godot/scene/gui/graph_edit.cpp

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/**************************************************************************/
/* graph_edit.cpp */
/**************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/**************************************************************************/
/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
/* */
/* 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"
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#include "core/input/input.h"
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#include "core/math/math_funcs.h"
#include "core/os/keyboard.h"
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#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;
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bool GraphEditFilter::has_point(const Point2 &p_point) const {
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return ge->_filter_input(p_point);
}
GraphEditFilter::GraphEditFilter(GraphEdit *p_edit) {
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ge = p_edit;
}
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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_pos = (camera_center - camera_viewport / 2);
return Rect2(camera_pos, camera_viewport);
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}
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) {
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ERR_FAIL_COND(p_ev.is_null());
if (!ge->is_minimap_enabled()) {
return;
}
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Ref<InputEventMouseButton> mb = p_ev;
Ref<InputEventMouseMotion> mm = p_ev;
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if (mb.is_valid() && mb->get_button_index() == MouseButton::LEFT) {
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if (mb->is_pressed()) {
is_pressing = true;
Ref<Texture2D> resizer = get_theme_icon(SNAME("resizer"));
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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);
queue_redraw();
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} 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);
}
PackedStringArray GraphEdit::get_configuration_warnings() const {
PackedStringArray warnings = Control::get_configuration_warnings();
warnings.push_back(RTR("Please be aware that GraphEdit and GraphNode will undergo extensive refactoring in a future 4.x version involving compatibility-breaking API changes."));
return warnings;
}
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)) {
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return OK;
}
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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;
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connections.push_back(c);
top_layer->queue_redraw();
minimap->queue_redraw();
queue_redraw();
connections_layer->queue_redraw();
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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) {
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return true;
}
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}
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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()) {
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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->queue_redraw();
minimap->queue_redraw();
queue_redraw();
connections_layer->queue_redraw();
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return;
}
}
}
void GraphEdit::get_connection_list(List<Connection> *r_connections) const {
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*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->queue_redraw();
minimap->queue_redraw();
queue_redraw();
}
void GraphEdit::_update_scroll_offset() {
set_block_minimum_size_adjust(true);
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for (int i = 0; i < get_child_count(); i++) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
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continue;
}
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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));
}
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}
connections_layer->set_position(-Point2(h_scroll->get_value(), v_scroll->get_value()));
set_block_minimum_size_adjust(false);
awaiting_scroll_offset_update = false;
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() {
if (updating) {
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return;
}
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updating = true;
set_block_minimum_size_adjust(true);
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Rect2 screen;
for (int i = 0; i < get_child_count(); i++) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
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continue;
}
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Rect2 r;
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r.position = gn->get_position_offset() * zoom;
r.size = gn->get_size() * zoom;
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screen = screen.merge(r);
}
screen.position -= get_size();
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screen.size += get_size() * 2.0;
h_scroll->set_min(screen.position.x);
h_scroll->set_max(screen.position.x + screen.size.x);
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h_scroll->set_page(get_size().x);
if (h_scroll->get_max() - h_scroll->get_min() <= h_scroll->get_page()) {
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h_scroll->hide();
} else {
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h_scroll->show();
}
v_scroll->set_min(screen.position.y);
v_scroll->set_max(screen.position.y + screen.size.y);
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v_scroll->set_page(get_size().y);
if (v_scroll->get_max() - v_scroll->get_min() <= v_scroll->get_page()) {
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v_scroll->hide();
} else {
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v_scroll->show();
}
Size2 hmin = h_scroll->get_combined_minimum_size();
Size2 vmin = v_scroll->get_combined_minimum_size();
// Avoid scrollbar overlapping.
