netsurf/atari/bitmap.c

485 lines
11 KiB
C
Executable File

/*
* Copyright 2010 Ole Loots <ole@monochrom.net>
*
* This file is part of NetSurf, http://www.netsurf-browser.org/
*
* NetSurf is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* NetSurf 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <inttypes.h>
#include <sys/types.h>
#include <string.h>
#include "assert.h"
#include "desktop/options.h"
#include "image/bitmap.h"
#include "atari/bitmap.h"
#include "atari/plot/plot.h"
#include "utils/log.h"
/*
* param bpp bits per pixel,
* param w width of the buffer (in pixel)
* param h height of the buffer (in pixel)
* param flags MFDB_FLAG_NOALLOC | MFDB_FLAG_ZEROMEM | MFDB_FLAG_STAND
* returns size of the fd_addr buffer required or allocated
*/
int init_mfdb(int bpp, int w, int h, uint32_t flags, MFDB * out )
{
int dststride;
dststride = MFDB_STRIDE( w );
int size = MFDB_SIZE( bpp, dststride, h );
if( bpp > 0 ) {
if( (flags & MFDB_FLAG_NOALLOC) == 0 ) {
out->fd_addr = malloc( size );
if( out->fd_addr == NULL ){
return( 0 );
}
if( (flags & MFDB_FLAG_ZEROMEM) ){
memset( out->fd_addr, 0, size );
}
}
out->fd_stand = (flags & MFDB_FLAG_STAND) ? 1 : 0;
out->fd_nplanes = (short)bpp;
out->fd_r1 = out->fd_r2 = out->fd_r3 = 0;
} else {
memset( out, 0, sizeof(MFDB) );
}
out->fd_w = dststride;
out->fd_h = h;
out->fd_wdwidth = dststride >> 4;
return( size );
}
/**
* Create a bitmap.
*
* \param width width of image in pixels
* \param height width of image in pixels
* \param state a flag word indicating the initial state
* \return an opaque struct bitmap, or NULL on memory exhaustion
*/
void *bitmap_create(int w, int h, unsigned int state)
{
return bitmap_create_ex( w, h, NS_BMP_DEFAULT_BPP, w * NS_BMP_DEFAULT_BPP, state, NULL );
}
/**
* Create a bitmap.
*
* \param w width of image in pixels
* \param h height of image in pixels
* \param bpp number of BYTES per pixel
* \param rowstride linewidth in bytes
* \param state a flag word indicating the initial state
* \param pixdata NULL or an memory address to use as the bitmap pixdata
* \return an opaque struct bitmap, or NULL on memory exhaustion
*/
void * bitmap_create_ex( int w, int h, short bpp, int rowstride, unsigned int state, void * pixdata )
{
struct bitmap * bitmap;
LOG(("width %d (rowstride: %d, bpp: %d), height %d, state %u",w, rowstride,
bpp, h, state ));
if( rowstride == 0) {
rowstride = bpp * w;
}
assert( rowstride >= (w * bpp) );
bitmap = calloc(1 , sizeof(struct bitmap) );
if (bitmap) {
if( pixdata == NULL) {
bitmap->pixdata = calloc(1, (rowstride * h)+128);
}
else {
bitmap->pixdata = pixdata;
}
if (bitmap->pixdata != NULL) {
bitmap->width = w;
bitmap->height = h;
bitmap->opaque = (state & BITMAP_OPAQUE) ? true : false;
bitmap->bpp = bpp;
bitmap->resized = NULL;
bitmap->rowstride = rowstride;
} else {
free(bitmap);
bitmap=NULL;
LOG(("Out of memory!"));
}
}
LOG(("bitmap %p", bitmap));
return bitmap;
}
void * bitmap_realloc( int w, int h, short bpp, int rowstride, unsigned int state, void * bmp )
{
struct bitmap * bitmap = bmp;
int newsize = rowstride * h;
if( bitmap == NULL ) {
return( NULL );
}
assert( bitmap->pixdata != NULL );
int oldsize = bitmap->rowstride * bitmap->height;
