virtualx-engine/scene/gui/graph_edit.cpp
Rémi Verschelde fd6453c45e Revert "Remove NOTIFICATION_ENTER_TREE when paired with NOTIFICATION_THEME_CHANGED"
This reverts commit 4b817a565c.

Fixes .
Fixes .

This caused several regressions (, ,
https://github.com/godotengine/godot/issues/64997#issuecomment-1229970605)
which point at a flaw in the current logic:

- `Control::NOTIFICATION_ENTER_TREE` triggers a *deferred* notification with
  `NOTIFCATION_THEME_CHANGED` as introduced in .
- Some classes use their `THEME_CHANGED` to cache theme items in
  member variables (e.g. `style_normal`, etc.), and use those member
  variables in `ENTER_TREE`, `READY`, `DRAW`, etc. Since the `THEME_CHANGE`
  notification is now deferred, they end up accessing invalid state and this
  can lead to not applying theme properly (e.g. for EditorHelp) or crashing
  (e.g. for EditorLog or CodeEdit).

So we need to go back to the drawing board and see if `THEME_CHANGED` can be
called earlier so that the previous logic still works?

Or can we refactor all engine code to make sure that:
- `ENTER_TREE` and similar do not depend on theme properties cached in member
  variables.
- Or `THEME_CHANGE` does trigger a general UI update to make sure that any
  bad theme handling in `ENTER_TREE` and co. gets fixed when `THEME_CHANGE`
  does arrive for the first time. But that means having a temporary invalid
  (and possibly still crashing) state, and doing some computations twice
  which might be heavy (e.g. `EditorHelp::_update_doc()`).
2022-08-29 11:11:29 +02:00

2568 lines
84 KiB
C++

/*************************************************************************/
/* graph_edit.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2022 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2022 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 "graph_edit.h"
#include "core/input/input.h"
#include "core/math/math_funcs.h"
#include "core/os/keyboard.h"
#include "scene/gui/box_container.h"
#include "scene/gui/button.h"
#include "scene/gui/view_panner.h"
constexpr int MINIMAP_OFFSET = 12;
constexpr int MINIMAP_PADDING = 5;
bool GraphEditFilter::has_point(const Point2 &p_point) const {
return ge->_filter_input(p_point);
}
GraphEditFilter::GraphEditFilter(GraphEdit *p_edit) {
ge = p_edit;
}
GraphEditMinimap::GraphEditMinimap(GraphEdit *p_edit) {
ge = p_edit;
graph_proportions = Vector2(1, 1);
graph_padding = Vector2(0, 0);
camera_position = Vector2(100, 50);
camera_size = Vector2(200, 200);
minimap_padding = Vector2(MINIMAP_PADDING, MINIMAP_PADDING);
minimap_offset = minimap_padding + _convert_from_graph_position(graph_padding);
is_pressing = false;
is_resizing = false;
}
void GraphEditMinimap::update_minimap() {
Vector2 graph_offset = _get_graph_offset();
Vector2 graph_size = _get_graph_size();
camera_position = ge->get_scroll_ofs() - graph_offset;
camera_size = ge->get_size();
Vector2 render_size = _get_render_size();
float target_ratio = render_size.x / render_size.y;
float graph_ratio = graph_size.x / graph_size.y;
graph_proportions = graph_size;
graph_padding = Vector2(0, 0);
if (graph_ratio > target_ratio) {
graph_proportions.x = graph_size.x;
graph_proportions.y = graph_size.x / target_ratio;
graph_padding.y = Math::abs(graph_size.y - graph_proportions.y) / 2;
} else {
graph_proportions.x = graph_size.y * target_ratio;
graph_proportions.y = graph_size.y;
graph_padding.x = Math::abs(graph_size.x - graph_proportions.x) / 2;
}
// This centers minimap inside the minimap rectangle.
minimap_offset = minimap_padding + _convert_from_graph_position(graph_padding);
}
Rect2 GraphEditMinimap::get_camera_rect() {
Vector2 camera_center = _convert_from_graph_position(camera_position + camera_size / 2) + minimap_offset;
Vector2 camera_viewport = _convert_from_graph_position(camera_size);
Vector2 camera_position = (camera_center - camera_viewport / 2);
return Rect2(camera_position, camera_viewport);
}
Vector2 GraphEditMinimap::_get_render_size() {
if (!is_inside_tree()) {
return Vector2(0, 0);
}
return get_size() - 2 * minimap_padding;
}
Vector2 GraphEditMinimap::_get_graph_offset() {
return Vector2(ge->h_scroll->get_min(), ge->v_scroll->get_min());
}
Vector2 GraphEditMinimap::_get_graph_size() {
Vector2 graph_size = Vector2(ge->h_scroll->get_max(), ge->v_scroll->get_max()) - Vector2(ge->h_scroll->get_min(), ge->v_scroll->get_min());
if (graph_size.x == 0) {
graph_size.x = 1;
}
if (graph_size.y == 0) {
graph_size.y = 1;
}
return graph_size;
}
Vector2 GraphEditMinimap::_convert_from_graph_position(const Vector2 &p_position) {
Vector2 map_position = Vector2(0, 0);
Vector2 render_size = _get_render_size();
map_position.x = p_position.x * render_size.x / graph_proportions.x;
map_position.y = p_position.y * render_size.y / graph_proportions.y;
return map_position;
}
Vector2 GraphEditMinimap::_convert_to_graph_position(const Vector2 &p_position) {
Vector2 graph_position = Vector2(0, 0);
Vector2 render_size = _get_render_size();
graph_position.x = p_position.x * graph_proportions.x / render_size.x;
graph_position.y = p_position.y * graph_proportions.y / render_size.y;
return graph_position;
}
void GraphEditMinimap::gui_input(const Ref<InputEvent> &p_ev) {
ERR_FAIL_COND(p_ev.is_null());
if (!ge->is_minimap_enabled()) {
return;
}
Ref<InputEventMouseButton> mb = p_ev;
Ref<InputEventMouseMotion> mm = p_ev;
if (mb.is_valid() && mb->get_button_index() == MouseButton::LEFT) {
if (mb->is_pressed()) {
is_pressing = true;
Ref<Texture2D> resizer = get_theme_icon(SNAME("resizer"));
Rect2 resizer_hitbox = Rect2(Point2(), resizer->get_size());
if (resizer_hitbox.has_point(mb->get_position())) {
is_resizing = true;
} else {
Vector2 click_position = _convert_to_graph_position(mb->get_position() - minimap_padding) - graph_padding;
_adjust_graph_scroll(click_position);
}
} else {
is_pressing = false;
is_resizing = false;
}
accept_event();
} else if (mm.is_valid() && is_pressing) {
if (is_resizing) {
// Prevent setting minimap wider than GraphEdit
Vector2 new_minimap_size;
new_minimap_size.x = MIN(get_size().x - mm->get_relative().x, ge->get_size().x - 2.0 * minimap_padding.x);
new_minimap_size.y = MIN(get_size().y - mm->get_relative().y, ge->get_size().y - 2.0 * minimap_padding.y);
ge->set_minimap_size(new_minimap_size);
update();
} else {
Vector2 click_position = _convert_to_graph_position(mm->get_position() - minimap_padding) - graph_padding;
_adjust_graph_scroll(click_position);
}
accept_event();
}
}
void GraphEditMinimap::_adjust_graph_scroll(const Vector2 &p_offset) {
Vector2 graph_offset = _get_graph_offset();
ge->set_scroll_ofs(p_offset + graph_offset - camera_size / 2);
}
Error GraphEdit::connect_node(const StringName &p_from, int p_from_port, const StringName &p_to, int p_to_port) {
if (is_node_connected(p_from, p_from_port, p_to, p_to_port)) {
return OK;
}
Connection c;
c.from = p_from;
c.from_port = p_from_port;
c.to = p_to;
c.to_port = p_to_port;
c.activity = 0;
connections.push_back(c);
top_layer->update();
minimap->update();
update();
connections_layer->update();
return OK;
}
bool GraphEdit::is_node_connected(const StringName &p_from, int p_from_port, const StringName &p_to, int p_to_port) {
for (const Connection &E : connections) {
if (E.from == p_from && E.from_port == p_from_port && E.to == p_to && E.to_port == p_to_port) {
return true;
}
}
return false;
}
void GraphEdit::disconnect_node(const StringName &p_from, int p_from_port, const StringName &p_to, int p_to_port) {
for (const List<Connection>::Element *E = connections.front(); E; E = E->next()) {
if (E->get().from == p_from && E->get().from_port == p_from_port && E->get().to == p_to && E->get().to_port == p_to_port) {
connections.erase(E);
top_layer->update();
minimap->update();
update();
connections_layer->update();
return;
}
}
}
void GraphEdit::get_connection_list(List<Connection> *r_connections) const {
*r_connections = connections;
}
void GraphEdit::set_scroll_ofs(const Vector2 &p_ofs) {
setting_scroll_ofs = true;
h_scroll->set_value(p_ofs.x);
v_scroll->set_value(p_ofs.y);
_update_scroll();
setting_scroll_ofs = false;
}
Vector2 GraphEdit::get_scroll_ofs() const {
return Vector2(h_scroll->get_value(), v_scroll->get_value());
}
void GraphEdit::_scroll_moved(double) {
if (!awaiting_scroll_offset_update) {
call_deferred(SNAME("_update_scroll_offset"));
awaiting_scroll_offset_update = true;
}
top_layer->update();
minimap->update();
update();
if (!setting_scroll_ofs) { //in godot, signals on change value are avoided as a convention
emit_signal(SNAME("scroll_offset_changed"), get_scroll_ofs());
}
}
void GraphEdit::_update_scroll_offset() {
set_block_minimum_size_adjust(true);
for (int i = 0; i < get_child_count(); i++) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
Point2 pos = gn->get_position_offset() * zoom;
pos -= Point2(h_scroll->get_value(), v_scroll->get_value());
gn->set_position(pos);
if (gn->get_scale() != Vector2(zoom, zoom)) {
gn->set_scale(Vector2(zoom, zoom));
}
}
connections_layer->set_position(-Point2(h_scroll->get_value(), v_scroll->get_value()));
set_block_minimum_size_adjust(false);
awaiting_scroll_offset_update = false;
}
void GraphEdit::_update_scroll() {
if (updating) {
return;
}
updating = true;
set_block_minimum_size_adjust(true);
Rect2 screen;
for (int i = 0; i < get_child_count(); i++) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
Rect2 r;
r.position = gn->get_position_offset() * zoom;
r.size = gn->get_size() * zoom;
screen = screen.merge(r);
}
screen.position -= get_size();
screen.size += get_size() * 2.0;
h_scroll->set_min(screen.position.x);
h_scroll->set_max(screen.position.x + screen.size.x);
h_scroll->set_page(get_size().x);
if (h_scroll->get_max() - h_scroll->get_min() <= h_scroll->get_page()) {
h_scroll->hide();
} else {
h_scroll->show();
}
v_scroll->set_min(screen.position.y);
v_scroll->set_max(screen.position.y + screen.size.y);
v_scroll->set_page(get_size().y);
if (v_scroll->get_max() - v_scroll->get_min() <= v_scroll->get_page()) {
v_scroll->hide();
} else {
v_scroll->show();
}
Size2 hmin = h_scroll->get_combined_minimum_size();
Size2 vmin = v_scroll->get_combined_minimum_size();
// Avoid scrollbar overlapping.
h_scroll->set_anchor_and_offset(SIDE_RIGHT, ANCHOR_END, v_scroll->is_visible() ? -vmin.width : 0);
v_scroll->set_anchor_and_offset(SIDE_BOTTOM, ANCHOR_END, h_scroll->is_visible() ? -hmin.height : 0);
set_block_minimum_size_adjust(false);
if (!awaiting_scroll_offset_update) {
call_deferred(SNAME("_update_scroll_offset"));
awaiting_scroll_offset_update = true;
}
updating = false;
}
void GraphEdit::_graph_node_raised(Node *p_gn) {
GraphNode *gn = Object::cast_to<GraphNode>(p_gn);
ERR_FAIL_COND(!gn);
if (gn->is_comment()) {
move_child(gn, 0);
} else {
gn->raise();
}
emit_signal(SNAME("node_selected"), p_gn);
}
void GraphEdit::_graph_node_moved(Node *p_gn) {
GraphNode *gn = Object::cast_to<GraphNode>(p_gn);
ERR_FAIL_COND(!gn);
top_layer->update();
minimap->update();
update();
connections_layer->update();
}
void GraphEdit::_graph_node_slot_updated(int p_index, Node *p_gn) {
GraphNode *gn = Object::cast_to<GraphNode>(p_gn);
ERR_FAIL_COND(!gn);
top_layer->update();
minimap->update();
update();
connections_layer->update();
}
void GraphEdit::add_child_notify(Node *p_child) {
Control::add_child_notify(p_child);
top_layer->call_deferred(SNAME("raise")); // Top layer always on top!
