/*
 * Copyright (C)2005-2019 Haxe Foundation
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
 * DEALINGS IN THE SOFTWARE.
 */

package haxe;

import haxe.Int64Helper;

@:notNull
@:include("cpp/Int64.h")
@:native("cpp::Int64Struct")
private extern class ___Int64 {

	@:native("_hx_int64_make")
	static function make(high:Int32, low:Int32):__Int64;

	@:native(" ::cpp::Int64Struct")
	static function ofInt(value:Int):__Int64;

	@:native(" ::cpp::Int64Struct::is")
	static function isInt64(d:Dynamic):Bool;

	@:native("_hx_int64_is_neg")
	static function isNeg(a:__Int64):Bool;

	@:native("_hx_int64_is_zero")
	static function isZero(a:__Int64):Bool;

	@:native("_hx_int64_compare")
	static function compare(a:__Int64, b:__Int64):Int;

	@:native("_hx_int64_ucompare")
	static function ucompare(a:__Int64, b:__Int64):Int;

	@:native("_hx_int64_to_string")
	static function toString(a:__Int64):String;

	@:native("_hx_int64_neg")
	static function neg(a:__Int64):__Int64;

	@:native("_hx_int64_pre_increment")
	static function preIncrement(a:__Int64):__Int64;

	@:native("_hx_int64_post_increment")
	static function postIncrement(a:__Int64):__Int64;

	@:native("_hx_int64_pre_decrement")
	static function preDecrement(a:__Int64):__Int64;

	@:native("_hx_int64_post_decrement")
	static function postDecrement(a:__Int64):__Int64;

	@:native("_hx_int64_add")
	static function add(a:__Int64, b:__Int64):__Int64;

	@:native("_hx_int64_add")
	static function addInt(a:__Int64, b:Int):__Int64;

	@:native("_hx_int64_sub")
	static function sub(a:__Int64, b:__Int64):__Int64;

	@:native("_hx_int64_sub")
	static function subInt(a:__Int64, b:Int):__Int64;

	@:native("_hx_int64_sub")
	static function intSub(a:Int, b:__Int64):__Int64;

	@:native("_hx_int64_mul")
	static function mul(a:__Int64, b:__Int64):__Int64;

	@:native("_hx_int64_div")
	static function div(a:__Int64, b:__Int64):__Int64;

	@:native("_hx_int64_mod")
	static function mod(a:__Int64, b:__Int64):__Int64;

	@:native("_hx_int64_eq")
	static function eq(a:__Int64, b:__Int64):Bool;

	@:native("_hx_int64_eq")
	static function eqInt(a:__Int64, b:Int):Bool;

	@:native("_hx_int64_neq")
	static function neq(a:__Int64, b:__Int64):Bool;

	@:native("_hx_int64_neq")
	static function neqInt(a:__Int64, b:Int):Bool;

	@:native("_hx_int64_complement")
	static function complement(a:__Int64):__Int64;

	@:native("_hx_int64_and")
	static function bitAnd(a:__Int64, b:__Int64):__Int64;

	@:native("_hx_int64_or")
	static function bitOr(a:__Int64, b:__Int64):__Int64;

	@:native("_hx_int64_xor")
	static function bitXor(a:__Int64, b:__Int64):__Int64;

	@:native("_hx_int64_shl")
	static function shl(a:__Int64, b:Int):__Int64;

	@:native("_hx_int64_shr")
	static function shr(a:__Int64, b:Int):__Int64;

	@:native("_hx_int64_ushr")
	static function ushr(a:__Int64, b:Int):__Int64;

	@:native("_hx_int64_high")
	static function high(a:__Int64):Int32;

	@:native("_hx_int64_low")
	static function low(a:__Int64):Int32;
}

private typedef __Int64 = ___Int64;

@:coreApi
@:transitive
abstract Int64(__Int64) from __Int64 to __Int64 {
	public #if !cppia inline #end function copy():Int64
		return this;

	public static #if !cppia inline #end function make(high:Int32, low:Int32):Int64 {
		return __Int64.make(high, low);
	}

