+
+    /*  Don't try to read an image that is smaller than the
+        BITMAPINFOHEADER of BMP images (40 bytes).
+     
+        PNG compressed images can't be smaller than that either, as the
+        PNG header plus the mandantory IHDR and IEND chunks already take
+        8 + 25 + 12 = 35 bytes, and there is to be a IDAT chunk too.
+     */
+    if (dirEntryP->size < 40) {
+        pm_error("image %2u: format violation: too small as an image.",
+                  dirEntryP->index);
+    }
+    if ((pm_filepos) dirEntryP->offset < fP->pos)
+        pm_error("image %2u: format violation: invalid offset.",
+                 dirEntryP->index);
+
+    /* The following is paranoia code only:
+     
+       I've never seen a windows icon file in the wild with gaps between
+       the images, but the file format allows for it, and Microsoft
+       expects the user to fseek() to the start of each image.
+     */
+    skippedCt = 0;
+
+    while ((pm_filepos) dirEntryP->offset > fP->pos) {
+        if (getc(fP->fileP) == EOF) {
+            pm_error("seeking to image %u: unexpected EOF", dirEntryP->index);
+        }
+        ++fP->pos;
+        ++skippedCt;
+    }
+
+    /*  The additional four bytes are for purify and friends, as the
+        routines reading BMP XOR and AND masks might read (but not
+        evaluate) some bytes beyond the image data.
+     */
+    image = malloc(dirEntryP->size + sizeof(uint32_t));
+    if (image == NULL)
+        pm_error("out of memory.");
+
+    rc = fread (image, 1, dirEntryP->size, fP->fileP);
+    if (rc != dirEntryP->size) {
+        pm_error("reading image %2u: unexpected EOF", dirEntryP->index);
+    }
+    fP->pos += dirEntryP->size;
+
+    return image;
+}
+
+
+
+static uint8_t
+getIdx1(const unsigned char * const bitmap,
+        uint32_t              const offset,
+        int16_t               const col) {
+
+    return u8_le(bitmap, offset + (col >> 3)) >> (7 - (col & 0x07)) & 0x1;
+}
+
+
+
+static uint8_t
+getIdx4(const unsigned char * const bitmap,
+        uint32_t              const offset,
+        int16_t               const col) {
+
+    if ((col & 1) == 0x0000)
+        return u8_le(bitmap, offset + (col >> 1)) >> 4 & 0x0F;
+    else
+        return u8_le(bitmap, offset + (col >> 1)) >> 0 & 0x0F;
+}
+
+
+
+static uint8_t
+getIdx8(const unsigned char * const bitmap,
+        uint32_t              const offset,
+        int16_t               const col) {
+
+    return u8_le(bitmap, offset + col);
+}
+
+
+
+typedef unsigned char PaletteEntry[4];
+
+
+
+static void
+dumpPalette(const PaletteEntry * const palette,
+            unsigned int         const colorCt) {
+
+    unsigned int i;
+
+    for (i = 0; i < colorCt; ++i) {
+        pm_message("Color %u: (%u, %u, %u)",
+                   i, palette[i][2], palette[i][1], palette[i][0]);
+    }
+}
+
+
+
+static void
+readXorPalette(struct BitmapInfoHeader * const hdrP,
+               const unsigned char *     const bitmap,
+               uint32_t                  const maxSize,
+               tuple **                  const tuples,
+               uint16_t                  const index,
+               bool                      const needHeaderDump,
+               uint32_t *                const bytesConsumedP) {
+
+    uint32_t const paletteSize = hdrP->colors_in_palette * 4;
+
+    int16_t     row;
+    const PaletteEntry * palette;
+    uint32_t    truncatedXorSize;
+    uint32_t    bytesConsumed;
+    uint32_t    bytesPerRow;
+    const unsigned char * bitmapCursor;
+    uint32_t sizeRemaining;
+  
+    uint8_t (*getIdx) (const unsigned char * bitmap,
+                       uint32_t rowOffset,
+                       int16_t col);
+  
+    if (hdrP->compression_method != BI_RGB)
+        pm_error("image %2u: invalid compression method %u.",