GraphNode *gn = Object::cast_to<GraphNode>(p_child);
if (gn) {
gn->set_scale(Vector2(zoom, zoom));
gn->connect("position_offset_changed", callable_mp(this, &GraphEdit::_graph_node_moved).bind(gn));
gn->connect("slot_updated", callable_mp(this, &GraphEdit::_graph_node_slot_updated).bind(gn));
gn->connect("raise_request", callable_mp(this, &GraphEdit::_graph_node_raised).bind(gn));
gn->connect("item_rect_changed", callable_mp((CanvasItem *)connections_layer, &CanvasItem::update));
gn->connect("item_rect_changed", callable_mp((CanvasItem *)minimap, &GraphEditMinimap::update));
_graph_node_moved(gn);
gn->set_mouse_filter(MOUSE_FILTER_PASS);
}
}
void GraphEdit::remove_child_notify(Node *p_child) {
Control::remove_child_notify(p_child);
if (p_child == top_layer) {
top_layer = nullptr;
minimap = nullptr;
} else if (p_child == connections_layer) {
connections_layer = nullptr;
}
if (top_layer != nullptr && is_inside_tree()) {
top_layer->call_deferred(SNAME("raise")); // Top layer always on top!
}
GraphNode *gn = Object::cast_to<GraphNode>(p_child);
if (gn) {
gn->disconnect("position_offset_changed", callable_mp(this, &GraphEdit::_graph_node_moved));
gn->disconnect("slot_updated", callable_mp(this, &GraphEdit::_graph_node_slot_updated));
gn->disconnect("raise_request", callable_mp(this, &GraphEdit::_graph_node_raised));
// In case of the whole GraphEdit being destroyed these references can already be freed.
if (connections_layer != nullptr && connections_layer->is_inside_tree()) {
gn->disconnect("item_rect_changed", callable_mp((CanvasItem *)connections_layer, &CanvasItem::update));
}
if (minimap != nullptr && minimap->is_inside_tree()) {
gn->disconnect("item_rect_changed", callable_mp((CanvasItem *)minimap, &GraphEditMinimap::update));
}
}
}
void GraphEdit::_notification(int p_what) {
switch (p_what) {
case NOTIFICATION_ENTER_TREE:
case NOTIFICATION_THEME_CHANGED: {
port_hotzone_inner_extent = get_theme_constant("port_hotzone_inner_extent");
port_hotzone_outer_extent = get_theme_constant("port_hotzone_outer_extent");
zoom_minus->set_icon(get_theme_icon(SNAME("minus")));
zoom_reset->set_icon(get_theme_icon(SNAME("reset")));
zoom_plus->set_icon(get_theme_icon(SNAME("more")));
snap_button->set_icon(get_theme_icon(SNAME("snap")));
minimap_button->set_icon(get_theme_icon(SNAME("minimap")));
layout_button->set_icon(get_theme_icon(SNAME("layout")));
zoom_label->set_custom_minimum_size(Size2(48, 0) * get_theme_default_base_scale());
} break;
case NOTIFICATION_READY: {
Size2 hmin = h_scroll->get_combined_minimum_size();
Size2 vmin = v_scroll->get_combined_minimum_size();
h_scroll->set_anchor_and_offset(SIDE_LEFT, ANCHOR_BEGIN, 0);
h_scroll->set_anchor_and_offset(SIDE_RIGHT, ANCHOR_END, 0);
h_scroll->set_anchor_and_offset(SIDE_TOP, ANCHOR_END, -hmin.height);
h_scroll->set_anchor_and_offset(SIDE_BOTTOM, ANCHOR_END, 0);
v_scroll->set_anchor_and_offset(SIDE_LEFT, ANCHOR_END, -vmin.width);
v_scroll->set_anchor_and_offset(SIDE_RIGHT, ANCHOR_END, 0);
v_scroll->set_anchor_and_offset(SIDE_TOP, ANCHOR_BEGIN, 0);
v_scroll->set_anchor_and_offset(SIDE_BOTTOM, ANCHOR_END, 0);
} break;
case NOTIFICATION_DRAW: {
draw_style_box(get_theme_stylebox(SNAME("bg")), Rect2(Point2(), get_size()));
if (is_using_snap()) {
// Draw grid.
int snap = get_snap();
Vector2 offset = get_scroll_ofs() / zoom;
Size2 size = get_size() / zoom;
Point2i from = (offset / float(snap)).floor();
Point2i len = (size / float(snap)).floor() + Vector2(1, 1);
Color grid_minor = get_theme_color(SNAME("grid_minor"));
Color grid_major = get_theme_color(SNAME("grid_major"));
for (int i = from.x; i < from.x + len.x; i++) {
Color color;
if (ABS(i) % 10 == 0) {
color = grid_major;
} else {
color = grid_minor;
}
float base_ofs = i * snap * zoom - offset.x * zoom;
draw_line(Vector2(base_ofs, 0), Vector2(base_ofs, get_size().height), color);
}
for (int i = from.y; i < from.y + len.y; i++) {
Color color;
if (ABS(i) % 10 == 0) {
color = grid_major;
} else {
color = grid_minor;
}
float base_ofs = i * snap * zoom - offset.y * zoom;
draw_line(Vector2(0, base_ofs), Vector2(get_size().width, base_ofs), color);
}
}
} break;
case NOTIFICATION_RESIZED: {
_update_scroll();
top_layer->update();
minimap->update();
} break;
}
}
void GraphEdit::_update_comment_enclosed_nodes_list(GraphNode *p_node, HashMap<StringName, Vector<GraphNode *>> &p_comment_enclosed_nodes) {
Rect2 comment_node_rect = p_node->get_rect();
comment_node_rect.size *= zoom;
Vector<GraphNode *> enclosed_nodes;
for (int i = 0; i < get_child_count(); i++) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn || gn->is_selected()) {
continue;
}
Rect2 node_rect = gn->get_rect();
node_rect.size *= zoom;
bool included = comment_node_rect.encloses(node_rect);
if (included) {
enclosed_nodes.push_back(gn);
}
}
p_comment_enclosed_nodes.insert(p_node->get_name(), enclosed_nodes);
}
void GraphEdit::_set_drag_comment_enclosed_nodes(GraphNode *p_node, HashMap<StringName, Vector<GraphNode *>> &p_comment_enclosed_nodes, bool p_drag) {
for (int i = 0; i < p_comment_enclosed_nodes[p_node->get_name()].size(); i++) {
p_comment_enclosed_nodes[p_node->get_name()][i]->set_drag(p_drag);
}
}
void GraphEdit::_set_position_of_comment_enclosed_nodes(GraphNode *p_node, HashMap<StringName, Vector<GraphNode *>> &p_comment_enclosed_nodes, Vector2 p_drag_accum) {
for (int i = 0; i < p_comment_enclosed_nodes[p_node->get_name()].size(); i++) {
Vector2 pos = (p_comment_enclosed_nodes[p_node->get_name()][i]->get_drag_from() * zoom + drag_accum) / zoom;
if (is_using_snap() ^ Input::get_singleton()->is_key_pressed(Key::CTRL)) {
const int snap = get_snap();
pos = pos.snapped(Vector2(snap, snap));
}
p_comment_enclosed_nodes[p_node->get_name()][i]->set_position_offset(pos);
}
}
bool GraphEdit::_filter_input(const Point2 &p_point) {
Ref<Texture2D> port_icon = get_theme_icon(SNAME("port"), SNAME("GraphNode"));
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
for (int j = 0; j < gn->get_connection_input_count(); j++) {
Vector2i port_size = Vector2i(port_icon->get_width(), port_icon->get_height());
port_size.height = MAX(port_size.height, gn->get_connection_input_height(j));
if (is_in_input_hotzone(gn, j, p_point / zoom, port_size)) {
return true;
}
}
for (int j = 0; j < gn->get_connection_output_count(); j++) {
Vector2i port_size = Vector2i(port_icon->get_width(), port_icon->get_height());
port_size.height = MAX(port_size.height, gn->get_connection_output_height(j));
if (is_in_output_hotzone(gn, j, p_point / zoom, port_size)) {
return true;
}
}
}
return false;
}
void GraphEdit::_top_layer_input(const Ref<InputEvent> &p_ev) {
Ref<InputEventMouseButton> mb = p_ev;
if (mb.is_valid() && mb->get_button_index() == MouseButton::LEFT && mb->is_pressed()) {
Ref<Texture2D> port_icon = get_theme_icon(SNAME("port"), SNAME("GraphNode"));
connecting_valid = false;
click_pos = mb->get_position() / zoom;
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
for (int j = 0; j < gn->get_connection_output_count(); j++) {
Vector2 pos = gn->get_connection_output_position(j) + gn->get_position();
Vector2i port_size = Vector2i(port_icon->get_width(), port_icon->get_height());
port_size.height = MAX(port_size.height, gn->get_connection_output_height(j));
if (is_in_output_hotzone(gn, j, click_pos, port_size)) {
if (valid_left_disconnect_types.has(gn->get_connection_output_type(j))) {
//check disconnect
for (const Connection &E : connections) {
if (E.from == gn->get_name() && E.from_port == j) {
Node *to = get_node(String(E.to));
if (Object::cast_to<GraphNode>(to)) {
connecting_from = E.to;
connecting_index = E.to_port;
connecting_out = false;
connecting_type = Object::cast_to<GraphNode>(to)->get_connection_input_type(E.to_port);
connecting_color = Object::cast_to<GraphNode>(to)->get_connection_input_color(E.to_port);
connecting_target = false;
connecting_to = pos;
if (connecting_type >= 0) {
just_disconnected = true;
emit_signal(SNAME("disconnection_request"), E.from, E.from_port, E.to, E.to_port);
to = get_node(String(connecting_from)); //maybe it was erased
if (Object::cast_to<GraphNode>(to)) {
connecting = true;
emit_signal(SNAME("connection_drag_started"), connecting_from, connecting_index, false);
}
}
return;
}
}
}
}
connecting_from = gn->get_name();
connecting_index = j;
connecting_out = true;
connecting_type = gn->get_connection_output_type(j);
connecting_color = gn->get_connection_output_color(j);
connecting_target = false;
connecting_to = pos;
if (connecting_type >= 0) {
connecting = true;
just_disconnected = false;
emit_signal(SNAME("connection_drag_started"), connecting_from, connecting_index, true);
}
return;
}
}
for (int j = 0; j < gn->get_connection_input_count(); j++) {
Vector2 pos = gn->get_connection_input_position(j) + gn->get_position();
Vector2i port_size = Vector2i(port_icon->get_width(), port_icon->get_height());
port_size.height = MAX(port_size.height, gn->get_connection_input_height(j));
if (is_in_input_hotzone(gn, j, click_pos, port_size)) {
if (right_disconnects || valid_right_disconnect_types.has(gn->get_connection_input_type(j))) {
//check disconnect
for (const Connection &E : connections) {
if (E.to == gn->get_name() && E.to_port == j) {
Node *fr = get_node(String(E.from));
if (Object::cast_to<GraphNode>(fr)) {
connecting_from = E.from;
connecting_index = E.from_port;
connecting_out = true;
connecting_type = Object::cast_to<GraphNode>(fr)->get_connection_output_type(E.from_port);
connecting_color = Object::cast_to<GraphNode>(fr)->get_connection_output_color(E.from_port);
connecting_target = false;
connecting_to = pos;
just_disconnected = true;
if (connecting_type >= 0) {
