Exemplo n.º 1
0
static void UpdateLinearGradient(GF_TextureHandler *txh)
{
	u32 i, *cols;
	Fixed a;
	Bool const_a;
	M_LinearGradient *lg = (M_LinearGradient *) txh->owner;
	GradientStack *st = (GradientStack *) gf_node_get_private(txh->owner);
	if (!txh->hwtx) txh->hwtx = txh->compositor->r2d->stencil_new(txh->compositor->r2d, GF_STENCIL_LINEAR_GRADIENT);

	if (!gf_node_dirty_get(txh->owner)) return;
	gf_node_dirty_clear(txh->owner, 0);

	txh->needs_refresh = 1;

	st->txh.transparent = 0;
	const_a = (lg->opacity.count == 1) ? 1 : 0;
	cols = (u32*)malloc(sizeof(u32) * lg->key.count);
	for (i=0; i<lg->key.count; i++) {
		a = (const_a ? lg->opacity.vals[0] : lg->opacity.vals[i]);
		cols[i] = GF_COL_ARGB_FIXED(a, lg->keyValue.vals[i].red, lg->keyValue.vals[i].green, lg->keyValue.vals[i].blue);
		if (a != FIX_ONE) txh->transparent = 1;
	}
	txh->compositor->r2d->stencil_set_gradient_interpolation(txh->hwtx, lg->key.vals, cols, lg->key.count);
	free(cols);
	txh->compositor->r2d->stencil_set_gradient_mode(txh->hwtx, (GF_GradientMode) lg->spreadMethod);

}
Exemplo n.º 2
0
static void PointSet2D_Draw(GF_Node *node, GF_TraverseState *tr_state)
{
	GF_Path *path;
	Fixed alpha, w, h;
	u32 i;
	SFColor col;
	DrawableContext *ctx = tr_state->ctx;
	M_PointSet2D *ps2D = (M_PointSet2D *)node;
	M_Coordinate2D *coord = (M_Coordinate2D*) ps2D->coord;
	M_Color *color = (M_Color *) ps2D->color;

	/*never outline PS2D*/
	ctx->flags |= CTX_PATH_STROKE;
	if (!color || color->color.count<coord->point.count) {
		/*no texturing*/
		visual_2d_draw_path(tr_state->visual, ctx->drawable->path, ctx, NULL, NULL, tr_state);
		return;
	}

	get_point_size(&ctx->transform, &w, &h);

	path = gf_path_new();
	alpha = INT2FIX(GF_COL_A(ctx->aspect.line_color)) / 255;
	for (i = 0; i < coord->point.count; i++) {
		col = color->color.vals[i];
		ctx->aspect.line_color = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
		gf_path_add_rect_center(path, coord->point.vals[i].x, coord->point.vals[i].y, w, h);
		visual_2d_draw_path(tr_state->visual, path, ctx, NULL, NULL, tr_state);
		gf_path_reset(path);
		ctx->flags &= ~CTX_PATH_FILLED;
	}
	gf_path_del(path);
}
Exemplo n.º 3
0
static void b2D_new_status(Background2DStack *bck, M_Background2D*back)
{
	BackgroundStatus *status;

	GF_SAFEALLOC(status, BackgroundStatus);
	gf_mx2d_init(status->ctx.transform);
	status->ctx.drawable = bck->drawable;
	status->ctx.flags = CTX_IS_BACKGROUND;
	status->ctx.bi = &status->bi;
	status->ctx.aspect.fill_color = GF_COL_ARGB_FIXED(FIX_ONE, back->backColor.red, back->backColor.green, back->backColor.blue);
	status->ctx.aspect.fill_texture = &bck->txh;
	gf_list_add(bck->status_stack, status);
}
Exemplo n.º 4
0
static void RG_ComputeMatrix(GF_TextureHandler *txh, GF_Rect *bounds, GF_Matrix2D *mat)
{
	SFVec2f center, focal;
	u32 i, *cols;
	Fixed a;
	Bool const_a;
	M_RadialGradient *rg = (M_RadialGradient *) txh->owner;

	if (rg->key.count<2) return;
	if (rg->key.count != rg->keyValue.count) return;

	/*create gradient brush if needed*/
	if (!txh->hwtx) return;

	GradientGetMatrix((GF_Node *) rg->transform, mat);

	center = rg->center;
	focal = rg->focalPoint;

	/*move circle to object space*/
	center.x = gf_mulfix(center.x, bounds->width);
	center.y = gf_mulfix(center.y, bounds->height);
	focal.x = gf_mulfix(focal.x, bounds->width);
	focal.y = gf_mulfix(focal.y, bounds->height);

	/*move transform to object space*/
	mat->m[2] = gf_mulfix(mat->m[2], bounds->width);
	mat->m[5] = gf_mulfix(mat->m[5], bounds->height);
	mat->m[1] = gf_muldiv(mat->m[1], bounds->width, bounds->height);
	mat->m[3] = gf_muldiv(mat->m[3], bounds->height, bounds->width);

	
	txh->compositor->r2d->stencil_set_radial_gradient(txh->hwtx, center.x, center.y, focal.x, focal.y, gf_mulfix(rg->radius, bounds->width), gf_mulfix(rg->radius, bounds->height));

	const_a = (rg->opacity.count == 1) ? 1 : 0;
	cols = (u32*)malloc(sizeof(u32) * rg->key.count);
	for (i=0; i<rg->key.count; i++) {
		a = (const_a ? rg->opacity.vals[0] : rg->opacity.vals[i]);
		cols[i] = GF_COL_ARGB_FIXED(a, rg->keyValue.vals[i].red, rg->keyValue.vals[i].green, rg->keyValue.vals[i].blue);
	}
	txh->compositor->r2d->stencil_set_gradient_interpolation(txh->hwtx, rg->key.vals, cols, rg->key.count);
	free(cols);

