libphobos/testsuite/libphobos.aa/test_aa.d - gcc - Git at Google

 void main()
 {
     testKeysValues1();
     testKeysValues2();
     testGet1();
     testGet2();
     testRequire1();
     testRequire2();
     testRequire3();
     testUpdate1();
     testUpdate2();
     testByKey1();
     testByKey2();
     testByKey3();
     testByKey4();
     issue5842();
     issue5842Expanded();
     issue5925();
     issue8583();
     issue9052();
     issue9119();
     issue9852();
     issue10381();
     issue10720();
     issue11761();
     issue13078();
     issue14104();
     issue14626();
     issue15290();
     issue15367();
     issue16974();
     issue18071();
     testIterationWithConst();
     testStructArrayKey();
     miscTests1();
     miscTests2();
     testRemove();
     testZeroSizedValue();
     testTombstonePurging();
     testClear();
 }

 void testKeysValues1()
 {
     static struct T
     {
         byte b;
         static size_t count;
         this(this) { ++count; }
     }
     T[int] aa;
     T t;
     aa[0] = t;
     aa[1] = t;
     assert(T.count == 2);
     auto vals = aa.values;
     assert(vals.length == 2);
     assert(T.count == 4);

     T.count = 0;
     int[T] aa2;
     aa2[t] = 0;
     assert(T.count == 1);
     aa2[t] = 1;
     assert(T.count == 1);
     auto keys = aa2.keys;
     assert(keys.length == 1);
     assert(T.count == 2);
 }

 void testKeysValues2() nothrow pure
 {
     int[string] aa;

     assert(aa.keys.length == 0);
     assert(aa.values.length == 0);

     aa["hello"] = 3;
     assert(aa["hello"] == 3);
     aa["hello"]++;
     assert(aa["hello"] == 4);

     assert(aa.length == 1);

     string[] keys = aa.keys;
     assert(keys.length == 1);
     assert(keys[0] == "hello");

     int[] values = aa.values;
     assert(values.length == 1);
     assert(values[0] == 4);

     aa.rehash;
     assert(aa.length == 1);
     assert(aa["hello"] == 4);

     aa["foo"] = 1;
     aa["bar"] = 2;
     aa["batz"] = 3;

     assert(aa.keys.length == 4);
     assert(aa.values.length == 4);

     foreach (a; aa.keys)
     {
         assert(a.length != 0);
         assert(a.ptr != null);
     }

     foreach (v; aa.values)
     {
         assert(v != 0);
     }
 }

 void testGet1() @safe
 {
     int[string] aa;
     int a;
     foreach (val; aa.byKeyValue)
     {
         ++aa[val.key];
         a = val.value;
     }
 }

 void testGet2()
 {
     static class T
     {
         static size_t count;
         this() { ++count; }
     }

     T[string] aa;

     auto a = new T;
     aa["foo"] = a;
     assert(T.count == 1);
     auto b = aa.get("foo", new T);
     assert(T.count == 1);
     assert(b is a);
     auto c = aa.get("bar", new T);
     assert(T.count == 2);
     assert(c !is a);

     //Obviously get doesn't add.
     assert("bar" !in aa);
 }

 void testRequire1()
 {
     static class T
     {
         static size_t count;
         this() { ++count; }
     }

     T[string] aa;

     auto a = new T;
     aa["foo"] = a;
     assert(T.count == 1);
     auto b = aa.require("foo", new T);
     assert(T.count == 1);
     assert(b is a);
     auto c = aa.require("bar", null);
     assert(T.count == 1);
     assert(c is null);
     assert("bar" in aa);
     auto d = aa.require("bar", new T);
     assert(d is null);
     auto e = aa.require("baz", new T);
     assert(T.count == 2);
     assert(e !is a);

     assert("baz" in aa);

     bool created = false;
     auto f = aa.require("qux", { created = true; return new T; }());
     assert(created == true);

     T g;
     auto h = aa.require("qux", { g = new T; return g; }());
     assert(g !is h);
 }

 void testRequire2()
 {
     static struct S
     {
         int value;
     }

     S[string] aa;

     aa.require("foo").value = 1;
     assert(aa == ["foo" : S(1)]);

     aa["bar"] = S(2);
     auto a = aa.require("bar", S(3));
     assert(a == S(2));

     auto b = aa["bar"];
     assert(b == S(2));

     S* c = &aa.require("baz", S(4));
     assert(c is &aa["baz"]);
     assert(*c == S(4));

     assert("baz" in aa);

     auto d = aa["baz"];
     assert(d == S(4));
 }

 void testRequire3() pure
 {
     string[string] aa;

     auto a = aa.require("foo", "bar");
     assert("foo" in aa);
 }


 void testUpdate1()
 {
     static class C {}
     C[string] aa;

     C orig = new C;
     aa["foo"] = orig;

