// 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 "core/fxge/agg/fx_agg_driver.h" #include #include #include "core/fxcodec/fx_codec.h" #include "core/fxge/cfx_fxgedevice.h" #include "core/fxge/cfx_gemodule.h" #include "core/fxge/cfx_graphstatedata.h" #include "core/fxge/cfx_pathdata.h" #include "core/fxge/dib/cfx_imagerenderer.h" #include "core/fxge/ge/cfx_cliprgn.h" #include "third_party/agg23/agg_conv_dash.h" #include "third_party/agg23/agg_conv_stroke.h" #include "third_party/agg23/agg_curves.h" #include "third_party/agg23/agg_path_storage.h" #include "third_party/agg23/agg_pixfmt_gray.h" #include "third_party/agg23/agg_rasterizer_scanline_aa.h" #include "third_party/agg23/agg_renderer_scanline.h" #include "third_party/agg23/agg_scanline_u.h" #include "third_party/base/ptr_util.h" #include "third_party/base/stl_util.h" namespace { const float kMaxPos = 32000.0f; CFX_PointF HardClip(const CFX_PointF& pos) { return CFX_PointF(pdfium::clamp(pos.x, -kMaxPos, kMaxPos), pdfium::clamp(pos.y, -kMaxPos, kMaxPos)); } void RgbByteOrderSetPixel(const CFX_RetainPtr& pBitmap, int x, int y, uint32_t argb) { if (x < 0 || x >= pBitmap->GetWidth() || y < 0 || y >= pBitmap->GetHeight()) return; uint8_t* pos = pBitmap->GetBuffer() + y * pBitmap->GetPitch() + x * pBitmap->GetBPP() / 8; if (pBitmap->GetFormat() == FXDIB_Argb) { FXARGB_SETRGBORDERDIB(pos, argb); return; } int alpha = FXARGB_A(argb); pos[0] = (FXARGB_R(argb) * alpha + pos[0] * (255 - alpha)) / 255; pos[1] = (FXARGB_G(argb) * alpha + pos[1] * (255 - alpha)) / 255; pos[2] = (FXARGB_B(argb) * alpha + pos[2] * (255 - alpha)) / 255; } void RgbByteOrderCompositeRect(const CFX_RetainPtr& pBitmap, int left, int top, int width, int height, FX_ARGB argb) { int src_alpha = FXARGB_A(argb); if (src_alpha == 0) return; FX_RECT rect(left, top, left + width, top + height); rect.Intersect(0, 0, pBitmap->GetWidth(), pBitmap->GetHeight()); width = rect.Width(); int src_r = FXARGB_R(argb); int src_g = FXARGB_G(argb); int src_b = FXARGB_B(argb); int Bpp = pBitmap->GetBPP() / 8; int dib_argb = FXARGB_TOBGRORDERDIB(argb); uint8_t* pBuffer = pBitmap->GetBuffer(); if (src_alpha == 255) { for (int row = rect.top; row < rect.bottom; row++) { uint8_t* dest_scan = pBuffer + row * pBitmap->GetPitch() + rect.left * Bpp; if (Bpp == 4) { uint32_t* scan = reinterpret_cast(dest_scan); for (int col = 0; col < width; col++) *scan++ = dib_argb; } else { for (int col = 0; col < width; col++) { *dest_scan++ = src_r; *dest_scan++ = src_g; *dest_scan++ = src_b; } } } return; } bool bAlpha = pBitmap->HasAlpha(); for (int row = rect.top; row < rect.bottom; row++) { uint8_t* dest_scan = pBuffer + row * pBitmap->GetPitch() + rect.left * Bpp; if (bAlpha) { for (int col = 0; col < width; col++) { uint8_t back_alpha = dest_scan[3]; if (back_alpha == 0) { FXARGB_SETRGBORDERDIB(dest_scan, FXARGB_MAKE(src_alpha, src_r, src_g, src_b)); dest_scan += 4; continue; } uint8_t dest_alpha = back_alpha + src_alpha - back_alpha * src_alpha / 255; dest_scan[3] = dest_alpha; int alpha_ratio = src_alpha * 255 / dest_alpha; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, src_r, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, src_g, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, src_b, alpha_ratio); dest_scan += 2; } continue; } for (int col = 0; col < width; col++) { *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, src_r, src_alpha); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, src_g, src_alpha); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, src_b, src_alpha); dest_scan++; if (Bpp == 4) dest_scan++; } } } void RgbByteOrderTransferBitmap(const CFX_RetainPtr& pBitmap, int dest_left, int dest_top, int width, int height, const CFX_RetainPtr& pSrcBitmap, int src_left, int src_top) { if (!pBitmap) return; pBitmap->GetOverlapRect(dest_left, dest_top, width, height, pSrcBitmap->GetWidth(), pSrcBitmap->GetHeight(), src_left, src_top, nullptr); if (width == 0 || height == 0) return; int Bpp = pBitmap->GetBPP() / 8; FXDIB_Format dest_format = pBitmap->GetFormat(); FXDIB_Format src_format = pSrcBitmap->GetFormat(); int pitch = pBitmap->GetPitch(); uint8_t* buffer = pBitmap->GetBuffer(); if (dest_format == src_format) { for (int row = 0; row < height; row++) { uint8_t* dest_scan = buffer + (dest_top + row) * pitch + dest_left * Bpp; uint8_t* src_scan = const_cast(pSrcBitmap->GetScanline(src_top + row)) + src_left * Bpp; if (Bpp == 4) { for (int col = 0; col < width; col++) { FXARGB_SETDIB(dest_scan, FXARGB_MAKE(src_scan[3], src_scan[0], src_scan[1], src_scan[2])); dest_scan += 4; src_scan += 4; } continue; } for (int col = 0; col < width; col++) { *dest_scan++ = src_scan[2]; *dest_scan++ = src_scan[1]; *dest_scan++ = src_scan[0]; src_scan += 3; } } return; } uint8_t* dest_buf = buffer + dest_top * pitch + dest_left * Bpp; if (dest_format == FXDIB_Rgb) { ASSERT(src_format == FXDIB_Rgb32); for (int row = 0; row < height; row++) { uint8_t* dest_scan = dest_buf + row * pitch; uint8_t* src_scan = const_cast(pSrcBitmap->GetScanline(src_top + row)) + src_left * 4; for (int col = 0; col < width; col++) { *dest_scan++ = src_scan[2]; *dest_scan++ = src_scan[1]; *dest_scan++ = src_scan[0]; src_scan += 4; } } return; } ASSERT(dest_format == FXDIB_Argb || dest_format == FXDIB_Rgb32); if (src_format == FXDIB_Rgb) { for (int row = 0; row < height; row++) { uint8_t* dest_scan = dest_buf + row * pitch; uint8_t* src_scan = const_cast(pSrcBitmap->GetScanline(src_top + row)) + src_left * 3; for (int col = 0; col < width; col++) { FXARGB_SETDIB(dest_scan, FXARGB_MAKE(0xff, src_scan[0], src_scan[1], src_scan[2])); dest_scan += 4; src_scan += 3; } } return; } if (src_format != FXDIB_Rgb32) return; ASSERT(dest_format == FXDIB_Argb); for (int row = 0; row < height; row++) { uint8_t* dest_scan = dest_buf + row * pitch; uint8_t* src_scan = const_cast(pSrcBitmap->GetScanline(src_top + row)) + src_left * 4; for (int col = 0; col < width; col++) { FXARGB_SETDIB(dest_scan, FXARGB_MAKE(0xff, src_scan[0], src_scan[1], src_scan[2])); src_scan += 4; dest_scan += 4; } } } FX_ARGB DefaultCMYK2ARGB(FX_CMYK cmyk, uint8_t alpha) { uint8_t r, g, b; AdobeCMYK_to_sRGB1(FXSYS_GetCValue(cmyk), FXSYS_GetMValue(cmyk), FXSYS_GetYValue(cmyk), FXSYS_GetKValue(cmyk), r, g, b); return ArgbEncode(alpha, r, g, b); } bool DibSetPixel(const CFX_RetainPtr& pDevice, int x, int y, uint32_t color, int alpha_flag, void* pIccTransform) { bool bObjCMYK = !!FXGETFLAG_COLORTYPE(alpha_flag); int alpha = bObjCMYK ? FXGETFLAG_ALPHA_FILL(alpha_flag) : FXARGB_A(color); if (pIccTransform) { CCodec_IccModule* pIccModule = CFX_GEModule::Get()->GetCodecModule()->GetIccModule(); color = bObjCMYK ? FXCMYK_TODIB(color) : FXARGB_TODIB(color); uint8_t* pColor = reinterpret_cast(&color); pIccModule->TranslateScanline(pIccTransform, pColor, pColor, 1); color = bObjCMYK ? FXCMYK_TODIB(color) : FXARGB_TODIB(color); if (!pDevice->IsCmykImage()) color = (color & 0xffffff) | (alpha << 24); } else { if (pDevice->IsCmykImage()) { if (!bObjCMYK) return false; } else if (bObjCMYK) { color = DefaultCMYK2ARGB(color, alpha); } } pDevice->SetPixel(x, y, color); if (pDevice->m_pAlphaMask) pDevice->m_pAlphaMask->SetPixel(x, y, alpha << 24); return true; } void RasterizeStroke(agg::rasterizer_scanline_aa* rasterizer, agg::path_storage* path_data, const CFX_Matrix* pObject2Device, const CFX_GraphStateData* pGraphState, float scale, bool bStrokeAdjust, bool bTextMode) { agg::line_cap_e cap; switch (pGraphState->m_LineCap) { case CFX_GraphStateData::LineCapRound: cap = agg::round_cap; break; case CFX_GraphStateData::LineCapSquare: cap = agg::square_cap; break; default: cap = agg::butt_cap; break; } agg::line_join_e join; switch (pGraphState->m_LineJoin) { case CFX_GraphStateData::LineJoinRound: join = agg::round_join; break; case CFX_GraphStateData::LineJoinBevel: join = agg::bevel_join; break; default: join = agg::miter_join_revert; break; } float width = pGraphState->m_LineWidth * scale; float unit = 1.0f; if (pObject2Device) { unit = 1.0f / ((pObject2Device->GetXUnit() + pObject2Device->GetYUnit()) / 2); } width = std::max(width, unit); if (pGraphState->m_DashArray) { typedef agg::conv_dash dash_converter; dash_converter dash(*path_data); for (int i = 0; i < (pGraphState->m_DashCount + 1) / 2; i++) { float on = pGraphState->m_DashArray[i * 2]; if (on <= 0.000001f) on = 1.0f / 10; float off = i * 2 + 1 == pGraphState->m_DashCount ? on : pGraphState->m_DashArray[i * 2 + 1]; off = std::max(off, 0.0f); dash.add_dash(on * scale, off * scale); } dash.dash_start(pGraphState->m_DashPhase * scale); typedef agg::conv_stroke dash_stroke; dash_stroke stroke(dash); stroke.line_join(join); stroke.line_cap(cap); stroke.miter_limit(pGraphState->m_MiterLimit); stroke.width(width); rasterizer->add_path_transformed(stroke, pObject2Device); return; } agg::conv_stroke stroke(*path_data); stroke.line_join(join); stroke.line_cap(cap); stroke.miter_limit(pGraphState->m_MiterLimit); stroke.width(width); rasterizer->add_path_transformed(stroke, pObject2Device); } class CFX_Renderer { public: // Needed for agg caller void prepare(unsigned) {} void CompositeSpan(uint8_t* dest_scan, uint8_t* ori_scan, int Bpp, bool bDestAlpha, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan); void CompositeSpan1bpp(uint8_t* dest_scan, int Bpp, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan, uint8_t* dest_extra_alpha_scan); void CompositeSpanGray(uint8_t* dest_scan, int Bpp, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan, uint8_t* dest_extra_alpha_scan); void CompositeSpanARGB(uint8_t* dest_scan, int Bpp, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan, uint8_t* dest_extra_alpha_scan); void CompositeSpanRGB(uint8_t* dest_scan, int Bpp, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan, uint8_t* dest_extra_alpha_scan); void CompositeSpanCMYK(uint8_t* dest_scan, int Bpp, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan, uint8_t* dest_extra_alpha_scan); bool Init(const CFX_RetainPtr& pDevice, const CFX_RetainPtr& pOriDevice, const CFX_ClipRgn* pClipRgn, uint32_t color, bool bFullCover, bool bRgbByteOrder, int alpha_flag, void* pIccTransform); template void render(const Scanline& sl); private: void (CFX_Renderer::*composite_span)(uint8_t*, int, int, int, uint8_t*, int, int, uint8_t*, uint8_t*); void CompositeSpan1bppHelper(uint8_t* dest_scan, int col_start, int col_end, const uint8_t* cover_scan, const uint8_t* clip_scan, int span_left); inline int GetSrcAlpha(const uint8_t* clip_scan, int col) const { return clip_scan ? m_Alpha * clip_scan[col] / 255 : m_Alpha; } inline int GetSourceAlpha(const uint8_t* cover_scan, const uint8_t* clip_scan, int col) const { return clip_scan ? m_Alpha * cover_scan[col] * clip_scan[col] / 255 / 255 : m_Alpha * cover_scan[col] / 255; } inline int GetColStart(int span_left, int clip_left) const { return span_left < clip_left ? clip_left - span_left : 0; } inline int GetColEnd(int span_left, int span_len, int clip_right) const { return span_left + span_len < clip_right ? span_len : clip_right - span_left; } int m_Alpha; int m_Red; int m_Green; int m_Blue; int m_Gray; uint32_t m_Color; bool m_bFullCover; bool m_bRgbByteOrder; FX_RECT m_ClipBox; CFX_RetainPtr