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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;
}
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updating = false;
}
void GraphEdit::_graph_node_raised(Node *p_gn) {
GraphNode *gn = Object::cast_to<GraphNode>(p_gn);
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ERR_FAIL_COND(!gn);
if (gn->is_comment()) {
move_child(gn, 0);
} else {
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gn->move_to_front();
}
}
void GraphEdit::_graph_node_selected(Node *p_gn) {
GraphNode *gn = Object::cast_to<GraphNode>(p_gn);
ERR_FAIL_COND(!gn);
emit_signal(SNAME("node_selected"), gn);
}
void GraphEdit::_graph_node_deselected(Node *p_gn) {
GraphNode *gn = Object::cast_to<GraphNode>(p_gn);
ERR_FAIL_COND(!gn);
emit_signal(SNAME("node_deselected"), gn);
}
void GraphEdit::_graph_node_moved(Node *p_gn) {
GraphNode *gn = Object::cast_to<GraphNode>(p_gn);
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ERR_FAIL_COND(!gn);
top_layer->queue_redraw();
minimap->queue_redraw();
queue_redraw();
connections_layer->queue_redraw();
}
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->queue_redraw();
minimap->queue_redraw();
queue_redraw();
connections_layer->queue_redraw();
}
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!
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GraphNode *gn = Object::cast_to<GraphNode>(p_child);
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if (gn) {
gn->set_scale(Vector2(zoom, zoom));
gn->connect("position_offset_changed", callable_mp(this, &GraphEdit::_graph_node_moved).bind(gn));
gn->connect("node_selected", callable_mp(this, &GraphEdit::_graph_node_selected).bind(gn));
gn->connect("node_deselected", callable_mp(this, &GraphEdit::_graph_node_deselected).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::queue_redraw));
gn->connect("item_rect_changed", callable_mp((CanvasItem *)minimap, &GraphEditMinimap::queue_redraw));
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_graph_node_moved(gn);
gn->set_mouse_filter(MOUSE_FILTER_PASS);
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}
}
void GraphEdit::remove_child_notify(Node *p_child) {
Control::remove_child_notify(p_child);
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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!
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}
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GraphNode *gn = Object::cast_to<GraphNode>(p_child);
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if (gn) {
gn->disconnect("position_offset_changed", callable_mp(this, &GraphEdit::_graph_node_moved));
gn->disconnect("node_selected", callable_mp(this, &GraphEdit::_graph_node_selected));
gn->disconnect("node_deselected", callable_mp(this, &GraphEdit::_graph_node_deselected));
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::queue_redraw));
}
if (minimap != nullptr && minimap->is_inside_tree()) {
gn->disconnect("item_rect_changed", callable_mp((CanvasItem *)minimap, &GraphEditMinimap::queue_redraw));
}
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}
}
void GraphEdit::_notification(int p_what) {
switch (p_what) {
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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->queue_redraw();
minimap->queue_redraw();
} break;
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}
}
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"));
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for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
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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)) {
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return true;
}
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}
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)) {
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return true;
}
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}
}
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return false;
}
void GraphEdit::_top_layer_input(const Ref<InputEvent> &p_ev) {
Ref<InputEventMouseButton> mb = p_ev;
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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;
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for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
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continue;
}
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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(NodePath(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(NodePath(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;
}
}
}
}
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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);
}
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return;
}
}
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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(NodePath(E.from));
if (Object::cast_to<GraphNode>(fr)) {
connecting_from = E.from;
connecting_index = E.from_port;
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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);
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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(NodePath(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);
}
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}
return;
}
}
}
}
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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);
}
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return;
}
}
}
}
Ref<InputEventMouseMotion> mm = p_ev;
if (mm.is_valid() && connecting) {
connecting_to = mm->get_position();
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connecting_target = false;
top_layer->queue_redraw();
minimap->queue_redraw();
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;
}
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}
} 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;
}
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}
}
}
