#include "stdafx.h" #include "N64Image.h" struct ImgFormatInfo { int bitsPerPixel; int paletteColorCount; }; static const std::map FormatInfo = { {IMG_I4, {4, 0}}, {IMG_IA4, {4, 0}}, {IMG_I8, {8, 0}}, {IMG_IA8, {8, 0}}, {IMG_IA16, {16, 0}}, {IMG_RGBA16, {16, 0}}, {IMG_RGBA32, {32, 0}}, {IMG_CI4_RGBA16, {4, 16}}, {IMG_CI4_IA16, {4, 16}}, {IMG_CI8_RGBA16, {8, 256}}, {IMG_CI8_IA16, {8, 256}}, }; CN64Image::CN64Image() : m_PixelSize(0), m_Format(IMG_RGBA32), m_Width(0), m_Height(0), m_NumPixels(0), m_bUsePalette(false) { } int CN64Image::Init(int format, size_t width, size_t height, void * pixelData, size_t pixelDataSize, void * paletteData, size_t paletteDataSize) { m_Format = format; m_PixelSize = BitsPerPixel(format); m_bUsePalette = UsesPalette(format); m_Width = width; m_Height = height; m_NumPixels = width * height; size_t requiredPixelDataSize = (m_NumPixels * m_PixelSize) / 8; if (pixelData != nullptr && pixelDataSize != requiredPixelDataSize) { return N64IMG_DATA_SIZE_INCORRECT; } else { pixelDataSize = requiredPixelDataSize; } m_PixelData.resize(pixelDataSize); if (pixelData != nullptr) { memcpy(m_PixelData.data(), pixelData, m_PixelData.size()); } if (m_bUsePalette) { size_t maxPaletteSize = (1 << m_PixelSize) * 2; if (paletteData == nullptr) { m_PaletteData.resize(maxPaletteSize); } else { m_PaletteData.resize(min(paletteDataSize, maxPaletteSize)); memcpy(m_PaletteData.data(), paletteData, m_PaletteData.size()); } } int result = UpdateBitmap(); if (result != N64IMG_OK) { return result; } return N64IMG_OK; } int CN64Image::Init(int format, uint8_t * pngData, size_t pngSize) { m_Format = format; m_PixelSize = BitsPerPixel(format); m_bUsePalette = UsesPalette(format); int result = ReadPNG(pngData, pngSize, &m_Width, &m_Height, m_BitmapRgba32); if (result != N64IMG_OK) { return result; } m_NumPixels = m_Width * m_Height; size_t requiredPixelDataSize = (m_NumPixels * m_PixelSize) / 8; m_PixelData.resize(requiredPixelDataSize); result = UpdatePixelsAndPaletteFromBitmap(); if (result != N64IMG_OK) { return result; } result = UpdateBitmap(); if (result != N64IMG_OK) { return result; } return N64IMG_OK; } void CN64Image::ToPNG(std::vector & outPngImage) { WritePNG(m_BitmapRgba32.data(), m_Width, m_Height, outPngImage); } uint16_t * CN64Image::PalettePtr(size_t index) { size_t offset = index * sizeof(uint16_t); if (offset + sizeof(uint16_t) > m_PaletteData.size()) { return nullptr; } return (uint16_t *)&m_PaletteData[offset]; } void * CN64Image::TexelPtr(size_t index) { size_t offset = (index * m_PixelSize) / 8; if (offset + max(1, (m_PixelSize / 8)) > m_PixelData.size()) { return nullptr; } return (void *)&m_PixelData[offset]; } uint32_t * CN64Image::BitmapPtr(size_t index) { size_t offset = index * sizeof(uint32_t); if (offset + sizeof(uint32_t) > m_BitmapRgba32.size()) { return nullptr; } return (uint32_t *)&m_BitmapRgba32[offset]; } unsigned int CN64Image::GetTexel(size_t index) { void * pTexel = TexelPtr(index); if (pTexel == nullptr) { return 0; } switch (m_PixelSize) { case 4: if ((index % 2) == 0) { return (*(uint8_t *)pTexel & 0xF0) >> 4; } else { return (*(uint8_t *)pTexel & 0x0F); } case 8: return *(uint8_t *)pTexel; case 16: return _byteswap_ushort(*(uint16_t *)pTexel); case 32: return _byteswap_ulong(*(uint32_t *)pTexel); } return 0; } void CN64Image::SetTexel(size_t index, unsigned int value) { size_t offset = (index * m_PixelSize) / 8; if (offset + (m_PixelSize / 8) > m_PixelData.size()) { return; } switch (m_PixelSize) { case 4: if ((index % 2) == 0) { m_PixelData[offset] = (uint8_t)((m_PixelData[offset] & 0x0F) | (value << 4)); } else { m_PixelData[offset] = (uint8_t)((m_PixelData[offset] & 0xF0) | (value & 0x0F)); } break; case 8: *(uint8_t *)&m_PixelData[offset] = (uint8_t)value; break; case 16: *(uint16_t *)&m_PixelData[offset] = _byteswap_ushort((uint16_t)value); break; case 32: *(uint32_t *)&m_PixelData[offset] = _byteswap_ulong(value); break; } } bool CN64Image::GetPaletteColor(size_t index, unsigned int * color) { uint16_t * pColor = PalettePtr(index); if (pColor == nullptr) { *color = 0; return false; } *color = _byteswap_ushort(*pColor); return true; } bool CN64Image::SetPaletteColor(size_t index, unsigned int color) { uint16_t * pColor = PalettePtr(index); if (pColor == nullptr) { return false; } *pColor = _byteswap_ushort(color & 0xFFFF); return true; } bool CN64Image::GetBitmapColor(size_t index, uint32_t * color) { uint32_t * pColor = BitmapPtr(index); if (pColor == nullptr) { *color = 0; return false; } *color = _byteswap_ulong(*pColor); return true; } bool CN64Image::SetBitmapColor(size_t index, unsigned int color) { uint32_t * pColor = BitmapPtr(index); if (pColor == nullptr) { return false; } *pColor = _byteswap_ulong(color); return true; } int CN64Image::UpdateBitmap() { m_BitmapRgba32.resize(m_NumPixels * sizeof(uint32_t)); for (size_t nPixel = 0; nPixel < m_NumPixels; nPixel++) { unsigned int color = 0; unsigned int texel = GetTexel(nPixel); if (m_bUsePalette) { if (!GetPaletteColor(texel, &color)) { return N64IMG_INVALID_COLOR_INDEX; } } else { color = texel; } SetBitmapColor(nPixel, ColorToRgba32(m_Format, color)); } return N64IMG_OK; } int CN64Image::UpdatePixelsAndPaletteFromBitmap() { if (m_bUsePalette) { m_PaletteData.resize(1 << m_PixelSize); std::vector newPalette; std::map colorIndexMap; std::vector indices; for (size_t i = 0; i < m_NumPixels; i++) { uint32_t colorRgba32; GetBitmapColor(i, &colorRgba32); uint16_t color16 = (uint16_t)ColorFromRgba32(m_Format, colorRgba32); if (colorIndexMap.count(color16) > 0) { indices.push_back(colorIndexMap[color16]); } else { if (newPalette.size() > (size_t)(1 << m_PixelSize)) { return N64IMG_TOO_MANY_COLORS; } colorIndexMap[color16] = newPalette.size(); indices.push_back(newPalette.size()); newPalette.push_back(color16); } } for (size_t nPixel = 0; nPixel < indices.size(); nPixel++) { SetTexel(nPixel, indices[nPixel]); } m_PaletteData.resize(newPalette.size()); for (size_t nColor = 0; nColor < newPalette.size(); nColor++) { SetPaletteColor(nColor, newPalette[nColor]); } } else { for (size_t nPixel = 0; nPixel < m_NumPixels; nPixel++) { uint32_t colorRgba32; GetBitmapColor(nPixel, &colorRgba32); SetTexel(nPixel, ColorFromRgba32(m_Format, colorRgba32)); } } return