limboai/editor/tree_search.cpp

498 lines
15 KiB
C++

/**
* tree_search.cpp
* =============================================================================
* Copyright 2021-2024 Serhii Snitsaruk
*
* Use of this source code is governed by an MIT-style
* license that can be found in the LICENSE file or at
* https://opensource.org/licenses/MIT.
* =============================================================================
*/
#ifdef TOOLS_ENABLED
#include "tree_search.h"
#include "../util/limbo_compat.h" // for edscale
#include "../util/limbo_string_names.h"
#include "../util/limbo_utility.h"
#ifdef LIMBOAI_MODULE
#include "core/math/math_funcs.h"
#include "editor/editor_interface.h"
#include "editor/themes/editor_scale.h"
#include "scene/gui/separator.h"
#include "scene/main/viewport.h"
#include "scene/resources/font.h"
#include "scene/resources/style_box_flat.h"
#endif // LIMBOAI_MODULE
#ifdef LIMBOAI_GDEXTENSION
#include <godot_cpp/classes/editor_interface.hpp> // for edge scale
#include <godot_cpp/classes/font.hpp>
#include <godot_cpp/classes/h_separator.hpp>
#include <godot_cpp/classes/style_box_flat.hpp>
#include <godot_cpp/classes/viewport.hpp>
#include <godot_cpp/core/math.hpp>
#endif // LIMBOAI_GDEXTENSION
#define UPPER_BOUND (1 << 15) // for substring search.
/* ------- TreeSearchPanel ------- */
void TreeSearchPanel::_initialize_controls() {
line_edit_search = memnew(LineEdit);
check_button_filter_highlight = memnew(CheckBox);
close_button = memnew(Button);
label_filter = memnew(Label);
line_edit_search->set_placeholder(TTR("Search tree"));
label_filter->set_text(TTR("Filter"));
BUTTON_SET_ICON(close_button, get_theme_icon(LW_NAME(Close), LW_NAME(EditorIcons)));
close_button->set_theme_type_variation("FlatButton");
// positioning and sizing
this->set_anchors_and_offsets_preset(LayoutPreset::PRESET_BOTTOM_WIDE);
this->set_v_size_flags(SIZE_SHRINK_CENTER); // Do not expand vertically
line_edit_search->set_h_size_flags(SIZE_EXPAND_FILL);
_add_spacer(0.25); // otherwise the lineedits expand margin touches the left border.
add_child(line_edit_search);
_add_spacer(0.25);
add_child(check_button_filter_highlight);
add_child(label_filter);
_add_spacer(0.25);
add_child(close_button);
_add_spacer(0.25);
}
void TreeSearchPanel::_initialize_close_callbacks() {
Callable calleable_set_invisible = Callable(this, "set_visible").bind(false); // don't need a custom bind.
close_button->connect("pressed", calleable_set_invisible);
close_button->set_shortcut(LW_GET_SHORTCUT("limbo_ai/hide_tree_search"));
}
void TreeSearchPanel::_add_spacer(float p_width_multiplier) {
Control *spacer = memnew(Control);
spacer->set_custom_minimum_size(Vector2(8.0 * EDSCALE * p_width_multiplier, 0.0));
add_child(spacer);
}
void TreeSearchPanel::_emit_text_submitted(const String &p_text) {
this->emit_signal("text_submitted");
}
void TreeSearchPanel::_emit_update_requested() {
emit_signal("update_requested");
}
void TreeSearchPanel::_notification(int p_what) {
switch (p_what) {
case NOTIFICATION_READY: {
_initialize_controls();
line_edit_search->connect("text_changed", callable_mp(this, &TreeSearchPanel::_emit_update_requested).unbind(1));
_initialize_close_callbacks();
line_edit_search->connect("text_submitted", callable_mp(this, &TreeSearchPanel::_emit_text_submitted));
check_button_filter_highlight->connect("pressed", callable_mp(this, &TreeSearchPanel::_emit_update_requested));
break;
}
}
}
void TreeSearchPanel::_bind_methods() {
ADD_SIGNAL(MethodInfo("update_requested"));
ADD_SIGNAL(MethodInfo("text_submitted"));
}
TreeSearchPanel::TreeSearchPanel() {
this->set_visible(false);
}
bool TreeSearchPanel::has_focus() {
return false;
}
TreeSearchMode TreeSearchPanel::get_search_mode() {