+                 index, hdrP->compression_method);
+
+    assert(hdrP->bits_per_pixel < 16);
+
+    switch (hdrP->bits_per_pixel) {
+    case 1:
+        if (hdrP->colors_in_palette == 0)
+            hdrP->colors_in_palette = 2;
+        getIdx = getIdx1;
+        break;
+
+    case 4:
+        if (hdrP->colors_in_palette == 0)
+            hdrP->colors_in_palette = 16;
+        getIdx = getIdx4;
+        break;
+
+    case 8:
+        if (hdrP->colors_in_palette == 0)
+            hdrP->colors_in_palette = 256;
+        getIdx = getIdx8;
+        break;
+
+    default:
+        pm_error("image %2u: "
+                 "bits per pixel is a value we don't understand: %u",
+                  index, hdrP->bits_per_pixel);
+        getIdx = NULL;
+    }
+
+    bitmapCursor = &bitmap[0];  /* initial value */
+    sizeRemaining = maxSize;    /* initial value */
+    bytesConsumed = 0;          /* initial value */
+
+    if (sizeRemaining < paletteSize)
+        pm_error("image %2u: "
+                 "reading palette: image truncated.", index);
+    
+    palette = (const PaletteEntry *) bitmapCursor;
+
+    if (needHeaderDump)
+        dumpPalette(palette, hdrP->colors_in_palette);
+
+    bitmapCursor  += paletteSize;
+    sizeRemaining -= paletteSize;
+    bytesConsumed += paletteSize;
+
+    {
+        uint32_t const xorSize = (uint32_t)
+            (((hdrP->bits_per_pixel * hdrP->bm_width + 31) / 32)
+             * 4 * hdrP->bm_height / 2);
+
+        if (sizeRemaining < xorSize) {
+            pm_message("image %2u: "
+                       "reading XOR mask: image truncated.", index);
+            truncatedXorSize = sizeRemaining;
+        } else
+            truncatedXorSize = xorSize;
+    }
+
+    bytesPerRow = ((hdrP->bits_per_pixel * hdrP->bm_width + 31) / 32) * 4;
+
+    for (row = 0; hdrP->bm_height / 2 > row; ++row) {
+        uint32_t rowOffset;
+
+        if (hdrP->top_down)
+            rowOffset = row * bytesPerRow;
+        else
+            rowOffset = (hdrP->bm_height / 2 - row - 1) * bytesPerRow;
+
+        if (rowOffset + bytesPerRow <= truncatedXorSize) {
+            int16_t col;
+            for (col = 0; hdrP->bm_width > col; ++col) {
+                uint8_t const idx = getIdx(bitmapCursor, rowOffset, col);
+
+                if (idx > hdrP->colors_in_palette)
+                    pm_error("invalid palette index in row %u, column %u.",
+                             row, col);
+
+                /*  The palette is an array of little-endian 32-bit values,
+                    where the RGB value is encoded as follows:
+                 
+                    red:   bits 2^16..2^23
+                    green: bits 2^8 ..2^15
+                    blue:  bits 2^0 ..2^7
+                 */
+                tuples[row][col][PAM_RED_PLANE] = palette[idx][2];
+                tuples[row][col][PAM_GRN_PLANE] = palette[idx][1];
+                tuples[row][col][PAM_BLU_PLANE] = palette[idx][0];
+            }
+        }
+    }
+
+    bitmapCursor  += truncatedXorSize;
+    sizeRemaining -= truncatedXorSize;
+    bytesConsumed += truncatedXorSize;
+
+    *bytesConsumedP = bytesConsumed;
+}
+
+
+
+static void
+readXorBitfields(struct BitmapInfoHeader * const hdrP,
+                 const unsigned char *     const bitmap,
+                 uint32_t                  const maxSize,
+                 tuple **                  const tuples,
+                 uint16_t                  const index,
+                 bool *                    const haveAlphaP,
+                 uint32_t *                const bytesConsumedP) {
+
+    uint32_t   bitfields[4];
+    uint8_t    shift    [4];
+    sample     maxval   [4];
+
+    int16_t      row;
+    uint32_t     bytesConsumed;
+    uint32_t     bytesPerSample;