	txh->compositor->r2d->stencil_set_gradient_mode(txh->hwtx, (GF_GradientMode) rg->spreadMethod);
	gf_mx2d_add_translation(mat, bounds->x, bounds->y - bounds->height);
}
Exemplo n.º 5
0
/* Node specific rendering functions
   All the nodes follow the same principles:
	* Check if the display property is not set to none, otherwise do not render
	* Back-up of the coordinate system & apply geometric transformation if any
	* Render the children if any or the shape if leaf node
	* Restore coordinate system
 */
static void svg_sani_render_svg(GF_Node *node, void *rs, Bool is_destroy)
{
	u32 viewport_color;
	GF_Matrix2D backup_matrix;
	GF_IRect top_clip;
	Bool is_root_svg = 1;
	SVG_SANI_svgElement *svg = (SVG_SANI_svgElement *)node;
	RenderEffect2D *eff = (RenderEffect2D *) rs;

	if (is_destroy) return;

	/*enable or disable navigation*/
	eff->surface->render->navigation_disabled = (svg->zoomAndPan == SVG_ZOOMANDPAN_DISABLE) ? 1 : 0;

	svg_sani_render_base(node, eff);

	if (svg->display == SVG_DISPLAY_NONE) return;

	top_clip = eff->surface->top_clipper;
	gf_mx2d_copy(backup_matrix, eff->transform);
	gf_mx2d_init(eff->vb_transform);
	gf_svg_sani_set_viewport_transformation(eff, svg, is_root_svg);
	gf_mx2d_pre_multiply(&eff->transform, &eff->vb_transform);

	if (!is_root_svg && (svg->x.value || svg->y.value)) 
		gf_mx2d_add_translation(&eff->transform, svg->x.value, svg->y.value);

	/* TODO: FIX ME: this only works for single SVG element in the doc*/
	if (is_root_svg && svg->viewport_fill.type != SVG_PAINT_NONE) {
		viewport_color = GF_COL_ARGB_FIXED(svg->viewport_fill_opacity.value, svg->viewport_fill.color.red, svg->viewport_fill.color.green, svg->viewport_fill.color.blue);
		if (eff->surface->render->compositor->back_color != viewport_color) {
			eff->invalidate_all = 1;
			eff->surface->render->compositor->back_color = viewport_color;
		}
	}
	if (eff->traversing_mode == TRAVERSE_GET_BOUNDS) {
		svg_get_nodes_bounds(node, svg->children, eff);
	} else {
		svg_render_node_list(svg->children, eff);
	}

	gf_svg_sani_restore_parent_transformation(eff, &backup_matrix);
	eff->surface->top_clipper = top_clip;
}
Exemplo n.º 6
0
static void svg_sani_UpdateGradient(SVG_SANI_GradientStack *st, GF_ChildNodeItem *children)
{
	u32 count;
	Fixed alpha, max_offset;

	if (!gf_node_dirty_get(st->txh.owner)) return;
	gf_node_dirty_clear(st->txh.owner, 0);

	st->txh.needs_refresh = 1;
	st->txh.transparent = 0;
	count = gf_node_list_get_count(children);
	st->nb_col = 0;
	st->cols = (u32*)realloc(st->cols, sizeof(u32)*count);
	st->keys = (Fixed*)realloc(st->keys, sizeof(Fixed)*count);

	max_offset = 0;
	while (children) {
		Fixed key;
		SVG_SANI_stopElement *gstop = (SVG_SANI_stopElement *) children->node;
		children = children->next;
		if (gf_node_get_tag((GF_Node *)gstop) != TAG_SVG_SANI_stop) continue;

		if (gstop->stop_opacity.type==SVG_NUMBER_VALUE) alpha = gstop->stop_opacity.value;
		else alpha = FIX_ONE;
		st->cols[st->nb_col] = GF_COL_ARGB_FIXED(alpha, gstop->stop_color.color.red, gstop->stop_color.color.green, gstop->stop_color.color.blue);
		key = gstop->offset.value;
		if (gstop->offset.value>FIX_ONE) key/=100; 
		if (key>max_offset) max_offset=key;
		else key = max_offset;
		st->keys[st->nb_col] = key;

		st->nb_col++;
		if (alpha!=FIX_ONE) st->txh.transparent = 1;
	}
	st->txh.compositor->r2d->stencil_set_gradient_interpolation(st->txh.hwtx, st->keys, st->cols, st->nb_col);
	st->txh.compositor->r2d->stencil_set_gradient_mode(st->txh.hwtx, /*lg->spreadMethod*/ GF_GRADIENT_MODE_PAD);
}
Exemplo n.º 7
0
static void TraverseBackground2D(GF_Node *node, void *rs, Bool is_destroy)
{
	u32 col;
	BackgroundStatus *status;
	M_Background2D *bck;
	Background2DStack *stack = (Background2DStack *) gf_node_get_private(node);
	GF_TraverseState *tr_state = (GF_TraverseState *)rs;

	if (is_destroy) {
		DestroyBackground2D(node);
		return;
	}

	bck = (M_Background2D *)node;

	/*special case for background in Layer2D: the background is seen as a regular drawable, so 
	RENDER_BINDABLE is not used*/
	switch (tr_state->traversing_mode) {
	case TRAVERSE_DRAW_2D:
		DrawBackground2D_2D(tr_state->ctx, tr_state);
		return;
	case  TRAVERSE_PICK:
	case TRAVERSE_GET_BOUNDS:
		return;
	}

	/*first traverse, bound if needed*/
	if (gf_list_find(tr_state->backgrounds, node) < 0) {
		M_Background2D *top_bck = (M_Background2D *)node;
		gf_list_add(tr_state->backgrounds, node);
		assert(gf_list_find(stack->reg_stacks, tr_state->backgrounds)==-1);
		gf_list_add(stack->reg_stacks, tr_state->backgrounds);
		b2D_new_status(stack, bck);