}
}
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if (mb.is_valid() && mb->get_button_index() == MouseButton::LEFT && !mb->is_pressed()) {
if (connecting_valid) {
if (connecting && connecting_target) {
if (connecting_out) {
emit_signal(SNAME("connection_request"), connecting_from, connecting_index, connecting_target_to, connecting_target_index);
} else {
emit_signal(SNAME("connection_request"), connecting_target_to, connecting_target_index, connecting_from, connecting_index);
}
} else if (!just_disconnected) {
if (connecting_out) {
emit_signal(SNAME("connection_to_empty"), connecting_from, connecting_index, mb->get_position());
} else {
emit_signal(SNAME("connection_from_empty"), connecting_from, connecting_index, mb->get_position());
}
}
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}
if (connecting) {
force_connection_drag_end();
}
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}
}
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_node, int p_port, const Vector2 &p_mouse_pos, const Vector2i &p_port_size) {
bool success;
if (GDVIRTUAL_CALL(_is_in_input_hotzone, p_node, p_port, p_mouse_pos, success)) {
return success;
} else {
Vector2 pos = p_node->get_connection_input_position(p_port) + p_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_node, int p_port, const Vector2 &p_mouse_pos, const Vector2i &p_port_size) {
bool success;
if (GDVIRTUAL_CALL(_is_in_output_hotzone, p_node, p_port, p_mouse_pos, success)) {
return success;
} else {
Vector2 pos = p_node->get_connection_output_position(p_port) + p_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++) {
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GraphNode *child = Object::cast_to<GraphNode>(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;
Improve VisualScript UX * Prototype faster function call ux. * Work on general search ux. * Able to create nodes from search. * Show class for variables but not methods. * Get actions search working. * Descriptions now show for both methods and properties. * Enable zooming on mouse wheel up and down. * Make the drag trigger on right mouse button. * Search now shows for action visual script nodes. * Able to search visual node names. * Search works better. * Change zooming scale to hide artifacts better. * Remove zoom changes * Select from base should check properties too like the other functions. * Seq_connect flag is needed to set sequence lines correctly. * Remove comment * Code cleanup with function names and arguments. * Use brief description for search descriptions. * Clean and fix bug with input nodes connecting with sequence lines. * Add a warning and fix some edge conditions with sequence into data lines and vice versa. * Don't search functions when pulling from a sequence node. * Don't show actions when pulling from a data line. * Set set and get properties. * Convert visual script operators to the correct type * Create a function preset finds only functions. * Singletons can now find functions. * Add shift-a for generic search. * Add brief descriptions for Visual Script nodes. * Search boxes can now filter names. * Add bigger hit zones to node connect. * For the drop zones, make all the rect2 areas the same size. * Function names in visual script node should be lower case so that search works better. * Use the convention of capitalize() for set, set, visual script nodes and methods. * Make search more general. Ignore "_" and make case-insensitive. Also made the search window smaller and remove extra info from search * Make type_cast use the connecting node's type and remove use of found variable. * Fix case where you call an instance's call function where it becomes an invalid call. * Make get_visual_node_names use a set of filters, move action creations and fix bug with sequence node connections. * Make the window bigger. * Make connect_data and connect_seq more robust. * Add icons to search items. * Add vs constructors in shift-a menu. * Operators, builtins and constructors show type name. Fix several problems with port connections. * In shift-a mode search everything. * Code cleanup * Work on autocompleting the type. * Use type guess in action creation. * Check if type hint string exists in object variables when generating the visual script search. * Add the hint to SceneTree. * Add original type detection. * Make type casting great again. This puts the type casted base type as the data output type string hint. * Pass the type in a VisualScriptFunctionCall too. * Set the base type correctly in VisualScriptFunctionGet and VisualScriptFunctionSet using hint string. * Make sure the instance is passed in VisualScriptPropertySet. * Restore search on the node's type. * Remove dependencies from graph_edit. * Remove dependencies from property_selector and name the class visual_script_property_selector. * Extract hot zones into a function. * Move hot_zones constants into default theme. * Bigger capture zones. * Clean messy port_grab_distance variables. * Remove RMB functionality. * Remove memory leak on showing visual script descriptions. * Read the port_grab_distance constants on enter tree and theme changed.
2018-05-13 03:34:35 +00:00
}
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;
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}
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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);
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curve.set_point_out(0, Vector2(cp_offset, 0));
curve.add_point(p_to);
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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;
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float length = (p_from / p_zoom).distance_to(p_to / p_zoom);
for (int i = 0; i < points.size(); i++) {
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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);
}
// Thickness below 0.5 doesn't look good on the graph or its minimap.
p_where->draw_polyline_colors(scaled_points, colors, MAX(0.5, 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.