     C newer;
     C older;

     void test(string key)
     {
         aa.update(key, {
             newer = new C;
             return newer;
         }, (ref C c) {
             older = c;
             newer = new C;
             return newer;
         });
     }

     test("foo");
     assert(older is orig);
     assert(newer is aa["foo"]);

     test("bar");
     assert(newer is aa["bar"]);
 }

 void testUpdate2()
 {
     static class C {}
     C[string] aa;

     auto created = false;
     auto updated = false;

     class Creator
     {
         C opCall()
         {
             created = true;
             return new C();
         }
     }

     class Updater
     {
         C opCall(ref C)
         {
             updated = true;
             return new C();
         }
     }

     aa.update("foo", new Creator, new Updater);
     assert(created);
     aa.update("foo", new Creator, new Updater);
     assert(updated);
 }

 void testByKey1()
 {
     static assert(!__traits(compiles,
         () @safe {
             struct BadValue
             {
                 int x;
                 this(this) @safe { *(cast(ubyte*)(null) + 100000) = 5; } // not @safe
                 alias x this;
             }

             BadValue[int] aa;
             () @safe { auto x = aa.byKey.front; } ();
         }
     ));
 }

 void testByKey2() nothrow pure
 {
     int[int] a;
     foreach (i; a.byKey)
     {
         assert(false);
     }
     foreach (i; a.byValue)
     {
         assert(false);
     }
 }

 void testByKey3() /*nothrow*/ pure
 {
     auto a = [ 1:"one", 2:"two", 3:"three" ];
     auto b = a.dup;
     assert(b == [ 1:"one", 2:"two", 3:"three" ]);

     int[] c;
     foreach (k; a.byKey)
     {
         c ~= k;
     }

     assert(c.length == 3);
     assert(c[0] == 1 || c[1] == 1 || c[2] == 1);
     assert(c[0] == 2 || c[1] == 2 || c[2] == 2);
     assert(c[0] == 3 || c[1] == 3 || c[2] == 3);
 }

 void testByKey4() nothrow pure
 {
     string[] keys = ["a", "b", "c", "d", "e", "f"];

     // Test forward range capabilities of byKey
     {
         int[string] aa;
         foreach (key; keys)
             aa[key] = 0;

         auto keyRange = aa.byKey();
         auto savedKeyRange = keyRange.save;

         // Consume key range once
         size_t keyCount = 0;
         while (!keyRange.empty)
         {
             aa[keyRange.front]++;
             keyCount++;
             keyRange.popFront();
         }

         foreach (key; keys)
         {
             assert(aa[key] == 1);
         }
         assert(keyCount == keys.length);

         // Verify it's possible to iterate the range the second time
         keyCount = 0;
         while (!savedKeyRange.empty)
         {
             aa[savedKeyRange.front]++;
             keyCount++;
             savedKeyRange.popFront();
         }

         foreach (key; keys)
         {
             assert(aa[key] == 2);
         }
         assert(keyCount == keys.length);
     }

     // Test forward range capabilities of byValue
     {
         size_t[string] aa;
         foreach (i; 0 .. keys.length)
         {
             aa[keys[i]] = i;
         }

         auto valRange = aa.byValue();
         auto savedValRange = valRange.save;

         // Consume value range once
         int[] hasSeen;
         hasSeen.length = keys.length;
         while (!valRange.empty)
         {
             assert(hasSeen[valRange.front] == 0);
             hasSeen[valRange.front]++;
             valRange.popFront();
         }

         foreach (sawValue; hasSeen) { assert(sawValue == 1); }

         // Verify it's possible to iterate the range the second time
         hasSeen = null;
         hasSeen.length = keys.length;
         while (!savedValRange.empty)
         {
             assert(!hasSeen[savedValRange.front]);
             hasSeen[savedValRange.front] = true;
             savedValRange.popFront();
         }

         foreach (sawValue; hasSeen) { assert(sawValue); }
     }
 }

 void issue5842() pure nothrow
 {
     string[string] test = null;
     test["test1"] = "test1";
     test.remove("test1");
     test.rehash;
     test["test3"] = "test3"; // causes divide by zero if rehash broke the AA
 }

 /// expanded test for 5842: increase AA size past the point where the AA
 /// stops using binit, in order to test another code path in rehash.
 void issue5842Expanded() pure nothrow
 {
     int[int] aa;
     foreach (int i; 0 .. 32)
         aa[i] = i;
     foreach (int i; 0 .. 32)
         aa.remove(i);
     aa.rehash;
     aa[1] = 1;
 }

 void issue5925() nothrow pure
 {
     const a = [4:0];
     const b = [4:0];
     assert(a == b);
 }

