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authorJakob Kaivo <jkk@ung.org>2022-03-27 19:04:43 -0400
committerJakob Kaivo <jkk@ung.org>2022-03-27 19:04:43 -0400
commit2797eda2e1d90e6de67cc5c2affe8f59a7d1dfef (patch)
treed159c13aa154cc07ad0fcf4eb7961aafb67481c1 /new/reduce.c
parenta96bb08fb1886b83802a3b7ed20421ee3a8ee0b0 (diff)
remove unused files
Diffstat (limited to 'new/reduce.c')
-rw-r--r--new/reduce.c2376
1 files changed, 0 insertions, 2376 deletions
diff --git a/new/reduce.c b/new/reduce.c
deleted file mode 100644
index 04f7267..0000000
--- a/new/reduce.c
+++ /dev/null
@@ -1,2376 +0,0 @@
-/* MIRANDA REDUCE */
-/* new SK reduction machine - installed Oct 86 */
-
-/**************************************************************************
- * Copyright (C) Research Software Limited 1985-90. All rights reserved. *
- * The Miranda system is distributed as free software under the terms in *
- * the file "COPYING" which is included in the distribution. *
- *------------------------------------------------------------------------*/
-
-#include <errno.h>
-#include <sys/types.h>
-#include <sys/stat.h>
-struct stat buf; /* used only by code for FILEMODE, FILESTAT in reduce */
-#include "data.h"
-#include "big.h"
-#include "lex.h"
-extern word debug, UTF8, UTF8OUT;
-#define FST HD
-#define SND TL
-#define BSDCLOCK
-/* POSIX clock wraps around after c. 72 mins */
-#ifdef RYU
-char* d2s(double);
-word d2s_buffered(double, char*);
-#endif
-
-double fa,fb;
-long long cycles=0;
-word stdinuse=0;
-/* int lasthead=0; /* DEBUG */
-
-#define constr_tag(x) hd[x]
-#define idconstr_tag(x) hd[id_val(x)]
-#define constr_name(x) (tag[tl[x]]==ID?get_id(tl[x]):get_id(pn_val(tl[x])))
-#define suppressed(x) (tag[tl[x]]==STRCONS&&tag[pn_val(tl[x])]!=ID)
- /* suppressed constructor */
-
-#define isodigit(x) ('0'<=(x) && (x)<='7')
-#define sign(x) (x)
-#define fsign(x) ((d=(x))<0?-1:d>0)
-/* ### */ /* functions marked ### contain possibly recursive calls
- to reduce - fix later */
-
-compare(a,b) /* returns -1, 0, 1 as a is less than equal to or greater than
- b in the ordering imposed on all data types by the miranda
- language -- a and b already reduced */
- /* used by MATCH, EQ, NEQ, GR, GRE */
-word a,b;
-{ double d;
- L: switch(tag[a])
- { case DOUBLE:
- if(tag[b]==DOUBLE)return(fsign(get_dbl(a)-get_dbl(b)));
- else return(fsign(get_dbl(a)-bigtodbl(b)));
- case INT:
- if(tag[b]==INT)return(bigcmp(a,b));
- else return(fsign(bigtodbl(a)-get_dbl(b)));
- case UNICODE: return sign(get_char(a)-get_char(b));
- case ATOM:
- if(tag[b]==UNICODE) return sign(get_char(a)-get_char(b));
- if(S<=a&&a<=ERROR||S<=b&&b<=ERROR)
- fn_error("attempt to compare functions");
- /* what about constructors - FIX LATER */
- if(tag[b]==ATOM)return(sign(a-b)); /* order of declaration */
- else return(-1); /* atomic object always less than non-atomic */
- case CONSTRUCTOR:
- if(tag[b]==CONSTRUCTOR)
- return(sign(constr_tag(a)-constr_tag(b))); /*order of declaration*/
- else return(-1); /* atom less than non-atom */
- case CONS: case AP:
- if(tag[a]==tag[b])
- { word temp;
- hd[a]=reduce(hd[a]);
- hd[b]=reduce(hd[b]);
- if((temp=compare(hd[a],hd[b]))!=0)return(temp);
- a=tl[a]=reduce(tl[a]);
- b=tl[b]=reduce(tl[b]);
- goto L; }
- else if(S<=b&&b<=ERROR)fn_error("attempt to compare functions");
- else return(1); /* non-atom greater than atom */
- default: fprintf(stderr,"\nghastly error in compare\n");
- }
- return(0);
-}
-
-force(x) /* ensures that x is evaluated "all the way" */
-word x; /* x is already reduced */ /* ### */
-{ word h;
- switch(tag[x])
- { case AP: h=hd[x];
- while(tag[h]==AP)h=hd[h];
- if(S<=h&&h<=ERROR)return; /* don't go inside functions */
- /* what about unsaturated constructors? fix later */
- while(tag[x]==AP)
- { tl[x]=reduce(tl[x]);
- force(tl[x]);
- x=hd[x]; }
- return;
- case CONS: while(tag[x]==CONS)
- { hd[x]=reduce(hd[x]);
- force(hd[x]);
- x=tl[x]=reduce(tl[x]); }
- }
- return;
-}
-
-head(x) /* finds the function part of x */
-word x;
-{ while(tag[x]==AP)x= hd[x];
- return(x);
-}
-
-extern char linebuf[]; /* used as workspace in various places */
-
-/* ### */ /* opposite is str_conv - see lex.c */
-char *getstring(x,cmd) /* collect Miranda string - x is already reduced */
-word x;
-char *cmd; /* context, for error message */
-{ word x1=x,n=0;
- char *p=linebuf;
- while(tag[x]==CONS&&n<BUFSIZE)
- n++, hd[x] = reduce(hd[x]), x=tl[x]=reduce(tl[x]);
- x=x1;
- while(tag[x]==CONS&&n--)
- *p++ = hd[x], x=tl[x];
- *p++ ='\0';
- if(p-linebuf>BUFSIZE)
- { if(cmd)fprintf(stderr,
- "\n%s, argument string too long (limit=%d chars): %s...\n",
- cmd,BUFSIZE,linebuf),
- outstats(),
- exit(1);
- else return(linebuf); /* see G_CLOSE */ }
- return(linebuf); /* very inefficient to keep doing this for filenames etc.
