// Copyright (c) 2012- PPSSPP Project. // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, version 2.0 or later versions. // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License 2.0 for more details. // A copy of the GPL 2.0 should have been included with the program. // If not, see http://www.gnu.org/licenses/ // Official git repository and contact information can be found at // https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/. #include "native/ext/jpge/jpgd.h" #include "Common.h" #include "Common/ChunkFile.h" #include "Core/HLE/HLE.h" #include "Core/Reporting.h" #include "sceMpeg.h" //Uncomment if you want to dump JPEGs loaded through sceJpeg to a file //#define JPEG_DEBUG #ifdef JPEG_DEBUG #include "ext/xxhash.h" #endif #include static int mjpegWidth, mjpegHeight; void __JpegInit() { mjpegWidth = 0; mjpegHeight = 0; } void __JpegDoState(PointerWrap &p) { auto s = p.Section("sceJpeg", 1); if (!s) return; p.Do(mjpegWidth); p.Do(mjpegHeight); } u32 convertYCbCrToABGR (int y, int cb, int cr) { //see http://en.wikipedia.org/wiki/Yuv#Y.27UV444_to_RGB888_conversion for more information. cb = cb - 128; cr = cr - 128; int r = y + cr + (cr >> 2) + (cr >> 3) + (cr >> 5); int g = y - ((cb >> 2) + (cb >> 4) + (cb >> 5)) - ((cr >> 1) + (cr >> 3) + (cr >> 4) + (cr >> 5)); int b = y + cb + (cb >> 1) + (cb >> 2) + (cb >> 6); // check rgb value. if (r > 0xFF) r = 0xFF; if(r < 0) r = 0; if (g > 0xFF) g = 0xFF; if(g < 0) g = 0; if (b > 0xFF) b = 0xFF; if(b < 0) b = 0; return 0xFF000000 | (b << 16) | (g << 8) | (r << 0); } int sceJpegDecompressAllImage() { ERROR_LOG_REPORT(ME, "UNIMPL sceJpegDecompressAllImage()"); return 0; } void __JpegCsc(u32 imageAddr, u32 yCbCrAddr, int widthHeight, int bufferWidth) { int height = widthHeight & 0xFFF; int width = (widthHeight >> 16) & 0xFFF; int lineWidth = std::min(width, bufferWidth); int skipEndOfLine = std::max(0, bufferWidth - lineWidth); u32 *imageBuffer = (u32*)Memory::GetPointer(imageAddr); int sizeY = width * height; int sizeCb = sizeY >> 2; u8 *Y = (u8*)Memory::GetPointer(yCbCrAddr); u8 *Cb = Y + sizeY; u8 *Cr = Cb + sizeCb; for (int y = 0; y < height; ++y) { for (int x = 0; x < width; x += 4) { u8 y0 = Y[x + 0]; u8 y1 = Y[x + 1]; u8 y2 = Y[x + 2]; u8 y3 = Y[x + 3]; u8 cb = *Cb++; u8 cr = *Cr++; // Convert to ABGR u32 abgr0 = convertYCbCrToABGR(y0, cb, cr); u32 abgr1 = convertYCbCrToABGR(y1, cb, cr); u32 abgr2 = convertYCbCrToABGR(y2, cb, cr); u32 abgr3 = convertYCbCrToABGR(y3, cb, cr); // Write ABGR imageBuffer[x + 0] = abgr0; imageBuffer[x + 1] = abgr1; imageBuffer[x + 2] = abgr2; imageBuffer[x + 3] = abgr3; } Y += width; imageBuffer += width; imageBuffer += skipEndOfLine; } } int sceJpegMJpegCsc(u32 imageAddr, u32 yCbCrAddr, int widthHeight, int bufferWidth) { __JpegCsc(imageAddr, yCbCrAddr, widthHeight, bufferWidth); DEBUG_LOG(ME, "sceJpegMJpegCsc(%i, %i, %i, %i)", imageAddr, yCbCrAddr, widthHeight, bufferWidth); return 0; } int sceJpegDecodeMJpeg(u32 jpegAddr, int jpegSize, u32 imageAddr, int dhtMode) { ERROR_LOG_REPORT(ME, "UNIMPL sceJpegDecodeMJpeg(%i, %i, %i, %i)", jpegAddr, jpegSize, imageAddr, dhtMode); return 0; } int sceJpegDeleteMJpeg() { WARN_LOG(ME, "sceJpegDeleteMJpeg()"); return 0; } int sceJpegDecodeMJpegSuccessively(u32 jpegAddr, int jpegSize, u32 imageAddr, int dhtMode) { ERROR_LOG_REPORT(ME, "UNIMPL sceJpegDecodeMJpegSuccessively(%i, %i, %i, %i)", jpegAddr, jpegSize, imageAddr, dhtMode); return 0; } int sceJpegCsc(u32 imageAddr, u32 yCbCrAddr, int widthHeight, int