110 lines
3.4 KiB
Haxe
110 lines
3.4 KiB
Haxe
package eval.integers;
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/**
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Unsigned 64-bit integer type and operations.
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**/
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@:coreType abstract UInt64 {
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/** The greatest representable UInt64 value. */
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extern static public final MAX:UInt64;
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/** The integer `0` */
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extern static public final ZERO:UInt64;
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/** The integer `1` */
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extern static public final ONE:UInt64;
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/**
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Convert the given int value to an unsigned integer.
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**/
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static public function ofInt(i:Int):UInt64;
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/**
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Parse the given string value to an unsigned integer.
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<<<<<<< HEAD
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=======
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>>>>>>> development
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Throws if the given string is not a valid representation of an unsigned
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integer.
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**/
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static public function ofString(s:String):UInt64;
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/**
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Returns the greater of `a` and `b`.
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**/
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static public function max(a:UInt64, b:UInt64):UInt64;
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/**
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Returns the lesser of `a` and `b`.
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**/
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static public function min(a:UInt64, b:UInt64):UInt64;
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/**
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Compare given values.
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Returns `0` if the values are equal.
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Returns negative integer if `a` is lesser than `b`.
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Returns positive integer if `a` is greater than `b`.
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**/
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static public function compare(a:UInt64, b:UInt64):Int;
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/**
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Convert to an integer value.
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The 64-bit unsigned integer is taken modulo 2{^32}, i.e. the top 32 bits
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are lost during the conversion.
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**/
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public function toInt():Int;
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/**
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Convert to a signed integer value.
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**/
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public function toInt64():Int64;
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/**
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Return the string representation of this value.
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**/
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public function toString():String;
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/**
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Successor.
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**/
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public function successor():String;
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/**
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Predecessor.
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**/
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public function predecessor():String;
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/**
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Integer remainder.
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Throws if the divisor is zero.
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**/
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public function remainder(u:UInt64):UInt64;
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function add(u:UInt64):UInt64;
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function sub(u:UInt64):UInt64;
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function mul(u:UInt64):UInt64;
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function div(u:UInt64):UInt64;
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function logand(u:UInt64):UInt64;
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function logor(u:UInt64):UInt64;
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function logxor(u:UInt64):UInt64;
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function shift_left(i:Int):UInt64;
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function shift_right(i:Int):UInt64;
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function lognot():UInt64;
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@:op(A + B) inline function _add(u:UInt64):UInt64 return this.add(u);
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@:op(A - B) inline function _sub(u:UInt64):UInt64 return this.sub(u);
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@:op(A * B) inline function _mul(u:UInt64):UInt64 return this.mul(u);
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@:op(A / B) inline function _div(u:UInt64):UInt64 return this.div(u);
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@:op(A % B) inline function _mod(u:UInt64):UInt64 return this.remainder(u);
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@:op(A & B) inline function _logand(u:UInt64):UInt64 return this.logand(u);
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@:op(A | B) inline function _logor(u:UInt64):UInt64 return this.logor(u);
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@:op(A ^ B) inline function _logxor(u:UInt64):UInt64 return this.logxor(u);
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@:op(A << B) inline function _shift_left(i:Int):UInt64 return this.shift_left(i);
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@:op(A >> B) inline function _shift_right(i:Int):UInt64 return this.shift_right(i);
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@:op(~A) inline function _lognot():UInt64 return this.lognot();
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@:op(A != B) static inline function eq(a:UInt64, b:UInt64):Bool return compare(a, b) != 0;
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@:op(A == B) static inline function ne(a:UInt64, b:UInt64):Bool return compare(a, b) == 0;
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@:op(A < B) static inline function lt(a:UInt64, b:UInt64):Bool return compare(a, b) < 0;
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@:op(A > B) static inline function gt(a:UInt64, b:UInt64):Bool return compare(a, b) > 0;
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@:op(A <= B) static inline function lte(a:UInt64, b:UInt64):Bool return compare(a, b) <= 0;
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@:op(A >= B) static inline function gte(a:UInt64, b:UInt64):Bool return compare(a, b) >= 0;
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} |