- CANNOT WE SUPPORT A PACKED REPRESENTATION OF STRINGS? */
-} /* call keep(linebuf) if you want to save the string */
-
-FILE *s_out=NULL; /* destination of current output message */
- /* initialised in main() */
-#define Stdout 0
-#define Stderr 1
-#define Tofile 2
-#define Closefile 3
-#define Appendfile 4
-#define System 5
-#define Exit 6
-#define Stdoutb 7
-#define Tofileb 8
-#define Appendfileb 9
- /* order of declaration of constructors of these names in sys_message */
-
-/* ### */
-output(e) /* "output" is called by YACC (see MIRANDA RULES) to print the
- value of an expression - output then calls "reduce" - so the
- whole reduction process is driven by the need to print */
- /* the value of the whole expression is a list of `messages' */
-word e;
-{
- extern word *cstack;
- cstack = &e; /* don't follow C stack below this in gc */
-L:e= reduce(e);
- while(tag[e]==CONS)
- { word d;
- hd[e]= reduce(hd[e]);
- switch(constr_tag(head(hd[e])))
- { case Stdout: print(tl[hd[e]]);
- break;
- case Stdoutb: UTF8OUT=0;
- print(tl[hd[e]]);
- UTF8OUT=UTF8;
- break;
- case Stderr: s_out=stderr; print(tl[hd[e]]); s_out=stdout;
- break;
- case Tofile: outf(hd[e]);
- break;
- case Tofileb: UTF8OUT=0;
- outf(hd[e]);
- UTF8OUT=UTF8;
- break;
- case Closefile: closefile(tl[hd[e]]=reduce(tl[hd[e]]));
- break;
- case Appendfile: apfile(tl[hd[e]]=reduce(tl[hd[e]]));
- break;
- case Appendfileb: UTF8OUT=0;
- apfile(tl[hd[e]]=reduce(tl[hd[e]]));
- UTF8OUT=UTF8;
- break;
- case System: system(getstring(tl[hd[e]]=reduce(tl[hd[e]]),"System"));
- break;
- case Exit: { word n=reduce(tl[hd[e]]);
- if(tag[n]==INT)n=digit0(n);
- else word_error("Exit");
- outstats(); exit(n); }
- default: fprintf(stderr,"\n<impossible event in output list: ");
- out(stderr,hd[e]);
- fprintf(stderr,">\n"); }
- e= tl[e]= reduce(tl[e]);
- }
- if(e==NIL)return;
- fprintf(stderr,"\nimpossible event in output\n"),
- putc('<',stderr),out(stderr,e),fprintf(stderr,">\n");
- exit(1);
-}
-
-/* ### */
-print(e) /* evaluate list of chars and send to s_out */
-word e;
-{ e= reduce(e);
- while(tag[e]==CONS && is_char(hd[e]=reduce(hd[e])))
- { unsigned word c=get_char(hd[e]);
- if(UTF8)outUTF8(c,s_out); else
- if(c<256) putc(c,s_out);
- else fprintf(stderr,"\n warning: non Latin1 char \%x in print, ignored\n",c);
- e= tl[e]= reduce(tl[e]); }
- if(e==NIL)return;
- fprintf(stderr,"\nimpossible event in print\n"),
- putc('<',stderr),out(stderr,e),fprintf(stderr,">\n"),
- exit(1);
-}
-
-word outfilq=NIL; /* list of opened-for-output files */
-/* note that this will be automatically reset to NIL and all files on it
-closed at end of expression evaluation, because of the fork-exit structure */
-
-/* ### */
-outf(e) /* e is of the form (Tofile f x) */
-word e;
-{ word p=outfilq; /* have we already opened this file for output? */
- char *f=getstring(tl[hd[e]]=reduce(tl[hd[e]]),"Tofile");
- while(p!=NIL && strcmp((char *)hd[hd[p]],f)!=0)p=tl[p];
- if(p==NIL) /* new output file */
- { s_out= fopen(f,"w");
- if(s_out==NULL)
- { fprintf(stderr,"\nTofile: cannot write to \"%s\"\n",f);
- s_out=stdout;
- return;
- /* outstats(); exit(1); /* release one policy */
- }
- if(isatty(fileno(s_out)))setbuf(s_out,NULL); /*for unbuffered tty output*/
- outfilq= cons(datapair(keep(f),s_out),outfilq); }
- else s_out= (FILE *)tl[hd[p]];
- print(tl[e]);
- s_out= stdout;
-}
-
-apfile(f) /* open file of name f for appending and add to outfilq */
-word f;
-{ word p=outfilq; /* is it already open? */
- char *fil=getstring(f,"Appendfile");
- while(p!=NIL && strcmp((char *)hd[hd[p]],fil)!=0)p=tl[p];
- if(p==NIL) /* no, so open in append mode */
- { FILE *s=fopen(fil,"a");
- if(s==NULL)
- fprintf(stderr,"\nAppendfile: cannot write to \"%s\"\n",fil);
- else outfilq= cons(datapair(keep(fil),s),outfilq);
- }
- /* if already there do nothing */
-}
-
-closefile(f) /* remove file of name "f" from outfilq and close stream */
-word f;
-{ word *p= &outfilq; /* is this file open for output? */
- char *fil=getstring(f,"Closefile");
- while(*p!=NIL && strcmp((char *)hd[hd[*p]],fil)!=0)p= &tl[*p];
- if(*p!=NIL) /* yes */
- { fclose((FILE *)tl[hd[*p]]);
- *p=tl[*p]; /* remove link from outfilq */}
- /* otherwise ignore closefile request (harmless??) */
-}
-
-static word errtrap=0; /* to prevent error cycles - see ERROR below */
-word waiting=NIL;
-/* list of terminated child processes with exit_status - see Exec/EXEC */
-
-/* pointer-reversing SK reduction machine - based on code written Sep 83 */
-
-#define BACKSTOP 020000000000
-#define READY(x) (x)
-#define RESTORE(x)
-/* in this machine the above two are no-ops, alternate definitions are, eg
-#define READY(x) (x+1)
-#define RESTORE(x) x--
-(if using this method each strict comb needs next opcode unallocated)
- see comment before "ready" switch */
