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1 // Copyright 2014 PDFium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4 
5 // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com
6 
7 #include "pageint.h"
8 
9 #include "core/include/fpdfapi/fpdf_page.h"
10 
11 namespace {
12 
13 const int kSingleCoordinatePair = 1;
14 const int kTensorCoordinatePairs = 16;
15 const int kCoonsCoordinatePairs = 12;
16 
17 const int kSingleColorPerPatch = 1;
18 const int kQuadColorsPerPatch = 4;
19 
ToShadingType(int type)20 ShadingType ToShadingType(int type) {
21   return (type > static_cast<int>(kInvalidShading) &&
22           type < static_cast<int>(kMaxShading))
23              ? static_cast<ShadingType>(type)
24              : kInvalidShading;
25 }
26 
27 }  // namespace
28 
CPDF_Pattern(PatternType type,CPDF_Document * pDoc,CPDF_Object * pObj,const CFX_Matrix * pParentMatrix)29 CPDF_Pattern::CPDF_Pattern(PatternType type,
30                            CPDF_Document* pDoc,
31                            CPDF_Object* pObj,
32                            const CFX_Matrix* pParentMatrix)
33     : m_PatternType(type),
34       m_pDocument(pDoc),
35       m_pPatternObj(pObj),
36       m_bForceClear(FALSE) {
37   if (pParentMatrix)
38     m_ParentMatrix = *pParentMatrix;
39 }
~CPDF_Pattern()40 CPDF_Pattern::~CPDF_Pattern() {}
CPDF_TilingPattern(CPDF_Document * pDoc,CPDF_Object * pPatternObj,const CFX_Matrix * parentMatrix)41 CPDF_TilingPattern::CPDF_TilingPattern(CPDF_Document* pDoc,
42                                        CPDF_Object* pPatternObj,
43                                        const CFX_Matrix* parentMatrix)
44     : CPDF_Pattern(TILING, pDoc, pPatternObj, parentMatrix) {
45   CPDF_Dictionary* pDict = m_pPatternObj->GetDict();
46   m_Pattern2Form = pDict->GetMatrix("Matrix");
47   m_bColored = pDict->GetInteger("PaintType") == 1;
48   if (parentMatrix) {
49     m_Pattern2Form.Concat(*parentMatrix);
50   }
51   m_pForm = NULL;
52 }
~CPDF_TilingPattern()53 CPDF_TilingPattern::~CPDF_TilingPattern() {
54   delete m_pForm;
55   m_pForm = NULL;
56 }
Load()57 FX_BOOL CPDF_TilingPattern::Load() {
58   if (m_pForm)
59     return TRUE;
60 
61   CPDF_Dictionary* pDict = m_pPatternObj->GetDict();
62   if (!pDict)
63     return FALSE;
64 
65   m_bColored = pDict->GetInteger("PaintType") == 1;
66   m_XStep = (FX_FLOAT)FXSYS_fabs(pDict->GetNumber("XStep"));
67   m_YStep = (FX_FLOAT)FXSYS_fabs(pDict->GetNumber("YStep"));
68 
69   CPDF_Stream* pStream = m_pPatternObj->AsStream();
70   if (!pStream)
71     return FALSE;
72 
73   m_pForm = new CPDF_Form(m_pDocument, NULL, pStream);
74   m_pForm->ParseContent(NULL, &m_ParentMatrix, NULL, NULL);
75   m_BBox = pDict->GetRect("BBox");
76   return TRUE;
77 }
