netsurf/amiga/bitmap.c

602 lines
14 KiB
C

/*
* Copyright 2008, 2009, 2012 Chris Young <chris@unsatisfactorysoftware.co.uk>
*
* 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 "amiga/os3support.h"
#include <proto/exec.h>
#ifdef __amigaos4__
#include <graphics/blitattr.h>
#include <graphics/composite.h>
#endif
#include <graphics/gfxbase.h>
#include <proto/datatypes.h>
#include <datatypes/pictureclass.h>
#include <proto/dos.h>
#include <proto/intuition.h>
#include <proto/utility.h>
#include <sys/param.h>
#include "assert.h"
#include "utils/nsoption.h"
#include "utils/messages.h"
#include "desktop/mouse.h"
#include "desktop/gui_window.h"
#include "image/bitmap.h"
#include "amiga/gui.h"
#include "amiga/bitmap.h"
#include "amiga/download.h"
#include "amiga/misc.h"
#include "amiga/rtg.h"
/* exported function documented in amiga/bitmap.h */
void *amiga_bitmap_create(int width, int height, unsigned int state)
{
struct bitmap *bitmap;
bitmap = ami_misc_allocvec_clear(sizeof(struct bitmap), 0);
if(bitmap)
{
bitmap->pixdata = ami_misc_allocvec_clear(width*height*4, 0xff);
bitmap->width = width;
bitmap->height = height;
if(state & BITMAP_OPAQUE) bitmap->opaque = true;
else bitmap->opaque = false;
}
return bitmap;
}
/* exported function documented in amiga/bitmap.h */
unsigned char *amiga_bitmap_get_buffer(void *bitmap)
{
struct bitmap *bm = bitmap;
return bm->pixdata;
}
/* exported function documented in amiga/bitmap.h */
size_t amiga_bitmap_get_rowstride(void *bitmap)
{
struct bitmap *bm = bitmap;
if(bm)
{
return ((bm->width)*4);
}
else
{
return 0;
}
}
/* exported function documented in amiga/bitmap.h */
void amiga_bitmap_destroy(void *bitmap)
{
struct bitmap *bm = bitmap;
if(bm)
{
if((bm->nativebm) && (bm->dto == NULL)) {
ami_rtg_freebitmap(bm->nativebm);
}
if(bm->dto) {
DisposeDTObject(bm->dto);
}
if(bm->native_mask) FreeRaster(bm->native_mask, bm->width, bm->height);
FreeVec(bm->pixdata);
bm->pixdata = NULL;
bm->nativebm = NULL;
bm->native_mask = NULL;
bm->dto = NULL;
FreeVec(bm);
bm = NULL;
}
}
/* exported function documented in amiga/bitmap.h */
bool amiga_bitmap_save(void *bitmap, const char *path, unsigned flags)
{
int err = 0;
Object *dto = NULL;
if((dto = ami_datatype_object_from_bitmap(bitmap)))
{
if (flags & AMI_BITMAP_SCALE_ICON) {
IDoMethod(dto, PDTM_SCALE, 16, 16, 0);
if((DoDTMethod(dto, 0, 0, DTM_PROCLAYOUT, 0, 1)) == 0) {
return false;
}
}
err = SaveDTObjectA(dto, NULL, NULL, path, DTWM_IFF, FALSE, NULL);
DisposeDTObject(dto);
}
if(err == 0) return false;
else return true;
}
/* exported function documented in amiga/bitmap.h */
void amiga_bitmap_modified(void *bitmap)
{
struct bitmap *bm = bitmap;
if((bm->nativebm) && (bm->dto == NULL))
ami_rtg_freebitmap(bm->nativebm);
if(bm->dto) DisposeDTObject(bm->dto);
if(bm->native_mask) FreeRaster(bm->native_mask, bm->width, bm->height);
bm->nativebm = NULL;
bm->dto = NULL;
bm->native_mask = NULL;
}
/* exported function documented in amiga/bitmap.h */
void amiga_bitmap_set_opaque(void *bitmap, bool opaque)
{
struct bitmap *bm = bitmap;
assert(bitmap);
bm->opaque = opaque;
}
/* exported function documented in amiga/bitmap.h */
bool amiga_bitmap_test_opaque(void *bitmap)
{
struct bitmap *bm = bitmap;
uint32 p = bm->width * bm->height;
uint32 a = 0;
uint32 *bmi = (uint32 *) bm->pixdata;
assert(bitmap);
for(a=0;a<p;a+=4)
{
if ((*bmi & 0x000000ffU) != 0x000000ffU) return false;
bmi++;
}
return true;
}
/* exported function documented in amiga/bitmap.h */
bool amiga_bitmap_get_opaque(void *bitmap)
{
struct bitmap *bm = bitmap;
assert(bitmap);
return bm->opaque;
}
/**
* get width of a bitmap.
