gcc/testsuite/gdc.test/runnable/testthread2.d - gcc - Git at Google

 // PERMUTE_ARGS:

 // Quick, dirty and inefficient AA using linear search, useful for testing.
 struct LinearAA(K, V) {
     K[] keys;
     V[] values;

     V opIndex(K key) {
         foreach(i, k; keys) {
             if(k == key) {
                 return values[i];
             }
         }

         assert(0, "Key not present.");
     }

     V opIndexAssign(V val, K key) {
         foreach(i, k; keys) {
             if(k == key) {
                 return values[i] = val;
             }
         }

         keys ~= key;
         values ~= val;
         return val;
     }

     V* opBinaryRight(string op : "in")(K key) {
         foreach(i, k; keys) {
             if(key == k) {
                 return values.ptr + i;
             }
         }

         return null;
     }

     void remove(K key) {
         size_t i = 0;
         for(; i < keys.length; i++) {
             if(keys[i] == key) {
                 break;
             }
         }

         assert(i < keys.length);

         for(; i < keys.length - 1; i++) {
             keys[i] = keys[i + 1];
             values[i] = values[i + 1];
         }

         keys = keys[0..$ - 1];
         values = values[0..$ - 1];
     }

     size_t length() {
         return values.length;
     }
 }

 extern (C) int rand();

 uint random(const uint max = uint.max)
 {
     version (Windows)
     {
         // RAND_MAX is quite low for windows, extend the range by
         // abusing multiple random values and rounding errors.
         const a = rand(), b = rand();
         const c = a < b ? double(a) / b : double(b) / a;
         return (cast(int) (c * max)) % max;
     }
     else
         return rand() % max;
 }

 void main()
 {
     foreach(iter; 0..10) {  // Bug only happens after a few iterations.

         uint[size_t] builtin;
         LinearAA!(size_t, uint) linAA;
         uint[] nums = new uint[100_000];
         foreach(ref num; nums) {
             num = random();
         }

         foreach(i; 0..10_000) {
             auto index = random(cast(uint) nums.length);
             if(index in builtin) {
                 assert(index in linAA);
                 assert(builtin[index] == nums[index]);
                 assert(linAA[index] == nums[index]);
                 builtin.remove(index);
                 linAA.remove(index);
             } else {
                 assert(!(index in linAA));
                 builtin[index] = nums[index];
                 linAA[index] = nums[index];
             }
         }

         assert(builtin.length == linAA.length);
         foreach(k, v; builtin) {
             assert(k in linAA);
             assert(*(k in builtin) == *(k in linAA));
             assert(linAA[k] == v);
         }
     }
 }
	// PERMUTE_ARGS:

	// Quick, dirty and inefficient AA using linear search, useful for testing.
	struct LinearAA(K, V) {
	K[] keys;
	V[] values;

	V opIndex(K key) {
	foreach(i, k; keys) {
	if(k == key) {
	return values[i];
	}
	}

	assert(0, "Key not present.");
	}

	V opIndexAssign(V val, K key) {
	foreach(i, k; keys) {
	if(k == key) {
	return values[i] = val;
	}
	}

	keys ~= key;
	values ~= val;
	return val;
	}

	V* opBinaryRight(string op : "in")(K key) {
	foreach(i, k; keys) {
	if(key == k) {
	return values.ptr + i;
	}
	}

	return null;
	}

	void remove(K key) {
	size_t i = 0;
	for(; i < keys.length; i++) {
	if(keys[i] == key) {
	break;
	}
	}

	assert(i < keys.length);

	for(; i < keys.length - 1; i++) {
	keys[i] = keys[i + 1];
	values[i] = values[i + 1];
	}

	keys = keys[0..$ - 1];
	values = values[0..$ - 1];
	}

	size_t length() {
	return values.length;
	}
	}

	extern (C) int rand();

	uint random(const uint max = uint.max)
	{
	version (Windows)
	{
	// RAND_MAX is quite low for windows, extend the range by
	// abusing multiple random values and rounding errors.
	const a = rand(), b = rand();
	const c = a < b ? double(a) / b : double(b) / a;
	return (cast(int) (c * max)) % max;
	}
	else
	return rand() % max;
	}

	void main()
	{
	foreach(iter; 0..10) { // Bug only happens after a few iterations.

	uint[size_t] builtin;
	LinearAA!(size_t, uint) linAA;
	uint[] nums = new uint[100_000];
	foreach(ref num; nums) {
	num = random();
	}

	foreach(i; 0..10_000) {
	auto index = random(cast(uint) nums.length);
	if(index in builtin) {
	assert(index in linAA);
	assert(builtin[index] == nums[index]);
	assert(linAA[index] == nums[index]);
	builtin.remove(index);
	linAA.remove(index);
	} else {
	assert(!(index in linAA));
	builtin[index] = nums[index];
	linAA[index] = nums[index];
	}
	}

	assert(builtin.length == linAA.length);
	foreach(k, v; builtin) {
	assert(k in linAA);
	assert((k in builtin) == (k in linAA));
	assert(linAA[k] == v);
	}
	}
	}