// SPDX-License-Identifier: MIT // // ES-DE Frontend // TextEditComponent.cpp // // Component for editing text fields. // TODO: Add support for editing shaped text. // #include "components/TextEditComponent.h" #include "utils/LocalizationUtil.h" #include "utils/StringUtil.h" #if defined(__ANDROID__) #include "Settings.h" #endif #define TEXT_PADDING_HORIZ 12.0f #define TEXT_PADDING_VERT 2.0f #define CURSOR_REPEAT_START_DELAY 500 #define CURSOR_REPEAT_SPEED 28 // Lower is faster. #define BLINKTIME 1000 TextEditComponent::TextEditComponent(bool multiLine) : mRenderer {Renderer::getInstance()} , mFocused {false} , mEditing {false} , mMaskInput {true} , mMultiLine {multiLine} , mCursor {0} , mCursorShapedText {0} , mBlinkTime {0} , mCursorRepeatDir {0} , mScrollOffset {0.0f, 0.0f} , mCursorPos {0.0f, 0.0f} , mBox {":/graphics/textinput.svg"} { mEditText = std::make_unique("", Font::get(FONT_SIZE_MEDIUM, FONT_PATH_LIGHT)); mEditText->setNeedGlyphsPos(true); mEditText->setTextShaping(false); if (mMultiLine) mEditText->setAutoCalcExtent(glm::ivec2 {0, 1}); else mEditText->setAutoCalcExtent(glm::ivec2 {1, 0}); mBox.setSharpCorners(true); addChild(&mBox); onFocusLost(); } TextEditComponent::~TextEditComponent() { mEditText->setTextShaping(true); // Always disable text input when destroying this component. SDL_StopTextInput(); } void TextEditComponent::onFocusGained() { mFocused = true; mBox.setImagePath(":/graphics/textinput_focused.svg"); mBox.setFrameColor(mMenuColorTextInputFrameFocused); startEditing(); } void TextEditComponent::onFocusLost() { mFocused = false; mBox.setImagePath(":/graphics/textinput.svg"); mBox.setFrameColor(mMenuColorTextInputFrameUnfocused); } void TextEditComponent::onSizeChanged() { if (mSize.x == 0.0f || mSize.y == 0.0f) return; mBox.fitTo( mSize, glm::vec3 {0.0f, 0.0f, 0.0f}, glm::vec2 {-32.0f, -32.0f - (TEXT_PADDING_VERT * mRenderer->getScreenHeightModifier())}); if (mMultiLine) mEditText->setSize(getTextAreaSize().x, 0.0f); onTextChanged(); // Wrap point probably changed. } void TextEditComponent::setText(const std::string& val, bool update) { mText = val; if (update) { onTextChanged(); onCursorChanged(); } } void TextEditComponent::textInput(const std::string& text, const bool pasting) { #if !defined(__ANDROID__) if (mMaskInput && !pasting) return; #endif // Allow pasting up to a reasonable max clipboard size. if (pasting && text.length() > (mMultiLine ? 16384 : 300)) return; if (mEditing) { mBlinkTime = 0; mCursorRepeatDir = 0; if (text[0] == '\b') { if (mCursor > 0) { size_t newCursor = Utils::String::prevCursor(mText, mCursor); mText.erase(mText.begin() + newCursor, mText.begin() + mCursor); mCursor = static_cast(newCursor); --mCursorShapedText; } } else { mText.insert(mCursor, (pasting && !mMultiLine ? Utils::String::replace(text, "\n", " ") : text)); mCursor += static_cast( (pasting && !mMultiLine ? Utils::String::replace(text, "\n", " ") : text).size()); ++mCursorShapedText; } } onTextChanged(); onCursorChanged(); } std::string TextEditComponent::getValue() const { if (mText.empty()) return ""; // If mText only contains whitespace characters, then return an empty string. if (std::find_if(mText.cbegin(), mText.cend(), [](char c) { return !std::isspace(static_cast(c)); }) == mText.cend()) { return ""; } else { return mText; } } void TextEditComponent::startEditing() { if (mEditing) return; SDL_StartTextInput(); mEditing = true; updateHelpPrompts(); mBlinkTime = BLINKTIME / 6; } void TextEditComponent::stopEditing() { if (!mEditing) return; SDL_StopTextInput(); mEditing = false; mMaskInput = false; mCursorRepeatDir = 0; updateHelpPrompts(); } bool