mirror of
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525 lines
16 KiB
C++
525 lines
16 KiB
C++
// SPDX-License-Identifier: MIT
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//
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// EmulationStation Desktop Edition
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// ComponentGrid.cpp
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//
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// Provides basic layout of components in an X*Y grid.
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//
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#include "components/ComponentGrid.h"
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#include "Settings.h"
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using namespace GridFlags;
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ComponentGrid::ComponentGrid(const glm::ivec2& gridDimensions)
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: mGridSize {gridDimensions}
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, mCursor {0, 0}
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{
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assert(gridDimensions.x > 0 && gridDimensions.y > 0);
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mCells.reserve(gridDimensions.x * gridDimensions.y);
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mColWidths = new float[gridDimensions.x];
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mRowHeights = new float[gridDimensions.y];
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for (int x = 0; x < gridDimensions.x; ++x)
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mColWidths[x] = 0;
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for (int y = 0; y < gridDimensions.y; ++y)
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mRowHeights[y] = 0;
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}
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ComponentGrid::~ComponentGrid()
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{
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delete[] mRowHeights;
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delete[] mColWidths;
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}
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float ComponentGrid::getColWidth(int col)
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{
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assert(col >= 0 && col < mGridSize.x);
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if (mColWidths[col] != 0)
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return mColWidths[col] * mSize.x;
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// Calculate automatic width.
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float freeWidthPerc {1.0};
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int between {0};
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for (int x = 0; x < mGridSize.x; ++x) {
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freeWidthPerc -= mColWidths[x]; // If it's 0 it won't do anything.
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if (mColWidths[x] == 0)
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++between;
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}
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return (freeWidthPerc * mSize.x) / static_cast<float>(between);
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}
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float ComponentGrid::getRowHeight(int row)
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{
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assert(row >= 0 && row < mGridSize.y);
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if (mRowHeights[row] != 0)
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return mRowHeights[row] * mSize.y;
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// Calculate automatic height.
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float freeHeightPerc = 1;
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int between = 0;
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for (int y = 0; y < mGridSize.y; ++y) {
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freeHeightPerc -= mRowHeights[y]; // If it's 0 it won't do anything.
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if (mRowHeights[y] == 0)
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++between;
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}
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return (freeHeightPerc * mSize.y) / static_cast<float>(between);
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}
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void ComponentGrid::setColWidthPerc(int col, float width, bool update)
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{
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assert(col >= 0 && col < mGridSize.x);
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mColWidths[col] = width;
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if (update)
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onSizeChanged();
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}
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void ComponentGrid::setRowHeightPerc(int row, float height, bool update)
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{
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assert(height >= 0 && height <= 1);
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assert(row >= 0 && row < mGridSize.y);
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mRowHeights[row] = height;
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if (update)
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onSizeChanged();
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}
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void ComponentGrid::setEntry(const std::shared_ptr<GuiComponent>& comp,
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const glm::ivec2& pos,
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bool canFocus,
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bool resize,
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const glm::ivec2& size,
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unsigned int border,
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GridFlags::UpdateType updateType)
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{
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assert(pos.x >= 0 && pos.x < mGridSize.x && pos.y >= 0 && pos.y < mGridSize.y);
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assert(comp != nullptr);
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assert(comp->getParent() == nullptr);
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GridEntry entry(pos, size, comp, canFocus, resize, updateType, border);
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mCells.push_back(entry);
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addChild(comp.get());
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if (!cursorValid() && canFocus) {
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auto origCursor = mCursor;
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mCursor = pos;
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onCursorMoved(origCursor, mCursor);
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}
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updateCellComponent(mCells.back());
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updateSeparators();
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}
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bool ComponentGrid::removeEntry(const std::shared_ptr<GuiComponent>& comp)
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{
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for (auto it = mCells.cbegin(); it != mCells.cend(); ++it) {
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if (it->component == comp) {
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removeChild(comp.get());
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mCells.erase(it);
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return true;
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}
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}
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return false;
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}
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void ComponentGrid::updateCellComponent(const GridEntry& cell)
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{
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// Size.
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glm::vec2 size {0.0f};
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for (int x = cell.pos.x; x < cell.pos.x + cell.dim.x; ++x)
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size.x += getColWidth(x);
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for (int y = cell.pos.y; y < cell.pos.y + cell.dim.y; ++y)
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size.y += getRowHeight(y);
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if (cell.resize && size != glm::vec2 {} && cell.component->getSize() != size)
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cell.component->setSize(size);
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// Find top left corner.
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glm::vec3 pos {};
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for (int x = 0; x < cell.pos.x; ++x)
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pos.x += getColWidth(x);
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for (int y = 0; y < cell.pos.y; ++y)
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pos.y += getRowHeight(y);
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// Center component.
