#include "StarGuiContext.hpp" #include "StarRoot.hpp" #include "StarConfiguration.hpp" #include "StarMixer.hpp" #include "StarAssets.hpp" #include "StarImageMetadataDatabase.hpp" namespace Star { GuiContext* GuiContext::s_singleton; GuiContext* GuiContext::singletonPtr() { return s_singleton; } GuiContext& GuiContext::singleton() { if (!s_singleton) throw GuiContextException("GuiContext::singleton() called with no GuiContext instance available"); else return *s_singleton; } GuiContext::GuiContext(MixerPtr mixer, ApplicationControllerPtr appController) { if (s_singleton) throw GuiContextException("Singleton GuiContext has been constructed twice"); s_singleton = this; m_mixer = move(mixer); m_applicationController = move(appController); m_interfaceScale = 1; m_shiftHeld = false; refreshKeybindings(); } GuiContext::~GuiContext() { s_singleton = nullptr; } void GuiContext::renderInit(RendererPtr renderer) { m_renderer = move(renderer); auto textureGroup = m_renderer->createTextureGroup(); m_textureCollection = make_shared(textureGroup); m_drawablePainter = make_shared(m_renderer, m_textureCollection); m_textPainter = make_shared(m_renderer, textureGroup); } MixerPtr const& GuiContext::mixer() const { return m_mixer; } ApplicationControllerPtr const& GuiContext::applicationController() const { return m_applicationController; } RendererPtr const& GuiContext::renderer() const { if (!m_renderer) throw GuiContextException("GuiContext::renderer() called before renderInit"); return m_renderer; } AssetTextureGroupPtr const& GuiContext::assetTextureGroup() const { if (!m_textureCollection) throw GuiContextException("GuiContext::assetTextureGroup() called before renderInit"); return m_textureCollection; } TextPainterPtr const& GuiContext::textPainter() const { if (!m_textPainter) throw GuiContextException("GuiContext::textPainter() called before renderInit"); return m_textPainter; } unsigned GuiContext::windowWidth() const { return renderer()->screenSize()[0]; } unsigned GuiContext::windowHeight() const { return renderer()->screenSize()[1]; } Vec2U GuiContext::windowSize() const { return renderer()->screenSize(); } Vec2U GuiContext::windowInterfaceSize() const { return Vec2U::ceil(Vec2F(windowSize()) / interfaceScale()); } int GuiContext::interfaceScale() const { return m_interfaceScale; } void GuiContext::setInterfaceScale(int interfaceScale) { m_interfaceScale = interfaceScale; } Maybe GuiContext::mousePosition(InputEvent const& event) const { auto getInterfacePosition = [this](Vec2I pos) { return Vec2I(pos) / interfaceScale(); }; if (auto mouseMoveEvent = event.ptr()) return getInterfacePosition(mouseMoveEvent->mousePosition); else if (auto mouseDownEvent = event.ptr()) return getInterfacePosition(mouseDownEvent->mousePosition); else if (auto mouseUpEvent = event.ptr()) return getInterfacePosition(mouseUpEvent->mousePosition); else if (auto mouseWheelEvent = event.ptr()) return getInterfacePosition(mouseWheelEvent->mousePosition); else return {}; } Set GuiContext::actions(InputEvent const& event) const { return m_keyBindings.actions(event); } Set GuiContext::actionsForKey(Key key) const { return m_keyBindings.actionsForKey(key); } void GuiContext::refreshKeybindings() { m_keyBindings = KeyBindings(Root::singleton().configuration()->get("bindings")); } void GuiContext::setInterfaceScissorRect(RectI const& scissor) { renderer()->setScissorRect(RectI(scissor).scaled(interfaceScale())); } void GuiContext::resetInterfaceScissorRect() { renderer()->setScissorRect({}); } Vec2U GuiContext::textureSize(String const& texName) { return