-#define FIELD word
-#define tlptrbit 020000000000
-#define tlptrbits 030000000000
- /* warning -- if you change this tell `mark()' in data.c */
-#define mktlptr(x) x |= tlptrbit
-#define mk1tlptr x |= tlptrbits
-#define mknormal(x) x &= ~tlptrbits
-#define abnormal(x) ((x)<0)
-/* covers x is tlptr and x==BACKSTOP */
-
-/* control abstractions */
-
-#define setcell(t,a,b) tag[e]=t,hd[e]=a,tl[e]=b
-#define DOWNLEFT hold=s, s=e, e=hd[e], hd[s]=hold
-#define DOWNRIGHT hold=hd[s], hd[s]=e, e=tl[s], tl[s]=hold, mktlptr(s)
-#define downright if(abnormal(s))goto DONE; DOWNRIGHT
-#define UPLEFT hold=s, s=hd[s], hd[hold]=e, e=hold
-#define upleft if(abnormal(s))goto DONE; UPLEFT
-#define GETARG(a) UPLEFT, a=tl[e]
-#define getarg(a) upleft; a=tl[e]
-#define UPRIGHT mknormal(s), hold=tl[s], tl[s]=e, e=hd[s], hd[s]=hold
-#define lastarg tl[e]
-word reds=0;
-
-/* IMPORTANT WARNING - the macro's
- `downright;' `upleft;' `getarg;'
- MUST BE ENCLOSED IN BRACES when they occur as the body of a control
- structure (if, while etc.) */
-
-#define simpl(r) hd[e]=I, e=tl[e]=r
-
-#ifdef DEBUG
-word maxrdepth=0,rdepth=0;
-#endif
-
-#define fails(x) (x==NIL)
-#define FAILURE NIL
- /* used by grammar combinators */
-
-/* reduce e to hnf, note that a function in hnf will have head h with
- S<=h<=ERROR all combinators lie in this range see combs.h */
-FIELD reduce(e)
-FIELD e;
-{ FIELD s=BACKSTOP,hold,arg1,arg2,arg3;
-#ifdef DEBUG
- if(++rdepth>maxrdepth)maxrdepth=rdepth;
- if(debug&02)
- printf("reducing: "),out(stdout,e),putchar('\n');
-#endif
-
- NEXTREDEX:
- while(!abnormal(e)&&tag[e]==AP)DOWNLEFT;
-#ifdef HISTO
- histo(e);
-#endif
-#ifdef DEBUG
- if(debug&02)
- { printf("head= ");
- if(e==BACKSTOP)printf("BACKSTOP");
- else out(stdout,e);
- putchar('\n'); }
-#endif
-
- OPDECODE:
-/*lasthead=e; /* DEBUG */
- cycles++;
- switch(e)
- {
- case S: /* S f g x => f x(g x) */
- getarg(arg1);
- getarg(arg2);
- upleft;
- hd[e]=ap(arg1,lastarg); tl[e]=ap(arg2,lastarg);
- DOWNLEFT;
- DOWNLEFT;
- goto NEXTREDEX;
-
- case B: /* B f g x => f(g z) */
- getarg(arg1);
- getarg(arg2);
- upleft;
- hd[e]=arg1; tl[e]=ap(arg2,lastarg);
- DOWNLEFT;
- goto NEXTREDEX;
-
- case CB: /* CB f g x => g(f z) */
- getarg(arg1);
- getarg(arg2);
- upleft;
- hd[e]=arg2; tl[e]=ap(arg1,lastarg);
- DOWNLEFT;
- goto NEXTREDEX;
-
- case C: /* C f g x => f x g */
- getarg(arg1);
- getarg(arg2);
- upleft;
- hd[e]=ap(arg1,lastarg); tl[e]=arg2;
- DOWNLEFT;
- DOWNLEFT;
- goto NEXTREDEX;
-
- case Y: /* Y h => self where self=(h self) */
- upleft;
- hd[e]=tl[e]; tl[e]=e;
- DOWNLEFT;
- goto NEXTREDEX;
-
- L_K:
- case K: /* K x y => x */
- getarg(arg1);
- upleft;
- hd[e]=I; e=tl[e]=arg1;
- goto NEXTREDEX; /* could make eager in first arg */
-
- L_KI:
- case KI: /* KI x y => y */
- upleft; /* lose first arg */
- upleft;
- hd[e]=I; e=lastarg; /* ?? */
- goto NEXTREDEX; /* could make eager in 2nd arg */
-
- case S1: /* S1 k f g x => k(f x)(g x) */
- getarg(arg1);
- getarg(arg2);
- getarg(arg3);
- upleft;
- hd[e]=ap(arg2,lastarg);
- hd[e]=ap(arg1,hd[e]);
- tl[e]=ap(arg3,lastarg);
- DOWNLEFT;
- DOWNLEFT;
- goto NEXTREDEX;
-
- case B1: /* B1 k f g x => k(f(g x)) */
- getarg(arg1); /* Mark Scheevel's new B1 */
- getarg(arg2);
- getarg(arg3);
- upleft;
- hd[e]=arg1;
- tl[e]=ap(arg3,lastarg);
- tl[e]=ap(arg2,tl[e]);
- DOWNLEFT;
- goto NEXTREDEX;
-
- case C1: /* C1 k f g x => k(f x)g */
- getarg(arg1);
- getarg(arg2);
- getarg(arg3);
- upleft;
- hd[e]=ap(arg2,lastarg);
- hd[e]=ap(arg1,hd[e]);
- tl[e]=arg3;
- DOWNLEFT;
- goto NEXTREDEX;
-
- case S_p: /* S_p f g x => (f x) : (g x) */
- getarg(arg1);
- getarg(arg2);
- upleft;
- setcell(CONS,ap(arg1,lastarg),ap(arg2,lastarg));
- goto DONE;
-
- case B_p: /* B_p f g x => f : (g x) */
- getarg(arg1);
- getarg(arg2);
- upleft;
- setcell(CONS,arg1,ap(arg2,lastarg));
- goto DONE;
-
- case C_p: /* C_p f g x => (f x) : g */
- getarg(arg1);
- getarg(arg2);
- upleft;
- setcell(CONS,ap(arg1,lastarg),arg2);
- goto DONE;
-
- case ITERATE: /* ITERATE f x => x:ITERATE f (f x) */
- getarg(arg1);
- upleft;
- hold=ap(hd[e],ap(arg1,lastarg));
- setcell(CONS,lastarg,hold);
- goto DONE;
-
- case ITERATE1: /* ITERATE1 f x => [], x=FAIL
- => x:ITERATE1 f (f x), otherwise */
- getarg(arg1);
- upleft;
- if((lastarg=reduce(lastarg))==FAIL) /* ### */
- { hd[e]=I; e=tl[e]=NIL; }
- else
- { hold=ap(hd[e],ap(arg1,lastarg));
- setcell(CONS,lastarg,hold); }
- goto DONE;
-
- case G_RULE:
- case P: /* P x y => x:y */
- getarg(arg1);
- upleft;
- setcell(CONS,arg1,lastarg);
- goto DONE;
-
- case U: /* U f x => f (HD x) (TL x)
- non-strict uncurry */
- getarg(arg1);
- upleft;
- hd[e]=ap(arg1,ap(HD,lastarg));
- tl[e]=ap(TL,lastarg);
- DOWNLEFT;
- DOWNLEFT;
- goto NEXTREDEX;
-
- case Uf: /* Uf f x => f (BODY x) (LAST x)
- version of non-strict U for
