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|
// 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 <crtdbg.h>
#include <algorithm>
#include <memory>
#include <vector>
#include "core/fxcodec/fx_codec.h"
#include "core/fxcrt/cfx_maybe_owned.h"
#include "core/fxcrt/fx_memory.h"
#include "core/fxcrt/fx_system.h"
#include "core/fxge/cfx_fontmapper.h"
#include "core/fxge/cfx_gemodule.h"
#include "core/fxge/cfx_graphstatedata.h"
#include "core/fxge/cfx_pathdata.h"
#include "core/fxge/cfx_windowsdevice.h"
#include "core/fxge/dib/dib_int.h"
#include "core/fxge/fx_font.h"
#include "core/fxge/fx_freetype.h"
#include "core/fxge/ge/cfx_folderfontinfo.h"
#include "core/fxge/ge/fx_text_int.h"
#include "core/fxge/ifx_systemfontinfo.h"
#include "core/fxge/win32/cfx_windowsdib.h"
#include "core/fxge/win32/dwrite_int.h"
#include "core/fxge/win32/win32_int.h"
#include "third_party/base/ptr_util.h"
#include "third_party/base/stl_util.h"
#ifndef _SKIA_SUPPORT_
#include "core/fxge/agg/fx_agg_driver.h"
#endif
namespace {
const struct {
const FX_CHAR* m_pFaceName;
const FX_CHAR* m_pVariantName;
} g_VariantNames[] = {
{"DFKai-SB", "\x19\x6A\x77\x69\xD4\x9A"},
};
const struct {
const FX_CHAR* m_pName;
const FX_CHAR* m_pWinName;
bool m_bBold;
bool m_bItalic;
} g_Base14Substs[] = {
{"Courier", "Courier New", false, false},
{"Courier-Bold", "Courier New", true, false},
{"Courier-BoldOblique", "Courier New", true, true},
{"Courier-Oblique", "Courier New", false, true},
{"Helvetica", "Arial", false, false},
{"Helvetica-Bold", "Arial", true, false},
{"Helvetica-BoldOblique", "Arial", true, true},
{"Helvetica-Oblique", "Arial", false, true},
{"Times-Roman", "Times New Roman", false, false},
{"Times-Bold", "Times New Roman", true, false},
{"Times-BoldItalic", "Times New Roman", true, true},
{"Times-Italic", "Times New Roman", false, true},
};
struct FontNameMap {
const FX_CHAR* m_pSubFontName;
const FX_CHAR* m_pSrcFontName;
};
const FontNameMap g_JpFontNameMap[] = {
{"MS Mincho", "Heiseimin-W3"},
{"MS Gothic", "Jun101-Light"},
};
bool GetSubFontName(CFX_ByteString* name) {
for (size_t i = 0; i < FX_ArraySize(g_JpFontNameMap); ++i) {
if (!FXSYS_stricmp(name->c_str(), g_JpFontNameMap[i].m_pSrcFontName)) {
*name = g_JpFontNameMap[i].m_pSubFontName;
return true;
}
}
return false;
}
bool IsGDIEnabled() {
// If GDI is disabled then GetDC for the desktop will fail.
HDC hdc = ::GetDC(nullptr);
if (!hdc)
return false;
::ReleaseDC(nullptr, hdc);
return true;
}
HPEN CreatePen(const CFX_GraphStateData* pGraphState,
const CFX_Matrix* pMatrix,
uint32_t argb) {
FX_FLOAT width;
FX_FLOAT scale = 1.f;
if (pMatrix)
scale = FXSYS_fabs(pMatrix->a) > FXSYS_fabs(pMatrix->b)
? FXSYS_fabs(pMatrix->a)
: FXSYS_fabs(pMatrix->b);
if (pGraphState) {
width = scale * pGraphState->m_LineWidth;
} else {
width = 1.0f;
}
uint32_t PenStyle = PS_GEOMETRIC;
if (width < 1) {
width = 1;
}
if (pGraphState->m_DashCount) {
PenStyle |= PS_USERSTYLE;
} else {
PenStyle |= PS_SOLID;
}
switch (pGraphState->m_LineCap) {
case 0:
PenStyle |= PS_ENDCAP_FLAT;
break;
case 1:
PenStyle |= PS_ENDCAP_ROUND;
break;
case 2:
PenStyle |= PS_ENDCAP_SQUARE;
break;
}
switch (pGraphState->m_LineJoin) {
case 0:
PenStyle |= PS_JOIN_MITER;
break;
case 1:
PenStyle |= PS_JOIN_ROUND;
break;
case 2:
PenStyle |= PS_JOIN_BEVEL;
break;
}
int a;
FX_COLORREF rgb;
ArgbDecode(argb, a, rgb);
LOGBRUSH lb;
lb.lbColor = rgb;
lb.lbStyle = BS_SOLID;
lb.lbHatch = 0;
std::vector<uint32_t> dashes;
if (pGraphState->m_DashCount) {
dashes.resize(pGraphState->m_DashCount);
for (int i = 0; i < pGraphState->m_DashCount; i++) {
dashes[i] = FXSYS_round(
pMatrix ? pMatrix->TransformDistance(pGraphState->m_DashArray[i])
: pGraphState->m_DashArray[i]);
dashes[i] = std::max(dashes[i], 1U);
}
}
return ExtCreatePen(PenStyle, (DWORD)FXSYS_ceil(width), &lb,
pGraphState->m_DashCount,
reinterpret_cast<const DWORD*>(dashes.data()));
}
HBRUSH CreateBrush(uint32_t argb) {
int a;
FX_COLORREF rgb;
ArgbDecode(argb, a, rgb);
return CreateSolidBrush(rgb);
}
void SetPathToDC(HDC hDC,
const CFX_PathData* pPathData,
const CFX_Matrix* pMatrix) {
BeginPath(hDC);
int nPoints = pPathData->GetPointCount();
FX_PATHPOINT* pPoints = pPathData->GetPoints();
for (int i = 0; i < nPoints; i++) {
FX_FLOAT posx = pPoints[i].m_PointX, posy = pPoints[i].m_PointY;
if (pMatrix) {
pMatrix->Transform(posx, posy);
}
int screen_x = FXSYS_round(posx), screen_y = FXSYS_round(posy);
int point_type = pPoints[i].m_Flag & FXPT_TYPE;
if (point_type == PT_MOVETO) {
MoveToEx(hDC, screen_x, screen_y, nullptr);
} else if (point_type == PT_LINETO) {
if (pPoints[i].m_PointY == pPoints[i - 1].m_PointY &&
pPoints[i].m_PointX == pPoints[i - 1].m_PointX) {
screen_x++;
}
LineTo(hDC, screen_x, screen_y);
} else if (point_type == PT_BEZIERTO) {
POINT lppt[3];
lppt[0].x = screen_x;
lppt[0].y = screen_y;
posx = pPoints[i + 1].m_PointX;
posy = pPoints[i + 1].m_PointY;
if (pMatrix) {
pMatrix->Transform(posx, posy);
}
lppt[1].x = FXSYS_round(posx);
lppt[1].y = FXSYS_round(posy);
posx = pPoints[i + 2].m_PointX;
posy = pPoints[i + 2].m_PointY;
if (pMatrix) {
pMatrix->Transform(posx, posy);
}
lppt[2].x = FXSYS_round(posx);
lppt[2].y = FXSYS_round(posy);
PolyBezierTo(hDC, lppt, 3);
i += 2;
}
if (pPoints[i].m_Flag & PT_CLOSEFIGURE) {
CloseFigure(hDC);
}
}
EndPath(hDC);
}
#ifdef _SKIA_SUPPORT_
// TODO(caryclark) This antigrain function is duplicated here to permit
// removing the last remaining dependency. Eventually, this will be elminiated
// altogether and replace by Skia code.
