#include "CTexture.h" CTexture::CTexture() : CResource() { mTexelFormat = eRGBA8; mSourceTexelFormat = eRGBA8; mWidth = 0; mHeight = 0; mNumMipMaps = 0; mLinearSize = 0; mBufferExists = false; mImgDataBuffer = nullptr; mImgDataSize = 0; mGLBufferExists = false; } CTexture::CTexture(const CTexture& Source) { mTexelFormat = Source.mTexelFormat; mSourceTexelFormat = Source.mSourceTexelFormat; mWidth = Source.mWidth; mHeight = Source.mHeight; mLinearSize = Source.mLinearSize; mBufferExists = Source.mBufferExists; mImgDataSize = Source.mImgDataSize; mImgDataBuffer = new u8[mImgDataSize]; memcpy(mImgDataBuffer, Source.mImgDataBuffer, mImgDataSize); mGLBufferExists = false; } CTexture::CTexture(u32 Width, u32 Height) { mTexelFormat = eRGBA8; mSourceTexelFormat = eRGBA8; mWidth = (u16) Width; mHeight = (u16) Height; mNumMipMaps = 1; mLinearSize = Width * Height * 4; mBufferExists = false; mImgDataBuffer = nullptr; mImgDataSize = 0; mGLBufferExists = false; } CTexture::~CTexture() { DeleteBuffers(); } EResType CTexture::Type() { return eTexture; } bool CTexture::BufferGL() { glGenTextures(1, &mTextureID); glBindTexture(GL_TEXTURE_2D, mTextureID); GLenum GLFormat, GLType; bool IsCompressed = false; switch (mTexelFormat) { case eLuminance: GLFormat = GL_LUMINANCE; GLType = GL_UNSIGNED_BYTE; break; case eLuminanceAlpha: GLFormat = GL_LUMINANCE_ALPHA; GLType = GL_UNSIGNED_BYTE; break; case eRGB565: GLFormat = GL_RGB; GLType = GL_UNSIGNED_SHORT_5_6_5; break; case eRGBA4: GLFormat = GL_RGBA; GLType = GL_UNSIGNED_SHORT_4_4_4_4; break; case eRGBA8: GLFormat = GL_RGBA; GLType = GL_UNSIGNED_BYTE; break; case eDXT1: GLFormat = GL_COMPRESSED_RGBA_S3TC_DXT1_EXT; IsCompressed = true; break; } // The smallest mipmaps are probably not being loaded correctly, because mipmaps in GX textures have a minimum size depending on the format, and these don't. // Not sure specifically what accomodations should be made to fix that though so whatever. u32 MipSize = mLinearSize; u32 MipOffset = 0; u16 MipW = mWidth, MipH = mHeight; for (u32 iMip = 0; iMip < mNumMipMaps; iMip++) { GLvoid *pData = (mBufferExists) ? (mImgDataBuffer + MipOffset) : NULL; if (!IsCompressed) glTexImage2D(GL_TEXTURE_2D, iMip, GLFormat, MipW, MipH, 0, GLFormat, GLType, pData); else glCompressedTexImage2D(GL_TEXTURE_2D, iMip, GLFormat, MipW, MipH, 0, MipSize, pData); MipW /= 2; MipH /= 2; MipOffset += MipSize; MipSize /= 4; } glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_BASE_LEVEL, 0); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAX_LEVEL, mNumMipMaps - 1); // Linear filtering on mipmaps: glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR); // Anisotropic filtering: float MaxAnisotropy; glGetFloatv(GL_MAX_TEXTURE_MAX_ANISOTROPY_EXT, &MaxAnisotropy); glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MAX_ANISOTROPY_EXT, MaxAnisotropy); mGLBufferExists = true; return true; } void CTexture::Bind(u32 GLTextureUnit) { glActiveTexture(GL_TEXTURE0 + GLTextureUnit); if (!mGLBufferExists) BufferGL(); glBindTexture(GL_TEXTURE_2D, mTextureID); } void CTexture::Resize(u32 Width, u32 Height) { if ((mWidth != Width) || (mHeight != Height)) { DeleteBuffers(); mWidth = (u16) Width; mHeight = (u16) Height; mNumMipMaps = 1; } } bool CTexture::WriteDDS(COutputStream& out) { if (!out.IsValid()) return false; CopyGLBuffer(); out.WriteString("DDS ", 4); // "DDS " fourCC out.WriteLong(0x7C); // dwSize out.WriteLong(0x21007); // dwFlags out.WriteLong(mHeight); // dwHeight out.WriteLong(mWidth); // dwWidth out.WriteLong(mLinearSize); // dwPitchOrLinearSize