+    uint32_t     bytesPerRow;
+    const unsigned char * bitmapCursor;
+    uint32_t     sizeRemaining;
+    uint32_t     truncatedXorSize;
+
+    static uint8_t alphas [256];
+    bool         allOpaque;
+    bool         allTransparent;
+
+    bytesConsumed = 0;
+
+    if (hdrP->compression_method != BI_RGB
+        && hdrP->compression_method != BI_BITFIELDS)
+        pm_error("image %2u: invalid compression method %u.",
+                 index, hdrP->compression_method);
+
+    assert(hdrP->bits_per_pixel >= 16);
+
+    switch (hdrP->bits_per_pixel) {
+    case 16:
+        bytesPerSample = 2;
+        bitfields[RED]   = 0x7C00;
+        bitfields[GRN]   = 0x03E0;
+        bitfields[BLU]   = 0x001F;
+        bitfields[ALPHA] = 0x0000;
+        break;
+
+    case 24:
+        bytesPerSample = 3;
+        bitfields[RED]   = 0xFF0000;
+        bitfields[GRN]   = 0x00FF00;
+        bitfields[BLU]   = 0x0000FF;
+        bitfields[ALPHA] = 0x000000;
+        break;
+
+    case 32:
+        bytesPerSample = 4;
+        bitfields[RED]   = 0x00FF0000;
+        bitfields[GRN]   = 0x0000FF00;
+        bitfields[BLU]   = 0x000000FF;
+        bitfields[ALPHA] = 0xFF000000;
+        break;
+
+    default:
+        pm_error("image %2u: bits per pixel is one we don't understand: %u.",
+                 index, hdrP->bits_per_pixel);
+        bytesPerSample = 0;
+    }
+
+    bitmapCursor = &bitmap[0]; /* initial value */
+    sizeRemaining = maxSize;  /* initial value */
+
+    /*  read bit fields from image data  */
+    if (hdrP->compression_method == BI_BITFIELDS) {
+        if (sizeRemaining < 12)
+            pm_error("image %2u: "
+                     "reading bit fields: image truncated.", index);
+
+        bitfields[RED]   = u32_le(bitmapCursor, 0);
+        bitfields[GRN]   = u32_le(bitmapCursor, 4);
+        bitfields[BLU]   = u32_le(bitmapCursor, 8);
+        bitfields[ALPHA] = 0;
+
+        bitmapCursor  += 12;
+        sizeRemaining -= 12;
+        bytesConsumed     += 12;
+    }
+
+    /*  determine shift and maxval from bit field for each channel */
+    {
+        unsigned int i;
+
+        for (i = 0; 4 > i; ++i) {
+            if (bitfields[i] == 0) {
+                maxval[i] = 1;
+                shift [i] = 0;
+            } else {
+                unsigned int j;
+
+                maxval[i] = bitfields[i];
+
+                for (j = 0; 32 > j; ++j) {
+                    if ((maxval[i] & 0x1) != 0)
+                        break;
+                    maxval[i] >>= 1;
+                }
+                shift[i] = j;
+            }
+
+        }
+    }
+
+    /*  read the XOR mask */
+    {
+        uint32_t const xorSize = (uint32_t)
+            (((hdrP->bits_per_pixel * hdrP->bm_width + 31) / 32)
+             * 4 * hdrP->bm_height / 2);
+
+        if (sizeRemaining < xorSize) {
+            pm_message("image %2u: "
+                       "reading XOR mask: image truncated.", index);
+            truncatedXorSize = sizeRemaining;
+        } else
+              truncatedXorSize = xorSize;
+        bitmapCursor  += truncatedXorSize;
+        sizeRemaining -= truncatedXorSize;
+        bytesConsumed     += truncatedXorSize;
+    }
+
+    bytesPerRow = ((hdrP->bits_per_pixel * hdrP->bm_width + 31) / 32) * 4;
+    MEMSZERO(alphas);
+
+    for (row = 0, allOpaque = true, allTransparent = true;
+         hdrP->bm_height / 2 > row;
+         ++row) {
+
+        uint32_t offset;
+
+        if (hdrP->top_down)
+            offset = row * bytesPerRow;
+        else
+            offset = (hdrP->bm_height / 2 - row - 1) * bytesPerRow;
+
+        if (offset + bytesPerRow <= truncatedXorSize) {
+            unsigned int col;
+            for (col = 0; col < hdrP->bm_width; ++col) {
+                uint32_t const pixel = u32_le(bitmapCursor, offset);
