C++ (Cpp) group_3d_traverse примеры использования

Пример #1

Файл: mpeg4_grouping_3d.c Проект: ARSekkat/gpac

void TraverseCollision(GF_Node *node, void *rs, Bool is_destroy)
{
	u32 collide_flags;
	SFVec3f last_point;
	Fixed last_dist;
	M_Collision *col = (M_Collision *)node;
	GF_TraverseState *tr_state = (GF_TraverseState *)rs;
	GroupingNode *group = (GroupingNode *) gf_node_get_private(node);

	if (is_destroy) {
		gf_sc_check_focus_upon_destroy(node);
		group_3d_delete(node);
		return;
	}

	if (tr_state->traversing_mode != TRAVERSE_COLLIDE) {
		group_3d_traverse(node, group, tr_state);
	} else if (col->collide) {

		collide_flags = tr_state->camera->collide_flags;
		last_dist = tr_state->camera->collide_dist;
		tr_state->camera->collide_flags &= 0;
		tr_state->camera->collide_dist = FIX_MAX;
		last_point = tr_state->camera->collide_point;

		if (col->proxy) {
			/*always check bounds to update any dirty node*/
			tr_state->traversing_mode = TRAVERSE_GET_BOUNDS;
			gf_node_traverse(col->proxy, rs);

			tr_state->traversing_mode = TRAVERSE_COLLIDE;
			gf_node_traverse(col->proxy, rs);
		} else {
			group_3d_traverse(node, group, (GF_TraverseState*)rs);
		}
		if (tr_state->camera->collide_flags & CF_COLLISION) {
			col->collideTime = gf_node_get_scene_time(node);
			gf_node_event_out(node, 5/*"collideTime"*/);
			/*if not closer restore*/
			if (collide_flags && (last_dist<tr_state->camera->collide_dist)) {
				tr_state->camera->collide_flags = collide_flags;
				tr_state->camera->collide_dist = last_dist;
				tr_state->camera->collide_point = last_point;
			}
		} else {
			tr_state->camera->collide_flags = collide_flags;
			tr_state->camera->collide_dist = last_dist;
		}
	}
}

Пример #2

Файл: mpeg4_grouping_3d.c Проект: ARSekkat/gpac

static void TraverseGroup(GF_Node *node, void *rs, Bool is_destroy)
{
	GroupingNode *group = (GroupingNode *) gf_node_get_private(node);
	if (is_destroy) {
		gf_sc_check_focus_upon_destroy(node);
		group_3d_delete(node);
	} else {
		group_3d_traverse(node, group, (GF_TraverseState*)rs);
	}
}

Пример #3

Файл: hardcoded_protos.c Проект: dragonlucian/gpac

static void TraversePlaneClipper(GF_Node *node, void *rs, Bool is_destroy)
{
	PlaneClipperStack *stack = (PlaneClipperStack *)gf_node_get_private(node);
	GF_TraverseState *tr_state = (GF_TraverseState *) rs;

	if (is_destroy) {
		group_3d_delete(node);
		return;
	}

	if (gf_node_dirty_get(node)) {
		PlaneClipper_GetNode(node, &stack->pc);
	}

	if (tr_state->num_clip_planes==MAX_USER_CLIP_PLANES) {
		group_3d_traverse((GF_Node*)&stack->pc, (GroupingNode*)stack, tr_state);
		return;
	}

	if (tr_state->traversing_mode == TRAVERSE_SORT) {
		GF_Matrix mx;
		gf_mx_copy(mx, tr_state->model_matrix);
		visual_3d_set_clip_plane(tr_state->visual, stack->pc.plane, &mx, 0);
		tr_state->num_clip_planes++;

		group_3d_traverse((GF_Node*)&stack->pc, (GroupingNode*)stack, tr_state);
		visual_3d_reset_clip_plane(tr_state->visual);
		tr_state->num_clip_planes--;
	} else {
		tr_state->clip_planes[tr_state->num_clip_planes] = stack->pc.plane;
		gf_mx_apply_plane(&tr_state->model_matrix, &tr_state->clip_planes[tr_state->num_clip_planes]);
		tr_state->num_clip_planes++;

		group_3d_traverse((GF_Node*)&stack->pc, (GroupingNode*)stack, tr_state);