m_pOriDevice; CFX_RetainPtr m_pClipMask; CFX_RetainPtr m_pDevice; const CFX_ClipRgn* m_pClipRgn; }; void CFX_Renderer::CompositeSpan(uint8_t* dest_scan, uint8_t* ori_scan, int Bpp, bool bDestAlpha, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan) { ASSERT(!m_pDevice->IsCmykImage()); int col_start = GetColStart(span_left, clip_left); int col_end = GetColEnd(span_left, span_len, clip_right); if (Bpp) { dest_scan += col_start * Bpp; ori_scan += col_start * Bpp; } else { dest_scan += col_start / 8; ori_scan += col_start / 8; } if (m_bRgbByteOrder) { if (Bpp == 4 && bDestAlpha) { for (int col = col_start; col < col_end; col++) { int src_alpha = GetSrcAlpha(clip_scan, col); uint8_t dest_alpha = ori_scan[3] + src_alpha - ori_scan[3] * src_alpha / 255; dest_scan[3] = dest_alpha; int alpha_ratio = src_alpha * 255 / dest_alpha; if (m_bFullCover) { *dest_scan++ = FXDIB_ALPHA_MERGE(*ori_scan++, m_Red, alpha_ratio); *dest_scan++ = FXDIB_ALPHA_MERGE(*ori_scan++, m_Green, alpha_ratio); *dest_scan++ = FXDIB_ALPHA_MERGE(*ori_scan++, m_Blue, alpha_ratio); dest_scan++; ori_scan++; } else { int r = FXDIB_ALPHA_MERGE(*ori_scan++, m_Red, alpha_ratio); int g = FXDIB_ALPHA_MERGE(*ori_scan++, m_Green, alpha_ratio); int b = FXDIB_ALPHA_MERGE(*ori_scan++, m_Blue, alpha_ratio); ori_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, r, cover_scan[col]); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, g, cover_scan[col]); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, b, cover_scan[col]); dest_scan += 2; } } return; } if (Bpp == 3 || Bpp == 4) { for (int col = col_start; col < col_end; col++) { int src_alpha = GetSrcAlpha(clip_scan, col); int r = FXDIB_ALPHA_MERGE(*ori_scan++, m_Red, src_alpha); int g = FXDIB_ALPHA_MERGE(*ori_scan++, m_Green, src_alpha); int b = FXDIB_ALPHA_MERGE(*ori_scan, m_Blue, src_alpha); ori_scan += Bpp - 2; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, r, cover_scan[col]); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, g, cover_scan[col]); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, b, cover_scan[col]); dest_scan += Bpp - 2; } } return; } if (Bpp == 4 && bDestAlpha) { for (int col = col_start; col < col_end; col++) { int src_alpha = GetSrcAlpha(clip_scan, col); int src_alpha_covered = src_alpha * cover_scan[col] / 255; if (src_alpha_covered == 0) { dest_scan += 4; continue; } if (cover_scan[col] == 255) { dest_scan[3] = src_alpha_covered; *dest_scan++ = m_Blue; *dest_scan++ = m_Green; *dest_scan = m_Red; dest_scan += 2; continue; } if (dest_scan[3] == 0) { dest_scan[3] = src_alpha_covered; *dest_scan++ = m_Blue; *dest_scan++ = m_Green; *dest_scan = m_Red; dest_scan += 2; continue; } uint8_t cover = cover_scan[col]; dest_scan[3] = FXDIB_ALPHA_MERGE(dest_scan[3], src_alpha, cover); *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Blue, cover); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Green, cover); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Red, cover); dest_scan += 2; } return; } if (Bpp == 3 || Bpp == 4) { for (int col = col_start; col < col_end; col++) { int src_alpha = GetSrcAlpha(clip_scan, col); if (m_bFullCover) { *dest_scan++ = FXDIB_ALPHA_MERGE(*ori_scan++, m_Blue, src_alpha); *dest_scan++ = FXDIB_ALPHA_MERGE(*ori_scan++, m_Green, src_alpha); *dest_scan = FXDIB_ALPHA_MERGE(*ori_scan, m_Red, src_alpha); dest_scan += Bpp - 2; ori_scan += Bpp - 2; continue; } int b = FXDIB_ALPHA_MERGE(*ori_scan++, m_Blue, src_alpha); int g = FXDIB_ALPHA_MERGE(*ori_scan++, m_Green, src_alpha); int r = FXDIB_ALPHA_MERGE(*ori_scan, m_Red, src_alpha); ori_scan += Bpp - 2; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, b, cover_scan[col]); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, g, cover_scan[col]); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, r, cover_scan[col]); dest_scan += Bpp - 2; continue; } return; } if (Bpp == 1) { for (int col = col_start; col < col_end; col++) { int src_alpha = GetSrcAlpha(clip_scan, col); if (m_bFullCover) { *dest_scan = FXDIB_ALPHA_MERGE(*ori_scan++, m_Gray, src_alpha); continue; } int gray = FXDIB_ALPHA_MERGE(*ori_scan++, m_Gray, src_alpha); *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, gray, cover_scan[col]); dest_scan++; } return; } CompositeSpan1bppHelper(dest_scan, col_start, col_end, cover_scan, clip_scan, span_left); } void CFX_Renderer::CompositeSpan1bpp(uint8_t* dest_scan, int Bpp, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan, uint8_t* dest_extra_alpha_scan) { ASSERT(!m_bRgbByteOrder); ASSERT(!m_pDevice->IsCmykImage()); int col_start = GetColStart(span_left, clip_left); int col_end = GetColEnd(span_left, span_len, clip_right); dest_scan += col_start / 8; CompositeSpan1bppHelper(dest_scan, col_start, col_end, cover_scan, clip_scan, span_left); } void CFX_Renderer::CompositeSpanGray(uint8_t* dest_scan, int Bpp, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan, uint8_t* dest_extra_alpha_scan) { ASSERT(!m_bRgbByteOrder); int col_start = GetColStart(span_left, clip_left); int col_end = GetColEnd(span_left, span_len, clip_right); dest_scan += col_start; if (dest_extra_alpha_scan) { for (int col = col_start; col < col_end; col++) { int src_alpha = m_bFullCover ? GetSrcAlpha(clip_scan, col) : GetSourceAlpha(cover_scan, clip_scan, col); if (src_alpha) { if (src_alpha == 255) { *dest_scan = m_Gray; *dest_extra_alpha_scan = m_Alpha; } else { uint8_t dest_alpha = (*dest_extra_alpha_scan) + src_alpha - (*dest_extra_alpha_scan) * src_alpha / 255; *dest_extra_alpha_scan++ = dest_alpha; int alpha_ratio = src_alpha * 255 / dest_alpha; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Gray, alpha_ratio); dest_scan++; continue; } } dest_extra_alpha_scan++; dest_scan++; } return; } for (int col = col_start; col < col_end; col++) { int src_alpha = GetSourceAlpha(cover_scan, clip_scan, col); if (src_alpha) { if (src_alpha == 255) *dest_scan = m_Gray; else *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Gray, src_alpha); } dest_scan++; } } void CFX_Renderer::CompositeSpanARGB(uint8_t* dest_scan, int Bpp, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan, uint8_t* dest_extra_alpha_scan) { int col_start = GetColStart(span_left, clip_left); int col_end = GetColEnd(span_left, span_len, clip_right); dest_scan += col_start * Bpp; if (m_bRgbByteOrder) { for (int col = col_start; col < col_end; col++) { int src_alpha = m_bFullCover ? GetSrcAlpha(clip_scan, col) : GetSourceAlpha(cover_scan, clip_scan, col); if (src_alpha) { if (src_alpha == 255) { *(reinterpret_cast(dest_scan)) = m_Color; } else { uint8_t dest_alpha = dest_scan[3] + src_alpha - dest_scan[3] * src_alpha / 255; dest_scan[3] = dest_alpha; int alpha_ratio = src_alpha * 255 / dest_alpha; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Red, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Green, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Blue, alpha_ratio); dest_scan += 2; continue; } } dest_scan += 4; } return; } for (int col = col_start; col < col_end; col++) { int src_alpha = m_bFullCover ? GetSrcAlpha(clip_scan, col) : GetSourceAlpha(cover_scan, clip_scan, col); if (src_alpha) { if (src_alpha == 255) { *(reinterpret_cast(dest_scan)) = m_Color; } else { if (dest_scan[3] == 0) { dest_scan[3] = src_alpha; *dest_scan++ = m_Blue; *dest_scan++ = m_Green; *dest_scan = m_Red; dest_scan += 2; continue; } uint8_t dest_alpha = dest_scan[3] + src_alpha - dest_scan[3] * src_alpha / 255; dest_scan[3] = dest_alpha; int alpha_ratio = src_alpha * 255 / dest_alpha; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Blue, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Green, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Red, alpha_ratio); dest_scan += 2; continue; } } dest_scan += Bpp; } } void CFX_Renderer::CompositeSpanRGB(uint8_t* dest_scan, int Bpp, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan, uint8_t* dest_extra_alpha_scan) { int col_start = GetColStart(span_left, clip_left); int col_end = GetColEnd(span_left, span_len, clip_right); dest_scan += col_start * Bpp; if (m_bRgbByteOrder) { for (int col = col_start; col < col_end; col++) { int src_alpha = GetSourceAlpha(cover_scan, clip_scan, col); if (src_alpha) { if (src_alpha == 255) { if (Bpp == 4) { *(uint32_t*)dest_scan = m_Color; } else if (Bpp == 3) { *dest_scan++ = m_Red; *dest_scan++ = m_Green; *dest_scan++ = m_Blue; continue; } } else { *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Red, src_alpha); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Green, src_alpha); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Blue, src_alpha); dest_scan += Bpp - 2; continue; } } dest_scan += Bpp; } return; } if (Bpp == 3 && dest_extra_alpha_scan) { for (int col = col_start; col < col_end; col++) { int src_alpha = m_bFullCover ? GetSrcAlpha(clip_scan, col) : GetSourceAlpha(cover_scan, clip_scan, col); if (src_alpha) { if (src_alpha == 255) { *dest_scan++ = static_cast(m_Blue); *dest_scan++ = static_cast(m_Green); *dest_scan++ = static_cast(m_Red); *dest_extra_alpha_scan++ = static_cast(m_Alpha); continue; } uint8_t dest_alpha = (*dest_extra_alpha_scan) + src_alpha - (*dest_extra_alpha_scan) * src_alpha / 255; *dest_extra_alpha_scan++ = dest_alpha; int alpha_ratio = src_alpha * 255 / dest_alpha; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Blue, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Green, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Red, alpha_ratio); dest_scan++; continue; } dest_extra_alpha_scan++; dest_scan += Bpp; } return; } for (int col = col_start; col < col_end; col++) { int src_alpha = m_bFullCover ? GetSrcAlpha(clip_scan, col) : GetSourceAlpha(cover_scan, clip_scan, col); if (src_alpha) { if (src_alpha == 255) { if (Bpp == 4) { *(uint32_t*)dest_scan = m_Color; } else if (Bpp == 3) { *dest_scan++ = m_Blue; *dest_scan++ = m_Green; *dest_scan++ = m_Red; continue; } } else { *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Blue, src_alpha); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Green, src_alpha); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Red, src_alpha); dest_scan += Bpp - 2; continue; } } dest_scan += Bpp; } } void CFX_Renderer::CompositeSpanCMYK(uint8_t* dest_scan, int Bpp, int span_left, int span_len, uint8_t* cover_scan, int clip_left, int clip_right, uint8_t* clip_scan, uint8_t* dest_extra_alpha_scan) { ASSERT(!m_bRgbByteOrder); int col_start = GetColStart(span_left, clip_left); int col_end = GetColEnd(span_left, span_len, clip_right); dest_scan += col_start * 4; if (dest_extra_alpha_scan) { for (int col = col_start; col < col_end; col++) { int src_alpha = m_bFullCover ? GetSrcAlpha(clip_scan, col) : GetSourceAlpha(cover_scan, clip_scan, col); if (src_alpha) { if (src_alpha == 255) { *(reinterpret_cast(dest_scan)) = m_Color; *dest_extra_alpha_scan = static_cast(m_Alpha); } else { uint8_t dest_alpha = (*dest_extra_alpha_scan) + src_alpha - (*dest_extra_alpha_scan) * src_alpha / 255; *dest_extra_alpha_scan++ = dest_alpha; int alpha_ratio = src_alpha * 255 / dest_alpha; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Red, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Green, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Blue, alpha_ratio); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Gray, alpha_ratio); dest_scan++; continue; } } dest_extra_alpha_scan++; dest_scan += 4; } return; } for (int col = col_start; col < col_end; col++) { int src_alpha = GetSourceAlpha(cover_scan, clip_scan, col); if (src_alpha) { if (src_alpha == 255) { *(reinterpret_cast(dest_scan)) = m_Color; } else { *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Red, src_alpha); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Green, src_alpha); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Blue, src_alpha); dest_scan++; *dest_scan = FXDIB_ALPHA_MERGE(*dest_scan, m_Gray, src_alpha); dest_scan++; continue; } } dest_scan += 4; } } bool CFX_Renderer::Init(const CFX_RetainPtr& pDevice, const CFX_RetainPtr& pOriDevice, const CFX_ClipRgn* pClipRgn, uint32_t color, bool bFullCover, bool bRgbByteOrder, int alpha_flag, void* pIccTransform) { m_pDevice = pDevice; m_pClipRgn = pClipRgn; composite_span = nullptr; m_bRgbByteOrder = bRgbByteOrder; m_pOriDevice = pOriDevice; if (m_pClipRgn) { m_ClipBox = m_pClipRgn->GetBox(); } else { m_ClipBox.left = m_ClipBox.top = 0; m_ClipBox.right = m_pDevice->GetWidth(); m_ClipBox.bottom = m_pDevice->GetHeight(); } m_pClipMask = nullptr; if (m_pClipRgn && m_pClipRgn->GetType() == CFX_ClipRgn::MaskF) m_pClipMask = m_pClipRgn->GetMask(); m_bFullCover = bFullCover; bool bObjectCMYK = !!FXGETFLAG_COLORTYPE(alpha_flag); bool bDeviceCMYK = pDevice->IsCmykImage(); m_Alpha = bObjectCMYK ? FXGETFLAG_ALPHA_FILL(alpha_flag) : FXARGB_A(color); CCodec_IccModule* pIccModule = nullptr; if (!CFX_GEModule::Get()->GetCodecModule() || !CFX_GEModule::Get()->GetCodecModule()->GetIccModule()) { pIccTransform = nullptr; } else { pIccModule = CFX_GEModule::Get()->GetCodecModule()->GetIccModule(); } if (m_pDevice->GetBPP() == 8) { ASSERT(!m_bRgbByteOrder); composite_span = &CFX_Renderer::CompositeSpanGray; if (m_pDevice->IsAlphaMask()) { m_Gray = 255; } else { if (pIccTransform) { uint8_t gray; color = bObjectCMYK ? FXCMYK_TODIB(color) : FXARGB_TODIB(color); pIccModule->TranslateScanline(pIccTransform, &gray, (const uint8_t*)&color, 1); m_Gray = gray; } else { if (bObjectCMYK) { uint8_t r, g, b; AdobeCMYK_to_sRGB1(FXSYS_GetCValue(color), FXSYS_GetMValue(color), FXSYS_GetYValue(color), FXSYS_GetKValue(color), r, g, b); m_Gray = FXRGB2GRAY(r, g, b); } else { m_Gray = FXRGB2GRAY(FXARGB_R(color), FXARGB_G(color), FXARGB_B(color)); } } } return true; } if (bDeviceCMYK) { ASSERT(!m_bRgbByteOrder); composite_span = &CFX_Renderer::CompositeSpanCMYK; if (bObjectCMYK) { m_Color = FXCMYK_TODIB(color); if (pIccTransform) { uint8_t* pColor = reinterpret_cast(&m_Color); pIccModule->TranslateScanline(pIccTransform, pColor, pColor, 1); } } else { if (!pIccTransform) return false; color = FXARGB_TODIB(color); pIccModule->TranslateScanline( pIccTransform, reinterpret_cast(&m_Color), reinterpret_cast(&color), 1); } uint8_t* pColor = reinterpret_cast(&m_Color); m_Red = pColor[0]; m_Green = pColor[1]; m_Blue = pColor[2]; m_Gray = pColor[3]; } else { composite_span = (pDevice->GetFormat() == FXDIB_Argb) ? &CFX_Renderer::CompositeSpanARGB : &CFX_Renderer::CompositeSpanRGB; if (pIccTransform) { color = bObjectCMYK ? FXCMYK_TODIB(color) : FXARGB_TODIB(color); pIccModule->TranslateScanline( pIccTransform, reinterpret_cast(&m_Color), reinterpret_cast(&color), 1); uint8_t* pColor = reinterpret_cast(&m_Color); pColor[3] = m_Alpha; m_Red = pColor[2]; m_Green = pColor[1]; m_Blue = pColor[0]; if (m_bRgbByteOrder) m_Color = FXARGB_TOBGRORDERDIB(FXARGB_TODIB(m_Color)); } else { if (bObjectCMYK) { uint8_t r, g, b; AdobeCMYK_to_sRGB1(FXSYS_GetCValue(color), FXSYS_GetMValue(color), FXSYS_GetYValue(color), FXSYS_GetKValue(color), r, g, b); m_Color = FXARGB_MAKE(m_Alpha, r, g, b); if (m_bRgbByteOrder) m_Color = FXARGB_TOBGRORDERDIB(m_Color); else m_Color = FXARGB_TODIB(m_Color); m_Red = r; m_Green = g; m_Blue = b; } else { if (m_bRgbByteOrder) m_Color = FXARGB_TOBGRORDERDIB(color); else m_Color = FXARGB_TODIB(color); ArgbDecode(color, m_Alpha, m_Red, m_Green, m_Blue); } } } if (m_pDevice->GetBPP() == 1) composite_span = &CFX_Renderer::CompositeSpan1bpp; return true; } template void CFX_Renderer::render(const Scanline& sl) { if (!m_pOriDevice && !composite_span) return; int y = sl.y(); if (y < m_ClipBox.top || y >= m_ClipBox.bottom) return; uint8_t* dest_scan = m_pDevice->GetBuffer() + m_pDevice->GetPitch() * y; uint8_t* dest_scan_extra_alpha = nullptr; CFX_RetainPtr pAlphaMask = m_pDevice->m_pAlphaMask; if (pAlphaMask) { dest_scan_extra_alpha = pAlphaMask->GetBuffer() + pAlphaMask->GetPitch() * y; } uint8_t* ori_scan = nullptr; if (m_pOriDevice) ori_scan = m_pOriDevice->GetBuffer() + m_pOriDevice->GetPitch() * y; int Bpp = m_pDevice->GetBPP() / 8; bool bDestAlpha = m_pDevice->HasAlpha() || m_pDevice->IsAlphaMask(); unsigned num_spans = sl.num_spans(); typename Scanline::const_iterator span = sl.begin(); while (1) { int x = span->x; ASSERT(span->len > 0); uint8_t* dest_pos = nullptr; uint8_t* dest_extra_alpha_pos = nullptr; uint8_t* ori_pos = nullptr; if (Bpp) { ori_pos = ori_scan ? ori_scan + x * Bpp : nullptr; dest_pos = dest_scan + x * Bpp; dest_extra_alpha_pos = dest_scan_extra_alpha ? dest_scan_extra_alpha + x : nullptr; } else { dest_pos = dest_scan + x / 8; ori_pos = ori_scan ? ori_scan + x / 8 : nullptr; } uint8_t* clip_pos = nullptr; if (m_pClipMask) { clip_pos = m_pClipMask->GetBuffer() + (y - m_ClipBox.top) * m_pClipMask->GetPitch() + x - m_ClipBox.left; } if (ori_pos) { CompositeSpan(dest_pos, ori_pos, Bpp, bDestAlpha, x, span->len, span->covers, m_ClipBox.left, m_ClipBox.right, clip_pos); } else { (this->*composite_span)(dest_pos, Bpp, x, span->len, span->covers, m_ClipBox.left, m_ClipBox.right, clip_pos, dest_extra_alpha_pos); } if (--num_spans == 0) break; ++span; } } void CFX_Renderer::CompositeSpan1bppHelper(uint8_t* dest_scan, int col_start, int col_end, const uint8_t* cover_scan, const uint8_t* clip_scan, int span_left) { int index = 0; if (m_pDevice->GetPalette()) { for (int i = 0; i < 2; i++) { if (FXARGB_TODIB(m_pDevice->GetPalette()[i]) == m_Color) index = i; } } else { index = (static_cast(m_Color) == 0xff) ? 