+                offset += bytesPerSample;
+
+                tuples[row][col][PAM_RED_PLANE] =
+                    pnm_scalesample((pixel & bitfields[RED]) >> shift[RED],
+                                    maxval[RED], 255);
+                tuples[row][col][PAM_GRN_PLANE] =
+                    pnm_scalesample((pixel & bitfields[GRN]) >> shift[GRN],
+                                    maxval[GRN], 255);
+                tuples [row][col][PAM_BLU_PLANE]
+                    = pnm_scalesample((pixel & bitfields[BLU]) >> shift[BLU],
+                                      maxval[BLU], 255);
+
+                if (bitfields [ALPHA] != 0) {
+                    tuples[row][col][PAM_TRN_PLANE]
+                        = pnm_scalesample(
+                            (pixel & bitfields[ALPHA]) >> shift[ALPHA],
+                            maxval[ALPHA], 255);
+
+                    if (tuples[row][col][PAM_TRN_PLANE] != 0)
+                        allTransparent = false;
+
+                    if (tuples [row][col][PAM_TRN_PLANE] != 255)
+                        allOpaque = false;
+
+                    alphas[tuples[row][col][PAM_TRN_PLANE]] = !0;
+                }
+            }
+        }
+    }
+
+    /*  A fully transparent alpha channel (all zero) in XOR mask is
+        defined to be void by Microsoft, and a fully opaque alpha
+        channel (all maxval) is trivial and will be dropped.
+    */
+    *haveAlphaP = !allTransparent && !allOpaque;
+
+    if (!allTransparent && verbose) {
+        unsigned int i;
+        unsigned int c;
+
+        for (i = 0, c = 0; 256 > i; ++i) {
+            if (alphas[i] != 0)
+                ++c;
+        }
+        pm_message("image %2u: %u distinct transparency value%s",
+                   index, c, (c == 1) ? "": "s");
+    }
+    *bytesConsumedP = bytesConsumed;
+}
+
+
+
+static void
+readAnd(struct BitmapInfoHeader * const hdrP,
+        const unsigned char *     const bitmap,
+        uint32_t                  const maxSize,
+        tuple **                  const tuples,
+        uint16_t                  const index,
+        unsigned int              const plane,
+        sample                    const maxval) {
+
+    int16_t  row;
+    uint32_t bytesConsumed;
+    uint32_t bytesPerRow;
+    const unsigned char * bitmapCursor;
+    uint32_t sizeRemaining;
+    uint32_t truncatedAndSize;
+
+    bitmapCursor = &bitmap[0];  /* initial value */
+    sizeRemaining = maxSize;  /* initial value */
+    bytesConsumed = 0;  /* initial value */
+
+    {
+        uint32_t const andSize = (uint32_t)
+            (((1 * hdrP->bm_width + 31) / 32) * 4 * hdrP->bm_height / 2);
+
+        if (sizeRemaining < andSize) {
+            pm_message ("image %2u: "
+                        "Input image ends %u bytes into the %u-byte "
+                        "AND mask.  Implying remainder of mask",
+                        index, sizeRemaining, andSize);
+            truncatedAndSize = sizeRemaining;
+        } else
+            truncatedAndSize = andSize;
+
+        bitmapCursor  += truncatedAndSize;
+        sizeRemaining -= truncatedAndSize;
+        bytesConsumed += truncatedAndSize;
+    }
+
+    bytesPerRow = ((1 * hdrP->bm_width + 31) / 32) * 4;
+
+    for (row = 0; row < hdrP->bm_height / 2; ++row) {
+        uint32_t offset;
+
+        if (hdrP->top_down)
+            offset = row * bytesPerRow;
+        else
+            offset = (hdrP->bm_height / 2 - row - 1) * bytesPerRow;
+
+        if (offset + bytesPerRow <= sizeRemaining) {
+            unsigned int col;
+            
+            for (col = 0; col < hdrP->bm_width; ++col) {
+                tuples[row][col][plane] =
+                    ((u8_le(bitmap, offset + col/8)
+                      & (1 << (7 - (col & 0x7)))) == 0x00) ?
