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module cslrend; % CSL REDUCE "back-end". % Authors: Martin L. Griss and Anthony C. Hearn. % Modified by Arthur Norman for use with CSL. create!-package('(cslrend csl),'(build)); fluid '(!*break !*echo !*eolinstringok !*int !*mode !*raise !*lower !*keepsqrts); global '(!$eol!$ !*extraecho cr!* crchar!* date!* esc!* ff!* ifl!* ipl!* largest!-small!-modulus ofl!* spare!* statcounter crbuflis!* tab!* version!* symchar!* avector!-loaded!*); % Constants used in scanner. flag('(define!-constant),'eval); cr!* := compress(list('!!, special!-char 6)); % carriage return ff!* := compress(list('!!, special!-char 5)); % form feed tab!*:= compress(list('!!, special!-char 3)); % tab key % One inessential reference to REVERSIP in this module (left unchanged). % This file defines the system dependent code necessary to run REDUCE % under PSL. Comment The following functions, which are referenced in the basic REDUCE source (RLISP, ALG1, ALG2, MATR and PHYS) should be defined to complete the definition of REDUCE: BYE EVLOAD ERROR1 FILETYPE MKFIL ORDERP QUIT SEPRP SETPCHAR. Prototypical descriptions of these functions are as follows; remprop('bye,'stat); symbolic procedure bye; %Returns control to the computer's operating system command level. %The current REDUCE job cannot be restarted; <<close!-output!-files(); stop 0>>; deflist('((bye endstat)),'stat); remprop('quit,'stat); symbolic procedure quit; %Returns control to the computer's operating system command level. %The current REDUCE job cannot be restarted; <<close!-output!-files(); stop 0>>; deflist('((quit endstat)),'stat); symbolic procedure evload l; for each m in l do load!-module m; symbolic procedure seprp u; % Returns true if U is a blank, end-of-line, tab, carriage return or % form feed. This definition replaces the one in the BOOT file. u eq '! or u eq tab!* or u eq !$eol!$ or u eq ff!* or u eq cr!*; symbolic procedure filetype u; % Determines if string U has a specific file type. begin scalar v,w; v := cdr explode u; while v and not(car v eq '!.) do <<if car v eq '!< then while not(car v eq '!>) do v := cdr v; v := cdr v>>; if null v then return nil; v := cdr v; while v and not(car v eq '!") do <<w := car v . w; v := cdr v>>; return intern compress reversip w end; symbolic procedure mkfil u; % Converts file descriptor U into valid system filename. if stringp u then u else if not idp u then typerr(u,"file name") else string!-downcase u; Comment The following functions are only referenced if various flags are set, or the functions are actually defined. They are defined in another module, which is not needed to build the basic system. The name of the flag follows the function name, enclosed in parentheses: CEDIT (?) COMPD (COMP) EDIT1 This function provides a link to an editor. However, a definition is not necessary, since REDUCE checks to see if it has a function value. EMBFN (?) EZGCDF (EZGCD) PRETTYPRINT (DEFN --- also called by DFPRINT) This function is used in particular for output of RLISP expressions in LISP syntax. If that feature is needed, and the prettyprint module is not available, then it should be defined as PRINT RPRINT (PRET) TIME (TIME) returns elapsed time from some arbitrary initial point in milliseconds; Comment The following operator is used to save a REDUCE session as a file for later use; symbolic procedure savesession u; preserve('begin); flag('(savesession),'opfn); flag('(savesession),'noval); Comment make "system" available as an operator; flag('(system),'opfn); flag('(system),'noval); Comment to make "faslend" an endstat; put('faslend,'stat,'endstat); Comment The current REDUCE model allows for the availability of fast arithmetical operations on small integers (called "inums"). All modern LISPs provide such support. However, the program will still run without these constructs. The relevant functions that should be defined for this purpose are as follows; flag('(iplus itimes iplus2 itimes2 iadd1 isub1 iminus iminusp idifference iquotient iremainder ilessp igreaterp), 'lose); Comment There are also a number of system constants required for each implementation. In systems that don't support inums, the equivalent single precision integers should be used; % LARGEST!-SMALL!-MODULUS is the largest power of two that can % fit in the fast arithmetic (inum) range of the implementation. % This is constant for the life of the system and could be % compiled in-line if the compiler permits it. largest!-small!-modulus := 2**24-1; % I could use up to 2^27-1, but % stick to 2^24-1 since that's what Cambridge Lisp used to use. flag('(modular!