		/*only bound if we're on top*/
		top_bck = gf_list_get(tr_state->backgrounds, 0);
		if (!bck->isBound) {
			if (top_bck== bck) {
				Bindable_SetIsBound(node, 1);
			} else if (!top_bck->isBound) {
				bck->set_bind = 1;
				bck->on_set_bind(node, NULL);
			}
		}
		/*open the stream if any*/
		if (back_use_texture(bck) && !stack->txh.is_open) gf_sc_texture_play(&stack->txh, &bck->url);
		/*in any case don't draw the first time (since the background could have been declared last)*/
		gf_sc_invalidate(stack->txh.compositor, NULL);
		return;
	}
	if (!bck->isBound) return;

	status = b2d_get_status(stack, tr_state->backgrounds);
	if (!status) return;

	if (gf_node_dirty_get(node)) {
		stack->flags |= CTX_APP_DIRTY;
		gf_node_dirty_clear(node, 0);


		col = GF_COL_ARGB_FIXED(FIX_ONE, bck->backColor.red, bck->backColor.green, bck->backColor.blue);
		if (col != status->ctx.aspect.fill_color) {
			status->ctx.aspect.fill_color = col;
			stack->flags |= CTX_APP_DIRTY;
		}
	} 

	if (back_use_texture(bck) ) {
		if (stack->txh.tx_io && !(status->ctx.flags & CTX_APP_DIRTY) && stack->txh.needs_refresh) 
			stack->flags |= CTX_TEXTURE_DIRTY;
	}
	status->ctx.flags = stack->flags;


	if (tr_state->traversing_mode != TRAVERSE_BINDABLE) return;

	/*3D mode*/
#ifndef GPAC_DISABLE_3D
	if (tr_state->visual->type_3d) {
		DrawBackground2D_3D(bck, stack, tr_state);
	} else
#endif
		DrawBackground2D_2D(&status->ctx, tr_state);
}
Exemplo n.º 8
0
Bool group_cache_traverse(GF_Node *node, GroupCache *cache, GF_TraverseState *tr_state, Bool force_recompute, Bool is_mpeg4, Bool auto_fit_vp)
{
	GF_Matrix2D backup;
	DrawableContext *group_ctx = NULL;
	GF_ChildNodeItem *l;

	if (!cache) return 0;

	/*do we need to recompute the cache*/
	if (cache->force_recompute) {
		force_recompute = 1;
		cache->force_recompute = 0;
	}
	else if (gf_node_dirty_get(node) & GF_SG_CHILD_DIRTY) {
		force_recompute = 1;
	}

	/*we need to redraw the group in an offscreen visual*/
	if (force_recompute) {
		GF_Matrix2D backup;
		GF_IRect rc1, rc2;
		u32 type_3d;
		u32 prev_flags;
		GF_Rect cache_bounds;
		GF_SURFACE offscreen_surface, old_surf;
		GF_Raster2D *r2d = tr_state->visual->compositor->rasterizer;
		DrawableContext *child_ctx;
		Fixed temp_x, temp_y, scale_x, scale_y;

		GF_LOG(GF_LOG_INFO, GF_LOG_COMPOSE, ("[Compositor] Recomputing cache for subtree %s\n", gf_node_get_log_name(node)));
		/*step 1 : store current state and indicate children should not be cached*/
		tr_state->in_group_cache = 1;
		prev_flags = tr_state->immediate_draw;
		/*store the current transform matrix, create a new one for group_cache*/
		gf_mx2d_copy(backup, tr_state->transform);
		gf_mx2d_init(tr_state->transform);

		type_3d = 0;
#ifndef GPAC_DISABLE_3D
		/*force 2D rendering*/
		type_3d = tr_state->visual->type_3d;
		tr_state->visual->type_3d = 0;
#endif

		/*step 2: collect the bounds of all children*/
		tr_state->traversing_mode = TRAVERSE_GET_BOUNDS;
		cache_bounds.width = cache_bounds.height = 0;
		l = ((GF_ParentNode*)node)->children;
		while (l) {
			tr_state->bounds.width = tr_state->bounds.height = 0;
			gf_node_traverse(l->node, tr_state);
			l = l->next;
			gf_rect_union(&cache_bounds, &tr_state->bounds);
		}
		tr_state->traversing_mode = TRAVERSE_SORT;

		if (!cache_bounds.width || !cache_bounds.height) {
			tr_state->in_group_cache = 0;
			tr_state->immediate_draw = prev_flags;
			gf_mx2d_copy(tr_state->transform, backup);
#ifndef GPAC_DISABLE_3D
			tr_state->visual->type_3d = type_3d;
#endif
			return 0;
		}

		/*step 3: insert a DrawableContext for this group in the display list*/
		if (is_mpeg4) {
#ifndef GPAC_DISABLE_VRML
			group_ctx = drawable_init_context_mpeg4(cache->drawable, tr_state);
#endif
		} else {
#ifndef GPAC_DISABLE_SVG
			group_ctx = drawable_init_context_svg(cache->drawable, tr_state);
#endif
		}
		if (!group_ctx) return 0;

		/*step 4: now we have the bounds:
			allocate the offscreen memory
			create temp raster visual & attach to buffer
			override the tr_state->visual->the_surface with the temp raster
			add translation (shape is not always centered)
			setup top clipers
		*/
		old_surf = tr_state->visual->raster_surface;
		offscreen_surface = r2d->surface_new(r2d, tr_state->visual->center_coords);	/*a new temp raster visual*/
		tr_state->visual->raster_surface = offscreen_surface;

