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<head><title>MethodFunctionWithOptions -- a type of method function</title>
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<div><h1>MethodFunctionWithOptions -- a type of method function</h1>
<div class="single"><h2>Description</h2>
<div>Functions of this type are created by <a href="_method.html" title="make a new method function">method</a>.</div>
</div>
<div class="waystouse"><h2>Fixed objects of class MethodFunctionWithOptions :</h2>
<ul><li><span><a href="_annihilator.html" title="the annihilator ideal">annihilator</a> -- the annihilator ideal</span></li>
<li><span><a href="../../ReesAlgebra/html/_associated__Graded__Ring.html" title="the associated graded ring of an ideal">associatedGradedRing</a> -- the associated graded ring of an ideal</span></li>
<li><span><a href="_associated__Primes.html" title="find the associated primes of an ideal">associatedPrimes</a> -- find the associated primes of an ideal</span></li>
<li><span><a href="_basis.html" title="basis of all or part of a module or ring">basis</a> -- basis of all or part of a module or ring</span></li>
<li><span><a href="_betti.html" title="display degrees">betti</a> -- display degrees</span></li>
<li><span><a href="_check.html" title="perform tests of a package">check</a> -- perform tests of a package</span></li>
<li><span><a href="_codim.html" title="compute the codimension">codim</a> -- compute the codimension</span></li>
<li><span><a href="_coefficients.html" title="monomials and their coefficients">coefficients</a> -- monomials and their coefficients</span></li>
<li><span><a href="_cohomology.html" title="general cohomology functor">cohomology</a> -- general cohomology functor</span></li>
<li><span>copyDirectory, see <span><a href="_copy__Directory_lp__String_cm__String_rp.html" title="">copyDirectory(String,String)</a></span></span></li>
<li><span>copyFile, see <span><a href="_copy__File_lp__String_cm__String_rp.html" title="">copyFile(String,String)</a></span></span></li>
<li><span><a href="_cotangent__Sheaf.html" title="cotangent sheaf of a projective variety">cotangentSheaf</a> -- cotangent sheaf of a projective variety</span></li>
<li><span><a href="_determinant.html" title="determinant of a matrix">determinant</a> -- determinant of a matrix</span></li>
<li><span><a href="../../ReesAlgebra/html/_distinguished.html" title="compute the distinguished subvarieties of a scheme">distinguished</a> -- compute the distinguished subvarieties of a scheme</span></li>
<li><span><a href="../../ReesAlgebra/html/_distinguished__And__Mult.html" title="compute the distinguished subvarieties of a scheme along with their multiplicities">distinguishedAndMult</a> -- compute the distinguished subvarieties of a scheme along with their multiplicities</span></li>
<li><span><a href="_document.html" title="package item: documentation node">document</a> -- package item: documentation node</span></li>
<li><span><a href="_dual.html" title="dual module or map">dual</a> -- dual module or map</span></li>
<li><span><a href="_eigenvalues.html" title="find eigenvalues of a matrix">eigenvalues</a> -- find eigenvalues of a matrix</span></li>
<li><span><a href="_eigenvectors.html" title="find eigenvectors of a matrix over RR or CC">eigenvectors</a> -- find eigenvectors of a matrix over RR or CC</span></li>
<li><span><a href="_extend.html" title="extend a module map to a chain map, if possible">extend</a> -- extend a module map to a chain map, if possible</span></li>
<li><span><a href="_exterior__Power.html" title="exterior power">exteriorPower</a> -- exterior power</span></li>
<li><span><a href="_factor.html" title="factor a ring element or a ZZ-module">factor</a> -- factor a ring element or a ZZ-module</span></li>
<li><span><a href="_fill__Matrix.html" title="fill a mutable matrix with random numbers">fillMatrix</a> -- fill a mutable matrix with random numbers</span></li>
<li><span><a href="_find__Files.html" title="find files recursively">findFiles</a> -- find files recursively</span></li>
<li><span><a href="_flatten__Ring.html" title="write a ring as a (quotient) of a polynomial ring over ZZ or a prime field">flattenRing</a> -- write a ring as a (quotient) of a polynomial ring over ZZ or a prime field</span></li>
<li><span><a href="_force__G__B.html" title="declare that the columns of a matrix are a Gröbner basis">forceGB</a> -- declare that the columns of a matrix are a Gröbner basis</span></li>
