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<head><title>Strategy -- name for an optional argument</title>
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<div><h1>Strategy -- name for an optional argument</h1>
<div class="single"><h2>Description</h2>
<div>A symbol used as the name of an optional argument, for some function(s).</div>
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<div class="single"><h2>Functions with optional argument named Strategy :</h2>
<ul><li><span>annihilator(..., Strategy => ...), see <span><a href="_annihilator.html" title="the annihilator ideal">annihilator</a> -- the annihilator ideal</span></span></li>
<li><span><a href="_associated__Primes_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="">associatedPrimes(..., Strategy => ...)</a></span></li>
<li><span>mingens(..., Strategy => ...), see <span><a href="___Complement.html" title="">Complement</a></span></span></li>
<li><span>trim(..., Strategy => ...), see <span><a href="___Complement.html" title="">Complement</a></span></span></li>
<li><span><a href="_determinant_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="choose between Bareiss and Cofactor algorithms">determinant(..., Strategy => ...)</a> -- choose between Bareiss and Cofactor algorithms</span></li>
<li><span><a href="_dual_lp__Monomial__Ideal_cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="">dual(MonomialIdeal, Strategy => ...)</a></span></li>
<li><span>dual(MonomialIdeal,List, Strategy => ...), see <span><a href="_dual_lp__Monomial__Ideal_cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="">dual(MonomialIdeal, Strategy => ...)</a></span></span></li>
<li><span>dual(MonomialIdeal,RingElement, Strategy => ...), see <span><a href="_dual_lp__Monomial__Ideal_cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="">dual(MonomialIdeal, Strategy => ...)</a></span></span></li>
<li><span><a href="_exterior__Power_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="choose between Bareiss and Cofactor algorithms">exteriorPower(..., Strategy => ...)</a> -- choose between Bareiss and Cofactor algorithms</span></li>
<li><span>gb(..., Strategy => ...), see <span><a href="_gb.html" title="compute a Gröbner basis">gb</a> -- compute a Gröbner basis</span></span></li>
<li><span><tt>gcdLLL(..., Strategy => ...)</tt> (missing documentation<!-- tag: [gcdLLL, Strategy] -->)</span></li>
<li><span><tt>hermite(..., Strategy => ...)</tt> (missing documentation<!-- tag: [hermite, Strategy] -->)</span></li>
<li><span><tt>idealizer(..., Strategy => ...)</tt> (missing documentation<!-- tag: [idealizer, Strategy] -->)</span></li>
<li><span><a href="../../IntegralClosure/html/_integral__Closure_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="control the algorithm used">integralClosure(..., Strategy => ...)</a> -- control the algorithm used</span></li>
<li><span><a href="../../LLLBases/html/___L__L__L_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="choose among different algorithms">LLL(..., Strategy => ...)</a> -- choose among different algorithms</span></li>
<li><span><a href="../../PrimaryDecomposition/html/_localize_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="">localize(..., Strategy => ...)</a></span></li>
<li><span><a href="_minors_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="choose between Bareiss and Cofactor algorithms">minors(..., Strategy => ...)</a> -- choose between Bareiss and Cofactor algorithms</span></li>
<li><span><a href="../../PrimaryDecomposition/html/_primary__Component_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="">primaryComponent(..., Strategy => ...)</a></span></li>
<li><span><a href="../../PrimaryDecomposition/html/_primary__Decomposition_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="">primaryDecomposition(..., Strategy => ...)</a></span></li>
<li><span><a href="_quotient_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="Possible strategies are: Iterate, Linear, and Quotient">quotient(..., Strategy => ...)</a> -- Possible strategies are: Iterate, Linear, and Quotient</span></li>
<li><span>radical(..., Strategy => ...), see <span><a href="_radical.html" title="the radical of an ideal">radical</a> -- the radical of an ideal</span></span></li>
<li><span><a href="_resolution_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="">resolution(..., Strategy => ...)</a></span></li>
<li><span><a href="_saturate_lp..._cm_sp__Strategy_sp_eq_gt_sp..._rp.html" title="">saturate(..., Strategy => ...)</a></span></li>
<li><span>syz(..., Strategy => ...), see <span><a href="_syz_lp__Matrix_rp.html" title="compute the syzygy matrix">syz(Matrix)</a> -- compute the syzygy matrix</span></span></li>
<li><span>tangentCone(..., Strategy => ...), see <span><a href="../../TangentCone/html/_tangent__Cone_lp__Ideal_rp.html" title="">tangentCone(Ideal)</a></span></span></li>
</ul>
</div>
<div class="waystouse"><h2>For the programmer</h2>
<p>The object <a href="___Strategy.html" title="name for an optional argument">Strategy</a> is <span>a <a href="___Symbol.html">symbol</a></span>.</p>
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