/* Copyright 2010 Google Inc. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ #include "GrDrawTarget.h" #include "GrTDArray.h" #include "GrTBSearch.h" #include "GrMatrix.h" #include "GrRedBlackTree.h" #include "GrPath.h" #include "GrBinHashKey.h" static void dump(const GrTDArray& array) { #if 0 for (int i = 0; i < array.count(); i++) { printf(" %d", array[i]); } printf("\n"); #endif } static void test_tdarray() { GrTDArray array; *array.append() = 0; dump(array); *array.append() = 2; dump(array); *array.append() = 4; dump(array); *array.append() = 6; dump(array); GrAssert(array.count() == 4); *array.insert(0) = -1; dump(array); *array.insert(2) = 1; dump(array); *array.insert(4) = 3; dump(array); *array.insert(7) = 7; dump(array); GrAssert(array.count() == 8); array.remove(3); dump(array); array.remove(0); dump(array); array.removeShuffle(4); dump(array); array.removeShuffle(1); dump(array); GrAssert(array.count() == 4); } static bool LT(const int& elem, int value) { return elem < value; } static bool EQ(const int& elem, int value) { return elem == value; } static void test_bsearch() { const int array[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 22, 33, 44, 55, 66, 77, 88, 99 }; for (size_t n = 0; n < GR_ARRAY_COUNT(array); n++) { for (size_t i = 0; i < n; i++) { int index = GrTBSearch(array, n, array[i]); GrAssert(index == i); index = GrTBSearch(array, n, -array[i]); GrAssert(index < 0); } } } // bogus empty class for GrBinHashKey class BogusEntry {}; static void test_binHashKey() { const char* testStringA = "abcdA"; const char* testStringB = "abcdB"; enum { kDataLenUsedForKey = 5 }; typedef GrBinHashKey KeyType; KeyType keyA; int passCnt = 0; while (keyA.doPass()) { ++passCnt; keyA.keyData(reinterpret_cast(testStringA), kDataLenUsedForKey); } GrAssert(passCnt == 1); //We expect the static allocation to suffice GrBinHashKey keyBust; passCnt = 0; while (keyBust.doPass()) { ++passCnt; // Exceed static storage by 1 keyBust.keyData(reinterpret_cast(testStringA), kDataLenUsedForKey); } GrAssert(passCnt == 2); //We expect dynamic allocation to be necessary GrAssert(keyA.getHash() == keyBust.getHash()); // Test that adding keyData in chunks gives // the same hash as with one chunk KeyType keyA2; while (keyA2.doPass()) { keyA2.keyData(reinterpret_cast(testStringA), 2); keyA2.keyData(&reinterpret_cast(testStringA)[2], kDataLenUsedForKey-2); } GrAssert(keyA.getHash() == keyA2.getHash()); KeyType keyB; while (keyB.doPass()){ keyB.keyData(reinterpret_cast(testStringB), kDataLenUsedForKey); } GrAssert(keyA.compare(keyB) < 0); GrAssert(keyA.compare(keyA2) == 0); //Test ownership tranfer and copying keyB.copyAndTakeOwnership(keyA); GrAssert(keyA.fIsValid == false); GrAssert(keyB.fIsValid); GrAssert(keyB.getHash() == keyA2.getHash()); GrAssert(keyB.compare(keyA2) == 0); keyA.deepCopyFrom(keyB); GrAssert(keyA.fIsValid); GrAssert(keyB.fIsValid); GrAssert(keyA.getHash() == keyA2.getHash()); GrAssert(keyA.compare(keyA2) == 0); //Test ownership tranfer and copying with key on heap GrBinHashKey keyBust2; keyBust2.deepCopyFrom(keyBust); GrAssert(keyBust.fIsValid); GrAssert(keyBust2.fIsValid); GrAssert(keyBust.getHash() == keyBust2.getHash()); GrAssert(keyBust.compare(keyBust2) == 0); GrBinHashKey keyBust3; keyBust3.deepCopyFrom(keyBust); GrAssert(keyBust.fIsValid == false); GrAssert(keyBust3.fIsValid); GrAssert(keyBust3.getHash() == keyBust2.getHash()); GrAssert(keyBust3.compare(keyBust2) == 0); } void gr_run_unittests() { test_tdarray(); test_bsearch(); test_binHashKey(); GrRedBlackTree::UnitTest(); GrPath::ConvexUnitTest(); GrDrawTarget::VertexLayoutUnitTest(); }