*/
static int bitmap_get_width(void *bitmap)
{
struct bitmap *bm = bitmap;
if(bm)
{
return(bm->width);
}
else
{
return 0;
}
}
/**
* get height of a bitmap.
*/
static int bitmap_get_height(void *bitmap)
{
struct bitmap *bm = bitmap;
if(bm)
{
return(bm->height);
}
else
{
return 0;
}
}
/**
* Find the bytes per pixel of a bitmap
*
* \param vbitmap a bitmap, as returned by bitmap_create()
* \return bytes per pixel
*/
static size_t bitmap_get_bpp(void *vbitmap)
{
struct bitmap *bitmap = (struct bitmap *)vbitmap;
assert(bitmap);
return 4;
}
static void ami_bitmap_argb_to_rgba(struct bitmap *bm)
{
if(bm == NULL) return;
ULONG *data = (ULONG *)amiga_bitmap_get_buffer(bm);
for(int i = 0; i < ((amiga_bitmap_get_rowstride(bm) / sizeof(ULONG)) * bm->height); i++) {
data[i] = (data[i] << 8) | (data[i] >> 24);
}
}
#ifdef BITMAP_DUMP
void bitmap_dump(struct bitmap *bitmap)
{
int x,y;
ULONG *bm = (ULONG *)bitmap->pixdata;
printf("Width=%ld, Height=%ld, Opaque=%s\nnativebm=%lx, width=%ld, height=%ld\n",
bitmap->width, bitmap->height, bitmap->opaque ? "true" : "false",
bitmap->nativebm, bitmap->nativebmwidth, bitmap->nativebmheight);
for(y = 0; y < bitmap->height; y++) {
for(x = 0; x < bitmap->width; x++) {
printf("%lx ", bm[(y*bitmap->width) + x]);
}
printf("\n");
}
}
#endif
Object *ami_datatype_object_from_bitmap(struct bitmap *bitmap)
{
Object *dto;
struct BitMapHeader *bmhd;
if((dto = NewDTObject(NULL,
DTA_SourceType,DTST_RAM,
DTA_GroupID,GID_PICTURE,
//DTA_BaseName,"ilbm",
PDTA_DestMode,PMODE_V43,
TAG_DONE)))
{
if(GetDTAttrs(dto,PDTA_BitMapHeader,&bmhd,TAG_DONE))
{
bmhd->bmh_Width = (UWORD)bitmap_get_width(bitmap);
bmhd->bmh_Height = (UWORD)bitmap_get_height(bitmap);
bmhd->bmh_Depth = (UBYTE)bitmap_get_bpp(bitmap) * 8;
if(!amiga_bitmap_get_opaque(bitmap)) bmhd->bmh_Masking = mskHasAlpha;
}
SetDTAttrs(dto,NULL,NULL,
DTA_ObjName,bitmap->url,
DTA_ObjAnnotation,bitmap->title,
DTA_ObjAuthor,messages_get("NetSurf"),
DTA_NominalHoriz,bitmap_get_width(bitmap),
DTA_NominalVert,bitmap_get_height(bitmap),
PDTA_SourceMode,PMODE_V43,
TAG_DONE);
IDoMethod(dto, PDTM_WRITEPIXELARRAY, amiga_bitmap_get_buffer(bitmap),
PBPAFMT_RGBA, amiga_bitmap_get_rowstride(bitmap), 0, 0,
bitmap_get_width(bitmap), bitmap_get_height(bitmap));
}
return dto;
}
/* Quick way to get an object on disk into a struct bitmap */
struct bitmap *ami_bitmap_from_datatype(char *filename)
{
Object *dto;
struct bitmap *bm = NULL;
if((dto = NewDTObject(filename,
DTA_GroupID, GID_PICTURE,
PDTA_DestMode, PMODE_V43,
PDTA_PromoteMask, TRUE,
TAG_DONE))) {
struct BitMapHeader *bmh;
if(GetDTAttrs(dto, PDTA_BitMapHeader, &bmh, TAG_DONE))
{
bm = amiga_bitmap_create(bmh->bmh_Width, bmh->bmh_Height, 0);
IDoMethod(dto, PDTM_READPIXELARRAY, amiga_bitmap_get_buffer(bm),
PBPAFMT_RGBA, amiga_bitmap_get_rowstride(bm), 0, 0,
bmh->bmh_Width, bmh->bmh_Height);
amiga_bitmap_set_opaque(bm, amiga_bitmap_test_opaque(bm));
}
DisposeDTObject(dto);
}
return bm;
}
static inline struct BitMap *ami_bitmap_get_truecolour(struct bitmap *bitmap,int width,int height,struct BitMap *friendbm)
{
struct BitMap *tbm = NULL;
if(!bitmap) return NULL;
if(bitmap->nativebm)
{
if((bitmap->nativebmwidth == width) && (bitmap->nativebmheight==height))
{
tbm = bitmap->nativebm;
