bool CBaseTexture::LoadFromFileInMem(unsigned char* buffer, size_t size, const std::string& mimeType, unsigned int maxWidth, unsigned int maxHeight) { if (!buffer || !size) return false; //ImageLib is sooo sloow for jpegs. Try our own decoder first. If it fails, fall back to ImageLib. if (mimeType == "image/jpeg") { CJpegIO jpegfile; if (jpegfile.Read(buffer, size, maxWidth, maxHeight)) { if (jpegfile.Width() > 0 && jpegfile.Height() > 0) { Allocate(jpegfile.Width(), jpegfile.Height(), XB_FMT_A8R8G8B8); if (jpegfile.Decode(m_pixels, GetPitch(), XB_FMT_A8R8G8B8)) { m_hasAlpha=false; ClampToEdge(); return true; } } } } DllImageLib dll; if (!dll.Load()) return false; ImageInfo image; memset(&image, 0, sizeof(image)); unsigned int width = maxWidth ? std::min(maxWidth, g_Windowing.GetMaxTextureSize()) : g_Windowing.GetMaxTextureSize(); unsigned int height = maxHeight ? std::min(maxHeight, g_Windowing.GetMaxTextureSize()) : g_Windowing.GetMaxTextureSize(); CStdString ext = mimeType; int nPos = ext.Find('/'); if (nPos > -1) ext.Delete(0, nPos + 1); if(!dll.LoadImageFromMemory(buffer, size, ext.c_str(), width, height, &image)) { CLog::Log(LOGERROR, "Texture manager unable to load image from memory"); return false; } LoadFromImage(image); dll.ReleaseImage(&image); return true; }
bool CBaseTexture::LoadFromFile(const CStdString& texturePath, unsigned int maxWidth, unsigned int maxHeight, bool autoRotate, unsigned int *originalWidth, unsigned int *originalHeight) { if (URIUtils::GetExtension(texturePath).Equals(".dds")) { // special case for DDS images CDDSImage image; if (image.ReadFile(texturePath)) { Update(image.GetWidth(), image.GetHeight(), 0, image.GetFormat(), image.GetData(), false); return true; } return false; } //ImageLib is sooo sloow for jpegs. Try our own decoder first. If it fails, fall back to ImageLib. if (URIUtils::GetExtension(texturePath).Equals(".jpg") || URIUtils::GetExtension(texturePath).Equals(".tbn")) { CJpegIO jpegfile; if (jpegfile.Open(texturePath, maxWidth, maxHeight)) { if (jpegfile.Width() > 0 && jpegfile.Height() > 0) { Allocate(jpegfile.Width(), jpegfile.Height(), XB_FMT_A8R8G8B8); if (jpegfile.Decode(m_pixels, GetPitch(), XB_FMT_A8R8G8B8)) { if (autoRotate && jpegfile.Orientation()) m_orientation = jpegfile.Orientation() - 1; m_hasAlpha=false; ClampToEdge(); return true; } } } } DllImageLib dll; if (!dll.Load()) return false; ImageInfo image; memset(&image, 0, sizeof(image)); unsigned int width = maxWidth ? std::min(maxWidth, g_Windowing.GetMaxTextureSize()) : g_Windowing.GetMaxTextureSize(); unsigned int height = maxHeight ? std::min(maxHeight, g_Windowing.GetMaxTextureSize()) : g_Windowing.GetMaxTextureSize(); if(!dll.LoadImage(texturePath.c_str(), width, height, &image)) { CLog::Log(LOGERROR, "Texture manager unable to load file: %s", texturePath.c_str()); return false; } m_hasAlpha = NULL != image.alpha; Allocate(image.width, image.height, XB_FMT_A8R8G8B8); if (autoRotate && image.exifInfo.Orientation) m_orientation = image.exifInfo.Orientation - 1; if (originalWidth) *originalWidth = image.originalwidth; if (originalHeight) *originalHeight = image.originalheight; unsigned int dstPitch = GetPitch(); unsigned int srcPitch = ((image.width + 1)* 3 / 4) * 4; // bitmap row length is aligned to 4 bytes unsigned char *dst = m_pixels; unsigned char *src = image.texture + (m_imageHeight - 1) * srcPitch; for (unsigned int y = 0; y < m_imageHeight; y++) { unsigned char *dst2 = dst; unsigned char *src2 = src; for (unsigned int x = 0; x < m_imageWidth; x++, dst2 += 4, src2 += 3) { dst2[0] = src2[0]; dst2[1] = src2[1]; dst2[2] = src2[2]; dst2[3] = 0xff; } src -= srcPitch; dst += dstPitch; } if(image.alpha) { dst = m_pixels + 3; src = image.alpha + (m_imageHeight - 1) * m_imageWidth; for (unsigned int y = 0; y < m_imageHeight; y++) { unsigned char *dst2 = dst; unsigned char *src2 = src; for (unsigned int x = 0; x < m_imageWidth; x++, dst2+=4, src2++) *dst2 = *src2; src -= m_imageWidth; dst += dstPitch; } } dll.ReleaseImage(&image); ClampToEdge(); return true; }