emit_signal(SNAME("disconnection_request"), E.from, E.from_port, E.to, E.to_port);
fr = get_node(String(connecting_from)); //maybe it was erased
if (Object::cast_to<GraphNode>(fr)) {
connecting = true;
emit_signal(SNAME("connection_drag_started"), connecting_from, connecting_index, true);
}
}
return;
}
}
}
}
connecting_from = gn->get_name();
connecting_index = j;
connecting_out = false;
connecting_type = gn->get_connection_input_type(j);
connecting_color = gn->get_connection_input_color(j);
connecting_target = false;
connecting_to = pos;
if (connecting_type >= 0) {
connecting = true;
just_disconnected = false;
emit_signal(SNAME("connection_drag_started"), connecting_from, connecting_index, false);
}
return;
}
}
}
}
Ref<InputEventMouseMotion> mm = p_ev;
if (mm.is_valid() && connecting) {
connecting_to = mm->get_position();
connecting_target = false;
top_layer->update();
minimap->update();
connecting_valid = just_disconnected || click_pos.distance_to(connecting_to / zoom) > 20.0;
if (connecting_valid) {
Vector2 mpos = mm->get_position() / zoom;
for (int i = get_child_count() - 1; i >= 0; i--) {
Ref<Texture2D> port_icon = get_theme_icon(SNAME("port"), SNAME("GraphNode"));
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
if (!connecting_out) {
for (int j = 0; j < gn->get_connection_output_count(); j++) {
Vector2 pos = gn->get_connection_output_position(j) + gn->get_position();
Vector2i port_size = Vector2i(port_icon->get_width(), port_icon->get_height());
port_size.height = MAX(port_size.height, gn->get_connection_output_height(j));
int type = gn->get_connection_output_type(j);
if ((type == connecting_type || valid_connection_types.has(ConnType(connecting_type, type))) && is_in_output_hotzone(gn, j, mpos, port_size)) {
if (!is_node_hover_valid(gn->get_name(), j, connecting_from, connecting_index)) {
continue;
}
connecting_target = true;
connecting_to = pos;
connecting_target_to = gn->get_name();
connecting_target_index = j;
return;
}
}
} else {
for (int j = 0; j < gn->get_connection_input_count(); j++) {
Vector2 pos = gn->get_connection_input_position(j) + gn->get_position();
Vector2i port_size = Vector2i(port_icon->get_width(), port_icon->get_height());
port_size.height = MAX(port_size.height, gn->get_connection_input_height(j));
int type = gn->get_connection_input_type(j);
if ((type == connecting_type || valid_connection_types.has(ConnType(connecting_type, type))) && is_in_input_hotzone(gn, j, mpos, port_size)) {
if (!is_node_hover_valid(connecting_from, connecting_index, gn->get_name(), j)) {
continue;
}
connecting_target = true;
connecting_to = pos;
connecting_target_to = gn->get_name();
connecting_target_index = j;
return;
}
}
}
}
}
}
if (mb.is_valid() && mb->get_button_index() == MouseButton::LEFT && !mb->is_pressed()) {
if (connecting_valid) {
if (connecting && connecting_target) {
String from = connecting_from;
int from_slot = connecting_index;
String to = connecting_target_to;
int to_slot = connecting_target_index;
if (!connecting_out) {
SWAP(from, to);
SWAP(from_slot, to_slot);
}
emit_signal(SNAME("connection_request"), from, from_slot, to, to_slot);
} else if (!just_disconnected) {
String from = connecting_from;
int from_slot = connecting_index;
Vector2 ofs = mb->get_position();
if (!connecting_out) {
emit_signal(SNAME("connection_from_empty"), from, from_slot, ofs);
} else {
emit_signal(SNAME("connection_to_empty"), from, from_slot, ofs);
}
}
}
if (connecting) {
force_connection_drag_end();
}
}
}
bool GraphEdit::_check_clickable_control(Control *p_control, const Vector2 &mpos, const Vector2 &p_offset) {
if (p_control->is_set_as_top_level() || !p_control->is_visible() || !p_control->is_inside_tree()) {
return false;
}
Rect2 control_rect = p_control->get_rect();
control_rect.size *= zoom;
control_rect.position *= zoom;
control_rect.position += p_offset;
if (!control_rect.has_point(mpos) || p_control->get_mouse_filter() == MOUSE_FILTER_IGNORE) {
// Test children.
for (int i = 0; i < p_control->get_child_count(); i++) {
Control *child_rect = Object::cast_to<Control>(p_control->get_child(i));
if (!child_rect) {
continue;
}
if (_check_clickable_control(child_rect, mpos, control_rect.position)) {
return true;
}
}
return false;
} else {
return true;
}
}
bool GraphEdit::is_in_input_hotzone(GraphNode *p_graph_node, int p_slot_index, const Vector2 &p_mouse_pos, const Vector2i &p_port_size) {
bool success;
if (GDVIRTUAL_CALL(_is_in_input_hotzone, p_graph_node, p_slot_index, p_mouse_pos, success)) {
return success;
} else {
Vector2 pos = p_graph_node->get_connection_input_position(p_slot_index) + p_graph_node->get_position();
return is_in_port_hotzone(pos / zoom, p_mouse_pos, p_port_size, true);
}
}
bool GraphEdit::is_in_output_hotzone(GraphNode *p_graph_node, int p_slot_index, const Vector2 &p_mouse_pos, const Vector2i &p_port_size) {
bool success;
if (GDVIRTUAL_CALL(_is_in_output_hotzone, p_graph_node, p_slot_index, p_mouse_pos, success)) {
return success;
} else {
Vector2 pos = p_graph_node->get_connection_output_position(p_slot_index) + p_graph_node->get_position();
return is_in_port_hotzone(pos / zoom, p_mouse_pos, p_port_size, false);
}
}
bool GraphEdit::is_in_port_hotzone(const Vector2 &pos, const Vector2 &p_mouse_pos, const Vector2i &p_port_size, bool p_left) {
Rect2 hotzone = Rect2(
pos.x - (p_left ? port_hotzone_outer_extent : port_hotzone_inner_extent),
pos.y - p_port_size.height / 2.0,
port_hotzone_inner_extent + port_hotzone_outer_extent,
p_port_size.height);
if (!hotzone.has_point(p_mouse_pos)) {
return false;
}
for (int i = 0; i < get_child_count(); i++) {
Control *child = Object::cast_to<Control>(get_child(i));
if (!child) {
continue;
}
Rect2 child_rect = child->get_rect();
child_rect.size *= zoom;
if (child_rect.has_point(p_mouse_pos * zoom)) {
for (int j = 0; j < child->get_child_count(); j++) {
Control *subchild = Object::cast_to<Control>(child->get_child(j));
if (!subchild) {
continue;
}
if (_check_clickable_control(subchild, p_mouse_pos * zoom, child_rect.position)) {
return false;
}
}
}
}
return true;
}
PackedVector2Array GraphEdit::get_connection_line(const Vector2 &p_from, const Vector2 &p_to) {
Vector<Vector2> ret;
if (GDVIRTUAL_CALL(_get_connection_line, p_from, p_to, ret)) {
return ret;
}
float x_diff = (p_to.x - p_from.x);
float cp_offset = x_diff * lines_curvature;
if (x_diff < 0) {
cp_offset *= -1;
}
Curve2D curve;
curve.add_point(p_from);
curve.set_point_out(0, Vector2(cp_offset, 0));
curve.add_point(p_to);
curve.set_point_in(1, Vector2(-cp_offset, 0));
if (lines_curvature > 0) {
return curve.tessellate(5, 2.0);
} else {
return curve.tessellate(1);
}
}
void GraphEdit::_draw_connection_line(CanvasItem *p_where, const Vector2 &p_from, const Vector2 &p_to, const Color &p_color, const Color &p_to_color, float p_width, float p_zoom) {
Vector<Vector2> points = get_connection_line(p_from / p_zoom, p_to / p_zoom);
Vector<Vector2> scaled_points;
Vector<Color> colors;
float length = (p_from / p_zoom).distance_to(p_to / p_zoom);
for (int i = 0; i < points.size(); i++) {
float d = (p_from / p_zoom).distance_to(points[i]) / length;
colors.push_back(p_color.lerp(p_to_color, d));
scaled_points.push_back(points[i] * p_zoom);
}
p_where->draw_polyline_colors(scaled_points, colors, Math::floor(p_width * get_theme_default_base_scale()), lines_antialiased);
}
void GraphEdit::_connections_layer_draw() {
Color activity_color = get_theme_color(SNAME("activity"));
//draw connections
List<List<Connection>::Element *> to_erase;
for (List<Connection>::Element *E = connections.front(); E; E = E->next()) {
NodePath fromnp(E->get().from);
Node *from = get_node(fromnp);
if (!from) {
to_erase.push_back(E);
continue;
}
GraphNode *gfrom = Object::cast_to<GraphNode>(from);
if (!gfrom) {
to_erase.push_back(E);
continue;
}
NodePath tonp(E->get().to);
Node *to = get_node(tonp);
if (!to) {
to_erase.push_back(E);
continue;
}
GraphNode *gto = Object::cast_to<GraphNode>(to);
if (!gto) {
to_erase.push_back(E);
continue;
}
Vector2 frompos = gfrom->get_connection_output_position(E->get().from_port) + gfrom->get_position_offset() * zoom;
Color color = gfrom->get_connection_output_color(E->get().from_port);
Vector2 topos = gto->get_connection_input_position(E->get().to_port) + gto->get_position_offset() * zoom;
Color tocolor = gto->get_connection_input_color(E->get().to_port);
if (E->get().activity > 0) {
color = color.lerp(activity_color, E->get().activity);
tocolor = tocolor.lerp(activity_color, E->get().activity);
}
_draw_connection_line(connections_layer, frompos, topos, color, tocolor, lines_thickness, zoom);
}
while (to_erase.size()) {
connections.erase(to_erase.front()->get());
to_erase.pop_front();
}
}
void GraphEdit::_top_layer_draw() {
_update_scroll();
if (connecting) {
Node *fromn = get_node(connecting_from);
ERR_FAIL_COND(!fromn);
GraphNode *from = Object::cast_to<GraphNode>(fromn);
ERR_FAIL_COND(!from);
Vector2 pos;
if (connecting_out) {
pos = from->get_connection_output_position(connecting_index);
} else {
pos = from->get_connection_input_position(connecting_index);
}
pos += from->get_position();
Vector2 topos;
topos = connecting_to;
Color col = connecting_color;
if (connecting_target) {
col.r += 0.4;
col.g += 0.4;
col.b += 0.4;
}
if (!connecting_out) {
SWAP(pos, topos);
}
_draw_connection_line(top_layer, pos, topos, col, col, lines_thickness, zoom);
}
if (box_selecting) {
top_layer->draw_rect(box_selecting_rect, get_theme_color(SNAME("selection_fill")));
top_layer->draw_rect(box_selecting_rect, get_theme_color(SNAME("selection_stroke")), false);
}
}
void GraphEdit::_minimap_draw() {
if (!is_minimap_enabled()) {
return;
}
minimap->update_minimap();
// Draw the minimap background.