return tbm;
}
else if((bitmap->nativebmwidth == bitmap->width) && (bitmap->nativebmheight==bitmap->height))
{
tbm = bitmap->nativebm;
}
else
{
if(bitmap->nativebm) ami_rtg_freebitmap(bitmap->nativebm);
bitmap->nativebm = NULL;
}
}
if(!tbm)
{
if((tbm = ami_rtg_allocbitmap(bitmap->width, bitmap->height, 32, 0,
friendbm, AMI_BITMAP_FORMAT))) {
ami_rtg_writepixelarray(bitmap->pixdata, tbm, bitmap->width, bitmap->height,
bitmap->width * 4, AMI_BITMAP_FORMAT);
}
if(nsoption_int(cache_bitmaps) == 2)
{
bitmap->nativebm = tbm;
bitmap->nativebmwidth = bitmap->width;
bitmap->nativebmheight = bitmap->height;
}
}
if((bitmap->width != width) || (bitmap->height != height))
{
struct BitMap *scaledbm;
struct BitScaleArgs bsa;
scaledbm = ami_rtg_allocbitmap(width, height, 32, 0,
friendbm, AMI_BITMAP_FORMAT);
#ifdef __amigaos4__
if(__builtin_expect(GfxBase->LibNode.lib_Version >= 53, 1)) {
/* AutoDoc says v52, but this function isn't in OS4.0, so checking for v53 (OS4.1) */
uint32 flags = 0;
if(nsoption_bool(scale_quality)) flags |= COMPFLAG_SrcFilter;
CompositeTags(COMPOSITE_Src, tbm, scaledbm,
COMPTAG_ScaleX,COMP_FLOAT_TO_FIX((float)width/bitmap->width),
COMPTAG_ScaleY,COMP_FLOAT_TO_FIX((float)height/bitmap->height),
COMPTAG_Flags, flags,
COMPTAG_DestX,0,
COMPTAG_DestY,0,
COMPTAG_DestWidth,width,
COMPTAG_DestHeight,height,
COMPTAG_OffsetX,0,
COMPTAG_OffsetY,0,
COMPTAG_FriendBitMap, scrn->RastPort.BitMap,
TAG_DONE);
} else /* Do it the old-fashioned way. This is pretty slow, even on OS4.1 */
#endif
{
bsa.bsa_SrcX = 0;
bsa.bsa_SrcY = 0;
bsa.bsa_SrcWidth = bitmap->width;
bsa.bsa_SrcHeight = bitmap->height;
bsa.bsa_DestX = 0;
bsa.bsa_DestY = 0;
bsa.bsa_XSrcFactor = bitmap->width;
bsa.bsa_XDestFactor = width;
bsa.bsa_YSrcFactor = bitmap->height;
bsa.bsa_YDestFactor = height;
bsa.bsa_SrcBitMap = tbm;
bsa.bsa_DestBitMap = scaledbm;
bsa.bsa_Flags = 0;
BitMapScale(&bsa);
}
if(bitmap->nativebm != tbm) ami_rtg_freebitmap(bitmap->nativebm);
ami_rtg_freebitmap(tbm);
tbm = scaledbm;
bitmap->nativebm = NULL;
if(nsoption_int(cache_bitmaps) >= 1)
{
bitmap->nativebm = tbm;
bitmap->nativebmwidth = width;
bitmap->nativebmheight = height;
}
}
return tbm;
}
PLANEPTR ami_bitmap_get_mask(struct bitmap *bitmap, int width,
int height, struct BitMap *n_bm)
{
uint32 *bmi = (uint32 *) bitmap->pixdata;
UBYTE maskbit = 0;
ULONG bm_width;
int y, x, bpr;
if((height != bitmap->height) || (width != bitmap->width)) return NULL;
if(amiga_bitmap_get_opaque(bitmap) == true) return NULL;
if(bitmap->native_mask) return bitmap->native_mask;
bm_width = GetBitMapAttr(n_bm, BMA_WIDTH);
bpr = RASSIZE(bm_width, 1);
bitmap->native_mask = AllocRaster(bm_width, height);
SetMem(bitmap->native_mask, 0, bpr * height);
for(y=0; y<height; y++) {
for(x=0; x<width; x++) {
if ((*bmi & 0x000000ffU) <= (ULONG)nsoption_int(mask_alpha)) maskbit = 0;
else maskbit = 1;
bmi++;
bitmap->native_mask[(y*bpr) + (x/8)] |=
maskbit << (7 - (x % 8));
}
}
return bitmap->native_mask;
}
static inline struct BitMap *ami_bitmap_get_palettemapped(struct bitmap *bitmap,
int width, int height)
{
struct BitMap *dtbm;
/* Dispose the DataTypes object if we've performed a layout already,
and we need to scale, as scaling can only be performed before