<li><span><a href="_gb.html" title="compute a Gröbner basis">gb</a> -- compute a Gröbner basis</span></li>
<li><span><a href="../../LLLBases/html/_gcd__L__L__L.html" title="compute the gcd of integers, and small multipliers">gcdLLL</a> -- compute the gcd of integers, and small multipliers</span></li>
<li><span><a href="_generators.html" title="provide matrix or list of generators">generators</a> -- provide matrix or list of generators</span></li>
<li><span>getPackage, see <span><a href="_get__Package_lp__String_rp.html" title="download a package from the repository">getPackage(String)</a> -- download a package from the repository</span></span></li>
<li><span><a href="___G__F.html" title="make a finite field">GF</a> -- make a finite field</span></li>
<li><span>graphIdeal, see <span><a href="_graph__Ideal_lp__Ring__Map_rp.html" title="the ideal of the graph of the regular map corresponding to a ring map">graphIdeal(RingMap)</a> -- the ideal of the graph of the regular map corresponding to a ring map</span></span></li>
<li><span>graphRing, see <span><a href="_graph__Ring_lp__Ring__Map_rp.html" title="the coordinate ring of the graph of the regular map corresponding to a ring map">graphRing(RingMap)</a> -- the coordinate ring of the graph of the regular map corresponding to a ring map</span></span></li>
<li><span>Grassmannian, see <span><a href="___Grassmannian_lp__Z__Z_cm__Z__Z_rp.html" title="the Grassmannian of linear subspaces of a vector space">Grassmannian(ZZ,ZZ)</a> -- the Grassmannian of linear subspaces of a vector space</span></span></li>
<li><span><tt>hermite</tt> (missing documentation<!-- tag: hermite -->)</span></li>
<li><span><a href="_hilbert__Polynomial.html" title="compute the Hilbert polynomial">hilbertPolynomial</a> -- compute the Hilbert polynomial</span></li>
<li><span><a href="_hilbert__Series.html" title="compute the Hilbert series">hilbertSeries</a> -- compute the Hilbert series</span></li>
<li><span><a href="_homology.html" title="general homology functor">homology</a> -- general homology functor</span></li>
<li><span><a href="../../IntegralClosure/html/_ic__Frac__P.html" title="compute the integral closure in prime characteristic">icFracP</a> -- compute the integral closure in prime characteristic</span></li>
<li><span><a href="../../IntegralClosure/html/_idealizer.html" title="compute Hom(I,I) as a quotient ring">idealizer</a> -- compute Hom(I,I) as a quotient ring</span></li>
<li><span><a href="_independent__Sets.html" title="some size-maximal independent subsets of variables modulo an ideal">independentSets</a> -- some size-maximal independent subsets of variables modulo an ideal</span></li>
<li><span><a href="_induced__Map.html" title="compute an induced map">inducedMap</a> -- compute an induced map</span></li>
<li><span><a href="_install__Package.html" title="load and install a package and its documentation ">installPackage</a> -- load and install a package and its documentation </span></li>
<li><span><a href="../../IntegralClosure/html/_integral__Closure.html" title="integral closure of an ideal or a domain">integralClosure</a> -- integral closure of an ideal or a domain</span></li>
<li><span><a href="../../LLLBases/html/_is__L__L__L.html" title="is a basis an LLL basis?">isLLL</a> -- is a basis an LLL basis?</span></li>
<li><span><tt>isReduction</tt> (missing documentation<!-- tag: isReduction -->)</span></li>
<li><span><a href="_kernel.html" title="kernel of a ringmap, matrix, or chain complex">kernel</a> -- kernel of a ringmap, matrix, or chain complex</span></li>
<li><span><tt>kernelLLL</tt> (missing documentation<!-- tag: kernelLLL -->)</span></li>
<li><span><a href="_lift.html" title="lift to another ring">lift</a> -- lift to another ring</span></li>
<li><span><a href="../../LLLBases/html/___L__L__L.html" title="compute an LLL basis">LLL</a> -- compute an LLL basis</span></li>
<li><span><a href="_load__Package.html" title="load a package">loadPackage</a> -- load a package</span></li>
<li><span>localize, see <span><a href="../../PrimaryDecomposition/html/_localize_lp__Ideal_cm__Ideal_rp.html" title="localize an ideal at a prime ideal">localize(Ideal,Ideal)</a> -- localize an ideal at a prime ideal</span></span></li>
<li><span><a href="_map.html" title="make a map">map</a> -- make a map</span></li>
<li><span>markedGB, see <span><a href="_marked__G__B_lp__Matrix_cm__Matrix_rp.html" title="make a marked Gröbner basis">markedGB(Matrix,Matrix)</a> -- make a marked Gröbner basis</span></span></li>
