// Copyright 2017 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 "core/fxge/dib/cfx_dibitmap.h" #include #include #include #include "core/fxcodec/fx_codec.h" #include "core/fxge/cfx_cliprgn.h" #include "core/fxge/dib/cfx_scanlinecompositor.h" namespace { constexpr size_t kMaxOOMLimit = 12000000; constexpr int8_t kChannelOffset[] = {0, 2, 1, 0, 0, 1, 2, 3, 3}; } // namespace CFX_DIBitmap::CFX_DIBitmap() { m_pPalette = nullptr; #ifdef _SKIA_SUPPORT_PATHS_ m_nFormat = Format::kCleared; #endif } bool CFX_DIBitmap::Create(int width, int height, FXDIB_Format format) { return Create(width, height, format, nullptr, 0); } bool CFX_DIBitmap::Create(int width, int height, FXDIB_Format format, uint8_t* pBuffer, uint32_t pitch) { m_pBuffer = nullptr; m_bpp = static_cast(format); m_AlphaFlag = static_cast(format >> 8); m_Width = 0; m_Height = 0; m_Pitch = 0; uint32_t calculatedSize; if (!CalculatePitchAndSize(height, width, format, &pitch, &calculatedSize)) return false; if (pBuffer) { m_pBuffer.Reset(pBuffer); } else { size_t bufferSize = calculatedSize + 4; if (bufferSize >= kMaxOOMLimit) { m_pBuffer = std::unique_ptr( FX_TryAlloc(uint8_t, bufferSize)); if (!m_pBuffer) return false; } else { m_pBuffer = std::unique_ptr( FX_Alloc(uint8_t, bufferSize)); } } m_Width = width; m_Height = height; m_Pitch = pitch; if (!HasAlpha() || format == FXDIB_Argb) return true; if (BuildAlphaMask()) return true; if (pBuffer) return true; m_pBuffer = nullptr; m_Width = 0; m_Height = 0; m_Pitch = 0; return false; } bool CFX_DIBitmap::Copy(const RetainPtr& pSrc) { if (m_pBuffer) return false; if (!Create(pSrc->GetWidth(), pSrc->GetHeight(), pSrc->GetFormat())) return false; SetPalette(pSrc->GetPalette()); SetAlphaMask(pSrc->m_pAlphaMask, nullptr); for (int row = 0; row < pSrc->GetHeight(); row++) memcpy(m_pBuffer.Get() + row * m_Pitch, pSrc->GetScanline(row), m_Pitch); return true; } CFX_DIBitmap::~CFX_DIBitmap() {} uint8_t* CFX_DIBitmap::GetBuffer() const { return m_pBuffer.Get(); } const uint8_t* CFX_DIBitmap::GetScanline(int line) const { return m_pBuffer.Get() ? m_pBuffer.Get() + line * m_Pitch : nullptr; } void CFX_DIBitmap::TakeOver(RetainPtr&& pSrcBitmap) { m_pBuffer = std::move(pSrcBitmap->m_pBuffer); m_pPalette = std::move(pSrcBitmap->m_pPalette); m_pAlphaMask = pSrcBitmap->m_pAlphaMask; pSrcBitmap->m_pBuffer = nullptr; pSrcBitmap->m_pAlphaMask = nullptr; m_bpp = pSrcBitmap->m_bpp; m_AlphaFlag = pSrcBitmap->m_AlphaFlag; m_Width = pSrcBitmap->m_Width; m_Height = pSrcBitmap->m_Height; m_Pitch = pSrcBitmap->m_Pitch; } void CFX_DIBitmap::Clear(uint32_t color) { if (!m_pBuffer) return; uint8_t* pBuffer = m_pBuffer.Get(); switch (GetFormat()) { case FXDIB_1bppMask: memset(pBuffer, (color & 0xff000000) ? 0xff : 0, m_Pitch * m_Height); break; case FXDIB_1bppRgb: { int index = FindPalette(color); memset(pBuffer, index ? 0xff : 0, m_Pitch * m_Height); break; } case FXDIB_8bppMask: memset(pBuffer, color >> 24, m_Pitch * m_Height); break; case FXDIB_8bppRgb: { int index = FindPalette(color); memset(pBuffer, index, m_Pitch * m_Height); break; } case FXDIB_Rgb: case FXDIB_Rgba: { int a; int r; int g; int b; std::tie(a, r, g, b) = ArgbDecode(color); if (r == g && g == b) { memset(pBuffer, r, m_Pitch * m_Height); } else { int byte_pos = 0; for (int col = 0; col < m_Width; col++) { pBuffer[byte_pos++] = b; pBuffer[byte_pos++] = g; pBuffer[byte_pos++] = r; } for (int row = 1; row < m_Height; row++) { memcpy(pBuffer + row * m_Pitch, pBuffer, m_Pitch); } } break; } case FXDIB_Rgb32: case FXDIB_Argb: { color = IsCmykImage() ? FXCMYK_TODIB(color) : FXARGB_TODIB(color); #ifdef _SKIA_SUPPORT_ if (FXDIB_Rgb32 == GetFormat() && !IsCmykImage()) color |= 0xFF000000; #endif for (int i = 0; i < m_Width; i++) reinterpret_cast(pBuffer)[i] = color; for (int row = 1; row < m_Height; row++) memcpy(pBuffer + row * m_Pitch, pBuffer, m_Pitch); break; } default: break; } } bool CFX_DIBitmap::TransferBitmap(int dest_left, int dest_top, int width, int height, const RetainPtr& pSrcBitmap, int src_left, int src_top) { if (!m_pBuffer) return false; GetOverlapRect(dest_left, dest_top, width, height, pSrcBitmap->GetWidth(), pSrcBitmap->GetHeight(), src_left, src_top, nullptr); if (width == 0 || height == 0) return true; FXDIB_Format dest_format = GetFormat(); FXDIB_Format src_format = pSrcBitmap->GetFormat(); if (dest_format != src_format) { return TransferWithUnequalFormats(dest_format, dest_left, dest_top, width, height, pSrcBitmap, src_left, src_top); } if (GetBPP() != 1) { TransferWithMultipleBPP(dest_left, dest_top, width, height, pSrcBitmap, src_left, src_top); return true; } TransferEqualFormatsOneBPP(dest_left, dest_top, width, height, pSrcBitmap, src_left, src_top); return true; } bool CFX_DIBitmap::TransferWithUnequalFormats( FXDIB_Format dest_format, int dest_left, int dest_top, int width, int height, const RetainPtr& pSrcBitmap, int src_left, int src_top) { if (m_pPalette) return false; if (m_bpp == 8) dest_format = FXDIB_8bppMask; uint8_t* dest_buf = m_pBuffer.Get() + dest_top * m_Pitch + dest_left * GetBPP() / 8; std::unique_ptr d_plt; if (!ConvertBuffer(dest_format, dest_buf, m_Pitch, width, height, pSrcBitmap, src_left, src_top, &d_plt)) { return false; } return true; } void CFX_DIBitmap::TransferWithMultipleBPP( int dest_left, int dest_top, int width, int height, const RetainPtr& pSrcBitmap, int src_left, int src_top) { int Bpp = GetBPP() / 8; for (int row = 0; row < height; ++row) { uint8_t* dest_scan = m_pBuffer.Get() + (dest_top + row) * m_Pitch + dest_left * Bpp; const uint8_t* src_scan = pSrcBitmap->GetScanline(src_top + row) + src_left * Bpp; memcpy(dest_scan, src_scan, width * Bpp); } } void CFX_DIBitmap::TransferEqualFormatsOneBPP( int dest_left, int dest_top, int width, int height, const RetainPtr& pSrcBitmap, int src_left, int src_top) { for (int row = 0; row < height; ++row) { uint8_t* dest_scan = m_pBuffer.Get() + (dest_top + row) * m_Pitch; const uint8_t* src_scan = pSrcBitmap->GetScanline(src_top + row); for (int col = 0; col < width; ++col) { int src_idx = src_left + col; int dest_idx = dest_left + col; if (src_scan[(src_idx) / 8] & (1 << (7 - (src_idx) % 8))) dest_scan[(dest_idx) / 8] |= 1 << (7 - (dest_idx) % 8); else dest_scan[(dest_idx) / 8] &= ~(1 << (7 - (dest_idx) % 8)); } } } bool CFX_DIBitmap::LoadChannel(FXDIB_Channel destChannel, const RetainPtr& pSrcBitmap, FXDIB_Channel srcChannel) { if (!m_pBuffer) return false; RetainPtr pSrcClone = pSrcBitmap; int srcOffset; if (srcChannel == FXDIB_Alpha) { if (!pSrcBitmap->HasAlpha() && !pSrcBitmap->IsAlphaMask()) return false; if (pSrcBitmap->GetBPP() == 1) { pSrcClone = pSrcBitmap->CloneConvert(FXDIB_8bppMask); if (!pSrcClone) return false; } srcOffset = pSrcBitmap->GetFormat() == FXDIB_Argb ? 3 : 0; } else { if (pSrcBitmap->IsAlphaMask()) return false; if (pSrcBitmap->GetBPP() < 24) { if (pSrcBitmap->IsCmykImage()) { pSrcClone = pSrcBitmap->CloneConvert(static_cast( (pSrcBitmap->GetFormat() & 0xff00) | 0x20)); } else { pSrcClone = pSrcBitmap->CloneConvert(static_cast( (pSrcBitmap->GetFormat() & 0xff00) | 0x18)); } if (!pSrcClone) return false; } srcOffset = kChannelOffset[srcChannel]; } int destOffset = 0; if (destChannel == FXDIB_Alpha) { if (IsAlphaMask()) { if (!ConvertFormat(FXDIB_8bppMask)) return false; } else { if (!ConvertFormat(IsCmykImage() ? FXDIB_Cmyka : FXDIB_Argb)) return false; if (GetFormat() == FXDIB_Argb) destOffset = 3; } } else { if (IsAlphaMask()) return false; if (GetBPP() < 24) { if (HasAlpha()) { if (!ConvertFormat(IsCmykImage() ? FXDIB_Cmyka : FXDIB_Argb)) return false; #if _FX_PLATFORM_ == _FX_PLATFORM_APPLE_ } else if (!ConvertFormat(IsCmykImage() ? FXDIB_Cmyk : FXDIB_Rgb32)) { #else } else if (!ConvertFormat(IsCmykImage() ? FXDIB_Cmyk : FXDIB_Rgb)) { #endif return