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module rsupport; % Basic functions needed to support RLISP and REDUCE. % Author: Anthony C. Hearn. % Copyright (c) 1987 The RAND Corporation. All rights reserved. fluid '(!*backtrace); global '(!*comp); symbolic procedure aconc(u,v); % Adds element v to the tail of u. u is destroyed in process. nconc(u,list v); symbolic procedure arrayp u; get(u,'rtype) eq 'array; symbolic procedure atsoc(u,v); % This definition allows for a search of a general list. if null v then nil else if eqcar(car v,u) then car v else atsoc(u,cdr v); symbolic procedure copyd(new,old); % Copy the function definition from old id to new. begin scalar x; x := getd old; if null x then rerror('rlisp,1,list(old,"has no definition in copyd")); putd(new,car x,cdr x); return new end; symbolic procedure eqcar(u,v); null atom u and car u eq v; symbolic procedure errorset!*(u,v); errorset(u,v,!*backtrace); symbolic procedure errorset2 u; begin scalar !*protfg; !*protfg := t; return errorset(u,nil,nil) end; symbolic procedure flagpcar(u,v); null atom u and idp car u and flagp(car u,v); symbolic procedure idlistp u; % True if u is a list of id's. null u or null atom u and idp car u and idlistp cdr u; symbolic procedure listp u; % Returns T if U is a top level list. null u or null atom u and listp cdr u; symbolic procedure mkprog(u,v); 'prog . (u . v); symbolic procedure mkquote u; list('quote,u); symbolic procedure mksetq(u,v); if atom u then list('setq,u,v) else begin scalar x; if (x := get(car u,'setfn)) then return apply2(x,u,v) else typerr(u,"assignment argument") end; symbolic procedure pairvars(u,vars,mode); % Sets up pairings of parameters and modes. begin scalar x; a: if null u then return append(reversip!* x,vars) else if null idp car u or get(car u,'infix) or get(car u,'stat) then symerr(list("Invalid parameter:",car u),nil); x := (car u . mode) . x; u := cdr u; go to a end; symbolic procedure prin2t u; progn(prin2 u, terpri(), u); % The following is included for compatibility with some old code. % Its use is discouraged. symbolic procedure princ u; prin2 u; symbolic procedure putc(name,type,body); % Defines a non-standard function, such as an smacro. Returns NAME. begin if !*comp and flagp(type,'compile) then compd(name,type,body) else put(name,type,body); return name end; % flag('(putc),'eval); symbolic procedure reversip u; begin scalar x,y; a: if null u then return y; x := cdr u; y := rplacd(u,y); u := x; go to a end; symbolic procedure smemq(u,v); % True if id U is a member of V at any level (excluding quoted % expressions). if atom v then u eq v else if car v eq 'quote then nil else smemq(u,car v) or smemq(u,cdr v); symbolic procedure subsetp(u,v); % True if u is a subset of v. null u or car u member v and subsetp(cdr u,v); symbolic procedure union(x,y); if null x then y else union(cdr x,if car x member y then y else car x . y); symbolic procedure intersection(u,v); % This definition is consistent with PSL. if null u then nil else if car u member v then car u . intersection(cdr u,delete(car u,v)) else intersection(cdr u,v); symbolic procedure u>=v; null(u<v); symbolic procedure u<=v; null(u>v); symbolic procedure u neq v; null(u=v); symbolic procedure setdiff(u,v); if null v then u else if null u then nil else setdiff(delete(car v,u),cdr v); % symbolic smacro procedure u>=v; null(u<v); % symbolic smacro procedure u<=v; null(u>v); % symbolic smacro procedure u neq v; null(u=v); % List changing alternates (may also be defined as copying functions). symbolic procedure aconc!*(u,v); nconc(u,list v); % append(u,list v); symbolic procedure nconc!*(u,v); nconc(u,v); % append(u,v); symbolic procedure reversip!* u; reversip u; % reverse u; symbolic procedure rplaca!*(u,v); rplaca(u,v); % v . cdr u; symbolic procedure rplacd!*(u,v); rplacd(u,v); % car u . v; % The following functions should be provided in the compiler for % efficient coding. symbolic procedure lispapply(u,v); % I'd like to use idp in the following test, but the TPS package % stores code pointers on property lists which then get used here. if null atom u then rerror('rlisp,2,list("Apply called with non-id arg",u)) else apply(u,v); symbolic procedure lispeval u; eval u; symbolic procedure apply1(u,v); apply(u,list v); symbolic procedure apply2(u,v,w); apply(u,list(v,w)); symbolic procedure apply3(u,v,w,x); apply(u,list(v,w,x)); % The following function is needed by several modules. It is more % REDUCE-specific than other functions in this module, but since it % needs to be defined early on, it might as well go here. symbolic procedure gettype u; % Returns a REDUCE-related type for the expression U. % It needs to be more table driven than the current definition. if numberp u then 'number else if null atom u or null u or null idp u then 'form else if get(u,'simpfn) then 'operator else if get(u,'avalue) then car get(u,'avalue) else if getd u then 'procedure else if globalp u then 'global else if fluidp u then 'fluid else if flagp(u,'parm) then 'parameter else get(u,'rtype); endmodule; end;