bool doalloc = (state & BITMAP_GROW) ? (newsize > oldsize) : (newsize != oldsize);
if( newsize > oldsize )
assert( doalloc == true );
if( doalloc ) {
// TODO: set red band to a specific value and check the red band
// on bitmap_destroy()
bitmap->pixdata = realloc( bitmap->pixdata, newsize + 128 );
if( bitmap->pixdata == NULL )
return( NULL );
}
if( state & BITMAP_CLEAR ){
memset( bitmap->pixdata, 0x00, newsize + 128 );
}
bitmap->width = w;
bitmap->height = h;
bitmap->bpp = bpp;
bitmap->resized = NULL;
bitmap->rowstride = rowstride;
bitmap_modified( bitmap );
return( bitmap );
}
void bitmap_to_mfdb(void * bitmap, MFDB * out)
{
struct bitmap * bm;
uint8_t * tmp;
size_t dststride, oldstride;
bm = bitmap;
assert( out != NULL );
assert( bm->pixdata != NULL );
oldstride = bitmap_get_rowstride( bm );
dststride = MFDB_STRIDE( bm->width );
if( oldstride != dststride * bm->bpp )
{
assert( oldstride <= dststride );
/* we need to convert the img to new rowstride */
tmp = bm->pixdata;
bm->pixdata = calloc(1, dststride * bm->bpp * bm->height );
if( tmp == NULL ){
bm->pixdata = tmp;
out->fd_addr = NULL;
return;
}
bm->rowstride = dststride * bm->bpp;
int i=0;
for( i=0; i<bm->height; i++) {
memcpy( (bm->pixdata+i*bm->rowstride), (tmp + i*oldstride), oldstride);
}
free( tmp );
}
out->fd_w = dststride;
out->fd_h = bm->height;
out->fd_wdwidth = dststride >> 4;
out->fd_addr = bm->pixdata;
out->fd_stand = 0;
out->fd_nplanes = (short)bm->bpp;
out->fd_r1 = out->fd_r2 = out->fd_r3 = 0;
}
/**
* Return a pointer to the pixel data in a bitmap.
*
* \param bitmap a bitmap, as returned by bitmap_create()
* \return pointer to the pixel buffer
*
* The pixel data is packed as BITMAP_FORMAT, possibly with padding at the end
* of rows. The width of a row in bytes is given by bitmap_get_rowstride().
*/
unsigned char * bitmap_get_buffer(void *bitmap)
{
struct bitmap *bm = bitmap;
if (bitmap == NULL) {
LOG(("NULL bitmap!"));
return NULL;
}
return bm->pixdata;
}
size_t bitmap_buffer_size( void * bitmap )
{
struct bitmap * bm = bitmap;
if( bm == NULL )
return 0;
return( bm->rowstride * bm->height );
}
/**
* Find the width of a pixel row in bytes.
*
* \param bitmap a bitmap, as returned by bitmap_create()
* \return width of a pixel row in the bitmap
*/
size_t bitmap_get_rowstride(void *bitmap)
{
struct bitmap *bm = bitmap;
if (bitmap == NULL) {
LOG(("NULL bitmap!"));
return 0;
}
return bm->rowstride;
}
/**
* Free a bitmap.
*
* \param bitmap a bitmap, as returned by bitmap_create()
*/
void bitmap_destroy(void *bitmap)
{
struct bitmap *bm = bitmap;
if (bitmap == NULL) {
LOG(("NULL bitmap!"));
return;
}
if( bm->resized != NULL ) {
bitmap_destroy(bm->resized);
}
if( bm->converted && ( bm->native.fd_addr != bm->pixdata ) )
free( bm->native.fd_addr );
free(bm->pixdata);
free(bm);
}
/**
* Save a bitmap in the platform's native format.
*
* \param bitmap a bitmap, as returned by bitmap_create()
* \param path pathname for file
* \return true on success, false on error and error reported
*/
bool bitmap_save(void *bitmap, const char *path, unsigned flags)
{
return true;
}
/**
* The bitmap image has changed, so flush any persistant cache.
