1Math::Symbolic::OperatoUrs(e3r)Contributed Perl DocumentMaattiho:n:Symbolic::Operator(3)
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6 Math::Symbolic::Operator - Operators in symbolic calculations
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9 use Math::Symbolic::Operator;
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11 my $sum = Math::Symbolic::Operator->new('+', $term1, $term2);
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13 # or:
14 my $division =
15 Math::Symbolic::Operator->new(
16 {
17 type => B_DIVISON,
18 operands => [$term1, $term2],
19 }
20 );
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22 my $derivative =
23 Math::Symbolic::Operator->new(
24 {
25 type => U_P_DERIVATIVE,
26 operands => [$term],
27 }
28 );
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31 This module implements all Math::Symbolic::Operator objects. These
32 objects are overloaded in stringification-context to call the
33 to_string() method on the object. In numeric and boolean context, they
34 evaluate to their numerical representation.
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36 For a list of supported operators, please refer to the list found
37 below, in the documentation for the new() constructor.
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39 Math::Symbolic::Operator inherits from Math::Symbolic::Base.
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41 EXPORT
42 None.
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45 Math::Symbolic::Operator contains several class data structures.
46 Usually, you should not worry about dealing with any of them because
47 they are mostly an implementation detail, but for the sake of
48 completeness, here's the gist, but feel free to skip this section of
49 the docs:
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51 One of these is the %Op_Symbols hash that associates operator (and
52 function) symbols with the corresponding constant as exported by
53 Math::Symbolic or Math::Symbolic::ExportConstants. (For example, '+' =>
54 B_SUM which in turn is 0, if I recall correctly. But I didn't tell you
55 that. Because you're supposed to use the supplied (inlined and hence
56 fast) constants so I can change their internal order if I deem it
57 necessary.)
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59 The array @Op_Types associates operator indices (recall those nifty
60 constants?) with anonymous hash datastructures that contain some info
61 on the operator such as its arity, the rule used to derive it, its
62 infix string, its prefix string, and information on how to actually
63 apply it to numbers.
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66 Constructor new
67 Expects a hash reference as first argument. That hash's contents will
68 be treated as key-value pairs of object attributes. Important
69 attributes are 'type' => OPERATORTYPE (use constants as exported by
70 Math::Symbolic::ExportConstants!) and 'operands=>[op1,op2,...]'. Where
71 the operands themselves may either be valid Math::Symbolic::* objects
72 or strings that will be parsed as such.
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74 Special case: if no hash reference was found, first argument is assumed
75 to be the operator's symbol and the operator is assumed to be binary.
76 The following 2 arguments will be treated as operands. This special
77 case will ignore attempts to clone objects but if the operands are no
78 valid Math::Symbolic::* objects, they will be sent through a
79 Math::Symbolic::Parser to construct Math::Symbolic trees.
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81 Returns a Math::Symbolic::Operator.
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83 Supported operator symbols: (number of operands and their function in
84 parens)
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86 + => sum (2)
87 - => difference (2)
88 * => product (2)
89 / => division (2)
90 log => logarithm (2: base, function)
91 ^ => exponentiation (2: base, exponent)
92 neg => unary minus (1)
93 partial_derivative => partial derivative (2: function, var)
94 total_derivative => total derivative (2: function, var)
95 sin => sine (1)
96 cos => cosine (1)
97 tan => tangent (1)
98 cot => cotangent (1)
99 asin => arc sine (1)
100 acos => arc cosine (1)
101 atan => arc tangent (1)
102 atan2 => arc tangent of y/x (2: y, x)
103 acot => arc cotangent (1)
104 sinh => hyperbolic sine (1)
105 cosh => hyperbolic cosine (1)
106 asinh => hyperbolic area sine (1)
107 acosh => hyperbolic area cosine (1)
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109 Method arity
110 Returns the operator's arity as an integer.
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112 Method type
113 Optional integer argument that sets the operator's type. Returns the
114 operator's type as an integer.
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116 Method to_string
117 Returns a string representation of the operator and its operands.
118 Optional argument: 'prefix' or 'infix'. Defaults to 'infix'.
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120 Method term_type
121 Returns the type of the term. ( T_OPERATOR )
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123 Method simplify
124 Term simpilification. First argument: Boolean indicating that the tree
125 does not need to be cloned, but can be restructured instead. While
126 this is faster, you might not be able to use the old tree any more.