CPDF_ShadingPattern(CPDF_Document * pDoc,CPDF_Object * pPatternObj,FX_BOOL bShading,const CFX_Matrix * parentMatrix)78 CPDF_ShadingPattern::CPDF_ShadingPattern(CPDF_Document* pDoc,
79                                          CPDF_Object* pPatternObj,
80                                          FX_BOOL bShading,
81                                          const CFX_Matrix* parentMatrix)
82     : CPDF_Pattern(SHADING,
83                    pDoc,
84                    bShading ? nullptr : pPatternObj,
85                    parentMatrix),
86       m_ShadingType(kInvalidShading),
87       m_bShadingObj(bShading),
88       m_pShadingObj(pPatternObj),
89       m_pCS(nullptr),
90       m_pCountedCS(nullptr),
91       m_nFuncs(0) {
92   if (!bShading) {
93     CPDF_Dictionary* pDict = m_pPatternObj->GetDict();
94     m_Pattern2Form = pDict->GetMatrix("Matrix");
95     m_pShadingObj = pDict->GetElementValue("Shading");
96     if (parentMatrix)
97       m_Pattern2Form.Concat(*parentMatrix);
98   }
99   for (int i = 0; i < FX_ArraySize(m_pFunctions); ++i)
100     m_pFunctions[i] = nullptr;
101 }
102 
~CPDF_ShadingPattern()103 CPDF_ShadingPattern::~CPDF_ShadingPattern() {
104   for (int i = 0; i < m_nFuncs; ++i)
105     delete m_pFunctions[i];
106 
107   CPDF_ColorSpace* pCS = m_pCountedCS ? m_pCountedCS->get() : NULL;
108   if (pCS && m_pDocument)
109     m_pDocument->GetPageData()->ReleaseColorSpace(pCS->GetArray());
110 }
111 
Load()112 FX_BOOL CPDF_ShadingPattern::Load() {
113   if (m_ShadingType != kInvalidShading)
114     return TRUE;
115 
116   CPDF_Dictionary* pShadingDict =
117       m_pShadingObj ? m_pShadingObj->GetDict() : NULL;
118   if (!pShadingDict) {
119     return FALSE;
120   }
121   if (m_nFuncs) {
122     for (int i = 0; i < m_nFuncs; i++)
123       delete m_pFunctions[i];
124     m_nFuncs = 0;
125   }
126   CPDF_Object* pFunc = pShadingDict->GetElementValue("Function");
127   if (pFunc) {
128     if (CPDF_Array* pArray = pFunc->AsArray()) {
129       m_nFuncs = std::min<int>(pArray->GetCount(), 4);
130 
131       for (int i = 0; i < m_nFuncs; i++) {
132         m_pFunctions[i] = CPDF_Function::Load(pArray->GetElementValue(i));
133       }
134     } else {
135       m_pFunctions[0] = CPDF_Function::Load(pFunc);
136       m_nFuncs = 1;
137     }
138   }
139   CPDF_Object* pCSObj = pShadingDict->GetElementValue("ColorSpace");
140   if (!pCSObj) {
141     return FALSE;
142   }
143   CPDF_DocPageData* pDocPageData = m_pDocument->GetPageData();
144   m_pCS = pDocPageData->GetColorSpace(pCSObj, NULL);
145   if (m_pCS) {
146     m_pCountedCS = pDocPageData->FindColorSpacePtr(m_pCS->GetArray());
147   }
148 
149   m_ShadingType = ToShadingType(pShadingDict->GetInteger("ShadingType"));
150 
151   // We expect to have a stream if our shading type is a mesh.