false; } } destOffset = kChannelOffset[destChannel]; } if (srcChannel == FXDIB_Alpha && pSrcClone->m_pAlphaMask) { RetainPtr pAlphaMask = pSrcClone->m_pAlphaMask; if (pSrcClone->GetWidth() != m_Width || pSrcClone->GetHeight() != m_Height) { if (pAlphaMask) { pAlphaMask = pAlphaMask->StretchTo(m_Width, m_Height, 0, nullptr); if (!pAlphaMask) return false; } } pSrcClone = std::move(pAlphaMask); srcOffset = 0; } else if (pSrcClone->GetWidth() != m_Width || pSrcClone->GetHeight() != m_Height) { RetainPtr pSrcMatched = pSrcClone->StretchTo(m_Width, m_Height, 0, nullptr); if (!pSrcMatched) return false; pSrcClone = std::move(pSrcMatched); } RetainPtr pDst(this); if (destChannel == FXDIB_Alpha && m_pAlphaMask) { pDst = m_pAlphaMask; destOffset = 0; } int srcBytes = pSrcClone->GetBPP() / 8; int destBytes = pDst->GetBPP() / 8; for (int row = 0; row < m_Height; row++) { uint8_t* dest_pos = pDst->GetWritableScanline(row) + destOffset; const uint8_t* src_pos = pSrcClone->GetScanline(row) + srcOffset; for (int col = 0; col < m_Width; col++) { *dest_pos = *src_pos; dest_pos += destBytes; src_pos += srcBytes; } } return true; } bool CFX_DIBitmap::LoadChannel(FXDIB_Channel destChannel, int value) { if (!m_pBuffer) return false; int destOffset; if (destChannel == FXDIB_Alpha) { if (IsAlphaMask()) { if (!ConvertFormat(FXDIB_8bppMask)) { return false; } destOffset = 0; } else { destOffset = 0; if (!ConvertFormat(IsCmykImage() ? FXDIB_Cmyka : FXDIB_Argb)) { return false; } if (GetFormat() == FXDIB_Argb) { destOffset = 3; } } } else { if (IsAlphaMask()) { return false; } if (GetBPP() < 24) { if (HasAlpha()) { if (!ConvertFormat(IsCmykImage() ? FXDIB_Cmyka : FXDIB_Argb)) { return false; } #if _FX_PLATFORM_ == _FX_PLATFORM_APPLE_ } else if (!ConvertFormat(IsCmykImage() ? FXDIB_Cmyk : FXDIB_Rgb)) { #else } else if (!ConvertFormat(IsCmykImage() ? FXDIB_Cmyk : FXDIB_Rgb32)) { #endif return false; } } destOffset = kChannelOffset[destChannel]; } int Bpp = GetBPP() / 8; if (Bpp == 1) { memset(m_pBuffer.Get(), value, m_Height * m_Pitch); return true; } if (destChannel == FXDIB_Alpha && m_pAlphaMask) { memset(m_pAlphaMask->GetBuffer(), value, m_pAlphaMask->GetHeight() * m_pAlphaMask->GetPitch()); return true; } for (int row = 0; row < m_Height; row++) { uint8_t* scan_line = m_pBuffer.Get() + row * m_Pitch + destOffset; for (int col = 0; col < m_Width; col++) { *scan_line = value; scan_line += Bpp; } } return true; } bool CFX_DIBitmap::MultiplyAlpha(const RetainPtr& pSrcBitmap) { if (!m_pBuffer) return false; ASSERT(pSrcBitmap->IsAlphaMask()); if (!pSrcBitmap->IsAlphaMask()) return false; if (!IsAlphaMask() && !HasAlpha()) return LoadChannel(FXDIB_Alpha, pSrcBitmap, FXDIB_Alpha); RetainPtr pSrcClone = pSrcBitmap.As(); if (pSrcBitmap->GetWidth() != m_Width || pSrcBitmap->GetHeight() != m_Height) { pSrcClone = pSrcBitmap->StretchTo(m_Width, m_Height, 0, nullptr); if (!pSrcClone) return false; } if (IsAlphaMask()) { if (!ConvertFormat(FXDIB_8bppMask)) return false; for (int row = 0; row < m_Height; row++) { uint8_t* dest_scan = m_pBuffer.Get() + m_Pitch * row; uint8_t* src_scan = pSrcClone->m_pBuffer.Get() + pSrcClone->m_Pitch * row; if (pSrcClone->GetBPP() == 1) { for (int col = 0; col < m_Width; col++) { if (!((1 << (7 - col % 8)) & src_scan[col / 8])) dest_scan[col] = 0; } } else { for (int col = 0; col < m_Width; col++) { *dest_scan = (*dest_scan) * src_scan[col] / 255; dest_scan++; } } } } else { if (GetFormat() == FXDIB_Argb) { if (pSrcClone->GetBPP() == 1) return false; for (int row = 0; row < m_Height; row++) { uint8_t* dest_scan = m_pBuffer.Get() + m_Pitch * row + 3; uint8_t* src_scan = pSrcClone->m_pBuffer.Get() + pSrcClone->m_Pitch * row; for (int col = 0; col < m_Width; col++) { *dest_scan = (*dest_scan) * src_scan[col] / 255; dest_scan += 4; } } } else { m_pAlphaMask->MultiplyAlpha(pSrcClone); } } return true; } bool