+                    maxval : 0
+                ;
+            }
+        }
+    }
+}
+
+
+
+static void
+dumpBmpHeader(struct BitmapInfoHeader const hdr,
+              unsigned int            const imageIndex) {
+
+    pm_message("BMP header for Image %u:", imageIndex);
+
+    pm_message("header size: %u", hdr.header_size);
+    pm_message("bitmap width: %u", hdr.bm_width);
+    pm_message("bitmap height * 2: %u", hdr.bm_height);
+    pm_message("row order: %s", hdr.top_down ? "top down" : "bottom up");
+    pm_message("# color planes: %u", hdr.color_planes);
+    pm_message("bits per pixel: %u", hdr.bits_per_pixel);
+    pm_message("image size: %u", hdr.image_size);
+    pm_message("horizontal resolution: %u", hdr.horizontal_resolution);
+    pm_message("vertical resolution: %u", hdr.vertical_resolution);
+    pm_message("# colors in palette: %u", hdr.colors_in_palette);
+    pm_message("# important colors: %u", hdr.important_colors);
+}
+
+
+
+static void
+readBmpHeader(const unsigned char *     const image,
+              uint32_t                  const size,
+              unsigned int              const imageIndex,
+              bool                      const needHeaderDump,
+              struct BitmapInfoHeader * const hdrP) {
+
+    /*  BITMAPINFOHEADER structure */
+
+    if (size < 40)
+        pm_error("image %2u: reading BITMAPINFOHEADER: not enough data.",
+                 imageIndex);
+
+    hdrP->header_size           = u32_le(image,  0);
+    hdrP->bm_width              = s32_le(image,  4);
+    hdrP->bm_height             = s32_le(image,  8);
+    hdrP->color_planes          = u16_le(image, 12);
+    hdrP->bits_per_pixel        = u16_le(image, 14);
+    hdrP->compression_method    = u32_le(image, 16);
+    hdrP->image_size            = u32_le(image, 20);
+    hdrP->horizontal_resolution = s32_le(image, 24);
+    hdrP->vertical_resolution   = s32_le(image, 28);
+    hdrP->colors_in_palette     = u32_le(image, 32);
+    hdrP->important_colors      = u32_le(image, 36);
+
+    if (hdrP->bm_height > 0) {
+        hdrP->top_down = false;
+    } else {
+        hdrP->top_down   = true;
+        hdrP->bm_height *= -1;
+    }
+
+    if (hdrP->header_size < 36
+        || hdrP->bm_width == 0 || hdrP->bm_height == 0
+        || (hdrP->bm_height & 1) != 0x0000) {
+        pm_error("image %2u: format violation: invalid BMP header.",
+                 imageIndex);
+    }
+
+    if (needHeaderDump)
+        dumpBmpHeader(*hdrP, imageIndex);
+}
+
+
+
+static void
+readXorMask(struct BitmapInfoHeader * const hdrP,
+            const unsigned char *     const imageCursor,
+            uint32_t                  const imageSize,
+            tuple **                  const tuples,
+            uint16_t                  const index,
+            bool                      const needHeaderDump,
+            bool *                    const haveAlphaP,
+            uint32_t *                const bytesConsumedP) {
+/*----------------------------------------------------------------------------
+   Read the so-called XOR mask (for non-monochrome images, this is the
+   color pixmap)
+-----------------------------------------------------------------------------*/
+    /*  preset the PAM with fully opaque black (just in case the image
+        is truncated and not all pixels are filled in below).
