Exemplo n.º 1
0
static void OnPlaneSensor(SensorHandler *sh, Bool is_over, GF_Event *ev, RayHitInfo *hit_info)
{
	M_PlaneSensor *ps = (M_PlaneSensor *)sh->owner;
	PSStack *stack = (PSStack *) gf_node_get_private(sh->owner);
	
	
	if (ps->isActive && (!ps->enabled || ((ev->type==GF_EVENT_MOUSEUP) && (ev->mouse.button==GF_MOUSE_LEFT)) )) {
		if (ps->autoOffset) {
			ps->offset = ps->translation_changed;
			gf_node_event_out_str(sh->owner, "offset");
		}
		ps->isActive = 0;
		gf_node_event_out_str(sh->owner, "isActive");
		R3D_SetGrabbed(stack->compositor, 0);
	}
	else if (!ps->isActive && (ev->type==GF_EVENT_MOUSEDOWN) && (ev->mouse.button==GF_MOUSE_LEFT)) {
		gf_mx_copy(stack->initial_matrix, hit_info->local_to_world);
		gf_vec_diff(stack->start_drag, hit_info->local_point, ps->offset);
		stack->tracker.normal.x = stack->tracker.normal.y = 0; stack->tracker.normal.z = FIX_ONE;
		stack->tracker.d = - gf_vec_dot(stack->start_drag, stack->tracker.normal);
		ps->isActive = 1;
		gf_node_event_out_str(sh->owner, "isActive");
		R3D_SetGrabbed(stack->compositor, 1);
	}
	else if (ps->isActive) {
		GF_Ray loc_ray;
		SFVec3f res;
		loc_ray = hit_info->world_ray;
		gf_mx_apply_ray(&stack->initial_matrix, &loc_ray);
		gf_plane_intersect_line(&stack->tracker, &loc_ray.orig, &loc_ray.dir, &res);
		ps->trackPoint_changed = res;
		gf_node_event_out_str(sh->owner, "trackPoint_changed");

		gf_vec_diff(res, res, stack->start_drag);
		/*clip*/
		if (ps->minPosition.x <= ps->maxPosition.x) {
			if (res.x < ps->minPosition.x) res.x = ps->minPosition.x;
			if (res.x > ps->maxPosition.x) res.x = ps->maxPosition.x;
		}
		if (ps->minPosition.y <= ps->maxPosition.y) {
			if (res.y < ps->minPosition.y) res.y = ps->minPosition.y;
			if (res.y > ps->maxPosition.y) res.y = ps->maxPosition.y;
		}
		ps->translation_changed = res;
		gf_node_event_out_str(sh->owner, "translation_changed");
	}
}
Exemplo n.º 2
0
static void OnPlaneSensor2D(SensorHandler *sh, Bool is_over, GF_Event *ev, RayHitInfo *hit_info)
{
	M_PlaneSensor2D *ps = (M_PlaneSensor2D *)sh->owner;
	PS2DStack *stack = (PS2DStack *) gf_node_get_private(sh->owner);

	if (ps->isActive && (!ps->enabled || ((ev->type==GF_EVENT_MOUSEUP) && (ev->mouse.button==GF_MOUSE_LEFT)) )) {
		if (ps->autoOffset) {
			ps->offset = ps->translation_changed;
			gf_node_event_out_str(sh->owner, "offset");
		}
		ps->isActive = 0;
		gf_node_event_out_str(sh->owner, "isActive");
		R3D_SetGrabbed(stack->compositor, 0);
	} else if (!ps->isActive && (ev->type==GF_EVENT_MOUSEDOWN) && (ev->mouse.button==GF_MOUSE_LEFT)) {
		gf_mx_copy(stack->initial_matrix, hit_info->local_to_world);
		stack->start_drag.x = hit_info->local_point.x - ps->offset.x;
		stack->start_drag.y = hit_info->local_point.y - ps->offset.y;
		ps->isActive = 1;
		gf_node_event_out_str(sh->owner, "isActive");
		R3D_SetGrabbed(stack->compositor, 1);
	} else if (ps->isActive) {
		GF_Ray loc_ray;
		SFVec3f res;
		loc_ray = hit_info->world_ray;
		gf_mx_apply_ray(&stack->initial_matrix, &loc_ray);

		R3D_Get2DPlaneIntersection(&loc_ray, &res);
		ps->trackPoint_changed.x = res.x;
		ps->trackPoint_changed.y = res.y;
		gf_node_event_out_str(sh->owner, "trackPoint_changed");

		res.x -= stack->start_drag.x;
		res.y -= stack->start_drag.y;
		/*clip*/
		if (ps->minPosition.x <= ps->maxPosition.x) {
			if (res.x < ps->minPosition.x) res.x = ps->minPosition.x;
			if (res.x > ps->maxPosition.x) res.x = ps->maxPosition.x;
		}
		if (ps->minPosition.y <= ps->maxPosition.y) {
			if (res.y < ps->minPosition.y) res.y = ps->minPosition.y;
			if (res.y > ps->maxPosition.y) res.y = ps->maxPosition.y;
		}
		ps->translation_changed.x = res.x;
		ps->translation_changed.y = res.y;
		gf_node_event_out_str(sh->owner, "translation_changed");
	}
}
Exemplo n.º 3
0
static void OnDiscSensor(SensorHandler *sh, Bool is_over, GF_Event *ev, RayHitInfo *hit_info)
{
	M_DiscSensor *ds = (M_DiscSensor *)sh->owner;
	DiscSensorStack *stack = (DiscSensorStack *) gf_node_get_private(sh->owner);
	