 /// test for bug 8583: ensure Slot and aaA are on the same page wrt value alignment
 void issue8583() nothrow pure
 {
     string[byte]    aa0 = [0: "zero"];
     string[uint[3]] aa1 = [[1,2,3]: "onetwothree"];
     ushort[uint[3]] aa2 = [[9,8,7]: 987];
     ushort[uint[4]] aa3 = [[1,2,3,4]: 1234];
     string[uint[5]] aa4 = [[1,2,3,4,5]: "onetwothreefourfive"];

     assert(aa0.byValue.front == "zero");
     assert(aa1.byValue.front == "onetwothree");
     assert(aa2.byValue.front == 987);
     assert(aa3.byValue.front == 1234);
     assert(aa4.byValue.front == "onetwothreefourfive");
 }

 void issue9052() nothrow pure
 {
     static struct Json {
         Json[string] aa;
         void opAssign(Json) {}
         size_t length() const { return aa.length; }
         // This length() instantiates AssociativeArray!(string, const(Json)) to call AA.length(), and
         // inside ref Slot opAssign(Slot p); (which is automatically generated by compiler in Slot),
         // this.value = p.value would actually fail, because both side types of the assignment
         // are const(Json).
     }
 }

 void issue9119()
 {
     int[string] aa;
     assert(aa.byKeyValue.empty);

     aa["a"] = 1;
     aa["b"] = 2;
     aa["c"] = 3;

     auto pairs = aa.byKeyValue;

     auto savedPairs = pairs.save;
     size_t count = 0;
     while (!pairs.empty)
     {
         assert(pairs.front.key in aa);
         assert(pairs.front.value == aa[pairs.front.key]);
         count++;
         pairs.popFront();
     }
     assert(count == aa.length);

     // Verify that saved range can iterate over the AA again
     count = 0;
     while (!savedPairs.empty)
     {
         assert(savedPairs.front.key in aa);
         assert(savedPairs.front.value == aa[savedPairs.front.key]);
         count++;
         savedPairs.popFront();
     }
     assert(count == aa.length);
 }

 void issue9852() nothrow pure
 {
     // Original test case (revised, original assert was wrong)
     int[string] a;
     a["foo"] = 0;
     a.remove("foo");
     assert(a == null); // should not crash

     int[string] b;
     assert(b is null);
     assert(a == b); // should not deref null
     assert(b == a); // ditto

     int[string] c;
     c["a"] = 1;
     assert(a != c); // comparison with empty non-null AA
     assert(c != a);
     assert(b != c); // comparison with null AA
     assert(c != b);
 }

 void issue10381()
 {
     alias II = int[int];
     II aa1 = [0 : 1];
     II aa2 = [0 : 1];
     II aa3 = [0 : 2];
     assert(aa1 == aa2); // Passes
     assert(typeid(II).equals(&aa1, &aa2));
     assert(!typeid(II).equals(&aa1, &aa3));
 }

 void issue10720() nothrow pure
 {
     static struct NC
     {
         @disable this(this) { }
     }

     NC[string] aa;
     static assert(!is(aa.nonExistingField));
 }

 /// bug 11761: test forward range functionality
 void issue11761() pure nothrow
 {
     auto aa = ["a": 1];

     void testFwdRange(R, T)(R fwdRange, T testValue)
     {
         assert(!fwdRange.empty);
         assert(fwdRange.front == testValue);
         static assert(is(typeof(fwdRange.save) == typeof(fwdRange)));

         auto saved = fwdRange.save;
         fwdRange.popFront();
         assert(fwdRange.empty);

         assert(!saved.empty);
         assert(saved.front == testValue);
         saved.popFront();
         assert(saved.empty);
     }

     testFwdRange(aa.byKey, "a");
     testFwdRange(aa.byValue, 1);
     //testFwdRange(aa.byPair, tuple("a", 1));
 }

 void issue13078() nothrow pure
 {
     shared string[][string] map;
     map.rehash;
 }

 void issue14104()
 {
     import core.stdc.stdio;

     alias K = const(ubyte)*;
     size_t[K] aa;
     immutable key = cast(K)(cast(size_t) uint.max + 1);
     aa[key] = 12;
     assert(key in aa);
 }

 void issue14626()
 {
     static struct S
     {
         string[string] aa;
         inout(string) key() inout { return aa.byKey().front; }
         inout(string) val() inout { return aa.byValue().front; }
         auto keyval() inout { return aa.byKeyValue().front; }
     }

     S s = S(["a":"b"]);
     assert(s.key() == "a");
     assert(s.val() == "b");
     assert(s.keyval().key == "a");
     assert(s.keyval().value == "b");

     void testInoutKeyVal(inout(string) key)
     {
         inout(string)[typeof(key)] aa;

         foreach (i; aa.byKey()) {}
         foreach (i; aa.byValue()) {}
         foreach (i; aa.byKeyValue()) {}
     }

     const int[int] caa;
     static assert(is(typeof(caa.byValue().front) == const int));
 }

 /// test duplicated keys in AA literal
 /// https://issues.dlang.org/show_bug.cgi?id=15290
 void issue15290()
 {
     string[int] aa = [ 0: "a", 0: "b" ];
     assert(aa.length == 1);
     assert(aa.keys == [ 0 ]);
 }

 void issue15367()
 {
     void f1() {}
     void f2() {}

     // TypeInfo_Delegate.getHash
     int[void delegate()] aa;
     assert(aa.length == 0);
     aa[&f1] = 1;
     assert(aa.length == 1);
     aa[&f1] = 1;
     assert(aa.length == 1);

     auto a1 = [&f2, &f1];
     auto a2 = [&f2, &f1];

     // TypeInfo_Delegate.equals
     for (auto i = 0; i < 2; i++)
         assert(a1[i] == a2[i]);
     assert(a1 == a2);