+    */
+    {
+        unsigned int row;
+
+        for (row = 0; row < hdrP->bm_height / 2; ++row) {
+            unsigned int col;
+            for (col = 0; col < hdrP->bm_width; ++col) {
+                tuples[row][col][PAM_RED_PLANE] = 0;
+                tuples[row][col][PAM_GRN_PLANE] = 0;
+                tuples[row][col][PAM_BLU_PLANE] = 0;
+                tuples[row][col][PAM_TRN_PLANE] = 255;
+            }
+        }
+    }
+
+    if (hdrP->bits_per_pixel < 16) {
+        readXorPalette(hdrP, imageCursor, imageSize, tuples, index,
+                       needHeaderDump,
+                       bytesConsumedP);
+        *haveAlphaP = false;
+    } else
+        readXorBitfields(hdrP, imageCursor, imageSize, tuples, index,
+                         haveAlphaP, bytesConsumedP);
+}
+
+
+
+static void
+reportImage(unsigned int            const imageIndex,
+            struct BitmapInfoHeader const hdr,
+            bool                    const haveAlpha) {
+
+    const char * const style = 
+        haveAlpha ? "RGB +alpha" :
+        hdr.bits_per_pixel < 16 ? "RGB/palette" :
+        "RGB"
+        ;
+
+    pm_message("image %2u: "
+               "BMP %3u x %3u x %2u (%s)",
+               imageIndex,
+               hdr.bm_width, hdr.bm_height / 2, hdr.bits_per_pixel,
+               style);
+}
+
+
+
+static void
+convertBmp(const unsigned char * const image,
+           FILE *                const ofP,
+           struct IconDirEntry * const dirEntryP,
+           bool                  const needHeaderDump,
+           bool                  const andMasks) {
+    
+    struct BitmapInfoHeader hdr;
+    uint32_t                offset;
+    bool                    haveAlpha;
+    uint32_t                xorByteCt;
+
+    struct pam outpam;
+    tuple **   tuples;
+
+    readBmpHeader(image, dirEntryP->size, dirEntryP->index, needHeaderDump,
+                  &hdr);
+
+    offset = hdr.header_size;  /* Start after header */
+
+    if ((dirEntryP->width != hdr.bm_width)
+        || (dirEntryP->height != hdr.bm_height / 2)) {
+        pm_message("image %2u: "
+                   "mismatch in header and image dimensions "
+                   "(%u x %u vs. %u x %u)",
+                   dirEntryP->index,
+                   dirEntryP->width,
+                   dirEntryP->height,
+                   hdr.bm_width,
+                   hdr.bm_height / 2);
+    }
+
+    if ((dirEntryP->bits_per_pixel != 0)
+        && (dirEntryP->bits_per_pixel != hdr.bits_per_pixel)) {
+        pm_message("image %2u "
+                   "mismatch in header and image bpp value"
+                   "(%u vs. %u)",
+                   dirEntryP->index,
+                   dirEntryP->bits_per_pixel,
+                   hdr.bits_per_pixel);
+    }
+
+    outpam.size   = sizeof(struct pam);
+    outpam.len    = PAM_STRUCT_SIZE(allocation_depth);
+    outpam.file   = ofP;
+    outpam.format = PAM_FORMAT;
+    outpam.width  = hdr.bm_width;
+    outpam.height = hdr.bm_height / 2;
+    outpam.maxval = 255;
+    outpam.allocation_depth = 5;
+
+    tuples = pnm_allocpamarray(&outpam);
+
+    readXorMask(&hdr, &image[offset], 
+                dirEntryP->size - offset,
+                tuples, dirEntryP->index, needHeaderDump,
+                &haveAlpha, &xorByteCt);
+
+    offset += xorByteCt;
+
+    {
+        /* If there is no alpha channel in XOR mask, store the AND mask to
+           the transparency plane.  Else, here are two transparency
+           maps. If requested, store the AND mask to a fifth PAM plane
+        */
+        bool haveAnd;
+        unsigned int andPlane;
+
+        if (!haveAlpha) {
+            haveAnd = true;
+            andPlane = PAM_TRN_PLANE;
+            strcpy (outpam.tuple_type, "RGB_ALPHA");
+            outpam.depth  = 4;
+        } else if (andMasks) {
+            haveAnd = true;
+            andPlane = PAM_TRN_PLANE + 1;
+            outpam.depth  = 5;
+            strcpy(outpam.tuple_type, "RGB_ALPHA_ANDMASK");
+        } else {
+            haveAnd = false;
+            strcpy (outpam.tuple_type, "RGB_ALPHA");
