Bool group_2d_cache_traverse(GF_Node *node, GroupingNode2D *group, GF_TraverseState *tr_state)
{
Bool is_dirty = gf_node_dirty_get(node) & GF_SG_CHILD_DIRTY;
Bool zoom_changed = tr_state->visual->compositor->zoom_changed;
Bool needs_recompute = 0;
/*we are currently in a group cache, regular traversing*/
if (tr_state->in_group_cache) return 0;
/*draw mode*/
if (tr_state->traversing_mode == TRAVERSE_DRAW_2D) {
/*shall never happen*/
assert(group->cache);
/*draw it*/
group_cache_draw(group->cache, tr_state);
return 1;
}
/*other modes than sorting, use regular traversing*/
if (tr_state->traversing_mode != TRAVERSE_SORT) return 0;
/*this is not an offscreen group*/
if (!(group->flags & GROUP_IS_CACHED) ) {
Bool cache_on = 0;
/*group cache has been turned on in the previous frame*/
if (!is_dirty && (group->flags & GROUP_IS_CACHABLE)) {
group->flags |= GROUP_IS_CACHED;
group->flags &= ~GROUP_IS_CACHABLE;
GF_LOG(GF_LOG_DEBUG, GF_LOG_CACHE, ("[CACHE] Turning group %s cache on - size %d\n", gf_node_get_log_name(node), group->cached_size ));
cache_on = 1;
}
/*group cache has been turned off in the previous frame*/
else if (group->cache) {
group_cache_del(group->cache);
group->cache = NULL;
group->changed = is_dirty;
group->nb_stats_frame = 0;
group->traverse_time = 0;
GF_LOG(GF_LOG_DEBUG, GF_LOG_CACHE, ("[CACHE] Turning group %s cache off\n", gf_node_get_log_name(node) ));
return 0;
}
if (!cache_on) {
if (is_dirty) {
group->changed = 1;
}
/*ask for stats again*/
else if (group->changed) {
group->changed = 0;
group->nb_stats_frame = 0;
group->traverse_time = 0;
} else if (zoom_changed) {
group->nb_stats_frame = 0;
group->traverse_time = 0;
}
if (is_dirty || (group->nb_stats_frame < NUM_STATS_FRAMES)) {
/*force direct draw mode*/
if (!is_dirty)
tr_state->visual->compositor->traverse_state->invalidate_all = 1;
/*force redraw*/
tr_state->visual->compositor->draw_next_frame = 1;
}
return 0;
}
}
/*cache is dirty*/
else if (is_dirty) {
/*permanent cache, just recompute*/
if (group->flags & GROUP_PERMANENT_CACHE) {
group->changed = 1;
group->cache->force_recompute = 1;
}
/*otherwise destroy the cache*/
else if (group->cache) {
gf_cache_remove_entry(tr_state->visual->compositor, node, group);
group_cache_del(group->cache);
group->cache = NULL;
group->flags &= ~GROUP_IS_CACHED;
group->changed = 0;
group->nb_stats_frame = 0;
group->traverse_time = 0;
GF_LOG(GF_LOG_DEBUG, GF_LOG_CACHE, ("[CACHE] Turning group %s cache off due to sub-tree modifications\n", gf_node_get_log_name(node) ));
return 0;
}
}
/*zoom has changed*/
else if (zoom_changed) {
/*permanent cache, just recompute*/
if (group->flags & GROUP_PERMANENT_CACHE) {
group->changed = 1;
group->cache->force_recompute = 1;
}
/*otherwise check if we accept this scale ratio or if we must recompute*/
else if (group->cache) {
Fixed scale = MAX(tr_state->transform.m[0], tr_state->transform.m[4]);
if (100*scale >= group->cache->scale*(100 + tr_state->visual->compositor->cache_tolerance))
zoom_changed = 1;
else if ((100+tr_state->visual->compositor->cache_tolerance)*scale <= 100*group->cache->scale)
zoom_changed = 1;
else
zoom_changed = 0;
if (zoom_changed) {
gf_cache_remove_entry(tr_state->visual->compositor, node, group);
group_cache_del(group->cache);
group->cache = NULL;
group->flags &= ~GROUP_IS_CACHED;
group->changed = 0;
group->nb_stats_frame = 0;
group->traverse_time = 0;
GF_LOG(GF_LOG_DEBUG, GF_LOG_CACHE, ("[CACHE] Turning group %s cache off due to zoom changes\n", gf_node_get_log_name(node) ));
return 0;
}
}
}
/*keep track of this cache object for later removal*/
if (!(group->flags & GROUP_PERMANENT_CACHE))
gf_list_add(tr_state->visual->compositor->cached_groups_queue, group);
if (!group->cache) {
/*ALLOCATE THE CACHE*/