     // TypeInfo_Delegate.compare
     for (auto i = 0; i < 2; i++)
         assert(a1[i] <= a2[i]);
     assert(a1 <= a2);
 }

 /// test AA as key
 /// https://issues.dlang.org/show_bug.cgi?id=16974
 void issue16974()
 {
     int[int] a = [1 : 2], a2 = [1 : 2];

     assert([a : 3] == [a : 3]);
     assert([a : 3] == [a2 : 3]);

     assert(typeid(a).getHash(&a) == typeid(a).getHash(&a));
     assert(typeid(a).getHash(&a) == typeid(a).getHash(&a2));
 }

 /// test safety for alias-this'd AA that have unsafe opCast
 /// https://issues.dlang.org/show_bug.cgi?id=18071
 void issue18071()
 {
     static struct Foo
     {
         int[int] aa;
         auto opCast() pure nothrow @nogc
         {
             *cast(uint*)0xdeadbeef = 0xcafebabe;// unsafe
             return null;
         }
         alias aa this;
     }

     Foo f;
     () @safe { assert(f.byKey.empty); }();
 }

 /// Verify iteration with const.
 void testIterationWithConst()
 {
     auto aa = [1:2, 3:4];
     foreach (const t; aa.byKeyValue)
     {
         auto k = t.key;
         auto v = t.value;
     }
 }

 void testStructArrayKey() @safe
 {
     struct S
     {
         int i;
     const @safe nothrow:
         hash_t toHash() { return 0; }
         bool opEquals(const S) { return true; }
         int opCmp(const S) { return 0; }
     }

     int[S[]] aa = [[S(11)] : 13];
     assert(aa[[S(12)]] == 13);
 }

 void miscTests1() pure nothrow
 {
     string[int] key1 = [1 : "true", 2 : "false"];
     string[int] key2 = [1 : "false", 2 : "true"];
     string[int] key3;

     // AA lits create a larger hashtable
     int[string[int]] aa1 = [key1 : 100, key2 : 200, key3 : 300];

     // Ensure consistent hash values are computed for key1
     assert((key1 in aa1) !is null);

     // Manually assigning to an empty AA creates a smaller hashtable
     int[string[int]] aa2;
     aa2[key1] = 100;
     aa2[key2] = 200;
     aa2[key3] = 300;

     assert(aa1 == aa2);

     // Ensure binary-independence of equal hash keys
     string[int] key2a;
     key2a[1] = "false";
     key2a[2] = "true";

     assert(aa1[key2a] == 200);
 }

 void miscTests2()
 {
     int[int] aa;
     foreach (k, v; aa)
         assert(false);
     foreach (v; aa)
         assert(false);
     assert(aa.byKey.empty);
     assert(aa.byValue.empty);
     assert(aa.byKeyValue.empty);

     size_t n;
     aa = [0 : 3, 1 : 4, 2 : 5];
     foreach (k, v; aa)
     {
         n += k;
         assert(k >= 0 && k < 3);
         assert(v >= 3 && v < 6);
     }
     assert(n == 3);
     n = 0;

     foreach (v; aa)
     {
         n += v;
         assert(v >= 3 && v < 6);
     }
     assert(n == 12);

     n = 0;
     foreach (k, v; aa)
     {
         ++n;
         break;
     }
     assert(n == 1);

     n = 0;
     foreach (v; aa)
     {
         ++n;
         break;
     }
     assert(n == 1);
 }

 void testRemove()
 {
     int[int] aa;
     assert(!aa.remove(0));
     aa = [0 : 1];
     assert(aa.remove(0));
     assert(!aa.remove(0));
     aa[1] = 2;
     assert(!aa.remove(0));
     assert(aa.remove(1));

     assert(aa.length == 0);
     assert(aa.byKey.empty);
 }

 /// test zero sized value (hashset)
 void testZeroSizedValue()
 {
     alias V = void[0];
     auto aa = [0 : V.init];
     assert(aa.length == 1);
     assert(aa.byKey.front == 0);
     assert(aa.byValue.front == V.init);
     aa[1] = V.init;
     assert(aa.length == 2);
     aa[0] = V.init;
     assert(aa.length == 2);
     assert(aa.remove(0));
     aa[0] = V.init;
     assert(aa.length == 2);
     assert(aa == [0 : V.init, 1 : V.init]);
 }

 void testTombstonePurging()
 {
     int[int] aa;
     foreach (i; 0 .. 6)
         aa[i] = i;
     foreach (i; 0 .. 6)
         assert(aa.remove(i));
     foreach (i; 6 .. 10)
         aa[i] = i;
     assert(aa.length == 4);
     foreach (i; 6 .. 10)
         assert(i in aa);
 }

 void testClear()
 {
     int[int] aa;
     assert(aa.length == 0);
     foreach (i; 0 .. 100)
         aa[i] = i * 2;
     assert(aa.length == 100);
     auto aa2 = aa;
     assert(aa2.length == 100);
     aa.clear();
     assert(aa.length == 0);
     assert(aa2.length == 0);

