bubel-ecs/import/ecs/vector.di

// D import file generated from 'source\ecs\vector.d'
module ecs.vector;
import core.bitop;
import core.stdc.stdlib : free, malloc;
import core.stdc.string : memcpy, memset;
import std.algorithm : swap;
import std.conv : emplace;
import std.traits : hasMember, isCopyable, TemplateOf, Unqual;
export pure nothrow @nogc @safe size_t nextPow2(size_t num);
__gshared size_t gVectorsCreated = 0;
__gshared size_t gVectorsDestroyed = 0;
struct Vector(T)
{
	T[] array;
	size_t used;
	public 
	{
		export this()(T t)
		{
			add(t);
		}
		export this(X)(X[] t) if (is(Unqual!X == Unqual!T))
		{
			add(t);
		}
		static if (isCopyable!T)
		{
			export this(this)
			{
				T[] tmp = array[0..used];
				array = null;
				used = 0;
				add(tmp);
			}
		}
		else
		{
			@disable this(this);
		}
		export ~this()
		{
			clear();
		}
		export void clear()
		{
			removeAll();
		}
		export void removeAll()
		{
			if (array !is null)
			{
				foreach (ref el; array[0..used])
				{
					destroy(el);
				}
				freeData(cast(void[])array);
				gVectorsDestroyed++;
			}
			array = null;
			used = 0;
		}
		export bool empty()
		{
			return used == 0;
		}
		export size_t length()
		{
			return used;
		}
		export void length(size_t newLength)
		{
			if (newLength > used)
			{
				reserve(newLength);
				foreach (ref el; array[used..newLength])
				{
					emplace(&el);
				}
			}
			else
			{
				foreach (ref el; array[newLength..used])
				{
					destroy(el);
				}
			}
			used = newLength;
		}
		export void reset()
		{
			used = 0;
		}
		export void reserve(size_t numElements)
		{
			if (numElements > array.length)
			{
				extend(numElements);
			}
		}
		export size_t capacity()
		{
			return array.length - used;
		}
		export void extend(size_t newNumOfElements)
		{
			auto oldArray = manualExtend(array, newNumOfElements);
			if (oldArray !is null)
			{
				freeData(oldArray);
			}
		}
		export @nogc void freeData(void[] data)
		{
			memset(data.ptr, 15, data.length);
			free(data.ptr);
		}
		export static void[] manualExtend(ref T[] array, size_t newNumOfElements = 0)
		{
			if (newNumOfElements == 0)
				newNumOfElements = 2;
			if (array.length == 0)
				gVectorsCreated++;
			T[] oldArray = array;
			size_t oldSize = oldArray.length * T.sizeof;
			size_t newSize = newNumOfElements * T.sizeof;
			T* memory = cast(T*)malloc(newSize);
			memcpy(cast(void*)memory, cast(void*)oldArray.ptr, oldSize);
			array = memory[0..newNumOfElements];
			return cast(void[])oldArray;
		}
		export Vector!T copy()()
		{
			Vector!T duplicate;
			duplicate.reserve(used);
			duplicate ~= array[0..used];
			return duplicate;
		}
		export bool canAddWithoutRealloc(uint elemNum = 1)
		{
			return used + elemNum <= array.length;
		}
		export void add()(T t)
		{
			if (used >= array.length)
			{
				extend(nextPow2(used + 1));
			}
			emplace(&array[used], t);
			used++;
		}
		export void add()(T t, size_t pos)
		{
			assert(pos <= used);
			if (used >= array.length)
			{
				extend(array.length * 2);
			}
			foreach_reverse (size_t i; pos .. used)
			{
				array[i + 1] = array[i];
			}
			emplace(&array[pos], t);
			used++;
		}
		export void add(X)(X[] t) if (is(Unqual!X == Unqual!T))
		{
			if (used + t.length > array.length)
			{
				extend(nextPow2(used + t.length));
			}
			foreach (i; 0 .. t.length)
			{
				emplace(&array[used + i], t[i]);
			}
			used += t.length;
		}
		export void remove(size_t elemNum)
		{
			destroy(array[elemNum]);
			swap(array[elemNum], array[used - 1]);
			used--;
		}
		export void removeStable()(size_t elemNum)
		{
			used--;
			foreach (i; 0 .. used)
			{
				array[i] = array[i + 1];
			}
		}
		export bool tryRemoveElement()(T elem)
		{
			foreach (i, ref el; array[0..used])
			{
				if (el == elem)
				{
					remove(i);
					return true;
				}
			}
			return false;
		}
		export void removeElement()(T elem)
		{
			bool ok = tryRemoveElement(elem);
			assert(ok, "There is no such an element in vector");
		}
		export ref T opIndex(size_t elemNum)
		{
			assert(elemNum < used, "Range violation [index]");
			return array.ptr[elemNum];
		}
		export auto opSlice()
		{
			return array.ptr[0..used];
		}
		export T[] opSlice(size_t x, size_t y)
		{
			assert(y <= used);
			return array.ptr[x..y];
		}
		export size_t opDollar()
		{
			return used;
		}
		export void opAssign(X)(X[] slice)
		{
			reset();
			this ~= slice;
		}
		export void opOpAssign(string op)(T obj)
		{
			static assert(op == "~");
			add(obj);
		}
		export void opOpAssign(string op, X)(X[] obj)
		{
			static assert(op == "~");
			add(obj);
		}
		export void opIndexAssign()(T obj, size_t elemNum)
		{
			assert(elemNum < used, "Range viloation");
			array[elemNum] = obj;
		}
		export void opSliceAssign()(T[] obj, size_t a, size_t b)
		{
			assert(b <= used && (a <= b), "Range viloation");
			array.ptr[a..b] = obj;
		}
		export const bool opEquals()(auto ref const Vector!T r)
		{
			return used == r.used && (array.ptr[0..used] == r.array.ptr[0..r.used]);
		}
		export const nothrow @trusted size_t toHash()
		{
			return hashOf(cast(Unqual!T[])array.ptr[0..used]);
		}
		import std.format : FormatSpec, formatValue;
		export void toString(scope void delegate(const(char)[]) sink, FormatSpec!char fmt)
		{
			static if (__traits(compiles, formatValue(sink, array[0..used], fmt)))
			{
				formatValue(sink, array[0..used], fmt);
			}

		}
	}
}
private pure nothrow @nogc @safe T[n] s(T, size_t n)(auto ref T[n] array)
{
	return array;
}
enum string checkVectorAllocations = "\x0a//assert(gVectorsCreated==gVectorsDestroyed);\x0agVectorsCreated=gVectorsDestroyed=0;\x0ascope(exit){if(gVectorsCreated!=gVectorsDestroyed){\x09\x0a\x09import std.stdio : writefln;\x0a\x09writefln(\"created==destroyed  %s==%s\", gVectorsCreated, gVectorsDestroyed);\x0a\x09assert(gVectorsCreated==gVectorsDestroyed, \"Vector memory leak\");\x0a}}\x0a";