/* * Copyright 2012 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkTInternalSList.h" #include "Test.h" class SListEntry { public: SListEntry* next() { return getSListNext(); } private: SK_DECLARE_INTERNAL_SLIST_INTERFACE(SListEntry); }; static bool verifyEmptyList(skiatest::Reporter* reporter, const SkTInternalSList<SListEntry>& list, const char* stage) { if (!list.isEmpty()) { ERRORF(reporter, "%s - List not empty", stage); return false; } if (0 != list.getCount()) { ERRORF(reporter, "%s - List count is not zero, %d instead", stage, list.getCount()); return false; } if (NULL != list.head()) { ERRORF(reporter, "%s - List has elements when empty", stage); return false; } return true; } static bool verifyList(skiatest::Reporter* reporter, const SkTInternalSList<SListEntry>& list, const char* stage, SListEntry* start, int count, int step = 1) { SListEntry* next = list.head(); if (list.getCount() != count) { ERRORF(reporter, "%s - List was too short, %d instead of %d", stage, list.getCount(), count); return false; } int index = 0; for(SListEntry* value = start; index < count; value += step, ++index) { if (NULL == next) { ERRORF(reporter, "%s - List too short, should be %d", stage, count); return false; } if (next!= value) { ERRORF(reporter, "%s - List entries at index %d of %d don't match", stage, index, count); return false; } next = next->next(); } if (NULL != next) { ERRORF(reporter, "%s - List too long, should be %d", stage, count); return false; } return true; } static void testTInternalSList(skiatest::Reporter* reporter) { // Build a test array of data static const int testArraySize = 10; SListEntry testArray[testArraySize]; // Basic add remove tests SkTInternalSList<SListEntry> list; verifyEmptyList(reporter, list, "start"); // Push values in, testing on the way for (int index = 0; index < testArraySize; ++index) { list.push(&testArray[index]); if (!verifyList(reporter, list, "push", &testArray[index], index+1, -1)) { return; } } // Now remove them again for (int index = testArraySize - 1; index >= 0; --index) { REPORTER_ASSERT(reporter, &testArray[index] == list.pop()); if ((index != 0) && !verifyList(reporter, list, "pop", &testArray[index-1], index, -1)) { return; } } verifyEmptyList(reporter, list, "end"); // Move between list tests for (int index = 0; index < testArraySize; ++index) { list.push(&testArray[index]); } verifyList(reporter, list, "swap", &testArray[testArraySize-1], testArraySize, -1); SkTInternalSList<SListEntry> other; // Check swap moves the list over unchanged other.swap(&list); verifyEmptyList(reporter, list, "swap"); verifyList(reporter, other, "swap", &testArray[testArraySize-1], testArraySize, -1); // Check pushAll optimizes to a swap when one of the is empty list.pushAll(&other); verifyList(reporter, list, "pushAll-empty", &testArray[testArraySize-1], testArraySize, -1); verifyEmptyList(reporter, other, "pushAll-empty"); // Check pushAll when non empty works other.push(list.pop()); other.pushAll(&list); verifyEmptyList(reporter, list, "pushAll"); verifyList(reporter, other, "pushAll", &testArray[0], testArraySize, 1); } DEF_TEST(SList, reporter) { testTInternalSList(reporter); }