// Copyright 2014 The Emscripten Authors. All rights reserved.

// Emscripten is available under two separate licenses, the MIT license and the

// University of Illinois/NCSA Open Source License. Both these licenses can be

// found in the LICENSE file.

//------------------------------------------------------------------------------

// test C++11 atomics

// compile native version with:

// clang -Wno-format test_atomic_cxx.cpp

// compile emscripten version with:

// emcc -Wno-format test_atomic_cxx.cpp

//------------------------------------------------------------------------------

#include <atomic>

#include <cstdio>

template<typename TYPE, typename UNSIGNED_TYPE> void test(TYPE mask0, TYPE mask1, TYPE mask2) {

typedef TYPE dog;

const TYPE numMemoryOrders = 6;

std::memory_order memoryOrder[numMemoryOrders] = {

std::memory_order_relaxed,

std::memory_order_consume,

std::memory_order_acquire,

std::memory_order_release,

std::memory_order_acq_rel,

std::memory_order_seq_cst,

};

// test atomic<int>

std::atomic<dog> atomicDog(5);

if (sizeof(TYPE) < 8) {

printf("atomic<int>.is_lock_free(): %s\n", atomicDog.is_lock_free() ? "true" : "false");

} else {

printf("atomic<int>.is_lock_free(): %s\n", atomicDog.is_lock_free() == IS_64BIT_LOCK_FREE ? "ok" : "bad :(");

}

printf("atomic<int> value: %lld\n", (long long)TYPE(atomicDog));

// test store/load

for (TYPE i = 0; i < numMemoryOrders; i++) {

atomicDog.store(i, memoryOrder[i]);

printf("store/load %lld: %lld\n", (long long)i, (long long)atomicDog.load(memoryOrder[i]));

}

// test exchange

for (TYPE i = 0; i < numMemoryOrders; i++) {

TYPE old = atomicDog.exchange(i, memoryOrder[i]);

printf("exchange %lld: old=%lld new=%lld\n", (long long)i, (long long)old, (long long)TYPE(atomicDog));

}

// compare_exchange_weak

for (TYPE i = 0; i < numMemoryOrders; i++) {

bool success = atomicDog.compare_exchange_weak(i, i + 1, memoryOrder[i], memoryOrder[i]);

printf("compare_exchange_weak %lld: success = %s\n", (long long)i, success ? "true" : "false");

}

// compare_exchange_strong

for (TYPE i = 0; i < numMemoryOrders; i++) {

bool success = atomicDog.compare_exchange_strong(i, i + 1, memoryOrder[i], memoryOrder[i]);

printf("compare_exchange_strong %lld: success = %s\n", (long long)i, success ? "true" : "false");

}

// fetch_add

atomicDog = mask2;

for (TYPE i = 0; i < numMemoryOrders; i++) {

TYPE old = atomicDog.fetch_add(1, memoryOrder[i]);

printf("fetch_add %lld: old=%llx new=%llx\n", (long long)i, (long long)old, (long long)TYPE(atomicDog));

}

// fetch_sub

for (TYPE i = 0; i < numMemoryOrders; i++) {

TYPE old = atomicDog.fetch_sub(1, memoryOrder[i]);

printf("fetch_sub %lld: old=%llx new=%llx\n", (long long)i, (long long)old, (long long)TYPE(atomicDog));

}

// fetch_and

for (TYPE i = 0; i < numMemoryOrders; i++) {

atomicDog.store(mask0, memoryOrder[i]);

TYPE old = atomicDog.fetch_and((1<<i), memoryOrder[i]);

printf("fetch_and %lld: old=%llx, new=%llx\n", (long long)i, (unsigned long long)UNSIGNED_TYPE(old), (unsigned long long)UNSIGNED_TYPE(atomicDog));

}

// fetch_or

atomicDog = 0;

for (TYPE i = 0; i < numMemoryOrders; i++) {

TYPE old = atomicDog.fetch_or((1<<i), memoryOrder[i]);

printf("fetch_or %lld: old=%llx, new=%llx\n", (long long)i, (unsigned long long)UNSIGNED_TYPE(old), (unsigned long long)UNSIGNED_TYPE(atomicDog));

}

// fetch_xor

atomicDog = 0;

for (int i = 0; i < numMemoryOrders; i++) {

int old = atomicDog.fetch_xor((1<<i), memoryOrder[i]);

printf("fetch_xor %lld: old=%llx, new=%llx\n", (long long)i, (unsigned long long)UNSIGNED_TYPE(old), (unsigned long long)UNSIGNED_TYPE(atomicDog));

}

// operator++, --

atomicDog = 0;

atomicDog++;

printf("operator++: %lld\n", (long long)TYPE(atomicDog));

atomicDog--;

printf("operator--: %lld\n", (long long)TYPE(atomicDog));

// operator +=, -=, &=, |=, ^=

atomicDog += 10;

printf("operator+=: %lld\n", (long long)TYPE(atomicDog));

atomicDog -= 5;

printf("operator-=: %lld\n", (long long)TYPE(atomicDog));

atomicDog |= mask0;

printf("operator|=: %llx\n", (unsigned long long)UNSIGNED_TYPE(atomicDog));

atomicDog &= mask1;

printf("operator&=: %llx\n", (unsigned long long)UNSIGNED_TYPE(atomicDog));

atomicDog ^= mask2;

printf("operator^=: %llx\n", (unsigned long long)UNSIGNED_TYPE(atomicDog));

}

int main() {

// test 8, 16, 32 and 64-bit data types

printf("\n8 bits\n\n");

test<char, unsigned char>(0xFF, 0xF0, 0x0F);

printf("\n16 bits\n\n");

test<short, unsigned short>(0xFFFF, 0xF0F0, 0x0F0F);

printf("\n32 bits\n\n");

test<int, unsigned int>(0xFFFFFFFF, 0xF0F0F0F0, 0x0F0F0F0F);

printf("\n64 bits\n\n");

test<long long, unsigned long long>(0xFFFFFFFFFFFFFFFF, 0xF0F0F0F0F0F0F0F0, 0x0F0F0F0F0F0F0F0F);

// test atomic_flag (should also have memory_orders, but probably doesn't matter

// to find the missing atomic functions)

std::atomic_flag af;

af.clear();

bool b = af.test_and_set();

printf("atomic_flag: %s\n", b ? "true" : "false");

printf("done.\n");

return 0;

}