src/pdf/SkPDFResourceDict.cpp - skia - Git at Google

 /*
  * Copyright 2013 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "include/core/SkStream.h"
 #include "src/pdf/SkPDFResourceDict.h"
 #include "src/pdf/SkPDFTypes.h"

 // Verify that the values of enum ResourceType correspond to the expected values
 // as defined in the arrays below.
 // If these are failing, you may need to update the kResourceTypePrefixes
 // and kResourceTypeNames arrays below.
 static_assert(0 == (int)SkPDFResourceType::kExtGState, "resource_type_mismatch");
 static_assert(1 == (int)SkPDFResourceType::kPattern,   "resource_type_mismatch");
 static_assert(2 == (int)SkPDFResourceType::kXObject,   "resource_type_mismatch");
 static_assert(3 == (int)SkPDFResourceType::kFont,      "resource_type_mismatch");

 // One extra character for the Prefix.
 constexpr size_t kMaxResourceNameLength = 1 + kSkStrAppendS32_MaxSize;

 // returns pointer just past end of what's written into `dst`.
 static char* get_resource_name(char dst[kMaxResourceNameLength], SkPDFResourceType type, int key) {
     static const char kResourceTypePrefixes[] = {
         'G',  // kExtGState
         'P',  // kPattern
         'X',  // kXObject
         'F'   // kFont
     };
     SkASSERT((unsigned)type < SK_ARRAY_COUNT(kResourceTypePrefixes));
     dst[0] = kResourceTypePrefixes[(unsigned)type];
     return SkStrAppendS32(dst + 1, key);
 }

 void SkPDFWriteResourceName(SkWStream* dst, SkPDFResourceType type, int key) {
     // One extra character for the leading '/'.
     char buffer[1 + kMaxResourceNameLength];
     buffer[0] = '/';
     char* end = get_resource_name(buffer + 1, type, key);
     dst->write(buffer, (size_t)(end - buffer));
 }

 static const char* resource_name(SkPDFResourceType type) {
     static const char* kResourceTypeNames[] = {
         "ExtGState",
         "Pattern",
         "XObject",
         "Font"
     };
     SkASSERT((unsigned)type < SK_ARRAY_COUNT(kResourceTypeNames));
     return kResourceTypeNames[(unsigned)type];
 }

 static SkString resource(SkPDFResourceType type, int index) {
     char buffer[kMaxResourceNameLength];
     char* end = get_resource_name(buffer, type, index);
     return SkString(buffer, (size_t)(end - buffer));
 }

 static void add_subdict(const std::vector<SkPDFIndirectReference>& resourceList,
                         SkPDFResourceType type,
                         SkPDFDict* dst) {
     if (!resourceList.empty()) {
         auto resources = SkPDFMakeDict();
         for (SkPDFIndirectReference ref : resourceList) {
             resources->insertRef(resource(type, ref.fValue), ref);
         }
         dst->insertObject(resource_name(type), std::move(resources));
     }
 }

 static std::unique_ptr<SkPDFArray> make_proc_set() {
     auto procSets = SkPDFMakeArray();
     static const char kProcs[][7] = { "PDF", "Text", "ImageB", "ImageC", "ImageI"};
     procSets->reserve(SK_ARRAY_COUNT(kProcs));
     for (const char* proc : kProcs) {
         procSets->appendName(proc);
     }
     return procSets;
 }

 std::unique_ptr<SkPDFDict> SkPDFMakeResourceDict(
         const std::vector<SkPDFIndirectReference>& graphicStateResources,
         const std::vector<SkPDFIndirectReference>& shaderResources,
         const std::vector<SkPDFIndirectReference>& xObjectResources,
         const std::vector<SkPDFIndirectReference>& fontResources) {
     auto dict = SkPDFMakeDict();
     dict->insertObject("ProcSet", make_proc_set());
     add_subdict(graphicStateResources, SkPDFResourceType::kExtGState, dict.get());
     add_subdict(shaderResources,       SkPDFResourceType::kPattern,   dict.get());
     add_subdict(xObjectResources,      SkPDFResourceType::kXObject,   dict.get());
     add_subdict(fontResources,         SkPDFResourceType::kFont,      dict.get());
     return dict;
 }
	/*
	* Copyright 2013 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "include/core/SkStream.h"
	#include "src/pdf/SkPDFResourceDict.h"
	#include "src/pdf/SkPDFTypes.h"

