gtk/gdk-pixbuf/io-pnm.c

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/* GdkPixbuf library - PNM image loader
*
* Copyright (C) 1999 Red Hat, Inc.
*
* Authors: Michael Fulbright <drmike@redhat.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#include <config.h>
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <setjmp.h>
#include <jpeglib.h>
#include "gdk-pixbuf/gdk-pixbuf.h"
#include "gdk-pixbuf/gdk-pixbuf-io.h"
#define PNM_BUF_SIZE 4096
#define PNM_SUSPEND 0
#define PNM_OK 1
#define PNM_FATAL_ERR -1
typedef enum {
PNM_FORMAT_PGM,
PNM_FORMAT_PGM_RAW,
PNM_FORMAT_PPM,
PNM_FORMAT_PPM_RAW,
PNM_FORMAT_PBM,
PNM_FORMAT_PBM_RAW
} PnmFormat;
typedef struct {
guchar buffer[PNM_BUF_SIZE];
guchar *next_byte;
guint bytes_left;
} PnmIOBuffer;
typedef struct {
ModuleUpdatedNotifyFunc updated_func;
ModulePreparedNotifyFunc prepared_func;
gpointer user_data;
GdkPixbuf *pixbuf;
guchar *pixels; /* incoming pixel data buffer */
guchar *dptr; /* current position in pixbuf */
PnmIOBuffer inbuf;
guint width;
guint height;
guint maxval;
guint rowstride;
PnmFormat type;
guint output_row; /* last row to be completed */
guint output_col;
gboolean did_prescan; /* are we in image data yet? */
gboolean got_header; /* have we loaded jpeg header? */
} PnmLoaderContext;
GdkPixbuf *image_load (FILE *f);
gpointer image_begin_load (ModulePreparedNotifyFunc func,
ModuleUpdatedNotifyFunc func2, gpointer user_data);
void image_stop_load (gpointer context);
gboolean image_load_increment(gpointer context, guchar *buf, guint size);
static void explode_bitmap_into_buf (PnmLoaderContext *context);
static void explode_gray_into_buf (PnmLoaderContext *context);
/* Destroy notification function for the libart pixbuf */
static void
free_buffer (gpointer user_data, gpointer data)
{
free (data);
}
/* explode bitmap data into rgb components */
/* we need to know what the row so we can */
/* do sub-byte expansion (since 1 byte = 8 pixels) */
/* context->dptr MUST point at first byte in incoming data */
/* which corresponds to first pixel of row y */
static void
explode_bitmap_into_buf (PnmLoaderContext *context)
{
gint j;
guchar *from, *to, data;
gint bit;
guchar *dptr;
gint wid, x, y;
g_return_if_fail (context != NULL);
g_return_if_fail (context->dptr != NULL);
/* I'm no clever bit-hacker so I'm sure this can be optimized */
dptr = context->dptr;
y = context->output_row;
wid = context->width;
from = dptr + (wid - 1)/8;
to = dptr + (wid - 1) * 3;
/* bit = 7 - (((y+1)*wid-1) % 8); */
bit = 7 - ((wid-1) % 8);
/* get first byte and align properly */
data = from[0];
for (j = 0; j < bit; j++, data >>= 1);
for (x = wid-1; x >= 0; x--) {
/* g_print ("%c", (data & 1) ? '*' : ' '); */
to[0] = to[1] = to[2] = (data & 1) ? 0x00 : 0xff;
to -= 3;
bit++;
if (bit > 7) {
from--;
data = from[0];
bit = 0;
} else {
data >>= 1;
}
}
/* g_print ("\n"); */
}
/* explode gray image row into rgb components in pixbuf */
static void
explode_gray_into_buf (PnmLoaderContext *context)
{
gint j;
guchar *from, *to;
guint w;
g_return_if_fail (context != NULL);
g_return_if_fail (context->dptr != NULL);
/* Expand grey->colour. Expand from the end of the
* memory down, so we can use the same buffer.