if (!check_button_filter_highlight || !check_button_filter_highlight->is_pressed()) {
return TreeSearchMode::HIGHLIGHT;
}
return TreeSearchMode::FILTER;
}
String TreeSearchPanel::get_text() {
if (!line_edit_search)
return String();
return line_edit_search->get_text();
}
void TreeSearchPanel::show_and_focus() {
this->set_visible(true);
line_edit_search->grab_focus();
}
/* !TreeSearchPanel */
/* ------- TreeSearch ------- */
void TreeSearch::_filter_tree(const String &p_search_mask) {
if (matching_entries.size() == 0) {
return;
}
for (int i = 0; i < ordered_tree_items.size(); i++) {
TreeItem *cur_item = ordered_tree_items[i];
if (number_matches.has(cur_item)) {
continue;
}
TreeItem *first_counting_ancestor = cur_item;
while (first_counting_ancestor && !number_matches.has(first_counting_ancestor)) {
first_counting_ancestor = first_counting_ancestor->get_parent();
}
if (!first_counting_ancestor || !_vector_has_bsearch(matching_entries, first_counting_ancestor)) {
cur_item->set_visible(false);
}
}
}
void TreeSearch::_highlight_tree(const String &p_search_mask) {
callable_cache.clear();
for (int i = 0; i < ordered_tree_items.size(); i++) {
TreeItem *entry = ordered_tree_items[i];
int num_m = number_matches.has(entry) ? number_matches.get(entry) : 0;
if (num_m == 0) {
continue;
}
// make sure to also call any draw method already defined.
Callable parent_draw_method;
if (entry->get_cell_mode(0) == TreeItem::CELL_MODE_CUSTOM) {
parent_draw_method = entry->get_custom_draw_callback(0);
}
Callable draw_callback = callable_mp(this, &TreeSearch::_draw_highlight_item).bind(parent_draw_method);
// -- this is necessary because of the modularity of this implementation
// cache render properties of entry
String cached_text = entry->get_text(0);
Ref<Texture2D> cached_icon = entry->get_icon(0);
int cached_max_width = entry->get_icon_max_width(0);
callable_cache[entry] = draw_callback;
// this removes render properties in entry
entry->set_custom_draw_callback(0, draw_callback);
entry->set_cell_mode(0, TreeItem::CELL_MODE_CUSTOM);
// restore render properties
entry->set_text(0, cached_text);
entry->set_icon(0, cached_icon);
entry->set_icon_max_width(0, cached_max_width);
}
}
// custom draw callback for highlighting (bind the parent_drw_method to this)
void TreeSearch::_draw_highlight_item(TreeItem *p_tree_item, Rect2 p_rect, Callable p_parent_draw_method) {
if (!p_tree_item){
return;
}
// call any parent draw methods such as for probability FIRST.
p_parent_draw_method.call(p_tree_item, p_rect);
// first part: outline
if (matching_entries.has(p_tree_item)) {
// font info
Ref<Font> font = p_tree_item->get_custom_font(0);
if (font.is_null()) {
font = p_tree_item->get_tree()->get_theme_font(LW_NAME(font));
}
ERR_FAIL_NULL(font);
float font_size = p_tree_item->get_custom_font_size(0);
if (font_size == -1) {
font_size = p_tree_item->get_tree()->get_theme_font_size(LW_NAME(font));
}
// substring size
String string_full = p_tree_item->get_text(0);
StringSearchIndices substring_idx = _substring_bounds(string_full, _get_search_mask());
String substring_match = string_full.substr(substring_idx.lower, substring_idx.upper - substring_idx.lower);
Vector2 substring_match_size = font->get_string_size(substring_match, HORIZONTAL_ALIGNMENT_LEFT, -1.f, font_size);
String substring_before = string_full.substr(0, substring_idx.lower);
Vector2 substring_before_size = font->get_string_size(substring_before, HORIZONTAL_ALIGNMENT_LEFT, -1.f, font_size);
// stylebox
Ref<StyleBox> stylebox = p_tree_item->get_tree()->get_theme_stylebox("Focus");
ERR_FAIL_NULL(stylebox);
// extract separation
float h_sep = p_tree_item->get_tree()->get_theme_constant("h_separation");
// compose draw rect
