#include "ComponentListComponent.h" #include "../Log.h" #include "../Renderer.h" #define INITIAL_CELL_SIZE 12 ComponentListComponent::ComponentListComponent(Window* window, Eigen::Vector2i gridDimensions) : GuiComponent(window), mGrid(NULL), mColumnWidths(NULL), mRowHeights(NULL), mCursor(-1, -1) { mEntries.reserve(gridDimensions.x() * gridDimensions.y()); makeCells(gridDimensions); } void ComponentListComponent::makeCells(Eigen::Vector2i size) { if(mGrid) delete[] mGrid; if(mColumnWidths) delete[] mColumnWidths; if(mRowHeights) delete[] mRowHeights; mGridSize = size; mGrid = new ComponentEntry*[size.x() * size.y()]; std::fill(mGrid, mGrid + (size.x() * size.y()), (ComponentEntry*)NULL); mColumnWidths = new unsigned int[size.x()]; std::fill(mColumnWidths, mColumnWidths + size.x(), INITIAL_CELL_SIZE); mRowHeights = new unsigned int[size.y()]; std::fill(mRowHeights, mRowHeights + size.y(), INITIAL_CELL_SIZE); updateSize(); resetCursor(); } void ComponentListComponent::setEntry(Eigen::Vector2i pos, Eigen::Vector2i size, GuiComponent* component, bool canFocus, AlignmentType align, Eigen::Matrix autoFit, UpdateBehavior updateType) { if(pos.x() > mGridSize.x() || pos.y() > mGridSize.y() || pos.x() < 0 || pos.y() < 0) { LOG(LogError) << "Tried to set entry beyond grid size!"; return; } if(component == NULL) { LOG(LogError) << "Tried to add NULL component to ComponentList!"; return; } ComponentEntry entry(Eigen::Vector2i(pos.x(), pos.y()), Eigen::Vector2i(size.x(), size.y()), component, updateType, canFocus, align); mEntries.push_back(entry); for(int y = pos.y(); y < pos.y() + size.y(); y++) { for(int x = pos.x(); x < pos.x() + size.x(); x++) { setCell(x, y, &mEntries.back()); } } if(component->getParent() != NULL) LOG(LogError) << "ComponentListComponent ruining an existing parent-child relationship! Call a social worker!"; component->setParent(this); if(!cursorValid() && canFocus) mCursor = pos; //update the column width and row height if(autoFit.x() && (int)getColumnWidth(pos.x()) < component->getSize().x()) setColumnWidth(pos.x(), (unsigned int)component->getSize().x()); if(autoFit.y() && (int)getRowHeight(pos.y()) < component->getSize().y()) setRowHeight(pos.y(), (unsigned int)component->getSize().y()); component->setPosition(getCellOffset(pos)); } void ComponentListComponent::setRowHeight(int row, unsigned int size) { mRowHeights[row] = size; updateSize(); } void ComponentListComponent::setColumnWidth(int col, unsigned int size) { mColumnWidths[col] = size; updateSize(); } unsigned int ComponentListComponent::getRowHeight(int row) { return mRowHeights[row]; } unsigned int ComponentListComponent::getColumnWidth(int col) { return mColumnWidths[col]; } Eigen::Vector3f ComponentListComponent::getCellOffset(Eigen::Vector2i pos) { Eigen::Vector3f offset(0, 0, 0); for(int y = 0; y < pos.y(); y++) offset[1] += getRowHeight(y); for(int x = 0; x < pos.x(); x++) offset[0] += getColumnWidth(x); ComponentEntry* entry = getCell(pos.x(), pos.y()); Eigen::Vector2i gridSize(0, 0); for(int x = pos.x(); x < pos.x() + entry->dim[0]; x++) gridSize[0] += getColumnWidth(x); for(int y = pos.y(); y < pos.y() + entry->dim[1]; y++) gridSize[1] += getRowHeight(y); //if AlignCenter, add half of cell width - half of control width if(entry->alignment == AlignCenter) offset[0] += gridSize.x() / 2 - entry->component->getSize().x() / 2; //if AlignRight, add cell width - control width if(entry->alignment == AlignRight) offset[0] += gridSize.x() - entry->component->getSize().x(); //always center on the Y axis offset[1] += gridSize.y() / 2.0f - entry->component->getSize().y() / 2.0f; return offset; } void ComponentListComponent::setCell(unsigned int x, unsigned int y, ComponentEntry* entry) { if(x >= (unsigned int)mGridSize.x() || y >= (unsigned int)mGridSize.y()) { LOG(LogError) << "Invalid setCell - position " << x << ", " << y << " out of bounds!"; return; } mGrid[y * mGridSize.x() + x] = entry; } ComponentListComponent::ComponentEntry* ComponentListComponent::getCell(unsigned int x, unsigned int y) { if(x >= (unsigned int)mGridSize.x() || y >= (unsigned int)mGridSize.y()) { LOG(LogError) << "Invalid getCell - position " << x << ", " << y << " out of bounds!"; return NULL; } return mGrid[y * mGridSize.x() + x]; } void ComponentListComponent::updateSize() { mSize = Eigen::Vector2f(0, 0); for(int x = 0; x < mGridSize.x(); x++) mSize.x() += getColumnWidth(x); for(int y = 0; y < mGridSize.y(); y++) mSize.y() += getRowHeight(y); } void ComponentListComponent::updateComponentOffsets() { for(auto iter = mEntries.begin(); iter != mEntries.end(); iter++) { iter->component->setPosition(getCellOffset(iter->pos)); } } bool ComponentListComponent::input(InputConfig* config, Input input) { if(cursorValid() && getCell(mCursor.x(), mCursor.y())->component->input(config, input)) return true; if(!input.value) return false; if(config->isMappedTo("down", input)) { moveCursor(Eigen::Vector2i(0, 1)); return true; } if(config->isMappedTo("up", input)) { moveCursor(Eigen::Vector2i(0, -1)); return true; } if(config->isMappedTo("left", input)) { moveCursor(Eigen::Vector2i(-1, 0)); return true; } if(config->isMappedTo("right", input)) { moveCursor(Eigen::Vector2i(1, 0)); return true; } return false; } void ComponentListComponent::resetCursor() { if(mEntries.size() == 0) { mCursor = Eigen::Vector2i(-1, -1); return; } const Eigen::Vector2i origCursor = mCursor; mCursor << mEntries.at(0).pos[0], mEntries.at(0).pos[1]; onCursorMoved(origCursor, mCursor); } void ComponentListComponent::moveCursor(Eigen::Vector2i dir) { if(dir.x() != 0 && dir.y() != 0) { LOG(LogError) << "Invalid cursor move dir!"; return; } Eigen::Vector2i origCursor = mCursor; if(!cursorValid()) { resetCursor(); if(!cursorValid()) { if(mCursor != origCursor) onCursorMoved(origCursor, mCursor); return; } } Eigen::Vector2i searchAxis(dir.x() == 0, dir.y() == 0); while(mCursor.x() >= 0 && mCursor.y() >= 0 && mCursor.x() < mGridSize.x() && mCursor.y() < mGridSize.y()) { mCursor = mCursor + dir; Eigen::Vector2i curDirPos = mCursor; //spread out on search axis+ while(mCursor.x() < mGridSize.x() && mCursor.y() < mGridSize.y()) { if(cursorValid() && getCell(mCursor.x(), mCursor.y())->canFocus) { onCursorMoved(origCursor, mCursor); return; } mCursor += searchAxis; } //now again on search axis- mCursor = curDirPos; while(mCursor.x() >= 0 && mCursor.y() >= 0) { if(cursorValid() && getCell(mCursor.x(), mCursor.y())->canFocus) { onCursorMoved(origCursor, mCursor); return; } mCursor -= searchAxis; } mCursor = curDirPos; } //failed to find another focusable element in this direction mCursor = origCursor; } bool ComponentListComponent::cursorValid() { if(mCursor.x() < 0 || mCursor.y() < 0 || mCursor.x() >= mGridSize.x() || mCursor.y() >= mGridSize.y()) return false; return getCell(mCursor.x(), mCursor.y()) != NULL; } void ComponentListComponent::update(int deltaTime) { for(auto iter = mEntries.begin(); iter != mEntries.end(); iter++) { if(iter->updateType == UpdateAlways) { iter->component->update(deltaTime); continue; } if(iter->updateType == UpdateFocused && cursorValid() && getCell(mCursor.x(), mCursor.y())->component == iter->component) { iter->component->update(deltaTime); continue; } } } void ComponentListComponent::render(const Eigen::Affine3f& parentTrans) { Eigen::Affine3f trans = parentTrans * getTransform(); Renderer::setMatrix(trans); Renderer::drawRect(0, 0, (int)getSize().x(), (int)getSize().y(), 0xFFFFFFAA); for(auto iter = mEntries.begin(); iter != mEntries.end(); iter++) { iter->component->render(trans); } //draw cell outlines /*Renderer::setMatrix(trans); Eigen::Vector2i pos(0, 0); for(int x = 0; x < mGridSize.x(); x++) { for(int y = 0; y < mGridSize.y(); y++) { Renderer::drawRect(pos.x(), pos.y(), getColumnWidth(x), 2, 0x000000AA); Renderer::drawRect(pos.x(), pos.y(), 2, getRowHeight(y), 0x000000AA); Renderer::drawRect(pos.x() + getColumnWidth(x), pos.y(), 2, getRowHeight(y), 0x000000AA); Renderer::drawRect(pos.x(), pos.y() + getRowHeight(y) - 2, getColumnWidth(x), 2, 0x000000AA); pos[1] += getRowHeight(y); } pos[1] = 0; pos[0] += getColumnWidth(x); }*/ //draw cursor if(cursorValid()) { ComponentEntry* entry = getCell(mCursor.x(), mCursor.y()); Eigen::Affine3f entryTrans = trans * entry->component->getTransform(); Renderer::setMatrix(entryTrans); Renderer::drawRect(0, 0, 4, 4, 0xFF0000FF); Renderer::drawRect(0, 0, (int)entry->component->getSize().x(), (int)entry->component->getSize().y(), 0x0000AA88); } } void ComponentListComponent::textInput(const char* text) { if(getSelectedComponent() != NULL) getSelectedComponent()->textInput(text); } void ComponentListComponent::onPositionChanged() { updateComponentOffsets(); } GuiComponent* ComponentListComponent::getSelectedComponent() { if(!cursorValid()) return NULL; return getCell(mCursor.x(), mCursor.y())->component; } void ComponentListComponent::onCursorMoved(Eigen::Vector2i from, Eigen::Vector2i to) { if(from != Eigen::Vector2i(-1, -1)) getCell(from.x(), from.y())->component->onFocusLost(); if(to != Eigen::Vector2i(-1, -1)) getCell(to.x(), to.y())->component->onFocusGained(); }