*/
w = context->width;
from = context->dptr + w - 1;
to = context->dptr + (w - 1) * 3;
for (j = w - 1; j >= 0; j--) {
to[0] = from[0];
to[1] = from[0];
to[2] = from[0];
to -= 3;
from--;
}
}
/* skip over whitespace in file from current pos. */
/* also skips comments */
/* returns pointer to first non-whitespace char hit or, or NULL if */
/* we ran out of data w/o hitting a whitespace */
/* internal pointer in inbuf isnt moved ahead in this case */
static guchar *
skip_ahead_whitespace (PnmIOBuffer *inbuf)
{
gboolean in_comment;
guchar *ptr;
guint num_left;
g_return_val_if_fail (inbuf != NULL, NULL);
g_return_val_if_fail (inbuf->next_byte != NULL, NULL);
in_comment = FALSE;
num_left = inbuf->bytes_left;
ptr = inbuf->next_byte;
while (num_left > 0) {
if (in_comment) {
if (*ptr == '\n')
in_comment = FALSE;
} else if (*ptr == '#') {
in_comment = TRUE;
} else if (!isspace (*ptr)) {
inbuf->bytes_left -= (ptr-inbuf->next_byte);
inbuf->next_byte = ptr;
return ptr;
}
ptr ++;
num_left--;
}
return NULL;
}
/* reads into buffer until we hit whitespace in file from current pos, */
/* return NULL if ran out of data */
/* advances inbuf if successful */
static guchar *
read_til_whitespace (PnmIOBuffer *inbuf, guchar *buf, guint size)
{
guchar *p;
guchar *ptr;
guint num_left;
g_return_val_if_fail (inbuf != NULL, NULL);
g_return_val_if_fail (inbuf->next_byte != NULL, NULL);
p = buf;
num_left = inbuf->bytes_left;
ptr = inbuf->next_byte;
while (num_left > 0 && (p-buf)+1 < size) {
if (isspace (*ptr)) {
*p = '\0';
inbuf->bytes_left = num_left;
inbuf->next_byte = ptr;
return ptr;
} else {
*p = *ptr;
p++;
ptr++;
num_left--;
}
}
return NULL;
}
/* read next number from buffer */
/* -1 if failed, 0 if successful */
static gint
read_next_number (PnmIOBuffer *inbuf, guint *value)
{
guchar *tmpptr;
guchar *old_next_byte;
gchar *errptr;
guint old_bytes_left;
guchar buf[128];
g_return_val_if_fail (inbuf != NULL, -1);
g_return_val_if_fail (inbuf->next_byte != NULL, -1);
g_return_val_if_fail (value != NULL, -1);
old_next_byte = inbuf->next_byte;
old_bytes_left = inbuf->bytes_left;
if ((tmpptr = skip_ahead_whitespace (inbuf)) == NULL)
return -1;
if ((tmpptr = read_til_whitespace (inbuf, buf, 128)) == NULL) {
inbuf->next_byte = old_next_byte;
inbuf->bytes_left = old_bytes_left;
return -1;
}
*value = strtol (buf, &errptr, 10);
if (*errptr != '\0') {
inbuf->next_byte = old_next_byte;
inbuf->bytes_left = old_bytes_left;
return -1;
}
return 0;
}
/* returns PNM_OK, PNM_SUSPEND, or PNM_FATAL_ERR */
static gint
pnm_read_header (PnmLoaderContext *context)
{
guchar *old_next_byte;
guint old_bytes_left;
PnmIOBuffer *inbuf;
guint w, h;
gint rc;
PnmFormat type;
g_return_val_if_fail (context != NULL, PNM_FATAL_ERR);
inbuf = &context->inbuf;
old_bytes_left = inbuf->bytes_left;
old_next_byte = inbuf->next_byte;
/* file must start with a 'P' followed by a numeral */
/* so loop till we get enough data to determine type*/
if (inbuf->bytes_left < 2)
return PNM_SUSPEND;
if (*inbuf->next_byte != 'P')
return PNM_FATAL_ERR;
switch (*(inbuf->next_byte+1)) {
case '1':
type = PNM_FORMAT_PBM;
break;
case '2':
type = PNM_FORMAT_PGM;
break;
case '3':
type = PNM_FORMAT_PPM;
break;
case '4':
type = PNM_FORMAT_PBM_RAW;
break;
case '5':
type = PNM_FORMAT_PGM_RAW;
break;
case '6':
type = PNM_FORMAT_PPM_RAW;
break;
default:
return PNM_FATAL_ERR;
}
context->type = type;
inbuf->next_byte += 2;
inbuf->bytes_left -= 2;
/* now read remainder of header */
if ((rc = read_next_number (inbuf, &w))) {