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pos.x = pos.x + (size.x - cell.component->getSize().x) / 2.0f;
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pos.y = pos.y + (size.y - cell.component->getSize().y) / 2.0f;
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cell.component->setPosition(pos);
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}
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void ComponentGrid::updateSeparators()
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{
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mSeparators.clear();
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bool drawAll = Settings::getInstance()->getBool("DebugGrid");
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glm::vec2 pos;
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glm::vec2 size;
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for (auto it = mCells.cbegin(); it != mCells.cend(); ++it) {
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if (!it->border && !drawAll)
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continue;
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// Find component position + size.
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pos = glm::vec2 {};
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size = glm::vec2 {};
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for (int x = 0; x < it->pos.x; ++x)
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pos[0] += getColWidth(x);
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for (int y = 0; y < it->pos.y; ++y)
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pos[1] += getRowHeight(y);
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for (int x = it->pos.x; x < it->pos.x + it->dim.x; ++x)
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size[0] += getColWidth(x);
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for (int y = it->pos.y; y < it->pos.y + it->dim.y; ++y)
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size[1] += getRowHeight(y);
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if (size == glm::vec2 {})
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return;
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if (it->border & BORDER_TOP || drawAll) {
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std::vector<float> coordVector;
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coordVector.push_back(pos.x);
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coordVector.push_back(pos.y);
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coordVector.push_back(size.x);
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coordVector.push_back(1.0f * Renderer::getScreenHeightModifier());
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mSeparators.push_back(coordVector);
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}
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if (it->border & BORDER_BOTTOM || drawAll) {
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std::vector<float> coordVector;
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coordVector.push_back(pos.x);
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coordVector.push_back(pos.y + size.y);
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coordVector.push_back(size.x);
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coordVector.push_back(1.0f * Renderer::getScreenHeightModifier());
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mSeparators.push_back(coordVector);
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}
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if (it->border & BORDER_LEFT || drawAll) {
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std::vector<float> coordVector;
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coordVector.push_back(pos.x);
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coordVector.push_back(pos.y);
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coordVector.push_back(1.0f * Renderer::getScreenWidthModifier());
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coordVector.push_back(size.y);
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mSeparators.push_back(coordVector);
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}
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if (it->border & BORDER_RIGHT || drawAll) {
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std::vector<float> coordVector;
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coordVector.push_back(pos.x + size.x);
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coordVector.push_back(pos.y);
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coordVector.push_back(1.0f * Renderer::getScreenWidthModifier());
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coordVector.push_back(size.y);
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mSeparators.push_back(coordVector);
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}
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}
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}
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void ComponentGrid::onSizeChanged()
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{
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for (auto it = mCells.cbegin(); it != mCells.cend(); ++it)
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updateCellComponent(*it);
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updateSeparators();
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}
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const ComponentGrid::GridEntry* ComponentGrid::getCellAt(int x, int y) const
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{
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assert(x >= 0 && x < mGridSize.x && y >= 0 && y < mGridSize.y);
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for (auto it = mCells.cbegin(); it != mCells.cend(); ++it) {
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int xmin = it->pos.x;
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int xmax = xmin + it->dim.x;
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int ymin = it->pos.y;
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int ymax = ymin + it->dim.y;
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if (x >= xmin && y >= ymin && x < xmax && y < ymax)
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return &(*it);
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}
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return nullptr;
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}
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bool ComponentGrid::input(InputConfig* config, Input input)
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{
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const GridEntry* cursorEntry = getCellAt(mCursor);
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if (cursorEntry && cursorEntry->component->input(config, input))
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return true;
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if (!input.value)
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return false;
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bool withinBoundary = false;
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if (config->isMappedLike("down", input))
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withinBoundary = moveCursor(glm::ivec2 {0, 1});
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if (config->isMappedLike("up", input))
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withinBoundary = moveCursor(glm::ivec2 {0, -1});
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if (config->isMappedLike("left", input))
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withinBoundary = moveCursor(glm::ivec2 {-1, 0});
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if (config->isMappedLike("right", input))
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withinBoundary = moveCursor(glm::ivec2 {1, 0});
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if (!withinBoundary && mPastBoundaryCallback)
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return mPastBoundaryCallback(config, input);
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return withinBoundary;
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}
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void ComponentGrid::resetCursor()
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{
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if (!mCells.size())
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return;
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for (auto it = mCells.cbegin(); it != mCells.cend(); ++it) {
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if (it->canFocus) {
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glm::ivec2 origCursor = mCursor;
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mCursor = it->pos;
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onCursorMoved(origCursor, mCursor);
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break;
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}
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}
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}
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bool ComponentGrid::moveCursor(glm::ivec2 dir)
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{
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assert(dir.x || dir.y);
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const glm::ivec2 origCursor {mCursor};
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const GridEntry* currentCursorEntry = getCellAt(mCursor);
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glm::ivec2 searchAxis(dir.x == 0, dir.y == 0);
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// Logic to handle entries that span several cells.