- arbitrary constructors */
- getarg(arg1);
- upleft;
- if(tag[head(lastarg)]==CONSTRUCTOR) /* be eager if safe */
- hd[e]=ap(arg1,hd[lastarg]),
- tl[e]=tl[lastarg];
- else
- hd[e]=ap(arg1,ap(BODY,lastarg)),
- tl[e]=ap(LAST,lastarg);
- DOWNLEFT;
- DOWNLEFT;
- goto NEXTREDEX;
-
- case ATLEAST: /* ATLEAST k f x => f(x-k), isnat x & x>=k
- => FAIL, otherwise */
- /* for matching n+k patterns */
- getarg(arg1);
- getarg(arg2);
- upleft;
- lastarg= reduce(lastarg); /* ### */
- if(tag[lastarg]==INT)
- { hold = bigsub(lastarg,arg1);
- if(poz(hold))hd[e]=arg2,tl[e]=hold;
- else hd[e]=I,e=tl[e]=FAIL; }
- else hd[e]=I,e=tl[e]=FAIL;
- goto NEXTREDEX;
-
- case U_: /* U_ f (a:b) => f a b
- U_ f other => FAIL
- U_ is a strict version of U(see above) */
- getarg(arg1);
- upleft;
- lastarg= reduce(lastarg); /* ### */
- if(lastarg==NIL)
- { hd[e]=I;
- e=tl[e]=FAIL;
- goto NEXTREDEX; }
- hd[e]=ap(arg1,hd[lastarg]);
- tl[e]=tl[lastarg];
- goto NEXTREDEX;
-
- case Ug: /* Ug k f (k x1 ... xn) => f x1 ... xn, n>=0
- Ug k f other => FAIL
- Ug is a strict version of U for arbitrary constructor k */
- getarg(arg1);
- getarg(arg2);
- upleft;
- lastarg= reduce(lastarg); /* ### */
- if(constr_tag(arg1)!=constr_tag(head(lastarg)))
- { hd[e]=I;
- e=tl[e]=FAIL;
- goto NEXTREDEX; }
- if(tag[lastarg]==CONSTRUCTOR) /* case n=0 */
- { hd[e]=I; e=tl[e]=arg2; goto NEXTREDEX; }
- hd[e]=hd[lastarg];
- tl[e]=tl[lastarg];
- while(tag[hd[e]]!=CONSTRUCTOR)
- /* go back to head of arg3, copying spine */
- { hd[e]=ap(hd[hd[e]],tl[hd[e]]);
- DOWNLEFT; }
- hd[e]=arg2; /* replace k with f */
- goto NEXTREDEX;
-
- case MATCH: /* MATCH a f a => f
- MATCH a f b => FAIL */
- upleft;
- arg1=lastarg=reduce(lastarg); /* ### */
- /* note that MATCH evaluates arg1, usually needless, could have second
- version - MATCHEQ, say */
- getarg(arg2);
- upleft;
- lastarg=reduce(lastarg); /* ### */
- hd[e]=I;
- e=tl[e]=compare(arg1,lastarg)?FAIL:arg2;
- goto NEXTREDEX;
-
- case MATCHINT: /* same but 1st arg is integer literal */
- getarg(arg1);
- getarg(arg2);
- upleft;
- lastarg=reduce(lastarg); /* ### */
- hd[e]=I;
- e=tl[e]=(tag[lastarg]!=INT||bigcmp(arg1,lastarg))?FAIL:arg2;
- /* note no coercion from INT to DOUBLE here */
- goto NEXTREDEX;
-
- case GENSEQ: /* GENSEQ (i,NIL) a => a:GENSEQ (i,NIL) (a+i)
- GENSEQ (i,b) a => [], a>b=sign
- => a:GENSEQ (i,b) (a+i), otherwise
- where
- sign = 1, i>=0
- = -1, otherwise */
- GETARG(arg1);
- UPLEFT;
- if(tl[arg1]!=NIL&&
- (tag[arg1]==AP?compare(lastarg,tl[arg1]):compare(tl[arg1],lastarg))>0)
- hd[e]=I, e=tl[e]=NIL;
- else hold=ap(hd[e],numplus(lastarg,hd[arg1])),
- setcell(CONS,lastarg,hold);
- goto DONE;
- /* efficiency hack - tag of arg1 encodes sign of step */
-
- case MAP: /* MAP f [] => []
- MAP f (a:x) => f a : MAP f x */
- getarg(arg1);
- upleft;
- lastarg=reduce(lastarg); /* ### */
- if(lastarg==NIL)
- hd[e]=I, e=tl[e]=NIL;
- else hold=ap(hd[e],tl[lastarg]),
- setcell(CONS,ap(arg1,hd[lastarg]),hold);
- goto DONE;
-
- case FLATMAP: /* funny version of map for compiling zf exps
- FLATMAP f [] => []
- FLATMAP f (a:x) => FLATMAP f x, f a=FAIL
- => f a ++ FLATMAP f x
- (FLATMAP was formerly called MAP1) */
- getarg(arg1);
- getarg(arg2);
- L1:arg2=reduce(arg2); /* ### */
- if(arg2==NIL)
- { hd[e]=I;
- e=tl[e]=NIL;
- goto DONE; }
- hold=reduce(hold=ap(arg1,hd[arg2]));
- if(hold==FAIL||hold==NIL){ arg2=tl[arg2]; goto L1; }
- tl[e]=ap(hd[e],tl[arg2]);
- hd[e]=ap(APPEND,hold);
- goto NEXTREDEX;
-
- case FILTER: /* FILTER f [] => []
- FILTER f (a:x) => a : FILTER f x, f a
- => FILTER f x, otherwise */
- getarg(arg1);
- upleft;
- lastarg=reduce(lastarg); /* ### */
- while(lastarg!=NIL&&reduce(ap(arg1,hd[lastarg]))==False) /* ### */
- lastarg=reduce(tl[lastarg]); /* ### */
- if(lastarg==NIL)
- hd[e]=I, e=tl[e]=NIL;
- else hold=ap(hd[e],tl[lastarg]),
- setcell(CONS,hd[lastarg],hold);
- goto DONE;
-
- case LIST_LAST: /* LIST_LAST x => x!(#x-1) */
- upleft;
- if((lastarg=reduce(lastarg))==NIL)fn_error("last []"); /* ### */
- while((tl[lastarg]=reduce(tl[lastarg]))!=NIL) /* ### */
- lastarg=tl[lastarg];
- hd[e]=I; e=tl[e]=hd[lastarg];
- goto NEXTREDEX;
-
- case LENGTH: /* takes length of a list */
- upleft;
- { long long n=0; /* problem - may be followed by gc */
- /* cannot make static because of ### below */
- while((lastarg=reduce(lastarg))!=NIL) /* ### */
- lastarg=tl[lastarg],n++;
- simpl(sto_word(n)); }
- goto DONE;
-
- case DROP:
- getarg(arg1);
- upleft;
- arg1=tl[hd[e]]=reduce(tl[hd[e]]); /* ### */
- if(tag[arg1]!=INT)word_error("drop");
- { long long n=get_word(arg1);
- while(n-- >0)
- if((lastarg=reduce(lastarg))==NIL) /* ### */
- { simpl(NIL); goto DONE; }
- else lastarg=tl[lastarg]; }
- simpl(lastarg);
- goto NEXTREDEX;
-
- case SUBSCRIPT: /* SUBSCRIPT i x => x!i */
- upleft;
- upleft;
