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r37/packages/support/entry.red
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module entry; % Entry points for self-loading modules. % Author: Anthony C. Hearn. % Using a modified version of the defautoload function of Eric Benson % and Martin L. Griss. % Extended for algebraic operators and values by Herbert Melenk. fluid '(varstack!*); if getd 'create!-package then create!-package('(entry),'(build)); symbolic procedure safe!-putd(name,type,body); % So that stubs will not clobber REAL entries preloaded. if getd name then lprim list("Autoload stub for",name,"not defined") else putd(name,type,body); smacro procedure mkfunction u; list('function,u); symbolic macro procedure defautoload u; % (defautoload name), (defautoload name loadname), % (defautoload name loadname fntype), or % (defautoload name loadname fntype numargs) % Default is 1 Arg EXPR in module of same name. begin scalar name,numargs,loadname,fntype; u := cdr u; name := car u; u := cdr u; if u then <<loadname := car u; u :=cdr u>> else loadname := name; if eqcar(name, 'quote) then name := cadr name; if atom loadname then loadname := list loadname else if car loadname eq 'quote then loadname := cadr loadname; if u then <<fntype := car u; u := cdr u>> else fntype := 'expr; if u then numargs := car u else numargs := 1; u := if numargs=0 then nil else if numargs=1 then '(x1) else if numargs=2 then '(x1 x2) else if numargs=3 then '(x1 x2 x3) else if numargs=4 then '(x1 x2 x3 x4) else error(99,list(numargs,"too large in DEFAUTOLOAD")); name := mkquote name; return list('progn, list('put,name,mkquote 'number!-of!-args,numargs), list('safe!-putd, name, mkquote fntype, mkfunction list('lambda, u, 'progn . aconc(for each j in loadname collect list('load!-package,mkquote j), list('lispapply,name,'list . u))))) end; % Autoload support for algebraic operators and values. % % defautoload_operator(opname,package); % defautoload_value(varname,package); % symbolic macro procedure defautoload_operator u; begin scalar name,package; name := cadr u; package := caddr u; return subla(list('name.name,'package.package), '(progn (flag '(name) 'full) (put 'name 'simpfn '(lambda(x)(autoload_operator!* 'name 'package x))))) end; symbolic procedure autoload_operator!*(o,p,x); begin scalar varstack!*; remflag(list o,'full); remprop(o,'simpfn); if pairp p then for each pp in p do load!-package pp else load!-package p; return simp x; end; symbolic macro procedure defautoload_value u; begin scalar name,package; u:=cdr u; name := car u; u:=cdr u; package := car u; return subla(list('name.name,'package.package), '(progn (put 'name 'avalue '(autoload_value!* name package)))) end; symbolic procedure autoload_value!*(u,v); begin scalar name,p,x,varstack!*; x:=get(u,'avalue); name := cadr x; p := caddr x; remprop(name,'avalue); load!-package p; return reval1(name,v); end; put('autoload_value!*,'evfn,'autoload_value!*); comment Actual Entry Point Definitions; % Compiler and LAP entry points. defautoload(compile,compiler); if 'csl memq lispsystem!* then defautoload(faslout,compiler) else defautoload(lap,compiler); % Cross-reference module entry points. remd 'crefon; % don't use PSL version put('cref,'simpfg,'((t (crefon)) (nil (crefoff)))); defautoload(crefon,rcref,expr,0); % Input editor entry points. defautoload cedit; defautoload(display,cedit); put('display,'stat,'rlis); defautoload(editdef,cedit); put('editdef,'stat,'rlis); % Factorizer module entry points. switch trfac, trallfac; remprop('factor,'stat); defautoload(ezgcdf,ezgcd,expr,2); defautoload(factorize!-primitive!-polynomial,factor); defautoload(pfactor,factor,expr,2); defautoload(simpnprimitive,factor); put('nprimitive,'simpfn,'simpnprimitive); put('factor,'stat,'rlis); % FASL module entry points. flag('(faslout),'opfn); flag('(faslout),'noval); % High energy physics module entry points. remprop('index,'stat); remprop('mass,'stat); remprop('mshell,'stat); remprop('vecdim,'stat); remprop('vector,'stat); defautoload(index,hephys); defautoload(mass,hephys); defautoload(mshell,hephys); defautoload(vecdim,hephys); defautoload(vector,hephys); put('index,'stat,'rlis); put('mshell,'stat,'rlis); put('mass,'stat,'rlis); put('vecdim,'stat,'rlis); put('vector,'stat,'rlis); % Integrator module entry points. fluid '(!