     aa2[5] = 6;
     assert(aa.length == 1);
     assert(aa[5] == 6);
 }
	void main()
	{
	testKeysValues1();
	testKeysValues2();
	testGet1();
	testGet2();
	testRequire1();
	testRequire2();
	testRequire3();
	testUpdate1();
	testUpdate2();
	testByKey1();
	testByKey2();
	testByKey3();
	testByKey4();
	issue5842();
	issue5842Expanded();
	issue5925();
	issue8583();
	issue9052();
	issue9119();
	issue9852();
	issue10381();
	issue10720();
	issue11761();
	issue13078();
	issue14104();
	issue14626();
	issue15290();
	issue15367();
	issue16974();
	issue18071();
	testIterationWithConst();
	testStructArrayKey();
	miscTests1();
	miscTests2();
	testRemove();
	testZeroSizedValue();
	testTombstonePurging();
	testClear();
	}

	void testKeysValues1()
	{
	static struct T
	{
	byte b;
	static size_t count;
	this(this) { ++count; }
	}
	T[int] aa;
	T t;
	aa[0] = t;
	aa[1] = t;
	assert(T.count == 2);
	auto vals = aa.values;
	assert(vals.length == 2);
	assert(T.count == 4);

	T.count = 0;
	int[T] aa2;
	aa2[t] = 0;
	assert(T.count == 1);
	aa2[t] = 1;
	assert(T.count == 1);
	auto keys = aa2.keys;
	assert(keys.length == 1);
	assert(T.count == 2);
	}

	void testKeysValues2() nothrow pure
	{
	int[string] aa;

	assert(aa.keys.length == 0);
	assert(aa.values.length == 0);

	aa["hello"] = 3;
	assert(aa["hello"] == 3);
	aa["hello"]++;
	assert(aa["hello"] == 4);

	assert(aa.length == 1);

	string[] keys = aa.keys;
	assert(keys.length == 1);
	assert(keys[0] == "hello");

	int[] values = aa.values;
	assert(values.length == 1);
	assert(values[0] == 4);

	aa.rehash;
	assert(aa.length == 1);
	assert(aa["hello"] == 4);

	aa["foo"] = 1;
	aa["bar"] = 2;
	aa["batz"] = 3;

	assert(aa.keys.length == 4);
	assert(aa.values.length == 4);

	foreach (a; aa.keys)
	{
	assert(a.length != 0);
	assert(a.ptr != null);
	}

	foreach (v; aa.values)
	{
	assert(v != 0);
	}
	}

	void testGet1() @safe
	{
	int[string] aa;
	int a;
	foreach (val; aa.byKeyValue)
	{
	++aa[val.key];
	a = val.value;
	}
	}

	void testGet2()
	{
	static class T
	{
	static size_t count;
	this() { ++count; }
	}

	T[string] aa;

	auto a = new T;
	aa["foo"] = a;
	assert(T.count == 1);
	auto b = aa.get("foo", new T);
	assert(T.count == 1);
	assert(b is a);
	auto c = aa.get("bar", new T);
	assert(T.count == 2);
	assert(c !is a);

	//Obviously get doesn't add.
	assert("bar" !in aa);
	}

	void testRequire1()
	{
	static class T
	{
	static size_t count;
	this() { ++count; }
	}

	T[string] aa;

	auto a = new T;
	aa["foo"] = a;
	assert(T.count == 1);
	auto b = aa.require("foo", new T);
	assert(T.count == 1);
	assert(b is a);
	auto c = aa.require("bar", null);
	assert(T.count == 1);
	assert(c is null);
	assert("bar" in aa);
	auto d = aa.require("bar", new T);
	assert(d is null);
	auto e = aa.require("baz", new T);
	assert(T.count == 2);
	assert(e !is a);

	assert("baz" in aa);

	bool created = false;
	auto f = aa.require("qux", { created = true; return new T; }());
	assert(created == true);

	T g;
	auto h = aa.require("qux", { g = new T; return g; }());
	assert(g !is h);
	}

	void testRequire2()
	{
	static struct S
	{
	int value;
	}

	S[string] aa;

	aa.require("foo").value = 1;
	assert(aa == ["foo" : S(1)]);

	aa["bar"] = S(2);
	auto a = aa.require("bar", S(3));
	assert(a == S(2));

	auto b = aa["bar"];
	assert(b == S(2));

	S* c = &aa.require("baz", S(4));
	assert(c is &aa["baz"]);
	assert(*c == S(4));

	assert("baz" in aa);

	auto d = aa["baz"];
	assert(d == S(4));
	}

	void testRequire3() pure
	{
	string[string] aa;

	auto a = aa.require("foo", "bar");
	assert("foo" in aa);
	}


	void testUpdate1()
	{
	static class C {}
	C[string] aa;

	C orig = new C;
	aa["foo"] = orig;