Rect2 minimap_rect = Rect2(Point2(), minimap->get_size());
minimap->draw_style_box(minimap->get_theme_stylebox(SNAME("bg")), minimap_rect);
Vector2 graph_offset = minimap->_get_graph_offset();
Vector2 minimap_offset = minimap->minimap_offset;
// Draw comment graph nodes.
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn || !gn->is_comment()) {
continue;
}
Vector2 node_position = minimap->_convert_from_graph_position(gn->get_position_offset() * zoom - graph_offset) + minimap_offset;
Vector2 node_size = minimap->_convert_from_graph_position(gn->get_size() * zoom);
Rect2 node_rect = Rect2(node_position, node_size);
Ref<StyleBoxFlat> sb_minimap = minimap->get_theme_stylebox(SNAME("node"))->duplicate();
// Override default values with colors provided by the GraphNode's stylebox, if possible.
Ref<StyleBoxFlat> sbf = gn->get_theme_stylebox(gn->is_selected() ? "comment_focus" : "comment");
if (sbf.is_valid()) {
Color node_color = sbf->get_bg_color();
sb_minimap->set_bg_color(node_color);
}
minimap->draw_style_box(sb_minimap, node_rect);
}
// Draw regular graph nodes.
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn || gn->is_comment()) {
continue;
}
Vector2 node_position = minimap->_convert_from_graph_position(gn->get_position_offset() * zoom - graph_offset) + minimap_offset;
Vector2 node_size = minimap->_convert_from_graph_position(gn->get_size() * zoom);
Rect2 node_rect = Rect2(node_position, node_size);
Ref<StyleBoxFlat> sb_minimap = minimap->get_theme_stylebox(SNAME("node"))->duplicate();
// Override default values with colors provided by the GraphNode's stylebox, if possible.
Ref<StyleBoxFlat> sbf = gn->get_theme_stylebox(gn->is_selected() ? "selected_frame" : "frame");
if (sbf.is_valid()) {
Color node_color = sbf->get_border_color();
sb_minimap->set_bg_color(node_color);
}
minimap->draw_style_box(sb_minimap, node_rect);
}
// Draw node connections.
Color activity_color = get_theme_color(SNAME("activity"));
for (const Connection &E : connections) {
NodePath fromnp(E.from);
Node *from = get_node(fromnp);
if (!from) {
continue;
}
GraphNode *gfrom = Object::cast_to<GraphNode>(from);
if (!gfrom) {
continue;
}
NodePath tonp(E.to);
Node *to = get_node(tonp);
if (!to) {
continue;
}
GraphNode *gto = Object::cast_to<GraphNode>(to);
if (!gto) {
continue;
}
Vector2 from_slot_position = gfrom->get_position_offset() * zoom + gfrom->get_connection_output_position(E.from_port);
Vector2 from_position = minimap->_convert_from_graph_position(from_slot_position - graph_offset) + minimap_offset;
Color from_color = gfrom->get_connection_output_color(E.from_port);
Vector2 to_slot_position = gto->get_position_offset() * zoom + gto->get_connection_input_position(E.to_port);
Vector2 to_position = minimap->_convert_from_graph_position(to_slot_position - graph_offset) + minimap_offset;
Color to_color = gto->get_connection_input_color(E.to_port);
if (E.activity > 0) {
from_color = from_color.lerp(activity_color, E.activity);
to_color = to_color.lerp(activity_color, E.activity);
}
_draw_connection_line(minimap, from_position, to_position, from_color, to_color, 0.1, minimap->_convert_from_graph_position(Vector2(zoom, zoom)).length());
}
// Draw the "camera" viewport.
Rect2 camera_rect = minimap->get_camera_rect();
minimap->draw_style_box(minimap->get_theme_stylebox(SNAME("camera")), camera_rect);
// Draw the resizer control.
Ref<Texture2D> resizer = minimap->get_theme_icon(SNAME("resizer"));
Color resizer_color = minimap->get_theme_color(SNAME("resizer_color"));
minimap->draw_texture(resizer, Point2(), resizer_color);
}
void GraphEdit::set_selected(Node *p_child) {
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
gn->set_selected(gn == p_child);
}
}
void GraphEdit::gui_input(const Ref<InputEvent> &p_ev) {
ERR_FAIL_COND(p_ev.is_null());
if (panner->gui_input(p_ev, warped_panning ? get_global_rect() : Rect2())) {
return;
}
Ref<InputEventMouseMotion> mm = p_ev;
if (mm.is_valid() && dragging) {
if (!moving_selection) {
emit_signal(SNAME("begin_node_move"));
moving_selection = true;
}
just_selected = true;
drag_accum += mm->get_relative();
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (gn && gn->is_selected() && gn->is_draggable()) {
Vector2 pos = (gn->get_drag_from() * zoom + drag_accum) / zoom;
// Snapping can be toggled temporarily by holding down Ctrl.
// This is done here as to not toggle the grid when holding down Ctrl.
if (is_using_snap() ^ Input::get_singleton()->is_key_pressed(Key::CTRL)) {
const int snap = get_snap();
pos = pos.snapped(Vector2(snap, snap));
}
gn->set_position_offset(pos);
if (gn->is_comment()) {
_set_position_of_comment_enclosed_nodes(gn, comment_enclosed_nodes, drag_accum);
}
}
}
}
if (mm.is_valid() && box_selecting) {
box_selecting_to = mm->get_position();
box_selecting_rect = Rect2(box_selecting_from.min(box_selecting_to), (box_selecting_from - box_selecting_to).abs());
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
Rect2 r = gn->get_rect();
r.size *= zoom;
bool in_box = r.intersects(box_selecting_rect);
if (in_box) {
if (!gn->is_selected() && box_selection_mode_additive) {
emit_signal(SNAME("node_selected"), gn);
} else if (gn->is_selected() && !box_selection_mode_additive) {
emit_signal(SNAME("node_deselected"), gn);
}
if (gn->is_selectable()) {
gn->set_selected(box_selection_mode_additive);
}
} else {
bool select = (previous_selected.find(gn) != nullptr);
if (gn->is_selected() && !select) {
emit_signal(SNAME("node_deselected"), gn);
} else if (!gn->is_selected() && select) {
emit_signal(SNAME("node_selected"), gn);
}
if (gn->is_selectable()) {
gn->set_selected(select);
}
}
}
top_layer->update();
minimap->update();
}
Ref<InputEventMouseButton> b = p_ev;
if (b.is_valid()) {
if (b->get_button_index() == MouseButton::RIGHT && b->is_pressed()) {
if (box_selecting) {
box_selecting = false;
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
bool select = (gn->is_selectable() && previous_selected.find(gn) != nullptr);
if (gn->is_selected() && !select) {
emit_signal(SNAME("node_deselected"), gn);
} else if (!gn->is_selected() && select) {
emit_signal(SNAME("node_selected"), gn);
}
gn->set_selected(select);
}
top_layer->update();
minimap->update();
} else {
if (connecting) {
force_connection_drag_end();
} else {
emit_signal(SNAME("popup_request"), b->get_position());
}
}
}
if (b->get_button_index() == MouseButton::LEFT && !b->is_pressed() && dragging) {
if (!just_selected && drag_accum == Vector2() && Input::get_singleton()->is_key_pressed(Key::CTRL)) {
//deselect current node
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (gn) {
Rect2 r = gn->get_rect();
r.size *= zoom;
if (r.has_point(b->get_position())) {
emit_signal(SNAME("node_deselected"), gn);
gn->set_selected(false);
}
}
}
}
if (drag_accum != Vector2()) {
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (gn && gn->is_selected()) {
gn->set_drag(false);
if (gn->is_comment()) {
_set_drag_comment_enclosed_nodes(gn, comment_enclosed_nodes, false);
}
}
}
}
if (moving_selection) {
emit_signal(SNAME("end_node_move"));
moving_selection = false;
}
dragging = false;
top_layer->update();
minimap->update();
update();
connections_layer->update();
}
if (b->get_button_index() == MouseButton::LEFT && b->is_pressed()) {
GraphNode *gn = nullptr;
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn_selected = Object::cast_to<GraphNode>(get_child(i));
if (gn_selected) {
if (gn_selected->is_resizing()) {
continue;
}
if (gn_selected->has_point((b->get_position() - gn_selected->get_position()) / zoom)) {
gn = gn_selected;
break;
}
}
}
if (gn) {
if (_filter_input(b->get_position())) {
return;
}
dragging = true;
drag_accum = Vector2();
just_selected = !gn->is_selected();
if (!gn->is_selected() && !Input::get_singleton()->is_key_pressed(Key::CTRL)) {
for (int i = 0; i < get_child_count(); i++) {
GraphNode *o_gn = Object::cast_to<GraphNode>(get_child(i));
if (o_gn) {
if (o_gn == gn) {
o_gn->set_selected(o_gn->is_selectable());
} else {
if (o_gn->is_selected()) {
emit_signal(SNAME("node_deselected"), o_gn);
}
o_gn->set_selected(false);
}
}
}
}
gn->set_selected(gn->is_selectable());
for (int i = 0; i < get_child_count(); i++) {
GraphNode *o_gn = Object::cast_to<GraphNode>(get_child(i));
if (!o_gn) {
continue;
}
if (o_gn->is_selected()) {
o_gn->set_drag(true);
if (o_gn->is_comment()) {
_update_comment_enclosed_nodes_list(o_gn, comment_enclosed_nodes);
_set_drag_comment_enclosed_nodes(o_gn, comment_enclosed_nodes, true);
}
}
}
} else {
if (_filter_input(b->get_position())) {
return;
}
if (panner->is_panning()) {
return;
}
box_selecting = true;
box_selecting_from = b->get_position();
if (b->is_ctrl_pressed()) {
box_selection_mode_additive = true;
previous_selected.clear();
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn2 = Object::cast_to<GraphNode>(get_child(i));
if (!gn2 || !gn2->is_selected()) {
continue;
}
previous_selected.push_back(gn2);
}
} else if (b->is_shift_pressed()) {
box_selection_mode_additive = false;
previous_selected.clear();
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn2 = Object::cast_to<GraphNode>(get_child(i));
if (!gn2 || !gn2->is_selected()) {
continue;
}
previous_selected.push_back(gn2);
}
} else {
box_selection_mode_additive = true;
previous_selected.clear();
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn2 = Object::cast_to<GraphNode>(get_child(i));
if (!gn2) {
continue;
}
if (gn2->is_selected()) {
emit_signal(SNAME("node_deselected"), gn2);
}
gn2->set_selected(false);
}
}
}
}
if (b->get_button_index() == MouseButton::LEFT && !b->is_pressed() && box_selecting) {
box_selecting = false;
box_selecting_rect = Rect2();
previous_selected.clear();
top_layer->update();
minimap->update();
}
}
if (p_ev->is_pressed()) {
if (p_ev->is_action("ui_graph_duplicate")) {
emit_signal(SNAME("duplicate_nodes_request"));
accept_event();
} else if (p_ev->is_action("ui_copy")) {
emit_signal(SNAME("copy_nodes_request"));
accept_event();
} else if (p_ev->is_action("ui_paste")) {
emit_signal(SNAME("paste_nodes_request"));
accept_event();
} else if (p_ev->is_action("ui_graph_delete")) {
TypedArray<StringName> nodes;
for (int i = 0; i < get_child_count(); i++) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
if (gn->is_selected() && gn->is_close_button_visible()) {
nodes.push_back(gn->get_name());
}
}
emit_signal(SNAME("delete_nodes_request"), nodes);
accept_event();
}
}
Ref<InputEventMagnifyGesture> magnify_gesture = p_ev;
if (magnify_gesture.is_valid()) {
set_zoom_custom(zoom * magnify_gesture->get_factor(), magnify_gesture->get_position());
}
Ref<InputEventPanGesture> pan_gesture = p_ev;
if (pan_gesture.is_valid()) {
h_scroll->set_value(h_scroll->get_value() + h_scroll->get_page() * pan_gesture->get_delta().x / 8);
v_scroll->set_value(v_scroll->get_value() + v_scroll->get_page() * pan_gesture->get_delta().y / 8);
}
}
void GraphEdit::_scroll_callback(Vector2 p_scroll_vec, bool p_alt) {
if (p_scroll_vec.x != 0) {