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List<List<Connection>::Element *> to_erase;
for (List<Connection>::Element *E = connections.front(); E; E = E->next()) {
const Connection &c = E->get();
Node *from = get_node(NodePath(c.from));
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GraphNode *gfrom = Object::cast_to<GraphNode>(from);
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if (!gfrom) {
to_erase.push_back(E);
continue;
}
Node *to = get_node(NodePath(c.to));
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GraphNode *gto = Object::cast_to<GraphNode>(to);
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if (!gto) {
to_erase.push_back(E);
continue;
}
Vector2 frompos = gfrom->get_connection_output_position(c.from_port) + gfrom->get_position_offset() * zoom;
Color color = gfrom->get_connection_output_color(c.from_port);
Vector2 topos = gto->get_connection_input_position(c.to_port) + gto->get_position_offset() * zoom;
Color tocolor = gto->get_connection_input_color(c.to_port);
if (c.activity > 0) {
color = color.lerp(activity_color, c.activity);
tocolor = tocolor.lerp(activity_color, c.activity);
}
_draw_connection_line(connections_layer, frompos, topos, color, tocolor, lines_thickness, zoom);
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}
for (List<Connection>::Element *&E : to_erase) {
connections.erase(E);
}
}
void GraphEdit::_top_layer_draw() {
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_update_scroll();
if (connecting) {
Node *fromn = get_node(NodePath(connecting_from));
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ERR_FAIL_COND(!fromn);
GraphNode *from = Object::cast_to<GraphNode>(fromn);
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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();
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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);
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}
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);
}
}
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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);
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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;
}
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Vector2 node_position = minimap->_convert_from_graph_position(gn->get_position_offset() * zoom - graph_offset) + minimap_offset;
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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();
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// 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");
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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;
}
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Vector2 node_position = minimap->_convert_from_graph_position(gn->get_position_offset() * zoom - graph_offset) + minimap_offset;
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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();
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// 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");
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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) {
Node *from = get_node(NodePath(E.from));
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GraphNode *gfrom = Object::cast_to<GraphNode>(from);
if (!gfrom) {
continue;
}
Node *to = get_node(NodePath(E.to));
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GraphNode *gto = Object::cast_to<GraphNode>(to);
if (!gto) {
continue;
}
Vector2 from_port_position = gfrom->get_position_offset() * zoom + gfrom->get_connection_output_position(E.from_port);
Vector2 from_position = minimap->_convert_from_graph_position(from_port_position - graph_offset) + minimap_offset;
Color from_color = gfrom->get_connection_output_color(E.from_port);
Vector2 to_port_position = gto->get_position_offset() * zoom + gto->get_connection_input_position(E.to_port);
Vector2 to_position = minimap->_convert_from_graph_position(to_port_position - graph_offset) + minimap_offset;
Color to_color = gto->get_connection_input_color(E.to_port);
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if (E.activity > 0) {
from_color = from_color.lerp(activity_color, E.activity);
to_color = to_color.lerp(activity_color, E.activity);
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}
_draw_connection_line(minimap, from_position, to_position, from_color, to_color, 0.5, minimap->_convert_from_graph_position(Vector2(zoom, zoom)).length());
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}
// Draw the "camera" viewport.
Rect2 camera_rect = minimap->get_camera_rect();
minimap->draw_style_box(minimap->get_theme_stylebox(SNAME("camera")), camera_rect);
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// Draw the resizer control.
Ref<Texture2D> resizer = minimap->get_theme_icon(SNAME("resizer"));
Color resizer_color = minimap->get_theme_color(SNAME("resizer_color"));
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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) {
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ERR_FAIL_COND(p_ev.is_null());
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if (panner->gui_input(p_ev, warped_panning ? get_global_rect() : Rect2())) {
return;
}
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Ref<InputEventMouseMotion> mm = p_ev;
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if (mm.is_valid() && dragging) {
if (!moving_selection) {
emit_signal(SNAME("begin_node_move"));
moving_selection = true;
}
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just_selected = true;
drag_accum += mm->get_relative();
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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.