group->cache = group_cache_new(tr_state->visual->compositor, node);
needs_recompute = 1;
}
/*cache has been modified due to node changes, reset stats*/
group_cache_traverse(node, group->cache, tr_state, needs_recompute, 1, 0);
return 1;
}
static void TraverseOffscreenGroup(GF_Node *node, void *rs, Bool is_destroy)
{
OffscreenGroupStack *stack = (OffscreenGroupStack *)gf_node_get_private(node);
GF_TraverseState *tr_state = (GF_TraverseState *) rs;
if (is_destroy) {
if (stack->cache) group_cache_del(stack->cache);
gf_free(stack);
return;
}
if (tr_state->traversing_mode==TRAVERSE_SORT) {
if (!stack->detached && (gf_node_dirty_get(node) & GF_SG_NODE_DIRTY)) {
OffscreenGroup_GetNode(node, &stack->og);
if (stack->og.offscreen) {
stack->flags |= GROUP_IS_CACHED | GROUP_PERMANENT_CACHE;
if (!stack->cache) {
stack->cache = group_cache_new(tr_state->visual->compositor, (GF_Node*)&stack->og);
}
stack->cache->opacity = stack->og.opacity;
stack->cache->drawable->flags |= DRAWABLE_HAS_CHANGED;
} else {
if (stack->cache) group_cache_del(stack->cache);
stack->cache = NULL;
stack->flags &= ~(GROUP_IS_CACHED|GROUP_PERMANENT_CACHE);
}
gf_node_dirty_clear(node, GF_SG_NODE_DIRTY);
/*flag is not set for PROTO*/
gf_node_dirty_set(node, GF_SG_CHILD_DIRTY, 0);
}
if (stack->cache) {
if (stack->detached)
gf_node_dirty_clear(node, GF_SG_CHILD_DIRTY);
tr_state->subscene_not_over = 0;
group_cache_traverse((GF_Node *)&stack->og, stack->cache, tr_state, stack->cache->force_recompute, 1, stack->detached ? 1 : 0);
if (gf_node_dirty_get(node)) {
gf_node_dirty_clear(node, GF_SG_CHILD_DIRTY);
} else if ((stack->og.offscreen==2) && !stack->detached && !tr_state->subscene_not_over && stack->cache->txh.width && stack->cache->txh.height) {
GF_FieldInfo field;
if (gf_node_get_field(node, 0, &field) == GF_OK) {
gf_node_unregister_children(node, *(GF_ChildNodeItem **) field.far_ptr);
*(GF_ChildNodeItem **) field.far_ptr = NULL;
stack->detached = 1;
}
if (gf_node_get_field(node, 3, &field) == GF_OK) {
*(SFBool *) field.far_ptr = 1;
//gf_node_event_out(node, 3);
}
}
} else {
group_2d_traverse((GF_Node *)&stack->og, (GroupingNode2D*)stack, tr_state);
}
}
/*draw mode*/
else if (stack->cache && (tr_state->traversing_mode == TRAVERSE_DRAW_2D)) {
/*draw it*/
group_cache_draw(stack->cache, tr_state);
gf_node_dirty_clear(node, GF_SG_CHILD_DIRTY);
} else if (!stack->detached) {
group_2d_traverse((GF_Node *)&stack->og, (GroupingNode2D*)stack, tr_state);
} else {
if (tr_state->traversing_mode == TRAVERSE_GET_BOUNDS) {
tr_state->bounds = stack->bounds;
}
else if (tr_state->traversing_mode == TRAVERSE_PICK) {
vrml_drawable_pick(stack->cache->drawable, tr_state);
}
}
}
static void svg_traverse_g(GF_Node *node, void *rs, Bool is_destroy)
{
GF_Matrix2D backup_matrix;
GF_Matrix mx_3d;
SVGPropertiesPointers backup_props;
u32 backup_flags;
u32 styling_size = sizeof(SVGPropertiesPointers);
GF_TraverseState *tr_state = (GF_TraverseState *) rs;
SVGAllAttributes all_atts;
if (is_destroy) {
SVGgStack *group = gf_node_get_private(node);
#ifdef GF_SR_USE_VIDEO_CACHE
group_2d_destroy_svg(node, group);
#else
if (group->cache) group_cache_del(group->cache);
#endif
gf_free(group);
gf_sc_check_focus_upon_destroy(node);
return;
}
/*group cache traverse routine*/
else if (tr_state->traversing_mode == TRAVERSE_DRAW_2D) {
SVGgStack *group = gf_node_get_private(node);
group_cache_draw(group->cache, tr_state);
return;
}
gf_svg_flatten_attributes((SVG_Element *)node, &all_atts);
if (!compositor_svg_traverse_base(node, &all_atts, tr_state, &backup_props, &backup_flags))
return;
if (compositor_svg_is_display_off(tr_state->svg_props)) {
/* u32 prev_flags = tr_state->switched_off;
tr_state->switched_off = 1;
compositor_svg_traverse_children(((SVG_Element *)node)->children, tr_state);
tr_state->switched_off = prev_flags;*/