	if (ds->isActive && (!ds->enabled || ((ev->type==GF_EVENT_MOUSEUP) && (ev->mouse.button==GF_MOUSE_LEFT) ) ) ) {
		if (ds->autoOffset) {
			ds->offset = ds->rotation_changed;
			/*that's an exposedField*/
			gf_node_event_out_str(sh->owner, "offset");
		}
		ds->isActive = 0;
		gf_node_event_out_str(sh->owner, "isActive");
		R3D_SetGrabbed(stack->compositor, 0);
	}
	else if (!ds->isActive && (ev->type==GF_EVENT_MOUSEDOWN) && (ev->mouse.button==GF_MOUSE_LEFT)) {
		/*store inverse matrix*/
		gf_mx_copy(stack->initial_matrix, hit_info->local_to_world);
		stack->start_angle = gf_atan2(hit_info->local_point.y, hit_info->local_point.x);
		ds->isActive = 1;
		gf_node_event_out_str(sh->owner, "isActive");
		R3D_SetGrabbed(stack->compositor, 1);
	}
	else if (ds->isActive) {
		GF_Ray loc_ray;
		Fixed rot;
		SFVec3f res;
		loc_ray = hit_info->world_ray;
		gf_mx_apply_ray(&stack->initial_matrix, &loc_ray);
		R3D_Get2DPlaneIntersection(&loc_ray, &res);
	
		rot = gf_atan2(res.y, res.x) - stack->start_angle + ds->offset;
		if (ds->minAngle < ds->maxAngle) {
			/*FIXME this doesn't work properly*/
			if (rot < ds->minAngle) rot = ds->minAngle;
			if (rot > ds->maxAngle) rot = ds->maxAngle;
		}
		ds->rotation_changed = rot;
		gf_node_event_out_str(sh->owner, "rotation_changed");
	   	ds->trackPoint_changed.x = res.x;
	   	ds->trackPoint_changed.y = res.y;
		gf_node_event_out_str(sh->owner, "trackPoint_changed");
	}
}
Exemplo n.º 4
0
void svg_drawable_3d_pick(Drawable *drawable, GF_TraverseState *tr_state, DrawAspect2D *asp) 
{
	SFVec3f local_pt, world_pt, vdiff;
	SFVec3f hit_normal;
	SFVec2f text_coords;
	u32 i, count;
	Fixed sqdist;
	Bool node_is_over;
	GF_Compositor *compositor;
	GF_Matrix mx;
	GF_Ray r;

	compositor = tr_state->visual->compositor;

	node_is_over = 0;
	r = tr_state->ray;
	gf_mx_copy(mx, tr_state->model_matrix);
	gf_mx_inverse(&mx);
	gf_mx_apply_ray(&mx, &r);

	/*if we already have a hit point don't check anything below...*/
	if (compositor->hit_square_dist && !compositor->grabbed_sensor && !tr_state->layer3d) {
		GF_Plane p;
		GF_BBox box;
		SFVec3f hit = compositor->hit_world_point;
		gf_mx_apply_vec(&mx, &hit);
		p.normal = r.dir;
		p.d = -1 * gf_vec_dot(p.normal, hit);
		gf_bbox_from_rect(&box, &drawable->path->bbox);

		if (gf_bbox_plane_relation(&box, &p) == GF_BBOX_FRONT) {
			GF_LOG(GF_LOG_DEBUG, GF_LOG_COMPOSE, ("[SVG Picking] bounding box of node %s (DEF %s) below current hit point - skipping\n", gf_node_get_class_name(drawable->node), gf_node_get_name(drawable->node)));
			return;
		}
	}
	node_is_over = 0;
	if (compositor_get_2d_plane_intersection(&r, &local_pt)) {
		node_is_over = svg_drawable_is_over(drawable, local_pt.x, local_pt.y, asp, tr_state, NULL);
	}

	if (!node_is_over) return;

	hit_normal.x = hit_normal.y = 0; hit_normal.z = FIX_ONE;
	text_coords.x = gf_divfix(local_pt.x, drawable->path->bbox.width) + FIX_ONE/2;
	text_coords.y = gf_divfix(local_pt.y, drawable->path->bbox.height) + FIX_ONE/2;

	/*check distance from user and keep the closest hitpoint*/
	world_pt = local_pt;
	gf_mx_apply_vec(&tr_state->model_matrix, &world_pt);

	for (i=0; i<tr_state->num_clip_planes; i++) {
		if (gf_plane_get_distance(&tr_state->clip_planes[i], &world_pt) < 0) {
			GF_LOG(GF_LOG_DEBUG, GF_LOG_COMPOSE, ("[SVG Picking] node %s (def %s) is not in clipper half space\n", gf_node_get_class_name(drawable->node), gf_node_get_name(drawable->node)));
			return;
		}
	}

	gf_vec_diff(vdiff, world_pt, tr_state->ray.orig);
	sqdist = gf_vec_lensq(vdiff);
	if (compositor->hit_square_dist && (compositor->hit_square_dist+FIX_EPSILON<sqdist)) {
		GF_LOG(GF_LOG_DEBUG, GF_LOG_COMPOSE, ("[SVG Picking] node %s (def %s) is farther (%g) than current pick (%g)\n", gf_node_get_class_name(drawable->node), gf_node_get_name(drawable->node), FIX2FLT(sqdist), FIX2FLT(compositor->hit_square_dist)));
		return;
	}

	compositor->hit_square_dist = sqdist;

	/*also stack any VRML sensors present at the current level. If the event is not catched
	by a listener in the SVG tree, the event will be forwarded to the VRML tree*/
	gf_list_reset(compositor->sensors);
	count = gf_list_count(tr_state->vrml_sensors);
	for (i=0; i<count; i++) {
		gf_list_add(compositor->sensors, gf_list_get(tr_state->vrml_sensors, i));
	}

	gf_mx_copy(compositor->hit_world_to_local, tr_state->model_matrix);
	gf_mx_copy(compositor->hit_local_to_world, mx);
	compositor->hit_local_point = local_pt;
	compositor->hit_world_point = world_pt;
	compositor->hit_world_ray = tr_state->ray;
	compositor->hit_normal = hit_normal;
	compositor->hit_texcoords = text_coords;

	svg_clone_use_stack(compositor, tr_state);
	/*not use in SVG patterns*/
	compositor->hit_appear = NULL;
	compositor->hit_node = drawable->node;
	compositor->hit_text = NULL;
	compositor->hit_use_dom_events = 1;