		tr_state->num_clip_planes--;
	}

}

Пример #4

Файл: mpeg4_grouping_3d.c Проект: ARSekkat/gpac

static void TraverseTransform(GF_Node *n, void *rs, Bool is_destroy)
{
	GF_Matrix gf_mx_bckup;
	TransformStack *st = (TransformStack *)gf_node_get_private(n);
	M_Transform *tr = (M_Transform *)n;
	GF_TraverseState *tr_state = (GF_TraverseState *)rs;

	if (is_destroy) {
		DestroyTransform(n);
		return;
	}

	/*note we don't clear dirty flag, this is done in traversing*/
	if (gf_node_dirty_get(n) & GF_SG_NODE_DIRTY) {
		Bool scale_rot, recenter;
		gf_mx_init(st->mx);
		if (tr->translation.x || tr->translation.y || tr->translation.z)
			gf_mx_add_translation(&st->mx, tr->translation.x, tr->translation.y, tr->translation.z);
		recenter = (tr->center.x || tr->center.y || tr->center.z) ? 1 : 0;
		if (recenter)
			gf_mx_add_translation(&st->mx, tr->center.x, tr->center.y, tr->center.z);

		if (tr->rotation.q) gf_mx_add_rotation(&st->mx, tr->rotation.q, tr->rotation.x, tr->rotation.y, tr->rotation.z);
		scale_rot = (tr->scaleOrientation.q) ? 1 : 0;
		if (scale_rot)
			gf_mx_add_rotation(&st->mx, tr->scaleOrientation.q, tr->scaleOrientation.x, tr->scaleOrientation.y, tr->scaleOrientation.z);
		if ((tr->scale.x != FIX_ONE) || (tr->scale.y != FIX_ONE) || (tr->scale.z != FIX_ONE))
			gf_mx_add_scale(&st->mx, tr->scale.x, tr->scale.y, tr->scale.z);
		if (scale_rot)
			gf_mx_add_rotation(&st->mx, -tr->scaleOrientation.q, tr->scaleOrientation.x, tr->scaleOrientation.y, tr->scaleOrientation.z);
		if (recenter)
			gf_mx_add_translation(&st->mx, -tr->center.x, -tr->center.y, -tr->center.z);

		st->has_scale = ((tr->scale.x != FIX_ONE) || (tr->scale.y != FIX_ONE) || (tr->scale.z != FIX_ONE)) ? 1 : 0;
	}

	gf_mx_copy(gf_mx_bckup, tr_state->model_matrix);
	gf_mx_add_matrix(&tr_state->model_matrix, &st->mx);

	/*note we don't clear dirty flag, this is done in traversing*/
	group_3d_traverse(n, (GroupingNode *) st, tr_state);

	gf_mx_copy(tr_state->model_matrix, gf_mx_bckup);
	if (tr_state->traversing_mode==TRAVERSE_GET_BOUNDS)
		gf_mx_apply_bbox(&st->mx, &tr_state->bbox);
}

Пример #5

Файл: mpeg4_grouping_3d.c Проект: ARSekkat/gpac

static void TraverseBillboard(GF_Node *n, void *rs, Bool is_destroy)
{
	GF_Matrix gf_mx_bckup;
	TransformStack *st = (TransformStack *)gf_node_get_private(n);
	M_Billboard *bb = (M_Billboard *)n;
	GF_TraverseState *tr_state = (GF_TraverseState *)rs;

	if (is_destroy) {
		DestroyTransform(n);
		return;
	}
	if (! tr_state->camera) return;

	/*can't cache the matrix here*/
	gf_mx_init(st->mx);
	if (tr_state->camera->is_3D) {
		SFVec3f z, axis;
		Fixed axis_len;
		SFVec3f user_pos = tr_state->camera->position;

		gf_mx_apply_vec(&tr_state->model_matrix, &user_pos);
		gf_vec_norm(&user_pos);
		axis = bb->axisOfRotation;
		axis_len = gf_vec_len(axis);
		if (axis_len<FIX_EPSILON) {
			SFVec3f x, y, t;
			/*get user's right in local coord*/
			gf_vec_diff(t, tr_state->camera->position, tr_state->camera->target);
			gf_vec_norm(&t);
			x = gf_vec_cross(tr_state->camera->up, t);
			gf_vec_norm(&x);
			gf_mx_rotate_vector(&tr_state->model_matrix, &x);
			gf_vec_norm(&x);
			/*get user's up in local coord*/
			y = tr_state->camera->up;
			gf_mx_rotate_vector(&tr_state->model_matrix, &y);
			gf_vec_norm(&y);
			z = gf_vec_cross(x, y);
			gf_vec_norm(&z);