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if (is_using_snap() ^ Input::get_singleton()->is_key_pressed(Key::CTRL)) {
const int snap = get_snap();
pos = pos.snapped(Vector2(snap, snap));
}
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gn->set_position_offset(pos);
if (gn->is_comment()) {
_set_position_of_comment_enclosed_nodes(gn, comment_enclosed_nodes, drag_accum);
}
}
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}
}
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if (mm.is_valid() && box_selecting) {
box_selecting_to = mm->get_position();
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box_selecting_rect = Rect2(box_selecting_from.min(box_selecting_to), (box_selecting_from - box_selecting_to).abs());
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for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
if (!gn) {
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continue;
}
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Rect2 r = gn->get_rect();
r.size *= zoom;
bool in_box = r.intersects(box_selecting_rect);
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if (in_box) {
gn->set_selected(box_selection_mode_additive);
} else {
gn->set_selected(previous_selected.find(gn) != nullptr);
}
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}
top_layer->queue_redraw();
minimap->queue_redraw();
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}
Ref<InputEventMouseButton> b = p_ev;
if (b.is_valid()) {
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if (b->get_button_index() == MouseButton::RIGHT && b->is_pressed()) {
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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) {
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continue;
}
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gn->set_selected(previous_selected.find(gn) != nullptr);
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}
top_layer->queue_redraw();
minimap->queue_redraw();
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} else {
if (connecting) {
force_connection_drag_end();
} else {
emit_signal(SNAME("popup_request"), b->get_position());
}
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}
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}
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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)) {
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//deselect current node
for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn = Object::cast_to<GraphNode>(get_child(i));
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if (gn) {
Rect2 r = gn->get_rect();
r.size *= zoom;
if (r.has_point(b->get_position())) {
gn->set_selected(false);
}
}
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}
}
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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()) {
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gn->set_drag(false);
if (gn->is_comment()) {
_set_drag_comment_enclosed_nodes(gn, comment_enclosed_nodes, false);
}
}
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}
}
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if (moving_selection) {
emit_signal(SNAME("end_node_move"));
moving_selection = false;
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}
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dragging = false;
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top_layer->queue_redraw();
minimap->queue_redraw();
queue_redraw();
connections_layer->queue_redraw();
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}
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if (b->get_button_index() == MouseButton::LEFT && b->is_pressed()) {
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GraphNode *gn = nullptr;
// Find node which was clicked on.
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for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn_selected = Object::cast_to<GraphNode>(get_child(i));
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if (!gn_selected) {
continue;
}
if (gn_selected->is_resizing()) {
continue;
}
if (gn_selected->has_point((b->get_position() - gn_selected->get_position()) / zoom)) {
gn = gn_selected;
break;
}
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}
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if (gn) {
if (_filter_input(b->get_position())) {
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return;
}
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// Left-clicked on a node, select it.
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dragging = true;
drag_accum = Vector2();
just_selected = !gn->is_selected();
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if (!gn->is_selected() && !Input::get_singleton()->is_key_pressed(Key::CTRL)) {
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for (int i = 0; i < get_child_count(); i++) {
GraphNode *o_gn = Object::cast_to<GraphNode>(get_child(i));
if (!o_gn) {
continue;
}
o_gn->set_selected(o_gn == gn);
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}
}
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gn->set_selected(true);
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for (int i = 0; i < get_child_count(); i++) {
GraphNode *o_gn = Object::cast_to<GraphNode>(get_child(i));
if (!o_gn) {
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continue;
}
if (o_gn->is_selected()) {
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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);
}
}
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}
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} else {
if (_filter_input(b->get_position())) {
return;
}
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if (panner->is_panning()) {
return;
}
// Left-clicked on empty space, start box select.
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box_selecting = true;
box_selecting_from = b->get_position();
if (b->is_ctrl_pressed()) {
box_selection_mode_additive = true;
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previous_selected.clear();
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for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn2 = Object::cast_to<GraphNode>(get_child(i));
if (!gn2 || !gn2->is_selected()) {
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continue;
}
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previous_selected.push_back(gn2);
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}
} else if (b->is_shift_pressed()) {
box_selection_mode_additive = false;
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previous_selected.clear();
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for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn2 = Object::cast_to<GraphNode>(get_child(i));
if (!gn2 || !gn2->is_selected()) {
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continue;
}
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previous_selected.push_back(gn2);
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}
} else {
box_selection_mode_additive = true;
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previous_selected.clear();
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for (int i = get_child_count() - 1; i >= 0; i--) {
GraphNode *gn2 = Object::cast_to<GraphNode>(get_child(i));
if (!gn2) {
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continue;
}
gn2->set_selected(false);
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}
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}
}
}
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if (b->get_button_index() == MouseButton::LEFT && !b->is_pressed() && box_selecting) {
// Box selection ended. Nodes were selected during mouse movement.