assetTextureGroup()->loadTexture(texName)->size(); } void GuiContext::drawQuad(RectF const& screenCoords, Vec4B const& color) { renderer()->render(renderFlatRect(screenCoords, color, 0.0f)); } void GuiContext::drawQuad(String const& texName, RectF const& screenCoords, Vec4B const& color) { renderer()->render(renderTexturedRect(assetTextureGroup()->loadTexture(texName), screenCoords, color, 0.0f)); } void GuiContext::drawQuad(String const& texName, Vec2F const& screenPos, int pixelRatio, Vec4B const& color) { renderer()->render(renderTexturedRect(assetTextureGroup()->loadTexture(texName), screenPos, pixelRatio, color, 0.0f)); } void GuiContext::drawQuad(String const& texName, RectF const& texCoords, RectF const& screenCoords, Vec4B const& color) { renderer()->render(RenderQuad{assetTextureGroup()->loadTexture(texName), RenderVertex{Vec2F(screenCoords.xMin(), screenCoords.yMin()), Vec2F(texCoords.xMin(), texCoords.yMin()), color, 0.0f}, RenderVertex{Vec2F(screenCoords.xMax(), screenCoords.yMin()), Vec2F(texCoords.xMax(), texCoords.yMin()), color, 0.0f}, RenderVertex{Vec2F(screenCoords.xMax(), screenCoords.yMax()), Vec2F(texCoords.xMax(), texCoords.yMax()), color, 0.0f}, RenderVertex{Vec2F(screenCoords.xMin(), screenCoords.yMax()), Vec2F(texCoords.xMin(), texCoords.yMax()), color, 0.0f}}); } void GuiContext::drawDrawable(Drawable drawable, Vec2F const& screenPos, int pixelRatio, Vec4B const& color) { if (drawable.isLine()) drawable.linePart().width *= pixelRatio; drawable.scale(pixelRatio); drawable.translate(screenPos); drawable.color *= Color::rgba(color); m_drawablePainter->drawDrawable(drawable); } void GuiContext::drawLine(Vec2F const& begin, Vec2F const end, Vec4B const& color, float lineWidth) { Vec2F left = vnorm(Vec2F(end) - Vec2F(begin)).rot90() * lineWidth / 2.0f; renderer()->render(RenderQuad{{}, RenderVertex{Vec2F(begin) + left, Vec2F(), color, 0.0f}, RenderVertex{Vec2F(begin) - left, Vec2F(), color, 0.0f}, RenderVertex{Vec2F(end) - left, Vec2F(), color, 0.0f}, RenderVertex{Vec2F(end) + left, Vec2F(), color, 0.0f}}); } void GuiContext::drawPolyLines(PolyF const& poly, Vec4B const& color, float lineWidth) { for (size_t i = 0; i < poly.sides(); ++i) drawLine(poly.vertex(i), poly.vertex(i + 1), color, lineWidth); } void GuiContext::drawTriangles(List> const& triangles, Vec4B const& color) { for (auto poly : triangles) { renderer()->render(RenderTriangle{{}, RenderVertex{get<0>(poly), Vec2F(), color, 0.0f}, RenderVertex{get<1>(poly), Vec2F(), color, 0.0f}, RenderVertex{get<2>(poly), Vec2F(), color, 0.0f}}); } } void GuiContext::drawInterfaceDrawable(Drawable drawable, Vec2F const& screenPos, Vec4B const& color) { drawDrawable(move(drawable), screenPos * interfaceScale(), (float)interfaceScale(), color); } void GuiContext::drawInterfaceLine(Vec2F const& begin, Vec2F const end, Vec4B const& color, float lineWidth) { drawLine(begin * interfaceScale(), end * interfaceScale(), color, lineWidth * interfaceScale()); } void GuiContext::drawInterfacePolyLines(PolyF poly, Vec4B const& color, float lineWidth) { poly.scale(interfaceScale()); drawPolyLines(poly, color, lineWidth * interfaceScale()); } void GuiContext::drawInterfaceQuad(RectF const& screenCoords, Vec4B const& color) { drawQuad(screenCoords.scaled(interfaceScale()), color); } void GuiContext::drawInterfaceQuad(String const& texName, Vec2F const& screenCoords, Vec4B const& color) { drawQuad(texName, screenCoords * interfaceScale(), interfaceScale(), color); } void GuiContext::drawInterfaceQuad(String const& texName, Vec2F const& screenCoords, float scale, Vec4B