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if (currentCursorEntry->dim.x > 1) {
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if (dir.x < 0 && currentCursorEntry->pos.x == 0 && mCursor.x > currentCursorEntry->pos.x) {
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onCursorMoved(mCursor, glm::ivec2 {0, mCursor.y});
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mCursor.x = 0;
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return false;
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}
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if (dir.x > 0 && currentCursorEntry->pos.x + currentCursorEntry->dim.x == mGridSize.x &&
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mCursor.x < currentCursorEntry->pos.x + currentCursorEntry->dim.x - 1) {
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onCursorMoved(mCursor, glm::ivec2 {mGridSize.x - 1, mCursor.y});
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mCursor.x = mGridSize.x - 1;
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return false;
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}
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if (dir.x > 0 && mCursor.x != currentCursorEntry->pos.x + currentCursorEntry->dim.x - 1)
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dir.x = currentCursorEntry->dim.x - (mCursor.x - currentCursorEntry->pos.x);
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else if (dir.x < 0 && mCursor.x != currentCursorEntry->pos.x)
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dir.x = -(mCursor.x - currentCursorEntry->pos.x + 1);
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}
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if (currentCursorEntry->dim.y > 1) {
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if (dir.y > 0 && mCursor.y != currentCursorEntry->pos.y + currentCursorEntry->dim.y - 1)
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dir.y = currentCursorEntry->dim.y - (mCursor.y - currentCursorEntry->pos.y);
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else if (dir.y < 0 && mCursor.y != currentCursorEntry->pos.y)
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dir.y = -(mCursor.y - currentCursorEntry->pos.y + 1);
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}
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while (mCursor.x >= 0 && mCursor.y >= 0 && mCursor.x < mGridSize.x && mCursor.y < mGridSize.y) {
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mCursor = mCursor + dir;
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glm::ivec2 curDirPos {mCursor};
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const GridEntry* cursorEntry;
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// Spread out on search axis+
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while (mCursor.x < mGridSize.x && mCursor.y < mGridSize.y && mCursor.x >= 0 &&
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mCursor.y >= 0) {
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cursorEntry = getCellAt(mCursor);
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// Multi-cell entries.
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if (cursorEntry != nullptr) {
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if (dir.x < 0 && cursorEntry->dim.x > 1)
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mCursor.x = getCellAt(origCursor)->pos.x - cursorEntry->dim.x;
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if (dir.y < 0 && cursorEntry->dim.y > 1)
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mCursor.y = getCellAt(origCursor)->pos.y - cursorEntry->dim.y;
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if (cursorEntry->canFocus && cursorEntry != currentCursorEntry) {
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onCursorMoved(origCursor, mCursor);
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return true;
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}
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}
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mCursor += searchAxis;
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}
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// Now again on search axis-
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mCursor = curDirPos;
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while (mCursor.x >= 0 && mCursor.y >= 0 && mCursor.x < mGridSize.x &&
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mCursor.y < mGridSize.y) {
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cursorEntry = getCellAt(mCursor);
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if (cursorEntry && cursorEntry->canFocus && cursorEntry != currentCursorEntry) {
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onCursorMoved(origCursor, mCursor);
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return true;
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}
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mCursor -= searchAxis;
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}
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mCursor = curDirPos;
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}
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// Failed to find another focusable element in this direction.
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mCursor = origCursor;
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return false;
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}
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void ComponentGrid::moveCursorTo(int xPos, int yPos, bool selectLeftCell)
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{
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const glm::ivec2 origCursor {mCursor};
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if (xPos != -1)
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mCursor.x = xPos;
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if (yPos != -1)
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mCursor.y = yPos;
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const GridEntry* currentCursorEntry = getCellAt(mCursor);
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// If requested, select the leftmost cell of entries wider than 1 cell.
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if (selectLeftCell && mCursor.x > currentCursorEntry->pos.x)
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mCursor.x = currentCursorEntry->pos.x;
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onCursorMoved(origCursor, mCursor);
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}
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void ComponentGrid::onFocusLost()
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{
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const GridEntry* cursorEntry = getCellAt(mCursor);
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if (cursorEntry)
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cursorEntry->component->onFocusLost();
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}
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void ComponentGrid::onFocusGained()
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{
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const GridEntry* cursorEntry = getCellAt(mCursor);
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if (cursorEntry)
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cursorEntry->component->onFocusGained();
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}
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bool ComponentGrid::cursorValid()
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{
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const GridEntry* e = getCellAt(mCursor);
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return (e != nullptr && e->canFocus);
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}
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void ComponentGrid::update(int deltaTime)
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{
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// Update everything.
