1 2 /* 3 * Copyright 2010 The Android Open Source Project 4 * 5 * Use of this source code is governed by a BSD-style license that can be 6 * found in the LICENSE file. 7 */ 8 9 10 #include "SkData.h" 11 #include "SkPDFCatalog.h" 12 #include "SkPDFDevice.h" 13 #include "SkPDFPage.h" 14 #include "SkPDFResourceDict.h" 15 16 SkPDFPage::SkPDFPage(SkPDFDevice* content) 17 : SkPDFDict("Page"), 18 fDevice(content) { 19 SkSafeRef(content); 20 } 21 22 SkPDFPage::~SkPDFPage() {} 23 24 void SkPDFPage::finalizePage(SkPDFCatalog* catalog, bool firstPage, 25 const SkTSet<SkPDFObject*>& knownResourceObjects, 26 SkTSet<SkPDFObject*>* newResourceObjects) { 27 SkPDFResourceDict* resourceDict = fDevice->getResourceDict(); 28 if (fContentStream.get() == NULL) { 29 insert("Resources", resourceDict); 30 SkSafeUnref(this->insert("MediaBox", fDevice->copyMediaBox())); 31 if (!SkToBool(catalog->getDocumentFlags() & 32 SkPDFDocument::kNoLinks_Flags)) { 33 SkPDFArray* annots = fDevice->getAnnotations(); 34 if (annots && annots->size() > 0) { 35 insert("Annots", annots); 36 } 37 } 38 39 SkAutoTUnref<SkData> content(fDevice->copyContentToData()); 40 fContentStream.reset(new SkPDFStream(content.get())); 41 insert("Contents", new SkPDFObjRef(fContentStream.get()))->unref(); 42 } 43 catalog->addObject(fContentStream.get(), firstPage); 44 resourceDict->getReferencedResources(knownResourceObjects, 45 newResourceObjects, 46 true); 47 } 48 49 off_t SkPDFPage::getPageSize(SkPDFCatalog* catalog, off_t fileOffset) { 50 SkASSERT(fContentStream.get() != NULL); 51 catalog->setFileOffset(fContentStream.get(), fileOffset); 52 return fContentStream->getOutputSize(catalog, true); 53 } 54 55 void SkPDFPage::emitPage(SkWStream* stream, SkPDFCatalog* catalog) { 56 SkASSERT(fContentStream.get() != NULL); 57 fContentStream->emitObject(stream, catalog, true); 58 } 59 60 // static 61 void SkPDFPage::GeneratePageTree(const SkTDArray<SkPDFPage*>& pages, 62 SkPDFCatalog* catalog, 63 SkTDArray<SkPDFDict*>* pageTree, 64 SkPDFDict** rootNode) { 65 // PDF wants a tree describing all the pages in the document. We arbitrary 66 // choose 8 (kNodeSize) as the number of allowed children. The internal 67 // nodes have type "Pages" with an array of children, a parent pointer, and 68 // the number of leaves below the node as "Count." The leaves are passed 69 // into the method, have type "Page" and need a parent pointer. This method 70 // builds the tree bottom up, skipping internal nodes that would have only 71 // one child. 72 static const int kNodeSize = 8; 73 74 SkAutoTUnref<SkPDFName> kidsName(new SkPDFName("Kids")); 75 SkAutoTUnref<SkPDFName> countName(new SkPDFName("Count")); 76 SkAutoTUnref<SkPDFName> parentName(new SkPDFName("Parent")); 77 78 // curNodes takes a reference to its items, which it passes to pageTree. 79 SkTDArray<SkPDFDict*> curNodes; 80 curNodes.setReserve(pages.count()); 81 for (int i = 0; i < pages.count(); i++) { 82 SkSafeRef(pages[i]); 83 curNodes.push(pages[i]); 84 } 85 86 // nextRoundNodes passes its references to nodes on to curNodes. 87 SkTDArray<SkPDFDict*> nextRoundNodes; 88 nextRoundNodes.setReserve((pages.count() + kNodeSize - 1)/kNodeSize); 89 90 int treeCapacity = kNodeSize; 91 do { 92 for (int i = 0; i < curNodes.count(); ) { 93 if (i > 0 && i + 1 == curNodes.count()) { 94 nextRoundNodes.push(curNodes[i]); 95 break; 96 } 97 98 SkPDFDict* newNode = new SkPDFDict("Pages"); 99 SkAutoTUnref<SkPDFObjRef> newNodeRef(new SkPDFObjRef(newNode)); 100 101 SkAutoTUnref<SkPDFArray> kids(new SkPDFArray); 102 kids->reserve(kNodeSize); 103 104 int count = 0; 105 for (; i < curNodes.count() && count < kNodeSize; i++, count++) { 106 curNodes[i]->insert(parentName.get(), newNodeRef.get()); 107 kids->append(new SkPDFObjRef(curNodes[i]))->unref(); 108 109 // TODO(vandebo): put the objects in strict access order. 110 // Probably doesn't matter because they are so small. 111 if (curNodes[i] != pages[0]) { 112 pageTree->push(curNodes[i]); // Transfer reference. 113 catalog->addObject(curNodes[i], false); 114 } else { 115 SkSafeUnref(curNodes[i]); 116 catalog->addObject(curNodes[i], true); 117 } 118 } 119 120 // treeCapacity is the number of leaf nodes possible for the 121 // current set of subtrees being generated. (i.e. 8, 64, 512, ...). 122 // It is hard to count the number of leaf nodes in the current 123 // subtree. However, by construction, we know that unless it's the 124 // last subtree for the current depth, the leaf count will be 125 // treeCapacity, otherwise it's what ever is left over after 126 // consuming treeCapacity chunks. 127 int pageCount = treeCapacity; 128 if (i == curNodes.count()) { 129 pageCount = ((pages.count() - 1) % treeCapacity) + 1; 130 } 131 newNode->insert(countName.get(), new SkPDFInt(pageCount))->unref(); 132 newNode->insert(kidsName.get(), kids.get()); 133 nextRoundNodes.push(newNode); // Transfer reference. 134 } 135 136 curNodes = nextRoundNodes; 137 nextRoundNodes.rewind(); 138 treeCapacity *= kNodeSize; 139 } while (curNodes.count() > 1); 140 141 pageTree->push(curNodes[0]); // Transfer reference. 142 catalog->addObject(curNodes[0], false); 143 if (rootNode) { 144 *rootNode = curNodes[0]; 145 } 146 } 147 148 const SkTDArray<SkPDFFont*>& SkPDFPage::getFontResources() const { 149 return fDevice->getFontResources(); 150 } 151 152 const SkPDFGlyphSetMap& SkPDFPage::getFontGlyphUsage() const { 153 return fDevice->getFontGlyphUsage(); 154 } 155 156 void SkPDFPage::appendDestinations(SkPDFDict* dict) { 157 fDevice->appendDestinations(dict, this); 158 } 159
