%% %% This is file `cmathml.sty', %% generated with the docstrip utility. %% %% The original source files were: %% %% cmathml.dtx (with options: `sty') %% \RequirePackage{presentation} \newcommand{\Capply}[3][]{#2(#3)} \def\CMathML@cn#1{#1} \newcommand{\Ccn}[2][]{\CMathML@cn{#2}} \def\CMathML@ci#1{#1} \newcommand{\Cci}[2][]{\CMathML@ci{#2}} \def\CMathML@csymbol#1{#1} \newcommand{\Ccsymbol}[2][]{\CMathML@csymbol{#2}} \def\CMathML@ccinterval#1#2{[#1,#2]} \newcommand{\Cccinterval}[3][]{\CMathML@ccinterval{#2}{#3}} \def\CMathML@cointerval#1#2{[#1,#2)} \newcommand{\Ccointerval}[3][]{\CMathML@cointerval{#2}{#3}} \def\CMathML@ocinterval#1#2{(#1,#2]} \newcommand{\Cocinterval}[3][]{\CMathML@ocinterval{#2}{#3}} \def\CMathML@oointerval#1#2{(#1,#2)} \newcommand{\Coointerval}[3][]{\CMathML@oointerval{#2}{#3}} \newcommand{\Cinverse}[2][]{#2^{-1}} \def\CMathML@lambda#1#2{\lambda({#1},{#2})} \newcommand{\Clambda}[3][]{\CMathML@lambda{#2}{#3}} \def\CMathML@lambdaDA#1#2#3{\lambda({#1}\colon{#2},#3)} \newcommand{\ClambdaDA}[4][]{\CMathML@lambdaDA{#2}{#3}{#4}} \def\CMathML@restrict#1#2{\left.#1\right|_{#2}} \newcommand{\Crestrict}[3][]{\CMathML@restrict{#2}{#3}} \def\CMathML@composeOp{\circ} \newcommand{\CcomposeOp}{\CMathML@composeOp} \def\CMathML@compose#1{\assoc[p=500,pi=500]{\CMathML@composeOp}{#1}} \newcommand{\Ccompose}[2][]{\CMathML@compose{#2}} \def\CMathML@ident#1{\mathrm{id}} \newcommand{\Cident}[1][]{\CMathML@ident{#1}} \def\CMathML@domain#1{\mbox{dom}(#1)} \newcommand{\Cdomain}[2][]{\CMathML@domain{#2}} \def\CMathML@codomain#1{\mbox{codom}(#1)} \newcommand{\Ccodomain}[2][]{\CMathML@codomain{#2}} \def\CMathML@image#1{{\mathbf{Im}}(#1)} \newcommand{\Cimage}[2][]{\CMathML@image{#2}} \def\CMathML@piecewise#1{\left\{\begin{array}{ll}#1\end{array}\right.} \newcommand{\Cpiecewise}[2][]{\CMathML@piecewise{#2}} \def\CMathML@piece#1#2{#1&{\mathrm{if}}\;{#2}\\} \newcommand{\Cpiece}[3][]{\CMathML@piece{#2}{#3}} \def\CMathML@otherwise#1{#1&else\\} \newcommand{\Cotherwise}[2][]{\CMathML@otherwise{#2}} \def\CMathML@quotient#1#2{\frac{#1}{#2}} \newcommand{\Cquotient}[3][]{\CMathML@quotient{#2}{#3}} \def\CMathML@factorialOp{!} \newcommand{\CfactorialOp}{\CMathML@factorialOp} \def\CMathML@factorial#1{#1{\CMathML@factorialOp}} \newcommand{\Cfactorial}[2][]{\CMathML@factorial{#2}} \def\CMathML@divideOp{\div} \newcommand{\CdivideOp}{\CMathML@divideOp} \def\CMathML@divide#1#2{\infix[p=400]{\CMathML@divideOp}{#1}{#2}} \newcommand{\Cdivide}[3][]{\CMathML@divide{#2}{#3}} \def\CMathML@maxOp{\mathrm{max}} \newcommand{\CmaxOp}{\CMathML@maxOp} \def\CMathML@max#