CFX_DIBitmap::MultiplyAlpha(int alpha) { if (!m_pBuffer) return false; switch (GetFormat()) { case FXDIB_1bppMask: if (!ConvertFormat(FXDIB_8bppMask)) { return false; } MultiplyAlpha(alpha); break; case FXDIB_8bppMask: { for (int row = 0; row < m_Height; row++) { uint8_t* scan_line = m_pBuffer.Get() + row * m_Pitch; for (int col = 0; col < m_Width; col++) { scan_line[col] = scan_line[col] * alpha / 255; } } break; } case FXDIB_Argb: { for (int row = 0; row < m_Height; row++) { uint8_t* scan_line = m_pBuffer.Get() + row * m_Pitch + 3; for (int col = 0; col < m_Width; col++) { *scan_line = (*scan_line) * alpha / 255; scan_line += 4; } } break; } default: if (HasAlpha()) { m_pAlphaMask->MultiplyAlpha(alpha); } else if (IsCmykImage()) { if (!ConvertFormat((FXDIB_Format)(GetFormat() | 0x0200))) { return false; } m_pAlphaMask->MultiplyAlpha(alpha); } else { if (!ConvertFormat(FXDIB_Argb)) { return false; } MultiplyAlpha(alpha); } break; } return true; } uint32_t CFX_DIBitmap::GetPixel(int x, int y) const { if (!m_pBuffer) return 0; uint8_t* pos = m_pBuffer.Get() + y * m_Pitch + x * GetBPP() / 8; switch (GetFormat()) { case FXDIB_1bppMask: { if ((*pos) & (1 << (7 - x % 8))) { return 0xff000000; } return 0; } case FXDIB_1bppRgb: { if ((*pos) & (1 << (7 - x % 8))) { return m_pPalette ? m_pPalette.get()[1] : 0xffffffff; } return m_pPalette ? m_pPalette.get()[0] : 0xff000000; } case FXDIB_8bppMask: return (*pos) << 24; case FXDIB_8bppRgb: return m_pPalette ? m_pPalette.get()[*pos] : (0xff000000 | ((*pos) * 0x10101)); case FXDIB_Rgb: case FXDIB_Rgba: case FXDIB_Rgb32: return FXARGB_GETDIB(pos) | 0xff000000; case FXDIB_Argb: return FXARGB_GETDIB(pos); default: break; } return 0; } void CFX_DIBitmap::SetPixel(int x, int y, uint32_t color) { if (!m_pBuffer) return; if (x < 0 || x >= m_Width || y < 0 || y >= m_Height) return; uint8_t* pos = m_pBuffer.Get() + y * m_Pitch + x * GetBPP() / 8; switch (GetFormat()) { case FXDIB_1bppMask: if (color >> 24) { *pos |= 1 << (7 - x % 8); } else { *pos &= ~(1 << (7 - x % 8)); } break; case FXDIB_1bppRgb: if (m_pPalette) { if (color == m_pPalette.get()[1]) { *pos |= 1 << (7 - x % 8); } else { *pos &= ~(1 << (7 - x % 8)); } } else { if (color == 0xffffffff) { *pos |= 1 << (7 - x % 8); } else { *pos &= ~(1 << (7 - x % 8)); } } break; case FXDIB_8bppMask: *pos = (uint8_t)(color >> 24); break; case FXDIB_8bppRgb: { if (m_pPalette) { for (int i = 0; i < 256; i++) { if (m_pPalette.get()[i] == color) { *pos = (uint8_t)i; return; } } *pos = 0; } else { *pos = FXRGB2GRAY(FXARGB_R(color), FXARGB_G(color), FXARGB_B(color)); } break; } case FXDIB_Rgb: case FXDIB_Rgb32: { int alpha = FXARGB_A(color); pos[0] = (FXARGB_B(color) * alpha + pos[0] * (255 - alpha)) / 255; pos[1] = (FXARGB_G(color) * alpha + pos[1] * (255 - alpha)) / 255; pos[2] = (FXARGB_R(color) * alpha + pos[2] * (255 - alpha)) / 255; break; } case FXDIB_Rgba: { pos[0] = FXARGB_B(color); pos[1] = FXARGB_G(color); pos[2] = FXARGB_R(color); break; } case FXDIB_Argb: FXARGB_SETDIB(pos, color); break; default: break; } } void CFX_DIBitmap::DownSampleScanline(int line, uint8_t* dest_scan, int dest_bpp, int dest_width, bool bFlipX, int clip_left, int clip_width) const { if (!m_pBuffer) return; int src_Bpp = m_bpp / 8; uint8_t* scanline = m_pBuffer.Get() + line * m_Pitch; if (src_Bpp == 0) { for (int i = 0; i < clip_width; i++) { uint32_t dest_x = clip_left + i; uint32_t src_x = dest_x * m_Width / dest_width; if (bFlipX) { src_x = m_Width - src_x - 1; } src_x %= m_Width; dest_scan[i] = (scanline[src_x / 8] & (1 << (7 - src_x % 8))) ? 