	// Verify that the values of enum ResourceType correspond to the expected values
	// as defined in the arrays below.
	// If these are failing, you may need to update the kResourceTypePrefixes
	// and kResourceTypeNames arrays below.
	static_assert(0 == (int)SkPDFResourceType::kExtGState, "resource_type_mismatch");
	static_assert(1 == (int)SkPDFResourceType::kPattern, "resource_type_mismatch");
	static_assert(2 == (int)SkPDFResourceType::kXObject, "resource_type_mismatch");
	static_assert(3 == (int)SkPDFResourceType::kFont, "resource_type_mismatch");

	// One extra character for the Prefix.
	constexpr size_t kMaxResourceNameLength = 1 + kSkStrAppendS32_MaxSize;

	// returns pointer just past end of what's written into `dst`.
	static char* get_resource_name(char dst[kMaxResourceNameLength], SkPDFResourceType type, int key) {
	static const char kResourceTypePrefixes[] = {
	'G', // kExtGState
	'P', // kPattern
	'X', // kXObject
	'F' // kFont
	};
	SkASSERT((unsigned)type < SK_ARRAY_COUNT(kResourceTypePrefixes));
	dst[0] = kResourceTypePrefixes[(unsigned)type];
	return SkStrAppendS32(dst + 1, key);
	}

	void SkPDFWriteResourceName(SkWStream* dst, SkPDFResourceType type, int key) {
	// One extra character for the leading '/'.
	char buffer[1 + kMaxResourceNameLength];
	buffer[0] = '/';
	char* end = get_resource_name(buffer + 1, type, key);
	dst->write(buffer, (size_t)(end - buffer));
	}

	static const char* resource_name(SkPDFResourceType type) {
	static const char* kResourceTypeNames[] = {
	"ExtGState",
	"Pattern",
	"XObject",
	"Font"
	};
	SkASSERT((unsigned)type < SK_ARRAY_COUNT(kResourceTypeNames));
	return kResourceTypeNames[(unsigned)type];
	}

	static SkString resource(SkPDFResourceType type, int index) {
	char buffer[kMaxResourceNameLength];
	char* end = get_resource_name(buffer, type, index);
	return SkString(buffer, (size_t)(end - buffer));
	}

	static void add_subdict(const std::vector<SkPDFIndirectReference>& resourceList,
	SkPDFResourceType type,
	SkPDFDict* dst) {
	if (!resourceList.empty()) {
	auto resources = SkPDFMakeDict();
	for (SkPDFIndirectReference ref : resourceList) {
	resources->insertRef(resource(type, ref.fValue), ref);
	}
	dst->insertObject(resource_name(type), std::move(resources));
	}
	}

	static std::unique_ptr<SkPDFArray> make_proc_set() {
	auto procSets = SkPDFMakeArray();
	static const char kProcs[][7] = { "PDF", "Text", "ImageB", "ImageC", "ImageI"};
	procSets->reserve(SK_ARRAY_COUNT(kProcs));
	for (const char* proc : kProcs) {
	procSets->appendName(proc);
	}
	return procSets;
	}

	std::unique_ptr<SkPDFDict> SkPDFMakeResourceDict(
	const std::vector<SkPDFIndirectReference>& graphicStateResources,
	const std::vector<SkPDFIndirectReference>& shaderResources,
	const std::vector<SkPDFIndirectReference>& xObjectResources,
	const std::vector<SkPDFIndirectReference>& fontResources) {
	auto dict = SkPDFMakeDict();
	dict->insertObject("ProcSet", make_proc_set());
	add_subdict(graphicStateResources, SkPDFResourceType::kExtGState, dict.get());
	add_subdict(shaderResources, SkPDFResourceType::kPattern, dict.get());
	add_subdict(xObjectResources, SkPDFResourceType::kXObject, dict.get());
	add_subdict(fontResources, SkPDFResourceType::kFont, dict.get());
	return dict;
	}