1{{\CMathML@maxOp}(#1)} \newcommand{\Cmax}[2][]{\CMathML@max{#2}} \def\CMathML@minOp{\mathrm{min}} \newcommand{\CminOp}{\CMathML@minOp} \def\CMathML@min#1{{\CMathML@minOp}(#1)} \newcommand{\Cmin}[2][]{\CMathML@min{#2}} \def\CMathML@minusOp{-} \newcommand{\CminusOp}{\CMathML@minusOp} \def\CMathML@minus#1#2{\infix[p=500]{\CMathML@minusOp}{#1}{#2}} \newcommand{\Cminus}[3][]{\CMathML@minus{#2}{#3}} \def\CMathML@uminus#1{\prefix[p=200]{\CMathML@minusOp}{#1}} \newcommand{\Cuminus}[2][]{\CMathML@uminus{#2}} \def\CMathML@plusOp{+} \newcommand{\CplusOp}{\CMathML@plusOp} \def\CMathML@plus#1{\assoc[p=500]{\CMathML@plusOp}{#1}} \newcommand{\Cplus}[2][]{\CMathML@plus{#2}} \def\CMathML@power#1#2{\infix[p=200]{^}{#1}{#2}} \newcommand{\Cpower}[3][]{\CMathML@power{#2}{#3}} \def\CMathML@remOp{\bmod} \newcommand{\CremOp}{\CMathML@remOp} \def\CMathML@rem#1#2{#1 \CMathML@remOp #2} \newcommand{\Crem}[3][]{\CMathML@rem{#2}{#3}} \def\CMathML@timesOp{\cdot} \newcommand{\CtimesOp}{\CMathML@timesOp} \def\CMathML@times#1{\assoc[p=400]{\CMathML@timesOp}{#1}} \newcommand{\Ctimes}[2][]{\CMathML@times{#2}} \def\CMathML@rootOp{\sqrt} \newcommand{\CrootOp}{\CMathML@rootOp{}} \def\CMathML@root#1#2{\CMathML@rootOp[#1]{#2}} \newcommand{\Croot}[3][]{\CMathML@root{#2}{#3}} \def\CMathML@gcd#1{\gcd(#1)} \newcommand{\Cgcd}[2][]{\CMathML@gcd{#2}} \def\CMathML@andOp{\wedge} \newcommand{\CandOp}{\CMathML@andOp} \def\CMathML@and#1{\assoc[p=400]{\CMathML@andOp}{#1}} \newcommand{\Cand}[2][]{\CMathML@and{#2}} \def\CMathML@orOp{\vee} \newcommand{\CorOp}{\CMathML@orOp} \def\CMathML@or#1{\assoc[p=500]{\CMathML@orOp}{#1}} \newcommand{\Cor}[2][]{\CMathML@or{#2}} \def\CMathML@xorOp{\oplus} \newcommand{\CxorOp}{\CMathML@xorOp} \def\CMathML@xor#1{\assoc[p=400]{\CMathML@xorOp}{#1}} \newcommand{\Cxor}[2][]{\CMathML@xor{#2}} \def\CMathML@notOp{\neg} \newcommand{\CnotOp}{\CMathML@notOp} \def\CMathML@not#1{\CMathML@notOp{#1}} \newcommand{\Cnot}[2][]{\CMathML@not{#2}} \def\CMathML@impliesOp{\Longrightarrow} \newcommand{\CimpliesOp}{\CMathML@impliesOp} \def\CMathML@implies#1#2{#1\CMathML@impliesOp{#2}} \newcommand{\Cimplies}[3][]{\CMathML@implies{#2}{#3}} \def\CMathML@AndDA#1#2{\bigwedge_{#1}{#2}} % set, scope \newcommand{\CAndDA}[3][]{\CMathML@AndDA{#2}{#3}} \def\CMathML@AndCond#1#2#3{\bigwedge_{#2}{#3}} % bvars,condition, scope \newcommand{\CAndCond}[4][]{\CMathML@AndCond{#2}{#2}{#3}} \def\CMathML@OrDA#1#2{\bigvee_{#1}{#2}} % set, scope \newcommand{\COrDa}[3][]{\CMathML@OrDA{#2}{#3}} \def\CMathML@OrCond#1#2#3{\bigvee_{#2}{#3}}% bvars,condition, scope \newcommand{\COrCond}[4][]{\CMathML@OrCond{#2}{#3}{#4}} \def\CMathML@XorDA#1#2{\bigoplus_{#1}{#2}} % set, scope \newcommand{\CXorDA}[3][]{\CMathML@XorDA{#2}{#3}} \def\CMathML@XorCond#1#2#3{\bigoplus_{#2}{#3}}% bvars,condition, scope \newcommand{\CXorCond}[4][]{\CMathML@XorCond{#2}{#3}{#4}} \def\CMathML@forall#1#2{\forall{#1}\colon{#2}} \newcommand{\Cforall}[3][]{\CMathML@forall{#2}{#3}} \def\CMathML@forallCond#1#2#3{\forall{#1},{#2}\colon{#3}} % list), condition, scope \newcommand{\CforallCond}[4][]{\CMathML@forallCond{#2}{#3}{#4}} \def\CMathML@exists#1#2{\exists{#1}\colon{#2}} \newcommand{\Cexists}[3][]{\CMathML@exists{#2}{#3}} \def\CMathML@esistsCont#1#2#3{\exists{#1},{#2}\colon{#3}} \newcommand{\CexistsCond}[4][]{\CMathML@esistsCont{#2}{#3}{#4}} \def\CMathML@abs#1{\left|#1\right|} \newcommand{\Cabs}[2][]{\CMathML@abs{#2}} \def\CMathML@conjugate#1{\overline{#1}} \newcommand{\Cconjugate}[2][]{\CMathML@conjugate{#2}} \def\CMathML@arg#1{\angle #1} \newcommand{\Carg}[2][]{\CMathML@arg{#2}} \def\CMathML@real#1{\Re #1} \newcommand{\Creal}[2][]{\CMathML@real{#2}} \def\CMathML@imaginary#1{\Im #1} \newcommand{\Cimaginary}[2][]{\CMathML@imaginary{#2}} \def\CMathML@lcm#1{\mbox{lcm}(#1)} \newcommand{\Clcm}[2][]{\CMathML@lcm{#2}} \def\CMathML@floor#1{\left\lfloor{#1}\right\rfloor} \newcommand{\Cfloor}[2][]{\CMathML@floor{#2}} \def\CMathML@ceiling#1{\left\lceil{#1}\right\rceil} \newcommand{\Cceiling}[2][]{\CMathML@ceiling{#2}} \def\CMathML@eqOp{=} \newcommand{\CeqOp}{\CMathML@eqOp} \def\CMathML@eq#1{\assoc[p=700]{\CMathML@eqOp}{#1}} \newcommand{\Ceq}[2][]{\CMathML@eq{#2}} \def\CMathML@neqOp{\neq} \newcommand{\CneqOp}{\CMathML@neqOp} \def\CMathML@neq#1#2{\infix[p=700]{\CMathML@neqOp}{#1}{#2}} \newcommand{\Cneq}[3][]{\CMathML@neq{#2}{#3}} \def\CMathML@gtOp{>} \newcommand{\CgtOp}{\CMathML@gtOp} \def\CMathML@gt#1{\assoc[p=700]{\CMathML@gtOp}{#1}} \newcommand{\Cgt}[2][]{\CMathML@gt{#2}} \def\CMathML@ltOp{<} \newcommand{\CltOp}{\CMathML@ltOp} \def\CMathML@lt#1{\assoc[p=700]{\CMathML@ltOp}{#1}} \newcommand{\Clt}[2][]{\CMathML@lt{#2}} \def\CMathML@geqOp{\geq} \newcommand{\CgeqOp}{\CMathML@geqOp} \def\CMathML@geq#1{\assoc[p=700]{\CMathML@geqOp}{#1}} \newcommand{\Cgeq}[2][]{\CMathML@geq{#2}} \def\CMathML@leqOp{\leq} \newcommand{\CleqOp}{\CMathML@leqOp} \def\CMathML@leq#1{\assoc[p=700]{\CMathML@leqOp}{#1}} \newcommand{\Cleq}[2][]{\CMathML@leq{#2}} \def\CMathML@equivalentOp{\equiv} \newcommand{\CequivalentOp}{\CMathML@equivalentOp} \def\CMathML@equivalent#1{\assoc[p=700]{\CMathML@equivalentOp}{#1}} \newcommand{\Cequivalent}[2][]{\CMathML@equivalent{#2}} \def\CMathML@approxOp{\approx} \newcommand{\CapproxOp}{\CMathML@approxOp} \def\CMathML@approx#1#2{#1\CMathML@approxOp{#2}} \newcommand{\Capprox}[3][]{\CMathML@approx{#2}{#3}} \def\CMathML@factorofOp{\mid} \newcommand{\CfactorofOp}{\CMathML@factorofOp} \def\CMathML@factorof#1#2{#1\CMathML@factorofOp{#2}} \newcommand{\Cfactorof}[3][]{\CMathML@factorof{#2}{#3}} \def\CMathML@intOp{\int} \newcommand{\CintOp}{\CMathML@intOp} \def\CMathML@int#1{\CMathML@intOp{#1}} \newcommand{\Cint}[2][]{\CMathML@int{#2}} \def\CMathML@intLimits#1#2#3#4{\CMathML@intOp_{#2}^{#3}{#4}d{#1}} %bvars,llimit, ulimit,body \newcommand{\CintLimits}[5][]{\CMathML@intLimits{#2}{#3}{#4}{#5}} \def\CMathML@intSet#1#2{\CMathML@intOp_{#1}{#2}}% set,function \newcommand{\CintDA}[3][]{\CMathML@intSet{#2}{#3}} \def\CMathML@intCond#1#2#3{\CMathML@intOp_{#2}{#3}d{#1}} %bvars, condition, body \newcommand{\CintCond}[4][]{\CMathML@intCond{#2}{#3}{#4}} \def\CMathML@diff#1{#1'} \newcommand{\Cdiff}[2][]{\CMathML@diff{#2}} \def\CMathML@ddiff#1#2{{d{#2}(#1)\over{d{#1}}}} \newcommand{\Cddiff}[3][]{\CMathML@ddiff{#2}{#3}} \def\CMathML@partialdiff#1#2#3{{\partial^{#1}\over\partial{#2}}{#3}}% degree, bvars, body \newcommand{\Cpartialdiff}[4][]{\CMathML@partialdiff{#2}{#3}{#4}} \newcommand{\Cdegree}[2]{#1^{#2}} \def\CMathML@limit#1#2#3{\lim_{#1\rightarrow{#2}}{#3}} \newcommand{\Climit}[4][]{\CMathML@limit{#2}{#3}{#4}} % bvar, lowlimit, scope \def\CMathML@limitCond#1#2#3{\lim_{#2}{#3}} \newcommand{\ClimitCond}[4][]{\CMathML@limitCond{#2}{#3}{#4}} % bvars, condition, scope \def\CMathML@tendstoOp{\rightarrow} \newcommand{\CtendstoOp}{\CMathML@tendstoOp} \def\CMathML@tendsto#1#2{#1\CMathML@tendstoOp{#2}} \newcommand{\Ctendsto}[3][]{\CMathML@tendsto{#2}{#3}} \def\CMathML@tendstoAboveOp{\searrow} \newcommand{\CtendstoAboveOp}{\CMathML@tendstoAboveOp} \def\CMathML@tendstoAbove#1#2{#1\searrow{#2}} \newcommand{\CtendstoAbove}[3][]{\CMathML@tendstoAbove{#2}{#3}} \def\CMathML@tendstoBelowOp{\nearrow} \newcommand{\CtendstoBelowOp}{\CMathML@tendstoBelowOp} \def\CMathML@tendstoBelow#1#2{#1\CMathML@tendstoBelowOp{#2}} \newcommand{\CtendstoBelow}[3][]{\CMathML@tendstoBelow{#2}{#3}} \def\CMathML@divergence#1{\nabla\cdot{#1}} \newcommand{\Cdivergence}[2][]{\CMathML@divergence{#2}} \def\CMathML@grad#1{\nabla{#1}} \newcommand{\Cgrad}[2][]{\CMathML@grad{#2}} \def\CMathML@curl#1{\nabla\times{#1}} \newcommand{\Ccurl}[2][]{\CMathML@curl{#2}} \def\CMathML@laplacian#1{\nabla^2#1} \newcommand{\Claplacian}[2][]{\CMathML@laplacian{#2}} \def\CMathML@set#1{\left\{#1\right\}} \newcommand{\Cset}[2][]{\CMathML@set{#2}} \def\CMathML@setRes#1#2{\{#1