h_scroll->set_value(h_scroll->get_value() + (h_scroll->get_page() * Math::abs(p_scroll_vec.x) / 8) * SIGN(p_scroll_vec.x));
} else {
v_scroll->set_value(v_scroll->get_value() + (v_scroll->get_page() * Math::abs(p_scroll_vec.y) / 8) * SIGN(p_scroll_vec.y));
}
}
void GraphEdit::_pan_callback(Vector2 p_scroll_vec) {
h_scroll->set_value(h_scroll->get_value() - p_scroll_vec.x);
v_scroll->set_value(v_scroll->get_value() - p_scroll_vec.y);
}
void GraphEdit::_zoom_callback(Vector2 p_scroll_vec, Vector2 p_origin, bool p_alt) {
set_zoom_custom(p_scroll_vec.y < 0 ? zoom * zoom_step : zoom / zoom_step, p_origin);
}
void GraphEdit::set_connection_activity(const StringName &p_from, int p_from_port, const StringName &p_to, int p_to_port, float p_activity) {
for (Connection &E : connections) {
if (E.from == p_from && E.from_port == p_from_port && E.to == p_to && E.to_port == p_to_port) {
if (Math::is_equal_approx(E.activity, p_activity)) {
//update only if changed
top_layer->update();
minimap->update();
connections_layer->update();
}
E.activity = p_activity;
return;
}
}
}
void GraphEdit::clear_connections() {
connections.clear();
minimap->update();
update();
connections_layer->update();
}
void GraphEdit::force_connection_drag_end() {
ERR_FAIL_COND_MSG(!connecting, "Drag end requested without active drag!");
connecting = false;
connecting_valid = false;
top_layer->update();
minimap->update();
update();
connections_layer->update();
emit_signal(SNAME("connection_drag_ended"));
}
bool GraphEdit::is_node_hover_valid(const StringName &p_from, const int p_from_port, const StringName &p_to, const int p_to_port) {
bool valid;
if (GDVIRTUAL_CALL(_is_node_hover_valid, p_from, p_from_port, p_to, p_to_port, valid)) {
return valid;
}
return true;
}
void GraphEdit::set_panning_scheme(PanningScheme p_scheme) {
panning_scheme = p_scheme;
panner->set_control_scheme((ViewPanner::ControlScheme)p_scheme);
}
GraphEdit::PanningScheme GraphEdit::get_panning_scheme() const {
return panning_scheme;
}
void GraphEdit::set_zoom(float p_zoom) {
set_zoom_custom(p_zoom, get_size() / 2);
}
void GraphEdit::set_zoom_custom(float p_zoom, const Vector2 &p_center) {
p_zoom = CLAMP(p_zoom, zoom_min, zoom_max);
if (zoom == p_zoom) {
return;
}
Vector2 sbofs = (Vector2(h_scroll->get_value(), v_scroll->get_value()) + p_center) / zoom;
zoom = p_zoom;
top_layer->update();
zoom_minus->set_disabled(zoom == zoom_min);
zoom_plus->set_disabled(zoom == zoom_max);
_update_scroll();
minimap->update();
connections_layer->update();
if (is_visible_in_tree()) {
Vector2 ofs = sbofs * zoom - p_center;
h_scroll->set_value(ofs.x);
v_scroll->set_value(ofs.y);
}
_update_zoom_label();
update();
}
float GraphEdit::get_zoom() const {
return zoom;
}
void GraphEdit::set_zoom_step(float p_zoom_step) {
p_zoom_step = abs(p_zoom_step);
if (zoom_step == p_zoom_step) {
return;
}
zoom_step = p_zoom_step;
}
float GraphEdit::get_zoom_step() const {
return zoom_step;
}
void GraphEdit::set_zoom_min(float p_zoom_min) {
ERR_FAIL_COND_MSG(p_zoom_min > zoom_max, "Cannot set min zoom level greater than max zoom level.");
if (zoom_min == p_zoom_min) {
return;
}
zoom_min = p_zoom_min;
set_zoom(zoom);
}
float GraphEdit::get_zoom_min() const {
return zoom_min;
}
void GraphEdit::set_zoom_max(float p_zoom_max) {
ERR_FAIL_COND_MSG(p_zoom_max < zoom_min, "Cannot set max zoom level lesser than min zoom level.");
if (zoom_max == p_zoom_max) {
return;
}
zoom_max = p_zoom_max;
set_zoom(zoom);
}
float GraphEdit::get_zoom_max() const {
return zoom_max;
}
void GraphEdit::set_show_zoom_label(bool p_enable) {
if (zoom_label->is_visible() == p_enable) {
return;
}
zoom_label->set_visible(p_enable);
}
bool GraphEdit::is_showing_zoom_label() const {
return zoom_label->is_visible();
}
void GraphEdit::set_right_disconnects(bool p_enable) {
right_disconnects = p_enable;
}
bool GraphEdit::is_right_disconnects_enabled() const {
return right_disconnects;
}
void GraphEdit::add_valid_right_disconnect_type(int p_type) {
valid_right_disconnect_types.insert(p_type);
}
void GraphEdit::remove_valid_right_disconnect_type(int p_type) {
valid_right_disconnect_types.erase(p_type);
}
void GraphEdit::add_valid_left_disconnect_type(int p_type) {
valid_left_disconnect_types.insert(p_type);
}
void GraphEdit::remove_valid_left_disconnect_type(int p_type) {
valid_left_disconnect_types.erase(p_type);
}
TypedArray<Dictionary> GraphEdit::_get_connection_list() const {
List<Connection> conns;
get_connection_list(&conns);
TypedArray<Dictionary> arr;
for (const Connection &E : conns) {
Dictionary d;
d["from"] = E.from;
d["from_port"] = E.from_port;
d["to"] = E.to;
d["to_port"] = E.to_port;
arr.push_back(d);
}
return arr;
}
void GraphEdit::_zoom_minus() {
set_zoom(zoom / zoom_step);
}
void GraphEdit::_zoom_reset() {
set_zoom(1);
}
void GraphEdit::_zoom_plus() {
set_zoom(zoom * zoom_step);
}
void GraphEdit::_update_zoom_label() {
int zoom_percent = static_cast<int>(Math::round(zoom * 100));
String zoom_text = itos(zoom_percent) + "%";
zoom_label->set_text(zoom_text);
}
void GraphEdit::add_valid_connection_type(int p_type, int p_with_type) {
ConnType ct(p_type, p_with_type);
valid_connection_types.insert(ct);
}
void GraphEdit::remove_valid_connection_type(int p_type, int p_with_type) {
ConnType ct(p_type, p_with_type);
valid_connection_types.erase(ct);
}
bool GraphEdit::is_valid_connection_type(int p_type, int p_with_type) const {
ConnType ct(p_type, p_with_type);
return valid_connection_types.has(ct);
}
void GraphEdit::set_use_snap(bool p_enable) {
if (snap_button->is_pressed() == p_enable) {
return;
}
snap_button->set_pressed(p_enable);
update();
}
bool GraphEdit::is_using_snap() const {
return snap_button->is_pressed();
}
int GraphEdit::get_snap() const {
return snap_amount->get_value();
}
void GraphEdit::set_snap(int p_snap) {
ERR_FAIL_COND(p_snap < 5);
snap_amount->set_value(p_snap);
update();
}
void GraphEdit::_snap_toggled() {
update();
}
void GraphEdit::_snap_value_changed(double) {
update();
}
void GraphEdit::set_minimap_size(Vector2 p_size) {
minimap->set_size(p_size);
Vector2 minimap_size = minimap->get_size(); // The size might've been adjusted by the minimum size.
minimap->set_anchors_preset(Control::PRESET_BOTTOM_RIGHT);
minimap->set_offset(Side::SIDE_LEFT, -minimap_size.x - MINIMAP_OFFSET);
minimap->set_offset(Side::SIDE_TOP, -minimap_size.y - MINIMAP_OFFSET);
minimap->set_offset(Side::SIDE_RIGHT, -MINIMAP_OFFSET);
minimap->set_offset(Side::SIDE_BOTTOM, -MINIMAP_OFFSET);
minimap->update();
}
Vector2 GraphEdit::get_minimap_size() const {
return minimap->get_size();
}
void GraphEdit::set_minimap_opacity(float p_opacity) {
if (minimap->get_modulate().a == p_opacity) {
return;
}
minimap->set_modulate(Color(1, 1, 1, p_opacity));
minimap->update();
}
float GraphEdit::get_minimap_opacity() const {
Color minimap_modulate = minimap->get_modulate();
return minimap_modulate.a;
}
void GraphEdit::set_minimap_enabled(bool p_enable) {
if (minimap_button->is_pressed() == p_enable) {
return;
}
minimap_button->set_pressed(p_enable);
_minimap_toggled();
minimap->update();
}
bool GraphEdit::is_minimap_enabled() const {
return minimap_button->is_pressed();
}
void GraphEdit::set_arrange_nodes_button_hidden(bool p_enable) {
arrange_nodes_button_hidden = p_enable;
if (arrange_nodes_button_hidden) {
layout_button->hide();
} else {
layout_button->show();
}
}
bool GraphEdit::is_arrange_nodes_button_hidden() const {
return arrange_nodes_button_hidden;
}
void GraphEdit::_minimap_toggled() {
if (is_minimap_enabled()) {
minimap->set_visible(true);
minimap->update();
} else {
minimap->set_visible(false);
}
}
void GraphEdit::set_connection_lines_curvature(float p_curvature) {
lines_curvature = p_curvature;
update();
}
float GraphEdit::get_connection_lines_curvature() const {
return lines_curvature;
}
void GraphEdit::set_connection_lines_thickness(float p_thickness) {
if (lines_thickness == p_thickness) {
return;
}
lines_thickness = p_thickness;
update();
}
float GraphEdit::get_connection_lines_thickness() const {
return lines_thickness;
}
void GraphEdit::set_connection_lines_antialiased(bool p_antialiased) {
if (lines_antialiased == p_antialiased) {
return;
}
lines_antialiased = p_antialiased;
update();
}
bool GraphEdit::is_connection_lines_antialiased() const {
return lines_antialiased;
}
HBoxContainer *GraphEdit::get_zoom_hbox() {
return zoom_hb;
}
Ref<ViewPanner> GraphEdit::get_panner() {
return panner;
}
void GraphEdit::set_warped_panning(bool p_warped) {
warped_panning = p_warped;
}
int GraphEdit::_set_operations(SET_OPERATIONS p_operation, HashSet<StringName> &r_u, const HashSet<StringName> &r_v) {
switch (p_operation) {
case GraphEdit::IS_EQUAL: {
for (const StringName &E : r_u) {
if (!r_v.has(E)) {
return 0;
}
}
return r_u.size() == r_v.size();
} break;
case GraphEdit::IS_SUBSET: {
if (r_u.size() == r_v.size() && !r_u.size()) {
return 1;
}
for (const StringName &E : r_u) {
if (!r_v.has(E)) {
return 0;
}
}
return 1;
} break;
case GraphEdit::DIFFERENCE: {
for (HashSet<StringName>::Iterator E = r_u.begin(); E;) {
HashSet<StringName>::Iterator N = E;
++N;
if (r_v.has(*E)) {
r_u.remove(E);
}
E = N;
}
return r_u.size();
} break;
case GraphEdit::UNION: {
for (const StringName &E : r_v) {
if (!r_u.has(E)) {
r_u.insert(E);
}
}
return r_u.size();
} break;
default:
break;
}
return -1;
}
HashMap<int, Vector<StringName>> GraphEdit::_layering(const HashSet<StringName> &r_selected_nodes, const HashMap<StringName, HashSet<StringName>> &r_upper_neighbours) {
HashMap<int, Vector<StringName>> l;
HashSet<StringName> p = r_selected_nodes, q = r_selected_nodes, u, z;
int current_layer = 0;
bool selected = false;
while (!_set_operations(GraphEdit::IS_EQUAL, q, u)) {
_set_operations(GraphEdit::DIFFERENCE, p, u);
for (const StringName &E : p) {
HashSet<StringName> n = r_upper_neighbours[E];
if (_set_operations(GraphEdit::IS_SUBSET, n, z)) {
Vector<StringName> t;
t.push_back(E);
if (!l.has(current_layer)) {
l.insert(current_layer, Vector<StringName>{});
}
selected = true;
t.append_array(l[current_layer]);
l.insert(current_layer, t);
HashSet<StringName> V;
V.insert(E);
_set_operations(GraphEdit::UNION, u, V);
}
}
if (!selected) {
current_layer++;
uint32_t previous_size_z = z.size();
_set_operations(GraphEdit::UNION, z, u);
if (z.size() == previous_size_z) {
WARN_PRINT("Graph contains cycle(s). The cycle(s) will not be rearranged accurately.");
Vector<StringName> t;
if (l.has(0)) {
t.append_array(l[0]);
}
for (const StringName &E : p) {
t.push_back(E);
}
l.insert(0, t);
break;
}
}
selected = false;
}
return l;
}
Vector<StringName> GraphEdit::_split(const Vector<StringName> &r_layer, const HashMap<StringName, Dictionary> &r_crossings) {
if (!r_layer.size()) {
return Vector<StringName>();
}
StringName p = r_layer[Math::random(0, r_layer.size() - 1)];
Vector<StringName> left;
Vector<StringName> right;
for (int i = 0; i < r_layer.size(); i++) {
if (p != r_layer[i]) {
StringName q = r_layer[i];