inbuf->next_byte = old_next_byte;
inbuf->bytes_left = old_bytes_left;
return PNM_SUSPEND;
}
if ((rc = read_next_number (inbuf, &h))) {
inbuf->next_byte = old_next_byte;
inbuf->bytes_left = old_bytes_left;
return PNM_SUSPEND;
}
context->width = w;
context->height = h;
switch (type) {
case PNM_FORMAT_PPM:
case PNM_FORMAT_PPM_RAW:
case PNM_FORMAT_PGM:
case PNM_FORMAT_PGM_RAW:
if ((rc = read_next_number (inbuf, &context->maxval)) < 0) {
inbuf->next_byte = old_next_byte;
inbuf->bytes_left = old_bytes_left;
return PNM_SUSPEND;
}
break;
default:
break;
}
return PNM_OK;
}
static gint
pnm_read_raw_scanline (PnmLoaderContext *context)
{
guint numpix;
guint numbytes, offset;
PnmIOBuffer *inbuf;
g_return_val_if_fail (context != NULL, PNM_FATAL_ERR);
/*G_BREAKPOINT(); */
inbuf = &context->inbuf;
switch (context->type) {
case PNM_FORMAT_PBM_RAW:
numpix = inbuf->bytes_left * 8;
break;
case PNM_FORMAT_PGM_RAW:
numpix = inbuf->bytes_left;
break;
case PNM_FORMAT_PPM_RAW:
numpix = inbuf->bytes_left/3;
break;
default:
g_warning ("io-pnm.c: Illegal raw pnm type!\n");
return PNM_FATAL_ERR;
break;
}
numpix = MIN (numpix, context->width - context->output_col);
if (numpix == 0)
return PNM_SUSPEND;
context->dptr = context->pixels +
context->output_row * context->rowstride;
switch (context->type) {
case PNM_FORMAT_PBM_RAW:
numbytes = numpix/8 + ((numpix % 8) ? 1 : 0);
offset = context->output_col/8;
break;
case PNM_FORMAT_PGM_RAW:
numbytes = numpix;
offset = context->output_col;
break;
case PNM_FORMAT_PPM_RAW:
numbytes = numpix*3;
offset = context->output_col*3;
break;
default:
g_warning ("io-pnm.c: Illegal raw pnm type!\n");
break;
}
memcpy (context->dptr + offset, inbuf->next_byte, numbytes);
inbuf->next_byte += numbytes;
inbuf->bytes_left -= numbytes;
context->output_col += numpix;
if (context->output_col == context->width) {
if ( context->type == PNM_FORMAT_PBM_RAW )
explode_bitmap_into_buf(context);
else if ( context->type == PNM_FORMAT_PGM_RAW )
explode_gray_into_buf (context);
context->output_col = 0;
context->output_row++;
} else {
return PNM_SUSPEND;
}
return PNM_OK;
}
static gint
pnm_read_ascii_scanline (PnmLoaderContext *context)
{
guint offset;
gint rc;
guint value, numval, i;
guchar data;
guchar mask;
guchar *old_next_byte, *dptr;
guint old_bytes_left;
PnmIOBuffer *inbuf;
g_return_val_if_fail (context != NULL, PNM_FATAL_ERR);
inbuf = &context->inbuf;
context->dptr = context->pixels +
context->output_row * context->rowstride;
switch (context->type) {
case PNM_FORMAT_PBM:
numval = MIN (8, context->width - context->output_col);
offset = context->output_col/8;
break;
case PNM_FORMAT_PGM:
numval = 1;
offset = context->output_col;
break;
case PNM_FORMAT_PPM:
numval = 3;
offset = context->output_col*3;
break;
default:
g_warning ("Can't happen\n");
return PNM_FATAL_ERR;
}
dptr = context->dptr + offset;
while (TRUE) {
if (context->type == PNM_FORMAT_PBM) {
mask = 0x80;
data = 0;
numval = MIN (8, context->width - context->output_col);
}
old_next_byte = inbuf->next_byte;
old_bytes_left = inbuf->bytes_left;
for (i=0; i<numval; i++) {
if ((rc = read_next_number (inbuf, &value))) {
inbuf->next_byte = old_next_byte;
inbuf->bytes_left = old_bytes_left;
return PNM_SUSPEND;
}
switch (context->type) {
case PNM_FORMAT_PBM:
if (value)
data |= mask;
mask >>= 1;
break;
case PNM_FORMAT_PGM:
*dptr++ = (guchar)(255.0*((double)value/(double)context->maxval));
break;
case PNM_FORMAT_PPM:
*dptr++ = (guchar)(255.0*((double)value/(double)context->maxval));
break;
default:
g_warning ("io-pnm.c: Illegal raw pnm type!\n");