*trint); switch trint; defautoload(simpint,int); put('int,'simpfn,'simpint); put('algint,'simpfg,'((t (load!-package 'algint)))); % Matrix module entry points. switch cramer; put('cramer,'simpfg, '((t (put 'mat 'lnrsolvefn 'clnrsolve) (put 'mat 'inversefn 'matinv)) (nil (put 'mat 'lnrsolvefn 'lnrsolve) (put 'mat 'inversefn 'matinverse)))); defautoload(detq,'(matrix)); % Used by high energy physics package. defautoload(matp,'(matrix)); defautoload(matrix,'(matrix)); put('matrix,'stat,'rlis); flag('(mat),'struct); put('mat,'formfn,'formmat); defautoload(formmat,'(matrix),expr,3); defautoload(generateident,'(matrix)); defautoload(lnrsolve,'(matrix),expr,2); defautoload(simpresultant,'(matrix)); defautoload(resultant,'(matrix),expr,3); put('resultant,'simpfn,'simpresultant); defautoload(nullspace!-eval,matrix); put('nullspace,'psopfn,'nullspace!-eval); % Plot entry point. put('plot,'psopfn,'(lambda(u) (load!-package 'gnuplot) (ploteval u))); % Prettyprint module entry point (built into CSL). if null('csl memq lispsystem!*) then defautoload(prettyprint,pretty); % Print module entry point. % defautoload(horner,scope); % global '(!*horner); % switch horner; % Rprint module entry point. defautoload rprint; % SOLVE module entry points. defautoload(solveeval,solve); defautoload(solve0,solve,expr,2); % defautoload(solvelnrsys,solve,expr,2); % Used by matrix routines. % defautoload(!*sf2ex,solve,expr,2); % Used by matrix routines. put('solve,'psopfn,'solveeval); switch allbranch,arbvars,fullroots,multiplicities,nonlnr,solvesingular; % varopt; % Default values. !*allbranch := t; !*arbvars := t; !*solvesingular := t; put('arbint,'simpfn,'simpiden); % Since the following three switches are set on in the solve module, % they must first load that module if they are initially turned off. put('nonlnr,'simpfg,'((nil (load!-package 'solve)))); put('allbranch,'simpfg,'((nil (load!-package 'solve)))); put('solvesingular,'simpfg,'((nil (load!-package 'solve)))); % Root finding package entry points. defautoload roots; defautoload(gfnewt,roots); defautoload(gfroot,roots); defautoload(root_val,roots); defautoload(firstroot,roots); defautoload(rlrootno,roots2); defautoload(realroots,roots2); defautoload(isolater,roots2); defautoload(nearestroot,roots2); defautoload(sturm0,roots2); defautoload(multroot1,roots2); for each n in '(roots rlrootno realroots isolater firstroot nearestroot gfnewt gfroot root_val) do put(n,'psopfn,n); put('sturm,'psopfn,'sturm0); switch trroot,rootmsg; put('multroot,'psopfn,'multroot1); switch fullprecision,compxroots; % Limits entry points. for each c in '(limit limit!+ limit!-) do <<put(c,'simpfn,'simplimit); put(c,'number!-of!-args,3); flag({c},'full)>>; defautoload(simplimit,limits); % Partial fractions entry point. defautoload(pf,pf,expr,2); symbolic operator pf; % Sum entry points. defautoload(simp!-sum,sum); defautoload(simp!-sum0,sum,expr,2); put('sum,'simpfn,'simp!-sum); defautoload(simp!-prod,sum); put('prod,'simpfn,'simp!-prod); switch zeilberg; % Taylor entry points put('taylor,'simpfn,'simptaylor); defautoload(simptaylor,taylor); % Trigsimp entry points put('trigsimp,'psopfn,'trigsimp!*); defautoload(trigsimp!*,trigsimp); % Specfn entry points defautoload_operator(besselj,(specfn specbess)); defautoload_operator(bessely,(specfn specbess)); defautoload_operator(besseli,(specfn specbess)); defautoload_operator(besselk,(specfn specbess)); defautoload_operator(hankel1,(specfn specbess)); defautoload_operator(gamma,(specfn sfgamma)); defautoload_operator(binomial,specfn); % Debug module entry points. % if not(systemname!* eq 'ibm) then defautoload(embfn,debug,expr,3); % Specfn entry points. defautoload_operator(lambert_w,(specfn specbess)); endmodule; end;