		/*use current surface coordinate scaling to compute the cache*/
#ifdef GF_SR_USE_VIDEO_CACHE
		scale_x = tr_state->visual->compositor->cache_scale * backup.m[0] / 100;
		scale_y = tr_state->visual->compositor->cache_scale * backup.m[4] / 100;
#else
		scale_x = backup.m[0];
		scale_y = backup.m[4];
#endif

		if (scale_x<0) scale_x = -scale_x;
		if (scale_y<0) scale_y = -scale_y;

		cache->scale = MAX(scale_x, scale_y);
		tr_state->bounds = cache_bounds;
		gf_mx2d_add_scale(&tr_state->transform, scale_x, scale_y);
		gf_mx2d_apply_rect(&tr_state->transform, &cache_bounds);

		rc1 = gf_rect_pixelize(&cache_bounds);
		if (rc1.width % 2) rc1.width++;
		if (rc1.height%2) rc1.height++;

		/* Initialize the group cache with the scaled pixelized bounds for texture but the original bounds for path*/
		group_cache_setup(cache, &tr_state->bounds, &rc1, tr_state->visual->compositor, type_3d);


		/*attach the buffer to visual*/
		r2d->surface_attach_to_buffer(offscreen_surface, cache->txh.data,
										cache->txh.width,
										cache->txh.height,
										0,
										cache->txh.stride,
										cache->txh.pixelformat);


		/*recompute the bounds with the final scaling used*/
		scale_x = gf_divfix(INT2FIX(rc1.width), tr_state->bounds.width);
		scale_y = gf_divfix(INT2FIX(rc1.height), tr_state->bounds.height);
		gf_mx2d_init(tr_state->transform);
		gf_mx2d_add_scale(&tr_state->transform, scale_x, scale_y);
		cache_bounds = tr_state->bounds;
		gf_mx2d_apply_rect(&tr_state->transform, &cache_bounds);

		/*centered the bitmap on the visual*/
		temp_x = -cache_bounds.x;
		temp_y = -cache_bounds.y;
		if (tr_state->visual->center_coords) {
			temp_x -= cache_bounds.width/2;
			temp_y += cache_bounds.height/2;
		} else {
			temp_y += cache_bounds.height;
		}
		gf_mx2d_add_translation(&tr_state->transform, temp_x, temp_y);

		/*override top clippers*/
		rc1 = tr_state->visual->surf_rect;
		rc2 = tr_state->visual->top_clipper;
		tr_state->visual->surf_rect.width = cache->txh.width;
		tr_state->visual->surf_rect.height = cache->txh.height;
		if (tr_state->visual->center_coords) {
			tr_state->visual->surf_rect.y = cache->txh.height/2;
			tr_state->visual->surf_rect.x = -1 * (s32) cache->txh.width/2;
		} else {
			tr_state->visual->surf_rect.y = cache->txh.height;
			tr_state->visual->surf_rect.x = 0;
		}
		tr_state->visual->top_clipper = tr_state->visual->surf_rect;


		/*step 5: traverse subtree in direct draw mode*/
		tr_state->immediate_draw = 1;
		group_ctx->flags &= ~CTX_NO_ANTIALIAS;

		l = ((GF_ParentNode*)node)->children;
		while (l) {
			gf_node_traverse(l->node, tr_state);
			l = l->next;
		}
		/*step 6: reset all contexts after the current group one*/
		child_ctx = group_ctx->next;
		while (child_ctx && child_ctx->drawable) {
			drawable_reset_bounds(child_ctx->drawable, tr_state->visual);
			child_ctx->drawable = NULL;
			child_ctx = child_ctx->next;
		}

		/*and set ourselves as the last context on the main visual*/
		tr_state->visual->cur_context = group_ctx;

		/*restore state and destroy whatever needs to be cleaned*/
		gf_mx2d_copy(tr_state->transform, backup);
		tr_state->in_group_cache = 0;
		tr_state->immediate_draw = prev_flags;
		r2d->surface_delete(offscreen_surface);
		tr_state->visual->raster_surface = old_surf;
		tr_state->traversing_mode = TRAVERSE_SORT;

#ifndef GPAC_DISABLE_3D
		tr_state->visual->type_3d = type_3d;
#endif
		tr_state->visual->surf_rect = rc1;
		tr_state->visual->top_clipper = rc2;

		/*update texture*/
		cache->txh.transparent = 1;
		cache->txh.flags |= GF_SR_TEXTURE_NO_GL_FLIP;
		gf_sc_texture_set_data(&cache->txh);
		gf_sc_texture_push_image(&cache->txh, 0, type_3d ? 0 : 1);

		cache->orig_vp = tr_state->vp_size;
	}
	/*just setup the context*/
	else {
		if (is_mpeg4) {
#ifndef GPAC_DISABLE_VRML
			group_ctx = drawable_init_context_mpeg4(cache->drawable, tr_state);
#endif
		} else {
#ifndef GPAC_DISABLE_SVG
			group_ctx = drawable_init_context_svg(cache->drawable, tr_state);
#endif
		}
	}
	if (!group_ctx) return 0;
	group_ctx->flags |= CTX_NO_ANTIALIAS;
	if (cache->opacity != FIX_ONE)
		group_ctx->aspect.fill_color = GF_COL_ARGB_FIXED(cache->opacity, FIX_ONE, FIX_ONE, FIX_ONE);
	else
		group_ctx->aspect.fill_color = 0;
	group_ctx->aspect.fill_texture = &cache->txh;

	if (!cache->opacity) {
		group_ctx->drawable = NULL;
		return 0;
	}

	if (gf_node_dirty_get(node)) group_ctx->flags |= CTX_TEXTURE_DIRTY;

#ifdef CACHE_DEBUG_CENTER
	gf_mx2d_copy(backup, tr_state->transform);
	gf_mx2d_init(tr_state->transform);
#else
	gf_mx2d_copy(backup, tr_state->transform);
	if (auto_fit_vp) {
		if ((tr_state->vp_size.x != cache->orig_vp.x) || (tr_state->vp_size.y != cache->orig_vp.y)) {
			GF_Matrix2D m;
			gf_mx2d_init(m);
			gf_mx2d_copy(backup, tr_state->transform);
			gf_mx2d_add_scale(&m, gf_divfix(tr_state->vp_size.x, cache->orig_vp.x), gf_divfix(tr_state->vp_size.y, cache->orig_vp.y) );
			gf_mx2d_pre_multiply(&tr_state->transform, &m);
		} else {
			auto_fit_vp = 0;
		}
	}
#endif