	GF_LOG(GF_LOG_DEBUG, GF_LOG_COMPOSE, ("[SVG Picking] node %s (def %s) is under mouse - hit %g %g %g\n", gf_node_get_class_name(drawable->node), gf_node_get_name(drawable->node),
			FIX2FLT(world_pt.x), FIX2FLT(world_pt.y), FIX2FLT(world_pt.z)));
}
Exemplo n.º 5
0
static Bool OnCylinderSensor(GF_SensorHandler *sh, Bool is_over, Bool is_cancel, GF_Event *ev, GF_Compositor *compositor)
{
	Bool is_mouse = (ev->type<=GF_EVENT_MOUSEWHEEL) ? 1 : 0;
	M_CylinderSensor *cs = (M_CylinderSensor *)sh->sensor;
	CylinderSensorStack *st = (CylinderSensorStack *) gf_node_get_private(sh->sensor);

	if (cs->isActive && (!cs->enabled
	                     || /*mouse*/((ev->type==GF_EVENT_MOUSEUP) && (ev->mouse.button==GF_MOUSE_LEFT))
	                     || /*keyboar*/(!is_mouse && (!is_over|| ((ev->type==GF_EVENT_KEYDOWN) && (ev->key.key_code==GF_KEY_ENTER))))
	                    ) ) {
		if (cs->autoOffset) {
			cs->offset = cs->rotation_changed.q;
			if (!is_cancel) gf_node_event_out(sh->sensor, 5/*"offset"*/);
		}
		cs->isActive = 0;
		if (!is_cancel) gf_node_event_out(sh->sensor, 6/*"isActive"*/);
		sh->grabbed = 0;
		return is_cancel ? 0 : 1;
	}
	else if (is_mouse) {
		if (!cs->isActive && (ev->type==GF_EVENT_MOUSEDOWN) && (ev->mouse.button==GF_MOUSE_LEFT)) {
			GF_Ray r;
			SFVec3f yaxis;
			Fixed acute, reva;
			SFVec3f bearing;

			gf_mx_copy(st->init_matrix, compositor->hit_world_to_local);
			/*get initial angle & check disk mode*/
			r = compositor->hit_world_ray;
			gf_vec_add(r.dir, r.orig, r.dir);
			gf_mx_apply_vec(&compositor->hit_world_to_local, &r.orig);
			gf_mx_apply_vec(&compositor->hit_world_to_local, &r.dir);
			gf_vec_diff(bearing, r.orig, r.dir);
			gf_vec_norm(&bearing);
			yaxis.x = yaxis.z = 0;
			yaxis.y = FIX_ONE;
			acute = gf_vec_dot(bearing, yaxis);
			if (acute < -FIX_ONE) acute = -FIX_ONE;
			else if (acute > FIX_ONE) acute = FIX_ONE;
			acute = gf_acos(acute);
			reva = ABS(GF_PI - acute);
			if (reva<acute) acute = reva;
			st->disk_mode = (acute < cs->diskAngle) ? 1 : 0;

			st->grab_start = compositor->hit_local_point;
			/*cos we're lazy*/
			st->yplane.d = 0;
			st->yplane.normal.x = st->yplane.normal.z = st->yplane.normal.y = 0;
			st->zplane = st->xplane = st->yplane;
			st->xplane.normal.x = FIX_ONE;
			st->yplane.normal.y = FIX_ONE;
			st->zplane.normal.z = FIX_ONE;

			cs->rotation_changed.x = 0;
			cs->rotation_changed.y = FIX_ONE;
			cs->rotation_changed.z = 0;

			cs->isActive = 1;
			gf_node_event_out(sh->sensor, 6/*"isActive"*/);
			sh->grabbed = 1;
			return 1;
		}
		else if (cs->isActive) {
			GF_Ray r;
			Fixed radius, rot;
			SFVec3f dir1, dir2, cx;

			if (is_over) {
				cs->trackPoint_changed = compositor->hit_local_point;
				gf_node_event_out(sh->sensor, 8/*"trackPoint_changed"*/);
			} else {
				GF_Plane project_to;
				r = compositor->hit_world_ray;
				gf_mx_apply_ray(&st->init_matrix, &r);

				/*no intersection, use intersection with "main" fronting plane*/
				if ( ABS(r.dir.z) > ABS(r.dir.y)) {
					if (ABS(r.dir.z) > ABS(r.dir.x)) project_to = st->xplane;
					else project_to = st->yplane;
				} else {
					if (ABS(r.dir.z) > ABS(r.dir.x)) project_to = st->xplane;
					else project_to = st->zplane;
				}
				if (!gf_plane_intersect_line(&project_to, &r.orig, &r.dir, &compositor->hit_local_point)) return 0;
			}

			dir1.x = compositor->hit_local_point.x;
			dir1.y = 0;
			dir1.z = compositor->hit_local_point.z;
			if (st->disk_mode) {
				radius = FIX_ONE;
			} else {
				radius = gf_vec_len(dir1);
			}
			gf_vec_norm(&dir1);
			dir2.x = st->grab_start.x;
			dir2.y = 0;
			dir2.z = st->grab_start.z;
			gf_vec_norm(&dir2);
			cx = gf_vec_cross(dir2, dir1);
			gf_vec_norm(&cx);
			if (gf_vec_len(cx)<FIX_EPSILON) return 0;
			rot = gf_mulfix(radius, gf_acos(gf_vec_dot(dir2, dir1)) );
			if (fabs(cx.y + FIX_ONE) < FIX_EPSILON) rot = -rot;
			if (cs->autoOffset) rot += cs->offset;

