godot/servers/visual/portals/portal_renderer.cpp

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/*************************************************************************/
/* portal_renderer.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2021 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2021 Godot Engine contributors (cf. AUTHORS.md). */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/*************************************************************************/
#include "portal_renderer.h"
#include "portal_pvs_builder.h"
#include "servers/visual/visual_server_globals.h"
#include "servers/visual/visual_server_scene.h"
OcclusionHandle PortalRenderer::instance_moving_create(VSInstance *p_instance, RID p_instance_rid, bool p_global, AABB p_aabb) {
uint32_t pool_id = 0;
Moving *moving = _moving_pool.request(pool_id);
moving->global = p_global;
moving->pool_id = pool_id;
moving->instance = p_instance;
moving->room_id = -1;
#ifdef PORTAL_RENDERER_STORE_MOVING_RIDS
moving->instance_rid = p_instance_rid;
#endif
// add to the appropriate list
if (p_global) {
moving->list_id = _moving_list_global.size();
_moving_list_global.push_back(pool_id);
} else {
// do we need a roaming master list? not sure yet
moving->list_id = _moving_list_roaming.size();
_moving_list_roaming.push_back(pool_id);
}
OcclusionHandle handle = pool_id + 1;
instance_moving_update(handle, p_aabb);
return handle;
}
void PortalRenderer::instance_moving_update(OcclusionHandle p_handle, const AABB &p_aabb, bool p_force_reinsert) {
// we can ignore these, they are statics / dynamics, and don't need updating
// .. these should have been filtered out before calling the visual server...
DEV_ASSERT(!_occlusion_handle_is_in_room(p_handle));
p_handle--;
Moving &moving = _moving_pool[p_handle];
moving.exact_aabb = p_aabb;
// globals (e.g. interface elements) need their aabb updated irrespective of whether the system is loaded
if (!_loaded || moving.global) {
return;
}
// quick reject for most roaming cases
if (!p_force_reinsert && moving.expanded_aabb.encloses(p_aabb)) {
return;
}
// using an expanded aabb allows us to make 'no op' moves
// where the new aabb is within the expanded
moving.expanded_aabb = p_aabb.grow(_roaming_expansion_margin);
// if we got to here, it is roaming (moving between rooms)
// remove from current rooms
_moving_remove_from_rooms(p_handle);
// add to new rooms
Vector3 center = p_aabb.position + (p_aabb.size * 0.5);
int new_room = find_room_within(center, moving.room_id);
moving.room_id = new_room;
if (new_room != -1) {
_bitfield_rooms.blank();
sprawl_roaming(p_handle, moving, new_room, true);
}
}
void PortalRenderer::_rghost_remove_from_rooms(uint32_t p_pool_id) {
RGhost &moving = _rghost_pool[p_pool_id];
// if we have unloaded the rooms and we try this, it will crash
if (_loaded) {
for (int n = 0; n < moving._rooms.size(); n++) {
VSRoom &room = get_room(moving._rooms[n]);
room.remove_rghost(p_pool_id);
}
}
// moving is now in no rooms
moving._rooms.clear();
}
void PortalRenderer::_moving_remove_from_rooms(uint32_t p_moving_pool_id) {
Moving &moving = _moving_pool[p_moving_pool_id];
// if we have unloaded the rooms and we try this, it will crash
if (_loaded) {
for (int n = 0; n < moving._rooms.size(); n++) {
VSRoom &room = get_room(moving._rooms[n]);
room.remove_roamer(p_moving_pool_id);
}
}
// moving is now in no rooms
moving._rooms.clear();
}
void PortalRenderer::_debug_print_global_list() {
_log("globals:");
for (int n = 0; n < _moving_list_global.size(); n++) {
uint32_t id = _moving_list_global[n];
const Moving &moving = _moving_pool[id];
_log("\t" + _addr_to_string(&moving));
}
}
void PortalRenderer::_log(String p_string, int p_priority) {
// change this for more debug output ..