const Vector2 PADDING = Vector2(4., 2.);
Rect2 draw_rect = p_rect;
Vector2 rect_offset = Vector2(substring_before_size.x, 0);
rect_offset.x += p_tree_item->get_icon_max_width(0);
rect_offset.x += (h_sep + 4. * EDSCALE); // TODO: Find better way to determine texts x-offset
rect_offset.y = (p_rect.size.y - substring_match_size.y) / 2; // center box vertically
draw_rect.position += rect_offset - PADDING / 2;
draw_rect.size = substring_match_size + PADDING;
// draw
stylebox->draw(p_tree_item->get_tree()->get_canvas_item(), draw_rect);
}
// second part: draw number
int num_mat = number_matches.has(p_tree_item) ? number_matches.get(p_tree_item) : 0;
if (num_mat > 0) {
float h_sep = p_tree_item->get_tree()->get_theme_constant("h_separation");
Ref<Font> font = tree_reference->get_theme_font("font");
float font_size = tree_reference->get_theme_font_size("font") * 0.75;
String num_string = String::num_int64(num_mat);
Vector2 string_size = font->get_string_size(num_string, HORIZONTAL_ALIGNMENT_CENTER, -1, font_size);
Vector2 text_pos = p_rect.position;
text_pos.x += p_rect.size.x - string_size.x - h_sep;
text_pos.y += font->get_descent(font_size) + p_rect.size.y / 2.; // center vertically
font->draw_string(tree_reference->get_canvas_item(), text_pos, num_string, HORIZONTAL_ALIGNMENT_CENTER, -1, font_size);
}
}
void TreeSearch::_update_matching_entries(const String &p_search_mask) {
Vector<TreeItem *> accum;
matching_entries = _find_matching_entries(tree_reference->get_root(), p_search_mask, accum);
}
/* this linearizes the tree into [ordered_tree_items] like so:
- i1
- i2
- i3
- i4 ---> [i1,i2,i3,i4]
*/
void TreeSearch::_update_ordered_tree_items(TreeItem *p_tree_item) {
if (!p_tree_item)
return;
if (p_tree_item == p_tree_item->get_tree()->get_root()) {
ordered_tree_items.clear();
}
// Add the current item to the list
ordered_tree_items.push_back(p_tree_item);
// Recursively collect items from the first child
TreeItem *child = p_tree_item->get_first_child();
while (child) {
_update_ordered_tree_items(child);
child = child->get_next();
}
}
void TreeSearch::_update_number_matches() {
number_matches.clear();
for (int i = 0; i < matching_entries.size(); i++) {
TreeItem *item = matching_entries[i];
while (item) {
int old_num_value = number_matches.has(item) ? number_matches.get(item) : 0;
number_matches[item] = old_num_value + 1;
item = item->get_parent();
}
}
}
String TreeSearch::_get_search_mask() {
ERR_FAIL_COND_V(!search_panel, "");
return search_panel->get_text();
}
Vector<TreeItem *> TreeSearch::_find_matching_entries(TreeItem *p_tree_item, const String &p_search_mask, Vector<TreeItem *> &p_accum) {
if (!p_tree_item)
return p_accum;
StringSearchIndices item_search_indices = _substring_bounds(p_tree_item->get_text(0), p_search_mask);
if (item_search_indices.hit())
p_accum.push_back(p_tree_item);
for (int i = 0; i < p_tree_item->get_child_count(); i++) {
TreeItem *child = p_tree_item->get_child(i);
_find_matching_entries(child, p_search_mask, p_accum);
}
// sort the result if we are at the root
if (p_tree_item == p_tree_item->get_tree()->get_root()) {
p_accum.sort();
}
return p_accum;
}
// Returns the lower and upper bounds of a substring. Does fuzzy search: Simply looks if words exist in right ordering.
// Also ignores case if p_search_mask is lowercase. Example:
// p_searcheable = "TimeLimit 2 sec", p_search_mask = limit 2 sec -> [4,14]. With p_search_mask = "LimiT 2 SEC" or "Limit sec 2" -> [-1,-1]
TreeSearch::StringSearchIndices TreeSearch::_substring_bounds(const String &p_searchable, const String &p_search_mask) const {
StringSearchIndices result;
result.lower = UPPER_BOUND;
result.upper = 0;
if (p_search_mask.is_empty()) {
return result; // Early return if search_mask is empty.