N64IMG_OK; } std::vector & CN64Image::PaletteData() { return m_PaletteData; } std::vector & CN64Image::PixelData() { return m_PixelData; } std::vector & CN64Image::Bitmap() { return m_BitmapRgba32; } size_t CN64Image::Width() { return m_Width; } size_t CN64Image::Height() { return m_Height; } int CN64Image::Format() { return m_Format; } bool CN64Image::UsesPalette() { return UsesPalette(m_Format); } unsigned int CN64Image::ColorFromRgba32(int dstFormat, uint32_t rgba32) { if (dstFormat == IMG_RGBA32) { return rgba32; } uint8_t r = ((rgba32 >> 24) & 0xFF); uint8_t g = ((rgba32 >> 16) & 0xFF); uint8_t b = ((rgba32 >> 8) & 0xFF); uint8_t a = ((rgba32 >> 0) & 0xFF); uint8_t i; switch (dstFormat) { case IMG_RGBA16: case IMG_CI8_RGBA16: case IMG_CI4_RGBA16: return ((r / 8) << 11) | ((g / 8) << 6) | ((b / 8) << 1) | (a / 128); case IMG_IA16: case IMG_CI8_IA16: case IMG_CI4_IA16: i = (r + g + b) / 3; return (i << 8) | a; case IMG_I4: i = (r + g + b) / 3; return (i / 16); case IMG_IA4: i = (r + g + b) / 3; return ((i / 32) << 1) | (a / 128); case IMG_I8: i = (r + g + b) / 3; return i; case IMG_IA8: i = (r + g + b) / 3; return ((i / 16) << 4) | (a / 16); } return 0; } uint32_t CN64Image::ColorToRgba32(int srcFormat, unsigned int color) { uint8_t r = 0, g = 0, b = 0, a = 0; switch (srcFormat) { case IMG_RGBA32: return color; case IMG_RGBA16: case IMG_CI8_RGBA16: case IMG_CI4_RGBA16: r = (((color >> 11) & 0x1F) * 255) / 31; g = (((color >> 6) & 0x1F) * 255) / 31; b = (((color >> 1) & 0x1F) * 255) / 31; a = (color & 1) * 255; break; case IMG_IA16: case IMG_CI8_IA16: case IMG_CI4_IA16: r = g = b = (uint8_t)(color >> 8); a = (color & 0xFF); break; case IMG_I4: r = g = b = (uint8_t)(color * 17); a = 255; break; case IMG_IA4: r = g = b = (uint8_t)(((color >> 1) * 255) / 7); a = (color & 1) * 255; break; case IMG_I8: r = g = b = (uint8_t)color; a = 255; break; case IMG_IA8: r = g = b = (uint8_t)((color >> 4) * 17); a = (color & 0x0F) * 17; break; } return (r << 24) | (g << 16) | (b << 8) | a; } int CN64Image::BitsPerPixel(int format) { if (FormatInfo.count(format)) { return FormatInfo.at(format).bitsPerPixel; } return 0; } int CN64Image::PaletteColorCount(int format) { if (FormatInfo.count(format)) { return FormatInfo.at(format).paletteColorCount; } return 0; } bool CN64Image::UsesPalette(int format) { if (FormatInfo.count(format)) { return FormatInfo.at(format).paletteColorCount > 0; } return false; } const char * CN64Image::ResultCodeName(int resultCode) { static const std::map names = { {N64IMG_OK, "OK"}, {N64IMG_DATA_SIZE_INCORRECT, "ERR_DATA_SIZE_INCORRECT"}, {N64IMG_INVALID_COLOR_INDEX, "ERR_INVALID_COLOR_INDEX"}, {N64IMG_INCOMPATIBLE_COLOR, "ERR_INCOMPATIBLE_COLOR"}, {N64IMG_TOO_MANY_COLORS, "ERR_TOO_MANY_COLORS"}, {N64IMG_PNG_HEADER_MISSING, "ERR_PNG_HEADER_MISSING"}, {N64IMG_PNG_OUT_OF_MEMORY, "ERR_PNG_OUT_OF_MEMORY"}, {N64IMG_PNG_EXCEPTION, "ERR_PNG_EXCEPTION"}, {N64IMG_PNG_PARSER_FAILED, "ERR_PNG_PARSER_FAILED"}, }; if (names.count(resultCode) != 0) { return names.at(resultCode); } return "ERR_UNKNOWN"; }