	@:from
	public static #if !cppia inline #end function ofInt(x:Int):Int64 {
		return __Int64.ofInt(x);
	}

	public static #if !cppia inline #end function toInt(x:Int64):Int {
		if (x.high != x.low >> 31)
			throw "Overflow";

		return x.low;
	}

	@:deprecated('haxe.Int64.is() is deprecated. Use haxe.Int64.isInt64() instead')
	inline public static function is(val:Dynamic):Bool {
		return isInt64(val);
	}

	public static #if !cppia inline #end function isInt64(val:Dynamic):Bool
		return __Int64.isInt64(val);

	@:deprecated("Use high instead")
	public static #if !cppia inline #end function getHigh(x:Int64):Int32
		return x.high;

	@:deprecated("Use low instead")
	public static #if !cppia inline #end function getLow(x:Int64):Int32
		return x.low;

	public static #if !cppia inline #end function isNeg(x:Int64):Bool
		return __Int64.isNeg(x);

	public static #if !cppia inline #end function isZero(x:Int64):Bool
		return __Int64.isZero(x);

	public static #if !cppia inline #end function compare(a:Int64, b:Int64):Int
		return __Int64.compare(a, b);

	public static #if !cppia inline #end function ucompare(a:Int64, b:Int64):Int
		return __Int64.ucompare(a, b);

	public static #if !cppia inline #end function toStr(x:Int64):String
		return x.toString();

	private #if !cppia inline #end function toString():String
		return __Int64.toString(this);

	public static function parseString(sParam:String):Int64 {
		return Int64Helper.parseString(sParam);
	}

	public static function fromFloat(f:Float):Int64 {
		return Int64Helper.fromFloat(f);
	}

	public static function divMod(dividend:Int64, divisor:Int64):{quotient:Int64, modulus:Int64} {
		var q = dividend / divisor;

		if (isZero(divisor))
			throw "divide by zero";

		var m = dividend - q * divisor;

		return {quotient: q, modulus: m};
	}

	@:op(-A)
	public static #if !cppia inline #end function neg(x:Int64):Int64
		return __Int64.neg(x);

	@:op(++A) private inline function preIncrement():Int64 {
		#if cppia
		this = this + make(0, 1);
		return this;
		#else
		return __Int64.preIncrement(this);
		#end
	}

	@:op(A++) private inline function postIncrement():Int64 {
		#if cppia
		var result = this;
		this = this + make(0, 1);
		return result;
		#else
		return __Int64.postIncrement(this);
		#end
	}

	@:op(--A) private inline function preDecrement():Int64 {
		#if cppia
		untyped this = this - make(0, 1);
		return this;
		#else
		return __Int64.preDecrement(this);
		#end
	}

	@:op(A--) private inline function postDecrement():Int64 {
		#if cppia
		var result = this;
		this = this - make(0, 1);
		return result;
		#else
		return __Int64.postDecrement(this);
		#end
	}

	@:op(A + B)
	public static #if !cppia inline #end function add(a:Int64, b:Int64):Int64
		return __Int64.add(a, b);

	@:op(A + B)
	@:commutative
	private static #if !cppia inline #end function addInt(a:Int64, b:Int):Int64
		return __Int64.addInt(a, b);

	@:op(A - B)
	public static #if !cppia inline #end function sub(a:Int64, b:Int64):Int64 {
		return __Int64.sub(a, b);
	}

	@:op(A - B)
	private static #if !cppia inline #end function subInt(a:Int64, b:Int):Int64
		return __Int64.subInt(a, b);

	@:op(A - B)
	private static #if !cppia inline #end function intSub(a:Int, b:Int64):Int64
		return __Int64.intSub(a, b);

	@:op(A * B)
	public static #if !cppia inline #end function mul(a:Int64, b:Int64):Int64
		return __Int64.mul(a, b);

	@:op(A * B)
	@:commutative
	private static #if !cppia inline #end function mulInt(a:Int64, b:Int):Int64
		return mul(a, b);

	@:op(A / B)
	public static #if !cppia inline #end function div(a:Int64, b:Int64):Int64 {
		if (__Int64.isZero(b))
			throw "divide by zero";
		return __Int64.div(a, b);
	}

	@:op(A / B)
	private static #if !cppia inline #end function divInt(a:Int64, b:Int):Int64
		return div(a, b);