- arg1=tl[hd[e]]=reduce(tl[hd[e]]); /* ### */
- lastarg=reduce(lastarg); /* ### */
- if(lastarg==NIL)subs_error();
- { long long indx = tag[arg1]==ATOM?arg1:/* small indexes represented directly */
- tag[arg1]==INT?get_word(arg1):
- word_error("!");
- /* problem, indx may be followed by gc
- - cannot make static, because of ### below */
- if(indx<0)subs_error();
- while(indx)
- { lastarg= tl[lastarg]= reduce(tl[lastarg]); /* ### */
- if(lastarg==NIL)subs_error();
- indx--; }
- hd[e]= I;
- e=tl[e]=hd[lastarg]; /* could be eager in tl[e] */
- goto NEXTREDEX; }
-
- case FOLDL1: /* FOLDL1 op (a:x) => FOLDL op a x */
- getarg(arg1);
- upleft;
- if((lastarg=reduce(lastarg))!=NIL) /* ### */
- { hd[e]=ap2(FOLDL,arg1,hd[lastarg]);
- tl[e]=tl[lastarg];
- goto NEXTREDEX; }
- else fn_error("foldl1 applied to []");
-
- case FOLDL: /* FOLDL op r [] => r
- FOLDL op r (a:x) => FOLDL op (op r a)^ x
-
- ^ (FOLDL op) is made strict in 1st param */
- getarg(arg1);
- getarg(arg2);
- upleft;
- while((lastarg=reduce(lastarg))!=NIL) /* ### */
- arg2=reduce(ap2(arg1,arg2,hd[lastarg])), /* ^ ### */
- lastarg=tl[lastarg];
- hd[e]=I, e=tl[e]=arg2;
- goto NEXTREDEX;
-
- case FOLDR: /* FOLDR op r [] => r
- FOLDR op r (a:x) => op a (FOLDR op r x) */
- getarg(arg1);
- getarg(arg2);
- upleft;
- lastarg=reduce(lastarg); /* ### */
- if(lastarg==NIL)
- hd[e]=I, e=tl[e]=arg2;
- else hold=ap(hd[e],tl[lastarg]),
- hd[e]=ap(arg1,hd[lastarg]), tl[e]=hold;
- goto NEXTREDEX;
-
- L_READBIN:
- case READBIN: /* READBIN streamptr => nextchar : READBIN streamptr
- if end of file, READBIN file => NIL
- READBIN does no UTF-8 conversion */
- UPLEFT; /* gc insecurity - arg is not a heap object */
- if(lastarg==0) /* special case created by $:- */
- { if(stdinuse=='-')stdin_error(':');
- if(stdinuse)
- { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- stdinuse=':';
- tl[e]=(word)stdin; }
- hold= getc((FILE *)lastarg);
- if(hold==EOF)
- { fclose((FILE *)lastarg);
- hd[e]=I;
- e=tl[e]= NIL;
- goto DONE; }
- setcell(CONS,hold,ap(READBIN,lastarg));
- goto DONE;
-
- L_READ:
- case READ: /* READ streamptr => nextchar : READ streamptr
- if end of file, READ file => NIL
- does UTF-8 conversion where appropriate */
- UPLEFT; /* gc insecurity - arg is not a heap object */
- if(lastarg==0) /* special case created by $- */
- { if(stdinuse==':')stdin_error('-');
- if(stdinuse)
- { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- stdinuse='-';
- tl[e]=(word)stdin; }
- hold=UTF8?sto_char(fromUTF8((FILE *)lastarg)):getc((FILE *)lastarg);
- if(hold==EOF)
- { fclose((FILE *)lastarg);
- hd[e]=I;
- e=tl[e]= NIL;
- goto DONE; }
- setcell(CONS,hold,ap(READ,lastarg));
- goto DONE;
-
- L_READVALS:
- case READVALS: /* READVALS (t:fil) f => [], EOF from FILE *f
- => val : READVALS t f, otherwise
- where val is obtained by parsing lines of
- f, and taking next legal expr of type t */
- GETARG(arg1);
- upleft;
- hold=parseline(hd[arg1],(FILE *)lastarg,tl[arg1]);
- if(hold==EOF)
- { fclose((FILE *)lastarg);
- hd[e]=I;
- e=tl[e]= NIL;
- goto DONE; }
- arg2=ap(hd[e],lastarg);
- setcell(CONS,hold,arg2);
- goto DONE;
-
- case BADCASE: /* BADCASE cons(oldn,here_info) => BOTTOM */
- UPLEFT;
- { extern word sourcemc;
- word subject= hd[lastarg];
- /* either datapair(oldn,0) or 0 */
- fprintf(stderr,"\nprogram error: missing case in definition");
- if(subject) /* cannot do patterns - FIX LATER */
- fprintf(stderr," of %s",(char *)hd[subject]);
- putc('\n',stderr);
- out_here(stderr,tl[lastarg],1);
- /* if(sourcemc&&nargs>1)
- { int i=2;
- fprintf(stderr,"arg%s = ",nargs>2?"s":"");
- while(i<=nargs)out(stderr,tl[stackp[-(i++)]]),putc(' ',stderr);
- putc('\n',stderr); } /* fix later */
- }
- outstats();
- exit(1);
-
- case GETARGS: /* GETARGS 0 => argv ||`$*' = command line args */
- UPLEFT;
- simpl(conv_args());
- goto DONE;
-
- case CONFERROR: /* CONFERROR error_info => BOTTOM */
- /* if(nargs<1)fprintf(stderr,"\nimpossible event in reduce\n"),
- exit(1); */
- UPLEFT;
- fprintf(stderr,"\nprogram error: lhs of definition doesn't match rhs");
- /*fprintf(stderr," OF ");
- out_formal1(stderr,hd[lastarg]); /* omit - names may have been aliased */
- putc('\n',stderr);
- out_here(stderr,tl[lastarg],1);
- outstats();
- exit(1);
-
- case ERROR: /* ERROR error_info => BOTTOM */
- upleft;
- if(errtrap)fprintf(stderr,"\n(repeated error)\n");
- else { errtrap=1;
- fprintf(stderr,"\nprogram error: ");
- s_out=stderr;
- print(lastarg); /* ### */
- putc('\n',stderr); }
- outstats();
- exit(1);
-
- case WAIT: /* WAIT pid => <exit_status of child process pid> */
- UPLEFT;
- { word *w= &waiting; /* list of terminated pid's and their exit statuses */
- while(*w!=NIL&&hd[*w]!=lastarg)w= &tl[tl[*w]];
- if(*w!=NIL)hold=hd[tl[*w]],
- *w=tl[tl[*w]]; /* remove entry */
- else { word status;