*
* \param bitmap a bitmap, as returned by bitmap_create()
*/
void bitmap_modified(void *bitmap)
{
struct bitmap *bm = bitmap;
if( bm->resized != NULL ) {
bitmap_destroy( bm->resized );
bm->resized = NULL;
}
if( bm->converted ){
if( bm->pixdata != bm->native.fd_addr ){
free( bm->native.fd_addr );
}
bm->native.fd_addr = NULL;
bm->converted = false;
}
}
/**
* Sets whether a bitmap should be plotted opaque
*
* \param bitmap a bitmap, as returned by bitmap_create()
* \param opaque whether the bitmap should be plotted opaque
*/
void bitmap_set_opaque(void *bitmap, bool opaque)
{
struct bitmap *bm = bitmap;
if (bitmap == NULL) {
LOG(("NULL bitmap!"));
return;
}
LOG(("setting bitmap %p to %s", bm, opaque?"opaque":"transparent"));
bm->opaque = opaque;
}
/**
* Tests whether a bitmap has an opaque alpha channel
*
* \param bitmap a bitmap, as returned by bitmap_create()
* \return whether the bitmap is opaque
*/
bool bitmap_test_opaque(void *bitmap)
{
int tst;
struct bitmap *bm = bitmap;
if (bitmap == NULL) {
LOG(("NULL bitmap!"));
return false;
}
if( nsoption_int(atari_transparency) == 0 ){
return( true );
}
tst = bm->width * bm->height;
while (tst-- > 0) {
if (bm->pixdata[(tst << 2) + 3] != 0xff) {
LOG(("bitmap %p has transparency",bm));
return false;
}
}
LOG(("bitmap %p is opaque", bm));
return true;
}
/**
* Gets whether a bitmap should be plotted opaque
*
* \param bitmap a bitmap, as returned by bitmap_create()
*/
bool bitmap_get_opaque(void *bitmap)
{
struct bitmap *bm = bitmap;
if (bitmap == NULL) {
LOG(("NULL bitmap!"));
return false;
}
return bm->opaque;
}
int bitmap_get_width(void *bitmap)
{
struct bitmap *bm = bitmap;
if (bitmap == NULL) {
LOG(("NULL bitmap!"));
return 0;
}
return(bm->width);
}
int bitmap_get_height(void *bitmap)
{
struct bitmap *bm = bitmap;
if (bitmap == NULL) {
LOG(("NULL bitmap!"));
return 0;
}
return(bm->height);
}
/**
*
* Gets the number of BYTES per pixel.
*
*/
size_t bitmap_get_bpp(void *bitmap)
{
struct bitmap *bm = bitmap;
return bm->bpp;
}
bool bitmap_resize(struct bitmap *img, HermesHandle hermes_h,
HermesFormat *fmt, int nw, int nh)
{
unsigned int state = 0;
short bpp = bitmap_get_bpp( img );
int stride = bitmap_get_rowstride( img );
int err;
if( img->resized != NULL ) {
if( img->resized->width != nw || img->resized->height != nh ) {
bitmap_destroy( img->resized );
img->resized = NULL;
} else {
/* the bitmap is already resized */
return(true);
}
}
/* allocate the mem for resized bitmap */
if (img->opaque == true) {
state |= BITMAP_OPAQUE;
}
img->resized = bitmap_create_ex( nw, nh, bpp, nw*bpp, state, NULL );
if( img->resized == NULL ) {
printf("W: %d, H: %d, bpp: %d\n", nw, nh, bpp);
assert(img->resized);
return(false);
}
/* allocate an converter, only for resizing */
err = Hermes_ConverterRequest( hermes_h,
fmt,
fmt
);
if( err == 0 ) {
return(false);
}
err = Hermes_ConverterCopy( hermes_h,
img->pixdata,
0, /* x src coord of top left in pixel coords */
0, /* y src coord of top left in pixel coords */
bitmap_get_width( img ), bitmap_get_height( img ),
stride, /* stride as bytes */
img->resized->pixdata,
0, /* x dst coord of top left in pixel coords */
0, /* y dst coord of top left in pixel coords */
nw, nh,
bitmap_get_rowstride(img->resized) /* stride as bytes */
);
if( err == 0 ) {
bitmap_destroy( img->resized );
img->resized = NULL;
return(false);
}
return(true);
}
/*
* Local Variables:
* c-basic-offset:8
* End:
*/