int cross_pq = r_crossings[p][q];
int cross_qp = r_crossings[q][p];
if (cross_pq > cross_qp) {
left.push_back(q);
} else {
right.push_back(q);
}
}
}
left.push_back(p);
left.append_array(right);
return left;
}
void GraphEdit::_horizontal_alignment(Dictionary &r_root, Dictionary &r_align, const HashMap<int, Vector<StringName>> &r_layers, const HashMap<StringName, HashSet<StringName>> &r_upper_neighbours, const HashSet<StringName> &r_selected_nodes) {
for (const StringName &E : r_selected_nodes) {
r_root[E] = E;
r_align[E] = E;
}
if (r_layers.size() == 1) {
return;
}
for (unsigned int i = 1; i < r_layers.size(); i++) {
Vector<StringName> lower_layer = r_layers[i];
Vector<StringName> upper_layer = r_layers[i - 1];
int r = -1;
for (int j = 0; j < lower_layer.size(); j++) {
Vector<Pair<int, StringName>> up;
StringName current_node = lower_layer[j];
for (int k = 0; k < upper_layer.size(); k++) {
StringName adjacent_neighbour = upper_layer[k];
if (r_upper_neighbours[current_node].has(adjacent_neighbour)) {
up.push_back(Pair<int, StringName>(k, adjacent_neighbour));
}
}
int start = (up.size() - 1) / 2;
int end = (up.size() - 1) % 2 ? start + 1 : start;
for (int p = start; p <= end; p++) {
StringName Align = r_align[current_node];
if (Align == current_node && r < up[p].first) {
r_align[up[p].second] = lower_layer[j];
r_root[current_node] = r_root[up[p].second];
r_align[current_node] = r_root[up[p].second];
r = up[p].first;
}
}
}
}
}
void GraphEdit::_crossing_minimisation(HashMap<int, Vector<StringName>> &r_layers, const HashMap<StringName, HashSet<StringName>> &r_upper_neighbours) {
if (r_layers.size() == 1) {
return;
}
for (unsigned int i = 1; i < r_layers.size(); i++) {
Vector<StringName> upper_layer = r_layers[i - 1];
Vector<StringName> lower_layer = r_layers[i];
HashMap<StringName, Dictionary> c;
for (int j = 0; j < lower_layer.size(); j++) {
StringName p = lower_layer[j];
Dictionary d;
for (int k = 0; k < lower_layer.size(); k++) {
unsigned int crossings = 0;
StringName q = lower_layer[k];
if (j != k) {
for (int h = 1; h < upper_layer.size(); h++) {
if (r_upper_neighbours[p].has(upper_layer[h])) {
for (int g = 0; g < h; g++) {
if (r_upper_neighbours[q].has(upper_layer[g])) {
crossings++;
}
}
}
}
}
d[q] = crossings;
}
c.insert(p, d);
}
r_layers.insert(i, _split(lower_layer, c));
}
}
void GraphEdit::_calculate_inner_shifts(Dictionary &r_inner_shifts, const Dictionary &r_root, const Dictionary &r_node_names, const Dictionary &r_align, const HashSet<StringName> &r_block_heads, const HashMap<StringName, Pair<int, int>> &r_port_info) {
for (const StringName &E : r_block_heads) {
real_t left = 0;
StringName u = E;
StringName v = r_align[u];
while (u != v && (StringName)r_root[u] != v) {
String _connection = String(u) + " " + String(v);
GraphNode *gfrom = Object::cast_to<GraphNode>(r_node_names[u]);
GraphNode *gto = Object::cast_to<GraphNode>(r_node_names[v]);
Pair<int, int> ports = r_port_info[_connection];
int pfrom = ports.first;
int pto = ports.second;
Vector2 frompos = gfrom->get_connection_output_position(pfrom);
Vector2 topos = gto->get_connection_input_position(pto);
real_t s = (real_t)r_inner_shifts[u] + (frompos.y - topos.y) / zoom;
r_inner_shifts[v] = s;
left = MIN(left, s);
u = v;
v = (StringName)r_align[v];
}
u = E;
do {
r_inner_shifts[u] = (real_t)r_inner_shifts[u] - left;
u = (StringName)r_align[u];
} while (u != E);
}
}
float GraphEdit::_calculate_threshold(StringName p_v, StringName p_w, const Dictionary &r_node_names, const HashMap<int, Vector<StringName>> &r_layers, const Dictionary &r_root, const Dictionary &r_align, const Dictionary &r_inner_shift, real_t p_current_threshold, const HashMap<StringName, Vector2> &r_node_positions) {
#define MAX_ORDER 2147483647
#define ORDER(node, layers) \
for (unsigned int i = 0; i < layers.size(); i++) { \
int index = layers[i].find(node); \
if (index > 0) { \
order = index; \
break; \
} \
order = MAX_ORDER; \
}
int order = MAX_ORDER;
float threshold = p_current_threshold;
if (p_v == p_w) {
int min_order = MAX_ORDER;
Connection incoming;
for (List<Connection>::Element *E = connections.front(); E; E = E->next()) {
if (E->get().to == p_w) {
ORDER(E->get().from, r_layers);
if (min_order > order) {
min_order = order;
incoming = E->get();
}
}
}
if (incoming.from != StringName()) {
GraphNode *gfrom = Object::cast_to<GraphNode>(r_node_names[incoming.from]);
GraphNode *gto = Object::cast_to<GraphNode>(r_node_names[p_w]);
Vector2 frompos = gfrom->get_connection_output_position(incoming.from_port);
Vector2 topos = gto->get_connection_input_position(incoming.to_port);
//If connected block node is selected, calculate thershold or add current block to list
if (gfrom->is_selected()) {
Vector2 connected_block_pos = r_node_positions[r_root[incoming.from]];
if (connected_block_pos.y != FLT_MAX) {
//Connected block is placed. Calculate threshold
threshold = connected_block_pos.y + (real_t)r_inner_shift[incoming.from] - (real_t)r_inner_shift[p_w] + frompos.y - topos.y;
}
}
}
}
if (threshold == FLT_MIN && (StringName)r_align[p_w] == p_v) {
//This time, pick an outgoing edge and repeat as above!
int min_order = MAX_ORDER;
Connection outgoing;
for (List<Connection>::Element *E = connections.front(); E; E = E->next()) {
if (E->get().from == p_w) {
ORDER(E->get().to, r_layers);
if (min_order > order) {
min_order = order;
outgoing = E->get();
}
}
}
if (outgoing.to != StringName()) {
GraphNode *gfrom = Object::cast_to<GraphNode>(r_node_names[p_w]);
GraphNode *gto = Object::cast_to<GraphNode>(r_node_names[outgoing.to]);
Vector2 frompos = gfrom->get_connection_output_position(outgoing.from_port);
Vector2 topos = gto->get_connection_input_position(outgoing.to_port);
//If connected block node is selected, calculate thershold or add current block to list
if (gto->is_selected()) {
Vector2 connected_block_pos = r_node_positions[r_root[outgoing.to]];
if (connected_block_pos.y != FLT_MAX) {
//Connected block is placed. Calculate threshold
threshold = connected_block_pos.y + (real_t)r_inner_shift[outgoing.to] - (real_t)r_inner_shift[p_w] + frompos.y - topos.y;
}
}
}
}
#undef MAX_ORDER
#undef ORDER
return threshold;
}
void GraphEdit::_place_block(StringName p_v, float p_delta, const HashMap<int, Vector<StringName>> &r_layers, const Dictionary &r_root, const Dictionary &r_align, const Dictionary &r_node_name, const Dictionary &r_inner_shift, Dictionary &r_sink, Dictionary &r_shift, HashMap<StringName, Vector2> &r_node_positions) {
#define PRED(node, layers) \
for (unsigned int i = 0; i < layers.size(); i++) { \
int index = layers[i].find(node); \
if (index > 0) { \
predecessor = layers[i][index - 1]; \
break; \
} \
predecessor = StringName(); \
}
StringName predecessor;
StringName successor;
Vector2 pos = r_node_positions[p_v];
if (pos.y == FLT_MAX) {
pos.y = 0;
bool initial = false;
StringName w = p_v;
real_t threshold = FLT_MIN;
do {
PRED(w, r_layers);
if (predecessor != StringName()) {
StringName u = r_root[predecessor];
_place_block(u, p_delta, r_layers, r_root, r_align, r_node_name, r_inner_shift, r_sink, r_shift, r_node_positions);
threshold = _calculate_threshold(p_v, w, r_node_name, r_layers, r_root, r_align, r_inner_shift, threshold, r_node_positions);
if ((StringName)r_sink[p_v] == p_v) {
r_sink[p_v] = r_sink[u];
}
Vector2 predecessor_root_pos = r_node_positions[u];
Vector2 predecessor_node_size = Object::cast_to<GraphNode>(r_node_name[predecessor])->get_size();
if (r_sink[p_v] != r_sink[u]) {
real_t sc = pos.y + (real_t)r_inner_shift[w] - predecessor_root_pos.y - (real_t)r_inner_shift[predecessor] - predecessor_node_size.y - p_delta;
r_shift[r_sink[u]] = MIN(sc, (real_t)r_shift[r_sink[u]]);
} else {
real_t sb = predecessor_root_pos.y + (real_t)r_inner_shift[predecessor] + predecessor_node_size.y - (real_t)r_inner_shift[w] + p_delta;
sb = MAX(sb, threshold);
if (initial) {
pos.y = sb;
} else {
pos.y = MAX(pos.y, sb);
}
initial = false;
}
}
threshold = _calculate_threshold(p_v, w, r_node_name, r_layers, r_root, r_align, r_inner_shift, threshold, r_node_positions);
w = r_align[w];
} while (w != p_v);
r_node_positions.insert(p_v, pos);
}
#undef PRED
}
void GraphEdit::arrange_nodes() {
if (!arranging_graph) {
arranging_graph = true;
} else {
return;
}
Dictionary node_names;
HashSet<StringName> selected_nodes;
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
node_names[gn->get_name()] = gn;
}
HashMap<StringName, HashSet<StringName>> upper_neighbours;
HashMap<StringName, Pair<int, int>> port_info;
Vector2 origin(FLT_MAX, FLT_MAX);
float gap_v = 100.0f;
float gap_h = 100.0f;
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
continue;
}
if (gn->is_selected()) {
selected_nodes.insert(gn->get_name());
HashSet<StringName> s;
for (List<Connection>::Element *E = connections.front(); E; E = E->next()) {
GraphNode *p_from = Object::cast_to<GraphNode>(node_names[E->get().from]);
if (E->get().to == gn->get_name() && p_from->is_selected() && E->get().to != E->get().from) {
if (!s.has(p_from->get_name())) {
s.insert(p_from->get_name());
}
String s_connection = String(p_from->get_name()) + " " + String(E->get().to);
StringName _connection(s_connection);
Pair<int, int> ports(E->get().from_port, E->get().to_port);
if (port_info.has(_connection)) {
Pair<int, int> p_ports = port_info[_connection];
if (p_ports.first < ports.first) {
ports = p_ports;
}
}
port_info.insert(_connection, ports);
}
}
upper_neighbours.insert(gn->get_name(), s);
}
}
if (!selected_nodes.size()) {
arranging_graph = false;
return;
}
HashMap<int, Vector<StringName>> layers = _layering(selected_nodes, upper_neighbours);
_crossing_minimisation(layers, upper_neighbours);
Dictionary root, align, sink, shift;
_horizontal_alignment(root, align, layers, upper_neighbours, selected_nodes);
HashMap<StringName, Vector2> new_positions;
Vector2 default_position(FLT_MAX, FLT_MAX);
Dictionary inner_shift;
HashSet<StringName> block_heads;
for (const StringName &E : selected_nodes) {
inner_shift[E] = 0.0f;
sink[E] = E;
shift[E] = FLT_MAX;
new_positions.insert(E, default_position);
if ((StringName)root[E] == E) {
block_heads.insert(E);
}
}
_calculate_inner_shifts(inner_shift, root, node_names, align, block_heads, port_info);
for (const StringName &E : block_heads) {
_place_block(E, gap_v, layers, root, align, node_names, inner_shift, sink, shift, new_positions);
}
origin.y = Object::cast_to<GraphNode>(node_names[layers[0][0]])->get_position_offset().y - (new_positions[layers[0][0]].y + (float)inner_shift[layers[0][0]]);
origin.x = Object::cast_to<GraphNode>(node_names[layers[0][0]])->get_position_offset().x;
for (const StringName &E : block_heads) {
StringName u = E;
float start_from = origin.y + new_positions[E].y;
do {
Vector2 cal_pos;
cal_pos.y = start_from + (real_t)inner_shift[u];
new_positions.insert(u, cal_pos);
u = align[u];
} while (u != E);
}
// Compute horizontal coordinates individually for layers to get uniform gap.