			if (cs->minAngle < cs->maxAngle) {
				if (rot < cs->minAngle) rot = cs->minAngle;
				else if (rot > cs->maxAngle) rot = cs->maxAngle;
			}
			cs->rotation_changed.q = rot;
			gf_node_event_out(sh->sensor, 7/*"rotation_changed"*/);
			return 1;
		}
	} else {
		if (!cs->isActive && is_over && (ev->type==GF_EVENT_KEYDOWN) && (ev->key.key_code==GF_KEY_ENTER)) {
			cs->isActive = 1;
			cs->rotation_changed.q = cs->offset;
			cs->rotation_changed.x = cs->rotation_changed.z = 0;
			cs->rotation_changed.y = FIX_ONE;
			gf_node_event_out(sh->sensor, 6/*"isActive"*/);
			return 1;
		}
		else if (cs->isActive && (ev->type==GF_EVENT_KEYDOWN)) {
			SFFloat res;
			Fixed diff = (ev->key.flags & GF_KEY_MOD_SHIFT) ? GF_PI/8 : GF_PI/64;

			res = cs->rotation_changed.q;
			switch (ev->key.key_code) {
			case GF_KEY_LEFT:
				res -= diff;
				break;
			case GF_KEY_RIGHT:
				res += diff;
				break;
			case GF_KEY_HOME:
				res = cs->offset;
				break;
			default:
				return 0;
			}
			/*clip*/
			if (cs->minAngle <= cs->maxAngle) {
				if (res < cs->minAngle) res = cs->minAngle;
				if (res > cs->maxAngle) res = cs->maxAngle;
			}
			cs->rotation_changed.q = res;
			gf_node_event_out(sh->sensor, 7/*"rotation_changed"*/);
			return 1;
		}
	}
	return 0;
}
Exemplo n.º 6
0
static Bool OnPlaneSensor(GF_SensorHandler *sh, Bool is_over, Bool is_cancel, GF_Event *ev, GF_Compositor *compositor)
{
	Bool is_mouse = (ev->type<=GF_EVENT_MOUSEWHEEL) ? 1 : 0;
	M_PlaneSensor *ps = (M_PlaneSensor *)sh->sensor;
	PSStack *stack = (PSStack *) gf_node_get_private(sh->sensor);


	if (ps->isActive &&
	        ( /*mouse*/((ev->type==GF_EVENT_MOUSEUP) && (ev->mouse.button==GF_MOUSE_LEFT))
	                   || /*keyboar*/(!is_mouse && (!is_over|| ((ev->type==GF_EVENT_KEYDOWN) && (ev->key.key_code==GF_KEY_ENTER))) )
	        ) ) {
		if (ps->autoOffset) {
			ps->offset = ps->translation_changed;
			if (!is_cancel) gf_node_event_out(sh->sensor, 4/*"offset"*/);
		}
		ps->isActive = 0;
		if (!is_cancel) gf_node_event_out(sh->sensor, 5/*"isActive"*/);
		sh->grabbed = 0;
		return is_cancel ? 0 : 1;
	}
	/*mouse*/
	else if (is_mouse) {
		if (!ps->isActive && (ev->type==GF_EVENT_MOUSEDOWN) && (ev->mouse.button==GF_MOUSE_LEFT) ) {
			gf_mx_copy(stack->initial_matrix, compositor->hit_local_to_world);
			gf_vec_diff(stack->start_drag, compositor->hit_local_point, ps->offset);
			stack->tracker.normal.x = stack->tracker.normal.y = 0;
			stack->tracker.normal.z = FIX_ONE;
			stack->tracker.d = - gf_vec_dot(stack->start_drag, stack->tracker.normal);
			ps->isActive = 1;
			gf_node_event_out(sh->sensor, 5/*"isActive"*/);
			sh->grabbed = 1;
			return 1;
		}
		else if (ps->isActive) {
			GF_Ray loc_ray;
			SFVec3f res;
			loc_ray = compositor->hit_world_ray;
			gf_mx_apply_ray(&stack->initial_matrix, &loc_ray);
			gf_plane_intersect_line(&stack->tracker, &loc_ray.orig, &loc_ray.dir, &res);
			ps->trackPoint_changed = res;
			gf_node_event_out(sh->sensor, 6/*"trackPoint_changed"*/);

			gf_vec_diff(res, res, stack->start_drag);
			/*clip*/
			if (ps->minPosition.x <= ps->maxPosition.x) {
				if (res.x < ps->minPosition.x) res.x = ps->minPosition.x;
				if (res.x > ps->maxPosition.x) res.x = ps->maxPosition.x;
			}
			if (ps->minPosition.y <= ps->maxPosition.y) {
				if (res.y < ps->minPosition.y) res.y = ps->minPosition.y;
				if (res.y > ps->maxPosition.y) res.y = ps->maxPosition.y;
			}
			ps->translation_changed = res;
			gf_node_event_out(sh->sensor, 7/*"translation_changed"*/);
			return 1;
		}
	} else {
		if (!ps->isActive && is_over && (ev->type==GF_EVENT_KEYDOWN) && (ev->key.key_code==GF_KEY_ENTER)) {
			ps->isActive = 1;
			stack->start_drag = ps->offset;
			gf_node_event_out(sh->sensor, 5/*"isActive"*/);
			return 1;
		}
		else if (ps->isActive && (ev->type==GF_EVENT_KEYDOWN)) {
			SFVec3f res;
			Fixed diff = (ev->key.flags & GF_KEY_MOD_SHIFT) ? 5*FIX_ONE : FIX_ONE;
			if (!gf_sg_use_pixel_metrics(gf_node_get_graph(sh->sensor)))
				diff = gf_divfix(diff, INT2FIX(compositor->vp_width/2));