struct rect_base {
FX_FLOAT x1;
FX_FLOAT y1;
FX_FLOAT x2;
FX_FLOAT y2;
};
unsigned clip_liang_barsky(FX_FLOAT x1,
FX_FLOAT y1,
FX_FLOAT x2,
FX_FLOAT y2,
const rect_base& clip_box,
FX_FLOAT* x,
FX_FLOAT* y) {
const FX_FLOAT nearzero = 1e-30f;
FX_FLOAT deltax = x2 - x1;
FX_FLOAT deltay = y2 - y1;
unsigned np = 0;
if (deltax == 0)
deltax = (x1 > clip_box.x1) ? -nearzero : nearzero;
FX_FLOAT xin, xout;
if (deltax > 0) {
xin = clip_box.x1;
xout = clip_box.x2;
} else {
xin = clip_box.x2;
xout = clip_box.x1;
}
FX_FLOAT tinx = (xin - x1) / deltax;
if (deltay == 0)
deltay = (y1 > clip_box.y1) ? -nearzero : nearzero;
FX_FLOAT yin, yout;
if (deltay > 0) {
yin = clip_box.y1;
yout = clip_box.y2;
} else {
yin = clip_box.y2;
yout = clip_box.y1;
}
FX_FLOAT tiny = (yin - y1) / deltay;
FX_FLOAT tin1, tin2;
if (tinx < tiny) {
tin1 = tinx;
tin2 = tiny;
} else {
tin1 = tiny;
tin2 = tinx;
}
if (tin1 <= 1.0f) {
if (0 < tin1) {
*x++ = xin;
*y++ = yin;
++np;
}
if (tin2 <= 1.0f) {
FX_FLOAT toutx = (xout - x1) / deltax;
FX_FLOAT touty = (yout - y1) / deltay;
FX_FLOAT tout1 = (toutx < touty) ? toutx : touty;
if (tin2 > 0 || tout1 > 0) {
if (tin2 <= tout1) {
if (tin2 > 0) {
if (tinx > tiny) {
*x++ = xin;
*y++ = y1 + (deltay * tinx);
} else {
*x++ = x1 + (deltax * tiny);
*y++ = yin;
}
++np;
}
if (tout1 < 1.0f) {
if (toutx < touty) {
*x++ = xout;
*y++ = y1 + (deltay * toutx);
} else {
*x++ = x1 + (deltax * touty);
*y++ = yout;
}
} else {
*x++ = x2;
*y++ = y2;
}
++np;
} else {
if (tinx > tiny) {
*x++ = xin;
*y++ = yout;
} else {
*x++ = xout;
*y++ = yin;
}
++np;
}
}
}
}
return np;
}
#endif // _SKIA_SUPPORT_
bool MatrixNoScaled(const CFX_Matrix* pMatrix) {
return pMatrix->GetA() == 1.0f && pMatrix->GetB() == 0 &&
pMatrix->GetC() == 0 && pMatrix->GetD() == 1.0f;
}
class CFX_Win32FallbackFontInfo final : public CFX_FolderFontInfo {
public:
CFX_Win32FallbackFontInfo() {}
~CFX_Win32FallbackFontInfo() override {}
// CFX_FolderFontInfo:
void* MapFont(int weight,
bool bItalic,
int charset,
int pitch_family,
const FX_CHAR* family,
int& iExact) override;
};
class CFX_Win32FontInfo final : public IFX_SystemFontInfo {
public:
CFX_Win32FontInfo();
~CFX_Win32FontInfo() override;
// IFX_SystemFontInfo
bool EnumFontList(CFX_FontMapper* pMapper) override;
void* MapFont(int weight,
bool bItalic,
int charset,
int pitch_family,
const FX_CHAR* face,
int& iExact) override;
void* GetFont(const FX_CHAR* face) override { return nullptr; }
uint32_t GetFontData(void* hFont,
uint32_t table,
uint8_t* buffer,
uint32_t size) override;
bool GetFaceName(void* hFont, CFX_ByteString& name) override;
bool GetFontCharset(void* hFont, int& charset) override;
void DeleteFont(void* hFont) override;
bool IsOpenTypeFromDiv(const LOGFONTA* plf);
bool IsSupportFontFormDiv(const LOGFONTA* plf);
void AddInstalledFont(const LOGFONTA* plf, uint32_t FontType);
void GetGBPreference(CFX_ByteString& face, int weight, int picth_family);
void GetJapanesePreference(CFX_ByteString& face,
int weight,
int picth_family);
CFX_ByteString FindFont(const CFX_ByteString& name);
HDC m_hDC;
CFX_FontMapper* m_pMapper;
CFX_ByteString m_LastFamily;
CFX_ByteString m_KaiTi, m_FangSong;
};
int CALLBACK FontEnumProc(const LOGFONTA* plf,
const TEXTMETRICA* lpntme,
uint32_t FontType,
LPARAM lParam) {
CFX_Win32FontInfo* pFontInfo = reinterpret_cast<CFX_Win32FontInfo*>(lParam);
pFontInfo->AddInstalledFont(plf, FontType);
return 1;
}
CFX_Win32FontInfo::CFX_Win32FontInfo() : m_hDC(CreateCompatibleDC(nullptr)) {}
CFX_Win32FontInfo::~CFX_Win32FontInfo() {
DeleteDC(m_hDC);
}
bool CFX_Win32FontInfo::IsOpenTypeFromDiv(const LOGFONTA* plf) {
HFONT hFont = CreateFontIndirectA(plf);
bool ret = false;
uint32_t font_size = GetFontData(hFont, 0, nullptr, 0);
if (font_size != GDI_ERROR && font_size >= sizeof(uint32_t)) {
uint32_t lVersion = 0;
GetFontData(hFont, 0, (uint8_t*)(&lVersion), sizeof(uint32_t));
lVersion = (((uint32_t)(uint8_t)(lVersion)) << 24) |
((uint32_t)((uint8_t)(lVersion >> 8))) << 16 |
((uint32_t)((uint8_t)(lVersion >> 16))) << 8 |
((uint8_t)(lVersion >> 24));