memcpy(tr_state->svg_props, &backup_props, styling_size);
tr_state->svg_flags = backup_flags;
return;
}
compositor_svg_apply_local_transformation(tr_state, &all_atts, &backup_matrix, &mx_3d);
if (tr_state->traversing_mode == TRAVERSE_GET_BOUNDS) {
gf_sc_get_nodes_bounds(node, ((SVG_Element *)node)->children, tr_state, NULL);
} else if (tr_state->traversing_mode == TRAVERSE_SORT) {
#ifdef GF_SR_USE_DEPTH
Fixed scale, offset, dscale, doffset;
#endif
Fixed opacity = FIX_ONE;
Bool clear = 0;
SVGgStack *group;
if (!tr_state->in_svg_filter && all_atts.filter && all_atts.filter->iri.target) {
svg_draw_filter(all_atts.filter->iri.target, node, tr_state);
return;
}
group = gf_node_get_private(node);
if (tr_state->parent_use_opacity) {
opacity = tr_state->parent_use_opacity->value;
tr_state->parent_use_opacity = NULL;
}
if (all_atts.opacity) {
opacity = gf_mulfix(opacity, all_atts.opacity->value);
}
if (gf_node_dirty_get(node)&GF_SG_CHILD_DIRTY) {
drawable_reset_group_highlight(tr_state, node);
clear=1;
}
#ifdef GF_SR_USE_DEPTH
dscale = FIX_ONE;
doffset=0;
if (all_atts.gpac_depthGain && all_atts.gpac_depthGain->type==SVG_NUMBER_VALUE) dscale = all_atts.gpac_depthGain->value;
if (all_atts.gpac_depthOffset && all_atts.gpac_depthOffset->type==SVG_NUMBER_VALUE) doffset = all_atts.gpac_depthOffset->value;
scale = tr_state->depth_gain;
offset = tr_state->depth_offset;
// new offset is multiplied by parent gain and added to parent offset
tr_state->depth_offset = gf_mulfix(doffset, scale) + offset;
// gain is multiplied by parent gain
tr_state->depth_gain = gf_mulfix(scale, dscale);
#endif
if (opacity < FIX_ONE) {
if (!group->cache) {
group->cache = group_cache_new(tr_state->visual->compositor, node);
group->cache->force_recompute = 1;
}
group->cache->opacity = opacity;
if (tr_state->visual->compositor->zoom_changed)
group->cache->force_recompute = 1;
group->flags |= GROUP_IS_CACHED | GROUP_PERMANENT_CACHE;
#ifdef GF_SR_USE_VIDEO_CACHE
group_2d_cache_traverse(node, group, tr_state);
#else
group_cache_traverse(node, group->cache, tr_state, group->cache->force_recompute, 0, 0);
#endif
} else {
#ifdef GF_SR_USE_VIDEO_CACHE
Bool group_cached;
group_cached = group_2d_cache_traverse(node, group, tr_state);
gf_node_dirty_clear(node, GF_SG_CHILD_DIRTY);
/*group is not cached, traverse the children*/
if (!group_cached) {
GF_ChildNodeItem *child;
DrawableContext *first_ctx = tr_state->visual->cur_context;
u32 cache_too_small = 0;
Bool skip_first_ctx = (first_ctx && first_ctx->drawable) ? 1 : 0;
u32 traverse_time = gf_sys_clock();
u32 last_cache_idx = gf_list_count(tr_state->visual->compositor->cached_groups_queue);
tr_state->cache_too_small = 0;
child = ((GF_ParentNode *)node)->children;
while (child) {
gf_node_traverse(child->node, tr_state);
child = child->next;
if (tr_state->cache_too_small)
cache_too_small++;
}
if (cache_too_small) {
tr_state->cache_too_small = 1;
} else {
/*get the traversal time for each group*/
traverse_time = gf_sys_clock() - traverse_time;
group->traverse_time += traverse_time;
/*record the traversal information and turn cache on if possible*/
group_2d_cache_evaluate(node, group, tr_state, first_ctx, skip_first_ctx, last_cache_idx);
}
}
#else
compositor_svg_traverse_children(((SVG_Element *)node)->children, tr_state);
#endif
}
if (clear) gf_node_dirty_clear(node, 0);
drawable_check_focus_highlight(node, tr_state, NULL);
#ifdef GF_SR_USE_DEPTH
tr_state->depth_gain = scale;
tr_state->depth_offset = offset;
#endif
} else {
compositor_svg_traverse_children(((SVG_Element *)node)->children, tr_state);
}
compositor_svg_restore_parent_transformation(tr_state, &backup_matrix, &mx_3d);
memcpy(tr_state->svg_props, &backup_props, styling_size);
tr_state->svg_flags = backup_flags;
}