- while((hold=wait(&status))!=lastarg&&hold!= -1)
- waiting=cons(hold,cons(WEXITSTATUS(status),waiting));
- if(hold!= -1)hold=WEXITSTATUS(status); }}
- simpl(stosmallint(hold));
- goto DONE;
-
- L_I:
-/* case MONOP: (all strict monadic operators share this code) */
- case I: /* we treat I as strict to avoid I-chains (MOD1) */
- case SEQ:
- case FORCE:
- case HD:
- case TL:
- case BODY:
- case LAST:
- case EXEC:
- case FILEMODE:
- case FILESTAT:
- case GETENV:
- case INTEGER:
- case NUMVAL:
- case TAKE:
- case STARTREAD:
- case STARTREADBIN:
- case NB_STARTREAD:
- case COND:
- case APPEND:
- case AND:
- case OR:
- case NOT:
- case NEG:
- case CODE:
- case DECODE:
- case SHOWNUM:
- case SHOWHEX:
- case SHOWOCT:
- case ARCTAN_FN: /* ...FN are strict functions of one numeric arg */
- case EXP_FN:
- case ENTIER_FN:
- case LOG_FN:
- case LOG10_FN:
- case SIN_FN:
- case COS_FN:
- case SQRT_FN:
- downright; /* subtask -- reduce arg */
- goto NEXTREDEX;
-
- case TRY: /* TRY f g x => TRY(f x)(g x) */
- getarg(arg1);
- getarg(arg2);
- while(!abnormal(s))
- { UPLEFT;
- hd[e]=ap(TRY,arg1=ap(arg1,lastarg));
- arg2=tl[e]=ap(arg2,lastarg); }
- DOWNLEFT;
- /* DOWNLEFT; DOWNRIGHT; equivalent to:*/
- hold=s,s=e,e=tl[e],tl[s]=hold,mktlptr(s); /* now be strict in arg1 */
- goto NEXTREDEX;
-
- case FAIL: /* FAIL x => FAIL */
- while(!abnormal(s))hold=s,s=hd[s],hd[hold]=FAIL,tl[hold]=0;
- goto DONE;
-
-/* case DIOP: (all strict diadic operators share this code) */
- case ZIP:
- case STEP:
- case EQ:
- case NEQ:
- case PLUS:
- case MINUS:
- case TIMES:
- case INTDIV:
- case FDIV:
- case MOD:
- case GRE:
- case GR:
- case POWER:
- case SHOWSCALED:
- case SHOWFLOAT:
- case MERGE:
- upleft;
- downright; /* first subtask -- reduce arg2 */
- goto NEXTREDEX;
-
- case Ush: /* strict in three args */
- case STEPUNTIL:
- upleft;
- upleft;
- downright;
- goto NEXTREDEX; /* first subtask -- reduce arg3 */
-
- case Ush1: /* non-strict version of Ush */
- /* Ush1 (k f1...fn) p stuff
- => "k"++' ':f1 x1 ...++' ':fn xn, p='\0'
- => "(k"++' ':f1 x1 ...++' ':fn xn++")", p='\1'
- where xi = LAST(BODY^(n-i) stuff) */
- getarg(arg1);
- arg1=reduce(arg1); /* ### */
- getarg(arg2);
- arg2=reduce(arg2); /* ### */
- getarg(arg3);
- if(tag[arg1]==CONSTRUCTOR) /* don't parenthesise atom */
- { hd[e]=I;
- if(suppressed(arg1))
- e=tl[e]=str_conv("<unprintable>");
- else e=tl[e]=str_conv(constr_name(arg1));
- goto DONE; }
- hold=arg2?cons(')',NIL):NIL;
- while(tag[arg1]!=CONSTRUCTOR)
- hold=cons(' ',ap2(APPEND,ap(tl[arg1],ap(LAST,arg3)),hold)),
- arg1=hd[arg1],arg3=ap(BODY,arg3);
- if(suppressed(arg1))
- { hd[e]=I; e=tl[e]=str_conv("<unprintable>"); goto DONE; }
- hold=ap2(APPEND,str_conv(constr_name(arg1)),hold);
- if(arg2)
- { setcell(CONS,'(',hold); goto DONE; }
- else { hd[e]=I; e=tl[e]=hold; goto NEXTREDEX; }
-
- case MKSTRICT: /* MKSTRICT k f x1 ... xk => f x1 ... xk, xk~=BOT */
- GETARG(arg1);
- getarg(arg2);
- { word i=arg1;
- while(i--) { upleft; } }
- lastarg=reduce(lastarg); /* ### */
- while(--arg1) /* go back towards head, copying spine */
- { hd[e]=ap(hd[hd[e]],tl[hd[e]]);
- DOWNLEFT;}
- hd[e]=arg2; /* overwrite (MKSTRICT k f) with f */
- goto NEXTREDEX;
-
- case G_ERROR: /* G_ERROR f g toks = (g residue):[], fails(f toks)
- = f toks, otherwise */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
- hold=ap(arg1,lastarg);
- hold=reduce(hold); /* ### */
- if(!fails(hold))
- { hd[e]=I; e=tl[e]=hold; goto DONE; }
- hold=g_residue(lastarg);
- setcell(CONS,ap(arg2,hold),NIL);
- goto DONE;
-
- case G_ALT: /* G_ALT f g toks = f toks, !fails(f toks)
- = g toks, otherwise */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
- hold=ap(arg1,lastarg);
- hold=reduce(hold); /* ### */
- if(!fails(hold))
- { hd[e]=I; e=tl[e]=hold; goto DONE; }
- hd[e]=arg2;
- DOWNLEFT;
- goto NEXTREDEX;
-
- case G_OPT: /* G_OPT f toks = []:toks, fails(f toks)
- = [a]:toks', otherwise
- where
- a:toks' = f toks */
- GETARG(arg1);
- upleft;
- hold=ap(arg1,lastarg);
- hold=reduce(hold); /* ### */
- if(fails(hold))
- setcell(CONS,NIL,lastarg);
- else setcell(CONS,cons(hd[hold],NIL),tl[hold]);
- goto DONE;
-
- case G_STAR: /* G_STAR f toks => []:toks, fails(f toks)
- => ((a:FST z):SND z)
- where
- a:toks' = f toks
- z = G_STAR f toks'
- */
- GETARG(arg1);
- upleft;
- hold=ap(arg1,lastarg);
- hold=reduce(hold); /* ### */
- if(fails(hold))
- { setcell(CONS,NIL,lastarg); goto DONE; }
- arg2=ap(hd[e],tl[hold]); /* called z in above rules */
- tag[e]=CONS;hd[e]=cons(hd[hold],ap(FST,arg2));tl[e]=ap(SND,arg2);
- goto DONE;
-
- /* G_RULE has same action as P */
-
- case G_FBSTAR: /* G_FBSTAR f toks
- = I:toks, if fails(f toks)
- = G_SEQ (G_FBSTAR f) (G_RULE (CB a)) toks', otherwise
- where a:toks' = f toks
- */
- GETARG(arg1);
- upleft;
- hold=ap(arg1,lastarg);
- hold=reduce(hold); /* ### */