			res = stack->start_drag;
			switch (ev->key.key_code) {
			case GF_KEY_LEFT:
				res.x -= diff;
				break;
			case GF_KEY_RIGHT:
				res.x += diff;
				break;
			case GF_KEY_UP:
				res.y += diff;
				break;
			case GF_KEY_DOWN:
				res.y -= diff;
				break;
			case GF_KEY_HOME:
				res = ps->offset;
				break;
			default:
				return 0;
			}
			/*clip*/
			if (ps->minPosition.x <= ps->maxPosition.x) {
				if (res.x < ps->minPosition.x) res.x = ps->minPosition.x;
				if (res.x > ps->maxPosition.x) res.x = ps->maxPosition.x;
			}
			if (ps->minPosition.y <= ps->maxPosition.y) {
				if (res.y < ps->minPosition.y) res.y = ps->minPosition.y;
				if (res.y > ps->maxPosition.y) res.y = ps->maxPosition.y;
			}
			stack->start_drag = res;
			ps->translation_changed = res;
			gf_node_event_out(sh->sensor, 7/*"translation_changed"*/);
			return 1;
		}
	}
	return 0;
}
Exemplo n.º 7
0
static Bool OnDiscSensor(GF_SensorHandler *sh, Bool is_over, Bool is_cancel, GF_Event *ev, GF_Compositor *compositor)
{
	Bool is_mouse = (ev->type<=GF_EVENT_MOUSEWHEEL) ? 1 : 0;
	M_DiscSensor *ds = (M_DiscSensor *)sh->sensor;
	DiscSensorStack *stack = (DiscSensorStack *) gf_node_get_private(sh->sensor);

	if (ds->isActive &&
	        (!ds->enabled
	         || /*mouse*/((ev->type==GF_EVENT_MOUSEUP) && (ev->mouse.button==GF_MOUSE_LEFT))
	         || /*keyboar*/(!is_mouse && (!is_over|| ((ev->type==GF_EVENT_KEYDOWN) && (ev->key.key_code==GF_KEY_ENTER))) )
	        ) ) {
		if (ds->autoOffset) {
			ds->offset = ds->rotation_changed;
			/*that's an exposedField*/
			if (!is_cancel) gf_node_event_out(sh->sensor, 4/*"offset"*/);
		}
		ds->isActive = 0;
		if (!is_cancel) gf_node_event_out(sh->sensor, 5/*"isActive"*/);
		sh->grabbed = 0;
		return is_cancel ? 0 : 1;
	} else if (is_mouse) {
		if (!ds->isActive && (ev->type==GF_EVENT_MOUSEDOWN) && (ev->mouse.button==GF_MOUSE_LEFT)) {
			/*store inverse matrix*/
			gf_mx_copy(stack->initial_matrix, compositor->hit_local_to_world);
			stack->start_angle = gf_atan2(compositor->hit_local_point.y, compositor->hit_local_point.x);
			ds->isActive = 1;
			gf_node_event_out(sh->sensor, 5/*"isActive"*/);
			sh->grabbed = 1;
			return 1;
		}
		else if (ds->isActive) {
			GF_Ray loc_ray;
			Fixed rot;
			SFVec3f res;
			loc_ray = compositor->hit_world_ray;
			gf_mx_apply_ray(&stack->initial_matrix, &loc_ray);
			compositor_get_2d_plane_intersection(&loc_ray, &res);

			rot = gf_atan2(res.y, res.x) - stack->start_angle + ds->offset;
			if (ds->minAngle < ds->maxAngle) {
				/*FIXME this doesn't work properly*/
				if (rot < ds->minAngle) rot = ds->minAngle;
				if (rot > ds->maxAngle) rot = ds->maxAngle;
			}
			ds->rotation_changed = rot;
			gf_node_event_out(sh->sensor, 6/*"rotation_changed"*/);
			ds->trackPoint_changed.x = res.x;
			ds->trackPoint_changed.y = res.y;
			gf_node_event_out(sh->sensor, 7/*"trackPoint_changed"*/);
			return 1;
		}
	} else {
		if (!ds->isActive && is_over && (ev->type==GF_EVENT_KEYDOWN) && (ev->key.key_code==GF_KEY_ENTER)) {
			ds->isActive = 1;
			stack->start_angle = ds->offset;
			gf_node_event_out(sh->sensor, 5/*"isActive"*/);
			return 1;
		}
		else if (ds->isActive && (ev->type==GF_EVENT_KEYDOWN)) {
			Fixed res;
			Fixed diff = (ev->key.flags & GF_KEY_MOD_SHIFT) ? GF_PI/8 : GF_PI/64;
			res = stack->start_angle;
			switch (ev->key.key_code) {
			case GF_KEY_LEFT:
			case GF_KEY_UP:
				res += -diff;
				break;
			case GF_KEY_RIGHT:
			case GF_KEY_DOWN:
				res += diff;
				break;
			case GF_KEY_HOME:
				res = ds->offset;
				break;
			default:
				return 0;
			}
			if (ds->minAngle < ds->maxAngle) {
				/*FIXME this doesn't work properly*/
				if (res < ds->minAngle) res = ds->minAngle;
				if (res > ds->maxAngle) res = ds->maxAngle;
			}
			stack->start_angle = res;
			ds->rotation_changed = res;
			gf_node_event_out(sh->sensor, 6/*"rotation_changed"*/);
			return 1;
		}
	}
	return 0;
}
Exemplo n.º 8
0
static Bool OnSphereSensor(GF_SensorHandler *sh, Bool is_over, Bool is_cancel, GF_Event *ev, GF_Compositor *compositor)
{
	Bool is_mouse = (ev->type<=GF_EVENT_MOUSEWHEEL) ? 1 : 0;
	M_SphereSensor *sphere = (M_SphereSensor *)sh->sensor;
	SphereSensorStack *st = (SphereSensorStack *) gf_node_get_private(sh->sensor);