#ifndef GPAC_DISABLE_3D
	if (tr_state->visual->type_3d) {
		if (!cache->drawable->mesh) {
			cache->drawable->mesh = new_mesh();
			mesh_from_path(cache->drawable->mesh, cache->drawable->path);
		}
		visual_3d_draw_from_context(group_ctx, tr_state);
		group_ctx->drawable = NULL;
	} else
#endif
		drawable_finalize_sort(group_ctx, tr_state, NULL);

#ifndef CACHE_DEBUG_CENTER
	if (auto_fit_vp)
#endif
	{
		gf_mx2d_copy(tr_state->transform, backup);
	}
	return (force_recompute==1);
}
Exemplo n.º 9
0
static void ILS2D_Draw(GF_Node *node, GF_TraverseState *tr_state)
{
	GF_Path *path;
	SFVec2f *pts;
	SFColor col;
	Fixed alpha;
	u32 i, count, col_ind, ind, end_at;
	u32 linear[2], *colors;
	SFVec2f start, end;
	u32 j, num_col;
	GF_STENCIL grad;
	GF_Raster2D *raster;
	DrawableContext *ctx = tr_state->ctx;
	M_IndexedLineSet2D *ils2D = (M_IndexedLineSet2D *)node;
	M_Coordinate2D *coord = (M_Coordinate2D*) ils2D->coord;
	M_Color *color = (M_Color *) ils2D->color;

	end.x = end.y = 0;
	if (!coord->point.count) return;

	if (! ils2D->color) {
		/*no texturing*/
		visual_2d_draw_path(tr_state->visual, ctx->drawable->path, ctx, NULL, NULL, tr_state);
		return;
	}

	alpha = INT2FIX(GF_COL_A(ctx->aspect.line_color)) / 255;
	pts = coord->point.vals;

	if (!ils2D->colorPerVertex || (color->color.count<2) ) {
		count = 0;
		end_at = ils2D->coordIndex.count;
		if (!end_at) end_at = coord->point.count;
		ind = ils2D->coordIndex.count ? ils2D->coordIndex.vals[0] : 0;
		i=1;
		path = gf_path_new();
		gf_path_add_move_to(path, pts[ind].x, pts[ind].y);

		for (; i<=end_at; i++) {
			if ((i==end_at) || (ils2D->coordIndex.count && ils2D->coordIndex.vals[i] == -1)) {

				/*draw current*/
				col_ind = (ils2D->colorIndex.count && (ils2D->colorIndex.vals[count]>=0) ) ? (u32) ils2D->colorIndex.vals[count] : count;
				if (col_ind>=color->color.count) col_ind=color->color.count-1;
				col = color->color.vals[col_ind];
				ctx->aspect.line_color = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);

				visual_2d_draw_path(tr_state->visual, path, ctx, NULL, NULL, tr_state);

				i++;
				if (i>=end_at) break;
				gf_path_reset(path);

				ind = (ils2D->coordIndex.count && (ils2D->coordIndex.vals[i]>=0)) ? (u32) ils2D->coordIndex.vals[i] : i;
				gf_path_add_move_to(path, pts[ind].x, pts[ind].y);

				if (ils2D->coordIndex.count) count++;
				continue;
			} else {
				ind = (ils2D->coordIndex.count && (ils2D->coordIndex.vals[i]>=0) ) ? (u32) ils2D->coordIndex.vals[i] : i;
				gf_path_add_line_to(path, pts[ind].x, pts[ind].y);
			}
		}
		gf_path_del(path);
		return;
	}

	raster = NULL;
	end_at = ils2D->coordIndex.count;
	if (!end_at) end_at = coord->point.count;
	count = 0;
	col_ind = 0;
	ind = 0;
	i=0;
	path = gf_path_new();
	while (1) {
		gf_path_reset(path);
		ind = (ils2D->coordIndex.count && (ils2D->coordIndex.vals[i]>=0)) ? (u32) ils2D->coordIndex.vals[i] : i;
		start = pts[ind];
		num_col = 1;
		i++;
		gf_path_add_move_to(path, start.x, start.y);

		if (ils2D->coordIndex.count) {
			while (ils2D->coordIndex.vals[i] != -1) {
				end = pts[ils2D->coordIndex.vals[i]];
				gf_path_add_line_to(path, end.x, end.y);
				i++;
				num_col++;
				if (i >= ils2D->coordIndex.count) break;
			}
		} else {
			while (i<end_at) {
				end = pts[i];
				gf_path_add_line_to(path, end.x, end.y);
				i++;
				num_col++;
			}
		}

		raster = tr_state->visual->compositor->rasterizer;
		/*use linear gradient*/
		if (num_col==2) {
			Fixed pos[2];
			grad = raster->stencil_new(raster, GF_STENCIL_LINEAR_GRADIENT);
			if (ils2D->colorIndex.count) {
				col = color->color.vals[ils2D->colorIndex.vals[col_ind]];
				linear[0] = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
				col = color->color.vals[ils2D->colorIndex.vals[col_ind+1]];
				linear[1] = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
			} else if (ils2D->coordIndex.count) {
				col = color->color.vals[ils2D->coordIndex.vals[col_ind]];
				linear[0] = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
				col = color->color.vals[ils2D->coordIndex.vals[col_ind+1]];
				linear[1] = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
			} else {
				col = color->color.vals[col_ind];
				linear[0] = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
				col = color->color.vals[col_ind+1];
				linear[1] = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
			}
			pos[0] = 0;
			pos[1] = FIX_ONE;
			raster->stencil_set_linear_gradient(grad, start.x, start.y, end.x, end.y);
			raster->stencil_set_gradient_interpolation(grad, pos, linear, 2);
		} else {
			grad = raster->stencil_new(raster, GF_STENCIL_VERTEX_GRADIENT);
			if (grad) {
				raster->stencil_set_vertex_path(grad, path);