255 : 0; } } else if (src_Bpp == 1) { for (int i = 0; i < clip_width; i++) { uint32_t dest_x = clip_left + i; uint32_t src_x = dest_x * m_Width / dest_width; if (bFlipX) { src_x = m_Width - src_x - 1; } src_x %= m_Width; int dest_pos = i; if (m_pPalette) { if (!IsCmykImage()) { dest_pos *= 3; FX_ARGB argb = m_pPalette.get()[scanline[src_x]]; dest_scan[dest_pos] = FXARGB_B(argb); dest_scan[dest_pos + 1] = FXARGB_G(argb); dest_scan[dest_pos + 2] = FXARGB_R(argb); } else { dest_pos *= 4; FX_CMYK cmyk = m_pPalette.get()[scanline[src_x]]; dest_scan[dest_pos] = FXSYS_GetCValue(cmyk); dest_scan[dest_pos + 1] = FXSYS_GetMValue(cmyk); dest_scan[dest_pos + 2] = FXSYS_GetYValue(cmyk); dest_scan[dest_pos + 3] = FXSYS_GetKValue(cmyk); } } else { dest_scan[dest_pos] = scanline[src_x]; } } } else { for (int i = 0; i < clip_width; i++) { uint32_t dest_x = clip_left + i; uint32_t src_x = bFlipX ? (m_Width - dest_x * m_Width / dest_width - 1) * src_Bpp : (dest_x * m_Width / dest_width) * src_Bpp; src_x %= m_Width * src_Bpp; int dest_pos = i * src_Bpp; for (int b = 0; b < src_Bpp; b++) { dest_scan[dest_pos + b] = scanline[src_x + b]; } } } } void CFX_DIBitmap::ConvertBGRColorScale(uint32_t forecolor, uint32_t backcolor) { int fr = FXSYS_GetRValue(forecolor); int fg = FXSYS_GetGValue(forecolor); int fb = FXSYS_GetBValue(forecolor); int br = FXSYS_GetRValue(backcolor); int bg = FXSYS_GetGValue(backcolor); int bb = FXSYS_GetBValue(backcolor); if (m_bpp <= 8) { if (forecolor == 0 && backcolor == 0xffffff && !m_pPalette) return; if (!m_pPalette) BuildPalette(); int size = 1 << m_bpp; for (int i = 0; i < size; ++i) { int gray = FXRGB2GRAY(FXARGB_R(m_pPalette.get()[i]), FXARGB_G(m_pPalette.get()[i]), FXARGB_B(m_pPalette.get()[i])); m_pPalette.get()[i] = ArgbEncode(0xff, br + (fr - br) * gray / 255, bg + (fg - bg) * gray / 255, bb + (fb - bb) * gray / 255); } return; } if (forecolor == 0 && backcolor == 0xffffff) { for (int row = 0; row < m_Height; ++row) { uint8_t* scanline = m_pBuffer.Get() + row * m_Pitch; int gap = m_bpp / 8 - 2; for (int col = 0; col < m_Width; ++col) { int gray = FXRGB2GRAY(scanline[2], scanline[1], scanline[0]); *scanline++ = gray; *scanline++ = gray; *scanline = gray; scanline += gap; } } return; } for (int row = 0; row < m_Height; ++row) { uint8_t* scanline = m_pBuffer.Get() + row * m_Pitch; int gap = m_bpp / 8 - 2; for (int col = 0; col < m_Width; ++col) { int gray = FXRGB2GRAY(scanline[2], scanline[1], scanline[0]); *scanline++ = bb + (fb - bb) * gray / 255; *scanline++ = bg + (fg - bg) * gray / 255; *scanline = br + (fr - br) * gray / 255; scanline += gap; } } } void CFX_DIBitmap::ConvertCMYKColorScale(uint32_t forecolor, uint32_t backcolor) { int fc = FXSYS_GetCValue(forecolor); int fm = FXSYS_GetMValue(forecolor); int fy = FXSYS_GetYValue(forecolor); int fk = FXSYS_GetKValue(forecolor); int bc = FXSYS_GetCValue(backcolor); int bm = FXSYS_GetMValue(backcolor); int by = FXSYS_GetYValue(backcolor); int bk = FXSYS_GetKValue(backcolor); if (m_bpp <= 8) { if (forecolor == 0xff && backcolor == 0 && !m_pPalette) return; if (!m_pPalette) BuildPalette(); int size = 1 << m_bpp; for (int i = 0; i < size; ++i) { uint8_t r; uint8_t g; uint8_t b; std::tie(r, g, b) = AdobeCMYK_to_sRGB1(FXSYS_GetCValue(m_pPalette.get()[i]), FXSYS_GetMValue(m_pPalette.get()[i]), FXSYS_GetYValue(m_pPalette.get()[i]), FXSYS_GetKValue(m_pPalette.get()[i])); int gray = 255 - FXRGB2GRAY(r, g, b); m_pPalette.get()[i] = CmykEncode(bc + (fc - bc) * gray / 255, bm + (fm - bm) * gray / 255, by + (fy - by) * gray / 255, bk + (fk - bk) * gray / 255); } return; } if (forecolor == 0xff && backcolor == 0x00) { for (int row = 0; row < m_Height; ++row) { uint8_t* scanline = m_pBuffer.Get() + row * m_Pitch; for (int col = 0; col < m_Width; ++col) { uint8_t r; uint8_t g; uint8_t b; std::tie(r, g, b) = AdobeCMYK_to_sRGB1(scanline[0], scanline[1], scanline[2], scanline[3]); *scanline++ = 0; *scanline++ = 0; *scanline++ = 0; *scanline++ = 255 - FXRGB2GRAY(r, g, b); } } return; } for (int row = 0; row < m_Height; ++row) { uint8_t* scanline = m_pBuffer.Get() + row * m_Pitch; for (int col = 0; col < m_Width; ++col) { uint8_t r; uint8_t g; uint8_t