152   if (IsMeshShading() && !ToStream(m_pShadingObj))
153     return FALSE;
154 
155   return TRUE;
156 }
Load(CPDF_Stream * pShadingStream,CPDF_Function ** pFuncs,int nFuncs,CPDF_ColorSpace * pCS)157 FX_BOOL CPDF_MeshStream::Load(CPDF_Stream* pShadingStream,
158                               CPDF_Function** pFuncs,
159                               int nFuncs,
160                               CPDF_ColorSpace* pCS) {
161   m_Stream.LoadAllData(pShadingStream);
162   m_BitStream.Init(m_Stream.GetData(), m_Stream.GetSize());
163   m_pFuncs = pFuncs;
164   m_nFuncs = nFuncs;
165   m_pCS = pCS;
166   CPDF_Dictionary* pDict = pShadingStream->GetDict();
167   m_nCoordBits = pDict->GetInteger("BitsPerCoordinate");
168   m_nCompBits = pDict->GetInteger("BitsPerComponent");
169   m_nFlagBits = pDict->GetInteger("BitsPerFlag");
170   if (!m_nCoordBits || !m_nCompBits) {
171     return FALSE;
172   }
173   int nComps = pCS->CountComponents();
174   if (nComps > 8) {
175     return FALSE;
176   }
177   m_nComps = nFuncs ? 1 : nComps;
178   if (((int)m_nComps < 0) || m_nComps > 8) {
179     return FALSE;
180   }
181   m_CoordMax = m_nCoordBits == 32 ? -1 : (1 << m_nCoordBits) - 1;
182   m_CompMax = (1 << m_nCompBits) - 1;
183   CPDF_Array* pDecode = pDict->GetArray("Decode");
184   if (!pDecode || pDecode->GetCount() != 4 + m_nComps * 2) {
185     return FALSE;
186   }
187   m_xmin = pDecode->GetNumber(0);
188   m_xmax = pDecode->GetNumber(1);
189   m_ymin = pDecode->GetNumber(2);
190   m_ymax = pDecode->GetNumber(3);
191   for (FX_DWORD i = 0; i < m_nComps; i++) {
192     m_ColorMin[i] = pDecode->GetNumber(i * 2 + 4);
193     m_ColorMax[i] = pDecode->GetNumber(i * 2 + 5);
194   }
195   return TRUE;
196 }
GetFlag()197 FX_DWORD CPDF_MeshStream::GetFlag() {
198   return m_BitStream.GetBits(m_nFlagBits) & 0x03;
199 }
GetCoords(FX_FLOAT & x,FX_FLOAT & y)200 void CPDF_MeshStream::GetCoords(FX_FLOAT& x, FX_FLOAT& y) {
201   if (m_nCoordBits == 32) {
202     x = m_xmin + (FX_FLOAT)(m_BitStream.GetBits(m_nCoordBits) *
203                             (m_xmax - m_xmin) / (double)m_CoordMax);
204     y = m_ymin + (FX_FLOAT)(m_BitStream.GetBits(m_nCoordBits) *
205                             (m_ymax - m_ymin) / (double)m_CoordMax);
206   } else {
207     x = m_xmin +
208         m_BitStream.GetBits(m_nCoordBits) * (m_xmax - m_xmin) / m_CoordMax;
209     y = m_ymin +
210         m_BitStream.GetBits(m_nCoordBits) * (m_ymax - m_ymin) / m_CoordMax;
211   }
212 }
GetColor(FX_FLOAT & r,FX_FLOAT & g,FX_FLOAT & b)213 void CPDF_MeshStream::GetColor(FX_FLOAT& r, FX_FLOAT& g, FX_FLOAT& b) {
214   FX_DWORD i;
215   FX_FLOAT color_value[8];
216   for (i = 0; i < m_nComps; i++) {
217     color_value[i] = m_ColorMin[i] +
218                      m_BitStream.GetBits(m_nCompBits) *
219                          (m_ColorMax[i] - m_ColorMin[i]) / m_CompMax;
220   }
221   if (m_nFuncs) {
222     static const int kMaxResults = 8;
223     FX_FLOAT result[kMaxResults];
224     int nResults;
225     FXSYS_memset(result, 0, sizeof(result));
226     for (FX_DWORD i = 0; i < m_nFuncs; i++) {
227       if (m_pFuncs[i] && m_pFuncs[i]->CountOutputs() <= kMaxResults) {
228         m_pFuncs[i]->Call(color_value, 1, result, nResults);
229       }
230     }