1 : 0; } uint8_t* dest_scan1 = dest_scan; for (int col = col_start; col < col_end; col++) { int src_alpha = GetSourceAlpha(cover_scan, clip_scan, col); if (src_alpha) { if (!index) *dest_scan1 &= ~(1 << (7 - (col + span_left) % 8)); else *dest_scan1 |= 1 << (7 - (col + span_left) % 8); } dest_scan1 = dest_scan + (span_left % 8 + col - col_start + 1) / 8; } } } // namespace namespace agg { template class renderer_scanline_aa_offset { public: typedef BaseRenderer base_ren_type; typedef typename base_ren_type::color_type color_type; renderer_scanline_aa_offset(base_ren_type& ren, unsigned left, unsigned top) : m_ren(&ren), m_left(left), m_top(top) {} void color(const color_type& c) { m_color = c; } const color_type& color() const { return m_color; } void prepare(unsigned) {} template void render(const Scanline& sl) { int y = sl.y(); unsigned num_spans = sl.num_spans(); typename Scanline::const_iterator span = sl.begin(); while (1) { int x = span->x; if (span->len > 0) { m_ren->blend_solid_hspan(x - m_left, y - m_top, (unsigned)span->len, m_color, span->covers); } else { m_ren->blend_hline(x - m_left, y - m_top, (unsigned)(x - span->len - 1), m_color, *(span->covers)); } if (--num_spans == 0) break; ++span; } } private: base_ren_type* m_ren; color_type m_color; unsigned m_left, m_top; }; } // namespace agg void CAgg_PathData::BuildPath(const CFX_PathData* pPathData, const CFX_Matrix* pObject2Device) { const std::vector& pPoints = pPathData->GetPoints(); for (size_t i = 0; i < pPoints.size(); i++) { CFX_PointF pos = pPoints[i].m_Point; if (pObject2Device) pos = pObject2Device->Transform(pos); pos = HardClip(pos); FXPT_TYPE point_type = pPoints[i].m_Type; if (point_type == FXPT_TYPE::MoveTo) { m_PathData.move_to(pos.x, pos.y); } else if (point_type == FXPT_TYPE::LineTo) { if (pPoints[i - 1].IsTypeAndOpen(FXPT_TYPE::MoveTo) && (i == pPoints.size() - 1 || pPoints[i + 1].IsTypeAndOpen(FXPT_TYPE::MoveTo)) && pPoints[i].m_Point == pPoints[i - 1].m_Point) { pos.x += 1; } m_PathData.line_to(pos.x, pos.y); } else if (point_type == FXPT_TYPE::BezierTo) { CFX_PointF pos0 = pPoints[i - 1].m_Point; CFX_PointF pos2 = pPoints[i + 1].m_Point; CFX_PointF pos3 = pPoints[i + 2].m_Point; if (pObject2Device) { pos0 = pObject2Device->Transform(pos0); pos2 = pObject2Device->Transform(pos2); pos3 = pObject2Device->Transform(pos3); } pos0 = HardClip(pos0); pos2 = HardClip(pos2); pos3 = HardClip(pos3); agg::curve4 curve(pos0.x, pos0.y, pos.x, pos.y, pos2.x, pos2.y, pos3.x, pos3.y); i += 2; m_PathData.add_path_curve(curve); } if (pPoints[i].m_CloseFigure) m_PathData.end_poly(); } } CFX_AggDeviceDriver::CFX_AggDeviceDriver( const CFX_RetainPtr& pBitmap, bool bRgbByteOrder, const CFX_RetainPtr& pOriDevice, bool bGroupKnockout) : m_pBitmap(pBitmap), #if _FXM_PLATFORM_ == _FXM_PLATFORM_APPLE_ m_pPlatformGraphics(nullptr), #endif m_FillFlags(0), m_bRgbByteOrder(bRgbByteOrder), m_pOriDevice(pOriDevice), m_bGroupKnockout(bGroupKnockout) { InitPlatform(); } CFX_AggDeviceDriver::~CFX_AggDeviceDriver() { DestroyPlatform(); } uint8_t* CFX_AggDeviceDriver::GetBuffer() const { return m_pBitmap->GetBuffer(); } #if _FXM_PLATFORM_ != _FXM_PLATFORM_APPLE_ void CFX_AggDeviceDriver::InitPlatform() {} void CFX_AggDeviceDriver::DestroyPlatform() {} bool CFX_AggDeviceDriver::DrawDeviceText(int nChars, const FXTEXT_CHARPOS* pCharPos, CFX_Font* pFont, const CFX_Matrix* pObject2Device, float font_size, uint32_t color) { return false; } #endif // _FXM_PLATFORM_ != _FXM_PLATFORM_APPLE_ int CFX_AggDeviceDriver::GetDeviceCaps(int caps_id) const { switch (caps_id) { case FXDC_DEVICE_CLASS: return FXDC_DISPLAY; case FXDC_PIXEL_WIDTH: return m_pBitmap->GetWidth(); case FXDC_PIXEL_HEIGHT: return m_pBitmap->GetHeight(); case FXDC_BITS_PIXEL: return m_pBitmap->GetBPP(); case FXDC_HORZ_SIZE: case FXDC_VERT_SIZE: return 0; case FXDC_RENDER_CAPS: { int flags = FXRC_GET_BITS | FXRC_ALPHA_PATH | FXRC_ALPHA_IMAGE | FXRC_BLEND_MODE | FXRC_SOFT_CLIP; if (m_pBitmap->HasAlpha()) { flags |= FXRC_ALPHA_OUTPUT; } else if (m_pBitmap->IsAlphaMask()) { if (m_pBitmap->GetBPP() == 1) flags |= FXRC_BITMASK_OUTPUT; else flags |= FXRC_BYTEMASK_OUTPUT; } if (m_pBitmap->IsCmykImage()) flags |= FXRC_CMYK_OUTPUT; return flags; } default: return 0; } } void CFX_AggDeviceDriver::SaveState() { std::unique_ptr pClip; if (m_pClipRgn) pClip = pdfium::MakeUnique(*m_pClipRgn); m_StateStack.push_back(std::move(pClip)); } void CFX_AggDeviceDriver::RestoreState(bool bKeepSaved) { m_pClipRgn.reset(); if (m_StateStack.empty()) return; if (bKeepSaved) { if (m_StateStack.back()) m_pClipRgn = pdfium::MakeUnique(*m_StateStack.back()); } else { m_pClipRgn = std::move(m_StateStack.back()); m_StateStack.pop_back(); } } void CFX_AggDeviceDriver::SetClipMask(agg::rasterizer_scanline_aa& rasterizer) { FX_RECT path_rect(rasterizer.min_x(), rasterizer.min_y(), rasterizer.max_x() + 1, rasterizer.max_y() + 1); path_rect.Intersect(m_pClipRgn->GetBox()); auto pThisLayer = pdfium::MakeRetain(); pThisLayer->Create(path_rect.Width(), path_rect.Height(), FXDIB_8bppMask); pThisLayer->Clear(0); agg::rendering_buffer