				colors = (u32*)gf_malloc(sizeof(u32) * num_col);
				for (j=0; j<num_col; j++) {
					if (ils2D->colorIndex.count>0) {
						col = color->color.vals[ils2D->colorIndex.vals[col_ind+j]];
					} else if (ils2D->coordIndex.count) {
						col = color->color.vals[ils2D->coordIndex.vals[col_ind+j]];
					} else {
						col = color->color.vals[col_ind+j];
					}
					colors[j] = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
				}
				raster->stencil_set_vertex_colors(grad, colors, num_col);
				gf_free(colors);
			}
		}
		raster->stencil_set_matrix(grad, &ctx->transform);
		visual_2d_draw_path(tr_state->visual, path, ctx, NULL, grad, tr_state);
		if (grad) raster->stencil_delete(grad);

		i ++;
		col_ind += num_col + 1;
		if (i >= ils2D->coordIndex.count) break;
		ctx->flags &= ~CTX_PATH_STROKE;
	}
	gf_path_del(path);
}
Exemplo n.º 10
0
static void svg_traverse_svg(GF_Node *node, void *rs, Bool is_destroy)
{
	Bool rootmost_svg, send_resize;
	u32 viewport_color;
	SVGsvgStack *stack;
	GF_Matrix2D backup_matrix, vb_bck;
#ifndef GPAC_DISABLE_3D
	GF_Matrix bck_mx;
#endif
	Bool is_dirty;
	GF_IRect top_clip;
	SFVec2f prev_vp;
	SVGPropertiesPointers backup_props, *prev_props;
	u32 backup_flags;
	Bool invalidate_flag;
	u32 styling_size = sizeof(SVGPropertiesPointers);
	GF_TraverseState *tr_state = (GF_TraverseState *) rs;
	SVGAllAttributes all_atts;
	stack = gf_node_get_private(node);

	if (is_destroy) {
		if (stack->svg_props) {
			gf_svg_properties_reset_pointers(stack->svg_props);
			gf_free(stack->svg_props);
		}
		gf_sc_check_focus_upon_destroy(node);
		if (stack->vp_fill) drawable_del(stack->vp_fill);
		gf_free(stack);
		return;
	}

	prev_props = tr_state->svg_props;
	/*SVG props not set: we are either the root-most <svg> of the compositor
	or an <svg> inside an <animation>*/
	if (!tr_state->svg_props) {
		tr_state->svg_props = stack->svg_props;
		if (!tr_state->svg_props) return;
	}
	
	gf_svg_flatten_attributes((SVG_Element *)node, &all_atts);
	if (!compositor_svg_traverse_base(node, &all_atts, tr_state, &backup_props, &backup_flags)) {
		tr_state->svg_props = prev_props;
		return;
	}

	/*enable or disable navigation*/
	tr_state->visual->compositor->navigation_disabled = (all_atts.zoomAndPan && *all_atts.zoomAndPan == SVG_ZOOMANDPAN_DISABLE) ? 1 : 0;

	if (compositor_svg_is_display_off(tr_state->svg_props)) {
		memcpy(tr_state->svg_props, &backup_props, styling_size);
		tr_state->svg_flags = backup_flags;
		return;
	}

	top_clip = tr_state->visual->top_clipper;
	gf_mx2d_copy(backup_matrix, tr_state->transform);
	gf_mx2d_copy(vb_bck, tr_state->vb_transform);

#ifndef GPAC_DISABLE_3D
	if (tr_state->visual->type_3d) gf_mx_copy(bck_mx, tr_state->model_matrix);
#endif
	
	invalidate_flag = tr_state->invalidate_all;

	is_dirty = gf_node_dirty_get(node);
	if (is_dirty  & GF_SG_CHILD_DIRTY) drawable_reset_group_highlight(tr_state, node);
	gf_node_dirty_clear(node, 0);

	send_resize = 0;
	if ((stack->parent_vp.x != tr_state->vp_size.x) || (stack->parent_vp.y != tr_state->vp_size.y)) {
		is_dirty = 1;
		send_resize = 1;
	}

	if (is_dirty || tr_state->visual->compositor->recompute_ar) {
		svg_recompute_viewport_transformation(node, stack, tr_state, &all_atts);
	}

	gf_mx2d_copy(tr_state->vb_transform, stack->viewbox_mx);

	rootmost_svg = (stack->root_svg && !tr_state->parent_anim_atts) ? 1 : 0;	
	if (tr_state->traversing_mode == TRAVERSE_SORT) {
		SVG_Paint *vp_fill = NULL;
		Fixed vp_opacity;

		if (tr_state->parent_anim_atts) {
			vp_fill = tr_state->parent_anim_atts->viewport_fill;
			vp_opacity = tr_state->parent_anim_atts->viewport_fill_opacity ? tr_state->parent_anim_atts->viewport_fill_opacity->value : FIX_ONE;
		} else {
			vp_fill = tr_state->svg_props->viewport_fill;
			vp_opacity = tr_state->svg_props->viewport_fill_opacity ? tr_state->svg_props->viewport_fill_opacity->value : FIX_ONE;
		} 

		if (vp_fill && (vp_fill->type != SVG_PAINT_NONE) && vp_opacity) {
			Bool col_dirty = 0;
			viewport_color = GF_COL_ARGB_FIXED(vp_opacity, vp_fill->color.red, vp_fill->color.green, vp_fill->color.blue);