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128 Example:
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130 my $othertree = $tree->simplify();
131 # can use $othertree and $tree now.
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133 my $yetanothertree = $tree->simplify(1);
134 # must not use $tree any more because its internal
135 # representation might have been destroyed.
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137 If you want to optimize a routine and you're sure that you won't need
138 the unsimplified tree any more, go ahead and use the first parameter.
139 In all other cases, you should go the safe route.
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141 Methods op1 and op2
142 Returns first/second operand of the operator if it exists or undef.
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144 Method apply
145 Applies the operation to its operands' value() and returns the result
146 as a constant (-object).
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148 Without arguments, all variables in the tree are required to have a
149 value. If any don't, the call to apply() returns undef.
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151 To (temorarily, for this single method call) assign values to variables
152 in the tree, you may provide key/value pairs of variable names and
153 values. Instead of passing a list of key/value pairs, you may also pass
154 a single hash reference containing the variable mappings.
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156 You usually want to call the value() instead of this.
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158 Method value
159 value() evaluates the Math::Symbolic tree to its numeric
160 representation.
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162 value() without arguments requires that every variable in the tree
163 contains a defined value attribute. Please note that this refers to
164 every variable object, not just every named variable.
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166 value() with one argument sets the object's value if you're dealing
167 with Variables or Constants. In case of operators, a call with one
168 argument will assume that the argument is a hash reference. (see next
169 paragraph)
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171 value() with named arguments (key/value pairs) associates variables in
172 the tree with the value-arguments if the corresponging key matches the
173 variable name. (Can one say this any more complicated?) Since version
174 0.132, an equivalent and valid syntax is to pass a single hash
175 reference instead of a list.
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177 Example: $tree->value(x => 1, y => 2, z => 3, t => 0) assigns the value
178 1 to any occurrances of variables of the name "x", aso.
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180 If a variable in the tree has no value set (and no argument of value
181 sets it temporarily), the call to value() returns undef.
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183 Method signature
184 signature() returns a tree's signature.
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186 In the context of Math::Symbolic, signatures are the list of variables
187 any given tree depends on. That means the tree "v*t+x" depends on the
188 variables v, t, and x. Thus, applying signature() on the tree that
189 would be parsed from above example yields the sorted list ('t', 'v',
190 'x').
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192 Constants do not depend on any variables and therefore return the empty
193 list. Obviously, operators' dependencies vary.
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195 Math::Symbolic::Variable objects, however, may have a slightly more
196 involved signature. By convention, Math::Symbolic variables depend on
197 themselves. That means their signature contains their own name. But
198 they can also depend on various other variables because variables
199 themselves can be viewed as placeholders for more compicated terms. For
200 example in mechanics, the acceleration of a particle depends on its
201 mass and the sum of all forces acting on it. So the variable
202 'acceleration' would have the signature ('acceleration', 'force1',
203 'force2',..., 'mass', 'time').
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205 If you're just looking for a list of the names of all variables in the
206 tree, you should use the explicit_signature() method instead.
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208 Method explicit_signature
209 explicit_signature() returns a lexicographically sorted list of
210 variable names in the tree.
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212 See also: signature().
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215 Please send feedback, bug reports, and support requests to the
216 Math::Symbolic support mailing list: math-symbolic-support at lists dot
217 sourceforge dot net. Please consider letting us know how you use
218 Math::Symbolic. Thank you.
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220 If you're interested in helping with the development or extending the
221 module's functionality, please contact the developers' mailing list:
222 math-symbolic-develop at lists dot sourceforge dot net.
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224 List of contributors:
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226 Steffen Mueller, symbolic-module at steffen-mueller dot net
227 Stray Toaster, mwk at users dot sourceforge dot net
228 Oliver Ebenhoeh
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231 New versions of this module can be found on http://steffen-mueller.net
232 or CPAN. The module development takes place on Sourceforge at
233 http://sourceforge.net/projects/math-symbolic/
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235 Math::Symbolic
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239perl v5.30.0 2019-07-26 Math::Symbolic::Operator(3)