// not selectable at runtime yet.
if (p_priority >= 1) {
print_line(p_string);
} else {
print_verbose(p_string);
}
}
void PortalRenderer::instance_moving_destroy(OcclusionHandle p_handle) {
// deleting an instance that is assigned to a room (STATIC or DYNAMIC)
// is special, it must set the PortalRenderer into unloaded state, because
// there will now be a dangling reference to the instance that was destroyed.
// The alternative is to remove the reference, but this is not currently supported
// (it would mean rejigging rooms etc)
if (_occlusion_handle_is_in_room(p_handle)) {
_ensure_unloaded();
return;
}
p_handle--;
Moving *moving = &_moving_pool[p_handle];
// if a roamer, remove from any current rooms
if (!moving->global) {
_moving_remove_from_rooms(p_handle);
}
// remove from list (and keep in sync)
uint32_t list_id = moving->list_id;
if (moving->global) {
_moving_list_global.remove_unordered(list_id);
// keep the replacement moving in sync with the correct list Id
if (list_id < (uint32_t)_moving_list_global.size()) {
uint32_t replacement_id = _moving_list_global[list_id];
Moving &replacement = _moving_pool[replacement_id];
replacement.list_id = list_id;
}
} else {
_moving_list_roaming.remove_unordered(list_id);
// keep the replacement moving in sync with the correct list Id
if (list_id < (uint32_t)_moving_list_roaming.size()) {
uint32_t replacement_id = _moving_list_roaming[list_id];
Moving &replacement = _moving_pool[replacement_id];
replacement.list_id = list_id;
}
}
moving->destroy();
// can now free the moving
_moving_pool.free(p_handle);
}
PortalHandle PortalRenderer::portal_create() {
uint32_t pool_id = 0;
VSPortal *portal = _portal_pool.request(pool_id);
// explicit constructor
portal->create();
portal->_portal_id = _portal_pool_ids.size();
_portal_pool_ids.push_back(pool_id);
// plus one based handles, 0 is unset
pool_id++;
return pool_id;
}
void PortalRenderer::portal_destroy(PortalHandle p_portal) {
ERR_FAIL_COND(!p_portal);
_ensure_unloaded();
// plus one based
p_portal--;
// remove from list of valid portals
VSPortal &portal = _portal_pool[p_portal];
int portal_id = portal._portal_id;
// we need to replace the last element in the list
_portal_pool_ids.remove_unordered(portal_id);
// and reset the id of the portal that was the replacement
if (portal_id < _portal_pool_ids.size()) {
int replacement_pool_id = _portal_pool_ids[portal_id];
VSPortal &replacement = _portal_pool[replacement_pool_id];
replacement._portal_id = portal_id;
}
// explicitly run destructor
_portal_pool[p_portal].destroy();
// return to the pool
_portal_pool.free(p_portal);
}
void PortalRenderer::portal_set_geometry(PortalHandle p_portal, const Vector<Vector3> &p_points, real_t p_margin) {
ERR_FAIL_COND(!p_portal);
p_portal--; // plus 1 based
VSPortal &portal = _portal_pool[p_portal];
portal._pts_world = p_points;
portal._margin = p_margin;
if (portal._pts_world.size() < 3) {
WARN_PRINT("Portal must have at least 3 vertices");
return;
}
// create plane from points
// Allow averaging in case of wonky portals.