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box_selecting = false;
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box_selecting_rect = Rect2();
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previous_selected.clear();
top_layer->queue_redraw();
minimap->queue_redraw();
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}
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}
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if (p_ev->is_pressed()) {
if (p_ev->is_action("ui_graph_duplicate", true)) {
emit_signal(SNAME("duplicate_nodes_request"));
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accept_event();
} else if (p_ev->is_action("ui_copy", true)) {
emit_signal(SNAME("copy_nodes_request"));
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accept_event();
} else if (p_ev->is_action("ui_paste", true)) {
emit_signal(SNAME("paste_nodes_request"));
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accept_event();
} else if (p_ev->is_action("ui_graph_delete", true)) {
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);
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accept_event();
}
}
}
void GraphEdit::_pan_callback(Vector2 p_scroll_vec, Ref<InputEvent> p_event) {
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(float p_zoom_factor, Vector2 p_origin, Ref<InputEvent> p_event) {
set_zoom_custom(zoom * p_zoom_factor, 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->queue_redraw();
minimap->queue_redraw();
connections_layer->queue_redraw();
}
E.activity = p_activity;
return;
}
}
}
void GraphEdit::clear_connections() {
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connections.clear();
minimap->queue_redraw();
queue_redraw();
connections_layer->queue_redraw();
}
void GraphEdit::force_connection_drag_end() {
ERR_FAIL_COND_MSG(!connecting, "Drag end requested without active drag!");
connecting = false;
connecting_valid = false;
top_layer->queue_redraw();
minimap->queue_redraw();
queue_redraw();
connections_layer->queue_redraw();
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) {
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bool valid = true;
GDVIRTUAL_CALL(_is_node_hover_valid, p_from, p_from_port, p_to, p_to_port, valid);
return valid;
}
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) {
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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;
}
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Vector2 sbofs = (Vector2(h_scroll->get_value(), v_scroll->get_value()) + p_center) / zoom;
zoom = p_zoom;
top_layer->queue_redraw();
zoom_minus->set_disabled(zoom == zoom_min);
zoom_plus->set_disabled(zoom == zoom_max);
_update_scroll();
minimap->queue_redraw();
connections_layer->queue_redraw();
if (is_visible_in_tree()) {
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Vector2 ofs = sbofs * zoom - p_center;
h_scroll->set_value(ofs.x);
v_scroll->set_value(ofs.y);
}
_update_zoom_label();
queue_redraw();
}
float GraphEdit::get_zoom() const {
return zoom;
}
void GraphEdit::set_zoom_step(float p_zoom_step) {
p_zoom_step = abs(p_zoom_step);
ERR_FAIL_COND(!isfinite(p_zoom_step));
if (zoom_step == p_zoom_step) {
return;
}
zoom_step = p_zoom_step;
panner->set_scroll_zoom_factor(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) {
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right_disconnects = p_enable;
}
bool GraphEdit::is_right_disconnects_enabled() const {
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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 {
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List<Connection> conns;
get_connection_list(&conns);
TypedArray<Dictionary> arr;
for (const Connection &E : conns) {
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Dictionary d;
d["from"] = E.from;
d["from_port"] = E.from_port;
d["to"] = E.to;
d["to_port"] = E.to_port;
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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);
queue_redraw();
}
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);
queue_redraw();
}
void GraphEdit::_snap_toggled() {
queue_redraw();
}
void GraphEdit::_snap_value_changed(double) {
queue_redraw();
}
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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);
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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->queue_redraw();
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}
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;
}
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minimap->set_modulate(Color(1, 1, 1, p_opacity));
minimap->queue_redraw();
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}
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;
}
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minimap_button->set_pressed(p_enable);
_minimap_toggled();
minimap->queue_redraw();
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}
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;
}
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void GraphEdit::_minimap_toggled() {
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if (is_minimap_enabled()) {
minimap->set_visible(true);
minimap->queue_redraw();
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} else {
minimap->set_visible(false);
}
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}
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void GraphEdit::set_connection_lines_curvature(float p_curvature) {
lines_curvature = p_curvature;