out.WriteLong(0); // dwDepth out.WriteLong(mNumMipMaps - 1); // dwMipMapCount for (u32 i = 0; i < 11; i++) out.WriteLong(0); // dwReserved1[11] // DDS_PIXELFORMAT out.WriteLong(32); // DDS_PIXELFORMAT.dwSize u32 pfFlags = 0, pfBpp = 0, pfRBitMask = 0, pfGBitMask = 0, pfBBitMask = 0, pfABitMask = 0; switch (mTexelFormat) { case eLuminance: pfFlags = 0x20000; pfBpp = 0x8; pfRBitMask = 0xFF; break; case eLuminanceAlpha: pfFlags = 0x20001; pfBpp = 0x10; pfRBitMask = 0x00FF; pfABitMask = 0xFF00; break; case eRGBA4: pfFlags = 0x41; pfBpp = 0x10; pfRBitMask = 0x0F00; pfGBitMask = 0x00F0; pfBBitMask = 0x000F; pfABitMask = 0xF000; break; case eRGB565: pfFlags = 0x40; pfBpp = 0x10; pfRBitMask = 0xF800; pfGBitMask = 0x7E0; pfBBitMask = 0x1F; break; case eRGBA8: pfFlags = 0x41; pfBpp = 0x20; pfRBitMask = 0x00FF0000; pfGBitMask = 0x0000FF00; pfBBitMask = 0x000000FF; pfABitMask = 0xFF000000; break; case eDXT1: pfFlags = 0x4; break; } out.WriteLong(pfFlags); // DDS_PIXELFORMAT.dwFlags (mTexelFormat == eDXT1) ? out.WriteString("DXT1", 4) : out.WriteLong(0); // DDS_PIXELFORMAT.dwFourCC out.WriteLong(pfBpp); // DDS_PIXELFORMAT.dwRGBBitCount out.WriteLong(pfRBitMask); // DDS_PIXELFORMAT.dwRBitMask out.WriteLong(pfGBitMask); // DDS_PIXELFORMAT.dwGBitMask out.WriteLong(pfBBitMask); // DDS_PIXELFORMAT.dwBBitMask out.WriteLong(pfABitMask); // DDS_PIXELFORMAT.dwABitMask out.WriteLong(0x401000); // dwCaps out.WriteLong(0); // dwCaps2 out.WriteLong(0); // dwCaps3 out.WriteLong(0); // dwCaps4 out.WriteLong(0); // dwReserved2 out.WriteBytes(mImgDataBuffer, mImgDataSize); // Image data return true; } // ************ STATIC ************ u32 CTexture::FormatBPP(ETexelFormat Format) { switch (Format) { case eGX_I4: return 4; case eGX_I8: return 8; case eGX_IA4: return 8; case eGX_IA8: return 16; case eGX_C4: return 4; case eGX_C8: return 8; case eGX_RGB565: return 16; case eGX_RGB5A3: return 16; case eGX_RGBA8: return 32; case eGX_CMPR: return 4; case eLuminance: return 8; case eLuminanceAlpha: return 16; case eRGBA4: return 16; case eRGB565: return 16; case eRGBA8: return 32; case eDXT1: return 4; default: return 0; } } // ************ PRIVATE ************ void CTexture::CalcLinearSize() { float BytesPerPixel = FormatBPP(mTexelFormat) / 8.f; mLinearSize = mWidth * mHeight * BytesPerPixel; } u32 CTexture::CalcTotalSize() { float BytesPerPixel = FormatBPP(mTexelFormat) / 8.f; u32 MipW = mWidth, MipH = mHeight; u32 Size = 0; for (u32 iMip = 0; iMip < mNumMipMaps; iMip++) { Size += MipW * MipH * BytesPerPixel; MipW /= 2; MipH /= 2; } return Size; } void CTexture::CopyGLBuffer() { if (!mGLBufferExists) return; // Clear existing buffer if (mBufferExists) { delete[] mImgDataBuffer; mBufferExists = false; mImgDataBuffer = nullptr; mImgDataSize = 0; } // Calculate buffer size mImgDataSize = CalcTotalSize(); mImgDataBuffer = new u8[mImgDataSize]; mBufferExists = true; // Get texture u32 MipW = mWidth, MipH = mHeight, MipOffset = 0; float BytesPerPixel = FormatBPP(mTexelFormat) / 8.f; glBindTexture(GL_TEXTURE_2D, mTextureID); for (u32 iMip = 0; iMip < mNumMipMaps; iMip++) { void *pData = mImgDataBuffer + MipOffset; glGetTexImage(GL_TEXTURE_2D, iMip, GL_RGBA, GL_UNSIGNED_BYTE, pData); MipOffset += MipW * MipH * BytesPerPixel; MipW /= 2; MipH /= 2; } mTexelFormat = eRGBA8; mLinearSize = mWidth * mHeight * 4; } void CTexture::DeleteBuffers() { if (mBufferExists) { delete[] mImgDataBuffer; mBufferExists = false; mImgDataBuffer = nullptr; mImgDataSize = 0; } if (mGLBufferExists) { glDeleteTextures(1, &mTextureID); mGLBufferExists = false; } }