// first calculate average normal
Vector3 average_normal = Vector3(0, 0, 0);
for (int t = 2; t < (int)portal._pts_world.size(); t++) {
Plane p = Plane(portal._pts_world[0], portal._pts_world[t - 1], portal._pts_world[t]);
average_normal += p.normal;
}
// average normal
average_normal /= portal._pts_world.size() - 2;
// detect user error
ERR_FAIL_COND_MSG(average_normal.length() < 0.1, "Nonsense portal detected, normals should be consistent");
if (average_normal.length() < 0.7) {
WARN_PRINT("Wonky portal detected, you may see culling errors");
}
// calc average point
Vector3 average_pt = Vector3(0, 0, 0);
for (unsigned int n = 0; n < portal._pts_world.size(); n++) {
average_pt += portal._pts_world[n];
}
average_pt /= portal._pts_world.size();
// use the average point and normal to derive the plane
portal._plane = Plane(average_pt, average_normal);
// aabb
AABB &bb = portal._aabb;
bb.position = p_points[0];
bb.size = Vector3(0, 0, 0);
for (int n = 1; n < p_points.size(); n++) {
bb.expand_to(p_points[n]);
}
}
void PortalRenderer::portal_link(PortalHandle p_portal, RoomHandle p_room_from, RoomHandle p_room_to, bool p_two_way) {
ERR_FAIL_COND(!p_portal);
p_portal--; // plus 1 based
VSPortal &portal = _portal_pool[p_portal];
ERR_FAIL_COND(!p_room_from);
p_room_from--;
VSRoom &room_from = _room_pool[p_room_from];
ERR_FAIL_COND(!p_room_to);
p_room_to--;
VSRoom &room_to = _room_pool[p_room_to];
portal._linkedroom_ID[0] = room_from._room_ID;
portal._linkedroom_ID[1] = room_to._room_ID;
// is the portal internal? internal portals are treated differently
portal._internal = room_from._priority > room_to._priority;
// if it is internal, mark the outer room as containing an internal room.
// this is used for rooms lookup.
if (portal._internal) {
room_to._contains_internal_rooms = true;
}
// _log("portal_link from room " + itos(room_from._room_ID) + " to room " + itos(room_to._room_ID));
room_from._portal_ids.push_back(portal._portal_id);
// one way portals simply aren't added to the destination room, so they don't get seen through
if (p_two_way) {
room_to._portal_ids.push_back(portal._portal_id);
}
}
void PortalRenderer::portal_set_active(PortalHandle p_portal, bool p_active) {
ERR_FAIL_COND(!p_portal);
p_portal--; // plus 1 based
VSPortal &portal = _portal_pool[p_portal];
portal._active = p_active;
}
RoomGroupHandle PortalRenderer::roomgroup_create() {
uint32_t pool_id = 0;
VSRoomGroup *rg = _roomgroup_pool.request(pool_id);
// explicit constructor
rg->create();
// plus one based handles, 0 is unset
pool_id++;
return pool_id;
}
void PortalRenderer::roomgroup_prepare(RoomGroupHandle p_roomgroup, ObjectID p_roomgroup_object_id) {
// plus one based
p_roomgroup--;
VSRoomGroup &rg = _roomgroup_pool[p_roomgroup];
rg._godot_instance_ID = p_roomgroup_object_id;
}
void PortalRenderer::roomgroup_destroy(RoomGroupHandle p_roomgroup) {
ERR_FAIL_COND(!p_roomgroup);
_ensure_unloaded();
// plus one based
p_roomgroup--;
VSRoomGroup &rg = _roomgroup_pool[p_roomgroup];
// explicitly run destructor
rg.destroy();
// return to the pool
_roomgroup_pool.free(p_roomgroup);
}
void PortalRenderer::roomgroup_add_room(RoomGroupHandle p_roomgroup, RoomHandle p_room) {
// plus one based
p_roomgroup--;
VSRoomGroup &rg = _roomgroup_pool[p_roomgroup];