b; std::tie(r, g, b) = AdobeCMYK_to_sRGB1(scanline[0], scanline[1], scanline[2], scanline[3]); int gray = 255 - FXRGB2GRAY(r, g, b); *scanline++ = bc + (fc - bc) * gray / 255; *scanline++ = bm + (fm - bm) * gray / 255; *scanline++ = by + (fy - by) * gray / 255; *scanline++ = bk + (fk - bk) * gray / 255; } } } bool CFX_DIBitmap::ConvertColorScale(uint32_t forecolor, uint32_t backcolor) { ASSERT(!IsAlphaMask()); if (!m_pBuffer || IsAlphaMask()) return false; if (IsCmykImage()) ConvertCMYKColorScale(forecolor, backcolor); else ConvertBGRColorScale(forecolor, backcolor); return true; } // static bool CFX_DIBitmap::CalculatePitchAndSize(int height, int width, FXDIB_Format format, uint32_t* pitch, uint32_t* size) { if (width <= 0 || height <= 0) return false; int bpp = GetBppFromFormat(format); if (!bpp) return false; if ((INT_MAX - 31) / width < bpp) return false; if (!*pitch) *pitch = static_cast((width * bpp + 31) / 32 * 4); if ((1 << 30) / *pitch < static_cast(height)) return false; *size = *pitch * static_cast(height); return true; } bool CFX_DIBitmap::CompositeBitmap(int dest_left, int dest_top, int width, int height, const RetainPtr& pSrcBitmap, int src_left, int src_top, int blend_type, const CFX_ClipRgn* pClipRgn, bool bRgbByteOrder) { if (!m_pBuffer) return false; ASSERT(!pSrcBitmap->IsAlphaMask()); ASSERT(m_bpp >= 8); if (pSrcBitmap->IsAlphaMask() || m_bpp < 8) { return false; } GetOverlapRect(dest_left, dest_top, width, height, pSrcBitmap->GetWidth(), pSrcBitmap->GetHeight(), src_left, src_top, pClipRgn); if (width == 0 || height == 0) { return true; } RetainPtr pClipMask; FX_RECT clip_box; if (pClipRgn && pClipRgn->GetType() != CFX_ClipRgn::RectI) { ASSERT(pClipRgn->GetType() == CFX_ClipRgn::MaskF); pClipMask = pClipRgn->GetMask(); clip_box = pClipRgn->GetBox(); } CFX_ScanlineCompositor compositor; if (!compositor.Init(GetFormat(), pSrcBitmap->GetFormat(), width, pSrcBitmap->GetPalette(), 0, blend_type, pClipMask != nullptr, bRgbByteOrder, 0)) { return false; } int dest_Bpp = m_bpp / 8; int src_Bpp = pSrcBitmap->GetBPP() / 8; bool bRgb = src_Bpp > 1 && !pSrcBitmap->IsCmykImage(); RetainPtr pSrcAlphaMask = pSrcBitmap->m_pAlphaMask; for (int row = 0; row < height; row++) { uint8_t* dest_scan = m_pBuffer.Get() + (dest_top + row) * m_Pitch + dest_left * dest_Bpp; const uint8_t* src_scan = pSrcBitmap->GetScanline(src_top + row) + src_left * src_Bpp; const uint8_t* src_scan_extra_alpha = pSrcAlphaMask ? pSrcAlphaMask->GetScanline(src_top + row) + src_left : nullptr; uint8_t* dst_scan_extra_alpha = m_pAlphaMask ? m_pAlphaMask->GetWritableScanline(dest_top + row) + dest_left : nullptr; const uint8_t* clip_scan = nullptr; if (pClipMask) { clip_scan = pClipMask->m_pBuffer.Get() + (dest_top + row - clip_box.top) * pClipMask->m_Pitch + (dest_left - clip_box.left); } if (bRgb) { compositor.CompositeRgbBitmapLine(dest_scan, src_scan, width, clip_scan, src_scan_extra_alpha, dst_scan_extra_alpha); } else { compositor.CompositePalBitmapLine(dest_scan, src_scan, src_left, width, clip_scan, src_scan_extra_alpha, dst_scan_extra_alpha); } } return true; } bool CFX_DIBitmap::CompositeMask(int dest_left, int dest_top, int width, int height, const RetainPtr& pMask, uint32_t color, int src_left, int src_top, int blend_type, const CFX_ClipRgn* pClipRgn, bool bRgbByteOrder, int alpha_flag) { if (!m_pBuffer) return false; ASSERT(pMask->IsAlphaMask()); ASSERT(m_bpp >= 8); if (!pMask->IsAlphaMask() || m_bpp < 8) return false; GetOverlapRect(dest_left, dest_top, width, height, pMask->GetWidth(), pMask->GetHeight(), src_left, src_top, pClipRgn); if (width == 0 || height == 0) return true; int src_alpha = (uint8_t)(alpha_flag >> 8) ? (alpha_flag & 0xff) : FXARGB_A(color); if (src_alpha == 0) return true; RetainPtr pClipMask; FX_RECT clip_box; if (pClipRgn && pClipRgn->GetType() != CFX_ClipRgn::RectI) { ASSERT(pClipRgn->GetType() == CFX_ClipRgn::MaskF); pClipMask = pClipRgn->GetMask(); clip_box = pClipRgn->GetBox(); } int src_bpp = pMask->GetBPP(); int Bpp = GetBPP() / 8; CFX_ScanlineCompositor compositor; if (!compositor.Init(GetFormat(), pMask->GetFormat(), width, nullptr, color, blend_type, pClipMask != nullptr, bRgbByteOrder, alpha_flag)) { return false; } for (int row = 0; row < height; row++) { uint8_t* dest_scan = m_pBuffer.Get() + (dest_top + row) * m_Pitch + dest_left * Bpp; const uint8_t* src_scan = pMask->GetScanline(src_top + row); uint8_t* dst_scan_extra_alpha = m_pAlphaMask ? m_pAlphaMask->GetWritableScanline(dest_top + row) + dest_left : nullptr; const uint8_t* clip_scan = nullptr; if (pClipMask) { clip_scan = pClipMask->m_pBuffer.Get() + (dest_top + row - clip_box.top) * pClipMask->m_Pitch + (dest_left - clip_box.left); } if (src_bpp == 1) { compositor.CompositeBitMaskLine(dest_scan, src_scan, src_left, width, clip_scan, dst_scan_extra_alpha); } else { compositor.CompositeByteMaskLine(dest_scan, src_scan + src_left, width, clip_scan, dst_scan_extra_alpha); } } return true; } bool CFX_DIBitmap::CompositeRect(int left, int top, int width, int height, uint32_t color, int alpha_flag) { if (!m_pBuffer) return false; int src_alpha = (alpha_flag >> 8) ? (alpha_flag & 0xff) : FXARGB_A(color); if (src_alpha == 0) return true; FX_RECT rect(left, top, left + width, top + height); rect.Intersect(0, 0, m_Width, m_Height); if (rect.IsEmpty()) return true; width = rect.Width(); uint32_t dst_color; if (alpha_flag >> 8) dst_color = FXCMYK_TODIB(color); else dst_color = FXARGB_TODIB(color); uint8_t* color_p = (uint8_t*)&dst_color; if (m_bpp == 8) { uint8_t gray = 255; if (!IsAlphaMask()) { if (alpha_flag >> 8) { uint8_t r; uint8_t g; uint8_t b; std::tie(r, g, b) = AdobeCMYK_to_sRGB1(color_p[0], color_p[1], color_p[2], color_p[3]); gray = FXRGB2GRAY(r, g, b); } else { gray = (uint8_t)FXRGB2GRAY((int)color_p[2], color_p[1], color_p[0]); } if (IsCmykImage()) { gray = ~gray; } } for (int row = rect.top; row < rect.bottom; row++) { uint8_t* dest_scan = m_pBuffer.Get() + row * m_Pitch + rect.left; if (src_alpha == 255) { memset(dest_scan, gray, width); } else { for (int col = 0; col < width; col++) { *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, gray, src_alpha); dest_scan++; } } } return true; } if (m_bpp == 1) { ASSERT(!IsCmykImage() && static_cast(alpha_flag >> 8) == 0); int left_shift = rect.left % 8; int right_shift = rect.right % 8; int new_width = rect.right / 8 - rect.left / 8; int index = 0; if (m_pPalette) { for (int i = 0; i < 2; i++) { if (m_pPalette.get()[i] == color) index = i; } } else { index = (static_cast(color) == 0xff) ? 1 : 0; } for (int row = rect.top; row < rect.bottom; row++) { uint8_t* dest_scan_top = GetWritableScanline(row) + rect.left / 8; uint8_t* dest_scan_top_r = GetWritableScanline(row) + rect.right / 8; uint8_t left_flag = *dest_scan_top & (255 << (8 - left_shift)); uint8_t right_flag = *dest_scan_top_r & (255 >> right_shift); if (new_width) { memset(dest_scan_top + 1, index ? 255 : 0, new_width - 1); if (!index) { *dest_scan_top &= left_flag; *dest_scan_top_r &= right_flag; } else { *dest_scan_top |= ~left_flag; *dest_scan_top_r |= ~right_flag; } } else { if (!index) { *dest_scan_top &= left_flag | right_flag; } else { *dest_scan_top |= ~(left_flag | right_flag); } } } return true; } ASSERT(m_bpp >= 24); if (m_bpp < 24 || (!