if (lVersion == FXBSTR_ID('O', 'T', 'T', 'O') || lVersion == 0x00010000 ||
lVersion == FXBSTR_ID('t', 't', 'c', 'f') ||
lVersion == FXBSTR_ID('t', 'r', 'u', 'e') || lVersion == 0x00020000) {
ret = true;
}
}
DeleteFont(hFont);
return ret;
}
bool CFX_Win32FontInfo::IsSupportFontFormDiv(const LOGFONTA* plf) {
HFONT hFont = CreateFontIndirectA(plf);
bool ret = false;
uint32_t font_size = GetFontData(hFont, 0, nullptr, 0);
if (font_size != GDI_ERROR && font_size >= sizeof(uint32_t)) {
uint32_t lVersion = 0;
GetFontData(hFont, 0, (uint8_t*)(&lVersion), sizeof(uint32_t));
lVersion = (((uint32_t)(uint8_t)(lVersion)) << 24) |
((uint32_t)((uint8_t)(lVersion >> 8))) << 16 |
((uint32_t)((uint8_t)(lVersion >> 16))) << 8 |
((uint8_t)(lVersion >> 24));
if (lVersion == FXBSTR_ID('O', 'T', 'T', 'O') || lVersion == 0x00010000 ||
lVersion == FXBSTR_ID('t', 't', 'c', 'f') ||
lVersion == FXBSTR_ID('t', 'r', 'u', 'e') || lVersion == 0x00020000 ||
(lVersion & 0xFFFF0000) == FXBSTR_ID(0x80, 0x01, 0x00, 0x00) ||
(lVersion & 0xFFFF0000) == FXBSTR_ID('%', '!', 0, 0)) {
ret = true;
}
}
DeleteFont(hFont);
return ret;
}
void CFX_Win32FontInfo::AddInstalledFont(const LOGFONTA* plf,
uint32_t FontType) {
CFX_ByteString name(plf->lfFaceName);
if (name[0] == '@')
return;
if (name == m_LastFamily) {
m_pMapper->AddInstalledFont(name, plf->lfCharSet);
return;
}
if (!(FontType & TRUETYPE_FONTTYPE)) {
if (!(FontType & DEVICE_FONTTYPE) || !IsSupportFontFormDiv(plf))
return;
}
m_pMapper->AddInstalledFont(name, plf->lfCharSet);
m_LastFamily = name;
}
bool CFX_Win32FontInfo::EnumFontList(CFX_FontMapper* pMapper) {
m_pMapper = pMapper;
LOGFONTA lf;
FXSYS_memset(&lf, 0, sizeof(LOGFONTA));
lf.lfCharSet = FXFONT_DEFAULT_CHARSET;
lf.lfFaceName[0] = 0;
lf.lfPitchAndFamily = 0;
EnumFontFamiliesExA(m_hDC, &lf, (FONTENUMPROCA)FontEnumProc, (uintptr_t) this,
0);
return true;
}
CFX_ByteString CFX_Win32FontInfo::FindFont(const CFX_ByteString& name) {
if (!m_pMapper)
return name;
for (size_t i = 0; i < m_pMapper->m_InstalledTTFonts.size(); ++i) {
CFX_ByteString thisname = m_pMapper->m_InstalledTTFonts[i];
if (thisname.Left(name.GetLength()) == name)
return m_pMapper->m_InstalledTTFonts[i];
}
for (size_t i = 0; i < m_pMapper->m_LocalizedTTFonts.size(); ++i) {
CFX_ByteString thisname = m_pMapper->m_LocalizedTTFonts[i].first;
if (thisname.Left(name.GetLength()) == name)
return m_pMapper->m_LocalizedTTFonts[i].second;
}
return CFX_ByteString();
}
void* CFX_Win32FallbackFontInfo::MapFont(int weight,
bool bItalic,
int charset,
int pitch_family,
const FX_CHAR* cstr_face,
int& iExact) {
void* font = GetSubstFont(cstr_face);
if (font) {
iExact = 1;
return font;
}
bool bCJK = true;
switch (charset) {
case FXFONT_SHIFTJIS_CHARSET:
case FXFONT_GB2312_CHARSET:
case FXFONT_CHINESEBIG5_CHARSET:
case FXFONT_HANGUL_CHARSET:
break;
default:
bCJK = false;
break;
}
return FindFont(weight, bItalic, charset, pitch_family, cstr_face, !bCJK);
}
void CFX_Win32FontInfo::GetGBPreference(CFX_ByteString& face,
int weight,
int picth_family) {
if (face.Find("KaiTi") >= 0 || face.Find("\xbf\xac") >= 0) {
if (m_KaiTi.IsEmpty()) {
m_KaiTi = FindFont("KaiTi");
if (m_KaiTi.IsEmpty()) {
m_KaiTi = "SimSun";
}
}
face = m_KaiTi;
} else if (face.Find("FangSong") >= 0 || face.Find("\xb7\xc2\xcb\xce") >= 0) {
if (m_FangSong.IsEmpty()) {
m_FangSong = FindFont("FangSong");
if (m_FangSong.IsEmpty()) {
m_FangSong = "SimSun";
}
}
face = m_FangSong;
} else if (face.Find("SimSun") >= 0 || face.Find("\xcb\xce") >= 0) {
face = "SimSun";
} else if (face.Find("SimHei") >= 0 || face.Find("\xba\xda") >= 0) {
face = "SimHei";
} else if (!(picth_family & FF_ROMAN) && weight > 550) {
face = "SimHei";
} else {
face = "SimSun";
}
}
void CFX_Win32FontInfo::GetJapanesePreference(CFX_ByteString& face,
int weight,
int picth_family) {
if (face.Find("Gothic") >= 0 ||
face.Find("\x83\x53\x83\x56\x83\x62\x83\x4e") >= 0) {
if (face.Find("PGothic") >= 0 ||
face.Find("\x82\x6f\x83\x53\x83\x56\x83\x62\x83\x4e") >= 0) {
face = "MS PGothic";
} else if (face.Find("UI Gothic") >= 0) {
face = "MS UI Gothic";
} else {
