2008-05-26 20:04:33 +00:00
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using System;
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using System.Collections.Generic;
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using System.Runtime.InteropServices;
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namespace Nuclex.Support {
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/// <summary>Helper routines for working with floating point numbers</summary>
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/// <remarks>
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/// The floating point comparison code is based on this excellent article:
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/// http://www.cygnus-software.com/papers/comparingfloats/comparingfloats.htm
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/// </remarks>
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public static class FloatHelper {
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#region struct FloatIntUnion
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/// <summary>Union of a floating point variable and an integer</summary>
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[StructLayout(LayoutKind.Explicit)]
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private struct FloatIntUnion {
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/// <summary>The union's value as a floating point variable</summary>
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[FieldOffset(0)]
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public float Float;
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/// <summary>The union's value as an integer</summary>
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[FieldOffset(0)]
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public int Int;
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/// <summary>The union's value as an unsigned integer</summary>
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[FieldOffset(0)]
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public uint UInt;
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}
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#endregion // struct FloatIntUnion
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#region struct DoubleLongUnion
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/// <summary>Union of a double precision floating point variable and a long</summary>
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[StructLayout(LayoutKind.Explicit)]
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private struct DoubleLongUnion {
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/// <summary>The union's value as a double precision floating point variable</summary>
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[FieldOffset(0)]
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public double Double;
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/// <summary>The union's value as a long</summary>
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[FieldOffset(0)]
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public long Long;
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/// <summary>The union's value as an unsigned long</summary>
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[FieldOffset(0)]
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public ulong ULong;
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}
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#endregion // struct DoubleLongUnion
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/// <summary>Compares two floating point values for equality</summary>
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/// <param name="left">First floating point value to be compared</param>
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/// <param name="right">Second floating point value t be compared</param>
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/// <param name="maxUlps">
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/// Maximum number of representable floating point values that are allowed to
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/// be between the left and the right floating point values
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/// </param>
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/// <returns>True if both numbers are equal or close to being equal</returns>
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/// <remarks>
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/// <para>
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/// Floating point values can only represent a limited series of natural numbers.
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/// For example, the values 2.00000000 and 2.00000024 can be stored in a float,
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/// but nothing inbetween them.
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/// </para>
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/// <para>
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/// This comparison will count how many possible floating point values are between
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/// the left and the right number. If the number of possible values between both
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/// numbers is less than or equal to maxUlps, then the numbers are considered as
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/// being equal.
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/// </para>
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/// <para>
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/// Implementation partially follows the code outlined here:
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/// http://www.anttirt.net/2007/08/19/proper-floating-point-comparisons/
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/// </para>
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/// </remarks>
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public static bool AreAlmostEqual(float left, float right, int maxUlps) {
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FloatIntUnion leftUnion = new FloatIntUnion();
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FloatIntUnion rightUnion = new FloatIntUnion();
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leftUnion.Float = left;
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rightUnion.Float = right;
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uint leftSignMask = (leftUnion.UInt >> 31);
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uint rightSignMask = (rightUnion.UInt >> 31);
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uint leftTemp = ((0x80000000 - leftUnion.UInt) & leftSignMask);
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leftUnion.UInt = leftTemp | (leftUnion.UInt & ~leftSignMask);
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uint rightTemp = ((0x80000000 - rightUnion.UInt) & rightSignMask);
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rightUnion.UInt = rightTemp | (rightUnion.UInt & ~rightSignMask);
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return (Math.Abs(leftUnion.Int - rightUnion.Int) <= maxUlps);
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}
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/// <summary>Compares two double precision floating point values for equality</summary>
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/// <param name="left">First double precision floating point value to be compared</param>
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/// <param name="right">Second double precision floating point value t be compared</param>
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/// <param name="maxUlps">
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/// Maximum number of representable double precision floating point values that are
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/// allowed to be between the left and the right double precision floating point values
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/// </param>
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/// <returns>True if both numbers are equal or close to being equal</returns>
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/// <remarks>
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/// <para>
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/// Double precision floating point values can only represent a limited series of
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/// natural numbers. For example, the values 2.0000000000000000 and 2.0000000000000004
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/// can be stored in a double, but nothing inbetween them.
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/// </para>
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/// <para>
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/// This comparison will count how many possible double precision floating point
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/// values are between the left and the right number. If the number of possible
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/// values between both numbers is less than or equal to maxUlps, then the numbers
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/// are considered as being equal.
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/// </para>
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/// <para>
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/// Implementation partially follows the code outlined here:
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/// http://www.anttirt.net/2007/08/19/proper-floating-point-comparisons/
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/// </para>
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/// </remarks>
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public static bool AreAlmostEqual(double left, double right, long maxUlps) {
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DoubleLongUnion leftUnion = new DoubleLongUnion();
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DoubleLongUnion rightUnion = new DoubleLongUnion();
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leftUnion.Double = left;
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rightUnion.Double = right;
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ulong leftSignMask = (leftUnion.ULong >> 63);
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ulong rightSignMask = (rightUnion.ULong >> 63);
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ulong leftTemp = ((0x8000000000000000 - leftUnion.ULong) & leftSignMask);
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leftUnion.ULong = leftTemp | (leftUnion.ULong & ~leftSignMask);
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ulong rightTemp = ((0x8000000000000000 - rightUnion.ULong) & rightSignMask);
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rightUnion.ULong = rightTemp | (rightUnion.ULong & ~rightSignMask);
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return (Math.Abs(leftUnion.Long - rightUnion.Long) <= maxUlps);
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}
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2008-05-28 19:11:18 +00:00
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/// <summary>
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/// Reinterprets the memory contents of a floating point value as an integer value
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/// </summary>
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/// <param name="value">
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/// Floating point value whose memory contents to reinterpret
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/// </param>
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/// <returns>
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/// The memory contents of the floating point value interpreted as an integer
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/// </returns>
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public static int ReinterpretAsInt(float value) {
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FloatIntUnion union = new FloatIntUnion();
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union.Float = value;
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return union.Int;
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}
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/// <summary>
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/// Reinterprets the memory contents of a double precision floating point
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/// value as an integer value
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/// </summary>
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/// <param name="value">
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/// Double precision floating point value whose memory contents to reinterpret
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/// </param>
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/// <returns>
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/// The memory contents of the double precision floating point value
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/// interpreted as an integer
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/// </returns>
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public static long ReinterpretAsLong(double value) {
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DoubleLongUnion union = new DoubleLongUnion();
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union.Double = value;
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return union.Long;
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}
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/// <summary>
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/// Reinterprets the memory contents of an integer as a floating point value
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/// </summary>
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/// <param name="value">Integer value whose memory contents to reinterpret</param>
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/// <returns>
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/// The memory contents of the integer value interpreted as a floating point value
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/// </returns>
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public static float ReinterpretAsFloat(int value) {
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FloatIntUnion union = new FloatIntUnion();
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union.Int = value;
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return union.Float;
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}
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/// <summary>
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/// Reinterprets the memory contents of an integer value as a double precision
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/// floating point value
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/// </summary>
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/// <param name="value">Integer whose memory contents to reinterpret</param>
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/// <returns>
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/// The memory contents of the integer interpreted as a double precision
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/// floating point value
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/// </returns>
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public static double ReinterpretAsDouble(long value) {
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DoubleLongUnion union = new DoubleLongUnion();
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union.Long = value;
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return union.Double;
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}
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2008-05-26 20:04:33 +00:00
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}
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} // namespace Nuclex.Support
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