raw_buf(pThisLayer->GetBuffer(), pThisLayer->GetWidth(), pThisLayer->GetHeight(), pThisLayer->GetPitch()); agg::pixfmt_gray8 pixel_buf(raw_buf); agg::renderer_base base_buf(pixel_buf); agg::renderer_scanline_aa_offset > final_render(base_buf, path_rect.left, path_rect.top); final_render.color(agg::gray8(255)); agg::scanline_u8 scanline; agg::render_scanlines(rasterizer, scanline, final_render, (m_FillFlags & FXFILL_NOPATHSMOOTH) != 0); m_pClipRgn->IntersectMaskF(path_rect.left, path_rect.top, pThisLayer); } bool CFX_AggDeviceDriver::SetClip_PathFill(const CFX_PathData* pPathData, const CFX_Matrix* pObject2Device, int fill_mode) { m_FillFlags = fill_mode; if (!m_pClipRgn) { m_pClipRgn = pdfium::MakeUnique( GetDeviceCaps(FXDC_PIXEL_WIDTH), GetDeviceCaps(FXDC_PIXEL_HEIGHT)); } size_t size = pPathData->GetPoints().size(); if (size == 5 || size == 4) { CFX_FloatRect rectf; if (pPathData->IsRect(pObject2Device, &rectf)) { rectf.Intersect(CFX_FloatRect( 0, 0, static_cast(GetDeviceCaps(FXDC_PIXEL_WIDTH)), static_cast(GetDeviceCaps(FXDC_PIXEL_HEIGHT)))); FX_RECT rect = rectf.GetOuterRect(); m_pClipRgn->IntersectRect(rect); return true; } } CAgg_PathData path_data; path_data.BuildPath(pPathData, pObject2Device); path_data.m_PathData.end_poly(); agg::rasterizer_scanline_aa rasterizer; rasterizer.clip_box(0.0f, 0.0f, static_cast(GetDeviceCaps(FXDC_PIXEL_WIDTH)), static_cast(GetDeviceCaps(FXDC_PIXEL_HEIGHT))); rasterizer.add_path(path_data.m_PathData); rasterizer.filling_rule((fill_mode & 3) == FXFILL_WINDING ? agg::fill_non_zero : agg::fill_even_odd); SetClipMask(rasterizer); return true; } bool CFX_AggDeviceDriver::SetClip_PathStroke( const CFX_PathData* pPathData, const CFX_Matrix* pObject2Device, const CFX_GraphStateData* pGraphState) { if (!m_pClipRgn) { m_pClipRgn = pdfium::MakeUnique( GetDeviceCaps(FXDC_PIXEL_WIDTH), GetDeviceCaps(FXDC_PIXEL_HEIGHT)); } CAgg_PathData path_data; path_data.BuildPath(pPathData, nullptr); agg::rasterizer_scanline_aa rasterizer; rasterizer.clip_box(0.0f, 0.0f, static_cast(GetDeviceCaps(FXDC_PIXEL_WIDTH)), static_cast(GetDeviceCaps(FXDC_PIXEL_HEIGHT))); RasterizeStroke(&rasterizer, &path_data.m_PathData, pObject2Device, pGraphState, 1.0f, false, false); rasterizer.filling_rule(agg::fill_non_zero); SetClipMask(rasterizer); return true; } int CFX_AggDeviceDriver::GetDriverType() const { return 1; } bool CFX_AggDeviceDriver::RenderRasterizer( agg::rasterizer_scanline_aa& rasterizer, uint32_t color, bool bFullCover, bool bGroupKnockout, int alpha_flag, void* pIccTransform) { CFX_RetainPtr pt = bGroupKnockout ? m_pOriDevice : nullptr; CFX_Renderer render; if (!render.Init(m_pBitmap, pt, m_pClipRgn.get(), color, bFullCover, m_bRgbByteOrder, alpha_flag, pIccTransform)) { return false; } agg::scanline_u8 scanline; agg::render_scanlines(rasterizer, scanline, render, (m_FillFlags & FXFILL_NOPATHSMOOTH) != 0); return true; } bool CFX_AggDeviceDriver::DrawPath(const CFX_PathData* pPathData, const CFX_Matrix* pObject2Device, const CFX_GraphStateData* pGraphState, uint32_t fill_color, uint32_t stroke_color, int fill_mode, int blend_type) { if (blend_type != FXDIB_BLEND_NORMAL) return false; if (!GetBuffer()) return true; m_FillFlags = fill_mode; if ((fill_mode & 3) && fill_color) { CAgg_PathData path_data; path_data.BuildPath(pPathData, pObject2Device); agg::rasterizer_scanline_aa rasterizer; rasterizer.clip_box(0.0f, 0.0f, static_cast(GetDeviceCaps(FXDC_PIXEL_WIDTH)), static_cast(GetDeviceCaps(FXDC_PIXEL_HEIGHT))); rasterizer.add_path(path_data.m_PathData); rasterizer.filling_rule((fill_mode & 3) == FXFILL_WINDING ? agg::fill_non_zero : agg::fill_even_odd); if (!RenderRasterizer(rasterizer, fill_color, !!(fill_mode & FXFILL_FULLCOVER), false, 0, nullptr)) { return false; } } int stroke_alpha = FXARGB_A(stroke_color); if (!pGraphState || !stroke_alpha) return true; if (fill_mode & FX_ZEROAREA_FILL) { CAgg_PathData path_data; path_data.BuildPath(pPathData, pObject2Device); agg::rasterizer_scanline_aa rasterizer; rasterizer.clip_box(0.0f, 0.0f, static_cast(GetDeviceCaps(FXDC_PIXEL_WIDTH)), static_cast(GetDeviceCaps(FXDC_PIXEL_HEIGHT))); RasterizeStroke(&rasterizer, &path_data.m_PathData, nullptr, pGraphState, 1, false, !!(fill_mode & FX_STROKE_TEXT_MODE)); return RenderRasterizer(rasterizer, stroke_color, !!(fill_mode & FXFILL_FULLCOVER), m_bGroupKnockout, 0, nullptr); } CFX_Matrix matrix1; CFX_Matrix matrix2; if (pObject2Device) { matrix1.a = std::max(FXSYS_fabs(pObject2Device->a), FXSYS_fabs(pObject2Device->b)); matrix1.d = matrix1.a; matrix2 = CFX_Matrix( pObject2Device->a / matrix1.a, pObject2Device->b / matrix1.a, pObject2Device->c / matrix1.d, pObject2Device->d / matrix1.d, 0, 0); CFX_Matrix mtRervese; mtRervese.SetReverse(matrix2); matrix1 = *pObject2Device; matrix1.Concat(mtRervese); } CAgg_PathData path_data; path_data.BuildPath(pPathData, &matrix1); agg::rasterizer_scanline_aa rasterizer; rasterizer.clip_box(0.0f, 0.0f, static_cast(GetDeviceCaps(FXDC_PIXEL_WIDTH)), static_cast(GetDeviceCaps(FXDC_PIXEL_HEIGHT))); RasterizeStroke(&rasterizer, &path_data.m_PathData, &matrix2, pGraphState, matrix1.a, false, !!(fill_mode & FX_STROKE_TEXT_MODE)); return RenderRasterizer(rasterizer, stroke_color, !!