if (face.Find("HGSGothicM") >= 0 || face.Find("HGMaruGothicMPRO") >= 0) {
face = "MS PGothic";
} else {
face = "MS Gothic";
}
}
return;
}
if (face.Find("Mincho") >= 0 || face.Find("\x96\xbe\x92\xa9") >= 0) {
if (face.Find("PMincho") >= 0 ||
face.Find("\x82\x6f\x96\xbe\x92\xa9") >= 0) {
face = "MS PMincho";
} else {
face = "MS Mincho";
}
return;
}
if (GetSubFontName(&face))
return;
if (!(picth_family & FF_ROMAN) && weight > 400) {
face = "MS PGothic";
} else {
face = "MS PMincho";
}
}
void* CFX_Win32FontInfo::MapFont(int weight,
bool bItalic,
int charset,
int pitch_family,
const FX_CHAR* cstr_face,
int& iExact) {
CFX_ByteString face = cstr_face;
int iBaseFont;
for (iBaseFont = 0; iBaseFont < 12; iBaseFont++)
if (face == CFX_ByteStringC(g_Base14Substs[iBaseFont].m_pName)) {
face = g_Base14Substs[iBaseFont].m_pWinName;
weight = g_Base14Substs[iBaseFont].m_bBold ? FW_BOLD : FW_NORMAL;
bItalic = g_Base14Substs[iBaseFont].m_bItalic;
iExact = true;
break;
}
if (charset == FXFONT_ANSI_CHARSET || charset == FXFONT_SYMBOL_CHARSET) {
charset = FXFONT_DEFAULT_CHARSET;
}
int subst_pitch_family = pitch_family;
switch (charset) {
case FXFONT_SHIFTJIS_CHARSET:
subst_pitch_family = FF_ROMAN;
break;
case FXFONT_CHINESEBIG5_CHARSET:
case FXFONT_HANGUL_CHARSET:
case FXFONT_GB2312_CHARSET:
subst_pitch_family = 0;
break;
}
HFONT hFont =
::CreateFontA(-10, 0, 0, 0, weight, bItalic, 0, 0, charset,
OUT_TT_ONLY_PRECIS, 0, 0, subst_pitch_family, face.c_str());
char facebuf[100];
HFONT hOldFont = (HFONT)::SelectObject(m_hDC, hFont);
::GetTextFaceA(m_hDC, 100, facebuf);
::SelectObject(m_hDC, hOldFont);
if (face.EqualNoCase(facebuf))
return hFont;
CFX_WideString wsFace = CFX_WideString::FromLocal(facebuf);
for (size_t i = 0; i < FX_ArraySize(g_VariantNames); ++i) {
if (face != g_VariantNames[i].m_pFaceName)
continue;
const unsigned short* pName = reinterpret_cast<const unsigned short*>(
g_VariantNames[i].m_pVariantName);
FX_STRSIZE len = CFX_WideString::WStringLength(pName);
CFX_WideString wsName = CFX_WideString::FromUTF16LE(pName, len);
if (wsFace == wsName)
return hFont;
}
::DeleteObject(hFont);
if (charset == FXFONT_DEFAULT_CHARSET)
return nullptr;
switch (charset) {
case FXFONT_SHIFTJIS_CHARSET:
GetJapanesePreference(face, weight, pitch_family);
break;
case FXFONT_GB2312_CHARSET:
GetGBPreference(face, weight, pitch_family);
break;
case FXFONT_HANGUL_CHARSET:
face = "Gulim";
break;
case FXFONT_CHINESEBIG5_CHARSET:
if (face.Find("MSung") >= 0) {
face = "MingLiU";
} else {
face = "PMingLiU";
}
break;
}
hFont =
::CreateFontA(-10, 0, 0, 0, weight, bItalic, 0, 0, charset,
OUT_TT_ONLY_PRECIS, 0, 0, subst_pitch_family, face.c_str());
return hFont;
}
void CFX_Win32FontInfo::DeleteFont(void* hFont) {
::DeleteObject(hFont);
}
uint32_t CFX_Win32FontInfo::GetFontData(void* hFont,
uint32_t table,
uint8_t* buffer,
uint32_t size) {
HFONT hOldFont = (HFONT)::SelectObject(m_hDC, (HFONT)hFont);
table = FXDWORD_GET_MSBFIRST(reinterpret_cast<uint8_t*>(&table));
size = ::GetFontData(m_hDC, table, 0, buffer, size);
::SelectObject(m_hDC, hOldFont);
if (size == GDI_ERROR) {
return 0;
}
return size;
}
bool CFX_Win32FontInfo::GetFaceName(void* hFont, CFX_ByteString& name) {
char facebuf[100];
HFONT hOldFont = (HFONT)::SelectObject(m_hDC, (HFONT)hFont);
int ret = ::GetTextFaceA(m_hDC, 100, facebuf);
::SelectObject(m_hDC, hOldFont);
if (ret == 0) {
return false;
}
name = facebuf;
return true;
}
bool CFX_Win32FontInfo::GetFontCharset(void* hFont, int& charset) {
TEXTMETRIC tm;
HFONT hOldFont = (HFONT)::SelectObject(m_hDC, (HFONT)hFont);
::GetTextMetrics(m_hDC, &tm);
::SelectObject(m_hDC, hOldFont);
charset = tm.tmCharSet;
return true;
}
} // namespace
std::unique_ptr<IFX_SystemFontInfo> IFX_SystemFontInfo::CreateDefault(
const char** pUnused) {
if (IsGDIEnabled())
return std::unique_ptr<IFX_SystemFontInfo>(new CFX_Win32FontInfo);
// Select the fallback font information class if GDI is disabled.
CFX_Win32FallbackFontInfo* pInfoFallback = new CFX_Win32FallbackFontInfo;
// Construct the font path manually, SHGetKnownFolderPath won't work under
// a restrictive sandbox.