+            outpam.depth  = 4;
+        }
+        if (haveAnd) {
+            readAnd(&hdr, &image[offset], dirEntryP->size - offset,
+                    tuples, dirEntryP->index, andPlane, outpam.maxval);
+        }
+    }
+    pnm_writepam(&outpam, tuples);
+    pnm_freepamarray(tuples, &outpam);
+
+    reportImage(dirEntryP->index, hdr, haveAlpha);
+}
+
+
+
+static void
+reportPngInfo(const unsigned char * const image,
+              struct IconDirEntry * const dirEntryP) {
+    
+    struct PngIhdr ihdr;
+
+    ihdr.length      = u32_be (image, sizeof(pngHeader)  +0);
+    ihdr.signature   = u32_xx (image, sizeof(pngHeader)  +4);
+    ihdr.width       = u32_be (image, sizeof(pngHeader)  +8);
+    ihdr.height      = u32_be (image, sizeof(pngHeader) +12);
+    ihdr.bit_depth   = u8_be  (image, sizeof(pngHeader) +16);
+    ihdr.color_type  = u8_be  (image, sizeof(pngHeader) +17);
+    ihdr.compression = u8_be  (image, sizeof(pngHeader) +18);
+    ihdr.filter      = u8_be  (image, sizeof(pngHeader) +19);
+    ihdr.interlace   = u8_be  (image, sizeof(pngHeader) +20);
+
+    if ((ihdr.length != 13)
+        || ihdr.signature != *(uint32_t*)"IHDR") {
+        pm_message("image %2u: PNG (uncommonly formatted)",
+                   dirEntryP->index);
+    } else {
+        uint32_t depth;
+        const char * colorType;
+
+        switch (ihdr.color_type) {
+        case 0:
+            colorType = "grayscale";
+            depth     = ihdr.bit_depth;
+            break;
+
+        case 2:
+            colorType = "RGB";
+            depth     = ihdr.bit_depth * 3;
+            break;
+
+        case 3:
+            colorType = "RGB/palette";
+            depth     = 8;
+            break;
+
+        case 4:
+            colorType = "grayscale +alpha";
+            depth     = ihdr.bit_depth * 2;
+            break;
+
+        case 6:
+            colorType = "RGB +alpha";
+            depth     = ihdr.bit_depth * 4;
+            break;
+
+        default:
+            colorType = "unknown color system";
+            depth     = 0;
+            break;
+        }
+        pm_message("image %2u: PNG %3u x %3u x %2u (%s)",
+                   dirEntryP->index,
+                   ihdr.width, ihdr.height, depth, colorType);
+
+        if ((dirEntryP->width != ihdr.width)
+            || (dirEntryP->height != ihdr.height)) {
+            pm_message("image %2u:"
+                       " mismatch in header and image dimensions"
+                       " (%u x %u vs %u x %u)",
+                       dirEntryP->index, dirEntryP->width, dirEntryP->height,
+                       ihdr.width, ihdr.height);
+        }
+        if (dirEntryP->bits_per_pixel != 0
+            && dirEntryP->bits_per_pixel != depth) {
+            pm_message("image %2u:"
+                       " mismatch in header and image bpp value"
+                       " (%u vs %u)",
+                       dirEntryP->index, dirEntryP->bits_per_pixel, depth);
+        }
+    }
+}
+
+
+
+static void
+convertPng(const unsigned char * const image,
+           FILE *                const ofP,
+           struct IconDirEntry * const dirEntryP) {
+
+    struct bufferDesc imageBuffer;
+
+    reportPngInfo(image, dirEntryP);
+
+    imageBuffer.size = dirEntryP->size;
+    imageBuffer.buffer = (unsigned char *)image;
+
+    pm_system(pm_feed_from_memory, &imageBuffer,
+              NULL /* stdout accepter */, NULL,
+              "pngtopam -alphapam");
+}
+
+
+
+static uint32_t
+bestImage(struct IconDir * const dirP) {
+
+    uint32_t imageIndex;
+    uint32_t bestPixelCt;
+    uint32_t bestColorCt;
+    uint16_t best;
+
+    bestPixelCt = 0;  /* initial value */
+    bestColorCt = 0;  /* initial value */
+    best        = 0;  /* initial value */
+    
+    for (imageIndex = 0; dirP->count > imageIndex; ++imageIndex) {
+        struct IconDirEntry * const dirEntryP = &dirP->entries[imageIndex];
+
+        uint32_t const pixelCt = dirEntryP->width * dirEntryP->height;
+
+        uint32_t colorCt;
+
+        /*  32-bit icons have 24 bit color information only.
