// Copyright 2014 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #include "../../../include/fpdfapi/fpdf_module.h" #include "../../../include/fpdfapi/fpdf_page.h" #include "../../../include/fxcodec/fx_codec.h" #include "../../../include/fpdfapi/fpdf_render.h" #include "../fpdf_page/pageint.h" #include "../fpdf_render/render_int.h" CPDF_Dictionary* CPDF_Image::InitJPEG(FX_LPBYTE pData, FX_DWORD size) { FX_INT32 width, height, color_trans, num_comps, bits; if (!CPDF_ModuleMgr::Get()->GetJpegModule()-> LoadInfo(pData, size, width, height, num_comps, bits, color_trans)) { return NULL; } CPDF_Dictionary* pDict = FX_NEW CPDF_Dictionary; pDict->SetAtName("Type", "XObject"); pDict->SetAtName("Subtype", "Image"); pDict->SetAtInteger("Width", width); pDict->SetAtInteger("Height", height); FX_LPCSTR csname = NULL; if (num_comps == 1) { csname = "DeviceGray"; } else if (num_comps == 3) { csname = "DeviceRGB"; } else if (num_comps == 4) { csname = "DeviceCMYK"; CPDF_Array* pDecode = CPDF_Array::Create(); for (int n = 0; n < 4; n ++) { pDecode->AddInteger(1); pDecode->AddInteger(0); } pDict->SetAt(FX_BSTRC("Decode"), pDecode); } pDict->SetAtName("ColorSpace", csname); pDict->SetAtInteger("BitsPerComponent", bits); pDict->SetAtName("Filter", "DCTDecode"); if (!color_trans) { CPDF_Dictionary* pParms = FX_NEW CPDF_Dictionary; pDict->SetAt("DecodeParms", pParms); pParms->SetAtInteger("ColorTransform", 0); } m_bIsMask = FALSE; m_Width = width; m_Height = height; if (m_pStream == NULL) { m_pStream = FX_NEW CPDF_Stream(NULL, 0, NULL); } return pDict; } void CPDF_Image::SetJpegImage(FX_LPBYTE pData, FX_DWORD size) { CPDF_Dictionary *pDict = InitJPEG(pData, size); if (!pDict) { return; } m_pStream->InitStream(pData, size, pDict); } void CPDF_Image::SetJpegImage(IFX_FileRead *pFile) { FX_DWORD size = (FX_DWORD)pFile->GetSize(); if (!size) { return; } FX_DWORD dwEstimateSize = size; if (dwEstimateSize > 8192) { dwEstimateSize = 8192; } FX_LPBYTE pData = FX_Alloc(FX_BYTE, dwEstimateSize); if (!pData) { return; } pFile->ReadBlock(pData, 0, dwEstimateSize); CPDF_Dictionary *pDict = InitJPEG(pData, dwEstimateSize); FX_Free(pData); if (!pDict && size > dwEstimateSize) { pData = FX_Alloc(FX_BYTE, size); if (!pData) { return; } pFile->ReadBlock(pData, 0, size); pDict = InitJPEG(pData, size); FX_Free(pData); } if (!pDict) { return; } m_pStream->InitStream(pFile, pDict); } void _DCTEncodeBitmap(CPDF_Dictionary *pBitmapDict, const CFX_DIBitmap* pBitmap, int quality, FX_LPBYTE &buf, FX_STRSIZE &size) { } void _JBIG2EncodeBitmap(CPDF_Dictionary *pBitmapDict, const CFX_DIBitmap *pBitmap, CPDF_Document *pDoc, FX_LPBYTE &buf, FX_STRSIZE &size, FX_BOOL bLossLess) { } void CPDF_Image::SetImage(const CFX_DIBitmap* pBitmap, FX_INT32 iCompress, IFX_FileWrite *pFileWrite, IFX_FileRead *pFileRead, const CFX_DIBitmap* pMask, const CPDF_ImageSetParam* pParam) { FX_INT32 