TextEditComponent::input(InputConfig* config, Input input) { bool const cursorLeft {config->isMappedLike("left", input)}; bool const cursorRight {config->isMappedLike("right", input)}; bool const cursorUp {config->isMappedLike("up", input)}; bool const cursorDown {config->isMappedLike("down", input)}; bool const shoulderLeft {config->isMappedLike("leftshoulder", input)}; bool const shoulderRight {config->isMappedLike("rightshoulder", input)}; bool const triggerLeft {config->isMappedLike("lefttrigger", input)}; bool const triggerRight {config->isMappedLike("righttrigger", input)}; mMaskInput = true; if (cursorLeft || cursorRight || cursorUp || cursorDown || shoulderLeft || shoulderRight | triggerLeft || triggerRight) { if (input.value == 0) mCursorRepeatDir = 0; } if (input.value == 0) return false; if ((config->isMappedTo("a", input) || (config->getDeviceId() == DEVICE_KEYBOARD && input.id == SDLK_RETURN)) && mFocused && !mEditing) { startEditing(); return true; } if (mEditing) { if (config->getDeviceId() == DEVICE_KEYBOARD) { // Special handling for keyboard input as the "A" and "B" buttons are overridden. if (input.id == SDLK_RETURN || input.id == SDLK_KP_ENTER) { if (mMultiLine) { const bool maskValue {mMaskInput}; mMaskInput = false; textInput("\n"); mMaskInput = maskValue; } else { stopEditing(); } return true; } else if (input.id == SDLK_DELETE) { if (mCursor < static_cast(mText.length())) { // Fake as Backspace one char to the right. mMaskInput = false; moveCursor(1); textInput("\b"); } return true; } #if defined(__ANDROID__) else if (!Settings::getInstance()->getBool("VirtualKeyboard") && input.id == SDLK_BACKSPACE) { return false; } else if (Settings::getInstance()->getBool("VirtualKeyboard") && input.id == SDLK_BACKSPACE) { mMaskInput = false; #else else if (input.id == SDLK_BACKSPACE) { mMaskInput = false; textInput("\b"); #endif return true; } } if (cursorLeft || cursorRight) { mBlinkTime = 0; mCursorRepeatDir = cursorLeft ? -1 : 1; mCursorRepeatTimer = -(CURSOR_REPEAT_START_DELAY - CURSOR_REPEAT_SPEED); moveCursor(mCursorRepeatDir); return false; } else if (cursorDown && isEditing()) { // Stop editing and let the button down event be captured by the parent component. stopEditing(); return false; } else if (shoulderLeft) { mMaskInput = false; textInput("\b"); return true; } else if (triggerLeft) { // Jump to beginning of text. mBlinkTime = 0; setCursor(0); return true; } else if (triggerRight) { // Jump to end of text. mBlinkTime = 0; setCursor(mText.length()); return true; } if (config->isMappedTo("b", input)) stopEditing(); // Consume all input when editing text. mMaskInput = false; return true; } return false; } void TextEditComponent::update(int deltaTime) { updateCursorRepeat(deltaTime); GuiComponent::update(deltaTime); mBlinkTime += deltaTime; if (mBlinkTime >= BLINKTIME) mBlinkTime = 0; } void TextEditComponent::updateCursorRepeat(int deltaTime) { if (mCursorRepeatDir == 0) return; mCursorRepeatTimer += deltaTime; while (mCursorRepeatTimer >= CURSOR_REPEAT_SPEED) { mBlinkTime = 0; moveCursor(mCursorRepeatDir); mCursorRepeatTimer -= CURSOR_REPEAT_SPEED; } } void TextEditComponent::moveCursor(int amt) { mCursor = static_cast(Utils::String::moveCursor(mText, mCursor, amt)); mCursorShapedText += amt; if (mCursorShapedText < 0) mCursorShapedText = 0; else if (mCursorShapedText > static_cast(Utils::String::unicodeLength(mText))) mCursorShapedText = static_cast(Utils::String::unicodeLength(mText)); onCursorChanged(); } void TextEditComponent::setCursor(size_t pos) { if (pos == std::string::npos) { mCursor = static_cast(mText.length()); mCursorShapedText = static_cast(Utils::String::unicodeLength(mText)); } else { mCursor = static_cast(pos); mCursorShapedText = static_cast(Utils::String::unicodeLength(mText.substr(0, pos))); } moveCursor(0); } void TextEditComponent::onTextChanged() { mEditText->setText(mText); mEditText->setColor(mMenuColorKeyboardText | static_cast(mOpacity * 255.0f)); if (mCursor > static_cast(mText.length())) mCursor = static_cast(mText.length()); if (mCursorShapedText > static_cast(Utils::String::unicodeLength(mText))) mCursorShapedText = static_cast(Utils::String::unicodeLength(mText)); } void TextEditComponent::onCursorChanged() { if (mMultiLine) { mCursorPos = mEditText->getGlyphPosition(mCursorShapedText); // Need to scroll down? if (mScrollOffset.y + getTextAreaSize().y < mCursorPos.y + getFont()->getHeight()) mScrollOffset.y = mCursorPos.y - getTextAreaSize().y + getFont()->getHeight(); // Need to scroll up? else if (mScrollOffset.y > mCursorPos.y) mScrollOffset.y = mCursorPos.y; } else { mCursorPos = mEditText->getGlyphPosition(mCursorShapedText); if (mScrollOffset.x + getTextAreaSize().x < mCursorPos.x) mScrollOffset.x = mCursorPos.x - getTextAreaSize().x; else if (mScrollOffset.x > mCursorPos.x) mScrollOffset.x = mCursorPos.x; } } void TextEditComponent::render(const glm::mat4& parentTrans) { glm::mat4 trans {getTransform() * parentTrans}; renderChildren(trans); // Text + cursor rendering. // Offset into our "text area" (padding). trans = glm::translate(trans, glm::round(glm::vec3 {getTextAreaPos().x, getTextAreaPos().y, 0.0f})); glm::ivec2 clipPos {static_cast(trans[3].x), static_cast(trans[3].y)}; // Use "text area" size for clipping. glm::vec3 dimScaled {0.0f, 0.0f, 0.0f}; dimScaled.x = std::fabs(trans[3].x + getTextAreaSize().x); dimScaled.y = std::fabs(trans[3].y + getTextAreaSize().y); glm::ivec2 clipDim {static_cast(dimScaled.x - trans[3].x), static_cast(dimScaled.y - trans[3].y)}; mRenderer->pushClipRect(clipPos, clipDim); trans = glm::translate(trans, glm::round(glm::vec3 {-mScrollOffset.x, -mScrollOffset.y, 0.0f})); mRenderer->setMatrix(trans); mEditText->render(trans); // Pop the clip early to allow the cursor to be drawn outside of the "text area". mRenderer->popClipRect(); // Draw cursor. const float textHeight {getFont()->getHeight()}; const float cursorHeight {textHeight * 0.8f}; if (!mEditing) { mRenderer->drawRect(mCursorPos.x, mCursorPos.y + (textHeight - cursorHeight) / 2.0f, 2.0f * mRenderer->getScreenResolutionModifier(), cursorHeight, mMenuColorKeyboardCursorUnfocused, mMenuColorKeyboardCursorUnfocused); } if (mEditing && mBlinkTime < BLINKTIME / 2) { mRenderer->drawRect(mCursorPos.x, mCursorPos.y + (textHeight - cursorHeight) / 2.0f, 2.0f * mRenderer->getScreenResolutionModifier(), cursorHeight, mMenuColorKeyboardCursorFocused, mMenuColorKeyboardCursorFocused); } } glm::vec2 TextEditComponent::getTextAreaPos() const { return glm::vec2 {(TEXT_PADDING_HORIZ * mRenderer->getScreenResolutionModifier()) / 2.0f, (TEXT_PADDING_VERT * mRenderer->getScreenResolutionModifier()) / 2.0f}; } glm::vec2 TextEditComponent::getTextAreaSize() const { return glm::vec2 {mSize.x - (TEXT_PADDING_HORIZ * mRenderer->getScreenResolutionModifier()), mSize.y - (TEXT_PADDING_VERT * mRenderer->getScreenResolutionModifier())}; } std::vector TextEditComponent::getHelpPrompts() { std::vector prompts; if (mEditing) { prompts.push_back(HelpPrompt("lt", _("first"))); prompts.push_back(HelpPrompt("rt", _("last"))); prompts.push_back(HelpPrompt("left/right", _("move cursor"))); prompts.push_back(HelpPrompt("b", _("back"))); } else { prompts.push_back(HelpPrompt("a", _("edit"))); } return prompts; }