break;
}
}
if (context->type == PNM_FORMAT_PBM) {
*dptr++ = data;
context->output_col += numval;
} else {
context->output_col++;
}
if (context->output_col == context->width) {
if ( context->type == PNM_FORMAT_PBM )
explode_bitmap_into_buf(context);
else if ( context->type == PNM_FORMAT_PGM )
explode_gray_into_buf (context);
context->output_col = 0;
context->output_row++;
break;
}
}
return PNM_OK;
}
/* returns 1 if a scanline was converted, 0 means we ran out of data */
static gint
pnm_read_scanline (PnmLoaderContext *context)
{
gint rc;
g_return_val_if_fail (context != NULL, PNM_FATAL_ERR);
/* read in image data */
/* for raw formats this is trivial */
switch (context->type) {
case PNM_FORMAT_PBM_RAW:
case PNM_FORMAT_PGM_RAW:
case PNM_FORMAT_PPM_RAW:
rc = pnm_read_raw_scanline (context);
if (rc == PNM_SUSPEND)
return rc;
break;
case PNM_FORMAT_PBM:
case PNM_FORMAT_PGM:
case PNM_FORMAT_PPM:
rc = pnm_read_ascii_scanline (context);
if (rc == PNM_SUSPEND)
return rc;
break;
default:
g_warning ("Cannot load these image types (yet)\n");
return PNM_FATAL_ERR;
}
return PNM_OK;
}
/* Shared library entry point */
GdkPixbuf *
image_load (FILE *f)
{
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gint nbytes;
gint rc;
PnmLoaderContext context;
PnmIOBuffer *inbuf;
/* pretend to be doing progressive loading */
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context.updated_func = NULL;
context.prepared_func = NULL;
context.user_data = NULL;
context.inbuf.bytes_left = 0;
context.inbuf.next_byte = NULL;
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context.pixels = NULL;
context.pixbuf = NULL;
context.got_header = context.did_prescan = FALSE;
inbuf = &context.inbuf;
while (TRUE) {
guint num_to_read;
/* keep buffer as full as possible */
num_to_read = PNM_BUF_SIZE - inbuf->bytes_left;
if (inbuf->next_byte != NULL && inbuf->bytes_left > 0)
memmove (inbuf->buffer, inbuf->next_byte,
inbuf->bytes_left);
nbytes = fread (inbuf->buffer+inbuf->bytes_left,
1, num_to_read, f);
inbuf->bytes_left += nbytes;
inbuf->next_byte = inbuf->buffer;
/* ran out of data and we haven't exited main loop */
if (inbuf->bytes_left == 0) {
if (context.pixbuf)
gdk_pixbuf_unref (context.pixbuf);
g_warning ("io-pnm.c: Ran out of data...\n");
return NULL;
}
/* get header if needed */
if (!context.got_header) {
rc = pnm_read_header (&context);
if (rc == PNM_FATAL_ERR)
return NULL;
else if (rc == PNM_SUSPEND)
continue;
context.got_header = TRUE;
}
/* scan until we hit image data */
if (!context.did_prescan) {
if (skip_ahead_whitespace (inbuf) == NULL)
continue;
context.did_prescan = TRUE;
context.output_row = 0;
context.output_col = 0;
context.rowstride = context.width * 3;
context.pixels = g_malloc (context.height *
context.width * 3);
if (!context.pixels) {
/* Failed to allocate memory */
g_error ("Couldn't allocate pixel buf");
}
}
/* if we got here we're reading image data */
while (context.output_row < context.height) {
rc = pnm_read_scanline (&context);
if (rc == PNM_SUSPEND) {
break;
} else if (rc == PNM_FATAL_ERR) {
if (context.pixbuf)
gdk_pixbuf_unref (context.pixbuf);
g_warning ("io-pnm.c: error reading rows..\n");
return NULL;
}
}
if (context.output_row < context.height)
continue;
else
break;
}
return gdk_pixbuf_new_from_data (context.pixels, ART_PIX_RGB, FALSE,
context.width, context.height,
context.width * 3, free_buffer, NULL);
}
/*
* func - called when we have pixmap created (but no image data)
* user_data - passed as arg 1 to func