			if (stack->prev_color != viewport_color) {
				stack->prev_color = viewport_color;
				col_dirty = 1;
			}

			if (!rootmost_svg) {
				DrawableContext *ctx;
				Fixed width = tr_state->parent_anim_atts->width->value;
				Fixed height = tr_state->parent_anim_atts->height->value;

				if (!stack->vp_fill) {
					stack->vp_fill = drawable_new();
					stack->vp_fill->node = node;
				}
				if ((width != stack->vp_fill->path->bbox.width) || (height != stack->vp_fill->path->bbox.height)) {
					drawable_reset_path(stack->vp_fill);
					gf_path_add_rect(stack->vp_fill->path, 0, 0, width, -height);
				}

				ctx = drawable_init_context_svg(stack->vp_fill, tr_state);
				if (ctx) {
					ctx->flags &= ~CTX_IS_TRANSPARENT;
					ctx->aspect.pen_props.width = 0;
					ctx->aspect.fill_color = viewport_color;
					ctx->aspect.fill_texture = NULL;
					if (col_dirty) ctx->flags |= CTX_APP_DIRTY;
					drawable_finalize_sort(ctx, tr_state, NULL);
				}

			} else if (col_dirty) {
				tr_state->visual->compositor->back_color = viewport_color;
				/*invalidate the entire visual*/
				tr_state->invalidate_all = 1;
			}
		}
	}


	if (!stack->root_svg && (all_atts.x || all_atts.y)) 
		gf_mx2d_add_translation(&tr_state->vb_transform, all_atts.x->value, all_atts.y->value);

#ifndef GPAC_DISABLE_3D
	if (tr_state->visual->type_3d) {
		if (tr_state->traversing_mode==TRAVERSE_SORT) {
			GF_Matrix tmp;
			visual_3d_matrix_push(tr_state->visual);

			gf_mx_from_mx2d(&tmp, &tr_state->vb_transform);
			visual_3d_matrix_add(tr_state->visual, tmp.m);
		} else {
			gf_mx_add_matrix_2d(&tr_state->model_matrix, &tr_state->vb_transform);
		}
	} else 
#endif
	{
		gf_mx2d_pre_multiply(&tr_state->transform, &tr_state->vb_transform);
	}

	/*store VP and move it to current VP (eg, the one used to compute the vb_transform)*/
	prev_vp = tr_state->vp_size;
	tr_state->vp_size = stack->vp;

	/*the event may trigger scripts which may delete nodes / modify the scene. We therefore send the resize event 
	before traversing the scene*/
	if (send_resize) {
		GF_DOM_Event evt;
		memset(&evt, 0, sizeof(GF_DOM_Event));
		evt.bubbles = 1;
		evt.type = GF_EVENT_RESIZE;
		gf_dom_event_fire(node, &evt);
	}
	if ((stack->vp.x != prev_vp.x) || (stack->vp.y != prev_vp.y)) {
		GF_Scene *scene = node->sgprivate->scenegraph->userpriv;
		
		if (scene) { 
			GF_DOM_Event evt;
			memset(&evt, 0, sizeof(GF_DOM_Event));
			evt.bubbles = 0;
			evt.screen_rect.width = stack->vpw;
			evt.screen_rect.height = stack->vph;
			evt.screen_rect.x = stack->dx;
			evt.screen_rect.y = stack->dy;
			evt.prev_translate.x = stack->vp.x;
			evt.prev_translate.y = stack->vp.y;
			evt.type = GF_EVENT_VP_RESIZE;
			gf_scene_notify_event(scene, 0, NULL, &evt, GF_OK);
		}
	}

	if (tr_state->traversing_mode == TRAVERSE_GET_BOUNDS) {
		gf_sc_get_nodes_bounds(node, ((SVG_Element *)node)->children, tr_state, NULL);
	} else {
		compositor_svg_traverse_children(((SVG_Element *)node)->children, tr_state);
	}
	tr_state->vp_size = prev_vp;

#ifndef GPAC_DISABLE_3D
	if (tr_state->visual->type_3d) {
		if (tr_state->traversing_mode==TRAVERSE_SORT) visual_3d_matrix_pop(tr_state->visual);
		gf_mx_copy(tr_state->model_matrix, bck_mx);
	}
#endif
	gf_mx2d_copy(tr_state->transform, backup_matrix);  
	gf_mx2d_copy(tr_state->vb_transform, vb_bck);
	memcpy(tr_state->svg_props, &backup_props, styling_size);
	tr_state->svg_flags = backup_flags;
	tr_state->visual->top_clipper = top_clip;
	if (!stack->root_svg) {
		tr_state->invalidate_all = invalidate_flag;
	}
	tr_state->svg_props = prev_props;
}
Exemplo n.º 11
0
static void IFS2D_Draw(GF_Node *node, GF_TraverseState *tr_state)
{
	u32 i, count, ci_count;
	u32 j, ind_col, num_col;
	SFVec2f center, end;
	SFColor col_cen;
	GF_STENCIL grad;
	u32 *colors;
	GF_Path *path;
	SFVec2f start;
	SFVec2f *pts;
	SFColor col;
	Fixed alpha;
	GF_Raster2D *raster;
	DrawableContext *ctx = tr_state->ctx;
	M_IndexedFaceSet2D *ifs2D = (M_IndexedFaceSet2D *)node;
	M_Coordinate2D *coord = (M_Coordinate2D*) ifs2D->coord;
	M_Color *color = (M_Color *) ifs2D->color;
		
	col.red = col.green = col.blue = 0;
	/*simple case, no color specified*/
	if (!ifs2D->color) {
		visual_2d_texture_path(tr_state->visual, ctx->drawable->path, ctx, tr_state);
		visual_2d_draw_path(tr_state->visual, ctx->drawable->path, ctx, NULL, NULL, tr_state);
		return;
	}