- if(fails(hold))
- { setcell(CONS,I,lastarg); goto DONE; }
- hd[e]=ap2(G_SEQ,hd[e],ap(G_RULE,ap(CB,hd[hold]))); tl[e]=tl[hold];
- goto NEXTREDEX;
-
- case G_SYMB: /* G_SYMB t ((t,s):toks) = t:toks
- G_SYMB t toks = FAILURE */
- GETARG(arg1); /* will be in NF */
- upleft;
- lastarg=reduce(lastarg); /* ### */
- if(lastarg==NIL)
- { hd[e]=I,e=tl[e]=NIL; goto DONE; }
- hd[lastarg]=reduce(hd[lastarg]); /* ### */
- hold=ap(FST,hd[lastarg]);
- if(compare(arg1,reduce(hold))) /* ### */
- hd[e]=I,e=tl[e]=FAILURE;
- else setcell(CONS,arg1,tl[lastarg]);
- goto DONE;
-
- case G_ANY: /* G_ANY ((t,s):toks) = t:toks
- G_ANY [] = FAILURE */
- upleft;
- lastarg=reduce(lastarg); /* ### */
- if(lastarg==NIL)
- hd[e]=I,e=tl[e]=FAILURE;
- else setcell(CONS,ap(FST,hd[lastarg]),tl[lastarg]);
- goto DONE;
-
- case G_SUCHTHAT: /* G_SUCHTHAT f ((t,s):toks) = t:toks, f t
- G_SUCHTHAT f toks = FAILURE */
- GETARG(arg1);
- upleft;
- lastarg=reduce(lastarg); /* ### */
- if(lastarg==NIL)
- { hd[e]=I,e=tl[e]=FAILURE; goto DONE; }
- hold=ap(FST,hd[lastarg]);
- hold=reduce(hold); /* ### */
- if(reduce(ap(arg1,hold))==True) /* ### */
- setcell(CONS,hold,tl[lastarg]);
- else hd[e]=I,e=tl[e]=FAILURE;
- goto DONE;
-
-
- case G_END: /* G_END [] = []:[]
- G_END other = FAILURE */
- upleft;
- lastarg=reduce(lastarg);
- if(lastarg==NIL)
- setcell(CONS,NIL,NIL);
- else hd[e]=I,e=tl[e]=FAILURE;
- goto DONE;
-
- case G_STATE: /* G_STATE ((t,s):toks) = s:((t,s):toks)
- G_STATE [] = FAILURE */
- upleft;
- lastarg=reduce(lastarg); /* ### */
- if(lastarg==NIL)
- hd[e]=I,e=tl[e]=FAILURE;
- else setcell(CONS,ap(SND,hd[lastarg]),lastarg);
- goto DONE;
-
- case G_SEQ: /* G_SEQ f g toks = FAILURE, fails(f toks)
- = FAILURE, fails(g toks')
- = b a:toks'', otherwise
- where
- a:toks' = f toks
- b:toks'' = g toks' */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
- hold=ap(arg1,lastarg);
- hold=reduce(hold); /* ### */
- if(fails(hold))
- { hd[e]=I,e=tl[e]=FAILURE; goto DONE; }
- arg3=ap(arg2,tl[hold]);
- arg3=reduce(arg3); /* ### */
- if(fails(arg3))
- { hd[e]=I,e=tl[e]=FAILURE; goto DONE; }
- setcell(CONS,ap(hd[arg3],hd[hold]),tl[arg3]);
- goto DONE;
-
- case G_UNIT: /* G_UNIT toks => I:toks */
- upleft;
- tag[e]=CONS,hd[e]=I;
- goto DONE;
- /* G_UNIT is right multiplicative identity, equivalent (G_RULE I) */
-
- case G_ZERO: /* G_ZERO toks => FAILURE */
- upleft;
- simpl(FAILURE);
- goto DONE;
- /* G_ZERO is left additive identity */
-
- case G_CLOSE: /* G_CLOSE s f toks = <error s>, fails(f toks')
- = <error s>, toks'' ~= NIL
- = a, otherwise
- where
- toks' = G_COUNT toks
- a:toks'' = f toks' */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
- arg3=ap(G_COUNT,lastarg);
- hold=ap(arg2,arg3);
- hold=reduce(hold); /* ### */
- if(fails(hold) /* ||(tl[hold]=reduce(tl[hold]))!=NIL /* ### */
- ) /* suppress to make parsers lazy by default 13/12/90 */
- { fprintf(stderr,"\nPARSE OF %sFAILS WITH UNEXPECTED ",
- getstring(arg1,0));
- arg3=reduce(tl[g_residue(arg3)]);
- if(arg3==NIL)
- fprintf(stderr,"END OF INPUT\n"),
- outstats(),
- exit(1);
- hold=ap(FST,hd[arg3]);
- hold=reduce(hold);
- fprintf(stderr,"TOKEN \"");
- if(hold==OFFSIDE)fprintf(stderr,"offside"); /* not now possible */
- { char *p=getstring(hold,0);
- while(*p)fprintf(stderr,"%s",charname(*p++)); }
- fprintf(stderr,"\"\n");
- outstats();
- exit(1); }
- hd[e]=I,e=tl[e]=hd[hold];
- goto NEXTREDEX;
-/* NOTE the atom OFFSIDE differs from every string and is used as a
- pseudotoken when implementing the offside rule - see `indent' in prelude */
-
- case G_COUNT: /* G_COUNT NIL => NIL
- G_COUNT (t:toks) => t:G_COUNT toks */
- /* G_COUNT is an identity operation on lists - its purpose is to mark
- last token examined, for syntax error location purposes */
- upleft;
- if((lastarg=reduce(lastarg))==NIL) /* ### */
- { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- setcell(CONS,hd[lastarg],ap(G_COUNT,tl[lastarg]));
- goto DONE;
-
-/* Explanation of %lex combinators. A lex analyser is of type
-
- lexer == [char] -> [alpha]
-
- At top level these are of the form (LEX_RPT f) where f is of type
-
- lexer1 == startcond -> [char] -> (alpha,startcond,[char])
-
- A lexer1 is guaranteed to return a triple (if it returns at all...)
- and is built using LEX_TRY.
-
- LEX_TRY [(scstuff,(matcher [],rule))*] :: lexer1
- rule :: [char] -> alpha
- matcher :: partial_match -> input -> {(alpha,input') | []}
-
- partial_match and input are both [char] and [] represents failure.
- The other lex combinators - LEX_SEQ, LEX_OR, LEX_CLASS etc., all
- create and combine objects of type matcher.
-
- LEX_RPT1 is a deviant version that labels the input characters
- with their lexical state (row,col) using LEX_COUNT - goes with
- LEX_TRY1 which feeds the leading state of input to each rule.