	if (sphere->isActive && (!sphere->enabled
	                         || /*mouse*/((ev->type==GF_EVENT_MOUSEUP) && (ev->mouse.button==GF_MOUSE_LEFT))
	                         || /*keyboar*/(!is_mouse && (!is_over|| ((ev->type==GF_EVENT_KEYDOWN) && (ev->key.key_code==GF_KEY_ENTER))))
	                        ) ) {
		if (sphere->autoOffset) {
			sphere->offset = sphere->rotation_changed;
			if (!is_cancel) gf_node_event_out(sh->sensor, 2/*"offset"*/);
		}
		sphere->isActive = 0;
		if (!is_cancel) gf_node_event_out(sh->sensor, 3/*"isActive"*/);
		sh->grabbed = 0;
		return is_cancel ? 0 : 1;
	}
	else if (is_mouse) {
		if (!sphere->isActive && (ev->type==GF_EVENT_MOUSEDOWN) && (ev->mouse.button==GF_MOUSE_LEFT)) {
			st->center.x = st->center.y = st->center.z = 0;
			gf_mx_apply_vec(&compositor->hit_local_to_world, &st->center);
			st->radius = gf_vec_len(compositor->hit_local_point);
			if (!st->radius) st->radius = FIX_ONE;
			st->grab_vec = gf_vec_scale(compositor->hit_local_point, gf_invfix(st->radius));

			sphere->isActive = 1;
			gf_node_event_out(sh->sensor, 3/*"isActive"*/);
			sh->grabbed = 1;
			return 1;
		}
		else if (sphere->isActive) {
			SFVec3f vec, axis;
			SFVec4f q1, q2;
			SFRotation r;
			Fixed cl;
			if (is_over) {
				sphere->trackPoint_changed = compositor->hit_local_point;
				gf_node_event_out(sh->sensor, 5/*"trackPoint_changed"*/);
			} else {
				GF_Ray r;
				r = compositor->hit_world_ray;
				gf_mx_apply_ray(&compositor->hit_world_to_local, &r);
				if (!gf_ray_hit_sphere(&r, NULL, st->radius, &compositor->hit_local_point)) {
					vec.x = vec.y = vec.z = 0;
					/*doesn't work properly...*/
					compositor->hit_local_point = gf_closest_point_to_line(r.orig, r.dir, vec);
				}
			}

			vec = gf_vec_scale(compositor->hit_local_point, gf_invfix(st->radius));
			axis = gf_vec_cross(st->grab_vec, vec);
			cl = gf_vec_len(axis);

			if (cl < -FIX_ONE) cl = -FIX_ONE;
			else if (cl > FIX_ONE) cl = FIX_ONE;
			r.q = gf_asin(cl);
			if (gf_vec_dot(st->grab_vec, vec) < 0) r.q += GF_PI / 2;

			gf_vec_norm(&axis);
			r.x = axis.x;
			r.y = axis.y;
			r.z = axis.z;
			q1 = gf_quat_from_rotation(r);
			if (sphere->autoOffset) {
				q2 = gf_quat_from_rotation(sphere->offset);
				q1 = gf_quat_multiply(&q1, &q2);
			}
			sphere->rotation_changed = gf_quat_to_rotation(&q1);
			gf_node_event_out(sh->sensor, 4/*"rotation_changed"*/);
			return 1;
		}
	} else {
		if (!sphere->isActive && is_over && (ev->type==GF_EVENT_KEYDOWN) && (ev->key.key_code==GF_KEY_ENTER)) {
			sphere->isActive = 1;
			sphere->rotation_changed = sphere->offset;
			gf_node_event_out(sh->sensor, 3/*"isActive"*/);
			return 1;
		}
		else if (sphere->isActive && (ev->type==GF_EVENT_KEYDOWN)) {
			SFVec4f res, rot;
			Fixed diff = GF_PI/64;

			res = sphere->rotation_changed;
			switch (ev->key.key_code) {
			case GF_KEY_LEFT:
				diff = -diff;
			case GF_KEY_RIGHT:
				rot.x = 0;
				rot.y = FIX_ONE;
				rot.z = 0;
				rot.q = diff;
				res = gf_quat_from_rotation(res);
				rot = gf_quat_from_rotation(rot);
				rot = gf_quat_multiply(&rot, &res);
				res = gf_quat_to_rotation(&rot);
				break;
			case GF_KEY_DOWN:
				diff = -diff;
			case GF_KEY_UP:
				if (ev->key.flags & GF_KEY_MOD_SHIFT) {
					rot.x = 0;
					rot.z = FIX_ONE;
				} else {
					rot.x = FIX_ONE;
					rot.z = 0;
				}
				rot.y = 0;
				rot.q = diff;
				res = gf_quat_from_rotation(res);
				rot = gf_quat_from_rotation(rot);
				rot = gf_quat_multiply(&rot, &res);
				res = gf_quat_to_rotation(&rot);
				break;
			case GF_KEY_HOME:
				res = sphere->offset;
				break;
			default:
				return 0;
			}
			sphere->rotation_changed = res;
			gf_node_event_out(sh->sensor, 4/*"rotation_changed"*/);
			return 1;
		}
	}
	return 0;
}
Exemplo n.º 9
0
static Bool OnPlaneSensor2D(GF_SensorHandler *sh, Bool is_over, Bool is_cancel, GF_Event *ev, GF_Compositor *compositor)
{
	Bool is_mouse = (ev->type<=GF_EVENT_MOUSEWHEEL) ? 1 : 0;
	M_PlaneSensor2D *ps = (M_PlaneSensor2D *)sh->sensor;
	PS2DStack *stack = (PS2DStack *) gf_node_get_private(sh->sensor);


	if (ps->isActive &&
		(!ps->enabled
		|| /*mouse*/((ev->type==GF_EVENT_MOUSEUP) && (ev->mouse.button==GF_MOUSE_LEFT))
		|| /*keyboar*/(!is_mouse && (!is_over|| ((ev->type==GF_EVENT_KEYDOWN) && (ev->key.key_code==GF_KEY_ENTER))) )
	) ) {
		if (ps->autoOffset) {
			ps->offset = ps->translation_changed;
			if (!is_cancel) gf_node_event_out_str(sh->sensor, "offset");
		}