CHAR windows_path[MAX_PATH] = {};
DWORD path_len = ::GetWindowsDirectoryA(windows_path, MAX_PATH);
if (path_len > 0 && path_len < MAX_PATH) {
CFX_ByteString fonts_path(windows_path);
fonts_path += "\\Fonts";
pInfoFallback->AddPath(fonts_path.AsStringC());
}
return std::unique_ptr<IFX_SystemFontInfo>(pInfoFallback);
}
void CFX_GEModule::InitPlatform() {
CWin32Platform* pPlatformData = new CWin32Platform;
OSVERSIONINFO ver;
ver.dwOSVersionInfoSize = sizeof(ver);
GetVersionEx(&ver);
pPlatformData->m_bHalfTone = ver.dwMajorVersion >= 5;
if (IsGDIEnabled())
pPlatformData->m_GdiplusExt.Load();
m_pPlatformData = pPlatformData;
m_pFontMgr->SetSystemFontInfo(IFX_SystemFontInfo::CreateDefault(nullptr));
}
void CFX_GEModule::DestroyPlatform() {
delete (CWin32Platform*)m_pPlatformData;
m_pPlatformData = nullptr;
}
CGdiDeviceDriver::CGdiDeviceDriver(HDC hDC, int device_class) {
m_hDC = hDC;
m_DeviceClass = device_class;
CWin32Platform* pPlatform =
(CWin32Platform*)CFX_GEModule::Get()->GetPlatformData();
SetStretchBltMode(hDC, pPlatform->m_bHalfTone ? HALFTONE : COLORONCOLOR);
DWORD obj_type = GetObjectType(m_hDC);
m_bMetafileDCType = obj_type == OBJ_ENHMETADC || obj_type == OBJ_ENHMETAFILE;
if (obj_type == OBJ_MEMDC) {
HBITMAP hBitmap = CreateBitmap(1, 1, 1, 1, nullptr);
hBitmap = (HBITMAP)SelectObject(m_hDC, hBitmap);
BITMAP bitmap;
GetObject(hBitmap, sizeof bitmap, &bitmap);
m_nBitsPerPixel = bitmap.bmBitsPixel;
m_Width = bitmap.bmWidth;
m_Height = abs(bitmap.bmHeight);
hBitmap = (HBITMAP)SelectObject(m_hDC, hBitmap);
DeleteObject(hBitmap);
} else {
m_nBitsPerPixel = ::GetDeviceCaps(m_hDC, BITSPIXEL);
m_Width = ::GetDeviceCaps(m_hDC, HORZRES);
m_Height = ::GetDeviceCaps(m_hDC, VERTRES);
}
if (m_DeviceClass != FXDC_DISPLAY) {
m_RenderCaps = FXRC_BIT_MASK;
} else {
m_RenderCaps = FXRC_GET_BITS | FXRC_BIT_MASK;
}
}
CGdiDeviceDriver::~CGdiDeviceDriver() {}
int CGdiDeviceDriver::GetDeviceCaps(int caps_id) const {
switch (caps_id) {
case FXDC_DEVICE_CLASS:
return m_DeviceClass;
case FXDC_PIXEL_WIDTH:
return m_Width;
case FXDC_PIXEL_HEIGHT:
return m_Height;
case FXDC_BITS_PIXEL:
return m_nBitsPerPixel;
case FXDC_RENDER_CAPS:
return m_RenderCaps;
}
return 0;
}
void CGdiDeviceDriver::SaveState() {
SaveDC(m_hDC);
}
void CGdiDeviceDriver::RestoreState(bool bKeepSaved) {
RestoreDC(m_hDC, -1);
if (bKeepSaved)
SaveDC(m_hDC);
}
bool CGdiDeviceDriver::GDI_SetDIBits(CFX_DIBitmap* pBitmap1,
const FX_RECT* pSrcRect,
int left,
int top) {
if (m_DeviceClass == FXDC_PRINTER) {
std::unique_ptr<CFX_DIBitmap> pBitmap = pBitmap1->FlipImage(false, true);
if (!pBitmap)
return false;
if (pBitmap->IsCmykImage() && !pBitmap->ConvertFormat(FXDIB_Rgb))
return false;
int width = pSrcRect->Width(), height = pSrcRect->Height();
LPBYTE pBuffer = pBitmap->GetBuffer();
CFX_ByteString info = CFX_WindowsDIB::GetBitmapInfo(pBitmap.get());
((BITMAPINFOHEADER*)info.c_str())->biHeight *= -1;
FX_RECT dst_rect(0, 0, width, height);
dst_rect.Intersect(0, 0, pBitmap->GetWidth(), pBitmap->GetHeight());
int dst_width = dst_rect.Width();
int dst_height = dst_rect.Height();
::StretchDIBits(m_hDC, left, top, dst_width, dst_height, 0, 0, dst_width,
dst_height, pBuffer, (BITMAPINFO*)info.c_str(),
DIB_RGB_COLORS, SRCCOPY);
} else {
CFX_MaybeOwned<CFX_DIBitmap> pBitmap(pBitmap1);
if (pBitmap->IsCmykImage()) {
pBitmap = pBitmap->CloneConvert(FXDIB_Rgb).release();
if (!pBitmap)
return false;
}
int width = pSrcRect->Width(), height = pSrcRect->Height();
LPBYTE pBuffer = pBitmap->GetBuffer();
CFX_ByteString info = CFX_WindowsDIB::GetBitmapInfo(pBitmap.Get());
::SetDIBitsToDevice(m_hDC, left, top, width, height, pSrcRect->left,
pBitmap->GetHeight() - pSrcRect->bottom, 0,
pBitmap->GetHeight(), pBuffer,
(BITMAPINFO*)info.c_str(), DIB_RGB_COLORS);
}
return true;
}
bool CGdiDeviceDriver::GDI_StretchDIBits(CFX_DIBitmap* pBitmap1,
int dest_left,
int dest_top,
int dest_width,
int dest_height,
uint32_t flags) {
CFX_DIBitmap* pBitmap = pBitmap1;
if (!pBitmap || dest_width == 0 || dest_height == 0)
return false;
if (pBitmap->IsCmykImage() && !pBitmap->ConvertFormat(FXDIB_Rgb))
return false;
CFX_ByteString info = CFX_WindowsDIB::GetBitmapInfo(pBitmap);
if ((int64_t)abs(dest_width) * abs(dest_height) <
(int64_t)pBitmap1->GetWidth() * pBitmap1->GetHeight() * 4 ||
(flags & FXDIB_INTERPOL) || (flags & FXDIB_BICUBIC_INTERPOL)) {
SetStretchBltMode(m_hDC, HALFTONE);
} else {
SetStretchBltMode(m_hDC, COLORONCOLOR);
}
CFX_MaybeOwned<CFX_DIBitmap> pToStrechBitmap(pBitmap);
if (m_DeviceClass == FXDC_PRINTER &&
((int64_t)pBitmap->GetWidth() * pBitmap->GetHeight() >
(int64_t)abs(dest_width) * abs(dest_height))) {
pToStrechBitmap = pBitmap->StretchTo(dest_width, dest_height);
}
CFX_ByteString toStrechBitmapInfo =
CFX_WindowsDIB::GetBitmapInfo(pToStrechBitmap.Get());
::StretchDIBits(m_hDC, dest_left, dest_top, dest_width, dest_height, 0, 0,
pToStrechBitmap->GetWidth(), pToStrechBitmap->GetHeight(),
pToStrechBitmap->GetBuffer(),
(BITMAPINFO*)toStrechBitmapInfo.c_str(), DIB_RGB_COLORS,
SRCCOPY);
return true;
}
bool CGdiDeviceDriver::GDI_StretchBitMask(CFX_DIBitmap* pBitmap1,
int dest_left,
int dest_top,
int dest_width,
int dest_height,
uint32_t bitmap_color,
uint32_t flags) {
CFX_DIBitmap* pBitmap = pBitmap1;
if (!pBitmap || dest_width == 0 || dest_height == 0)
return false;
int width = pBitmap->GetWidth(), height = pBitmap->GetHeight();
struct {
BITMAPINFOHEADER bmiHeader;
uint32_t bmiColors[2];
} bmi;
FXSYS_memset(&bmi.bmiHeader, 0, sizeof(BITMAPINFOHEADER));
bmi.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
bmi.bmiHeader.biBitCount = 1;
bmi.bmiHeader.biCompression = BI_RGB;
bmi.bmiHeader.biHeight = -height;
bmi.bmiHeader.biPlanes = 1;
bmi.bmiHeader.biWidth = width;
if (m_nBitsPerPixel != 1) {
SetStretchBltMode(m_hDC, HALFTONE);
}
bmi.bmiColors[0] = 0xffffff;
bmi.bmiColors[1] = 0;
HBRUSH hPattern = CreateSolidBrush(bitmap_color & 0xffffff);
HBRUSH hOld = (HBRUSH)SelectObject(m_hDC, hPattern);
// In PDF, when image mask is 1, use device bitmap; when mask is 0, use brush
// bitmap.