+         
+            Since NT 5.1 (aka WinXP), it is allowed to place 8-bit
+            transparency information in the remaining bits (to check,
+            you have to read all these bits in the image!), so I prefer
+            32-bit images over 24-bit images (which violate the
+            spec. anyway).
+        */
+        if (dirEntryP->bits_per_pixel > 24)
+            colorCt = 1u << 25;
+        else
+            colorCt = 1u << dirEntryP->bits_per_pixel;
+
+        if (dirEntryP->color_count != 0 && colorCt > dirEntryP->color_count)
+            colorCt = dirEntryP->color_count;
+
+        if ((pixelCt > bestPixelCt)
+            || ((pixelCt == bestPixelCt) && (colorCt > bestColorCt))) {
+            /* This is a new best */
+            bestPixelCt = pixelCt;
+            bestColorCt = colorCt;
+            best        = imageIndex;
+        }
+    }
+    return best;
+}
+
+
+
+static void
+convertImage(struct File *         const icoP,
+             struct IconDirEntry * const dirEntryP,
+             FILE *                const ofP,
+             bool                  const needHeaderDump,
+             bool                  const andMasks) {
+
+    const unsigned char * image;  /* malloced */
+
+    image = readImage(icoP, dirEntryP);
+
+    if (MEMEQ(image, pngHeader, sizeof (pngHeader)))
+        convertPng(image, ofP, dirEntryP);
+    else
+        convertBmp(image, ofP, dirEntryP, needHeaderDump, andMasks);
+
+    free((void *)image);
+}
+
+
+
+int
+main (int argc, const char *argv []) {
+
+    struct File ico;
+    struct IconDir * dirP;
+    struct CmdlineInfo cmdline;
+
+    pm_proginit (&argc, argv);
+
+    parseCommandLine(argc, argv, &cmdline);
+
+    verbose = cmdline.verbose;
+
+    ico.name =
+        streq(cmdline.inputFileName, "-") ?  "<stdin>" : cmdline.inputFileName;
+    ico.pos   = 0;
+    ico.fileP = pm_openr(cmdline.inputFileName);
+
+    dirP = readIconDir(&ico, cmdline.headerdump);
+
+    if (cmdline.allimages) {
+        unsigned int i;
+        for (i = 0; i < dirP->count; ++i)
+            convertImage(&ico, &dirP->entries[i], stdout,
+                         cmdline.headerdump, cmdline.andmasks);
+    } else if (cmdline.imageSpec) {
+        unsigned int i;
+        bool found;
+        for (i = 0, found = false; i < dirP->count; ++i) {
+            if (dirP->entries[i].index == cmdline.image) {
+                found = true;
+                convertImage(&ico, &dirP->entries[i], stdout,
+                             cmdline.headerdump, cmdline.andmasks);
+            }
+        }
+        if (!found)
+            pm_error("no image index %u in.input", cmdline.image);
+    } else {
+        convertImage(&ico, &dirP->entries[bestImage(dirP)], stdout,
+                     cmdline.headerdump, cmdline.andmasks);
+    }
+
+    free(dirP);
+
+    if (ico.fileP != stdin)
+        pm_close(ico.fileP);
+
+    return 0;
+}
+
+
+