Introduce getter p on double in the VM to control fractional precision.

tests/standalone/fixed_precision_double_test.dart

Index: tests/standalone/fixed_precision_double_test.dart
diff --git a/tests/standalone/fixed_precision_double_test.dart b/tests/standalone/fixed_precision_double_test.dart
new file mode 100644
index 0000000000000000000000000000000000000000..16fed504efd169ea6845c77d476afc8326b74efe
--- /dev/null
+++ b/tests/standalone/fixed_precision_double_test.dart
@@ -0,0 +1,71 @@
+// Copyright (c) 2016, 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.
+// VMOptions=--enable_asserts
+
+import "package:expect/expect.dart";
+
+bool testAssociativity(Function f) {
+  // Example from https://en.wikipedia.org/wiki/Floating_point
+  // Test that (a + b) + c == a + (b + c).
+  double a = f(1234.567);  // Chop literals.
+  double b = f(45.67834);
+  double c = f(0.0004);
+  double x = (a + b) + c;  // Chop result of multiplication or division only.
+  double y = a + (b + c);
+  print("x: $x");
+  print("y: $y");
+  return x == y;
+}
+
+bool testDistributivity(Function f) {
+  // Example from https://en.wikipedia.org/wiki/Floating_point
+  // Test that (a + b)*c == a*c + b*c.
+  double a = f(1234.567);  // Chop literals.
+  double b = f(1.234567);
+  double c = f(3.333333);
+  double x = f((a + b)*c);  // Chop result of multiplication.
+  double y = f(a*c) + f(b*c);
+  print("x: $x");
+  print("y: $y");
+  return x == y;
+}
+
+// Simulate precision checking with assert.
+assertP(double d) {
+  assert(d == d.p);
+}
+
+main() {
+  // The getter p keeps only 20 (by default) bits after the decimal point.
+  Expect.equals(0.0, 0.0.p);  // 0.0 has no 1-bit after the decimal point.
+  Expect.equals(1.5, 1.5.p);  // 1.5 has a single 1-bit after the decimal point.
+  Expect.notEquals(1.1, 1.1.p);  // 1.1 has many 1-bits after the decimal point.
+  Expect.notEquals(1/3, (1/3).p);  // 0.33333333... ditto.
+
+  Expect.equals(1.1 + 1/3, 1/3 + 1.1);  // Test addition commutativity.
+  Expect.equals(1.1.p + (1/3).p, (1/3).p + 1.1.p);
+  Expect.equals(1.1 * 1/3, 1/3 * 1.1);  // Test multiplication commutativity.
+  Expect.equals(1.1.p * (1/3).p, (1/3).p * 1.1.p);
+
+  print("Without chopping fractional bits:");
+  Expect.isFalse(testAssociativity((x) => x));
+  Expect.isFalse(testDistributivity((x) => x));
+  print("With chopping fractional bits:");
+  Expect.isTrue(testAssociativity((x) => x.p));
+  Expect.isTrue(testDistributivity((x) => x.p));
+
+  // Check that p works with NaN and Infinity.
+  Expect.isTrue(double.NAN.p.isNaN);
+  Expect.isTrue(double.INFINITY.p.isInfinite);
+  Expect.isFalse(double.INFINITY.p.isNegative);
+  Expect.isTrue(double.NEGATIVE_INFINITY.p.isInfinite);
+  Expect.isTrue(double.NEGATIVE_INFINITY.p.isNegative);
+
+  // Check use of assert to verify precision.
+  assertP(1.5);
+  assertP(1.1.p);
+  Expect.throws(() => assertP(1.1), (e) => e is AssertionError);
+  assertP(1.23456789.p);
+  Expect.throws(() => assertP(1.23456789), (e) => e is AssertionError);
+}