1 /* 2 * Copyright 2015 Google Inc. 3 * 4 * Use of this source code is governed by a BSD-style license that can be 5 * found in the LICENSE file. 6 */ 7 8 #ifndef SkRecordPattern_DEFINED 9 #define SkRecordPattern_DEFINED 10 11 #include "include/private/SkTLogic.h" 12 #include "src/core/SkRecord.h" 13 14 namespace SkRecords { 15 16 // First, some matchers. These match a single command in the SkRecord, 17 // and may hang onto some data from it. If so, you can get the data by calling .get(). 18 19 // Matches a command of type T, and stores that command. 20 template <typename T> 21 class Is { 22 public: Is()23 Is() : fPtr(nullptr) {} 24 25 typedef T type; get()26 type* get() { return fPtr; } 27 operator()28 bool operator()(T* ptr) { 29 fPtr = ptr; 30 return true; 31 } 32 33 template <typename U> operator()34 bool operator()(U*) { 35 fPtr = nullptr; 36 return false; 37 } 38 39 private: 40 type* fPtr; 41 }; 42 43 // Matches any command that draws, and stores its paint. 44 class IsDraw { 45 public: IsDraw()46 IsDraw() : fPaint(nullptr) {} 47 48 typedef SkPaint type; get()49 type* get() { return fPaint; } 50 51 template <typename T> 52 std::enable_if_t<(T::kTags & kDrawWithPaint_Tag) == kDrawWithPaint_Tag, bool> operator()53 operator()(T* draw) { 54 fPaint = AsPtr(draw->paint); 55 return true; 56 } 57 58 template <typename T> operator()59 std::enable_if_t<(T::kTags & kDrawWithPaint_Tag) == kDraw_Tag, bool> operator()(T* draw) { 60 fPaint = nullptr; 61 return true; 62 } 63 64 template <typename T> operator()65 std::enable_if_t<!(T::kTags & kDraw_Tag), bool> operator()(T* draw) { 66 fPaint = nullptr; 67 return false; 68 } 69 70 private: 71 // Abstracts away whether the paint is always part of the command or optional. AsPtr(SkRecords::Optional<T> & x)72 template <typename T> static T* AsPtr(SkRecords::Optional<T>& x) { return x; } AsPtr(T & x)73 template <typename T> static T* AsPtr(T& x) { return &x; } 74 75 type* fPaint; 76 }; 77 78 // Matches if Matcher doesn't. Stores nothing. 79 template <typename Matcher> 80 struct Not { 81 template <typename T> operatorNot82 bool operator()(T* ptr) { return !Matcher()(ptr); } 83 }; 84 85 // Matches if any of First or Rest... does. Stores nothing. 86 template <typename First, typename... Rest> 87 struct Or { 88 template <typename T> operatorOr89 bool operator()(T* ptr) { return First()(ptr) || Or<Rest...>()(ptr); } 90 }; 91 template <typename First> 92 struct Or<First> { 93 template <typename T> 94 bool operator()(T* ptr) { return First()(ptr); } 95 }; 96 97 98 // Greedy is a special matcher that greedily matches Matcher 0 or more times. Stores nothing. 99 template <typename Matcher> 100 struct Greedy { 101 template <typename T> 102 bool operator()(T* ptr) { return Matcher()(ptr); } 103 }; 104 105 // Pattern matches each of its matchers in order. 106 // 107 // This is the main entry point to pattern matching, and so provides a couple of extra API bits: 108 // - search scans through the record to look for matches; 109 // - first, second, third, ... return the data stored by their respective matchers in the pattern. 110 111 template <typename... Matchers> class Pattern; 112 113 template <> class Pattern<> { 114 public: 115 // Bottoms out recursion. Just return whatever i the front decided on. 116 int match(SkRecord*, int i) { return i; } 117 }; 118 119 template <typename First, typename... Rest> 120 class Pattern<First, Rest...> { 121 public: 122 // If this pattern matches the SkRecord starting from i, 123 // return the index just past the end of the pattern, otherwise return 0. 124 SK_ALWAYS_INLINE int match(SkRecord* record, int i) { 125 i = this->matchFirst(&fFirst, record, i); 126 return i > 0 ? fRest.match(record, i) : 0; 127 } 128 129 // Starting from *end, walk through the SkRecord to find the first span matching this pattern. 130 // If there is no such span, return false. If there is, return true and set [*begin, *end). 131 SK_ALWAYS_INLINE bool search(SkRecord* record, int* begin, int* end) { 132 for (*begin = *end; *begin < record->count(); ++(*begin)) { 133 *end = this->match(record, *begin); 134 if (*end != 0) { 135 return true; 136 } 137 } 138 return false; 139 } 140 141 // TODO: some sort of smart get<i>() 142 template <typename T> T* first() { return fFirst.get(); } 143 template <typename T> T* second() { return fRest.template first<T>(); } 144 template <typename T> T* third() { return fRest.template second<T>(); } 145 template <typename T> T* fourth() { return fRest.template third<T>(); } 146 147 private: 148 // If first isn't a Greedy, try to match at i once. 149 template <typename T> 150 int matchFirst(T* first, SkRecord* record, int i) { 151 if (i < record->count()) { 152 if (record->mutate(i, *first)) { 153 return i+1; 154 } 155 } 156 return 0; 157 } 158 159 // If first is a Greedy, walk i until it doesn't match. 160 template <typename T> 161 int matchFirst(Greedy<T>* first, SkRecord* record, int i) { 162 while (i < record->count()) { 163 if (!record->mutate(i, *first)) { 164 return i; 165 } 166 i++; 167 } 168 return 0; 169 } 170 171 First fFirst; 172 Pattern<Rest...> fRest; 173 }; 174 175 } // namespace SkRecords 176 177 #endif//SkRecordPattern_DEFINED 178