p_room--;
// add to room group
rg._room_ids.push_back(p_room);
// add the room group to the room
VSRoom &room = _room_pool[p_room];
room._roomgroup_ids.push_back(p_roomgroup);
}
// Cull Instances
RGhostHandle PortalRenderer::rghost_create(ObjectID p_object_id, const AABB &p_aabb) {
uint32_t pool_id = 0;
RGhost *moving = _rghost_pool.request(pool_id);
moving->pool_id = pool_id;
moving->object_id = p_object_id;
moving->room_id = -1;
RGhostHandle handle = pool_id + 1;
rghost_update(handle, p_aabb);
return handle;
}
void PortalRenderer::rghost_update(RGhostHandle p_handle, const AABB &p_aabb, bool p_force_reinsert) {
if (!_loaded) {
return;
}
p_handle--;
RGhost &moving = _rghost_pool[p_handle];
moving.exact_aabb = p_aabb;
// quick reject for most roaming cases
if (!p_force_reinsert && moving.expanded_aabb.encloses(p_aabb)) {
return;
}
// using an expanded aabb allows us to make 'no op' moves
// where the new aabb is within the expanded
moving.expanded_aabb = p_aabb.grow(_roaming_expansion_margin);
// if we got to here, it is roaming (moving between rooms)
// remove from current rooms
_rghost_remove_from_rooms(p_handle);
// add to new rooms
Vector3 center = p_aabb.position + (p_aabb.size * 0.5);
int new_room = find_room_within(center, moving.room_id);
moving.room_id = new_room;
if (new_room != -1) {
_bitfield_rooms.blank();
sprawl_roaming(p_handle, moving, new_room, false);
}
}
void PortalRenderer::rghost_destroy(RGhostHandle p_handle) {
p_handle--;
RGhost *moving = &_rghost_pool[p_handle];
// if a roamer, remove from any current rooms
_rghost_remove_from_rooms(p_handle);
moving->destroy();
// can now free the moving
_rghost_pool.free(p_handle);
}
// Rooms
RoomHandle PortalRenderer::room_create() {
uint32_t pool_id = 0;
VSRoom *room = _room_pool.request(pool_id);
// explicit constructor
room->create();
// keep our own internal list of rooms
room->_room_ID = _room_pool_ids.size();
_room_pool_ids.push_back(pool_id);
// plus one based handles, 0 is unset
pool_id++;
return pool_id;
}
void PortalRenderer::room_destroy(RoomHandle p_room) {
ERR_FAIL_COND(!p_room);
_ensure_unloaded();
// plus one based
p_room--;
// remove from list of valid rooms
VSRoom &room = _room_pool[p_room];
int room_id = room._room_ID;
// we need to replace the last element in the list
_room_pool_ids.remove_unordered(room_id);
// and reset the id of the portal that was the replacement
if (room_id < _room_pool_ids.size()) {
int replacement_pool_id = _room_pool_ids[room_id];
VSRoom &replacement = _room_pool[replacement_pool_id];
replacement._room_ID = room_id;
}
// explicitly run destructor
_room_pool[p_room].destroy();
// return to the pool
_room_pool.free(p_room);
}
OcclusionHandle PortalRenderer::room_add_ghost(RoomHandle p_room, ObjectID p_object_id, const AABB &p_aabb) {
ERR_FAIL_COND_V(!p_room, 0);
p_room--; // plus one based
VSStaticGhost ghost;
ghost.object_id = p_object_id;
_static_ghosts.push_back(ghost);
// sprawl immediately
// precreate a useful bitfield of rooms for use in sprawling
if ((int)_bitfield_rooms.get_num_bits() != get_num_rooms()) {
_bitfield_rooms.create(get_num_rooms());
}
// only can do if rooms exist
if (get_num_rooms()) {
// the last one was just added
int ghost_id = _static_ghosts.size() - 1;
