OLD | NEW |
1 #ifndef RecordTestUtils_DEFINED | 1 #ifndef RecordTestUtils_DEFINED |
2 #define RecordTestUtils_DEFINED | 2 #define RecordTestUtils_DEFINED |
3 | 3 |
4 #include "SkRecord.h" | 4 #include "SkRecord.h" |
5 #include "SkRecords.h" | 5 #include "SkRecords.h" |
6 | 6 |
7 // If the command we're reading is a U, set ptr to it, otherwise set it to NULL. | 7 // If the command we're reading is a U, set ptr to it, otherwise set it to NULL. |
8 template <typename U> | 8 template <typename U> |
9 struct ReadAs { | 9 struct ReadAs { |
10 ReadAs() : ptr(NULL), type(SkRecords::Type(~0)) {} | 10 ReadAs() : ptr(NULL), type(SkRecords::Type(~0)) {} |
11 | 11 |
12 const U* ptr; | 12 const U* ptr; |
13 SkRecords::Type type; | 13 SkRecords::Type type; |
14 | 14 |
15 void operator()(const U& r) { ptr = &r; type = U::kType; } | 15 void operator()(const U& r) { ptr = &r; type = U::kType; } |
16 | 16 |
17 template <typename T> | 17 template <typename T> |
18 void operator()(const T&) { type = U::kType; } | 18 void operator()(const T&) { type = U::kType; } |
19 }; | 19 }; |
20 | 20 |
21 // Assert that the ith command in record is of type T, and return it. | 21 // Assert that the ith command in record is of type T, and return it. |
22 template <typename T> | 22 template <typename T> |
23 static const T* assert_type(skiatest::Reporter* r, const SkRecord& record, unsig
ned index) { | 23 static const T* assert_type(skiatest::Reporter* r, const SkRecord& record, unsig
ned index) { |
24 ReadAs<T> reader; | 24 ReadAs<T> reader; |
25 record.visit<void>(index, reader); | 25 record.visit<void>(index, reader); |
26 REPORTER_ASSERT(r, T::kType == reader.type); | 26 REPORTER_ASSERT(r, T::kType == reader.type); |
27 REPORTER_ASSERT(r, NULL != reader.ptr); | 27 REPORTER_ASSERT(r, SkToBool(reader.ptr)); |
28 return reader.ptr; | 28 return reader.ptr; |
29 } | 29 } |
30 | 30 |
31 #endif//RecordTestUtils_DEFINED | 31 #endif//RecordTestUtils_DEFINED |
OLD | NEW |