-difference modular!-minus modular!-number modular!-plus modular!-quotient modular!-reciprocal modular!-times modular!-expt set!-small!-modulus random next!-random!-number), 'lose); set!-small!-modulus 3; % The following are now built into CSL, where by using the C library % and (hence?) maybe low level tricks or special floating point % microcode things can go fast. flag('(acos acosd acosh acot acotd acoth acsc acscd acsch asec asecd asech asin asind asinh atan atand atan2 atan2d atanh cbrt cos cosd cosh cot cotd coth csc cscd csch exp expt hypot ln log logb log10 sec secd sech sin sind sinh sqrt tan tand tanh fix ceiling floor round), 'lose); symbolic procedure int!-gensym1 u; % in Codemist Lisp compress interns - hence version in int.red is bad; gensym1 u; Comment CSL Specific patches; Comment We need to define a function BEGIN, which acts as the top-level call to REDUCE, and sets the appropriate variables; remflag('(begin),'go); symbolic procedure begin; begin scalar w; !*int := not batchp(); !*echo := not !*int; !*extraecho := t; ifl!* := ipl!* := ofl!* := nil; if null date!* then go to a; verbos nil; % The linelength may need to be adjusted if we are running in a window. linelength 80; prin2 version!*; prin2 ", "; prin2 date!*; prin2t " ..."; !*mode := if getd 'addsq then 'algebraic else 'symbolic; %since most REDUCE users won't use LISP date!* := nil; a: % crchar!* := '! ; if errorp errorset('(begin1), !*backtrace, !*backtrace) then go to a; prin2t "Leaving REDUCE ... " end; flag('(begin),'go); % The following function is used in some CSL-specific operations. It is % also defined in util/rprint, but is repeated here to avoid loading % that module unnecessarily, and because the definition given there is % rather PSL specific. remflag('(string!-downcase),'lose); symbolic procedure string!-downcase u; compress('!" . append(explode2 u,'(!"))); flag('(string!-downcase),'lose); Comment Initial setups for REDUCE; spare!* := 11; % We need this for bootstrapping. symchar!* := t; % Changed prompt when in symbolic mode. symbolic procedure initreduce; initrlisp(); % For compatibility. symbolic procedure initrlisp; % Initial declarations for REDUCE <<statcounter := 0; crbuflis!* := nil; spare!* := 11; !*int := not batchp()>>; symbolic procedure rlispmain; lispeval '(begin); flag('(rdf preserve reclaim),'opfn); flag('(rdf preserve),'noval); remflag('(showtime), 'lose); symbolic procedure showtime; begin scalar x,y; x := otime!*; otime!* := time(); x := otime!* - x; y := ogctime!*; ogctime!* := gctime(); y := ogctime!* - y; % x := x - y; terpri(); prin2 "Time: "; prin2 x; prin2 " ms"; if y = 0 then return terpri(); prin2 " plus GC time: "; prin2 y; prin2 " ms" end; flag('(showtime), 'lose); % flag('(load reload),'noform); % % deflist('((load rlis) (reload rlis)),'stat); % % flag('(tr trst untr untrst),'noform); % % deflist('((tr rlis) (trst rlis) (untr rlis) (untrst rlis)),'stat); Comment The following declarations are needed to build various modules; flag('(spaces subla boundp error1 union intersection),'lose); flag('(safe!-fp!-plus safe!-fp!-times safe!-fp!-quot safe!-fp!-pl safe!-fp!-pl0), 'lose); flag('(threevectorp ordp), 'lose); deflist('((imports rlis)),'stat); endmodule; end; module csl; % Support for fast floating point arithmetic in CSL. imports ash, logand, msd; exports ashift, msd!:; fluid '(!!nbfpd); remflag ('(ashift fl2bf msd!: normbf integerp!:),'lose); symbolic smacro procedure ashift (m,d); ash(m,d); symbolic smacro procedure lshift (m,d); ash(m,d); symbolic smacro procedure msd!: u; msd u; symbolic smacro procedure make!:ibf (mt, ep); '!:rd!: . (mt . ep); symbolic procedure fl2bf x; begin scalar u; u := frexp x; x := cdr u; % mantissa between 0.5 and 1 u := car u; % exponent x := fix(x*2**!!nbfpd); return normbf make!:ibf(x,u-!!nbfpd) end; symbolic procedure normbf x; begin scalar mt,s;integer ep,ep1; if (mt := mt!: x)=0 then go to ret; if mt<0 then <<mt := -mt; s := t>>; ep := ep!: x; while logand(mt,2147483647)=0 do << % 2**31 - 1 mt := ash(mt,-31); ep := ep+31 >>; while logand(mt,255)=0 do << mt := ash(mt,-8); ep := ep+8 >>; while evenp mt do << mt := ash(mt,-1); ep := ep+1>>; if s then mt := -mt; ret: return make!:ibf(mt,ep) end; symbolic procedure integerp!: x; % This function returns T if X is a BINARY BIG-FLOAT % representing an integer, else it returns NIL. % X is any LISP entity. bfp!: x and (ep!: x >= 0 or preci!: x > - ep!: x and logand(abs mt!: x,lshift(2,-ep!: x) - 1) = 0); flag ('(ashift fl2bf msd!: normbf integerp!:),'lose); endmodule; end;