	/*if default face use first color*/
	ci_count = ifs2D->coordIndex.count;
	pts = coord->point.vals;

	if (ci_count == 0) {
		col = (ifs2D->colorIndex.count > 0) ? color->color.vals[ifs2D->colorIndex.vals[0]] : color->color.vals[0];

		alpha = INT2FIX(GF_COL_A(ctx->aspect.fill_color)) / 255;
		if (!alpha || !ctx->aspect.pen_props.width) {
			alpha = INT2FIX(GF_COL_A(ctx->aspect.line_color)) / 255;
			ctx->aspect.line_color = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
		} else {
			ctx->aspect.fill_color = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
		}
		visual_2d_texture_path(tr_state->visual, ctx->drawable->path, ctx, tr_state);
		visual_2d_draw_path(tr_state->visual, ctx->drawable->path, ctx, NULL, NULL, tr_state);
		return;
	}

	/*we have color per faces so we need N path :(*/
	if (! ifs2D->colorPerVertex) {
		path = gf_path_new();

		count = 0;
		i = 0;
		while (1) {
			gf_path_reset(path);
			start = pts[ifs2D->coordIndex.vals[i]];
			gf_path_add_move_to(path, start.x, start.y);
			i++;

			while (ifs2D->coordIndex.vals[i] != -1) {	
				start = pts[ifs2D->coordIndex.vals[i]];
				gf_path_add_line_to(path, start.x, start.y);
				i++;
				if (i >= ci_count) break;
			}
			/*close in ALL cases because even if the start/end points are the same the line join needs to be present*/
			gf_path_close(path);

			col = (ifs2D->colorIndex.count > 0) ? color->color.vals[ifs2D->colorIndex.vals[count]] : color->color.vals[count];

			alpha = INT2FIX(GF_COL_A(ctx->aspect.fill_color)) / 255;
			if (!alpha) {
				alpha = INT2FIX(GF_COL_A(ctx->aspect.line_color)) / 255;
				ctx->aspect.line_color = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
			} else {
				ctx->aspect.fill_color = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
			}

			visual_2d_texture_path(tr_state->visual, path, ctx, tr_state);
			visual_2d_draw_path(tr_state->visual, path, ctx, NULL, NULL, tr_state);
			count++;
			i++;
			if (i >= ci_count) break;
			ctx->flags &= ~CTX_PATH_FILLED;
			ctx->flags &= ~CTX_PATH_STROKE;
		}
		gf_path_del(path);
		return;
	}

	/*final case, color per vertex means gradient fill/strike*/
	raster = tr_state->visual->compositor->rasterizer;
	grad = raster->stencil_new(raster, GF_STENCIL_VERTEX_GRADIENT);
	/*not supported, fill default*/
	if (!grad) {
		visual_2d_texture_path(tr_state->visual, ctx->drawable->path, ctx, tr_state);
		visual_2d_draw_path(tr_state->visual, ctx->drawable->path, ctx, NULL, NULL, tr_state);
		return;
	}


	path = gf_path_new();

	ind_col = 0;
	i = 0;
	while (1) {
		gf_path_reset(path);
		start = pts[ifs2D->coordIndex.vals[i]];
		center = start;
		gf_path_add_move_to(path, start.x, start.y);
		num_col = 1;
		i+=1;
		while (ifs2D->coordIndex.vals[i] != -1) {	
			end = pts[ifs2D->coordIndex.vals[i]];
			gf_path_add_line_to(path, end.x, end.y);
			i++;
			center.x += end.x;
			center.y += end.y;
			num_col ++;
			if (i >= ci_count) break;
		}
		gf_path_close(path);
		num_col++;

		alpha = INT2FIX(GF_COL_A(ctx->aspect.fill_color) ) / 255;

		colors = (u32*)gf_malloc(sizeof(u32) * num_col);
		col_cen.blue = col_cen.red = col_cen.green = 0;
		for (j=0; j<num_col-1; j++) {
			if (ifs2D->colorIndex.count > ind_col + j) {
				col = color->color.vals[ifs2D->colorIndex.vals[ind_col + j]];
			} else if (ci_count > ind_col + j) {
				col = color->color.vals[ifs2D->coordIndex.vals[ind_col + j]];
			}
			colors[j] = GF_COL_ARGB_FIXED(alpha, col.red, col.green, col.blue);
			col_cen.blue += col.blue;
			col_cen.green += col.green;
			col_cen.red += col.red;
		}
		colors[num_col-1] = colors[0];

		if (ifs2D->colorIndex.count > ind_col) {
			col = color->color.vals[ifs2D->colorIndex.vals[ind_col]];
		} else if (ci_count > ind_col) {
			col = color->color.vals[ifs2D->coordIndex.vals[ind_col]];
		}
		col_cen.blue += col.blue;
		col_cen.green += col.green;
		col_cen.red += col.red;

		raster->stencil_set_vertex_path(grad, path);
		raster->stencil_set_vertex_colors(grad, colors, num_col);

		gf_free(colors);
		
		col_cen.blue /= num_col;
		col_cen.green /= num_col;
		col_cen.red /= num_col;
		center.x /= num_col;
		center.y /= num_col;
		raster->stencil_set_vertex_center(grad, center.x, center.y, GF_COL_ARGB_FIXED(alpha, col_cen.red, col_cen.green, col_cen.blue) );

		raster->stencil_set_matrix(grad, &ctx->transform);

		/*draw*/
		visual_2d_draw_path(tr_state->visual, ctx->drawable->path, ctx, grad, grad, tr_state);

		raster->stencil_delete(grad);

		//goto next point
		i++;
		ind_col += num_col + 1;	
		if (i >= ci_count) break;
		grad = raster->stencil_new(raster, GF_STENCIL_VERTEX_GRADIENT);
		ctx->flags &= ~CTX_PATH_FILLED;
		ctx->flags &= ~CTX_PATH_STROKE;
	}
	gf_path_del(path);
}