* return context (opaque to user)
*/
gpointer
image_begin_load (ModulePreparedNotifyFunc prepared_func,
ModuleUpdatedNotifyFunc updated_func,
gpointer user_data)
{
PnmLoaderContext *context;
context = g_new0 (PnmLoaderContext, 1);
context->prepared_func = prepared_func;
context->updated_func = updated_func;
context->user_data = user_data;
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context->pixbuf = NULL;
context->pixels = NULL;
context->got_header = FALSE;
context->did_prescan = FALSE;
context->inbuf.bytes_left = 0;
context->inbuf.next_byte = NULL;
return (gpointer) context;
}
/*
* context - returned from image_begin_load
*
* free context, unref gdk_pixbuf
*/
void
image_stop_load (gpointer data)
{
PnmLoaderContext *context = (PnmLoaderContext *) data;
g_return_if_fail (context != NULL);
if (context->pixbuf)
gdk_pixbuf_unref (context->pixbuf);
g_free (context);
}
/*
* context - from image_begin_load
* buf - new image data
* size - length of new image data
*
* append image data onto inrecrementally built output image
*/
gboolean
image_load_increment (gpointer data, guchar *buf, guint size)
{
PnmLoaderContext *context = (PnmLoaderContext *)data;
PnmIOBuffer *inbuf;
guchar *old_next_byte;
guint old_bytes_left;
guchar *bufhd;
guint num_left, spinguard;
gint rc;
g_return_val_if_fail (context != NULL, FALSE);
g_return_val_if_fail (buf != NULL, FALSE);
bufhd = buf;
inbuf = &context->inbuf;
old_bytes_left = inbuf->bytes_left;
old_next_byte = inbuf->next_byte;
num_left = size;
spinguard = 0;
while (TRUE) {
guint num_to_copy;
/* keep buffer as full as possible */
num_to_copy = MIN (PNM_BUF_SIZE - inbuf->bytes_left, num_left);
if (num_to_copy == 0)
spinguard++;
if (spinguard > 1)
return TRUE;
if (inbuf->next_byte != NULL && inbuf->bytes_left > 0)
memmove (inbuf->buffer, inbuf->next_byte,
inbuf->bytes_left);
memcpy (inbuf->buffer + inbuf->bytes_left, bufhd, num_to_copy);
bufhd += num_to_copy;
inbuf->bytes_left += num_to_copy;
inbuf->next_byte = inbuf->buffer;
num_left -= num_to_copy;
/* ran out of data and we haven't exited main loop */
if (inbuf->bytes_left == 0)
return TRUE;
/* get header if needed */
if (!context->got_header) {
rc = pnm_read_header (context);
if (rc == PNM_FATAL_ERR)
return FALSE;
else if (rc == PNM_SUSPEND)
continue;
context->got_header = TRUE;
}
/* scan until we hit image data */
if (!context->did_prescan) {
if (skip_ahead_whitespace (inbuf) == NULL)
continue;
context->did_prescan = TRUE;
context->output_row = 0;
context->output_col = 0;
context->pixbuf = gdk_pixbuf_new(ART_PIX_RGB,
/*have_alpha*/ FALSE,
8,
context->width,
context->height);
if (context->pixbuf == NULL) {
/* Failed to allocate memory */
g_error ("Couldn't allocate gdkpixbuf");
}
context->pixels = context->pixbuf->art_pixbuf->pixels;
context->rowstride = context->pixbuf->art_pixbuf->rowstride;
/* Notify the client that we are ready to go */
(* context->prepared_func) (context->pixbuf,
context->user_data);
}
/* if we got here we're reading image data */
while (context->output_row < context->height) {
rc = pnm_read_scanline (context);
if (rc == PNM_SUSPEND) {
break;
} else if (rc == PNM_FATAL_ERR) {
if (context->pixbuf)
gdk_pixbuf_unref (context->pixbuf);
g_warning ("io-pnm.c: error reading rows..\n");
return FALSE;
} else if (rc == PNM_OK) {
/* send updated signal */
(* context->updated_func) (context->pixbuf,
context->user_data,
0,
context->output_row-1,
context->width,
1);
}
}
if (context->output_row < context->height)
continue;
else
break;
}
return TRUE;
}