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source: branches/PersistenceOverhaul/HeuristicLab.ExtLibs/HeuristicLab.AutoDiff/1.0/AutoDiff-1.0/TermUtils.cs @ 17137

Last change on this file since 17137 was 8703, checked in by gkronber, 12 years ago

#1960 added HL wrapper plugin for AutoDiff

File size: 7.4 KB
Line 
1using System;
2using System.Collections.Generic;
3using System.Linq;
4using System.Text;
5using System.Diagnostics.Contracts;
6
7namespace AutoDiff
8{
9    /// <summary>
10    /// Static methods that operate on terms.
11    /// </summary>
12    public static class TermUtils
13    {
14        /// <summary>
15        /// Creates a compiled representation of a given term that allows efficient evaluation of the value/gradient.
16        /// </summary>
17        /// <param name="term">The term to compile.</param>
18        /// <param name="variables">The variables contained in the term.</param>
19        /// <returns>A compiled representation of <paramref name="term"/> that assigns values to variables in the same order
20        /// as in <paramref name="variables"/></returns>
21        /// <remarks>
22        /// The order of the variables in <paramref name="variables"/> is important. Each call to <c>ICompiledTerm.Evaluate</c> or
23        /// <c>ICompiledTerm.Differentiate</c> receives an array of numbers representing the point of evaluation. The i'th number in this array corresponds
24        /// to the i'th variable in <c>variables</c>.
25        /// </remarks>
26        public static ICompiledTerm Compile(this Term term, params Variable[] variables)
27        {
28            return Compile<Variable[]>(term, variables);
29        }
30
31        /// <summary>
32        /// Creates a compiled representation of a given term that allows efficient evaluation of the value/gradient.
33        /// </summary>
34        /// <param name="term">The term to compile.</param>
35        /// <param name="variables">The variables contained in the term.</param>
36        /// <returns>A compiled representation of <paramref name="term"/> that assigns values to variables in the same order
37        /// as in <paramref name="variables"/></returns>
38        /// <remarks>
39        /// The order of the variables in <paramref name="variables"/> is important. Each call to <c>ICompiledTerm.Evaluate</c> or
40        /// <c>ICompiledTerm.Differentiate</c> receives an array of numbers representing the point of evaluation. The i'th number in this array corresponds
41        /// to the i'th variable in <c>variables</c>.
42        /// </remarks>
43        public static ICompiledTerm Compile<T>(this Term term, T variables)
44            where T : IList<Variable>
45        {
46            Contract.Requires(variables != null);
47            Contract.Requires(term != null);
48            Contract.Ensures(Contract.Result<ICompiledTerm>() != null);
49            Contract.Ensures(Contract.Result<ICompiledTerm>().Variables.Count == variables.Count);
50            Contract.Ensures(Contract.ForAll(0, variables.Count, i => variables[i] == Contract.Result<ICompiledTerm>().Variables[i]));
51
52            return new CompiledDifferentiator<T>(term, variables);
53        }
54
55        /// <summary>
56        /// Creates a compiled representation of a given term that allows efficient evaluation of the value/gradient where part of the variables serve as function
57        /// inputs and other variables serve as constant parameters.
58        /// </summary>
59        /// <param name="term">The term to compile.</param>
60        /// <param name="variables">The variables contained in the term.</param>
61        /// <param name="parameters">The constant parameters in the term.</param>
62        /// <returns>A compiled representation of <paramref name="term"/> that assigns values to variables in the same order
63        /// as in <paramref name="variables"/> and <paramref name="parameters"/></returns>
64        /// <remarks>
65        /// The order of the variables in <paramref name="variables"/> is important. Each call to <c>ICompiledTerm.Evaluate</c> or
66        /// <c>ICompiledTerm.Differentiate</c> receives an array of numbers representing the point of evaluation. The i'th number in this array corresponds
67        /// to the i'th variable in <c>variables</c>.
68        /// </remarks>
69        public static IParametricCompiledTerm Compile(this Term term, Variable[] variables, Variable[] parameters)
70        {
71            Contract.Requires(variables != null);
72            Contract.Requires(parameters != null);
73            Contract.Requires(term != null);
74            Contract.Ensures(Contract.Result<IParametricCompiledTerm>() != null);
75            Contract.Ensures(Contract.Result<IParametricCompiledTerm>().Variables.Count == variables.Length);
76            Contract.Ensures(Contract.ForAll(0, variables.Length, i => variables[i] == Contract.Result<IParametricCompiledTerm>().Variables[i]));
77            Contract.Ensures(Contract.Result<IParametricCompiledTerm>().Parameters.Count == parameters.Length);
78            Contract.Ensures(Contract.ForAll(0, parameters.Length, i => parameters[i] == Contract.Result<IParametricCompiledTerm>().Parameters[i]));
79
80            return new ParametricCompiledTerm(term, variables, parameters);
81        }
82
83        /// <summary>
84        /// Evaluates the function represented by a given term at a given point.
85        /// </summary>
86        /// <param name="term">The term representing the function to evaluate.</param>
87        /// <param name="variables">The variables used in <paramref name="term"/>.</param>
88        /// <param name="point">The values assigned to the variables in <paramref name="variables"/></param>
89        /// <returns>The value of the function represented by <paramref name="term"/> at the point represented by <paramref name="variables"/>
90        /// and <paramref name="point"/>.</returns>
91        /// <remarks>The i'th value in <c>point</c> corresponds to the i'th variable in <c>variables</c>.</remarks>
92        public static double Evaluate(this Term term, Variable[] variables, double[] point)
93        {
94            Contract.Requires(term != null);
95            Contract.Requires(variables != null);
96            Contract.Requires(point != null);
97            Contract.Requires(variables.Length == point.Length);
98
99            return term.Compile(variables).Evaluate(point);
100        }
101
102        /// <summary>
103        /// Computes the gradient of the function represented by a given term at a given point.
104        /// </summary>
105        /// <param name="term">The term representing the function to differentiate.</param>
106        /// <param name="variables">The variables used in <paramref name="term"/>.</param>
107        /// <param name="point">The values assigned to the variables in <paramref name="variables"/></param>
108        /// <returns>The gradient of the function represented by <paramref name="term"/> at the point represented by <paramref name="variables"/>
109        /// and <paramref name="point"/>.</returns>
110        /// <remarks>The i'th value in <c>point</c> corresponds to the i'th variable in <c>variables</c>. In addition, the i'th value
111        /// in the resulting array is the partial derivative with respect to the i'th variable in <c>variables</c>.</remarks>
112        public static double[] Differentiate(this Term term, Variable[] variables, double[] point)
113        {
114            Contract.Requires(term != null);
115            Contract.Requires(variables != null);
116            Contract.Requires(point != null);
117            Contract.Requires(variables.Length == point.Length);
118            Contract.Ensures(Contract.Result<double[]>() != null);
119            Contract.Ensures(Contract.Result<double[]>().Length == variables.Length);
120
121            var result =  term.Compile(variables).Differentiate(point).Item1;
122            return result;
123        }
124    }
125}
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