			gf_mx_rotation_matrix_from_vectors(&st->mx, x, y, z);
			gf_mx_inverse(&st->mx);
		} else {
			SFVec3f tmp;
			Fixed d, cosw, sinw, angle;
			gf_vec_norm(&axis);
			/*map eye & z into plane with normal axis through 0.0*/
			d = -gf_vec_dot(axis, user_pos);
			tmp = gf_vec_scale(axis, d);
			gf_vec_add(user_pos, user_pos, tmp);
			gf_vec_norm(&user_pos);

			z.x = z.y = 0;
			z.z = FIX_ONE;
			d = -gf_vec_dot(axis, z);
			tmp = gf_vec_scale(axis, d);
			gf_vec_add(z, z, tmp);
			gf_vec_norm(&z);

			cosw = gf_vec_dot(user_pos, z);
			tmp = gf_vec_cross(user_pos, z);
			sinw = gf_vec_len(tmp);
			angle = gf_acos(cosw);
			gf_vec_norm(&tmp);
			if ((sinw>0) && (gf_vec_dot(axis, tmp) > 0)) gf_vec_rev(axis);
			gf_mx_add_rotation(&st->mx, angle, axis.x, axis.y, axis.z);
		}
	}

	gf_mx_copy(gf_mx_bckup, tr_state->model_matrix);
	gf_mx_add_matrix(&tr_state->model_matrix, &st->mx);

	/*note we don't clear dirty flag, this is done in traversing*/
	group_3d_traverse(n, (GroupingNode *) st, tr_state);

	gf_mx_copy(tr_state->model_matrix, gf_mx_bckup);

	if (tr_state->traversing_mode==TRAVERSE_GET_BOUNDS) gf_mx_apply_bbox(&st->mx, &tr_state->bbox);
}

Пример #6

Файл: mpeg4_layer_3d.c Проект: DmitrySigaev/gpac_hbbtv

static void TraverseLayer3D(GF_Node *node, void *rs, Bool is_destroy)
{
	Bool prev_layer, changed = 0;
	GF_List *oldb, *oldv, *oldf, *oldn;
	GF_Rect rc;
	u32 cur_lights;
	GF_List *node_list_backup;
	GF_BBox bbox_backup;
	GF_Matrix model_backup;
	GF_Matrix2D mx2d_backup;
	GF_Camera *prev_cam;
	GF_VisualManager *old_visual;
	M_Layer3D *l = (M_Layer3D *)node;
	Layer3DStack *st = (Layer3DStack *) gf_node_get_private(node);
	GF_TraverseState *tr_state = (GF_TraverseState *) rs;
	
	if (is_destroy) {
		DestroyLayer3D(node);
		return;
	}
	if (st->unsupported) return;

	if (gf_node_dirty_get(node)) {

		/*main visual in pixel metrics, use output width*/
		if (tr_state->pixel_metrics && (tr_state->visual->compositor->visual==tr_state->visual)) {
			st->clip.width = INT2FIX(tr_state->visual->compositor->vp_width);
			st->clip.height = INT2FIX(tr_state->visual->compositor->vp_height);
		} else {
			visual_get_size_info(tr_state, &st->clip.width, &st->clip.height);
		}
		/*setup bounds in local coord system*/
		if (l->size.x>=0) st->clip.width = l->size.x;
		if (l->size.y>=0) st->clip.height = l->size.y;
		st->clip = gf_rect_center(st->clip.width, st->clip.height);

		changed = 1;
	}

	switch (tr_state->traversing_mode) {
	case TRAVERSE_GET_BOUNDS:
		if (!tr_state->for_node) {
			tr_state->bounds = st->clip;
			gf_bbox_from_rect(&tr_state->bbox, &st->clip);
			return;
		}
	case TRAVERSE_PICK:
	case TRAVERSE_SORT:
		/*layers can only be used in a 2D context*/
		if (tr_state->camera && tr_state->camera->is_3D) return;
		break;
	case TRAVERSE_DRAW_2D:
		layer3d_draw_2d(node, tr_state);
		return;
	case TRAVERSE_DRAW_3D:
	default:
		return;
	}