the first GM_LAYOUT */
if(bitmap->dto &&
((bitmap->nativebmwidth != width) ||
(bitmap->nativebmheight != height))) {
DisposeDTObject(bitmap->dto);
bitmap->dto = NULL;
}
if(bitmap->dto == NULL) {
bitmap->dto = ami_datatype_object_from_bitmap(bitmap);
SetDTAttrs(bitmap->dto, NULL, NULL,
PDTA_Screen, scrn,
PDTA_ScaleQuality, nsoption_bool(scale_quality),
PDTA_DitherQuality, nsoption_int(dither_quality),
PDTA_FreeSourceBitMap, TRUE,
TAG_DONE);
if((bitmap->width != width) || (bitmap->height != height)) {
IDoMethod(bitmap->dto, PDTM_SCALE, width, height, 0);
}
if((DoDTMethod(bitmap->dto, 0, 0, DTM_PROCLAYOUT, 0, 1)) == 0)
return NULL;
}
GetDTAttrs(bitmap->dto,
PDTA_DestBitMap, &dtbm,
TAG_END);
bitmap->nativebmwidth = width;
bitmap->nativebmheight = height;
return dtbm;
}
struct BitMap *ami_bitmap_get_native(struct bitmap *bitmap,
int width, int height, struct BitMap *friendbm)
{
if(__builtin_expect(ami_plot_screen_is_palettemapped() == true, 0)) {
return ami_bitmap_get_palettemapped(bitmap, width, height);
} else {
return ami_bitmap_get_truecolour(bitmap, width, height, friendbm);
}
}
static nserror bitmap_render(struct bitmap *bitmap, hlcache_handle *content)
{
int plot_width;
int plot_height;
struct MinList shared_pens;
struct gui_globals bm_globals;
struct gui_globals *temp_gg = glob;
struct redraw_context ctx = {
.interactive = false,
.background_images = true,
.plot = &amiplot
};
plot_width = MIN(content_get_width(content), bitmap->width);
plot_height = ((plot_width * bitmap->height) + (bitmap->width / 2)) /
bitmap->width;
ami_init_layers(&bm_globals, bitmap->width, bitmap->height);
NewMinList(&shared_pens);
bm_globals.shared_pens = &shared_pens;
glob = &bm_globals;
ami_clearclipreg(&bm_globals);
content_scaled_redraw(content, plot_width, plot_height, &ctx);
#ifdef __amigaos4__
BltBitMapTags( BLITA_SrcX, 0,
BLITA_SrcY, 0,
BLITA_Width, bitmap->width,
BLITA_Height, bitmap->height,
BLITA_Source, bm_globals.bm,
BLITA_SrcType, BLITT_BITMAP,
BLITA_Dest, bitmap->pixdata,
BLITA_DestType, BLITT_ARGB32,
BLITA_DestBytesPerRow, 4 * bitmap->width,
BLITA_DestX, 0,
BLITA_DestY, 0,
TAG_DONE);
ami_bitmap_argb_to_rgba(bitmap);
#else
#warning FIXME for OS3
#endif
/**\todo In theory we should be able to move the bitmap to our native area
to try to avoid re-conversion (at the expense of memory) */
ami_free_layers(&bm_globals);
ami_plot_release_pens(&shared_pens);
amiga_bitmap_set_opaque(bitmap, true);
/* Restore previous render area. This is set when plotting starts,
* but if bitmap_render is called *during* a browser render then
* having an invalid pointer here causes NetSurf to crash.
*/
glob = temp_gg;
return NSERROR_OK;
}
static struct gui_bitmap_table bitmap_table = {
.create = amiga_bitmap_create,
.destroy = amiga_bitmap_destroy,
.set_opaque = amiga_bitmap_set_opaque,
.get_opaque = amiga_bitmap_get_opaque,
.test_opaque = amiga_bitmap_test_opaque,
.get_buffer = amiga_bitmap_get_buffer,
.get_rowstride = amiga_bitmap_get_rowstride,
.get_width = bitmap_get_width,
.get_height = bitmap_get_height,
.get_bpp = bitmap_get_bpp,
.save = amiga_bitmap_save,
.modified = amiga_bitmap_modified,
.render = bitmap_render,
};
struct gui_bitmap_table *amiga_bitmap_table = &bitmap_table;