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const GridEntry* cursorEntry = getCellAt(mCursor);
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for (auto it = mCells.cbegin(); it != mCells.cend(); ++it) {
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if (it->updateType == UPDATE_ALWAYS ||
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(it->updateType == UPDATE_WHEN_SELECTED && cursorEntry == &(*it))) {
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it->component->update(deltaTime);
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}
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}
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}
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void ComponentGrid::render(const glm::mat4& parentTrans)
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{
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glm::mat4 trans {parentTrans * getTransform()};
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renderChildren(trans);
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// Draw cell separators.
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for (size_t i = 0; i < mSeparators.size(); ++i) {
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Renderer::setMatrix(trans);
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Renderer::drawRect(mSeparators[i][0], mSeparators[i][1], mSeparators[i][2],
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mSeparators[i][3], 0xC6C7C6FF, 0xC6C7C6FF);
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}
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}
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void ComponentGrid::textInput(const std::string& text)
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{
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const GridEntry* selectedEntry = getCellAt(mCursor);
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if (selectedEntry != nullptr && selectedEntry->canFocus)
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selectedEntry->component->textInput(text);
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}
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void ComponentGrid::onCursorMoved(glm::ivec2 from, glm::ivec2 to)
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{
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const GridEntry* cell = getCellAt(from);
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if (cell)
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cell->component->onFocusLost();
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cell = getCellAt(to);
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if (cell)
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cell->component->onFocusGained();
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updateHelpPrompts();
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}
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void ComponentGrid::setCursorTo(const std::shared_ptr<GuiComponent>& comp)
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{
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for (auto it = mCells.cbegin(); it != mCells.cend(); ++it) {
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if (it->component == comp) {
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glm::ivec2 oldCursor {mCursor};
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mCursor = it->pos;
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onCursorMoved(oldCursor, mCursor);
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return;
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}
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}
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// Component not found!
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assert(false);
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}
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std::vector<HelpPrompt> ComponentGrid::getHelpPrompts()
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{
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std::vector<HelpPrompt> prompts;
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const GridEntry* e = getCellAt(mCursor);
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if (e)
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prompts = e->component->getHelpPrompts();
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bool canScrollVert = false;
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// If the currently selected cell does not fill the entire Y axis, then check if the cells
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// above or below are actually focusable as otherwise they should not affect the help prompts.
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if (mGridSize.y > 1 && e->dim.y < mGridSize.y) {
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if (e->pos.y - e->dim.y >= 0) {
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const GridEntry* cell = getCellAt(glm::ivec2 {e->pos.x, e->pos.y - e->dim.y});
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if (cell != nullptr && cell->canFocus)
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canScrollVert = true;
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}
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if (e->pos.y + e->dim.y < mGridSize.y) {
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const GridEntry* cell = getCellAt(glm::ivec2 {e->pos.x, e->pos.y + e->dim.y});
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if (cell != nullptr && cell->canFocus)
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canScrollVert = true;
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}
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}
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// There is currently no situation in the application where unfocusable cells are located
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// next to each other horizontally, so this code is good enough. If this changes in the
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// future, code similar to the the vertical cell handling above needs to be added.
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bool canScrollHoriz = (mGridSize.x > 1 && e->dim.x < mGridSize.x);
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// Check existing capabilities as indicated by the help prompts, and if the prompts should
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// be combined into "up/down/left/right" then also remove the single-axis prompts.
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if (!prompts.empty() && prompts.back() == HelpPrompt("up/down", "choose")) {
|
|
canScrollVert = true;
|
|
if (canScrollHoriz && canScrollVert)
|
|
prompts.pop_back();
|
|
}
|
|
else if (!prompts.empty() && prompts.back() == HelpPrompt("left/right", "choose")) {
|
|
canScrollHoriz = true;
|
|
if (canScrollHoriz && canScrollVert)
|
|
prompts.pop_back();
|
|
}
|
|
|
|
// Any duplicates will be removed in Window::setHelpPrompts()
|
|
if (canScrollHoriz && canScrollVert)
|
|
prompts.push_back(HelpPrompt("up/down/left/right", "choose"));
|
|
else if (canScrollHoriz)
|
|
prompts.push_back(HelpPrompt("left/right", "choose"));
|
|
else if (canScrollVert)
|
|
prompts.push_back(HelpPrompt("up/down", "choose"));
|
|
|
|
return prompts;
|
|
}
|