	C newer;
	C older;

	void test(string key)
	{
	aa.update(key, {
	newer = new C;
	return newer;
	}, (ref C c) {
	older = c;
	newer = new C;
	return newer;
	});
	}

	test("foo");
	assert(older is orig);
	assert(newer is aa["foo"]);

	test("bar");
	assert(newer is aa["bar"]);
	}

	void testUpdate2()
	{
	static class C {}
	C[string] aa;

	auto created = false;
	auto updated = false;

	class Creator
	{
	C opCall()
	{
	created = true;
	return new C();
	}
	}

	class Updater
	{
	C opCall(ref C)
	{
	updated = true;
	return new C();
	}
	}

	aa.update("foo", new Creator, new Updater);
	assert(created);
	aa.update("foo", new Creator, new Updater);
	assert(updated);
	}

	void testByKey1()
	{
	static assert(!__traits(compiles,
	() @safe {
	struct BadValue
	{
	int x;
	this(this) @safe { (cast(ubyte)(null) + 100000) = 5; } // not @safe
	alias x this;
	}

	BadValue[int] aa;
	() @safe { auto x = aa.byKey.front; } ();
	}
	));
	}

	void testByKey2() nothrow pure
	{
	int[int] a;
	foreach (i; a.byKey)
	{
	assert(false);
	}
	foreach (i; a.byValue)
	{
	assert(false);
	}
	}

	void testByKey3() /nothrow/ pure
	{
	auto a = [ 1:"one", 2:"two", 3:"three" ];
	auto b = a.dup;
	assert(b == [ 1:"one", 2:"two", 3:"three" ]);

	int[] c;
	foreach (k; a.byKey)
	{
	c ~= k;
	}

	assert(c.length == 3);
	assert(c[0] == 1 \|\| c[1] == 1 \|\| c[2] == 1);
	assert(c[0] == 2 \|\| c[1] == 2 \|\| c[2] == 2);
	assert(c[0] == 3 \|\| c[1] == 3 \|\| c[2] == 3);
	}

	void testByKey4() nothrow pure
	{
	string[] keys = ["a", "b", "c", "d", "e", "f"];

	// Test forward range capabilities of byKey
	{
	int[string] aa;
	foreach (key; keys)
	aa[key] = 0;

	auto keyRange = aa.byKey();
	auto savedKeyRange = keyRange.save;

	// Consume key range once
	size_t keyCount = 0;
	while (!keyRange.empty)
	{
	aa[keyRange.front]++;
	keyCount++;
	keyRange.popFront();
	}

	foreach (key; keys)
	{
	assert(aa[key] == 1);
	}
	assert(keyCount == keys.length);

	// Verify it's possible to iterate the range the second time
	keyCount = 0;
	while (!savedKeyRange.empty)
	{
	aa[savedKeyRange.front]++;
	keyCount++;
	savedKeyRange.popFront();
	}

	foreach (key; keys)
	{
	assert(aa[key] == 2);
	}
	assert(keyCount == keys.length);
	}

	// Test forward range capabilities of byValue
	{
	size_t[string] aa;
	foreach (i; 0 .. keys.length)
	{
	aa[keys[i]] = i;
	}

	auto valRange = aa.byValue();
	auto savedValRange = valRange.save;

	// Consume value range once
	int[] hasSeen;
	hasSeen.length = keys.length;
	while (!valRange.empty)
	{
	assert(hasSeen[valRange.front] == 0);
	hasSeen[valRange.front]++;
	valRange.popFront();
	}

	foreach (sawValue; hasSeen) { assert(sawValue == 1); }

	// Verify it's possible to iterate the range the second time
	hasSeen = null;
	hasSeen.length = keys.length;
	while (!savedValRange.empty)
	{
	assert(!hasSeen[savedValRange.front]);
	hasSeen[savedValRange.front] = true;
	savedValRange.popFront();
	}

	foreach (sawValue; hasSeen) { assert(sawValue); }
	}
	}

	void issue5842() pure nothrow
	{
	string[string] test = null;
	test["test1"] = "test1";
	test.remove("test1");
	test.rehash;
	test["test3"] = "test3"; // causes divide by zero if rehash broke the AA
	}

	/// expanded test for 5842: increase AA size past the point where the AA
	/// stops using binit, in order to test another code path in rehash.
	void issue5842Expanded() pure nothrow
	{
	int[int] aa;
	foreach (int i; 0 .. 32)
	aa[i] = i;
	foreach (int i; 0 .. 32)
	aa.remove(i);
	aa.rehash;
	aa[1] = 1;
	}

	void issue5925() nothrow pure
	{
	const a = [4:0];
	const b = [4:0];
	assert(a == b);
	}

