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      1 #ifndef SkRecordPattern_DEFINED
      2 #define SkRecordPattern_DEFINED
      3 
      4 #include "SkTLogic.h"
      5 
      6 namespace SkRecords {
      7 
      8 // First, some matchers.  These match a single command in the SkRecord,
      9 // and may hang onto some data from it.  If so, you can get the data by calling .get().
     10 
     11 // Matches a command of type T, and stores that command.
     12 template <typename T>
     13 class Is {
     14 public:
     15     Is() : fPtr(NULL) {}
     16 
     17     typedef T type;
     18     type* get() { return fPtr; }
     19 
     20     bool operator()(T* ptr) {
     21         fPtr = ptr;
     22         return true;
     23     }
     24 
     25     template <typename U>
     26     bool operator()(U*) {
     27         fPtr = NULL;
     28         return false;
     29     }
     30 
     31 private:
     32     type* fPtr;
     33 };
     34 
     35 // Matches any command that draws, and stores its paint.
     36 class IsDraw {
     37     SK_CREATE_MEMBER_DETECTOR(paint);
     38 public:
     39     IsDraw() : fPaint(NULL) {}
     40 
     41     typedef SkPaint type;
     42     type* get() { return fPaint; }
     43 
     44     template <typename T>
     45     SK_WHEN(HasMember_paint<T>, bool) operator()(T* draw) {
     46         fPaint = AsPtr(draw->paint);
     47         return true;
     48     }
     49 
     50     template <typename T>
     51     SK_WHEN(!HasMember_paint<T>, bool) operator()(T*) {
     52         fPaint = NULL;
     53         return false;
     54     }
     55 
     56     // SaveLayer has an SkPaint named paint, but it's not a draw.
     57     bool operator()(SaveLayer*) {
     58         fPaint = NULL;
     59         return false;
     60     }
     61 
     62 private:
     63     // Abstracts away whether the paint is always part of the command or optional.
     64     template <typename T> static T* AsPtr(SkRecords::Optional<T>& x) { return x; }
     65     template <typename T> static T* AsPtr(T& x) { return &x; }
     66 
     67     type* fPaint;
     68 };
     69 
     70 // Matches if Matcher doesn't.  Stores nothing.
     71 template <typename Matcher>
     72 struct Not {
     73     template <typename T>
     74     bool operator()(T* ptr) { return !Matcher()(ptr); }
     75 };
     76 
     77 // Matches if either of A or B does.  Stores nothing.
     78 template <typename A, typename B>
     79 struct Or {
     80     template <typename T>
     81     bool operator()(T* ptr) { return A()(ptr) || B()(ptr); }
     82 };
     83 
     84 // Matches if any of A, B or C does.  Stores nothing.
     85 template <typename A, typename B, typename C>
     86 struct Or3 : Or<A, Or<B, C> > {};
     87 
     88 // Matches if any of A, B, C or D does.  Stores nothing.
     89 template <typename A, typename B, typename C, typename D>
     90 struct Or4 : Or<A, Or<B, Or<C, D> > > {};
     91 
     92 // Star is a special matcher that greedily matches Matcher 0 or more times.  Stores nothing.
     93 template <typename Matcher>
     94 struct Star {
     95     template <typename T>
     96     bool operator()(T* ptr) { return Matcher()(ptr); }
     97 };
     98 
     99 // Cons builds a list of Matchers.
    100 // It first matches Matcher (something from above), then Pattern (another Cons or Nil).
    101 //
    102 // This is the main entry point to pattern matching, and so provides a couple of extra API bits:
    103 //  - search scans through the record to look for matches;
    104 //  - first, second, and third return the data stored by their respective matchers in the pattern.
    105 //
    106 // These Cons build lists analogously to Lisp's "cons".  See Pattern# for the "list" equivalent.
    107 template <typename Matcher, typename Pattern>
    108 class Cons {
    109 public:
    110     // If this pattern matches the SkRecord starting at i,
    111     // return the index just past the end of the pattern, otherwise return 0.
