Utils/tests/Expect/approxEquals_A01_t03.dart - co19 - Git at Google

 // Copyright (c) 2011, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 /**
  * @assertion static void approxEquals(num expected, num actual, [num tolerance = null, String reason = null])
  * Failure if the difference between expected and actual is greater than the
  * given tolerance.
  * @description Checks that using negative tolerance (except negative zero) or
  * NAN as either argument always results in failure. Negative tolerances tested
  * include doubles of minimum and maximum possible magnitude.
  * @author rodionov
  */
 import "../../../Utils/expect.dart";

 import "dart:math" as Math;

 main() {
   final double MIN_DOUBLE = Math.pow(2.0, -1074) as double;
   final double NEG_MIN_DOUBLE = -1 * MIN_DOUBLE;
   final double MAX_DOUBLE = (2 - Math.pow(2.0, -52)) * Math.pow(2.0, 1023) as double;
   final double NEG_MAX_DOUBLE = -1 * MAX_DOUBLE;

   check(0, 0, double.negativeInfinity);
   check(0, 0, double.negativeInfinity, "");
   check(0, 0, double.negativeInfinity, "not empty");

   check(0, 0, NEG_MAX_DOUBLE);
   check(0, 0, NEG_MAX_DOUBLE, "");
   check(0, 0, NEG_MAX_DOUBLE, "not empty");

   check(0, 0, NEG_MIN_DOUBLE);
   check(0, 0, NEG_MIN_DOUBLE, "");
   check(0, 0, NEG_MIN_DOUBLE, "not empty");

   // inf - inf -> NaN
   check(double.infinity, double.infinity, double.infinity);
   check(double.infinity, double.infinity, double.infinity, "");
   check(double.infinity, double.infinity, double.infinity, "not empty");

   check(double.negativeInfinity, double.negativeInfinity, double.infinity);
   check(double.negativeInfinity, double.negativeInfinity, double.infinity, "");
   check(double.negativeInfinity, double.negativeInfinity, double.infinity, "not empty");

   check(0, double.nan, double.infinity);
   check(0, double.nan, double.infinity, "");
   check(0, double.nan, double.infinity, "not empty");

   check(0, 0, double.nan);
   check(0, 0, double.nan, "");
   check(0, 0, double.nan, "not empty");
 }

 void check(num arg1, num arg2, num tolerance, [String? reason = null]) {
   try {
     Expect.approxEquals(arg1, arg2, tolerance, reason);
     throw new Exception("ExpectException expected");
   } on ExpectException catch(e) {
   }
 }
	// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	/**
	* @assertion static void approxEquals(num expected, num actual, [num tolerance = null, String reason = null])
	* Failure if the difference between expected and actual is greater than the
	* given tolerance.
	* @description Checks that using negative tolerance (except negative zero) or
	* NAN as either argument always results in failure. Negative tolerances tested
	* include doubles of minimum and maximum possible magnitude.
	* @author rodionov
	*/
	import "../../../Utils/expect.dart";

	import "dart:math" as Math;

	main() {
	final double MIN_DOUBLE = Math.pow(2.0, -1074) as double;
	final double NEG_MIN_DOUBLE = -1 * MIN_DOUBLE;
	final double MAX_DOUBLE = (2 - Math.pow(2.0, -52)) * Math.pow(2.0, 1023) as double;
	final double NEG_MAX_DOUBLE = -1 * MAX_DOUBLE;

	check(0, 0, double.negativeInfinity);
	check(0, 0, double.negativeInfinity, "");
	check(0, 0, double.negativeInfinity, "not empty");

	check(0, 0, NEG_MAX_DOUBLE);
	check(0, 0, NEG_MAX_DOUBLE, "");
	check(0, 0, NEG_MAX_DOUBLE, "not empty");

	check(0, 0, NEG_MIN_DOUBLE);
	check(0, 0, NEG_MIN_DOUBLE, "");
	check(0, 0, NEG_MIN_DOUBLE, "not empty");

	// inf - inf -> NaN
	check(double.infinity, double.infinity, double.infinity);
	check(double.infinity, double.infinity, double.infinity, "");
	check(double.infinity, double.infinity, double.infinity, "not empty");

	check(double.negativeInfinity, double.negativeInfinity, double.infinity);
	check(double.negativeInfinity, double.negativeInfinity, double.infinity, "");
	check(double.negativeInfinity, double.negativeInfinity, double.infinity, "not empty");

	check(0, double.nan, double.infinity);
	check(0, double.nan, double.infinity, "");
	check(0, double.nan, double.infinity, "not empty");

	check(0, 0, double.nan);
	check(0, 0, double.nan, "");
	check(0, 0, double.nan, "not empty");
	}

	void check(num arg1, num arg2, num tolerance, [String? reason = null]) {
	try {
	Expect.approxEquals(arg1, arg2, tolerance, reason);
	throw new Exception("ExpectException expected");
	} on ExpectException catch(e) {
	}
	}