	/// test for bug 8583: ensure Slot and aaA are on the same page wrt value alignment
	void issue8583() nothrow pure
	{
	string[byte] aa0 = [0: "zero"];
	string[uint[3]] aa1 = [[1,2,3]: "onetwothree"];
	ushort[uint[3]] aa2 = [[9,8,7]: 987];
	ushort[uint[4]] aa3 = [[1,2,3,4]: 1234];
	string[uint[5]] aa4 = [[1,2,3,4,5]: "onetwothreefourfive"];

	assert(aa0.byValue.front == "zero");
	assert(aa1.byValue.front == "onetwothree");
	assert(aa2.byValue.front == 987);
	assert(aa3.byValue.front == 1234);
	assert(aa4.byValue.front == "onetwothreefourfive");
	}

	void issue9052() nothrow pure
	{
	static struct Json {
	Json[string] aa;
	void opAssign(Json) {}
	size_t length() const { return aa.length; }
	// This length() instantiates AssociativeArray!(string, const(Json)) to call AA.length(), and
	// inside ref Slot opAssign(Slot p); (which is automatically generated by compiler in Slot),
	// this.value = p.value would actually fail, because both side types of the assignment
	// are const(Json).
	}
	}

	void issue9119()
	{
	int[string] aa;
	assert(aa.byKeyValue.empty);

	aa["a"] = 1;
	aa["b"] = 2;
	aa["c"] = 3;

	auto pairs = aa.byKeyValue;

	auto savedPairs = pairs.save;
	size_t count = 0;
	while (!pairs.empty)
	{
	assert(pairs.front.key in aa);
	assert(pairs.front.value == aa[pairs.front.key]);
	count++;
	pairs.popFront();
	}
	assert(count == aa.length);

	// Verify that saved range can iterate over the AA again
	count = 0;
	while (!savedPairs.empty)
	{
	assert(savedPairs.front.key in aa);
	assert(savedPairs.front.value == aa[savedPairs.front.key]);
	count++;
	savedPairs.popFront();
	}
	assert(count == aa.length);
	}

	void issue9852() nothrow pure
	{
	// Original test case (revised, original assert was wrong)
	int[string] a;
	a["foo"] = 0;
	a.remove("foo");
	assert(a == null); // should not crash

	int[string] b;
	assert(b is null);
	assert(a == b); // should not deref null
	assert(b == a); // ditto

	int[string] c;
	c["a"] = 1;
	assert(a != c); // comparison with empty non-null AA
	assert(c != a);
	assert(b != c); // comparison with null AA
	assert(c != b);
	}

	void issue10381()
	{
	alias II = int[int];
	II aa1 = [0 : 1];
	II aa2 = [0 : 1];
	II aa3 = [0 : 2];
	assert(aa1 == aa2); // Passes
	assert(typeid(II).equals(&aa1, &aa2));
	assert(!typeid(II).equals(&aa1, &aa3));
	}

	void issue10720() nothrow pure
	{
	static struct NC
	{
	@disable this(this) { }
	}

	NC[string] aa;
	static assert(!is(aa.nonExistingField));
	}

	/// bug 11761: test forward range functionality
	void issue11761() pure nothrow
	{
	auto aa = ["a": 1];

	void testFwdRange(R, T)(R fwdRange, T testValue)
	{
	assert(!fwdRange.empty);
	assert(fwdRange.front == testValue);
	static assert(is(typeof(fwdRange.save) == typeof(fwdRange)));

	auto saved = fwdRange.save;
	fwdRange.popFront();
	assert(fwdRange.empty);

	assert(!saved.empty);
	assert(saved.front == testValue);
	saved.popFront();
	assert(saved.empty);
	}

	testFwdRange(aa.byKey, "a");
	testFwdRange(aa.byValue, 1);
	//testFwdRange(aa.byPair, tuple("a", 1));
	}

	void issue13078() nothrow pure
	{
	shared string[][string] map;
	map.rehash;
	}

	void issue14104()
	{
	import core.stdc.stdio;

	alias K = const(ubyte)*;
	size_t[K] aa;
	immutable key = cast(K)(cast(size_t) uint.max + 1);
	aa[key] = 12;
	assert(key in aa);
	}

	void issue14626()
	{
	static struct S
	{
	string[string] aa;
	inout(string) key() inout { return aa.byKey().front; }
	inout(string) val() inout { return aa.byValue().front; }
	auto keyval() inout { return aa.byKeyValue().front; }
	}

	S s = S(["a":"b"]);
	assert(s.key() == "a");
	assert(s.val() == "b");
	assert(s.keyval().key == "a");
	assert(s.keyval().value == "b");

	void testInoutKeyVal(inout(string) key)
	{
	inout(string)[typeof(key)] aa;

	foreach (i; aa.byKey()) {}
	foreach (i; aa.byValue()) {}
	foreach (i; aa.byKeyValue()) {}
	}

	const int[int] caa;
	static assert(is(typeof(caa.byValue().front) == const int));
	}

	/// test duplicated keys in AA literal
	/// https://issues.dlang.org/show_bug.cgi?id=15290
	void issue15290()
	{
	string[int] aa = [ 0: "a", 0: "b" ];
	assert(aa.length == 1);
	assert(aa.keys == [ 0 ]);
	}

	void issue15367()
	{
	void f1() {}
	void f2() {}

	// TypeInfo_Delegate.getHash
	int[void delegate()] aa;
	assert(aa.length == 0);
	aa[&f1] = 1;
	assert(aa.length == 1);
	aa[&f1] = 1;
	assert(aa.length == 1);

	auto a1 = [&f2, &f1];
	auto a2 = [&f2, &f1];

	// TypeInfo_Delegate.equals
	for (auto i = 0; i < 2; i++)
	assert(a1[i] == a2[i]);
	assert(a1 == a2);