		ps->isActive = 0;
		if (!is_cancel) gf_node_event_out_str(sh->sensor, "isActive");
		sh->grabbed = 0;
		return is_cancel ? 0 : 1;
	} else if (is_mouse) {
		if (!ps->isActive && (ev->type==GF_EVENT_MOUSEDOWN) && (ev->mouse.button==GF_MOUSE_LEFT)) {
			gf_mx_copy(stack->initial_matrix, compositor->hit_local_to_world);
			stack->start_drag.x = compositor->hit_local_point.x - ps->offset.x;
			stack->start_drag.y = compositor->hit_local_point.y - ps->offset.y;
			ps->isActive = 1;
			gf_node_event_out_str(sh->sensor, "isActive");
			sh->grabbed = 1;
			/*fallthrough to fire mouse coords*/
			//return 1;
		}
		if (ps->isActive) {
			SFVec3f res;
			GF_Ray loc_ray;
			loc_ray = compositor->hit_world_ray;
			gf_mx_apply_ray(&stack->initial_matrix, &loc_ray);

			compositor_get_2d_plane_intersection(&loc_ray, &res);

			ps->trackPoint_changed.x = res.x;
			ps->trackPoint_changed.y = res.y;
			gf_node_event_out_str(sh->sensor, "trackPoint_changed");

			res.x -= stack->start_drag.x;
			res.y -= stack->start_drag.y;
			/*clip*/
			if (ps->minPosition.x <= ps->maxPosition.x) {
				if (res.x < ps->minPosition.x) res.x = ps->minPosition.x;
				if (res.x > ps->maxPosition.x) res.x = ps->maxPosition.x;
			}
			if (ps->minPosition.y <= ps->maxPosition.y) {
				if (res.y < ps->minPosition.y)
					res.y = ps->minPosition.y;
				if (res.y > ps->maxPosition.y)
					res.y = ps->maxPosition.y;
			}
			ps->translation_changed.x = res.x;
			ps->translation_changed.y = res.y;
			gf_node_event_out_str(sh->sensor, "translation_changed");
			return 1;
		}
	} else {
		if (!ps->isActive && is_over && (ev->type==GF_EVENT_KEYDOWN) && (ev->key.key_code==GF_KEY_ENTER)) {
			ps->isActive = 1;
			stack->start_drag = ps->offset;
			gf_node_event_out_str(sh->sensor, "isActive");
			return 1;
		}
		else if (ps->isActive && (ev->type==GF_EVENT_KEYDOWN)) {
			SFVec2f res;
			Fixed diff = (ev->key.flags & GF_KEY_MOD_SHIFT) ? 5*FIX_ONE : FIX_ONE;
			if (!gf_sg_use_pixel_metrics(gf_node_get_graph(sh->sensor)))
				diff = gf_divfix(diff, compositor->vp_width/2);
			res = stack->start_drag;
			switch (ev->key.key_code) {
			case GF_KEY_LEFT: res.x += -diff; break;
			case GF_KEY_RIGHT: res.x += diff; break;
			case GF_KEY_UP: res.y += diff; break;
			case GF_KEY_DOWN: res.y += -diff; break;
			case GF_KEY_HOME: res = ps->offset; break;
			default:
				return 0;
			}
			/*clip*/
			if (ps->minPosition.x <= ps->maxPosition.x) {
				if (res.x < ps->minPosition.x) res.x = ps->minPosition.x;
				if (res.x > ps->maxPosition.x) res.x = ps->maxPosition.x;
			}
			if (ps->minPosition.y <= ps->maxPosition.y) {
				if (res.y < ps->minPosition.y) res.y = ps->minPosition.y;
				if (res.y > ps->maxPosition.y) res.y = ps->maxPosition.y;
			}
			ps->translation_changed = res;
			gf_node_event_out_str(sh->sensor, "translation_changed");
			ps->trackPoint_changed.x = res.x + stack->start_drag.x;
			ps->trackPoint_changed.y = res.y + stack->start_drag.y;
			gf_node_event_out_str(sh->sensor, "trackPoint_changed");
			stack->start_drag = res;
			return 1;
		}
	}
	return 0;
}
Exemplo n.º 10
0
static void OnSphereSensor(SensorHandler *sh, Bool is_over, GF_Event *ev, RayHitInfo *hit_info)
{
	M_SphereSensor *sphere = (M_SphereSensor *)sh->owner;
	SphereSensorStack *st = (SphereSensorStack *) gf_node_get_private(sh->owner);

	if (sphere->isActive && (!sphere->enabled || ((ev->type==GF_EVENT_MOUSEUP) && (ev->mouse.button==GF_MOUSE_LEFT)) ) ) {
		if (sphere->autoOffset) {
			sphere->offset = sphere->rotation_changed;
			gf_node_event_out_str(sh->owner, "offset");
		}
		sphere->isActive = 0;
		gf_node_event_out_str(sh->owner, "isActive");
		R3D_SetGrabbed(st->compositor, 0);
	}
	else if (!sphere->isActive && (ev->type==GF_EVENT_MOUSEDOWN) && (ev->mouse.button==GF_MOUSE_LEFT)) {
		st->center.x = st->center.y = st->center.z = 0;
		gf_mx_apply_vec(&hit_info->local_to_world, &st->center);
		st->radius = gf_vec_len(hit_info->local_point);
		if (!st->radius) st->radius = FIX_ONE;
		st->grab_vec = gf_vec_scale(hit_info->local_point, gf_invfix(st->radius));

		sphere->isActive = 1;
		gf_node_event_out_str(sh->owner, "isActive");
		R3D_SetGrabbed(st->compositor, 1);
	}
	else if (sphere->isActive) {
		SFVec3f vec, axis;
		SFVec4f q1, q2;
		SFRotation r;
		Fixed cl;
		if (is_over) {
			sphere->trackPoint_changed = hit_info->local_point;
			gf_node_event_out_str(sh->owner, "trackPoint_changed");
		} else {
			GF_Ray r;
			r = hit_info->world_ray;
			gf_mx_apply_ray(&hit_info->world_to_local, &r);
			if (!gf_ray_hit_sphere(&r, NULL, st->radius, &hit_info->local_point)) {
				vec.x = vec.y = vec.z = 0;
				/*doesn't work properly...*/
				hit_info->local_point = gf_closest_point_to_line(r.orig, r.dir, vec);
			}
		}