// A complete list of the boolen operations is as follows:
/* P(bitmap_color) S(ImageMask) D(DeviceBitmap) Result
* 0 0 0 0
* 0 0 1 0
* 0 1 0 0
* 0 1 1 1
* 1 0 0 1
* 1 0 1 1
* 1 1 0 0
* 1 1 1 1
*/
// The boolen codes is B8. Based on
// http://msdn.microsoft.com/en-us/library/aa932106.aspx, the ROP3 code is
// 0xB8074A
::StretchDIBits(m_hDC, dest_left, dest_top, dest_width, dest_height, 0, 0,
width, height, pBitmap->GetBuffer(), (BITMAPINFO*)&bmi,
DIB_RGB_COLORS, 0xB8074A);
SelectObject(m_hDC, hOld);
DeleteObject(hPattern);
return true;
}
bool CGdiDeviceDriver::GetClipBox(FX_RECT* pRect) {
return !!(::GetClipBox(m_hDC, (RECT*)pRect));
}
void* CGdiDeviceDriver::GetPlatformSurface() const {
return (void*)m_hDC;
}
void CGdiDeviceDriver::DrawLine(FX_FLOAT x1,
FX_FLOAT y1,
FX_FLOAT x2,
FX_FLOAT y2) {
if (!m_bMetafileDCType) { // EMF drawing is not bound to the DC.
int startOutOfBoundsFlag = (x1 < 0) | ((x1 > m_Width) << 1) |
((y1 < 0) << 2) | ((y1 > m_Height) << 3);
int endOutOfBoundsFlag = (x2 < 0) | ((x2 > m_Width) << 1) |
((y2 < 0) << 2) | ((y2 > m_Height) << 3);
if (startOutOfBoundsFlag & endOutOfBoundsFlag)
return;
if (startOutOfBoundsFlag || endOutOfBoundsFlag) {
FX_FLOAT x[2];
FX_FLOAT y[2];
int np;
#ifdef _SKIA_SUPPORT_
// TODO(caryclark) temporary replacement of antigrain in line function
// to permit removing antigrain altogether
rect_base rect = {0.0f, 0.0f, (FX_FLOAT)(m_Width), (FX_FLOAT)(m_Height)};
np = clip_liang_barsky(x1, y1, x2, y2, rect, x, y);
#else
agg::rect_base<FX_FLOAT> rect(0.0f, 0.0f, (FX_FLOAT)(m_Width),
(FX_FLOAT)(m_Height));
np = agg::clip_liang_barsky<FX_FLOAT>(x1, y1, x2, y2, rect, x, y);
#endif
if (np == 0)
return;
if (np == 1) {
x2 = x[0];
y2 = y[0];
} else {
ASSERT(np == 2);
x1 = x[0];
y1 = y[0];
x2 = x[1];
y2 = y[1];
}
}
}
MoveToEx(m_hDC, FXSYS_round(x1), FXSYS_round(y1), nullptr);
LineTo(m_hDC, FXSYS_round(x2), FXSYS_round(y2));
}
bool CGdiDeviceDriver::DrawPath(const CFX_PathData* pPathData,
const CFX_Matrix* pMatrix,
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;
CWin32Platform* pPlatform =
(CWin32Platform*)CFX_GEModule::Get()->GetPlatformData();
if (!(pGraphState || stroke_color == 0) &&
!pPlatform->m_GdiplusExt.IsAvailable()) {
CFX_FloatRect bbox_f = pPathData->GetBoundingBox();
if (pMatrix) {
bbox_f.Transform(pMatrix);
}
FX_RECT bbox = bbox_f.GetInnerRect();
if (bbox.Width() <= 0) {
return DrawCosmeticLine(
(FX_FLOAT)(bbox.left), (FX_FLOAT)(bbox.top), (FX_FLOAT)(bbox.left),
(FX_FLOAT)(bbox.bottom + 1), fill_color, FXDIB_BLEND_NORMAL);
}
if (bbox.Height() <= 0) {
return DrawCosmeticLine((FX_FLOAT)(bbox.left), (FX_FLOAT)(bbox.top),
(FX_FLOAT)(bbox.right + 1), (FX_FLOAT)(bbox.top),
fill_color, FXDIB_BLEND_NORMAL);
}
}
int fill_alpha = FXARGB_A(fill_color);
int stroke_alpha = FXARGB_A(stroke_color);
bool bDrawAlpha = (fill_alpha > 0 && fill_alpha < 255) ||
(stroke_alpha > 0 && stroke_alpha < 255 && pGraphState);
if (!pPlatform->m_GdiplusExt.IsAvailable() && bDrawAlpha)
return false;
if (pPlatform->m_GdiplusExt.IsAvailable()) {
if (bDrawAlpha ||
((m_DeviceClass != FXDC_PRINTER && !(fill_mode & FXFILL_FULLCOVER)) ||
(pGraphState && pGraphState->m_DashCount))) {
if (!((!pMatrix || MatrixNoScaled(pMatrix)) && pGraphState &&
pGraphState->m_LineWidth == 1.f &&
(pPathData->GetPointCount() == 5 ||
pPathData->GetPointCount() == 4) &&
pPathData->IsRect())) {
if (pPlatform->m_GdiplusExt.DrawPath(m_hDC, pPathData, pMatrix,
pGraphState, fill_color,
stroke_color, fill_mode)) {
return true;
}
}
}
}
int old_fill_mode = fill_mode;
fill_mode &= 3;
HPEN hPen = nullptr;
HBRUSH hBrush = nullptr;
if (pGraphState && stroke_alpha) {
SetMiterLimit(m_hDC, pGraphState->m_MiterLimit, nullptr);
hPen = CreatePen(pGraphState, pMatrix, stroke_color);
hPen = (HPEN)SelectObject(m_hDC, hPen);
}
if (fill_mode && fill_alpha) {
SetPolyFillMode(m_hDC, fill_mode);
hBrush = CreateBrush(fill_color);
hBrush = (HBRUSH)SelectObject(m_hDC, hBrush);
}
if (pPathData->GetPointCount() == 2 && pGraphState &&
pGraphState->m_DashCount) {
FX_FLOAT x1 = pPathData->GetPointX(0);
FX_FLOAT y1 = pPathData->GetPointY(0);
FX_FLOAT x2 = pPathData->GetPointX(1);
FX_FLOAT y2 = pPathData->GetPointY(1);
if (pMatrix) {
pMatrix->Transform(x1, y1);
pMatrix->Transform(x2, y2);
}
DrawLine(x1, y1, x2, y2);
} else {
SetPathToDC(m_hDC, pPathData, pMatrix);
if (pGraphState && stroke_alpha) {
if (fill_mode && fill_alpha) {
if (old_fill_mode & FX_FILL_TEXT_MODE) {
StrokeAndFillPath(m_hDC);
} else {
FillPath(m_hDC);
SetPathToDC(m_hDC, pPathData, pMatrix);
StrokePath(m_hDC);
}
} else {
StrokePath(m_hDC);
}