	@:op(A / B)
	private static #if !cppia inline #end function intDiv(a:Int, b:Int64):Int64
		return toInt(div(a, b));

	@:op(A % B)
	public static #if !cppia inline #end function mod(a:Int64, b:Int64):Int64 {
		if (__Int64.isZero(b))
			throw "divide by zero";
		return __Int64.mod(a, b);
	}

	@:op(A % B)
	private static #if !cppia inline #end function modInt(a:Int64, b:Int):Int64
		return toInt(mod(a, b));

	@:op(A % B)
	private static #if !cppia inline #end function intMod(a:Int, b:Int64):Int64
		return toInt(mod(a, b));

	@:op(A == B)
	public static #if !cppia inline #end function eq(a:Int64, b:Int64):Bool
		return __Int64.eq(a, b);

	@:op(A == B)
	@:commutative
	private static #if !cppia inline #end function eqInt(a:Int64, b:Int):Bool
		return __Int64.eqInt(a, b);

	@:op(A != B)
	public static #if !cppia inline #end function neq(a:Int64, b:Int64):Bool
		return __Int64.neq(a, b);

	@:op(A != B)
	@:commutative
	private static #if !cppia inline #end function neqInt(a:Int64, b:Int):Bool
		return neq(a, b);

	@:op(A < B)
	private static #if !cppia inline #end function lt(a:Int64, b:Int64):Bool
		return compare(a, b) < 0;

	@:op(A < B)
	private static #if !cppia inline #end function ltInt(a:Int64, b:Int):Bool
		return lt(a, b);

	@:op(A < B)
	private static #if !cppia inline #end function intLt(a:Int, b:Int64):Bool
		return lt(a, b);

	@:op(A <= B)
	private static #if !cppia inline #end function lte(a:Int64, b:Int64):Bool
		return compare(a, b) <= 0;

	@:op(A <= B)
	private static #if !cppia inline #end function lteInt(a:Int64, b:Int):Bool
		return lte(a, b);

	@:op(A <= B)
	private static #if !cppia inline #end function intLte(a:Int, b:Int64):Bool
		return lte(a, b);

	@:op(A > B)
	private static #if !cppia inline #end function gt(a:Int64, b:Int64):Bool
		return compare(a, b) > 0;

	@:op(A > B)
	private static #if !cppia inline #end function gtInt(a:Int64, b:Int):Bool
		return gt(a, b);

	@:op(A > B)
	private static #if !cppia inline #end function intGt(a:Int, b:Int64):Bool
		return gt(a, b);

	@:op(A >= B)
	private static #if !cppia inline #end function gte(a:Int64, b:Int64):Bool
		return compare(a, b) >= 0;

	@:op(A >= B)
	private static #if !cppia inline #end function gteInt(a:Int64, b:Int):Bool
		return gte(a, b);

	@:op(A >= B)
	private static #if !cppia inline #end function intGte(a:Int, b:Int64):Bool
		return gte(a, b);

	@:op(~A)
	private static #if !cppia inline #end function complement(a:Int64):Int64
		return __Int64.complement(a);

	@:op(A & B)
	public static #if !cppia inline #end function and(a:Int64, b:Int64):Int64
		return __Int64.bitAnd(a, b);

	@:op(A | B)
	public static #if !cppia inline #end function or(a:Int64, b:Int64):Int64
		return __Int64.bitOr(a, b);

	@:op(A ^ B)
	public static #if !cppia inline #end function xor(a:Int64, b:Int64):Int64
		return __Int64.bitXor(a, b);

	@:op(A << B)
	public static #if !cppia inline #end function shl(a:Int64, b:Int):Int64
		return __Int64.shl(a, b);

	@:op(A >> B)
	public static #if !cppia inline #end function shr(a:Int64, b:Int):Int64
		return __Int64.shr(a, b);

	@:op(A >>> B)
	public static #if !cppia inline #end function ushr(a:Int64, b:Int):Int64
		return __Int64.ushr(a, b);

	public var high(get, never):Int32;

	private #if !cppia inline #end function get_high():Int32
		return __Int64.high(this);

	public var low(get, never):Int32;

	private #if !cppia inline #end function get_low():Int32
		return __Int64.low(this);
}