// create a bitfield to indicate which rooms have been
// visited already, to prevent visiting rooms multiple times
_bitfield_rooms.blank();
if (sprawl_static_ghost(ghost_id, p_aabb, p_room)) {
_log("\t\tSPRAWLED");
}
}
return OCCLUSION_HANDLE_ROOM_BIT;
}
OcclusionHandle PortalRenderer::room_add_instance(RoomHandle p_room, RID p_instance, const AABB &p_aabb, bool p_dynamic, const Vector<Vector3> &p_object_pts) {
ERR_FAIL_COND_V(!p_room, 0);
p_room--; // plus one based
VSRoom &room = _room_pool[p_room];
VSStatic stat;
stat.instance = p_instance;
stat.source_room_id = room._room_ID;
stat.dynamic = p_dynamic;
stat.aabb = p_aabb;
_statics.push_back(stat);
// sprawl immediately
// precreate a useful bitfield of rooms for use in sprawling
if ((int)_bitfield_rooms.get_num_bits() != get_num_rooms()) {
_bitfield_rooms.create(get_num_rooms());
}
// only can do if rooms exist
if (get_num_rooms()) {
// the last one was just added
int static_id = _statics.size() - 1;
// pop last static
const VSStatic &st = _statics[static_id];
// create a bitfield to indicate which rooms have been
// visited already, to prevent visiting rooms multiple times
_bitfield_rooms.blank();
if (p_object_pts.size()) {
if (sprawl_static_geometry(static_id, st, st.source_room_id, p_object_pts)) {
_log("\t\tSPRAWLED");
}
} else {
if (sprawl_static(static_id, st, st.source_room_id)) {
_log("\t\tSPRAWLED");
}
}
}
return OCCLUSION_HANDLE_ROOM_BIT;
}
void PortalRenderer::room_prepare(RoomHandle p_room, int32_t p_priority) {
ERR_FAIL_COND(!p_room);
p_room--; // plus one based
VSRoom &room = _room_pool[p_room];
room._priority = p_priority;
}
void PortalRenderer::room_set_bound(RoomHandle p_room, ObjectID p_room_object_id, const Vector<Plane> &p_convex, const AABB &p_aabb, const Vector<Vector3> &p_verts) {
ERR_FAIL_COND(!p_room);
p_room--; // plus one based
VSRoom &room = _room_pool[p_room];
room._planes = p_convex;
room._verts = p_verts;
room._aabb = p_aabb;
room._godot_instance_ID = p_room_object_id;
}
void PortalRenderer::_add_portal_to_convex_hull(LocalVector<Plane, int32_t> &p_planes, const Plane &p) {
for (int n = 0; n < p_planes.size(); n++) {
Plane &o = p_planes[n];
// this is a fudge factor for how close the portal can be to an existing plane
// to be to be considered the same ...
// to prevent needless extra checks.
// the epsilons should probably be more exact here than for the convex hull simplification, as it is
// fairly crucial that the portal planes are reasonably accurate for determining the hull.
// and because the portal plane is more important, we will REPLACE the existing similar plane
// with the portal plane.
const real_t d = 0.03; // 0.08f
if (Math::abs(p.d - o.d) > d) {
continue;
}
real_t dot = p.normal.dot(o.normal);
if (dot < 0.99) // 0.98f
{
continue;
}
// match!
// replace the existing plane
o = p;
return;
}
// there is no existing plane that is similar, create a new one especially for the portal
p_planes.push_back(p);
}
void PortalRenderer::_rooms_add_portals_to_convex_hulls() {
for (int n = 0; n < get_num_rooms(); n++) {
VSRoom &room = get_room(n);
for (int p = 0; p < room._portal_ids.size(); p++) {
const VSPortal &portal = get_portal(room._portal_ids[p]);
// everything depends on whether the portal is incoming or outgoing.