float start_from = origin.x;
float largest_node_size = 0.0f;
for (unsigned int i = 0; i < layers.size(); i++) {
Vector<StringName> layer = layers[i];
for (int j = 0; j < layer.size(); j++) {
float current_node_size = Object::cast_to<GraphNode>(node_names[layer[j]])->get_size().x;
largest_node_size = MAX(largest_node_size, current_node_size);
}
for (int j = 0; j < layer.size(); j++) {
float current_node_size = Object::cast_to<GraphNode>(node_names[layer[j]])->get_size().x;
Vector2 cal_pos = new_positions[layer[j]];
if (current_node_size == largest_node_size) {
cal_pos.x = start_from;
} else {
float current_node_start_pos = start_from;
if (current_node_size < largest_node_size / 2) {
if (!(i || j)) {
start_from -= (largest_node_size - current_node_size);
}
current_node_start_pos = start_from + largest_node_size - current_node_size;
}
cal_pos.x = current_node_start_pos;
}
new_positions.insert(layer[j], cal_pos);
}
start_from += largest_node_size + gap_h;
largest_node_size = 0.0f;
}
emit_signal(SNAME("begin_node_move"));
for (const StringName &E : selected_nodes) {
GraphNode *gn = Object::cast_to<GraphNode>(node_names[E]);
gn->set_drag(true);
Vector2 pos = (new_positions[E]);
if (is_using_snap()) {
const int snap = get_snap();
pos = pos.snapped(Vector2(snap, snap));
}
gn->set_position_offset(pos);
gn->set_drag(false);
}
emit_signal(SNAME("end_node_move"));
arranging_graph = false;
}
void GraphEdit::_bind_methods() {
ClassDB::bind_method(D_METHOD("connect_node", "from", "from_port", "to", "to_port"), &GraphEdit::connect_node);
ClassDB::bind_method(D_METHOD("is_node_connected", "from", "from_port", "to", "to_port"), &GraphEdit::is_node_connected);
ClassDB::bind_method(D_METHOD("disconnect_node", "from", "from_port", "to", "to_port"), &GraphEdit::disconnect_node);
ClassDB::bind_method(D_METHOD("set_connection_activity", "from", "from_port", "to", "to_port", "amount"), &GraphEdit::set_connection_activity);
ClassDB::bind_method(D_METHOD("get_connection_list"), &GraphEdit::_get_connection_list);
ClassDB::bind_method(D_METHOD("clear_connections"), &GraphEdit::clear_connections);
ClassDB::bind_method(D_METHOD("force_connection_drag_end"), &GraphEdit::force_connection_drag_end);
ClassDB::bind_method(D_METHOD("get_scroll_ofs"), &GraphEdit::get_scroll_ofs);
ClassDB::bind_method(D_METHOD("set_scroll_ofs", "offset"), &GraphEdit::set_scroll_ofs);
ClassDB::bind_method(D_METHOD("add_valid_right_disconnect_type", "type"), &GraphEdit::add_valid_right_disconnect_type);
ClassDB::bind_method(D_METHOD("remove_valid_right_disconnect_type", "type"), &GraphEdit::remove_valid_right_disconnect_type);
ClassDB::bind_method(D_METHOD("add_valid_left_disconnect_type", "type"), &GraphEdit::add_valid_left_disconnect_type);
ClassDB::bind_method(D_METHOD("remove_valid_left_disconnect_type", "type"), &GraphEdit::remove_valid_left_disconnect_type);
ClassDB::bind_method(D_METHOD("add_valid_connection_type", "from_type", "to_type"), &GraphEdit::add_valid_connection_type);
ClassDB::bind_method(D_METHOD("remove_valid_connection_type", "from_type", "to_type"), &GraphEdit::remove_valid_connection_type);
ClassDB::bind_method(D_METHOD("is_valid_connection_type", "from_type", "to_type"), &GraphEdit::is_valid_connection_type);
ClassDB::bind_method(D_METHOD("get_connection_line", "from", "to"), &GraphEdit::get_connection_line);
ClassDB::bind_method(D_METHOD("set_panning_scheme", "scheme"), &GraphEdit::set_panning_scheme);
ClassDB::bind_method(D_METHOD("get_panning_scheme"), &GraphEdit::get_panning_scheme);
ClassDB::bind_method(D_METHOD("set_zoom", "zoom"), &GraphEdit::set_zoom);
ClassDB::bind_method(D_METHOD("get_zoom"), &GraphEdit::get_zoom);
ClassDB::bind_method(D_METHOD("set_zoom_min", "zoom_min"), &GraphEdit::set_zoom_min);
ClassDB::bind_method(D_METHOD("get_zoom_min"), &GraphEdit::get_zoom_min);
ClassDB::bind_method(D_METHOD("set_zoom_max", "zoom_max"), &GraphEdit::set_zoom_max);
ClassDB::bind_method(D_METHOD("get_zoom_max"), &GraphEdit::get_zoom_max);
ClassDB::bind_method(D_METHOD("set_zoom_step", "zoom_step"), &GraphEdit::set_zoom_step);
ClassDB::bind_method(D_METHOD("get_zoom_step"), &GraphEdit::get_zoom_step);
ClassDB::bind_method(D_METHOD("set_show_zoom_label", "enable"), &GraphEdit::set_show_zoom_label);
ClassDB::bind_method(D_METHOD("is_showing_zoom_label"), &GraphEdit::is_showing_zoom_label);
ClassDB::bind_method(D_METHOD("set_snap", "pixels"), &GraphEdit::set_snap);
ClassDB::bind_method(D_METHOD("get_snap"), &GraphEdit::get_snap);
ClassDB::bind_method(D_METHOD("set_use_snap", "enable"), &GraphEdit::set_use_snap);
ClassDB::bind_method(D_METHOD("is_using_snap"), &GraphEdit::is_using_snap);
ClassDB::bind_method(D_METHOD("set_connection_lines_curvature", "curvature"), &GraphEdit::set_connection_lines_curvature);
ClassDB::bind_method(D_METHOD("get_connection_lines_curvature"), &GraphEdit::get_connection_lines_curvature);
ClassDB::bind_method(D_METHOD("set_connection_lines_thickness", "pixels"), &GraphEdit::set_connection_lines_thickness);
ClassDB::bind_method(D_METHOD("get_connection_lines_thickness"), &GraphEdit::get_connection_lines_thickness);
ClassDB::bind_method(D_METHOD("set_connection_lines_antialiased", "pixels"), &GraphEdit::set_connection_lines_antialiased);
ClassDB::bind_method(D_METHOD("is_connection_lines_antialiased"), &GraphEdit::is_connection_lines_antialiased);
ClassDB::bind_method(D_METHOD("set_minimap_size", "size"), &GraphEdit::set_minimap_size);
ClassDB::bind_method(D_METHOD("get_minimap_size"), &GraphEdit::get_minimap_size);
ClassDB::bind_method(D_METHOD("set_minimap_opacity", "opacity"), &GraphEdit::set_minimap_opacity);
ClassDB::bind_method(D_METHOD("get_minimap_opacity"), &GraphEdit::get_minimap_opacity);
ClassDB::bind_method(D_METHOD("set_minimap_enabled", "enable"), &GraphEdit::set_minimap_enabled);
ClassDB::bind_method(D_METHOD("is_minimap_enabled"), &GraphEdit::is_minimap_enabled);
ClassDB::bind_method(D_METHOD("set_arrange_nodes_button_hidden", "enable"), &GraphEdit::set_arrange_nodes_button_hidden);
ClassDB::bind_method(D_METHOD("is_arrange_nodes_button_hidden"), &GraphEdit::is_arrange_nodes_button_hidden);
ClassDB::bind_method(D_METHOD("set_right_disconnects", "enable"), &GraphEdit::set_right_disconnects);
ClassDB::bind_method(D_METHOD("is_right_disconnects_enabled"), &GraphEdit::is_right_disconnects_enabled);
ClassDB::bind_method(D_METHOD("_update_scroll_offset"), &GraphEdit::_update_scroll_offset);
GDVIRTUAL_BIND(_is_in_input_hotzone, "graph_node", "slot_index", "mouse_position");
GDVIRTUAL_BIND(_is_in_output_hotzone, "graph_node", "slot_index", "mouse_position");
ClassDB::bind_method(D_METHOD("get_zoom_hbox"), &GraphEdit::get_zoom_hbox);
ClassDB::bind_method(D_METHOD("arrange_nodes"), &GraphEdit::arrange_nodes);
ClassDB::bind_method(D_METHOD("set_selected", "node"), &GraphEdit::set_selected);
GDVIRTUAL_BIND(_get_connection_line, "from", "to")
GDVIRTUAL_BIND(_is_node_hover_valid, "from", "from_slot", "to", "to_slot");
ADD_PROPERTY(PropertyInfo(Variant::BOOL, "right_disconnects"), "set_right_disconnects", "is_right_disconnects_enabled");
ADD_PROPERTY(PropertyInfo(Variant::VECTOR2, "scroll_offset", PROPERTY_HINT_NONE, "suffix:px"), "set_scroll_ofs", "get_scroll_ofs");
ADD_PROPERTY(PropertyInfo(Variant::INT, "snap_distance", PROPERTY_HINT_NONE, "suffix:px"), "set_snap", "get_snap");
ADD_PROPERTY(PropertyInfo(Variant::BOOL, "use_snap"), "set_use_snap", "is_using_snap");
ADD_PROPERTY(PropertyInfo(Variant::INT, "panning_scheme", PROPERTY_HINT_ENUM, "Scroll Zooms,Scroll Pans"), "set_panning_scheme", "get_panning_scheme");
ADD_GROUP("Connection Lines", "connection_lines");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "connection_lines_curvature"), "set_connection_lines_curvature", "get_connection_lines_curvature");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "connection_lines_thickness", PROPERTY_HINT_NONE, "suffix:px"), "set_connection_lines_thickness", "get_connection_lines_thickness");
ADD_PROPERTY(PropertyInfo(Variant::BOOL, "connection_lines_antialiased"), "set_connection_lines_antialiased", "is_connection_lines_antialiased");