} else if (fill_mode && fill_alpha) {
FillPath(m_hDC);
}
}
if (hPen) {
hPen = (HPEN)SelectObject(m_hDC, hPen);
DeleteObject(hPen);
}
if (hBrush) {
hBrush = (HBRUSH)SelectObject(m_hDC, hBrush);
DeleteObject(hBrush);
}
return true;
}
bool CGdiDeviceDriver::FillRectWithBlend(const FX_RECT* pRect,
uint32_t fill_color,
int blend_type) {
if (blend_type != FXDIB_BLEND_NORMAL)
return false;
int alpha;
FX_COLORREF rgb;
ArgbDecode(fill_color, alpha, rgb);
if (alpha == 0)
return true;
if (alpha < 255)
return false;
HBRUSH hBrush = CreateSolidBrush(rgb);
::FillRect(m_hDC, (RECT*)pRect, hBrush);
DeleteObject(hBrush);
return true;
}
bool CGdiDeviceDriver::SetClip_PathFill(const CFX_PathData* pPathData,
const CFX_Matrix* pMatrix,
int fill_mode) {
if (pPathData->GetPointCount() == 5) {
CFX_FloatRect rectf;
if (pPathData->IsRect(pMatrix, &rectf)) {
FX_RECT rect = rectf.GetOuterRect();
IntersectClipRect(m_hDC, rect.left, rect.top, rect.right, rect.bottom);
return true;
}
}
SetPathToDC(m_hDC, pPathData, pMatrix);
SetPolyFillMode(m_hDC, fill_mode & 3);
SelectClipPath(m_hDC, RGN_AND);
return true;
}
bool CGdiDeviceDriver::SetClip_PathStroke(
const CFX_PathData* pPathData,
const CFX_Matrix* pMatrix,
const CFX_GraphStateData* pGraphState) {
HPEN hPen = CreatePen(pGraphState, pMatrix, 0xff000000);
hPen = (HPEN)SelectObject(m_hDC, hPen);
SetPathToDC(m_hDC, pPathData, pMatrix);
WidenPath(m_hDC);
SetPolyFillMode(m_hDC, WINDING);
bool ret = !!SelectClipPath(m_hDC, RGN_AND);
hPen = (HPEN)SelectObject(m_hDC, hPen);
DeleteObject(hPen);
return ret;
}
bool CGdiDeviceDriver::DrawCosmeticLine(FX_FLOAT x1,
FX_FLOAT y1,
FX_FLOAT x2,
FX_FLOAT y2,
uint32_t color,
int blend_type) {
if (blend_type != FXDIB_BLEND_NORMAL)
return false;
int a;
FX_COLORREF rgb;
ArgbDecode(color, a, rgb);
if (a == 0)
return true;
HPEN hPen = CreatePen(PS_SOLID, 1, rgb);
hPen = (HPEN)SelectObject(m_hDC, hPen);
MoveToEx(m_hDC, FXSYS_round(x1), FXSYS_round(y1), nullptr);
LineTo(m_hDC, FXSYS_round(x2), FXSYS_round(y2));
hPen = (HPEN)SelectObject(m_hDC, hPen);
DeleteObject(hPen);
return true;
}
CGdiDisplayDriver::CGdiDisplayDriver(HDC hDC)
: CGdiDeviceDriver(hDC, FXDC_DISPLAY) {
CWin32Platform* pPlatform =
(CWin32Platform*)CFX_GEModule::Get()->GetPlatformData();
if (pPlatform->m_GdiplusExt.IsAvailable()) {
m_RenderCaps |= FXRC_ALPHA_PATH | FXRC_ALPHA_IMAGE;
}
}
CGdiDisplayDriver::~CGdiDisplayDriver() {}
bool CGdiDisplayDriver::GetDIBits(CFX_DIBitmap* pBitmap, int left, int top) {
bool ret = false;
int width = pBitmap->GetWidth();
int height = pBitmap->GetHeight();
HBITMAP hbmp = CreateCompatibleBitmap(m_hDC, width, height);
HDC hDCMemory = CreateCompatibleDC(m_hDC);
HBITMAP holdbmp = (HBITMAP)SelectObject(hDCMemory, hbmp);
BitBlt(hDCMemory, 0, 0, width, height, m_hDC, left, top, SRCCOPY);
SelectObject(hDCMemory, holdbmp);
BITMAPINFO bmi;
FXSYS_memset(&bmi, 0, sizeof bmi);
bmi.bmiHeader.biSize = sizeof bmi.bmiHeader;
bmi.bmiHeader.biBitCount = pBitmap->GetBPP();
bmi.bmiHeader.biHeight = -height;
bmi.bmiHeader.biPlanes = 1;
bmi.bmiHeader.biWidth = width;
if (pBitmap->GetBPP() > 8 && !pBitmap->IsCmykImage()) {
ret = ::GetDIBits(hDCMemory, hbmp, 0, height, pBitmap->GetBuffer(), &bmi,
DIB_RGB_COLORS) == height;
} else {
CFX_DIBitmap bitmap;
if (bitmap.Create(width, height, FXDIB_Rgb)) {
bmi.bmiHeader.biBitCount = 24;
::GetDIBits(hDCMemory, hbmp, 0, height, bitmap.GetBuffer(), &bmi,
DIB_RGB_COLORS);
ret = pBitmap->TransferBitmap(0, 0, width, height, &bitmap, 0, 0);
} else {
ret = false;
}
}
if (pBitmap->HasAlpha() && ret)
pBitmap->LoadChannel(FXDIB_Alpha, 0xff);
DeleteObject(hbmp);
DeleteObject(hDCMemory);
return ret;
}
bool CGdiDisplayDriver::SetDIBits(const CFX_DIBSource* pSource,
uint32_t color,
const FX_RECT* pSrcRect,
int left,
int top,
int blend_type) {
ASSERT(blend_type == FXDIB_BLEND_NORMAL);
if (pSource->IsAlphaMask()) {
int width = pSource->GetWidth(), height = pSource->GetHeight();
int alpha = FXARGB_A(color);
if (pSource->GetBPP() != 1 || alpha != 255) {
CFX_DIBitmap background;
if (!background.Create(width, height, FXDIB_Rgb32) ||
!GetDIBits(&background, left, top) ||
!background.CompositeMask(0, 0, width, height, pSource, color, 0, 0,
FXDIB_BLEND_NORMAL, nullptr, false, 0,
nullptr)) {
return false;
}
FX_RECT src_rect(0, 0, width, height);
return SetDIBits(&background, 0, &src_rect, left, top,
FXDIB_BLEND_NORMAL);
}
FX_RECT clip_rect(left, top, left + pSrcRect->Width(),
top + pSrcRect->Height());
return StretchDIBits(pSource, color, left - pSrcRect->left,
top - pSrcRect->top, width, height, &clip_rect, 0,
FXDIB_BLEND_NORMAL);
}