// if incoming we reverse the logic.
int outgoing = 1;
int room_a_id = portal._linkedroom_ID[0];
if (room_a_id != n) {
outgoing = 0;
DEV_ASSERT(portal._linkedroom_ID[1] == n);
}
// do not add internal portals to the convex hull of outer rooms!
if (!outgoing && portal._internal) {
continue;
}
// add the portal plane
Plane portal_plane = portal._plane;
if (!outgoing) {
portal_plane = -portal_plane;
}
// add if sufficiently different from existing convex hull planes
_add_portal_to_convex_hull(room._planes, portal_plane);
}
}
}
void PortalRenderer::rooms_finalize(bool p_generate_pvs, bool p_cull_using_pvs, bool p_use_secondary_pvs, bool p_use_signals, String p_pvs_filename) {
_gameplay_monitor.set_params(p_use_secondary_pvs, p_use_signals);
// portals should also bound the rooms, the room geometry may extend past the portal
_rooms_add_portals_to_convex_hulls();
// the trace results can never have more hits than the number of static objects
_trace_results.create(_statics.size());
// precreate a useful bitfield of rooms for use in sprawling, if not created already
// (may not be necessary but just in case, rooms with no statics etc)
_bitfield_rooms.create(_room_pool_ids.size());
// the rooms looksup is a pre-calced grid structure for faster lookup of the nearest room
// from position
_rooms_lookup_bsp.create(*this);
// calculate the roaming expansion margin based on the average room size
Vector3 total_size = Vector3(0, 0, 0);
for (int n = 0; n < get_num_rooms(); n++) {
total_size += get_room(n)._aabb.size;
}
if (get_num_rooms()) {
total_size /= get_num_rooms();
AABB temp;
temp.size = total_size;
// longest axis of average room * fudge factor
_roaming_expansion_margin = temp.get_longest_axis_size() * 0.08;
}
// calculate PVS
if (p_generate_pvs) {
PVSBuilder pvs;
pvs.calculate_pvs(*this, p_pvs_filename);
_cull_using_pvs = p_cull_using_pvs; // hard code to on for test
} else {
_cull_using_pvs = false;
}
_loaded = true;
// all the roaming objects need to be sprawled into the rooms
// (they may have been created before the rooms)
_load_finalize_roaming();
// allow deleting any intermediate data
for (int n = 0; n < get_num_rooms(); n++) {
get_room(n).cleanup_after_conversion();
}
// this should probably have some thread protection, but I doubt it matters
// as this will worst case give wrong result for a frame
Engine::get_singleton()->set_portals_active(true);
print_line("Room conversion complete. " + itos(_room_pool_ids.size()) + " rooms, " + itos(_portal_pool_ids.size()) + " portals.");
}
bool PortalRenderer::sprawl_static_geometry(int p_static_id, const VSStatic &p_static, int p_room_id, const Vector<Vector3> &p_object_pts) {
// set, and if room already done, ignore
if (!_bitfield_rooms.check_and_set(p_room_id))
return false;
VSRoom &room = get_room(p_room_id);
room._static_ids.push_back(p_static_id);
bool sprawled = false;
// go through portals
for (int p = 0; p < room._portal_ids.size(); p++) {
const VSPortal &portal = get_portal(room._portal_ids[p]);
int room_to_id = portal.geometry_crosses_portal(p_room_id, p_static.aabb, p_object_pts);
if (room_to_id != -1) {
// _log(String(Variant(p_static.aabb)) + " crosses portal");
sprawl_static_geometry(p_static_id, p_static, room_to_id, p_object_pts);
sprawled = true;
}
}
return sprawled;
}
bool PortalRenderer::sprawl_static_ghost(int p_ghost_id, const AABB &p_aabb, int p_room_id) {
// set, and if room already done, ignore
if (!_bitfield_rooms.check_and_set(p_room_id)) {
return false;
}
VSRoom &room = get_room(p_room_id);
room._static_ghost_ids.push_back(p_ghost_id);
bool sprawled = false;