	// TypeInfo_Delegate.compare
	for (auto i = 0; i < 2; i++)
	assert(a1[i] <= a2[i]);
	assert(a1 <= a2);
	}

	/// test AA as key
	/// https://issues.dlang.org/show_bug.cgi?id=16974
	void issue16974()
	{
	int[int] a = [1 : 2], a2 = [1 : 2];

	assert([a : 3] == [a : 3]);
	assert([a : 3] == [a2 : 3]);

	assert(typeid(a).getHash(&a) == typeid(a).getHash(&a));
	assert(typeid(a).getHash(&a) == typeid(a).getHash(&a2));
	}

	/// test safety for alias-this'd AA that have unsafe opCast
	/// https://issues.dlang.org/show_bug.cgi?id=18071
	void issue18071()
	{
	static struct Foo
	{
	int[int] aa;
	auto opCast() pure nothrow @nogc
	{
	cast(uint)0xdeadbeef = 0xcafebabe;// unsafe
	return null;
	}
	alias aa this;
	}

	Foo f;
	() @safe { assert(f.byKey.empty); }();
	}

	/// Verify iteration with const.
	void testIterationWithConst()
	{
	auto aa = [1:2, 3:4];
	foreach (const t; aa.byKeyValue)
	{
	auto k = t.key;
	auto v = t.value;
	}
	}

	void testStructArrayKey() @safe
	{
	struct S
	{
	int i;
	const @safe nothrow:
	hash_t toHash() { return 0; }
	bool opEquals(const S) { return true; }
	int opCmp(const S) { return 0; }
	}

	int[S[]] aa = [[S(11)] : 13];
	assert(aa[[S(12)]] == 13);
	}

	void miscTests1() pure nothrow
	{
	string[int] key1 = [1 : "true", 2 : "false"];
	string[int] key2 = [1 : "false", 2 : "true"];
	string[int] key3;

	// AA lits create a larger hashtable
	int[string[int]] aa1 = [key1 : 100, key2 : 200, key3 : 300];

	// Ensure consistent hash values are computed for key1
	assert((key1 in aa1) !is null);

	// Manually assigning to an empty AA creates a smaller hashtable
	int[string[int]] aa2;
	aa2[key1] = 100;
	aa2[key2] = 200;
	aa2[key3] = 300;

	assert(aa1 == aa2);

	// Ensure binary-independence of equal hash keys
	string[int] key2a;
	key2a[1] = "false";
	key2a[2] = "true";

	assert(aa1[key2a] == 200);
	}

	void miscTests2()
	{
	int[int] aa;
	foreach (k, v; aa)
	assert(false);
	foreach (v; aa)
	assert(false);
	assert(aa.byKey.empty);
	assert(aa.byValue.empty);
	assert(aa.byKeyValue.empty);

	size_t n;
	aa = [0 : 3, 1 : 4, 2 : 5];
	foreach (k, v; aa)
	{
	n += k;
	assert(k >= 0 && k < 3);
	assert(v >= 3 && v < 6);
	}
	assert(n == 3);
	n = 0;

	foreach (v; aa)
	{
	n += v;
	assert(v >= 3 && v < 6);
	}
	assert(n == 12);

	n = 0;
	foreach (k, v; aa)
	{
	++n;
	break;
	}
	assert(n == 1);

	n = 0;
	foreach (v; aa)
	{
	++n;
	break;
	}
	assert(n == 1);
	}

	void testRemove()
	{
	int[int] aa;
	assert(!aa.remove(0));
	aa = [0 : 1];
	assert(aa.remove(0));
	assert(!aa.remove(0));
	aa[1] = 2;
	assert(!aa.remove(0));
	assert(aa.remove(1));

	assert(aa.length == 0);
	assert(aa.byKey.empty);
	}

	/// test zero sized value (hashset)
	void testZeroSizedValue()
	{
	alias V = void[0];
	auto aa = [0 : V.init];
	assert(aa.length == 1);
	assert(aa.byKey.front == 0);
	assert(aa.byValue.front == V.init);
	aa[1] = V.init;
	assert(aa.length == 2);
	aa[0] = V.init;
	assert(aa.length == 2);
	assert(aa.remove(0));
	aa[0] = V.init;
	assert(aa.length == 2);
	assert(aa == [0 : V.init, 1 : V.init]);
	}

	void testTombstonePurging()
	{
	int[int] aa;
	foreach (i; 0 .. 6)
	aa[i] = i;
	foreach (i; 0 .. 6)
	assert(aa.remove(i));
	foreach (i; 6 .. 10)
	aa[i] = i;
	assert(aa.length == 4);
	foreach (i; 6 .. 10)
	assert(i in aa);
	}

	void testClear()
	{
	int[int] aa;
	assert(aa.length == 0);
	foreach (i; 0 .. 100)
	aa[i] = i * 2;
	assert(aa.length == 100);
	auto aa2 = aa;
	assert(aa2.length == 100);
	aa.clear();
	assert(aa.length == 0);
	assert(aa2.length == 0);

	aa2[5] = 6;
	assert(aa.length == 1);
	assert(aa[5] == 6);
	}