(alpha_flag >> 8) && IsCmykImage())) return false; if (alpha_flag >> 8 && !IsCmykImage()) { std::tie(color_p[2], color_p[1], color_p[0]) = AdobeCMYK_to_sRGB1(FXSYS_GetCValue(color), FXSYS_GetMValue(color), FXSYS_GetYValue(color), FXSYS_GetKValue(color)); } if (!IsCmykImage()) color_p[3] = static_cast(src_alpha); int Bpp = m_bpp / 8; bool bAlpha = HasAlpha(); bool bArgb = GetFormat() == FXDIB_Argb; if (src_alpha == 255) { for (int row = rect.top; row < rect.bottom; row++) { uint8_t* dest_scan = m_pBuffer.Get() + row * m_Pitch + rect.left * Bpp; uint8_t* dest_scan_alpha = m_pAlphaMask ? m_pAlphaMask->GetWritableScanline(row) + rect.left : nullptr; if (dest_scan_alpha) { memset(dest_scan_alpha, 0xff, width); } if (Bpp == 4) { uint32_t* scan = (uint32_t*)dest_scan; for (int col = 0; col < width; col++) { *scan++ = dst_color; } } else { for (int col = 0; col < width; col++) { *dest_scan++ = color_p[0]; *dest_scan++ = color_p[1]; *dest_scan++ = color_p[2]; } } } return true; } for (int row = rect.top; row < rect.bottom; row++) { uint8_t* dest_scan = m_pBuffer.Get() + row * m_Pitch + rect.left * Bpp; if (bAlpha) { if (bArgb) { for (int col = 0; col < width; col++) { uint8_t back_alpha = dest_scan[3]; if (back_alpha == 0) { FXARGB_SETDIB(dest_scan, ArgbEncode(src_alpha, color_p[2], color_p[1], color_p[0])); dest_scan += 4; continue; } uint8_t dest_alpha = back_alpha + src_alpha - back_alpha * src_alpha / 255; int alpha_ratio = src_alpha * 255 / dest_alpha; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, color_p[0], alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, color_p[1], alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, color_p[2], alpha_ratio); dest_scan++; *dest_scan++ = dest_alpha; } } else { uint8_t* dest_scan_alpha = m_pAlphaMask->GetWritableScanline(row) + rect.left; for (int col = 0; col < width; col++) { uint8_t back_alpha = *dest_scan_alpha; if (back_alpha == 0) { *dest_scan_alpha++ = src_alpha; memcpy(dest_scan, color_p, Bpp); dest_scan += Bpp; continue; } uint8_t dest_alpha = back_alpha + src_alpha - back_alpha * src_alpha / 255; *dest_scan_alpha++ = dest_alpha; int alpha_ratio = src_alpha * 255 / dest_alpha; for (int comps = 0; comps < Bpp; comps++) { *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, color_p[comps], alpha_ratio); dest_scan++; } } } } else { for (int col = 0; col < width; col++) { for (int comps = 0; comps < Bpp; comps++) { if (comps == 3) { *dest_scan++ = 255; continue; } *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, color_p[comps], src_alpha); dest_scan++; } } } } return true; } bool CFX_DIBitmap::ConvertFormat(FXDIB_Format dest_format) { FXDIB_Format src_format = GetFormat(); if (dest_format == src_format) return true; if (dest_format == FXDIB_8bppMask && src_format == FXDIB_8bppRgb && !m_pPalette) { m_AlphaFlag = 1; return true; } if (dest_format == FXDIB_Argb && src_format == FXDIB_Rgb32) { m_AlphaFlag = 2; for (int row = 0; row < m_Height; row++) { uint8_t* scanline = m_pBuffer.Get() + row * m_Pitch + 3; for (int col = 0; col < m_Width; col++) { *scanline = 0xff; scanline += 4; } } return true; } int dest_bpp = GetBppFromFormat(dest_format); int dest_pitch = (dest_bpp * m_Width + 31) / 32 * 4; std::unique_ptr dest_buf( FX_TryAlloc(uint8_t, dest_pitch * m_Height + 4)); if (!dest_buf) return false; RetainPtr pAlphaMask; if (dest_format == FXDIB_Argb) { memset(dest_buf.get(), 0xff, dest_pitch * m_Height + 4); if (m_pAlphaMask) { for (int row = 0; row < m_Height; row++) { uint8_t* pDstScanline = dest_buf.get() + row * dest_pitch + 3; const uint8_t* pSrcScanline = m_pAlphaMask->GetScanline(row); for (int col = 0; col < m_Width; col++) { *pDstScanline = *pSrcScanline++; pDstScanline += 4; } } } } else if (dest_format & 0x0200) { if (src_format == FXDIB_Argb) { pAlphaMask = CloneAlphaMask(); if (!pAlphaMask) return false; } else { if (!m_pAlphaMask) { if (!BuildAlphaMask()) return false; pAlphaMask = std::move(m_pAlphaMask); } else { pAlphaMask = m_pAlphaMask; } } } bool ret = false; RetainPtr holder(this); std::unique_ptr pal_8bpp; ret = ConvertBuffer(dest_format, dest_buf.get(), dest_pitch, m_Width, m_Height, holder, 0, 0, &pal_8bpp); if (!ret) return false; m_pAlphaMask = pAlphaMask; m_pPalette = std::move(pal_8bpp); m_pBuffer = std::move(dest_buf); m_bpp = static_cast(dest_format); m_AlphaFlag = static_cast(dest_format >> 8); m_Pitch = dest_pitch; return true; }