int width = pSrcRect->Width(), height = pSrcRect->Height();
if (pSource->HasAlpha()) {
CFX_DIBitmap bitmap;
if (!bitmap.Create(width, height, FXDIB_Rgb) ||
!GetDIBits(&bitmap, left, top) ||
!bitmap.CompositeBitmap(0, 0, width, height, pSource, pSrcRect->left,
pSrcRect->top, FXDIB_BLEND_NORMAL, nullptr,
false, nullptr)) {
return false;
}
FX_RECT src_rect(0, 0, width, height);
return SetDIBits(&bitmap, 0, &src_rect, left, top, FXDIB_BLEND_NORMAL);
}
CFX_DIBExtractor temp(pSource);
CFX_DIBitmap* pBitmap = temp.GetBitmap();
if (!pBitmap)
return false;
return GDI_SetDIBits(pBitmap, pSrcRect, left, top);
}
bool CGdiDisplayDriver::UseFoxitStretchEngine(const CFX_DIBSource* pSource,
uint32_t color,
int dest_left,
int dest_top,
int dest_width,
int dest_height,
const FX_RECT* pClipRect,
int render_flags) {
FX_RECT bitmap_clip = *pClipRect;
if (dest_width < 0)
dest_left += dest_width;
if (dest_height < 0)
dest_top += dest_height;
bitmap_clip.Offset(-dest_left, -dest_top);
std::unique_ptr<CFX_DIBitmap> pStretched(
pSource->StretchTo(dest_width, dest_height, render_flags, &bitmap_clip));
if (!pStretched)
return true;
FX_RECT src_rect(0, 0, pStretched->GetWidth(), pStretched->GetHeight());
return SetDIBits(pStretched.get(), color, &src_rect, pClipRect->left,
pClipRect->top, FXDIB_BLEND_NORMAL);
}
bool CGdiDisplayDriver::StretchDIBits(const CFX_DIBSource* pSource,
uint32_t color,
int dest_left,
int dest_top,
int dest_width,
int dest_height,
const FX_RECT* pClipRect,
uint32_t flags,
int blend_type) {
ASSERT(pSource && pClipRect);
if (flags || dest_width > 10000 || dest_width < -10000 ||
dest_height > 10000 || dest_height < -10000) {
return UseFoxitStretchEngine(pSource, color, dest_left, dest_top,
dest_width, dest_height, pClipRect, flags);
}
if (pSource->IsAlphaMask()) {
FX_RECT image_rect;
image_rect.left = dest_width > 0 ? dest_left : dest_left + dest_width;
image_rect.right = dest_width > 0 ? dest_left + dest_width : dest_left;
image_rect.top = dest_height > 0 ? dest_top : dest_top + dest_height;
image_rect.bottom = dest_height > 0 ? dest_top + dest_height : dest_top;
FX_RECT clip_rect = image_rect;
clip_rect.Intersect(*pClipRect);
clip_rect.Offset(-image_rect.left, -image_rect.top);
int clip_width = clip_rect.Width(), clip_height = clip_rect.Height();
std::unique_ptr<CFX_DIBitmap> pStretched(
pSource->StretchTo(dest_width, dest_height, flags, &clip_rect));
if (!pStretched)
return true;
CFX_DIBitmap background;
if (!background.Create(clip_width, clip_height, FXDIB_Rgb32) ||
!GetDIBits(&background, image_rect.left + clip_rect.left,
image_rect.top + clip_rect.top) ||
!background.CompositeMask(
0, 0, clip_width, clip_height, pStretched.get(), color, 0, 0,
FXDIB_BLEND_NORMAL, nullptr, false, 0, nullptr)) {
return false;
}
FX_RECT src_rect(0, 0, clip_width, clip_height);
return SetDIBits(&background, 0, &src_rect,
image_rect.left + clip_rect.left,
image_rect.top + clip_rect.top, FXDIB_BLEND_NORMAL);
}
if (pSource->HasAlpha()) {
CWin32Platform* pPlatform =
(CWin32Platform*)CFX_GEModule::Get()->GetPlatformData();
if (pPlatform->m_GdiplusExt.IsAvailable() && !pSource->IsCmykImage()) {
CFX_DIBExtractor temp(pSource);
CFX_DIBitmap* pBitmap = temp.GetBitmap();
if (!pBitmap)
return false;
return pPlatform->m_GdiplusExt.StretchDIBits(
m_hDC, pBitmap, dest_left, dest_top, dest_width, dest_height,
pClipRect, flags);
}
return UseFoxitStretchEngine(pSource, color, dest_left, dest_top,
dest_width, dest_height, pClipRect, flags);
}
CFX_DIBExtractor temp(pSource);
CFX_DIBitmap* pBitmap = temp.GetBitmap();
if (!pBitmap)
return false;
return GDI_StretchDIBits(pBitmap, dest_left, dest_top, dest_width,
dest_height, flags);
}
bool CGdiDisplayDriver::StartDIBits(const CFX_DIBSource* pBitmap,
int bitmap_alpha,
uint32_t color,
const CFX_Matrix* pMatrix,
uint32_t render_flags,
void*& handle,
int blend_type) {
return false;
}
CFX_WindowsDevice::CFX_WindowsDevice(HDC hDC) {
SetDeviceDriver(pdfium::WrapUnique(CreateDriver(hDC)));
}
CFX_WindowsDevice::~CFX_WindowsDevice() {}
HDC CFX_WindowsDevice::GetDC() const {
IFX_RenderDeviceDriver* pRDD = GetDeviceDriver();
return pRDD ? reinterpret_cast<HDC>(pRDD->GetPlatformSurface()) : nullptr;
}
// static
IFX_RenderDeviceDriver* CFX_WindowsDevice::CreateDriver(HDC hDC) {
int device_type = ::GetDeviceCaps(hDC, TECHNOLOGY);
int obj_type = ::GetObjectType(hDC);
bool use_printer = device_type == DT_RASPRINTER ||
device_type == DT_PLOTTER || obj_type == OBJ_ENHMETADC;
if (use_printer)
return new CGdiPrinterDriver(hDC);
return new CGdiDisplayDriver(hDC);
}
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