    112     SK_ALWAYS_INLINE unsigned match(SkRecord* record, unsigned i) {
    113         i = this->matchHead(&fHead, record, i);
    114         return i == 0 ? 0 : fTail.match(record, i);
    115     }
    116 
    117     // Starting from *end, walk through the SkRecord to find the first span matching this pattern.
    118     // If there is no such span, return false.  If there is, return true and set [*begin, *end).
    119     SK_ALWAYS_INLINE bool search(SkRecord* record, unsigned* begin, unsigned* end) {
    120         for (*begin = *end; *begin < record->count(); ++(*begin)) {
    121             *end = this->match(record, *begin);
    122             if (*end != 0) {
    123                 return true;
    124             }
    125         }
    126         return false;
    127     }
    128 
    129     // Once either match or search has succeeded, access the stored data of the first, second,
    130     // or third matcher in this pattern.  Add as needed for longer patterns.
    131     // T is checked statically at compile time; no casting is involved.  It's just an API wart.
    132     template <typename T> T* first()  { return fHead.get(); }
    133     template <typename T> T* second() { return fTail.fHead.get(); }
    134     template <typename T> T* third()  { return fTail.fTail.fHead.get(); }
    135     template <typename T> T* fourth()  { return fTail.fTail.fTail.fHead.get(); }
    136 
    137 private:
    138     // If head isn't a Star, try to match at i once.
    139     template <typename T>
    140     unsigned matchHead(T*, SkRecord* record, unsigned i) {
    141         if (i < record->count()) {
    142             if (record->mutate<bool>(i, fHead)) {
    143                 return i+1;
    144             }
    145         }
    146         return 0;
    147     }
    148 
    149     // If head is a Star, walk i until it doesn't match.
    150     template <typename T>
    151     unsigned matchHead(Star<T>*, SkRecord* record, unsigned i) {
    152         while (i < record->count()) {
    153             if (!record->mutate<bool>(i, fHead)) {
    154                 return i;
    155             }
    156             i++;
    157         }
    158         return 0;
    159     }
    160 
    161     Matcher fHead;
    162     Pattern fTail;
    163 
    164     // All Cons are friends with each other.  This lets first, second, and third work.
    165     template <typename, typename> friend class Cons;
    166 };
    167 
    168 // Nil is the end of every pattern Cons chain.
    169 struct Nil {
    170     // Bottoms out recursion down the fTail chain.  Just return whatever i the front decided on.
    171     unsigned match(SkRecord*, unsigned i) { return i; }
    172 };
    173 
    174 // These Pattern# types are syntax sugar over Cons and Nil, just to help eliminate some of the
    175 // template noise.  Use these if you can.  Feel free to add more for longer patterns.
    176 // All types A, B, C, ... are Matchers.
    177 template <typename A>
    178 struct Pattern1 : Cons<A, Nil> {};
    179 
    180 template <typename A, typename B>
    181 struct Pattern2 : Cons<A, Pattern1<B> > {};
    182 
    183 template <typename A, typename B, typename C>
    184 struct Pattern3 : Cons<A, Pattern2<B, C> > {};
    185 
    186 template <typename A, typename B, typename C, typename D>
    187 struct Pattern4 : Cons<A, Pattern3<B, C, D> > {};
    188 
    189 template <typename A, typename B, typename C, typename D, typename E>
    190 struct Pattern5 : Cons<A, Pattern4<B, C, D, E> > {};
    191 
    192 template <typename A, typename B, typename C, typename D, typename E, typename F>
    193 struct Pattern6 : Cons<A, Pattern5<B, C, D, E, F> > {};
    194 
    195 template <typename A, typename B, typename C, typename D, typename E, typename F, typename G>
    196 struct Pattern7 : Cons<A, Pattern6<B, C, D, E, F, G> > {};
    197 
    198 }  // namespace SkRecords
    199 
    200 #endif//SkRecordPattern_DEFINED
    201