bufferWidth, int colourInfo) { if (bufferWidth < 0 || widthHeight < 0){ WARN_LOG(ME, "sceJpegCsc(%i, %i, %i, %i, %i)", imageAddr, yCbCrAddr, widthHeight, bufferWidth, colourInfo); return ERROR_JPEG_INVALID_VALUE; } __JpegCsc(imageAddr, yCbCrAddr, widthHeight, bufferWidth); DEBUG_LOG(ME, "sceJpegCsc(%i, %i, %i, %i, %i)", imageAddr, yCbCrAddr, widthHeight, bufferWidth, colourInfo); return 0; } int sceJpegFinishMJpeg() { WARN_LOG(ME, "sceJpegFinishMJpeg()"); return 0; } int getYCbCrBufferSize(int w, int h) { // Return necessary buffer size for conversion: 12 bits per pixel return ((w * h) >> 1) * 3; } int __JpegGetOutputInfo(u32 jpegAddr, int jpegSize, u32 colourInfoAddr) { u8 *buf = Memory::GetPointer(jpegAddr); int width, height, actual_components; unsigned char *jpegBuf = jpgd::decompress_jpeg_image_from_memory(buf, jpegSize, &width, &height, &actual_components, 3); if (actual_components != 3) { // The assumption that the image was RGB was wrong... // Try again. int components = actual_components; jpegBuf = jpgd::decompress_jpeg_image_from_memory(buf, jpegSize, &width, &height, &actual_components, components); } if (jpegBuf == NULL) { ERROR_LOG(ME, "sceJpegGetOutputInfo: Bad JPEG data"); return getYCbCrBufferSize(0, 0); } // Buffer to store info about the color space in use. // - Bits 24 to 32 (Always empty): 0x00 // - Bits 16 to 24 (Color mode): 0x00 (Unknown), 0x01 (Greyscale) or 0x02 (YCbCr) // - Bits 8 to 16 (Vertical chroma subsampling value): 0x00, 0x01 or 0x02 // - Bits 0 to 8 (Horizontal chroma subsampling value): 0x00, 0x01 or 0x02 if (Memory::IsValidAddress(colourInfoAddr)) { Memory::Write_U32(0x00020202, colourInfoAddr); } #ifdef JPEG_DEBUG char jpeg_fname[256]; u8 *jpegBuf = Memory::GetPointer(jpegAddr); uint32 jpeg_xxhash = XXH32((const char *)jpegBuf, jpegSize, 0xC0108888); sprintf(jpeg_fname, "Jpeg\\%X.jpg", jpeg_xxhash); FILE *wfp = fopen(jpeg_fname, "wb"); if (!wfp) { _wmkdir(L"Jpeg\\"); wfp = fopen(jpeg_fname, "wb"); } fwrite(jpegBuf, 1, jpegSize, wfp); fclose(wfp); #endif //JPEG_DEBUG return getYCbCrBufferSize(width, height); } int sceJpegGetOutputInfo(u32 jpegAddr, int jpegSize, u32 colourInfoAddr, int dhtMode) { ERROR_LOG_REPORT(ME, "sceJpegGetOutputInfo(%i, %i, %i, %i)", jpegAddr, jpegSize, colourInfoAddr, dhtMode); if (!Memory::IsValidAddress(jpegAddr)) { ERROR_LOG(ME, "sceJpegGetOutputInfo: Bad JPEG address 0x%08x", jpegAddr); return getYCbCrBufferSize(0, 0); } return __JpegGetOutputInfo(jpegAddr, jpegSize, colourInfoAddr); } int getWidthHeight(int width, int height) { return (width << 16) | height; } u32 convertRGBToYCbCr(u32 rgb) { //see http://en.wikipedia.org/wiki/Yuv#Y.27UV444_to_RGB888_conversion for more information. u8 r = (rgb >> 16) & 0xFF; u8 g = (rgb >> 8) & 0xFF; u8 b = (rgb >> 0) & 0xFF; int y = 0.299f * r + 0.587f * g + 0.114f * b + 0; int cb = -0.169f * r - 0.331f * g + 0.499f * b + 128.0f; int cr = 0.499f * r - 0.418f * g - 0.0813f * b + 128.0f; // check yCbCr value if ( y > 0xFF) y = 0xFF; if ( y < 0) y = 0; if (cb > 0xFF) cb = 0xFF; if (cb < 0) cb = 0; if (cr > 0xFF) cr = 0xFF; if (cr < 0) cr = 0; return (y << 16) | (cb << 8) | cr; } int __JpegConvertRGBToYCbCr (const void *data, u32 bufferOutputAddr, int width, int height) { u24_be *imageBuffer = (u24_be*)data; int sizeY = width * height; int sizeCb = sizeY >> 2; u8 *Y = (u8*)Memory::GetPointer(bufferOutputAddr); u8 *Cb = Y + sizeY; u8 *Cr = Cb + sizeCb; for (int y = 0; y < height; ++y) { for (int x = 0; x < width; x += 4) { u32 abgr0 = imageBuffer[x + 0]; u32 abgr1 = imageBuffer[x + 1]; u32 abgr2 = imageBuffer[x + 2]; u32 abgr3 = imageBuffer[x + 3]; u32 yCbCr0 = convertRGBToYCbCr(abgr0); u32 yCbCr1 = convertRGBToYCbCr(abgr1); u32 yCbCr2 = convertRGBToYCbCr(abgr2); u32 yCbCr3 = convertRGBToYCbCr(abgr3); Y[x + 0] = (yCbCr0 >> 16) & 0xFF; Y[x + 1] = (yCbCr1 >> 16) & 0xFF; Y[x + 2] = (yCbCr2 >> 16) & 0xFF; Y[x + 3] = (yCbCr3 >> 16) & 0xFF; *Cb++ = (yCbCr0 >> 8) & 0xFF; *Cr++ = yCbCr0 & 0xFF; } imageBuffer += width; Y += width ; } return (width << 16) | height; } int __JpegDecodeMJpegYCbCr(u32 jpegAddr, int jpegSize, u32 yCbCrAddr) { u8 *buf = Memory::GetPointer(jpegAddr); int width, height, actual_components; unsigned char *jpegBuf = jpgd::decompress_jpeg_image_from_memory(buf, jpegSize, &width, &height, &actual_components, 3); if (actual_components != 3) { // The assumption that the image was RGB was wrong... // Try again. int components = actual_components; jpegBuf = jpgd::decompress_jpeg_image_from_memory(buf, jpegSize, &width, &height, &actual_components, components); } if (jpegBuf == NULL) { return getWidthHeight(0, 0); } if (actual_components == 3) { __JpegConvertRGBToYCbCr(jpegBuf, yCbCrAddr, width, height); } // TODO: There's more... return getWidthHeight(width, height); } int sceJpegDecodeMJpegYCbCr(u32 jpegAddr, int jpegSize, u32 yCbCrAddr, int yCbCrSize, int dhtMode) { WARN_LOG_REPORT(ME, "sceJpegDecodeMJpegYCbCr(%i, %i, %i, %i, %i)", jpegAddr, jpegSize, yCbCrAddr, yCbCrSize, dhtMode); if (!Memory::IsValidAddress(jpegAddr)) { ERROR_LOG(ME, "sceJpegDecodeMJpegYCbCr: Bad JPEG address 0x%08x", jpegAddr); return getWidthHeight(0, 0); } return __JpegDecodeMJpegYCbCr(jpegAddr, jpegSize, yCbCrAddr); } int sceJpegDecodeMJpegYCbCrSuccessively(u32 jpegAddr, int jpegSize, u32 yCbCrAddr, int yCbCrSize, int dhtMode) { ERROR_LOG_REPORT(ME, "UNIMPL sceJpegDecodeMJpegYCbCrSuccessively(%i, %i, %i, %i, %i)", jpegAddr, jpegSize, yCbCrAddr, yCbCrSize, dhtMode); if (!Memory::IsValidAddress(jpegAddr)) { ERROR_LOG(ME, "sceJpegDecodeMJpegYCbCrSuccessively: Bad JPEG address 0x%08x", jpegAddr); return getWidthHeight(0, 0); } // Do as same way as sceJpegDecodeMJpegYCbCr() but with smaller block size return __JpegDecodeMJpegYCbCr(jpegAddr, jpegSize, yCbCrAddr); } int sceJpeg_9B36444C() { ERROR_LOG_REPORT(ME, "UNIMPL sceJpeg_9B36444C()"); return 0; } int sceJpegCreateMJpeg(int width, int height) { DEBUG_LOG(ME, "sceJpegCreateMJpeg(%i, %i)", width, height); mjpegWidth = width; mjpegHeight = height; return 0; } int sceJpegInitMJpeg() { WARN_LOG(ME, "sceJpegInitMJpeg()"); return 0; } int sceJpegMJpegCscWithColorOption() { ERROR_LOG_REPORT(ME, "UNIMPL sceJpegMJpegCscWithColorOption()"); return 0; } const HLEFunction sceJpeg[] = { {0x0425B986, WrapI_V, "sceJpegDecompressAllImage"}, {0x04B5AE02, WrapI_UUII, "sceJpegMJpegCsc"}, {0x04B93CEF, WrapI_UIUI, "sceJpegDecodeMJpeg"}, {0x227662D7, WrapI_UIUII, "sceJpegDecodeMJpegYCbCrSuccessively"}, {0x48B602B7, WrapI_V, "sceJpegDeleteMJpeg"}, {0x64B6F978, WrapI_UIUI, "sceJpegDecodeMJpegSuccessively"}, {0x67F0ED84, WrapI_UUIII, "sceJpegCsc"}, {0x7D2F3D7F, WrapI_V, "sceJpegFinishMJpeg"}, {0x8F2BB012, WrapI_UIUI, "sceJpegGetOutputInfo"}, {0x91EED83C, WrapI_UIUII, "sceJpegDecodeMJpegYCbCr"}, {0x9B36444C, WrapI_V, "sceJpeg_9B36444C"}, {0x9D47469C, WrapI_II, "sceJpegCreateMJpeg"}, {0xAC9E70E6, WrapI_V, "sceJpegInitMJpeg"}, {0xa06a75c4, WrapI_V, "sceJpegMJpegCscWithColorOption"}, }; void Register_sceJpeg() { RegisterModule("sceJpeg", ARRAY_SIZE(sceJpeg), sceJpeg); }