(fill_mode & FXFILL_FULLCOVER), m_bGroupKnockout, 0, nullptr); } bool CFX_AggDeviceDriver::SetPixel(int x, int y, uint32_t color) { if (!m_pBitmap->GetBuffer()) return true; if (!m_pClipRgn) { if (!m_bRgbByteOrder) return DibSetPixel(m_pBitmap, x, y, color, 0, nullptr); RgbByteOrderSetPixel(m_pBitmap, x, y, color); return true; } if (!m_pClipRgn->GetBox().Contains(x, y)) return true; if (m_pClipRgn->GetType() == CFX_ClipRgn::RectI) { if (!m_bRgbByteOrder) return DibSetPixel(m_pBitmap, x, y, color, 0, nullptr); RgbByteOrderSetPixel(m_pBitmap, x, y, color); return true; } if (m_pClipRgn->GetType() != CFX_ClipRgn::MaskF) return true; int new_alpha = FXARGB_A(color) * m_pClipRgn->GetMask()->GetScanline(y)[x] / 255; color = (color & 0xffffff) | (new_alpha << 24); if (m_bRgbByteOrder) { RgbByteOrderSetPixel(m_pBitmap, x, y, color); return true; } return DibSetPixel(m_pBitmap, x, y, color, 0, nullptr); } bool CFX_AggDeviceDriver::FillRectWithBlend(const FX_RECT* pRect, uint32_t fill_color, int blend_type) { if (blend_type != FXDIB_BLEND_NORMAL) return false; if (!m_pBitmap->GetBuffer()) return true; FX_RECT clip_rect; GetClipBox(&clip_rect); FX_RECT draw_rect = clip_rect; if (pRect) draw_rect.Intersect(*pRect); if (draw_rect.IsEmpty()) return true; if (!m_pClipRgn || m_pClipRgn->GetType() == CFX_ClipRgn::RectI) { if (m_bRgbByteOrder) { RgbByteOrderCompositeRect(m_pBitmap, draw_rect.left, draw_rect.top, draw_rect.Width(), draw_rect.Height(), fill_color); } else { m_pBitmap->CompositeRect(draw_rect.left, draw_rect.top, draw_rect.Width(), draw_rect.Height(), fill_color, 0, nullptr); } return true; } m_pBitmap->CompositeMask(draw_rect.left, draw_rect.top, draw_rect.Width(), draw_rect.Height(), m_pClipRgn->GetMask(), fill_color, draw_rect.left - clip_rect.left, draw_rect.top - clip_rect.top, FXDIB_BLEND_NORMAL, nullptr, m_bRgbByteOrder, 0, nullptr); return true; } bool CFX_AggDeviceDriver::GetClipBox(FX_RECT* pRect) { if (!m_pClipRgn) { pRect->left = pRect->top = 0; pRect->right = GetDeviceCaps(FXDC_PIXEL_WIDTH); pRect->bottom = GetDeviceCaps(FXDC_PIXEL_HEIGHT); return true; } *pRect = m_pClipRgn->GetBox(); return true; } bool CFX_AggDeviceDriver::GetDIBits(const CFX_RetainPtr& pBitmap, int left, int top) { if (!m_pBitmap || !m_pBitmap->GetBuffer()) return true; FX_RECT rect(left, top, left + pBitmap->GetWidth(), top + pBitmap->GetHeight()); CFX_RetainPtr pBack; if (m_pOriDevice) { pBack = m_pOriDevice->Clone(&rect); if (!pBack) return true; pBack->CompositeBitmap(0, 0, pBack->GetWidth(), pBack->GetHeight(), m_pBitmap, 0, 0); } else { pBack = m_pBitmap->Clone(&rect); if (!pBack) return true; } left = std::min(left, 0); top = std::min(top, 0); if (m_bRgbByteOrder) { RgbByteOrderTransferBitmap(pBitmap, 0, 0, rect.Width(), rect.Height(), pBack, left, top); return true; } return pBitmap->TransferBitmap(0, 0, rect.Width(), rect.Height(), pBack, left, top); } CFX_RetainPtr CFX_AggDeviceDriver::GetBackDrop() { return m_pOriDevice; } bool CFX_AggDeviceDriver::SetDIBits(const CFX_RetainPtr& pBitmap, uint32_t argb, const FX_RECT* pSrcRect, int left, int top, int blend_type) { if (!m_pBitmap->GetBuffer()) return true; if (pBitmap->IsAlphaMask()) { return m_pBitmap->CompositeMask( left, top, pSrcRect->Width(), pSrcRect->Height(), pBitmap, argb, pSrcRect->left, pSrcRect->top, blend_type, m_pClipRgn.get(), m_bRgbByteOrder, 0, nullptr); } return m_pBitmap->CompositeBitmap( left, top, pSrcRect->Width(), pSrcRect->Height(), pBitmap, pSrcRect->left, pSrcRect->top, blend_type, m_pClipRgn.get(), m_bRgbByteOrder, nullptr); } bool CFX_AggDeviceDriver::StretchDIBits( const CFX_RetainPtr& pSource, uint32_t argb, int dest_left, int dest_top, int dest_width, int dest_height, const FX_RECT* pClipRect, uint32_t flags, int blend_type) { if (!m_pBitmap->GetBuffer()) return true; if (dest_width == pSource->GetWidth() && dest_height == pSource->GetHeight()) { FX_RECT rect(0, 0, dest_width, dest_height); return SetDIBits(pSource, argb, &rect, dest_left, dest_top, blend_type); } FX_RECT dest_rect(dest_left, dest_top, dest_left + dest_width, dest_top + dest_height); dest_rect.Normalize(); FX_RECT dest_clip = dest_rect; dest_clip.Intersect(*pClipRect); CFX_BitmapComposer composer; composer.Compose(m_pBitmap, m_pClipRgn.get(), 255, argb, dest_clip, false, false, false, m_bRgbByteOrder, 0, nullptr, blend_type); dest_clip.Offset(-dest_rect.left, -dest_rect.top); CFX_ImageStretcher stretcher(&composer, pSource, dest_width, dest_height, dest_clip, flags); if (stretcher.Start()) stretcher.Continue(nullptr); return true; } bool CFX_AggDeviceDriver::StartDIBits( const CFX_RetainPtr& pSource, int bitmap_alpha, uint32_t argb, const CFX_Matrix* pMatrix, uint32_t render_flags, void*& handle, int blend_type) { if (!m_pBitmap->GetBuffer()) return true; CFX_ImageRenderer* pRenderer = new CFX_ImageRenderer; pRenderer->Start(m_pBitmap, m_pClipRgn.get(), pSource, bitmap_alpha, argb, pMatrix, render_flags, m_bRgbByteOrder, 0, nullptr); handle = pRenderer; return true; } bool CFX_AggDeviceDriver::ContinueDIBits(void* pHandle, IFX_Pause* pPause) { return m_pBitmap->GetBuffer() ? reinterpret_cast(pHandle)->Continue(pPause) : true; } void CFX_AggDeviceDriver::CancelDIBits(void* pHandle) { if (!m_pBitmap->GetBuffer()) return; delete reinterpret_cast(pHandle); } #ifndef _SKIA_SUPPORT_ CFX_FxgeDevice::CFX_FxgeDevice() {} CFX_FxgeDevice::~CFX_FxgeDevice() {} bool CFX_FxgeDevice::Attach(const CFX_RetainPtr& pBitmap, bool bRgbByteOrder, const CFX_RetainPtr& pOriDevice, bool bGroupKnockout) { if (!pBitmap) return false; SetBitmap(pBitmap); SetDeviceDriver(pdfium::MakeUnique( pBitmap, bRgbByteOrder, pOriDevice, bGroupKnockout)); return true; } bool CFX_FxgeDevice::Create(int width, int height, FXDIB_Format format, const CFX_RetainPtr& pOriDevice) { auto pBitmap = pdfium::MakeRetain(); if (!pBitmap->Create(width, height, format)) return false; SetBitmap(pBitmap); SetDeviceDriver(pdfium::MakeUnique(pBitmap, false, pOriDevice, false)); return true; } #endif