ADD_GROUP("Zoom", "");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "zoom"), "set_zoom", "get_zoom");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "zoom_min"), "set_zoom_min", "get_zoom_min");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "zoom_max"), "set_zoom_max", "get_zoom_max");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "zoom_step"), "set_zoom_step", "get_zoom_step");
ADD_PROPERTY(PropertyInfo(Variant::BOOL, "show_zoom_label"), "set_show_zoom_label", "is_showing_zoom_label");
ADD_GROUP("Minimap", "minimap");
ADD_PROPERTY(PropertyInfo(Variant::BOOL, "minimap_enabled"), "set_minimap_enabled", "is_minimap_enabled");
ADD_PROPERTY(PropertyInfo(Variant::VECTOR2, "minimap_size", PROPERTY_HINT_NONE, "suffix:px"), "set_minimap_size", "get_minimap_size");
ADD_PROPERTY(PropertyInfo(Variant::FLOAT, "minimap_opacity"), "set_minimap_opacity", "get_minimap_opacity");
ADD_GROUP("UI", "");
ADD_PROPERTY(PropertyInfo(Variant::BOOL, "arrange_nodes_button_hidden"), "set_arrange_nodes_button_hidden", "is_arrange_nodes_button_hidden");
ADD_SIGNAL(MethodInfo("connection_request", PropertyInfo(Variant::STRING_NAME, "from"), PropertyInfo(Variant::INT, "from_slot"), PropertyInfo(Variant::STRING_NAME, "to"), PropertyInfo(Variant::INT, "to_slot")));
ADD_SIGNAL(MethodInfo("disconnection_request", PropertyInfo(Variant::STRING_NAME, "from"), PropertyInfo(Variant::INT, "from_slot"), PropertyInfo(Variant::STRING_NAME, "to"), PropertyInfo(Variant::INT, "to_slot")));
ADD_SIGNAL(MethodInfo("popup_request", PropertyInfo(Variant::VECTOR2, "position")));
ADD_SIGNAL(MethodInfo("duplicate_nodes_request"));
ADD_SIGNAL(MethodInfo("copy_nodes_request"));
ADD_SIGNAL(MethodInfo("paste_nodes_request"));
ADD_SIGNAL(MethodInfo("node_selected", PropertyInfo(Variant::OBJECT, "node", PROPERTY_HINT_RESOURCE_TYPE, "Node")));
ADD_SIGNAL(MethodInfo("node_deselected", PropertyInfo(Variant::OBJECT, "node", PROPERTY_HINT_RESOURCE_TYPE, "Node")));
ADD_SIGNAL(MethodInfo("connection_to_empty", PropertyInfo(Variant::STRING_NAME, "from"), PropertyInfo(Variant::INT, "from_slot"), PropertyInfo(Variant::VECTOR2, "release_position")));
ADD_SIGNAL(MethodInfo("connection_from_empty", PropertyInfo(Variant::STRING_NAME, "to"), PropertyInfo(Variant::INT, "to_slot"), PropertyInfo(Variant::VECTOR2, "release_position")));
ADD_SIGNAL(MethodInfo("delete_nodes_request", PropertyInfo(Variant::ARRAY, "nodes", PROPERTY_HINT_ARRAY_TYPE, "StringName")));
ADD_SIGNAL(MethodInfo("begin_node_move"));
ADD_SIGNAL(MethodInfo("end_node_move"));
ADD_SIGNAL(MethodInfo("scroll_offset_changed", PropertyInfo(Variant::VECTOR2, "offset")));
ADD_SIGNAL(MethodInfo("connection_drag_started", PropertyInfo(Variant::STRING, "from"), PropertyInfo(Variant::INT, "slot"), PropertyInfo(Variant::BOOL, "is_output")));
ADD_SIGNAL(MethodInfo("connection_drag_ended"));
BIND_ENUM_CONSTANT(SCROLL_ZOOMS);
BIND_ENUM_CONSTANT(SCROLL_PANS);
}
GraphEdit::GraphEdit() {
set_focus_mode(FOCUS_ALL);
// Allow dezooming 8 times from the default zoom level.
// At low zoom levels, text is unreadable due to its small size and poor filtering,
// but this is still useful for previewing and navigation.
zoom_min = (1 / Math::pow(zoom_step, 8));
// Allow zooming 4 times from the default zoom level.
zoom_max = (1 * Math::pow(zoom_step, 4));
panner.instantiate();
panner->set_callbacks(callable_mp(this, &GraphEdit::_scroll_callback), callable_mp(this, &GraphEdit::_pan_callback), callable_mp(this, &GraphEdit::_zoom_callback));
top_layer = memnew(GraphEditFilter(this));
add_child(top_layer, false, INTERNAL_MODE_BACK);
top_layer->set_mouse_filter(MOUSE_FILTER_PASS);
top_layer->set_anchors_and_offsets_preset(Control::PRESET_FULL_RECT);
top_layer->connect("draw", callable_mp(this, &GraphEdit::_top_layer_draw));
top_layer->connect("gui_input", callable_mp(this, &GraphEdit::_top_layer_input));
top_layer->connect("focus_exited", callable_mp(panner.ptr(), &ViewPanner::release_pan_key));
connections_layer = memnew(Control);
add_child(connections_layer, false, INTERNAL_MODE_FRONT);
connections_layer->connect("draw", callable_mp(this, &GraphEdit::_connections_layer_draw));
connections_layer->set_name("CLAYER");
connections_layer->set_disable_visibility_clip(true); // so it can draw freely and be offset
connections_layer->set_mouse_filter(MOUSE_FILTER_IGNORE);
h_scroll = memnew(HScrollBar);
h_scroll->set_name("_h_scroll");
top_layer->add_child(h_scroll);
v_scroll = memnew(VScrollBar);
v_scroll->set_name("_v_scroll");
top_layer->add_child(v_scroll);
//set large minmax so it can scroll even if not resized yet
h_scroll->set_min(-10000);
h_scroll->set_max(10000);
v_scroll->set_min(-10000);
v_scroll->set_max(10000);
h_scroll->connect("value_changed", callable_mp(this, &GraphEdit::_scroll_moved));
v_scroll->connect("value_changed", callable_mp(this, &GraphEdit::_scroll_moved));
zoom_hb = memnew(HBoxContainer);
top_layer->add_child(zoom_hb);
zoom_hb->set_position(Vector2(10, 10));
zoom_label = memnew(Label);
zoom_hb->add_child(zoom_label);
zoom_label->set_visible(false);
zoom_label->set_v_size_flags(Control::SIZE_SHRINK_CENTER);
zoom_label->set_horizontal_alignment(HORIZONTAL_ALIGNMENT_CENTER);
zoom_label->set_custom_minimum_size(Size2(48, 0));
_update_zoom_label();
zoom_minus = memnew(Button);
zoom_minus->set_flat(true);
zoom_hb->add_child(zoom_minus);
zoom_minus->set_tooltip_text(RTR("Zoom Out"));
zoom_minus->connect("pressed", callable_mp(this, &GraphEdit::_zoom_minus));
zoom_minus->set_focus_mode(FOCUS_NONE);
zoom_reset = memnew(Button);
zoom_reset->set_flat(true);
zoom_hb->add_child(zoom_reset);
zoom_reset->set_tooltip_text(RTR("Zoom Reset"));
zoom_reset->connect("pressed", callable_mp(this, &GraphEdit::_zoom_reset));
zoom_reset->set_focus_mode(FOCUS_NONE);
zoom_plus = memnew(Button);
zoom_plus->set_flat(true);
zoom_hb->add_child(zoom_plus);
zoom_plus->set_tooltip_text(RTR("Zoom In"));
zoom_plus->connect("pressed", callable_mp(this, &GraphEdit::_zoom_plus));
zoom_plus->set_focus_mode(FOCUS_NONE);
snap_button = memnew(Button);
snap_button->set_flat(true);
snap_button->set_toggle_mode(true);
snap_button->set_tooltip_text(RTR("Enable snap and show grid."));
snap_button->connect("pressed", callable_mp(this, &GraphEdit::_snap_toggled));
snap_button->set_pressed(true);
snap_button->set_focus_mode(FOCUS_NONE);
zoom_hb->add_child(snap_button);
snap_amount = memnew(SpinBox);
snap_amount->set_min(5);
snap_amount->set_max(100);
snap_amount->set_step(1);
snap_amount->set_value(20);
snap_amount->connect("value_changed", callable_mp(this, &GraphEdit::_snap_value_changed));
zoom_hb->add_child(snap_amount);
minimap_button = memnew(Button);
minimap_button->set_flat(true);
minimap_button->set_toggle_mode(true);
minimap_button->set_tooltip_text(RTR("Enable grid minimap."));
minimap_button->connect("pressed", callable_mp(this, &GraphEdit::_minimap_toggled));
minimap_button->set_pressed(true);
minimap_button->set_focus_mode(FOCUS_NONE);
zoom_hb->add_child(minimap_button);
layout_button = memnew(Button);
layout_button->set_flat(true);
zoom_hb->add_child(layout_button);
layout_button->set_tooltip_text(RTR("Arrange nodes."));
layout_button->connect("pressed", callable_mp(this, &GraphEdit::arrange_nodes));
layout_button->set_focus_mode(FOCUS_NONE);
Vector2 minimap_size = Vector2(240, 160);
float minimap_opacity = 0.65;
minimap = memnew(GraphEditMinimap(this));
top_layer->add_child(minimap);
minimap->set_name("_minimap");
minimap->set_modulate(Color(1, 1, 1, minimap_opacity));
minimap->set_mouse_filter(MOUSE_FILTER_PASS);
minimap->set_custom_minimum_size(Vector2(50, 50));
minimap->set_size(minimap_size);
minimap->set_anchors_preset(Control::PRESET_BOTTOM_RIGHT);
minimap->set_offset(Side::SIDE_LEFT, -minimap_size.x - MINIMAP_OFFSET);
minimap->set_offset(Side::SIDE_TOP, -minimap_size.y - MINIMAP_OFFSET);
minimap->set_offset(Side::SIDE_RIGHT, -MINIMAP_OFFSET);
minimap->set_offset(Side::SIDE_BOTTOM, -MINIMAP_OFFSET);
minimap->connect("draw", callable_mp(this, &GraphEdit::_minimap_draw));
set_clip_contents(true);
}