static int initialize (struct filter *f, struct initdata *i) { struct subdata *s = (struct subdata *) f->data; int x; int val = 0; pixel_t **lines1, **lines2 = NULL; double size; int width, height; int threed = 0; struct filter *f1 = f; inhermisc (f, i); if (datalost (f, i)) s->recal = 1; while (f1) { if (f1->action == &threed_filter) threed = 1; f1 = f1->next; } f->imageversion = i->image->version; if (f->childimage != NULL) destroy_image (f->childimage); s->image = f->image = i->image; s->image->flags |= PROTECTBUFFERS; s->currlines = f->image->currlines; s->forpversion = f->image->palette->version; s->forversion = f->fractalc->version; if (f->image->width * f->image->pixelwidth < f->image->height * f->image->pixelheight) size = f->image->width * f->image->pixelwidth / 2; else size = f->image->height * f->image->pixelheight / 2; width = (int) (size / f->image->pixelwidth); height = (int) (size / f->image->pixelheight); /*fractalc_resize_to(f->fractalc,size,size); */ lines1 = (pixel_t **) malloc (sizeof (*lines1) * height); if (f->image->nimages == 2) lines2 = (pixel_t **) malloc (sizeof (*lines2) * height); if (lines1 == NULL) return 0; if (f->image->nimages == 2 && lines2 == NULL) { free (lines1); return 0; } for (x = 0; x < height; x++) { lines1[x] = i->image->currlines[x + (threed ? f->image->height / 3 : 0)]; if (f->image->nimages == 2) lines2[x] = i->image->oldlines[x + (threed ? f->image->height / 3 : 0)]; } if (f->image->nimages == 2) for (x = 0; x < f->image->height; x++) { memcpy (f->image->oldlines[x], f->image->currlines[x], f->image->width * f->image->bytesperpixel); } f->childimage = i->image = create_image_lines (width, height, f->image->nimages, lines1, lines2, i->image->palette, myflip, FREELINES, f->image->pixelwidth, f->image->pixelheight); if (i->image == NULL) { free (lines1); free (lines2); return 0; } f->childimage->data = s; x = f->previous->action->initialize (f->previous, i); if (!x) return 0; if (s->second != NULL) { i->image = f->image; val = s->second->action->initialize (s->second, i); if (!val) return 0; } return (x | val); }
/* An function helping to filter create new image. * It should be called by filter in inicialization. Filter passes * width,height,pixelwidth, pixelheight * and palette he wants to pass to his child and flags defining how it works * with image(IMAGEDATA if it requires data from previous frames (like blur * filter, TOUCHIMAGE if it changes data in image(like blur or stereogram * filter but unlike interlace and NEWIMAGE if it strictly requires to create * new image) * As palette he should pass NULL to keep parents palette. Same as * (pixel)width/height should be passed 0; * * Function then aplies some heruistic in order to minimize memory * requirements. So it should share image, create image that shares image data * or create new image) * * fills f->image, f->childimage and returns 1 if sucess and 0 if fail(usually * out of memory or it is unable to fit child's requirements) * and prepares data for child call. */ int inherimage(struct filter *f, struct initdata *data, int flags, int width, int height, struct palette *palette, float pixelwidth, float pixelheight) { int newimage = 0; int subimage = 1; int sharedimage = 1; struct image *i; int ddatalost = 0; if (width == 0) width = data->image->width; if (height == 0) height = data->image->height; #ifdef DEBUG printf("Inherimage:%s %i %i imagedata:%i %i\n", f->name, width, height, flags & IMAGEDATA, flags & PROTECTBUFFERS); #endif if (pixelwidth == 0) pixelwidth = data->image->pixelwidth; if (pixelheight == 0) pixelheight = data->image->pixelheight; if (palette == NULL) palette = data->image->palette; if (!(palette->type & f->req.supportedmask)) { #ifdef DEBUG printf ("Initalization of filter %s failed due to unsupported type by child %s-%i,%i\n", f->name, f->previous->name, f->req.supportedmask, palette->type); #endif f->image = data->image; return 0; } if (flags & NEWIMAGE) newimage = 1, sharedimage = 0, subimage = 0; if ((flags & IMAGEDATA) /*|| (data->image->flags & PROTECTBUFFERS) */ ) subimage = 0, sharedimage = 0, newimage = 1; /*if filter touches data but child requires them, create separated image */ if ((flags & TOUCHIMAGE) && ((f->req.flags & IMAGEDATA) || (data->image->flags & PROTECTBUFFERS))) subimage = 0, newimage = 1, sharedimage = 0; /*if required image differs in size or so */ if (width != data->image->width || height != data->image->height || palette != data->image->palette) newimage = 1, sharedimage = 0; if (f->childimage != NULL && (f->flags & ALLOCEDIMAGE)) { /*is an old child image still useable for us purposes? if not burn it it! */ /*We should share image? Why alloc new?? */ if (!newimage && (f->flags & ALLOCEDIMAGE)) destroyinheredimage(f), ddatalost = 1; /*We should share data? but child image dont do that! */ if (subimage && !(f->flags & SHAREDDATA)) destroyinheredimage(f), ddatalost = 1; /*We can't share data but child image does that? */ if (!subimage && (f->flags & SHAREDDATA)) destroyinheredimage(f), ddatalost = 1; /*When image changed, child image must be recreated too */ if (f->flags & SHAREDDATA && ((data->flags & DATALOST) || f->imageversion != data->image->version)) destroyinheredimage(f), ddatalost = 1; /*We should share image with filter? Why keep created new one? */ if (sharedimage) destroyinheredimage(f), ddatalost = 1; /*When child image don't fit out needs */ if (f->childimage != NULL && (f->childimage->width != width || f->childimage->height != height || f->childimage->palette != palette || f->childimage->bytesperpixel != bytesperpixel(palette->type) || f->childimage->nimages < f->req.nimages)) destroyinheredimage(f), ddatalost = 1; /*Well now child image seems to be heavily probed */ } i = f->childimage; if (newimage) { /*Create new image when required */ if (!(f->flags & ALLOCEDIMAGE)) { if (subimage) { i = create_subimage(data->image, width, height, f->req.nimages, palette, pixelwidth, pixelheight); f->flags |= ALLOCEDIMAGE | SHAREDDATA; ddatalost = 1; } else { i = create_image_mem(width, height, f->req.nimages, palette, pixelwidth, pixelheight); f->flags |= ALLOCEDIMAGE; ddatalost = 1; } } } #ifdef DEBUG printf("Filter:%s newimage:%i subimage:%i sharedimage:%i\n", f->name, newimage, subimage, sharedimage); #endif if (i == NULL) { f->image = data->image; return 0; } if (sharedimage) i = data->image, ddatalost = (data->flags & DATALOST) || (f->childimage != data->image); if (sharedimage && datalost(f, data)) ddatalost = 1; else if ((f->flags | SHAREDDATA) && datalost(f, data) && !(i->flags & FREEDATA)) ddatalost = 1; if (ddatalost) data->flags |= DATALOST; else data->flags &= ~DATALOST; f->image = data->image; f->childimage = i; f->imageversion = data->image->version; data->image = i; #ifdef DEBUG printf("OK %i datalost:%i\n", f->flags, ddatalost); #endif #ifdef DEBUG printf("Inherimage2:%s %i %i\n", f->name, width, height); #endif return 1; }