}
// Determine if the search should be case-insensitive.
bool is_case_insensitive = (p_search_mask == p_search_mask.to_lower());
String searchable_processed = is_case_insensitive ? p_searchable.to_lower() : p_searchable;
PackedStringArray words = p_search_mask.split(" ");
int word_position = 0;
for (const String &word : words) {
if (word.is_empty()) {
continue; // Skip empty words.
}
String word_processed = is_case_insensitive ? word.to_lower() : word;
// Find the position of the next word in the searchable string.
word_position = searchable_processed.find(word_processed, word_position);
if (word_position < 0) {
// If any word is not found, return an empty StringSearchIndices.
return StringSearchIndices();
}
// Update lower and upper bounds.
result.lower = MIN(result.lower, word_position);
result.upper = MAX(result.upper, static_cast<int>(word_position + word.length()));
}
return result;
}
void TreeSearch::_select_item(TreeItem *p_item) {
if (!p_item)
return;
ERR_FAIL_COND(!tree_reference || p_item->get_tree() != tree_reference);
// first unfold ancestors
TreeItem *ancestor = p_item->get_parent();
while (ancestor) {
ancestor->set_collapsed(false);
ancestor = ancestor->get_parent();
}
//then scroll to [item]
tree_reference->scroll_to_item(p_item);
// ...and select it
tree_reference->deselect_all();
tree_reference->set_selected(p_item, 0);
}
void TreeSearch::_select_first_match() {
if (matching_entries.size() == 0) {
return;
}
for (int i = 0; i < ordered_tree_items.size(); i++) {
TreeItem *item = ordered_tree_items[i];
if (!_vector_has_bsearch(matching_entries, item)) {
continue;
}
String debug_string = "[";
_select_item(item);
return;
}
}
void TreeSearch::_select_next_match() {
if (matching_entries.size() == 0) {
return;
}
TreeItem *selected = tree_reference->get_selected(); // we care about a single item here.
if (!selected) {
_select_first_match();
return;
}
int selected_idx = -1;
for (int i = 0; i < ordered_tree_items.size(); i++) {
if (ordered_tree_items[i] == selected) {
selected_idx = i;
break;
}
}
// find the best fitting entry.
for (int i = 0; i < ordered_tree_items.size(); i++) {
TreeItem *item = ordered_tree_items[i];
if (!_vector_has_bsearch(matching_entries, item) || selected_idx >= i) {
continue;
}
_select_item(item);
return;
}
_select_first_match(); // wrap around.
}
template <typename T>
inline bool TreeSearch::_vector_has_bsearch(Vector<T *> p_vec, T *element) {
int idx = p_vec.bsearch(element, true);
bool in_array = idx >= 0 && idx < p_vec.size();
return in_array && p_vec[idx] == element;
}
void TreeSearch::on_item_edited(TreeItem *item) {
if (item->get_cell_mode(0) != TreeItem::CELL_MODE_CUSTOM) {
return;
}
if (!callable_cache.has(item) || item->get_custom_draw_callback(0) == callable_cache.get(item)) {
return;
}
item->set_custom_draw_callback(0, callable_cache.get(item));
}
// Call this as a post-processing step for the already constructed tree.
void TreeSearch::update_search(Tree *p_tree) {
ERR_FAIL_COND(!search_panel || !p_tree);
// ignore if panel not visible or no search string is given.
if (!search_panel->is_visible() || search_panel->get_text().length() == 0) {
return;
}
tree_reference = p_tree;
String search_mask = search_panel->get_text();
TreeSearchMode search_mode = search_panel->get_search_mode();
_update_ordered_tree_items(p_tree->get_root());
_update_matching_entries(search_mask);
_update_number_matches();
_highlight_tree(search_mask);
if (!search_panel->is_connected("text_submitted", callable_mp(this, &TreeSearch::_select_next_match))) {
search_panel->connect("text_submitted", callable_mp(this, &TreeSearch::_select_next_match));
}
if (search_mode == TreeSearchMode::FILTER) {
_filter_tree(search_mask);
}
}
TreeSearch::TreeSearch(TreeSearchPanel *p_search_panel) {
search_panel = p_search_panel;
}
/* !TreeSearch */
#endif // TOOLS_ENABLED