	/*layer3D maintains its own stacks*/
	oldb = tr_state->backgrounds;
	oldv = tr_state->viewpoints;
	oldf = tr_state->fogs;
	oldn = tr_state->navigations;
	tr_state->backgrounds = st->visual->back_stack;
	tr_state->viewpoints = st->visual->view_stack;
	tr_state->navigations = st->visual->navigation_stack;
	tr_state->fogs = st->visual->fog_stack;
	prev_layer = tr_state->is_layer;
	tr_state->is_layer = 1;

	prev_cam = tr_state->camera;
	tr_state->camera = &st->visual->camera;
	old_visual = tr_state->visual;

	bbox_backup = tr_state->bbox;
	gf_mx_copy(model_backup, tr_state->model_matrix);
	gf_mx2d_copy(mx2d_backup, tr_state->transform);


	/*compute viewport in visual coordinate*/
	rc = st->clip;
	if (prev_cam) {
		gf_mx_apply_rect(&tr_state->model_matrix, &rc);

		gf_mx_apply_rect(&prev_cam->modelview, &rc);
		if (tr_state->camera->flags & CAM_HAS_VIEWPORT)
			gf_mx_apply_rect(&prev_cam->viewport, &rc);
#if 0
		if (tr_state->visual->compositor->visual==tr_state->visual) {
			GF_Matrix mx;
			gf_mx_init(mx);
			gf_mx_add_scale(&mx, tr_state->visual->compositor->scale_x, tr_state->visual->compositor->scale_y, FIX_ONE);
			gf_mx_apply_rect(&mx, &rc);
		}
#endif
	} else {
		gf_mx2d_apply_rect(&tr_state->transform, &rc);

/*		if (tr_state->visual->compositor->visual==tr_state->visual) {
			gf_mx2d_init(mx2d_backup);
			gf_mx2d_add_scale(&mx2d_backup, tr_state->visual->compositor->scale_x, tr_state->visual->compositor->scale_y);
			gf_mx2d_apply_rect(&mx2d_backup, &rc);
		}
*/
		/*switch visual*/
		tr_state->visual = st->visual;
	}


	/*check bindables*/
	gf_mx_init(tr_state->model_matrix);
	l3d_CheckBindables(node, tr_state, st->first);
	if (prev_cam) gf_mx_copy(tr_state->model_matrix, model_backup);


	/*drawing a layer means drawing all subelements as a whole (no depth sorting with parents)*/
	if (tr_state->traversing_mode==TRAVERSE_SORT) {

		if (gf_node_dirty_get(node)) changed = 1;
		gf_node_dirty_clear(node, GF_SG_NODE_DIRTY|GF_SG_VRML_BINDABLE_DIRTY);

		/*!! we were in a 2D mode, setup associated texture !!*/
		if (!prev_cam) {
			switch (layer3d_setup_offscreen(node, st, tr_state, rc.width, rc.height)) {
			case 0:
				goto l3d_exit;
			case 2:
				if (!changed && !(st->visual->camera.flags & CAM_IS_DIRTY) && !st->visual->camera.anim_len) {
					GF_LOG(GF_LOG_DEBUG, GF_LOG_COMPOSE, ("[Layer3D] No changes found , skipping 3D draw\n"));
					goto layer3d_unchanged_2d;
				}
			default:
				break;
			}
#ifdef GPAC_USE_TINYGL
			if (st->tgl_ctx) ostgl_make_current(st->tgl_ctx, 0);
#endif

			/*note that we don't backup the state as a layer3D cannot be declared in a layer3D*/
			tr_state->layer3d = node;

			rc = st->vp;
			/*setup GL*/
			visual_3d_setup(tr_state->visual);

			visual_3d_set_matrix_mode(tr_state->visual, V3D_MATRIX_PROJECTION);
			visual_3d_matrix_reset(tr_state->visual);
			visual_3d_set_matrix_mode(tr_state->visual, V3D_MATRIX_TEXTURE);
			visual_3d_matrix_reset(tr_state->visual);
			visual_3d_set_matrix_mode(tr_state->visual, V3D_MATRIX_MODELVIEW);
			visual_3d_matrix_reset(tr_state->visual);
		} else {
			visual_3d_set_matrix_mode(tr_state->visual, V3D_MATRIX_PROJECTION);
			visual_3d_matrix_push(tr_state->visual);
			visual_3d_set_matrix_mode(tr_state->visual, V3D_MATRIX_TEXTURE);
			visual_3d_matrix_push(tr_state->visual);
			visual_3d_set_matrix_mode(tr_state->visual, V3D_MATRIX_MODELVIEW);
			visual_3d_matrix_push(tr_state->visual);
		}
		GF_LOG(GF_LOG_DEBUG, GF_LOG_COMPOSE, ("[Layer3D] Redrawing\n"));