const& color) { drawQuad(texName, screenCoords * interfaceScale(), interfaceScale() * scale, color); } void GuiContext::drawInterfaceQuad(String const& texName, RectF const& texCoords, RectF const& screenCoords, Vec4B const& color) { drawQuad(texName, texCoords, screenCoords.scaled(interfaceScale()), color); } void GuiContext::drawInterfaceTriangles(List> const& triangles, Vec4B const& color) { drawTriangles(triangles.transformed([this](tuple const& poly) { return tuple(get<0>(poly) * interfaceScale(), get<1>(poly) * interfaceScale(), get<2>(poly) * interfaceScale()); }), color); } void GuiContext::drawImageStretchSet(ImageStretchSet const& imageSet, RectF const& screenPos, GuiDirection direction, Vec4B const& color) { int innerSize; int innerOffset = 0; RectF begin, end, inner; if (direction == GuiDirection::Horizontal) { innerSize = screenPos.width(); if (imageSet.begin.size()) innerOffset = textureSize(imageSet.begin)[0]; if (imageSet.end.size()) innerSize = std::max(0, innerSize - innerOffset - Vec2I(textureSize(imageSet.end))[0]); else innerSize = std::max(0, innerSize - innerOffset); if (imageSet.begin.size()) begin = RectF::withSize(screenPos.min(), Vec2F(textureSize(imageSet.begin)[0], screenPos.height())); else begin = RectF::withSize(screenPos.min(), Vec2F(0, screenPos.height())); inner = RectF::withSize(screenPos.min() + Vec2F(innerOffset, 0), Vec2F(innerSize, screenPos.height())); if (imageSet.end.size()) end = RectF::withSize(screenPos.min() + Vec2F(innerOffset + innerSize, 0), Vec2F(textureSize(imageSet.end)[0], screenPos.height())); else end = RectF::withSize(screenPos.min(), Vec2F(0, screenPos.height())); } else { innerSize = screenPos.height(); if (imageSet.begin.size()) innerOffset = textureSize(imageSet.begin)[1]; if (imageSet.end.size()) innerSize = std::max(0, innerSize - innerOffset - Vec2I(textureSize(imageSet.end))[1]); else innerSize = std::max(0, innerSize - innerOffset); if (imageSet.begin.size()) begin = RectF::withSize(screenPos.min(), Vec2F(screenPos.width(), textureSize(imageSet.begin)[1])); else begin = RectF::withSize(screenPos.min(), Vec2F(screenPos.width(), 0)); inner = RectF::withSize(screenPos.min() + Vec2F(0, innerOffset), Vec2F(screenPos.width(), innerSize)); if (imageSet.end.size()) { end = RectF::withSize(screenPos.min() + Vec2F(0, innerOffset + innerSize), Vec2F(screenPos.width(), textureSize(imageSet.end)[1])); } else { end = RectF::withSize(screenPos.min(), Vec2F(screenPos.width(), 0)); } } if (imageSet.begin.size()) drawInterfaceQuad(imageSet.begin, RectF(Vec2F(), Vec2F(textureSize(imageSet.begin))), begin, color); if (imageSet.type == ImageStretchSet::ImageStretchType::Stretch) { drawInterfaceQuad(imageSet.inner, RectF(Vec2F(), Vec2F(textureSize(imageSet.inner))), inner, color); } else { int position = 0; auto texSize = Vec2F(textureSize(imageSet.inner)); if (direction == GuiDirection::Horizontal) { starAssert(texSize[0] > 0); while (position < inner.width()) { RectF partialImage = RectF::withSize(Vec2F(), Vec2F(std::min(inner.width() - position, texSize[0]), texSize[1])); drawInterfaceQuad(imageSet.inner, partialImage, RectF::withSize(inner.min() + Vec2F(position, 0), partialImage.size()), color); position += partialImage.size()[0]; } } else { starAssert(texSize[1] > 0); while (position < inner.height()) { RectF partialImage = RectF::withSize( Vec2F(0, max(0.0f, texSize[1] - (inner.height() - position))), Vec2F(texSize[0], std::min(inner.height() - position, texSize[1]))); drawInterfaceQuad(imageSet.inner, partialImage, RectF::withSize(inner.min() + Vec2F(0, position), partialImage.size()), color); position += partialImage.size()[1]; } } } if (imageSet.end.size()) drawInterfaceQuad(imageSet.end, RectF(Vec2F(), Vec2F(textureSize(imageSet.end))), end, color); } RectF GuiContext::renderText(String const& s, TextPositioning const& position) { return textPainter()->renderText(s, position); } RectF GuiContext::renderInterfaceText(String const& s, TextPositioning const& position) { auto res = renderText(s, { position.pos * interfaceScale(), position.hAnchor, position.vAnchor, position.wrapWidth.apply(bind(std::multiplies(), _1, interfaceScale())), position.charLimit }); return RectF(res).scaled(1.0f / interfaceScale()); } RectF GuiContext::determineTextSize(String const& s, TextPositioning const& positioning) { return textPainter()->determineTextSize(s, positioning); } RectF GuiContext::determineInterfaceTextSize(String const& s, TextPositioning const& positioning) { auto res = determineTextSize(s, { positioning.pos * interfaceScale(), positioning.hAnchor, positioning.vAnchor, positioning.wrapWidth.apply(bind(std::multiplies(), _1, interfaceScale())) }); return RectF(res).scaled(1.0f / interfaceScale()); } void GuiContext::setFontSize(unsigned size) { setFontSize(size, interfaceScale()); } void GuiContext::setFontSize(unsigned size, int pixelRatio) { textPainter()->setFontSize(size * pixelRatio); } void GuiContext::setFontColor(Vec4B const& color) { textPainter()->setFontColor(color); } void GuiContext::setFontMode(FontMode mode) { textPainter()->setMode(mode); } void GuiContext::setFontProcessingDirectives(String const& directives) { textPainter()->setProcessingDirectives(directives); } void GuiContext::setFont(String const& font) { textPainter()->setFont(font); } void GuiContext::setDefaultFont() { textPainter()->setFont(""); } void GuiContext::setLineSpacing(float lineSpacing) { textPainter()->setLineSpacing(lineSpacing); } void GuiContext::setDefaultLineSpacing() { textPainter()->setLineSpacing(DefaultLineSpacing); } int GuiContext::stringWidth(String const& s) { return textPainter()->stringWidth(s); } int GuiContext::stringInterfaceWidth(String const& s) { if (interfaceScale()) { // font size is already adjusted UP by interfaceScale, so we have to adjust // it back down return stringWidth(s) / interfaceScale(); } return 0; } StringList GuiContext::wrapText(String const& s, Maybe wrapWidth) { return textPainter()->wrapText(s, wrapWidth); } StringList GuiContext::wrapInterfaceText(String const& s, Maybe wrapWidth) { if (wrapWidth) *wrapWidth *= interfaceScale(); return wrapText(s, wrapWidth); } bool GuiContext::shiftHeld() const { return m_shiftHeld; } void GuiContext::setShiftHeld(bool held) { m_shiftHeld = held; } void GuiContext::playAudio(AudioInstancePtr audioInstance) { m_mixer->play(audioInstance); } void GuiContext::playAudio(String const& audioAsset, int loops, float volume) { auto assets = Root::singleton().assets(); auto config = Root::singleton().configuration(); auto audioInstance = make_shared(*assets->audio(audioAsset)); audioInstance->setVolume(volume); audioInstance->setLoops(loops); m_mixer->play(move(audioInstance)); } String GuiContext::getClipboard() const { return m_applicationController->getClipboard().value(); } void GuiContext::setClipboard(String text) { m_applicationController->setClipboard(move(text)); } void GuiContext::cleanup() { int64_t textureTimeout = Root::singleton().assets()->json("/rendering.config:textureTimeout").toInt(); if (m_textureCollection) m_textureCollection->cleanup(textureTimeout); if (m_textPainter) m_textPainter->cleanup(textureTimeout); } }