231     m_pCS->GetRGB(result, r, g, b);
232   } else {
233     m_pCS->GetRGB(color_value, r, g, b);
234   }
235 }
GetVertex(CPDF_MeshVertex & vertex,CFX_Matrix * pObject2Bitmap)236 FX_DWORD CPDF_MeshStream::GetVertex(CPDF_MeshVertex& vertex,
237                                     CFX_Matrix* pObject2Bitmap) {
238   FX_DWORD flag = GetFlag();
239   GetCoords(vertex.x, vertex.y);
240   pObject2Bitmap->Transform(vertex.x, vertex.y);
241   GetColor(vertex.r, vertex.g, vertex.b);
242   m_BitStream.ByteAlign();
243   return flag;
244 }
GetVertexRow(CPDF_MeshVertex * vertex,int count,CFX_Matrix * pObject2Bitmap)245 FX_BOOL CPDF_MeshStream::GetVertexRow(CPDF_MeshVertex* vertex,
246                                       int count,
247                                       CFX_Matrix* pObject2Bitmap) {
248   for (int i = 0; i < count; i++) {
249     if (m_BitStream.IsEOF()) {
250       return FALSE;
251     }
252     GetCoords(vertex[i].x, vertex[i].y);
253     pObject2Bitmap->Transform(vertex[i].x, vertex[i].y);
254     GetColor(vertex[i].r, vertex[i].g, vertex[i].b);
255     m_BitStream.ByteAlign();
256   }
257   return TRUE;
258 }
259 
GetShadingBBox(CPDF_Stream * pStream,ShadingType type,const CFX_Matrix * pMatrix,CPDF_Function ** pFuncs,int nFuncs,CPDF_ColorSpace * pCS)260 CFX_FloatRect GetShadingBBox(CPDF_Stream* pStream,
261                              ShadingType type,
262                              const CFX_Matrix* pMatrix,
263                              CPDF_Function** pFuncs,
264                              int nFuncs,
265                              CPDF_ColorSpace* pCS) {
266   if (!pStream || !pStream->IsStream() || !pFuncs || !pCS)
267     return CFX_FloatRect(0, 0, 0, 0);
268 
269   CPDF_MeshStream stream;
270   if (!stream.Load(pStream, pFuncs, nFuncs, pCS))
271     return CFX_FloatRect(0, 0, 0, 0);
272 
273   CFX_FloatRect rect;
274   FX_BOOL bStarted = FALSE;
275   FX_BOOL bGouraud = type == kFreeFormGouraudTriangleMeshShading ||
276                      type == kLatticeFormGouraudTriangleMeshShading;
277 
278   int point_count = kSingleCoordinatePair;
279   if (type == kTensorProductPatchMeshShading)
280     point_count = kTensorCoordinatePairs;
281   else if (type == kCoonsPatchMeshShading)
282     point_count = kCoonsCoordinatePairs;
283 
284   int color_count = kSingleColorPerPatch;
285   if (type == kCoonsPatchMeshShading || type == kTensorProductPatchMeshShading)
286     color_count = kQuadColorsPerPatch;
287 
288   while (!stream.m_BitStream.IsEOF()) {
289     FX_DWORD flag = 0;
290     if (type != kLatticeFormGouraudTriangleMeshShading)
291       flag = stream.GetFlag();
292 
293     if (!bGouraud && flag) {
294       point_count -= 4;
295       color_count -= 2;
296     }
297 
298     for (int i = 0; i < point_count; i++) {
299       FX_FLOAT x, y;
300       stream.GetCoords(x, y);
301       if (bStarted) {
302         rect.UpdateRect(x, y);
303       } else {
304         rect.InitRect(x, y);
305         bStarted = TRUE;
306       }
307     }
308     stream.m_BitStream.SkipBits(stream.m_nComps * stream.m_nCompBits *
309                                 color_count);
310     if (bGouraud)
311       stream.m_BitStream.ByteAlign();
312   }
313   rect.Transform(pMatrix);
314   return rect;
315 }
316