Difference between revisions of "Fun cmp"
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===fun_cmp=== |
===fun_cmp=== |
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Latest revision as of 20:11, 18 November 2009
fun_cmp
Description
Creates an answer evaluator which checks expressions defining functions.
Syntax
fun_cmp(function_string, options)
fun_cmp([fun_str1, fun_str2], options)
Params
The first argument is the expression defining the correct function, or one or more expressions placed in square brackets. The options are specified in
key => value
pairs. (see Options)
Options
Option key Option value Default var either the number of variables or a reference to an array of variable names ['x', 'y'] limits reference to an array of arrays of limits [[0,1],[0,1]] mode 'std' (default) (function must match exactly)
'antider' (function must match up to a constant)'std' relTol a number indicating the relative tolerance (as a percentage) for checking each point .01 per cent tol an absolute tolerance for checking error numPoints the number of points to evaluate the function at 4 params an array of "free" parameters which can be used to adapt the correct answer to the submitted answer. (e.g. ['c'] for a constant of integration in the answer x^3/3 + c ). [''] maxConstantOfIntegration maximum size of the constant of integration and other free parameters. (prevents numerical overload) 10**100 debug 1 to obtain additional warning messages for debugging, 0 to turn off 0
Returns
One (or more) answer evaluators for expressions defining functions
Examples
*
fun_cmp('x^2 +3x')
checks that the submitted expression matches this quadratic.
*fun_cmp('t^2- sin(t)', var => 't')
*fun_cmp('t^2 - sin(t)', vars => ['t'], limits => [-4,4])
. You can also uselimits => [[-4,4]]
for consistency
*fun_cmp('x^2 + y^2', vars => ['x', 'y'],
limits => [[-4,4],[-2,6]], numPoints => 10 )
*fun_cmp('x^2 + y^2 + c', vars => ['x', 'y'], params =>['c'],
limits => [[-4,4],[-2,6]], numPoints => 10 )
will match 'x^2 +y^2 + 25'.
*fun_cmp( 'cos(x) + a*e^(-x) + b*e^(2x)', params =>['a', 'b'])
will accept a linear family of solutions, e.g. solution set to a linear ODE
*fun_cmp( 'x^2 +sin(c*x)' , params =>['c'])
will NOT work. The expressions have to be linear in the parameters (but of course they can be non-linear in the variables such as x).
Notes
The options can be used in any combination that makes sense, and probably some that don't. One exception:
reltol
andtol
cannot be used together.