// go through portals
for (int p = 0; p < room._portal_ids.size(); p++) {
const VSPortal &portal = get_portal(room._portal_ids[p]);
int room_to_id = portal.crosses_portal(p_room_id, p_aabb, true);
if (room_to_id != -1) {
// _log(String(Variant(p_aabb)) + " crosses portal");
sprawl_static_ghost(p_ghost_id, p_aabb, room_to_id);
sprawled = true;
}
}
return sprawled;
}
bool PortalRenderer::sprawl_static(int p_static_id, const VSStatic &p_static, int p_room_id) {
// set, and if room already done, ignore
if (!_bitfield_rooms.check_and_set(p_room_id)) {
return false;
}
VSRoom &room = get_room(p_room_id);
room._static_ids.push_back(p_static_id);
bool sprawled = false;
// go through portals
for (int p = 0; p < room._portal_ids.size(); p++) {
const VSPortal &portal = get_portal(room._portal_ids[p]);
int room_to_id = portal.crosses_portal(p_room_id, p_static.aabb, true);
if (room_to_id != -1) {
// _log(String(Variant(p_static.aabb)) + " crosses portal");
sprawl_static(p_static_id, p_static, room_to_id);
sprawled = true;
}
}
return sprawled;
}
void PortalRenderer::_load_finalize_roaming() {
for (int n = 0; n < _moving_list_roaming.size(); n++) {
uint32_t pool_id = _moving_list_roaming[n];
Moving &moving = _moving_pool[pool_id];
const AABB &aabb = moving.exact_aabb;
OcclusionHandle handle = pool_id + 1;
instance_moving_update(handle, aabb, true);
}
for (int n = 0; n < _rghost_pool.active_size(); n++) {
RGhost &moving = _rghost_pool.get_active(n);
const AABB &aabb = moving.exact_aabb;
rghost_update(_rghost_pool.get_active_id(n) + 1, aabb, true);
}
}
void PortalRenderer::sprawl_roaming(uint32_t p_mover_pool_id, MovingBase &r_moving, int p_room_id, bool p_moving_or_ghost) {
// set, and if room already done, ignore
if (!_bitfield_rooms.check_and_set(p_room_id)) {
return;
}
// add to the room
VSRoom &room = get_room(p_room_id);
if (p_moving_or_ghost) {
room.add_roamer(p_mover_pool_id);
} else {
room.add_rghost(p_mover_pool_id);
}
// add the room to the mover
r_moving._rooms.push_back(p_room_id);
// go through portals
for (int p = 0; p < room._portal_ids.size(); p++) {
const VSPortal &portal = get_portal(room._portal_ids[p]);
int room_to_id = portal.crosses_portal(p_room_id, r_moving.expanded_aabb);
if (room_to_id != -1) {
// _log(String(Variant(p_static.aabb)) + " crosses portal");
sprawl_roaming(p_mover_pool_id, r_moving, room_to_id, p_moving_or_ghost);
}
}
}
// This gets called when you delete an instance the the room system depends on
void PortalRenderer::_ensure_unloaded() {
if (_loaded) {
_loaded = false;
_log("Portal system unloaded.", 1);
// this should probably have some thread protection, but I doubt it matters
// as this will worst case give wrong result for a frame
Engine::get_singleton()->set_portals_active(false);
}
}
void PortalRenderer::rooms_and_portals_clear() {
_loaded = false;
_statics.clear();
_static_ghosts.clear();
// the rooms and portals should remove their id when they delete themselves
// from the scene tree by calling room_destroy and portal_destroy ...
// therefore there should be no need to clear these here
// _room_pool_ids.clear();
// _portal_pool_ids.clear();
_rooms_lookup_bsp.clear();
// clear the portals out of each existing room
for (int n = 0; n < get_num_rooms(); n++) {
VSRoom &room = get_room(n);
room.rooms_and_portals_clear();
}
for (int n = 0; n < get_num_portals(); n++) {
VSPortal &portal = get_portal(n);
portal.rooms_and_portals_clear();
}
// when the rooms_and_portals_clear message is sent,
// we want to remove all references to old rooms in the moving
// objects, to prevent dangling references.