queue_redraw();
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}
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;
queue_redraw();
}
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;
queue_redraw();
}
bool GraphEdit::is_connection_lines_antialiased() const {
return lines_antialiased;
}
HBoxContainer *GraphEdit::get_zoom_hbox() {
return zoom_hb;
}
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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;
bool arrange_entire_graph = true;
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;
if (gn->is_selected()) {
arrange_entire_graph = false;
}
}
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() || arrange_entire_graph) {
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() || arrange_entire_graph) && 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_node", "from_port", "to_node", "to_port"), &GraphEdit::connect_node);
ClassDB::bind_method(D_METHOD("is_node_connected", "from_node", "from_port", "to_node", "to_port"), &GraphEdit::is_node_connected);
ClassDB::bind_method(D_METHOD("disconnect_node", "from_node", "from_port", "to_node", "to_port"), &GraphEdit::disconnect_node);
ClassDB::bind_method(D_METHOD("set_connection_activity", "from_node", "from_port", "to_node", "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_node", "to_node"), &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);
2022-05-30 13:38:13 +00:00
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);
2020-11-06 19:16:45 +00:00
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);
2020-11-06 19:16:45 +00:00
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, "in_node", "in_port", "mouse_position");
GDVIRTUAL_BIND(_is_in_output_hotzone, "in_node", "in_port", "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_position", "to_position")
GDVIRTUAL_BIND(_is_node_hover_valid, "from_node", "from_port", "to_node", "to_port");
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");
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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_");
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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");
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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_node"), PropertyInfo(Variant::INT, "from_port"), PropertyInfo(Variant::STRING_NAME, "to_node"), PropertyInfo(Variant::INT, "to_port")));
ADD_SIGNAL(MethodInfo("disconnection_request", PropertyInfo(Variant::STRING_NAME, "from_node"), PropertyInfo(Variant::INT, "from_port"), PropertyInfo(Variant::STRING_NAME, "to_node"), PropertyInfo(Variant::INT, "to_port")));
ADD_SIGNAL(MethodInfo("popup_request", PropertyInfo(Variant::VECTOR2, "position")));
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ADD_SIGNAL(MethodInfo("duplicate_nodes_request"));
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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")));
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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_node"), PropertyInfo(Variant::INT, "from_port"), PropertyInfo(Variant::VECTOR2, "release_position")));
ADD_SIGNAL(MethodInfo("connection_from_empty", PropertyInfo(Variant::STRING_NAME, "to_node"), PropertyInfo(Variant::INT, "to_port"), 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_NAME, "from_node"), PropertyInfo(Variant::INT, "from_port"), PropertyInfo(Variant::BOOL, "is_output")));
ADD_SIGNAL(MethodInfo("connection_drag_ended"));
BIND_ENUM_CONSTANT(SCROLL_ZOOMS);
BIND_ENUM_CONSTANT(SCROLL_PANS);
}
GraphEdit::GraphEdit() {
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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::_pan_callback), callable_mp(this, &GraphEdit::_zoom_callback));
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top_layer = memnew(GraphEditFilter(this));
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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));
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top_layer->connect("focus_exited", callable_mp(panner.ptr(), &ViewPanner::release_pan_key));
connections_layer = memnew(Control);
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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);
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h_scroll = memnew(HScrollBar);
h_scroll->set_name("_h_scroll");
top_layer->add_child(h_scroll);
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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);
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minimap_button = memnew(Button);
minimap_button->set_flat(true);
minimap_button->set_toggle_mode(true);
minimap_button->set_tooltip_text(RTR("Enable grid minimap."));
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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);
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Vector2 minimap_size = Vector2(240, 160);
float minimap_opacity = 0.65;
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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);
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minimap->set_custom_minimum_size(Vector2(50, 50));
minimap->set_size(minimap_size);
minimap->set_anchors_preset(Control::PRESET_BOTTOM_RIGHT);
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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);
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minimap->connect("draw", callable_mp(this, &GraphEdit::_minimap_draw));
set_clip_contents(true);
}