|#2\}} \newcommand{\CsetRes}[3][]{\CMathML@setRes{#2}{#3}} \def\CMathML@setCond#1#2#3{\{#2|#3\}} \newcommand{\CsetCond}[4][]{\CMathML@setCond{#2}{#3}{#4}} \def\CMathML@setDA#1#2#3{\{#1\in{#2}|#3\}} \newcommand{\CsetDA}[4][]{\CMathML@setDA{#2}{#3}{#4}} \def\CMathML@listOp{\mbox{list}} \newcommand{\ClistOp}{\CMathML@listOp} \def\CMathML@list#1{\CMathML@listOp({#1})} \newcommand{\Clist}[2][]{\CMathML@list{#2}} \def\CMathML@unionOp{\cup} \newcommand{\CunionOp}{\CMathML@unionOp} \def\CMathML@union#1{\assoc[p=500]{\CMathML@unionOp}{#1}} \newcommand{\Cunion}[2][]{\CMathML@union{#2}} \def\CMathML@intersectOp{\cap} \newcommand{\CintersectOp}{\CMathML@intersectOp} \def\CMathML@intersect#1{\assoc[p=400]{\CMathML@intersectOp}{#1}} \newcommand{\Cintersect}[2][]{\CMathML@intersect{#2}} \def\CMathML@inOp{\in} \newcommand{\CinOp}{\CMathML@inOp} \def\CMathML@in#1#2{#1\CMathML@inOp{#2}} \newcommand{\Cin}[3][]{\CMathML@in{#2}{#3}} \def\CMathML@notinOp{\notin} \newcommand{\CnotinOp}{\CMathML@notinOp} \def\CMathML@notin#1#2{#1\CMathML@notinOp{#2}} \newcommand{\Cnotin}[3][]{\CMathML@notin{#2}{#3}} \def\CMathML@setdiffOp{\setminus} \newcommand{\CsetdiffOp}{\CMathML@setdiffOp} \def\CMathML@setdiff#1#2{#1\CMathML@setdiffOp{#2}} \newcommand{\Csetdiff}[3][]{\CMathML@setdiff{#2}{#3}} \def\CMathML@cardOp{\#} \newcommand{\CcardOp}{\CMathML@cardOp} \def\CMathML@card#1{\CMathML@cardOp #1} \newcommand{\Ccard}[2][]{\CMathML@card{#2}} \def\CMathML@cartesianproductOp{\times} \newcommand{\CcartesianproductOp}{\CMathML@cartesianproductOp} \def\CMathML@cartesianproduct#1{\assoc[p=400]{\CMathML@cartesianproductOp}{#1}} \newcommand{\Ccartesianproduct}[2][]{\CMathML@cartesianproduct{#2}} \def\CMathML@subsetOp{\subseteq} \newcommand{\CsubsetOp}{\CMathML@subsetOp} \def\CMathML@subset#1{\assoc[p=700]{\CMathML@subsetOp}{#1}} \newcommand{\Csubset}[2][]{\CMathML@subset{#2}} \def\CMathML@prsubsetOp{\subset} \newcommand{\CprsubsetOp}{\CMathML@prsubsetOp} \def\CMathML@prsubset#1{\assoc[p=700]{\CMathML@prsubsetOp}{#1}} \newcommand{\Cprsubset}[2][]{\CMathML@prsubset{#2}} \def\CMathML@notsubsetOp{\not\subseteq} \newcommand{\CnotsubsetOp}{\CMathML@notsubsetOp} \def\CMathML@notsubset#1#2{#1\CMathML@notsubsetOp{#2}} \newcommand{\Cnotsubset}[3][]{\CMathML@notsubset{#2}{#3}} \def\CMathML@notprsubsetOp{\not\subset} \newcommand{\CnotprsubsetOp}{\CMathML@notprsubsetOp} \def\CMathML@notprsubset#1#2{#1\CMathML@notprsubsetOp{#2}} \newcommand{\Cnotprsubset}[3][]{\CMathML@notprsubset{#2}{#3}} \def\CMathML@supsetOp{\supseteq} \newcommand{\CsupsetOp}{\CMathML@supsetOp} \def\CMathML@supset#1{\