/* * Copyright 2019-2020 Hans-Kristian Arntzen * * 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 "spirv_cross.hpp" #include using namespace spirv_cross; // Test the tricky bits of the implementation. // Running the entire test suite on this implementation should find all other potential issues. static int allocations = 0; static int deallocations = 0; #define SPVC_ASSERT(x) do { \ if (!(x)) SPIRV_CROSS_THROW("Assert: " #x " failed!"); \ } while(0) struct RAIIInt { RAIIInt(int v_) : v(v_) { allocations++; } ~RAIIInt() { deallocations++; } RAIIInt() { allocations++; } RAIIInt(const RAIIInt &other) { v = other.v; allocations++; } RAIIInt(RAIIInt &&other) SPIRV_CROSS_NOEXCEPT { v = other.v; allocations++; } RAIIInt &operator=(RAIIInt &&) = default; RAIIInt &operator=(const RAIIInt &) = default; int v = 0; }; static void propagate_stack_to_heap() { SmallVector ints; ints.emplace_back(1); ints.emplace_back(2); auto *old_data = ints.data(); SPVC_ASSERT(ints[0].v == 1); SPVC_ASSERT(ints[1].v == 2); ints.emplace_back(3); SPVC_ASSERT(old_data != ints.data()); SPVC_ASSERT(ints[0].v == 1); SPVC_ASSERT(ints[1].v == 2); SPVC_ASSERT(ints[2].v == 3); SPVC_ASSERT(ints.size() == 3); } static void insert_end() { SmallVector ints; ints.emplace_back(1); ints.emplace_back(2); const RAIIInt new_ints[3] = { 10, 20, 30 }; ints.insert(ints.end(), new_ints, new_ints + 3); SPVC_ASSERT(ints.size() == 5); SPVC_ASSERT(ints[0].v == 1); SPVC_ASSERT(ints[1].v == 2); SPVC_ASSERT(ints[2].v == 10); SPVC_ASSERT(ints[3].v == 20); SPVC_ASSERT(ints[4].v == 30); } static void insert_begin_realloc() { SmallVector ints; ints.emplace_back(1); ints.emplace_back(2); const RAIIInt new_ints[3] = { 10, 20, 30 }; ints.insert(ints.begin(), new_ints, new_ints + 3); SPVC_ASSERT(ints.size() == 5); SPVC_ASSERT(ints[0].v == 10); SPVC_ASSERT(ints[1].v == 20); SPVC_ASSERT(ints[2].v == 30); SPVC_ASSERT(ints[3].v == 1); SPVC_ASSERT(ints[4].v == 2); } static void insert_middle_realloc() { SmallVector ints; ints.emplace_back(1); ints.emplace_back(2); const RAIIInt new_ints[3] = { 10, 20, 30 }; ints.insert(ints.begin() + 1, new_ints, new_ints + 3); SPVC_ASSERT(ints.size() == 5); SPVC_ASSERT(ints[0].v == 1); SPVC_ASSERT(ints[1].v == 10); SPVC_ASSERT(ints[2].v == 20); SPVC_ASSERT(ints[3].v == 30); SPVC_ASSERT(ints[4].v == 2); } static void insert_begin_no_realloc() { SmallVector ints; ints.reserve(10); ints.emplace_back(1); ints.emplace_back(2); const RAIIInt new_ints[3] = { 10, 20, 30 }; ints.insert(ints.begin(), new_ints, new_ints + 3); SPVC_ASSERT(ints.size() == 5); SPVC_ASSERT(ints[0].v == 10); SPVC_ASSERT(ints[1].v == 20); SPVC_ASSERT(ints[2].v == 30); SPVC_ASSERT(ints[3].v == 1); SPVC_ASSERT(ints[4].v == 2); } static void insert_middle_no_realloc() { SmallVector ints; ints.reserve(10); ints.emplace_back(1); ints.emplace_back(2); const RAIIInt new_ints[3] = { 10, 20, 30 }; ints.insert(ints.begin() + 1, new_ints, new_ints + 3); SPVC_ASSERT(ints.size() == 5); SPVC_ASSERT(ints[0].v == 1); SPVC_ASSERT(ints[1].v == 10); SPVC_ASSERT(ints[2].v == 20); SPVC_ASSERT(ints[3].v == 30); SPVC_ASSERT(ints[4].v == 2); } static void erase_end() { SmallVector ints; ints.emplace_back(1); ints.emplace_back(2); ints.emplace_back(3); ints.emplace_back(4); ints.erase(ints.begin() + 1, ints.end()); SPVC_ASSERT(ints.size() == 1); SPVC_ASSERT(ints[0].v == 1); } static void erase_middle() { SmallVector ints; ints.emplace_back(1); ints.emplace_back(2); ints.emplace_back(3); ints.emplace_back(4); ints.erase(ints.begin() + 1, ints.end() - 1); SPVC_ASSERT(ints.size() == 2); SPVC_ASSERT(ints[0].v == 1); SPVC_ASSERT(ints[1].v == 4); } static void erase_start() { SmallVector ints; ints.emplace_back(1); ints.emplace_back(2); ints.emplace_back(3); ints.emplace_back(4); ints.erase(ints.begin(), ints.end() - 2); SPVC_ASSERT(ints.size() == 2); SPVC_ASSERT(ints[0].v == 3); SPVC_ASSERT(ints[1].v == 4); } static void convert_to_std_vector() { SmallVector foo; foo.push_back(1); foo.push_back(2); std::vector ints(foo); SPVC_ASSERT(ints.size() == 2); SPVC_ASSERT(foo.size() == 2); SPVC_ASSERT(ints[0].v == 1); SPVC_ASSERT(ints[1].v == 2); // This doesn't work on MSVC 2013. Ignore it. #if !(defined(_MSC_VER) && _MSC_VER < 1900) SmallVector> move_only_buffer; move_only_buffer.emplace_back(new RAIIInt(40)); std::vector> move_only_vector(std::move(move_only_buffer)); SPVC_ASSERT(move_only_vector.size() == 1); SPVC_ASSERT(move_only_vector[0]->v == 40); #endif } int main() { propagate_stack_to_heap(); insert_end(); insert_begin_realloc(); insert_begin_no_realloc(); insert_middle_realloc(); insert_middle_no_realloc(); erase_end(); erase_middle(); erase_start(); convert_to_std_vector(); SPVC_ASSERT(allocations > 0 && deallocations > 0 && deallocations == allocations); }