<li><span><a href="_matrix.html" title="make a matrix">matrix</a> -- make a matrix</span></li>
<li><span><a href="_mingens.html" title="minimal generator matrix">mingens</a> -- minimal generator matrix</span></li>
<li><span><a href="_minimal__Presentation.html" title="compute a minimal presentation">minimalPresentation</a> -- compute a minimal presentation</span></li>
<li><span><a href="../../ReesAlgebra/html/_minimal__Reduction.html" title="minimal reduction of an ideal">minimalReduction</a> -- minimal reduction of an ideal</span></li>
<li><span>minors, see <span><a href="_minors_lp__Z__Z_cm__Matrix_rp.html" title="ideal generated by minors">minors(ZZ,Matrix)</a> -- ideal generated by minors</span></span></li>
<li><span>modulo, see <span><a href="_modulo_lp__Matrix_cm__Matrix_rp.html" title="find the pre-image (pullback) of image of a map (low level version)">modulo(Matrix,Matrix)</a> -- find the pre-image (pullback) of image of a map (low level version)</span></span></li>
<li><span><a href="_monomials.html" title="matrix of monomials in a ring element or matrix">monomials</a> -- matrix of monomials in a ring element or matrix</span></li>
<li><span>moveFile, see <span><a href="_move__File_lp__String_cm__String_rp.html" title="">moveFile(String,String)</a></span></span></li>
<li><span>mutableIdentity, see <span><a href="_mutable__Identity_lp__Ring_cm__Z__Z_rp.html" title="make a mutable identity matrix">mutableIdentity(Ring,ZZ)</a> -- make a mutable identity matrix</span></span></li>
<li><span><a href="_mutable__Matrix.html" title="make a mutable matrix">mutableMatrix</a> -- make a mutable matrix</span></li>
<li><span><a href="_needs__Package.html" title="load a package if not already loaded">needsPackage</a> -- load a package if not already loaded</span></li>
<li><span>netList, see <span><a href="_net__List_lp__Visible__List_rp.html" title="a table of boxes">netList(VisibleList)</a> -- a table of boxes</span></span></li>
<li><span>newPackage, see <span><a href="_new__Package_lp__String_rp.html" title="package item: start a new package">newPackage(String)</a> -- package item: start a new package</span></span></li>
<li><span><a href="_new__Ring.html" title="make a copy of a ring, with some features changed">newRing</a> -- make a copy of a ring, with some features changed</span></li>
<li><span><a href="../../ReesAlgebra/html/_normal__Cone.html" title="the normal cone of a subscheme">normalCone</a> -- the normal cone of a subscheme</span></li>
<li><span><a href="_position.html" title="find first element of a list satisfying a condition">position</a> -- find first element of a list satisfying a condition</span></li>
<li><span>primaryComponent, see <span><a href="../../PrimaryDecomposition/html/_primary__Component_lp__Ideal_cm__Ideal_rp.html" title="find a primary component corresponding to an associated prime">primaryComponent(Ideal,Ideal)</a> -- find a primary component corresponding to an associated prime</span></span></li>
<li><span><a href="../../PrimaryDecomposition/html/_primary__Decomposition.html" title="irredundant primary decomposition of an ideal">primaryDecomposition</a> -- irredundant primary decomposition of an ideal</span></li>
<li><span><a href="_prune.html" title="prune, e.g., compute a minimal presentation">prune</a> -- prune, e.g., compute a minimal presentation</span></li>
<li><span>pushForward, see <span><a href="_push__Forward_lp__Ring__Map_cm__Module_rp.html" title="">pushForward(RingMap,Module)</a></span></span></li>
<li><span><a href="_quotient.html" title="quotient or division">quotient</a> -- quotient or division</span></li>
<li><span><a href="_radical.html" title="the radical of an ideal">radical</a> -- the radical of an ideal</span></li>
<li><span><a href="_random.html" title="get a random element">random</a> -- get a random element</span></li>
<li><span>randomMutableMatrix, see <span><a href="_random__Mutable__Matrix_lp__Z__Z_cm__Z__Z_cm__R__R_cm__Z__Z_rp.html" title="a random mutable matrix of integers">randomMutableMatrix(ZZ,ZZ,RR,ZZ)</a> -- a random mutable matrix of integers</span></span></li>
<li><span><a href="../../ReesAlgebra/html/_rees__Algebra.html" title="compute the defining ideal of the Rees Algebra">reesAlgebra</a> -- compute the defining ideal of the Rees Algebra</span></li>
<li><span><a href="../../ReesAlgebra/html/_rees__Ideal.html" title="compute the defining ideal of the Rees Algebra">reesIdeal</a> -- compute the defining ideal of the Rees Algebra</span></li>