assoc[p=700]{\CMathML@supsetOp}{#1}} \newcommand{\Csupset}[2][]{\CMathML@supset{#2}} \def\CMathML@prsupsetOp{\supset} \newcommand{\CprsupsetOp}{\CMathML@prsupsetOp} \def\CMathML@prsupset#1{\assoc[p=700]{\CMathML@prsupsetOp}{#1}} \newcommand{\Cprsupset}[2][]{\CMathML@prsupset{#2}} \def\CMathML@notsupsetOp{\not\supseteq} \newcommand{\CnotsupsetOp}{\CMathML@notsupsetOp} \def\CMathML@notsupset#1#2{#1\CMathML@notsupsetOp{#2}} \newcommand{\Cnotsupset}[3][]{\CMathML@notsupset{#2}{#3}} \def\CMathML@notprsupsetOp{\not\supset} \newcommand{\CnotprsupsetOp}{\CMathML@notprsupsetOp} \def\CMathML@notprsupset#1#2{#1\CMathML@notprsupsetOp{#2}} \newcommand{\Cnotprsupset}[3][]{\CMathML@notprsupset{#2}{#3}} \def\CMathML@UnionDAOp{\bigwedge} \newcommand{\CUnionDAOp}{\CMathML@UnionDAOp} \def\CMathML@UnionDA#1#2{\CMathML@UnionDAOp_{#1}{#2}} % set, scope \newcommand{\CUnionDA}[3][]{\CMathML@UnionDA{#2}{#3}} \def\CMathML@UnionCond#1#2#3{\CMathML@UnionDAOp_{#2}{#3}} % bvars,condition, scope \newcommand{\CUnionCond}[4][]{\CMathML@UnionCond{#2}{#2}{#3}} \def\CMathML@IntersectDAOp{\bigvee} \newcommand{\CIntersectDAOp}{\CMathML@IntersectDAOp} \def\CMathML@IntersectDA#1#2{\CMathML@IntersectDAOp_{#1}{#2}} % set, scope \newcommand{\CIntersectDa}[3][]{\CMathML@IntersectDA{#2}{#3}} \def\CMathML@IntersectCond#1#2#3{\CMathML@IntersectDAOp_{#2}{#3}}% bvars,condition, scope \newcommand{\CIntersectCond}[4][]{\CMathML@IntersectCond{#2}{#3}{#4}} \def\CMathML@CartesianproductDAOp{\bigoplus} \newcommand{\CCartesianproductDAOp}{\CMathML@CartesianproductDAOp} \def\CMathML@CartesianproductDA#1#2{\CMathML@CartesianproductDAOp_{#1}{#2}} % set, scope \newcommand{\CCartesianproductDA}[3][]{\CMathML@CartesianproductDA{#2}{#3}} \def\CMathML@CartesianproductCond#1#2#3{\CMathML@CartesianproductDAOp_{#2}{#3}}% bvars,condition, scope \newcommand{\CCartesianproductCond}[4][]{\CMathML@CartesianproductCond{#2}{#3}{#4}} \def\CMathML@sumOp{\sum} \newcommand{\CsumOp}{\CMathML@sumOp} \def\CMathML@sumLimits#1#2#3#4{\CMathML@sumOp_{#1=#2}^{#3}#4}% bvar, llimit, ulimit, body \newcommand{\CsumLimits}[5][]{\CMathML@sumLimits{#2}{#3}{#4}{#5}} \def\CMathML@sumCond#1#2#3{\CMathML@sumOp_{#1\in{#2}}#3} % bvar, condition, body \newcommand{\CsumCond}[4][]{\CMathML@sumCond{#2}{#3}{#4}} \def\CMathML@sumDA#1#2{\CMathML@sumOp_{#1}#2} % set, body \newcommand{\CsumDA}[3][]{\CMathML@sumDA{#2}{#3}} \def\CMathML@prodOp{\prod} \newcommand{\CprodOp}{\CMathML@prodOp} \def\CMathML@prodLimits#1#2#3#4{\CMathML@prodOp_{#1=#32^{#3}#4}}% bvar, llimit, ulimit, body \newcommand{\CprodLimits}[5][]{\CMathML@prodLimits{#2}{#3}{#4}{#5}} \def\CMathML@prodCond#1#2#3{\CMathML@prodOp_{#1\in{#2}}#3} % bvar, condition, body \newcommand{\CprodCond}[4][]{\CMathML@prodCond{#2}{#3}{#4}} \def\CMathML@prodDA#1#2{\CMathML@prodOp_{#1}#2} % set, body \newcommand{\CprodDA}[3]{\CMathML@prodDA{#2}{#3}} \def\CMathML@sin#1{\sin(#1)} \newcommand{\Csin}[2][]{\CMathML@sin{#2}} \def\CMathML@cos#1{\cos(#1)} \newcommand{\Ccos}[2][]{\CMathML@cos{#2}} \def\CMathML@tan#1{\tan(#1)} \newcommand{\Ctan}[2][]{\CMathML@tan{#2}} \def\CMathML@sec#1{\sec(#1)} \newcommand{\Csec}[2][]{\CMathML@sec{#2}} \def\CMathML@csc#1{\csc(#1)} \newcommand{\Ccsc}[2][]{\CMathML@csc{#2}} \def\CMathML@cot#1{\cot(#1)} \newcommand{\Ccot}[2][]{\CMathML@cot{#2}} \def\CMathML@sinh#1{\sinh(#1)} \newcommand{\Csinh}[2][]{\CMathML@sinh{#2}} \def\CMathML@cosh#1{\cosh(#1)} \newcommand{\Ccosh}[2][]{\CMathML@cosh{#2}} \def\CMathML@tanh#1{\tanh(#1)} \newcommand{\Ctanh}[2][]{\CMathML@tanh{#2}} \def\CMathML@sech#1{\mbox{sech}(#1)} \newcommand{\Csech}[2][]{\CMathML@sech{#2}} \def\CMathML@csch#1{\mbox{csch}(#1)} \newcommand{\Ccsch}[2][]{\CMathML@csch{#2}} \def\CMathML@coth#1{\mbox{coth}(#1)} \newcommand{\Ccoth}[2][]{\CMathML@coth{#2}} \def\CMathML@arcsin#1{\arcsin(#1)} \newcommand{\Carcsin}[2][]{\CMathML@arcsin{#2}} \def\CMathML@arccos#1{\arccos(#1)} \newcommand{\Carccos}[2][]{\CMathML@arccos{#2}} \def\CMathML@arctan#1{\arctan(#1)} \newcommand{\Carctan}[2][]{\CMathML@arctan{#2}} \def\CMathML@arccosh#1{\mbox{arccosh}(#1)} \newcommand{\Carccosh}[2][]{\CMathML@arccosh{#2}} \def\CMathML@arccot#1{\mbox{arccot}(#1)} \newcommand{\Carccot}[2][]{\CMathML@arccot{#2}} \def\CMathML@arccoth#1{\mbox{arccoth}(#1)} \newcommand{\Carccoth}[2][]{\CMathML@arccoth{#2}} \def\CMathML@arccsc#1{\mbox{arccsc}(#1)} \newcommand{\Carccsc}[2][]{\CMathML@arccsc{#2}} \def\CMathML@arcsinh#1{\mbox{arcsinh}(#1)} \newcommand{\Carcsinh}[2][]{\CMathML@arcsinh{#2}} \def\CMathML@arctanh#1{\mbox{arctanh}(#1)} \newcommand{\Carctanh}[2][]{\CMathML@arctanh{#2}} \def\CMathML@exp#1{\exp(#1)} \newcommand{\Cexp}[2][]{\CMathML@exp{#2}} \def\CMathML@ln#1{\ln(#1)} \newcommand{\Cln}[2][]{\CMathML@ln{#2}} \def\CMathML@log#1#2{\log_{#1}(#2)} \newcommand{\Clog}[3][]{\CMathML@log{#2}{#3}} \def\CMathML@mean#1{\mbox{mean}(#1)} \newcommand{\Cmean}[2][]{\CMathML@mean{#2}} \def\CMathML@sdev#1{\mbox{std}(#1)} \newcommand{\Csdev}[2][]{\CMathML@sdev{#2}} \def\CMathML@var#1{\mbox{var}(#1)} \newcommand{\Cvar}[2][]{\CMathML@var{#2}} \def\CMathML@median#1{\mbox{median}(#1)} \newcommand{\Cmedian}[2][]{\CMathML@median{#2}} \def\CMathML@mode#1{\mbox{mode}(#1)} \newcommand{\Cmode}[2][]{\CMathML@mode{#2}} \def\CMathML@moment#1#2{\langle{#2}^{#1}\rangle}% degree, momentabout, scope \newcommand{\Cmoment}[3][]{\CMathML@moment{#2}{#3}} \def\CMathML@momentA#1#2{\langle{#2}^{#1}\rangle}% degree, momentabout, scope \newcommand{\CmomentA}[4][]{\CMathML@momentA{#2}{#3}{#4}} \def\CMathML@vector#1{(#1)} \newcommand{\Cvector}[2][]{\CMathML@vector{#2}} \def\CMathML@matrix#1#2{\left(\begin{array}{#1}#2\end{array}\right)}% row pattern, body \newcommand{\Cmatrix}[3][]{\CMathML@matrix{#2}{#3}} \def\CMathML@determinant#1{\left|#1\right|} \newcommand{\Cdeterminant}[2][]{\CMathML@determinant{#2}} \def\CMathML@transpose#1{#1^\top} \newcommand{\Ctranspose}[2][]{\CMathML@transpose{#2}} \def\CMathML@selector#1#2{#1_{#2}} \newcommand{\Cselector}[3][]{\CMathML@selector{#2}{#3}} \def\CMathML@vectproductOp{\cdot} \newcommand{\CvectproductOp}{\CMathML@vectproductOp} \def\CMathML@vectproduct#1#2{#1\CMathML@vectproductOp{#2}} \newcommand{\Cvectproduct}[3][]{\CMathML@vectproduct{#2}{#3}} \def\CMathML@scalarproduct#1#2{{#1}#2} \newcommand{\Cscalarproduct}[3][]{\CMathML@scalarproduct{#2}{#3}} \def\CMathML@outerproductOp{\times} \newcommand{\CouterproductOp}{\CMathML@outerproductOp} \def\CMathML@outerproduct#1#2{#1\CMathML@outerproductOp{#2}} \newcommand{\Couterproduct}[3][]{\CMathML@outerproduct{#2}{#3}} \def\CMathML@integers{{\mathbb{Z}}} \newcommand{\Cintegers}[1][]{\CMathML@integers} \def\CMathML@reals{{\mathbb{R}}} \newcommand{\Creals}[1][]{\CMathML@reals} \def\CMathML@rationals{{\mathbb{Q}}} \newcommand{\Crationals}[1][]{\CMathML@rationals} \def\CMathML@naturalnumbers{{\mathbb{N}}} \newcommand{\Cnaturalnumbers}[1][]{\CMathML@naturalnumbers} \def\CMathML@complexes{{\mathbb{C}}} \newcommand{\Ccomplexes}[1][]{\CMathML@complexes} \def\CMathML@primes{{\mathbb{P}}} \newcommand{\Cprimes}[1][]{\CMathML@primes} \def\CMathML@exponemtiale{e} \newcommand{\Cexponemtiale}[1][]{\CMathML@exponemtiale} \def\CMathML@imaginaryi{i} \newcommand{\Cimaginaryi}[1][]{\CMathML@imaginaryi} \def\CMathML@notanumber{{\mathrm{NaN}}} \newcommand{\Cnotanumber}[1][]{\CMathML@notanumber} \def\CMathML@true{{\mathrm{true}}} \newcommand{\Ctrue}[1][]{\CMathML@true} \def\CMathML@false{{\mathrm{false}}} \newcommand{\Cfalse}[1][]{\CMathML@false} \def\CMathML@emptyset{\emptyset} \newcommand{\Cemptyset}[1][]{\CMathML@emptyset} \def\CMathML@pi{\pi} \newcommand{\Cpi}[1][]{\CMathML@pi} \def\CMathML@eulergamma{\gamma} \newcommand{\Ceulergamma}[1][]{\CMathML@eulergamma} \def\CMathML@infinit{\infty} \newcommand{\Cinfinit}[1][]{\CMathML@infinit} \endinput %% %% End of file `cmathml.sty'.