for (int n = 0; n < get_num_moving_globals(); n++) {
Moving &moving = get_pool_moving(_moving_list_global[n]);
moving.rooms_and_portals_clear();
}
for (int n = 0; n < _moving_list_roaming.size(); n++) {
Moving &moving = get_pool_moving(_moving_list_roaming[n]);
moving.rooms_and_portals_clear();
}
for (int n = 0; n < _rghost_pool.active_size(); n++) {
RGhost &moving = _rghost_pool.get_active(n);
moving.rooms_and_portals_clear();
}
_pvs.clear();
}
void PortalRenderer::rooms_override_camera(bool p_override, const Vector3 &p_point, const Vector<Plane> *p_convex) {
_override_camera = p_override;
_override_camera_pos = p_point;
if (p_convex) {
_override_camera_planes = *p_convex;
}
}
void PortalRenderer::rooms_update_gameplay_monitor(const Vector<Vector3> &p_camera_positions) {
// is the pvs loaded?
if (!_loaded || !_pvs.is_loaded()) {
if (!_pvs.is_loaded()) {
WARN_PRINT_ONCE("RoomManager PVS is required for this functionality");
}
return;
}
int *source_rooms = (int *)alloca(sizeof(int) * p_camera_positions.size());
int num_source_rooms = 0;
for (int n = 0; n < p_camera_positions.size(); n++) {
int source_room_id = find_room_within(p_camera_positions[n]);
if (source_room_id == -1) {
continue;
}
source_rooms[num_source_rooms++] = source_room_id;
}
_gameplay_monitor.update_gameplay(*this, source_rooms, num_source_rooms);
}
int PortalRenderer::cull_convex_implementation(const Vector3 &p_point, const Vector<Plane> &p_convex, VSInstance **p_result_array, int p_result_max, uint32_t p_mask, int32_t &r_previous_room_id_hint) {
// start room
int start_room_id = find_room_within(p_point, r_previous_room_id_hint);
// return the previous room hint
r_previous_room_id_hint = start_room_id;
if (start_room_id == -1) {
return -1;
}
// planes must be in CameraMatrix order
DEV_ASSERT(p_convex.size() == 6);
LocalVector<Plane> planes;
planes = p_convex;
_trace_results.clear();
if (!_debug_sprawl) {
_tracer.trace(*this, p_point, planes, start_room_id, _trace_results); //, near_and_far_planes);
} else {
_tracer.trace_debug_sprawl(*this, p_point, start_room_id, _trace_results);
}
int num_results = _trace_results.visible_static_ids.size();
int out_count = 0;
for (int n = 0; n < num_results; n++) {
uint32_t static_id = _trace_results.visible_static_ids[n];
RID static_rid = _statics[static_id].instance;
VSInstance *instance = VSG::scene->_instance_get_from_rid(static_rid);
if (VSG::scene->_instance_cull_check(instance, p_mask)) {
p_result_array[out_count++] = instance;
if (out_count >= p_result_max) {
break;
}
}
}
// results could be full up already
if (out_count >= p_result_max) {
return out_count;
}
// add the roaming results
// cap to the maximum results
int num_roam_hits = _trace_results.visible_roamer_pool_ids.size();
// translate
for (int n = 0; n < num_roam_hits; n++) {
const Moving &moving = get_pool_moving(_trace_results.visible_roamer_pool_ids[n]);
if (VSG::scene->_instance_cull_check(moving.instance, p_mask)) {
p_result_array[out_count++] = moving.instance;
if (out_count >= p_result_max) {
break;
}
}
}
// results could be full up already
if (out_count >= p_result_max) {
return out_count;
}
out_count = _tracer.trace_globals(planes, p_result_array, out_count, p_result_max, p_mask, _override_camera);
return out_count;
}
String PortalRenderer::_rid_to_string(RID p_rid) {
return _addr_to_string(p_rid.get_data());
}
String PortalRenderer::_addr_to_string(const void *p_addr) {
return String::num_uint64((uint64_t)p_addr, 16);
}