<li><span><a href="_regularity.html" title="compute the Castelnuovo-Mumford regularity">regularity</a> -- compute the Castelnuovo-Mumford regularity</span></li>
<li><span><a href="_resolution.html" title="projective resolution">resolution</a> -- projective resolution</span></li>
<li><span><a href="../../IntegralClosure/html/_ring__From__Fractions.html" title="find presentation for f.g. ring">ringFromFractions</a> -- find presentation for f.g. ring</span></li>
<li><span><a href="_rsort.html" title="sort a list or matrix in reverse order">rsort</a> -- sort a list or matrix in reverse order</span></li>
<li><span><a href="_saturate.html" title="saturation of ideal or submodule">saturate</a> -- saturation of ideal or submodule</span></li>
<li><span>Schubert, see <span><a href="___Schubert_lp__Z__Z_cm__Z__Z_cm__Visible__List_rp.html" title="find the Pluecker ideal of a Schubert variety">Schubert(ZZ,ZZ,VisibleList)</a> -- find the Pluecker ideal of a Schubert variety</span></span></li>
<li><span><a href="_show__Tex.html" title="convert to TeX and display on screen">showTex</a> -- convert to TeX and display on screen</span></li>
<li><span>smithNormalForm, see <span><a href="_smith__Normal__Form_lp__Matrix_rp.html" title="smith normal form for a matrix over ZZ or a PID">smithNormalForm(Matrix)</a> -- smith normal form for a matrix over ZZ or a PID</span></span></li>
<li><span><a href="_solve.html" title="solve a linear equation">solve</a> -- solve a linear equation</span></li>
<li><span><a href="_sort.html" title="sort a list or columns of a matrix">sort</a> -- sort a list or columns of a matrix</span></li>
<li><span><a href="_sort__Columns.html" title="permutation giving sort order">sortColumns</a> -- permutation giving sort order</span></li>
<li><span><a href="../../ReesAlgebra/html/_special__Fiber.html" title="special fiber of a blowup">specialFiber</a> -- special fiber of a blowup</span></li>
<li><span><a href="../../ReesAlgebra/html/_special__Fiber__Ideal.html" title="special fiber of a blowup">specialFiberIdeal</a> -- special fiber of a blowup</span></li>
<li><span><a href="_status.html" title="status of a resolution computation">status</a> -- status of a resolution computation</span></li>
<li><span><a href="___S__V__D.html" title="singular value decomposition of a matrix">SVD</a> -- singular value decomposition of a matrix</span></li>
<li><span>symlinkDirectory, see <span><a href="_symlink__Directory_lp__String_cm__String_rp.html" title="make symbolic links for all files in a directory tree">symlinkDirectory(String,String)</a> -- make symbolic links for all files in a directory tree</span></span></li>
<li><span><a href="_symmetric__Algebra.html" title="the symmetric algebra of a module">symmetricAlgebra</a> -- the symmetric algebra of a module</span></li>
<li><span><a href="../../ReesAlgebra/html/_symmetric__Kernel.html" title="Compute the Rees ring of the image of a matrix">symmetricKernel</a> -- Compute the Rees ring of the image of a matrix</span></li>
<li><span><a href="_syz.html" title="the syzygy matrix">syz</a> -- the syzygy matrix</span></li>
<li><span>tangentCone, see <span><a href="../../TangentCone/html/_tangent__Cone_lp__Ideal_rp.html" title="">tangentCone(Ideal)</a></span></span></li>
<li><span><a href="_tangent__Sheaf.html" title="tangent sheaf of a projective variety">tangentSheaf</a> -- tangent sheaf of a projective variety</span></li>
<li><span><a href="_tensor.html" title="tensor product">tensor</a> -- tensor product</span></li>
<li><span><a href="_trim.html" title="minimize generators and relations">trim</a> -- minimize generators and relations</span></li>
<li><span>uninstallPackage, see <span><a href="_uninstall__Package_lp__String_rp.html" title="uninstall a package">uninstallPackage(String)</a> -- uninstall a package</span></span></li>
</ul>
</div>
<div class="waystouse"><h2>For the programmer</h2>
<p>The object <a href="___Method__Function__With__Options.html" title="a type of method function">MethodFunctionWithOptions</a> is <span>a <a href="___Type.html">type</a></span>, with ancestor classes <a href="___Function__Closure.html" title="the class of all function closures">FunctionClosure</a> &lt; <a href="___Function.html" title="the class of all functions">Function</a> &lt; <a href="___Thing.html" title="the class of all things">Thing</a>.</p>
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