#include "ImageComponent.h" #include #include #include #include "../Log.h" #include "../Renderer.h" Eigen::Vector2i ImageComponent::getTextureSize() const { if(mTexture) return mTexture->getSize(); else return Eigen::Vector2i(0, 0); } Eigen::Vector2f ImageComponent::getCenter() const { return Eigen::Vector2f(mPosition.x() - (getSize().x() * mOrigin.x()) + getSize().x() / 2, mPosition.y() - (getSize().y() * mOrigin.y()) + getSize().y() / 2); } ImageComponent::ImageComponent(Window* window, float offsetX, float offsetY, std::string path, float targetWidth, float targetHeight, bool allowUpscale) : GuiComponent(window), mTiled(false), mAllowUpscale(allowUpscale), mFlipX(false), mFlipY(false), mOrigin(0.0, 0.0), mTargetSize(targetWidth, targetHeight), mColorShift(0xFFFFFFFF) { setPosition(offsetX, offsetY); if(!path.empty()) setImage(path); } ImageComponent::~ImageComponent() { } void ImageComponent::resize() { if(!mTexture) return; mSize << (float)getTextureSize().x(), (float)getTextureSize().y(); //(we don't resize tiled images) if(!mTiled && (mTargetSize.x() || mTargetSize.y())) { Eigen::Vector2f resizeScale(Eigen::Vector2f::Zero()); if(mTargetSize.x() && (mAllowUpscale || mSize.x() > mTargetSize.x())) { resizeScale[0] = mTargetSize.x() / mSize.x(); } if(mTargetSize.y() && (mAllowUpscale || mSize.y() > mTargetSize.y())) { resizeScale[1] = mTargetSize.y() / mSize.y(); } if(resizeScale.x() && !resizeScale.y()) resizeScale[1] = resizeScale.x(); if(resizeScale[1] && !resizeScale.x()) resizeScale[0] = resizeScale.y(); if(resizeScale.x()) mSize[0] = (mSize.x() * resizeScale.x()); if(resizeScale.y()) mSize[1] = (mSize.y() * resizeScale.y()); } if(mTiled) mSize = mTargetSize; } void ImageComponent::setImage(std::string path) { if(path.empty() || !ResourceManager::getInstance()->fileExists(path)) mTexture.reset(); else mTexture = TextureResource::get(path); resize(); } void ImageComponent::setImage(const std::shared_ptr& texture) { mTexture = texture; resize(); } void ImageComponent::setImage(const char* path, size_t length) { mTexture.reset(); mTexture = TextureResource::get(""); mTexture->initFromMemory(path, length); resize(); } void ImageComponent::setOrigin(float originX, float originY) { mOrigin << originX, originY; } void ImageComponent::setTiling(bool tile) { mTiled = tile; if(mTiled) mAllowUpscale = false; resize(); } void ImageComponent::setResize(float width, float height, bool allowUpscale) { mTargetSize << width, height; mAllowUpscale = allowUpscale; resize(); } void ImageComponent::setFlipX(bool flip) { mFlipX = flip; } void ImageComponent::setFlipY(bool flip) { mFlipY = flip; } void ImageComponent::setColorShift(unsigned int color) { mColorShift = color; } void ImageComponent::render(const Eigen::Affine3f& parentTrans) { Eigen::Affine3f trans = parentTrans * getTransform(); Renderer::setMatrix(trans); if(mTexture && getOpacity() > 0) { GLfloat points[12], texs[12]; GLubyte colors[6*4]; if(mTiled) { float xCount = mSize.x() / getTextureSize().x(); float yCount = mSize.y() / getTextureSize().y(); Renderer::buildGLColorArray(colors, (mColorShift >> 8 << 8)| (getOpacity()), 6); buildImageArray(0, 0, points, texs, xCount, yCount); }else{ Renderer::buildGLColorArray(colors, (mColorShift >> 8 << 8) | (getOpacity()), 6); buildImageArray(0, 0, points, texs); } drawImageArray(points, texs, colors, 6); } GuiComponent::renderChildren(trans); } void ImageComponent::buildImageArray(int posX, int posY, GLfloat* points, GLfloat* texs, float px, float py) { points[0] = posX - (mSize.x() * mOrigin.x()); points[1] = posY - (mSize.y() * mOrigin.y()); points[2] = posX - (mSize.x() * mOrigin.x()); points[3] = posY + (mSize.y() * (1 - mOrigin.y())); points[4] = posX + (mSize.x() * (1 - mOrigin.x())); points[5] = posY - (mSize.y() * mOrigin.y()); points[6] = posX + (mSize.x() * (1 - mOrigin.x())); points[7] = posY - (mSize.y() * mOrigin.y()); points[8] = posX - (mSize.x() * mOrigin.x()); points[9] = posY + (mSize.y() * (1 - mOrigin.y())); points[10] = posX + (mSize.x() * (1 -mOrigin.x())); points[11] = posY + (mSize.y() * (1 - mOrigin.y())); texs[0] = 0; texs[1] = py; texs[2] = 0; texs[3] = 0; texs[4] = px; texs[5] = py; texs[6] = px; texs[7] = py; texs[8] = 0; texs[9] = 0; texs[10] = px; texs[11] = 0; if(mFlipX) { for(int i = 0; i < 11; i += 2) if(texs[i] == px) texs[i] = 0; else texs[i] = px; } if(mFlipY) { for(int i = 1; i < 12; i += 2) if(texs[i] == py) texs[i] = 0; else texs[i] = py; } } void ImageComponent::drawImageArray(GLfloat* points, GLfloat* texs, GLubyte* colors, unsigned int numArrays) { mTexture->bind(); glEnable(GL_TEXTURE_2D); glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glEnableClientState(GL_VERTEX_ARRAY); glEnableClientState(GL_TEXTURE_COORD_ARRAY); if(colors != NULL) { glEnableClientState(GL_COLOR_ARRAY); glColorPointer(4, GL_UNSIGNED_BYTE, 0, colors); } glVertexPointer(2, GL_FLOAT, 0, points); glTexCoordPointer(2, GL_FLOAT, 0, texs); glDrawArrays(GL_TRIANGLES, 0, numArrays); glDisableClientState(GL_VERTEX_ARRAY); glDisableClientState(GL_TEXTURE_COORD_ARRAY); if(colors != NULL) glDisableClientState(GL_COLOR_ARRAY); glDisable(GL_TEXTURE_2D); glDisable(GL_BLEND); } bool ImageComponent::hasImage() { return (bool)mTexture; } void ImageComponent::copyScreen() { mTexture.reset(); mTexture = TextureResource::get(""); mTexture->initFromScreen(); resize(); }