A Python module for symbolic calculations
Project description
Python Symbolic Expression 3
A Python module for symbolic calculations
Usage
Optimize expression
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( '(x+1) * (x+2)' )
>>> objExpress.optimizeSpecial()
>>> print( objExpress )
x^2 + x * 3 + 2
Supported operators
+ - * / ( ) ^ ^^
^ gives root values by fractions
^^ gives principal root values by fractions
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( '(4)^(1/2)' )
>>> objExpress.optimizeSpecial()
>>> print( objExpress )
[ (-2) | 2 ]
>>> objExpress = symexpress3.SymFormulaParser( '(4)^^(1/2)' )
>>> objExpress.optimizeSpecial()
>>> print( objExpress )
2
Numeric values
Only integers are supported. For fractions use /
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( '7/10 + 3/11' )
>>> objExpress.optimizeSpecial()
>>> print( objExpress )
(107/110)
Get the real value
If there is more the one value, it gives an array back
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( '7/10 + 3/11' )
>>> objExpress.optimizeSpecial()
>>> print( objExpress.getValue() )
0.9727272727272728
>>> objExpress = symexpress3.SymFormulaParser( '(4)^(1/2)' )
>>> objExpress.optimizeSpecial()
>>> print( objExpress.getValue() )
[-2, 2]
Get all defined functions
Get a dictionary of all the defined functions. Key is the functions syntax, value is the description
>>> import symexpress3
>>> print( symexpress3.GetAllFunctions() )
Get all defined optimize actions
Get a dictionary of all the optimize actions. Key is the optimize action, value is the description
>>> import symexpress3
>>> print( symexpress3.GetAllOptimizeActions() )
Get all fixed variables
Get a dictionary of all the fixed variables. Key is the variable name, value is the description
>>> import symexpress3
>>> print( symexpress3.GetFixedVariables() )
Predefined optimization methods
The optimizeNormal method use the multiply, onlyOneRoot, i, power and add optimize actions The power action do not optimize roots. onlyOneRoot get radicals in it lowest form.
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( '5 * 2^2 + i * i + (4)^(1/2)' )
>>> objExpress.optimizeNormal()
>>> print( objExpress )
19 + 4^(1/2)
The optimizeSpecial method use the optimizeNormal method and the following optimize actions: rootToPrincipalRoot, powerArrays,arrayPower, functionToValues, negRootToI, functionToValues, unnestingRadicals, functionToValues, radicalDenominatorToCounter, rootIToSinCos, functionToValues, rootOfImagNumToCosISin, functionToValues, nestedRadicals, imaginairDenominator, sinTwoCosTwo, cosXplusYtoSinCos, sinXplusYtoSinCos, splitDenominator and expandArrays
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( '5 * 2^2 + i * i + (4)^(1/2)' )
>>> objExpress.optimizeSpecial()
>>> print( objExpress )
19 + [ (-2) | 2 ]
>>> print( objExpress.getValue() )
[17, 21]
Optimize expression
Use the optimize method for optimization
Remove unnecessary () and optimize the internal structure
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( '((2) + (3))' )
>>> objExpress.optimize( None )
>>> print( objExpress )
2 + 3
Use of the optimize actions. Use after SymFormulaParser and each optimize() an optimize( None ) Most of the time use optimizeNormal() instead of optimize( None )
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( 'cos( pi/4 )' )
>>> objExpress.optimize( None )
>>> objExpress.optimize( 'functionToValues' )
>>> objExpress.optimize( None )
>>> print( objExpress )
2^^(1/2) * (1/2)
Output formats
MathMl output
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( 'cos( pi/4 )' )
>>> objExpress.optimize( None )
>>> print( objExpress.mathMl() )
Html output with expression in MathMl and string format. It create the symexpress3_demo.html file in the current directory.
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( 'cos( pi/4 )' )
>>> objExpress.optimize( None )
>>> objOutput = symexpress3.SymToHtml( "symexpress3_demo.html", "SymExpress 3 demo" )
>>> objOutput.writeSymExpress( objExpress )
>>> objOutput.writeLine( str( objExpress ))
>>> objOutput.closeFile()
Calculate value with variables
Define a dictionary for the variables. The key is the variable name and de value is a number.
>>> import symexpress3
>>> objExpress = symexpress3.SymFormulaParser( '(x+1) (y+2)' )
>>> dictVar = {}
>>> dictVar[ 'x' ] = 0.33333
>>> dictVar[ 'y' ] = 3
>>> valueExpression = objExpress.getValue( dictVar )
>>> print( valueExpression )
6.66665
Commandline
python -m symexpress3
- Help: python -m symexpress3 -h
- Direct optimize: python -m symexpress3 "cos( pi / 4 )^^(1/3)"
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