		vec = gf_vec_scale(hit_info->local_point, gf_invfix(st->radius));
		axis = gf_vec_cross(st->grab_vec, vec);
		cl = gf_vec_len(axis);

		if (cl < -FIX_ONE) cl = -FIX_ONE;
		else if (cl > FIX_ONE) cl = FIX_ONE;
		r.q = gf_asin(cl);
		if (gf_vec_dot(st->grab_vec, vec) < 0) r.q += GF_PI / 2;

		gf_vec_norm(&axis);
		r.x = axis.x; r.y = axis.y; r.z = axis.z;
		q1 = gf_quat_from_rotation(r);
		if (sphere->autoOffset) {
			q2 = gf_quat_from_rotation(sphere->offset);
			q1 = gf_quat_multiply(&q1, &q2);
		}
		sphere->rotation_changed = gf_quat_to_rotation(&q1);
		gf_node_event_out_str(sh->owner, "rotation_changed");
	}
}
Exemplo n.º 11
0
static void OnCylinderSensor(SensorHandler *sh, Bool is_over, GF_Event *ev, RayHitInfo *hit_info)
{
	M_CylinderSensor *cs = (M_CylinderSensor *)sh->owner;
	CylinderSensorStack *st = (CylinderSensorStack *) gf_node_get_private(sh->owner);

	if (cs->isActive && (!cs->enabled || ((ev->type==GF_EVENT_MOUSEUP) && (ev->mouse.button==GF_MOUSE_LEFT))) ) {
		if (cs->autoOffset) {
			cs->offset = cs->rotation_changed.q;
			gf_node_event_out_str(sh->owner, "offset");
		}
		cs->isActive = 0;
		gf_node_event_out_str(sh->owner, "isActive");
		R3D_SetGrabbed(st->compositor, 0);
	}
	else if (!cs->isActive && (ev->type==GF_EVENT_MOUSEDOWN) && (ev->mouse.button==GF_MOUSE_LEFT)) {
		GF_Ray r;
		SFVec3f yaxis;
		Fixed acute, reva;
		SFVec3f bearing;

		gf_mx_copy(st->init_matrix, hit_info->world_to_local);
		/*get initial angle & check disk mode*/
		r = hit_info->world_ray;
		gf_vec_add(r.dir, r.orig, r.dir);
		gf_mx_apply_vec(&hit_info->world_to_local, &r.orig);
		gf_mx_apply_vec(&hit_info->world_to_local, &r.dir);
		gf_vec_diff(bearing, r.orig, r.dir);
		gf_vec_norm(&bearing);
		yaxis.x = yaxis.z = 0;
		yaxis.y = FIX_ONE;
		acute = gf_vec_dot(bearing, yaxis);
		if (acute < -FIX_ONE) acute = -FIX_ONE; 
		else if (acute > FIX_ONE) acute = FIX_ONE;
		acute = gf_acos(acute);
		reva = ABS(GF_PI - acute);
		if (reva<acute) acute = reva;
		st->disk_mode = (acute < cs->diskAngle) ? 1 : 0;

		st->grab_start = hit_info->local_point;
		/*cos we're lazy*/
		st->yplane.d = 0; st->yplane.normal.x = st->yplane.normal.z = st->yplane.normal.y = 0;
		st->zplane = st->xplane = st->yplane;
		st->xplane.normal.x = FIX_ONE;
		st->yplane.normal.y = FIX_ONE;
		st->zplane.normal.z = FIX_ONE;

		cs->rotation_changed.x = 0;
		cs->rotation_changed.y = FIX_ONE;
		cs->rotation_changed.z = 0;

		cs->isActive = 1;
		gf_node_event_out_str(sh->owner, "isActive");
		R3D_SetGrabbed(st->compositor, 1);
	}
	else if (cs->isActive) {
		GF_Ray r;
		Fixed radius, rot;
		SFVec3f dir1, dir2, cx;

		if (is_over) {
			cs->trackPoint_changed = hit_info->local_point;
			gf_node_event_out_str(sh->owner, "trackPoint_changed");
		} else {
			GF_Plane project_to;
			r = hit_info->world_ray;
			gf_mx_apply_ray(&st->init_matrix, &r);

			/*no intersection, use intersection with "main" fronting plane*/
			if ( ABS(r.dir.z) > ABS(r.dir.y)) {
				if (ABS(r.dir.x) > ABS(r.dir.x)) project_to = st->xplane;
				else project_to = st->zplane;
			} else project_to = st->yplane;
			if (!gf_plane_intersect_line(&project_to, &r.orig, &r.dir, &hit_info->local_point)) return;
		}

  		dir1.x = hit_info->local_point.x; dir1.y = 0; dir1.z = hit_info->local_point.z;
		if (st->disk_mode) {
			radius = FIX_ONE;
		} else {
			radius = gf_vec_len(dir1);
		}
		gf_vec_norm(&dir1);
       	dir2.x = st->grab_start.x; dir2.y = 0; dir2.z = st->grab_start.z;
		gf_vec_norm(&dir2);
		cx = gf_vec_cross(dir2, dir1);
		gf_vec_norm(&cx);
		if (gf_vec_len(cx)<FIX_EPSILON) return;
		rot = gf_mulfix(radius, gf_acos(gf_vec_dot(dir2, dir1)) );
		if (fabs(cx.y + FIX_ONE) < FIX_EPSILON) rot = -rot;
		if (cs->autoOffset) rot += cs->offset;

		if (cs->minAngle < cs->maxAngle) {
			if (rot < cs->minAngle) rot = cs->minAngle;
			else if (rot > cs->maxAngle) rot = cs->maxAngle;
		}
		cs->rotation_changed.q = rot;
		gf_node_event_out_str(sh->owner, "rotation_changed");
	}
}