bool CBaseTexture::LoadFromFileInternal(const CStdString& texturePath, unsigned int maxWidth, unsigned int maxHeight, bool autoRotate) { #if defined(HAS_OMXPLAYER) if (URIUtils::GetExtension(texturePath).Equals(".jpg") || URIUtils::GetExtension(texturePath).Equals(".tbn") /*|| URIUtils::GetExtension(texturePath).Equals(".png")*/) { COMXImage omx_image; if(omx_image.ReadFile(texturePath)) { // TODO: we only decode as half width and height. this is a workaround for the PI memory limitation if(omx_image.Decode(omx_image.GetWidth() / 2, omx_image.GetHeight() / 2)) { Allocate(omx_image.GetDecodedWidth(), omx_image.GetDecodedHeight(), XB_FMT_A8R8G8B8); if(!m_pixels) { CLog::Log(LOGERROR, "Texture manager (OMX) out of memory"); omx_image.Close(); return false; } m_originalWidth = omx_image.GetOriginalWidth(); m_originalHeight = omx_image.GetOriginalHeight(); m_hasAlpha = omx_image.IsAlpha(); if (autoRotate && omx_image.GetOrientation()) m_orientation = omx_image.GetOrientation() - 1; if(omx_image.GetDecodedData()) { int size = ( ( GetPitch() * GetRows() ) > omx_image.GetDecodedSize() ) ? omx_image.GetDecodedSize() : ( GetPitch() * GetRows() ); memcpy(m_pixels, (unsigned char *)omx_image.GetDecodedData(), size); } omx_image.Close(); return true; } else { omx_image.Close(); } } } #endif if (URIUtils::GetExtension(texturePath).Equals(".dds")) { // special case for DDS images CDDSImage image; if (image.ReadFile(texturePath)) { Update(image.GetWidth(), image.GetHeight(), 0, image.GetFormat(), image.GetData(), false); return true; } return false; } //ImageLib is sooo sloow for jpegs. Try our own decoder first. If it fails, fall back to ImageLib. if (URIUtils::GetExtension(texturePath).Equals(".jpg") || URIUtils::GetExtension(texturePath).Equals(".tbn")) { CJpegIO jpegfile; if (jpegfile.Open(texturePath, maxWidth, maxHeight)) { if (jpegfile.Width() > 0 && jpegfile.Height() > 0) { Allocate(jpegfile.Width(), jpegfile.Height(), XB_FMT_A8R8G8B8); if (jpegfile.Decode(m_pixels, GetPitch(), XB_FMT_A8R8G8B8)) { if (autoRotate && jpegfile.Orientation()) m_orientation = jpegfile.Orientation() - 1; m_hasAlpha=false; ClampToEdge(); return true; } } } CLog::Log(LOGDEBUG, "%s - Load of %s failed. Falling back to ImageLib", __FUNCTION__, texturePath.c_str()); } DllImageLib dll; if (!dll.Load()) return false; ImageInfo image; memset(&image, 0, sizeof(image)); unsigned int width = maxWidth ? std::min(maxWidth, g_Windowing.GetMaxTextureSize()) : g_Windowing.GetMaxTextureSize(); unsigned int height = maxHeight ? std::min(maxHeight, g_Windowing.GetMaxTextureSize()) : g_Windowing.GetMaxTextureSize(); if(!dll.LoadImage(texturePath.c_str(), width, height, &image)) { CLog::Log(LOGERROR, "Texture manager unable to load file: %s", texturePath.c_str()); return false; } LoadFromImage(image, autoRotate); dll.ReleaseImage(&image); return true; }
bool CBaseTexture::LoadFromFile(const CStdString& texturePath, unsigned int maxWidth, unsigned int maxHeight, bool autoRotate, unsigned int *originalWidth, unsigned int *originalHeight) { if (URIUtils::GetExtension(texturePath).Equals(".dds")) { // special case for DDS images CDDSImage image; if (image.ReadFile(texturePath)) { Update(image.GetWidth(), image.GetHeight(), 0, image.GetFormat(), image.GetData(), false); return true; } return false; } //ImageLib is sooo sloow for jpegs. Try our own decoder first. If it fails, fall back to ImageLib. if (URIUtils::GetExtension(texturePath).Equals(".jpg") || URIUtils::GetExtension(texturePath).Equals(".tbn")) { CJpegIO jpegfile; if (jpegfile.Open(texturePath, maxWidth, maxHeight)) { if (jpegfile.Width() > 0 && jpegfile.Height() > 0) { Allocate(jpegfile.Width(), jpegfile.Height(), XB_FMT_A8R8G8B8); if (jpegfile.Decode(m_pixels, GetPitch(), XB_FMT_A8R8G8B8)) { if (autoRotate && jpegfile.Orientation()) m_orientation = jpegfile.Orientation() - 1; m_hasAlpha=false; ClampToEdge(); return true; } } } CLog::Log(LOGDEBUG, "%s - Load of %s failed. Falling back to ImageLib", __FUNCTION__, texturePath.c_str()); } DllImageLib dll; if (!dll.Load()) return false; ImageInfo image; memset(&image, 0, sizeof(image)); unsigned int width = maxWidth ? std::min(maxWidth, g_Windowing.GetMaxTextureSize()) : g_Windowing.GetMaxTextureSize(); unsigned int height = maxHeight ? std::min(maxHeight, g_Windowing.GetMaxTextureSize()) : g_Windowing.GetMaxTextureSize(); if(!dll.LoadImage(texturePath.c_str(), width, height, &image)) { CLog::Log(LOGERROR, "Texture manager unable to load file: %s", texturePath.c_str()); return false; } if (originalWidth) *originalWidth = image.originalwidth; if (originalHeight) *originalHeight = image.originalheight; LoadFromImage(image, autoRotate); dll.ReleaseImage(&image); return true; }