BitmapWidth = pBitmap->GetWidth(); FX_INT32 BitmapHeight = pBitmap->GetHeight(); if (BitmapWidth < 1 || BitmapHeight < 1) { return; } FX_LPBYTE src_buf = pBitmap->GetBuffer(); FX_INT32 src_pitch = pBitmap->GetPitch(); FX_INT32 bpp = pBitmap->GetBPP(); FX_BOOL bUseMatte = pParam && pParam->pMatteColor && (pBitmap->GetFormat() == FXDIB_Argb); CPDF_Dictionary* pDict = FX_NEW CPDF_Dictionary; pDict->SetAtName(FX_BSTRC("Type"), FX_BSTRC("XObject")); pDict->SetAtName(FX_BSTRC("Subtype"), FX_BSTRC("Image")); pDict->SetAtInteger(FX_BSTRC("Width"), BitmapWidth); pDict->SetAtInteger(FX_BSTRC("Height"), BitmapHeight); FX_LPBYTE dest_buf = NULL; FX_STRSIZE dest_pitch = 0, dest_size = 0, opType = -1; if (bpp == 1) { FX_INT32 reset_a = 0, reset_r = 0, reset_g = 0, reset_b = 0; FX_INT32 set_a = 0, set_r = 0, set_g = 0, set_b = 0; if (!pBitmap->IsAlphaMask()) { ArgbDecode(pBitmap->GetPaletteArgb(0), reset_a, reset_r, reset_g, reset_b); ArgbDecode(pBitmap->GetPaletteArgb(1), set_a, set_r, set_g, set_b); } if (set_a == 0 || reset_a == 0) { pDict->SetAt(FX_BSTRC("ImageMask"), FX_NEW CPDF_Boolean(TRUE)); if (reset_a == 0) { CPDF_Array* pArray = FX_NEW CPDF_Array; pArray->AddInteger(1); pArray->AddInteger(0); pDict->SetAt(FX_BSTRC("Decode"), pArray); } } else { CPDF_Array* pCS = FX_NEW CPDF_Array; pCS->AddName(FX_BSTRC("Indexed")); pCS->AddName(FX_BSTRC("DeviceRGB")); pCS->AddInteger(1); CFX_ByteString ct; FX_LPSTR pBuf = ct.GetBuffer(6); pBuf[0] = (FX_CHAR)reset_r; pBuf[1] = (FX_CHAR)reset_g; pBuf[2] = (FX_CHAR)reset_b; pBuf[3] = (FX_CHAR)set_r; pBuf[4] = (FX_CHAR)set_g; pBuf[5] = (FX_CHAR)set_b; ct.ReleaseBuffer(6); pCS->Add(CPDF_String::Create(ct, TRUE)); pDict->SetAt(FX_BSTRC("ColorSpace"), pCS); } pDict->SetAtInteger(FX_BSTRC("BitsPerComponent"), 1); dest_pitch = (BitmapWidth + 7) / 8; if ((iCompress & 0x03) == PDF_IMAGE_NO_COMPRESS) { opType = 1; } else { opType = 0; } } else if (bpp == 8) { FX_INT32 iPalette = pBitmap->GetPaletteSize(); if (iPalette > 0) { CPDF_Array* pCS = FX_NEW CPDF_Array; m_pDocument->AddIndirectObject(pCS); pCS->AddName(FX_BSTRC("Indexed")); pCS->AddName(FX_BSTRC("DeviceRGB")); pCS->AddInteger(iPalette - 1); FX_LPBYTE pColorTable = FX_Alloc(FX_BYTE, iPalette * 3); FX_LPBYTE ptr = pColorTable; for (FX_INT32 i = 0; i < iPalette; i ++) { FX_DWORD argb = pBitmap->GetPaletteArgb(i); ptr[0] = (FX_BYTE)(argb >> 16); ptr[1] = (FX_BYTE)(argb >> 8); ptr[2] = (FX_BYTE)argb; ptr += 3; } CPDF_Stream *pCTS = CPDF_Stream::Create(pColorTable, iPalette * 3, CPDF_Dictionary::Create()); m_pDocument->AddIndirectObject(pCTS); pCS->AddReference(m_pDocument, pCTS); pDict->SetAtReference(FX_BSTRC("ColorSpace"), m_pDocument, pCS); } else { pDict->SetAtName(FX_BSTRC("ColorSpace"), FX_BSTRC("DeviceGray")); } pDict->SetAtInteger(FX_BSTRC("BitsPerComponent"), 8); if ((iCompress & 0x03) == PDF_IMAGE_NO_COMPRESS) { dest_pitch = BitmapWidth; opType = 1; } else { opType = 0; } } else { pDict->SetAtName(FX_BSTRC("ColorSpace"), FX_BSTRC("DeviceRGB")); pDict->SetAtInteger(FX_BSTRC("BitsPerComponent"), 8); if ((iCompress & 0x03) == PDF_IMAGE_NO_COMPRESS) { dest_pitch = BitmapWidth * 3; opType = 2; } else { opType = 0; } } const CFX_DIBitmap* pMaskBitmap = NULL; if (pBitmap->HasAlpha()) { pMaskBitmap = pBitmap->GetAlphaMask(); } if (!pMaskBitmap && pMask) { FXDIB_Format maskFormat = pMask->GetFormat(); if (maskFormat == FXDIB_1bppMask || maskFormat == FXDIB_8bppMask) { pMaskBitmap = pMask; } } if (pMaskBitmap) { FX_INT32 maskWidth = pMaskBitmap->GetWidth(); FX_INT32 maskHeight = pMaskBitmap->GetHeight(); FX_LPBYTE mask_buf = NULL; FX_STRSIZE mask_size; FX_BOOL bDeleteMask = TRUE; CPDF_Dictionary* pMaskDict = FX_NEW CPDF_Dictionary; pMaskDict->SetAtName(FX_BSTRC("Type"), FX_BSTRC("XObject")); pMaskDict->SetAtName(FX_BSTRC("Subtype"), FX_BSTRC("Image")); pMaskDict->SetAtInteger(FX_BSTRC("Width"), maskWidth); pMaskDict->SetAtInteger(FX_BSTRC("Height"), maskHeight); pMaskDict->SetAtName(FX_BSTRC("ColorSpace"), FX_BSTRC("DeviceGray")); pMaskDict->SetAtInteger(FX_BSTRC("BitsPerComponent"), 8); if (pMaskBitmap->GetBPP() == 8 && (iCompress & PDF_IMAGE_MASK_LOSSY_COMPRESS) != 0) { _DCTEncodeBitmap(pMaskDict, pMaskBitmap, pParam ? pParam->nQuality : 75, mask_buf, mask_size); } else if (pMaskBitmap->GetFormat() == FXDIB_1bppMask) { _JBIG2EncodeBitmap(pMaskDict, pMaskBitmap, m_pDocument, mask_buf, mask_size, TRUE); } else { mask_size = maskHeight * maskWidth; mask_buf = FX_Alloc(FX_BYTE, mask_size); for (FX_INT32 a = 0; a < maskHeight; a ++) { FXSYS_memcpy32(mask_buf + a * maskWidth, pMaskBitmap->GetScanline(a), maskWidth); } } if (pMaskDict) { pMaskDict->SetAtInteger(FX_BSTRC("Length"), mask_size); CPDF_Stream* pMaskStream = NULL; if (bUseMatte) { int a, r, g, b; ArgbDecode(*(pParam->pMatteColor), a, r, g, b); CPDF_Array* pMatte = FX_NEW CPDF_Array; pMatte->AddInteger(r); pMatte->AddInteger(g); pMatte->AddInteger(b); pMaskDict->SetAt(FX_BSTRC("Matte"), pMatte); } pMaskStream = FX_NEW CPDF_Stream(mask_buf, mask_size, pMaskDict); m_pDocument->AddIndirectObject(pMaskStream); bDeleteMask = FALSE; pDict->SetAtReference(FX_BSTRC("SMask"), m_pDocument, pMaskStream); } if (pBitmap->HasAlpha()) { delete pMaskBitmap; } } FX_BOOL bStream = pFileWrite != NULL && pFileRead != NULL; if (opType == 0) { if (iCompress & PDF_IMAGE_LOSSLESS_COMPRESS) { if (pBitmap->GetBPP() == 1) { _JBIG2EncodeBitmap(pDict, pBitmap, m_pDocument, dest_buf, dest_size, TRUE); } } else { if (pBitmap->GetBPP() == 1) { _JBIG2EncodeBitmap(pDict, pBitmap, m_pDocument, dest_buf, dest_size, FALSE); } else if (pBitmap->GetBPP() >= 8 && pBitmap->GetPalette() != NULL) { CFX_DIBitmap *pNewBitmap = FX_NEW CFX_DIBitmap(); pNewBitmap->Copy(pBitmap); pNewBitmap->ConvertFormat(FXDIB_Rgb); SetImage(pNewBitmap, iCompress, pFileWrite, pFileRead); if (pDict) { pDict->Release(); pDict = NULL; } if (dest_buf) { FX_Free(dest_buf); dest_buf = NULL; } dest_size = 0; delete pNewBitmap; return; } else { if (bUseMatte) { CFX_DIBitmap *pNewBitmap = FX_NEW CFX_DIBitmap(); pNewBitmap->Create(BitmapWidth, BitmapHeight, FXDIB_Argb); FX_LPBYTE dst_buf = pNewBitmap->GetBuffer(); FX_INT32 src_offset = 0; for (FX_INT32 row = 0; row < BitmapHeight; row ++) { src_offset = row * src_pitch; for (FX_INT32 column = 0; column < BitmapWidth; column ++) { FX_FLOAT alpha = src_buf[src_offset + 3] / 255.0f; dst_buf[src_offset] = (FX_BYTE)(src_buf[src_offset] * alpha); dst_buf[src_offset + 1] = (FX_BYTE)(src_buf[src_offset + 1] * alpha); dst_buf[src_offset + 2] = (FX_BYTE)(src_buf[src_offset + 2] * alpha); dst_buf[src_offset + 3] = (FX_BYTE)(src_buf[src_offset + 3]); src_offset += 4; } } _DCTEncodeBitmap(pDict, pNewBitmap, pParam ? pParam->nQuality : 75, dest_buf, dest_size); delete pNewBitmap; } else { _DCTEncodeBitmap(pDict, pBitmap, pParam ? pParam->nQuality : 75, dest_buf, dest_size); } } } if (bStream) { pFileWrite->WriteBlock(dest_buf, dest_size); FX_Free(dest_buf); dest_buf = NULL; } } else if (opType == 1) { if (!bStream) { dest_size = dest_pitch * BitmapHeight; dest_buf = FX_Alloc(FX_BYTE, dest_size); } FX_LPBYTE pDest = dest_buf; for (FX_INT32 i = 0; i < BitmapHeight; i ++) { if (!bStream) { FXSYS_memcpy32(pDest, src_buf, dest_pitch); pDest += dest_pitch; } else { pFileWrite->WriteBlock(src_buf, dest_pitch); } src_buf += src_pitch; } } else if (opType == 2) { if (!bStream) { dest_size = dest_pitch * BitmapHeight; dest_buf = FX_Alloc(FX_BYTE, dest_size); } else { dest_buf = FX_Alloc(FX_BYTE, dest_pitch); } FX_LPBYTE pDest = dest_buf; FX_INT32 src_offset = 0; FX_INT32 dest_offset = 0; for (FX_INT32 row = 0; row < BitmapHeight; row ++) { src_offset = row * src_pitch; for (FX_INT32 column = 0; column < BitmapWidth; column ++) { FX_FLOAT alpha = bUseMatte ? src_buf[src_offset + 3] / 255.0f : 1; pDest[dest_offset] = (FX_BYTE)(src_buf[src_offset + 2] * alpha); pDest[dest_offset + 1] = (FX_BYTE)(src_buf[src_offset + 1] * alpha); pDest[dest_offset + 2] = (FX_BYTE)(src_buf[src_offset] * alpha); dest_offset += 3; src_offset += bpp == 24 ? 3 : 4; } if (bStream) { pFileWrite->WriteBlock(pDest, dest_pitch); pDest = dest_buf; } else { pDest += dest_pitch; } dest_offset = 0; } if (bStream) { FX_Free(dest_buf); dest_buf = NULL; } } if (m_pStream == NULL) { m_pStream = FX_NEW CPDF_Stream(NULL, 0, NULL); } if (!bStream) { m_pStream->InitStream(dest_buf, dest_size, pDict); } else { pFileWrite->Flush(); m_pStream->InitStream(pFileRead, pDict); } m_bIsMask = pBitmap->IsAlphaMask(); m_Width = BitmapWidth; m_Height = BitmapHeight; if (dest_buf) { FX_Free(dest_buf); } } void CPDF_Image::ResetCache(CPDF_Page* pPage, const CFX_DIBitmap* pBitmap) { pPage->GetRenderCache()->ResetBitmap(m_pStream, pBitmap); }