NAME
Math::Symbolic::Constant - Constants in symbolic calculations
SYNOPSIS
use Math::Symbolic::Constant;
my $const = Math::Symbolic::Constant->new(25);
my $zero = Math::Symbolic::Constant->zero();
my $one = Math::Symbolic::Constant->one();
my $euler = Math::Symbolic::Constant->euler();
# e = 2.718281828...
DESCRIPTION
This module implements numeric constants for Math::Symbolic trees.
EXPORT
None by default.
METHODS
Constructor new
Takes hash reference of key-value pairs as argument. Special case: a value for the constant instead of the hash. Returns a Math::Symbolic::Constant.
Constructor zero
Arguments are treated as key-value pairs of object attributes. Returns a Math::Symbolic::Constant with value of 0.
Constructor one
Arguments are treated as key-value pairs of object attributes. Returns a Math::Symbolic::Constant with value of 1.
Constructor euler
Arguments are treated as key-value pairs of object attributes. Returns a Math::Symbolic::Constant with value of e, the Euler number. The object has its 'special' attribute set to 'euler'.
Constructor pi
Arguments are treated as key-value pairs of object attributes. Returns a Math::Symbolic::Constant with value of pi. The object has its 'special' attribute set to 'pi'.
Method value
value() evaluates the Math::Symbolic tree to its numeric representation.
value() without arguments requires that every variable in the tree contains a defined value attribute. Please note that this refers to every variable object, not just every named variable.
value() with one argument sets the object's value.
value() with named arguments (key/value pairs) associates variables in the tree with the value-arguments if the corresponging key matches the variable name. (Can one say this any more complicated?)
Example: $tree->value(x => 1, y => 2, z => 3, t => 0) assigns the value 1 to any occurrances of variables of the name "x", aso.
Method signature
signature() returns a tree's signature. (Which is the empty list in case of constants.)
In the context of Math::Symbolic, signatures are the list of variables any given tree depends on. That means the tree "v*t+x" depends on the variables v, t, and x. Thus, applying signature() on the tree that would be parsed from above example yields the sorted list ('t', 'v', 'x').
Constants do not depend on any variables and therefore return the empty list. Obviously, operators' dependencies vary.
Math::Symbolic::Variable objects, however, may have a slightly more involved signature. By convention, Math::Symbolic variables depend on themselves. That means their signature contains their own name. But they can also depend on various other variables because variables themselves can be viewed as placeholders for more compicated terms. For example in mechanics, the acceleration of a particle depends on its mass and the sum of all forces acting on it. So the variable 'acceleration' would have the signature ('acceleration', 'force1', 'force2',..., 'mass', 'time').
Method special
Optional argument: sets the object's special attribute. Returns the object's special attribute.
Method to_string
Returns a string representation of the constant.
Method term_type
Returns the type of the term. (T_CONSTANT)
AUTHOR
Steffen Mueller, <symbolic-module at steffen-mueller dot net>
New versions of this module can be found on http://steffen-mueller.net or CPAN.