LaTeX to CAS translator
This mockup demonstrates the concept of TeX to Computer Algebra System (CAS) conversion.
The demo-application converts LaTeX functions which directly translate to CAS counterparts.
Functions without explicit CAS support are available for translation via a DRMF package (under development).
The following LaTeX input ...
{\displaystyle P_n^{\lambda}(\cos \phi;a,b) = \frac{(2\lambda)_n}{n!}e^{in\phi}{}_2F_1\left(\begin{array}{c}-n,~\lambda+i(a\cos \phi+b)/\sin \phi\\ 2\lambda \end{array};1-e^{-2i\phi}\right)}
... is translated to the CAS output ...
Semantic latex: P_n^{\lambda}(\cos \phi ; a , b) = \frac{(2\lambda)_n}{n!} \expe^{in\phi}{}_2 F_1(\begin{array}{column-style}- n , \lambda + \iunit(a \cos \phi + b) / \sin \phi\end{array} ; 1 - \expe^{- 2 \iunit \phi})
Confidence: 0
Mathematica
Translation:
Information
Symbol info
- (LaTeX -> Mathematica) No translation possible for given token: Unknown relation. Cannot translate: in [in]
Tests
Symbolic
Numeric
SymPy
Translation:
Information
Symbol info
- (LaTeX -> SymPy) No translation possible for given token: Unknown relation. Cannot translate: in [in]
Tests
Symbolic
Numeric
Maple
Translation:
Information
Symbol info
- (LaTeX -> Maple) No translation possible for given token: Unknown relation. Cannot translate: in [in]
Tests
Symbolic
Numeric
Dependency Graph Information
Is part of
Complete translation information:
{
"id" : "FORMULA_9a3af207ef765257d5ccdd01862a32ab",
"formula" : "P_n^{\\lambda}(\\cos \\phi;a,b) = \\frac{(2\\lambda)_n}{n!}e^{in\\phi}{}_2F_1\\left(\\begin{array}{c}-n,~\\lambda+i(a\\cos \\phi+b)/\\sin \\phi\\\\ 2\\lambda \\end{array};1-e^{-2i\\phi}\\right)",
"semanticFormula" : "P_n^{\\lambda}(\\cos \\phi ; a , b) = \\frac{(2\\lambda)_n}{n!} \\expe^{in\\phi}{}_2 F_1(\\begin{array}{column-style}- n , \\lambda + \\iunit(a \\cos \\phi + b) / \\sin \\phi\\end{array} ; 1 - \\expe^{- 2 \\iunit \\phi})",
"confidence" : 0.0,
"translations" : {
"Mathematica" : {
"translation" : "",
"translationInformation" : {
"tokenTranslations" : {
"Error" : "(LaTeX -> Mathematica) No translation possible for given token: Unknown relation. Cannot translate: in [in]"
}
},
"numericResults" : {
"overallResult" : "SKIPPED",
"numberOfTests" : 0,
"numberOfFailedTests" : 0,
"numberOfSuccessfulTests" : 0,
"numberOfSkippedTests" : 0,
"numberOfErrorTests" : 0,
"wasAborted" : false,
"crashed" : false,
"testCalculationsGroups" : [ ]
},
"symbolicResults" : {
"overallResult" : "SKIPPED",
"numberOfTests" : 0,
"numberOfFailedTests" : 0,
"numberOfSuccessfulTests" : 0,
"numberOfSkippedTests" : 0,
"numberOfErrorTests" : 0,
"crashed" : false,
"testCalculationsGroup" : [ ]
}
},
"SymPy" : {
"translation" : "",
"translationInformation" : {
"tokenTranslations" : {
"Error" : "(LaTeX -> SymPy) No translation possible for given token: Unknown relation. Cannot translate: in [in]"
}
},
"numericResults" : {
"overallResult" : "SKIPPED",
"numberOfTests" : 0,
"numberOfFailedTests" : 0,
"numberOfSuccessfulTests" : 0,
"numberOfSkippedTests" : 0,
"numberOfErrorTests" : 0,
"wasAborted" : false,
"crashed" : false,
"testCalculationsGroups" : [ ]
},
"symbolicResults" : {
"overallResult" : "SKIPPED",
"numberOfTests" : 0,
"numberOfFailedTests" : 0,
"numberOfSuccessfulTests" : 0,
"numberOfSkippedTests" : 0,
"numberOfErrorTests" : 0,
"crashed" : false,
"testCalculationsGroup" : [ ]
}
},
"Maple" : {
"translation" : "",
"translationInformation" : {
"tokenTranslations" : {
"Error" : "(LaTeX -> Maple) No translation possible for given token: Unknown relation. Cannot translate: in [in]"
}
},
"numericResults" : {
"overallResult" : "SKIPPED",
"numberOfTests" : 0,
"numberOfFailedTests" : 0,
"numberOfSuccessfulTests" : 0,
"numberOfSkippedTests" : 0,
"numberOfErrorTests" : 0,
"wasAborted" : false,
"crashed" : false,
"testCalculationsGroups" : [ ]
},
"symbolicResults" : {
"overallResult" : "SKIPPED",
"numberOfTests" : 0,
"numberOfFailedTests" : 0,
"numberOfSuccessfulTests" : 0,
"numberOfSkippedTests" : 0,
"numberOfErrorTests" : 0,
"crashed" : false,
"testCalculationsGroup" : [ ]
}
}
},
"positions" : [ ],
"includes" : [ ],
"isPartOf" : [ "P_n^{\\lambda}(\\cos \\phi;a,b) = \\frac{(2\\lambda)_n}{n!}e^{in\\phi}{}_2F_1\\left(\\begin{array}{c}-n,\\lambda+i(a\\cos \\phi+b)/\\sin \\phi\\\\ 2\\lambda \\end{array};1-e^{-2i\\phi}\\right)" ],
"definiens" : [ ]
}