		layer3d_setup_clip(st, tr_state, prev_cam ? 1 : 0, rc);

		cur_lights = tr_state->visual->num_lights;
		/*this will init projection. Note that we're binding the viewpoint in the current pixelMetrics context
		even if the viewpoint was declared in an inline below
		if no previous camera, we're using offscreen rendering, force clear */
		visual_3d_init_draw(tr_state, prev_cam ? 1 : 2);

		visual_3d_check_collisions(tr_state, l->children);
		tr_state->traversing_mode = TRAVERSE_SORT;

		/*shortcut node list*/
		node_list_backup = tr_state->visual->alpha_nodes_to_draw;
		tr_state->visual->alpha_nodes_to_draw = gf_list_new();

		/*reset cull flag*/
		tr_state->cull_flag = 0;
		group_3d_traverse(node, (GroupingNode *)st, tr_state);

		visual_3d_flush_contexts(tr_state->visual, tr_state);

		gf_list_del(tr_state->visual->alpha_nodes_to_draw);
		tr_state->visual->alpha_nodes_to_draw = node_list_backup;

		while (cur_lights < tr_state->visual->num_lights) {
			visual_3d_remove_last_light(tr_state->visual);
		}

		tr_state->traversing_mode = TRAVERSE_SORT;

		if (prev_cam) {
			visual_3d_set_matrix_mode(tr_state->visual, V3D_MATRIX_PROJECTION);
			visual_3d_matrix_pop(tr_state->visual);
			visual_3d_set_matrix_mode(tr_state->visual, V3D_MATRIX_TEXTURE);
			visual_3d_matrix_pop(tr_state->visual);
			visual_3d_set_matrix_mode(tr_state->visual, V3D_MATRIX_MODELVIEW);
			visual_3d_matrix_pop(tr_state->visual);
		}


		/*!! we were in a 2D mode, create drawable context!!*/
		if (!prev_cam) {
			DrawableContext *ctx;
			
			/*with TinyGL we draw directly to the offscreen buffer*/
#ifndef GPAC_USE_TINYGL
			gf_sc_copy_to_stencil(&st->txh);
#else
			if (st->txh.pixelformat==GF_PIXEL_RGBDS) 
				gf_get_tinygl_depth(&st->txh); 
#endif

			if (tr_state->visual->compositor->rasterizer->stencil_texture_modified) 
				tr_state->visual->compositor->rasterizer->stencil_texture_modified(gf_sc_texture_get_stencil(&st->txh) ); 
			gf_sc_texture_set_stencil(&st->txh, gf_sc_texture_get_stencil(&st->txh) );
			changed = 1;

layer3d_unchanged_2d:

			/*restore visual*/
			tr_state->visual = old_visual;
			tr_state->layer3d = NULL;
			tr_state->appear = NULL;
		//	tr_state->camera = prev_cam;

			ctx = drawable_init_context_mpeg4(st->drawable, tr_state);
			if (!ctx) return;
			ctx->aspect.fill_texture = &st->txh;
			ctx->flags |= CTX_NO_ANTIALIAS;
			if (changed) ctx->flags |= CTX_APP_DIRTY;
			if (st->txh.transparent) ctx->flags |= CTX_IS_TRANSPARENT;
			drawable_finalize_sort(ctx, tr_state, NULL);
		}
	}
	/*check picking - we must fall in our 2D clipper except when mvt is grabbed on layer*/
	else if (!gf_node_dirty_get(node)  && (tr_state->traversing_mode==TRAVERSE_PICK)) {
		GF_Ray prev_r;
		SFVec3f start, end;
		SFVec4f res;
		Fixed in_x, in_y;
		Bool do_pick = 0;

		if (!prev_cam) rc = st->vp;

		layer3d_setup_clip(st, tr_state, prev_cam ? 1 : 0, rc);

		if (tr_state->visual->compositor->active_layer==node) {
			do_pick = (tr_state->visual->compositor->grabbed_sensor || tr_state->visual->compositor->navigation_state) ? 1 : 0;
		}

		if (!prev_cam) gf_mx_from_mx2d(&tr_state->model_matrix, &tr_state->transform);
		
		if (!do_pick && !gf_list_count(tr_state->visual->compositor->sensors)) 
			do_pick = gf_sc_pick_in_clipper(tr_state, &st->clip);

		if (!do_pick) goto l3d_exit;

		prev_r = tr_state->ray;

		compositor_get_2d_plane_intersection(&tr_state->ray, &start);

		gf_mx_inverse(&tr_state->model_matrix);
		gf_mx_apply_vec(&tr_state->model_matrix, &start);


		if (tr_state->visual->compositor->visual==tr_state->visual) {
			start.x = gf_mulfix(start.x, tr_state->visual->compositor->scale_x);
			start.y = gf_mulfix(start.y, tr_state->visual->compositor->scale_y);
		} else if (!prev_cam) {
			start.x = gf_muldiv(start.x, st->visual->camera.width, st->clip.width);
			start.y = gf_muldiv(start.y, st->visual->camera.height, st->clip.height);
		}

		visual_3d_setup_projection(tr_state, 1);
		in_x = 2 * gf_divfix(start.x, st->visual->camera.width);
		in_y = 2 * gf_divfix(start.y, st->visual->camera.height);
					
		res.x = in_x; res.y = in_y; res.z = -FIX_ONE; res.q = FIX_ONE;
		gf_mx_apply_vec_4x4(&st->visual->camera.unprojection, &res);
		if (!res.q) goto l3d_exit;
		start.x = gf_divfix(res.x, res.q);
		start.y = gf_divfix(res.y, res.q);
		start.z = gf_divfix(res.z, res.q);

		res.x = in_x; res.y = in_y; res.z = FIX_ONE; res.q = FIX_ONE;
		gf_mx_apply_vec_4x4(&st->visual->camera.unprojection, &res);
		if (!res.q) goto l3d_exit;
		end.x = gf_divfix(res.x, res.q);
		end.y = gf_divfix(res.y, res.q);
		end.z = gf_divfix(res.z, res.q);
		tr_state->ray = gf_ray(start, end);

		GF_LOG(GF_LOG_DEBUG, GF_LOG_COMPOSE, ("[Layer3D] Picking: cast ray\n\tOrigin %.4f %.4f %.4f - End %.4f %.4f %.4f\n\tDir %.4f %.4f %.4f\n", 
			FIX2FLT(tr_state->ray.orig.x), FIX2FLT(tr_state->ray.orig.y), FIX2FLT(tr_state->ray.orig.z),
			FIX2FLT(end.x), FIX2FLT(end.y), FIX2FLT(end.z),
			FIX2FLT(tr_state->ray.dir.x), FIX2FLT(tr_state->ray.dir.y), FIX2FLT(tr_state->ray.dir.z)));

		group_3d_traverse(node, (GroupingNode *)st, tr_state);
		tr_state->ray = prev_r;

		/*store info if navigation allowed - we just override any layer3D picked first since we are picking 2D
		objects*/
		if (tr_state->camera->navigate_mode || (tr_state->camera->navigation_flags & NAV_ANY))
			tr_state->layer3d = node;

		tr_state->traversing_mode = TRAVERSE_PICK;
	}

l3d_exit:
	/*restore camera*/
	tr_state->camera = prev_cam;
	if (prev_cam) visual_3d_set_viewport(tr_state->visual, tr_state->camera->vp);
	tr_state->visual = old_visual;

	/*restore traversing state*/
	tr_state->backgrounds = oldb;
	tr_state->viewpoints = oldv;
	tr_state->fogs = oldf;
	tr_state->navigations = oldn;
	tr_state->bbox = bbox_backup;
	tr_state->is_layer = prev_layer;
	gf_mx_copy(tr_state->model_matrix, model_backup);
	gf_mx2d_copy(tr_state->transform, mx2d_backup);

	/*in case we missed bindables*/
	if (st->first) {
		st->first = 0;
		gf_node_dirty_set(node, 0, 0);
		gf_sc_invalidate(tr_state->visual->compositor, NULL);
	}
}