-
-*/
-
- case LEX_RPT1: /* LEX_RPT1 f s x => LEX_RPT f s (LEX_COUNT0 x)
- i.e. LEX_RPT1 f s => B (LEX_RPT f s) LEX_COUNT0
- */
- GETARG(arg1);
- UPLEFT;
- hd[e]=ap(B,ap2(LEX_RPT,arg1,lastarg)); tl[e]=LEX_COUNT0;
- DOWNLEFT;
- DOWNLEFT;
- goto NEXTREDEX;
-
- case LEX_RPT: /* LEX_RPT f s [] => []
- LEX_RPT f s x => a : LEX_RPT f s' y
- where
- (a,s',y) = f s x
- note that if f returns a result it is
- guaranteed to be a triple
- */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
- if((lastarg=reduce(lastarg))==NIL) /* ### */
- { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- hold=ap2(arg1,arg2,lastarg);
- arg1=hd[hd[e]];
- hold=reduce(hold);
- setcell(CONS,hd[hold],ap2(arg1,hd[tl[hold]],tl[tl[hold]]));
- goto DONE;
-
- case LEX_TRY:
- upleft;
- tl[e]=reduce(tl[e]); /* ### */
- force(tl[e]);
- hd[e]=LEX_TRY_;
- DOWNLEFT;
- /* falls thru to next case */
-
- case LEX_TRY_:
- /* LEX_TRY ((scstuff,(f,rule)):alt) s x => LEX_TRY alt s x, if f x = []
- => (rule (rev a),s,y), otherwise
- where
- (a,y) = f x
- LEX_TRY [] s x => BOTTOM
- */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
-L2: if(arg1==NIL)lexfail(lastarg);
- if(hd[hd[hd[arg1]]]&&!member(hd[hd[hd[arg1]]],arg2))
- { arg1=tl[arg1]; goto L2; } /* hd[scstuff] is 0 or list of startconds */
- hold=ap(hd[tl[hd[arg1]]],lastarg);
- if((hold=reduce(hold))==NIL) /* ### */
- { arg1=tl[arg1]; goto L2; }
- setcell(CONS,ap(tl[tl[hd[arg1]]],ap(DESTREV,hd[hold])),
- cons(tl[hd[hd[arg1]]]?tl[hd[hd[arg1]]]-1:arg2,tl[hold]));
- /* tl[scstuff] is 1 + next start condition (0 = no change) */
- goto DONE;
-
- case LEX_TRY1:
- upleft;
- tl[e]=reduce(tl[e]); /* ### */
- force(tl[e]);
- hd[e]=LEX_TRY1_;
- DOWNLEFT;
- /* falls thru to next case */
-
- case LEX_TRY1_:
- /* LEX_TRY1 ((scstuff,(f,rule)):alt) s x => LEX_TRY1 alt s x, if f x = []
- => (rule n (rev a),s,y), otherwise
- where
- (a,y) = f x
- n = lexstate(x)
- ||same as LEX_TRY but feeds lexstate to rule
- */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
-L3: if(arg1==NIL)lexfail(lastarg);
- if(hd[hd[hd[arg1]]]&&!member(hd[hd[hd[arg1]]],arg2))
- { arg1=tl[arg1]; goto L3; } /* hd[scstuff] is 0 or list of startconds */
- hold=ap(hd[tl[hd[arg1]]],lastarg);
- if((hold=reduce(hold))==NIL) /* ### */
- { arg1=tl[arg1]; goto L3; }
- setcell(CONS,ap2(tl[tl[hd[arg1]]],lexstate(lastarg),ap(DESTREV,hd[hold])),
- cons(tl[hd[hd[arg1]]]?tl[hd[hd[arg1]]]-1:arg2,tl[hold]));
- /* tl[scstuff] is 1 + next start condition (0 = no change) */
- goto DONE;
-
- case DESTREV: /* destructive reverse - used only by LEX_TRY */
- GETARG(arg1); /* known to be an explicit list */
- arg2=NIL; /* to hold reversed list */
- while(arg1!=NIL)
- { if(tag[hd[arg1]]==STRCONS) /* strip off lex state if present */
- hd[arg1]=tl[hd[arg1]];
- hold=tl[arg1],tl[arg1]=arg2,arg2=arg1,arg1=hold; }
- hd[e]=I; e=tl[e]=arg2;
- goto DONE;
-
- case LEX_COUNT0: /* LEX_COUNT0 x => LEX_COUNT (state0,x) */
- upleft;
- hd[e]=LEX_COUNT; tl[e]=strcons(0,tl[e]);
- DOWNLEFT;
- /* falls thru to next case */
-
- case LEX_COUNT: /* LEX_COUNT (state,[]) => []
- LEX_COUNT (state,(a:x)) => (state,a):LEX_COUNT(state',a)
- where
- state == (line_no*256+col_no)
- */
- GETARG(arg1);
- if((tl[arg1]=reduce(tl[arg1]))==NIL) /* ### */
- { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- hold=hd[tl[arg1]]; /* the char */
- setcell(CONS,strcons(hd[arg1],hold),ap(LEX_COUNT,arg1));
- if(hold=='\n')hd[arg1]=(hd[arg1]>>8)+1<<8;
- else { word col = hd[arg1]&255;
- col = hold=='\t'?(col/8+1)*8:col+1;
- hd[arg1] = hd[arg1]&(~255)|col; }
- tl[arg1]=tl[tl[arg1]];
- goto DONE;
-
-#define lh(x) (tag[hd[x]]==STRCONS?tl[hd[x]]:hd[x])
- /* hd char of possibly lex-state-labelled string */
-
- case LEX_STRING: /* LEX_STRING [] p x => p : x
- LEX_STRING (c:s) p (c:x) => LEX_STRING s (c:p) x
- LEX_STRING (c:s) p other => []
- */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
- while(arg1!=NIL)
- { if((lastarg=reduce(lastarg))==NIL||lh(lastarg)!=hd[arg1]) /* ### */
- { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- arg1=tl[arg1]; arg2=cons(hd[lastarg],arg2); lastarg=tl[lastarg]; }
- tag[e]=CONS; hd[e]=arg2;
- goto DONE;
-
- case LEX_CLASS: /* LEX_CLASS set p (c:x) => (c:p) : x, if c in set
- LEX_CLASS set p x => [], otherwise
- */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
- if((lastarg=reduce(lastarg))==NIL|| /* ### */
- (hd[arg1]==ANTICHARCLASS?memclass(lh(lastarg),tl[arg1])
- :!memclass(lh(lastarg),arg1))
- )
- { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- setcell(CONS,cons(hd[lastarg],arg2),tl[lastarg]);
- goto DONE;
-
- case LEX_DOT: /* LEX_DOT p (c:x) => (c:p) : x
- LEX_DOT p [] => []
- */
- GETARG(arg1);
- upleft;
- if((lastarg=reduce(lastarg))==NIL) /* ### */
- { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- setcell(CONS,cons(hd[lastarg],arg1),tl[lastarg]);
- goto DONE;
-
- case LEX_CHAR: /* LEX_CHAR c p (c:x) => (c:p) : x
- LEX_CHAR c p x => []
- */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
- if((lastarg=reduce(lastarg))==NIL||lh(lastarg)!=arg1) /* ### */
- { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- setcell(CONS,cons(arg1,arg2),tl[lastarg]);
- goto DONE;
-
- case LEX_SEQ: /* LEX_SEQ f g p x => [], if f p x = []
- => g q y, otherwise
- where
- (q,y) = f p x
- */
- GETARG(arg1);
- GETARG(arg2);
- GETARG(arg3);
- upleft;
- hold=ap2(arg1,arg3,lastarg);
- lastarg=NIL; /* anti-dragging measure */
- if((hold=reduce(hold))==NIL) /* ### */
- { hd[e]=I; e=tl[e]; goto DONE; }
- hd[e]=ap(arg2,hd[hold]); tl[e]=tl[hold];
- DOWNLEFT;
- DOWNLEFT;
- goto NEXTREDEX;
-
- case LEX_OR: /* LEX_OR f g p x => g p x, if f p x = []
- => f p x, otherwise
- */
- GETARG(arg1);
- GETARG(arg2);
- GETARG(arg3);
- upleft;
- hold=ap2(arg1,arg3,lastarg);
- if((hold=reduce(hold))==NIL) /* ### */
- { hd[e]=ap(arg2,arg3); DOWNLEFT; DOWNLEFT; goto NEXTREDEX; }
- hd[e]=I; e=tl[e]=hold;
- goto DONE;
-
- case LEX_RCONTEXT: /* LEX_RC f g p x => [], if f p x = []
- => [], if g q y = []
- => f p x, otherwise <-*
- where
- (q,y) = f p x
-
- (*) special case g=0 means test for y=[]
- */
- GETARG(arg1);
- GETARG(arg2);
- GETARG(arg3);
- upleft;
- hold=ap2(arg1,arg3,lastarg);
- lastarg=NIL; /* anti-dragging measure */
- if((hold=reduce(hold))==NIL /* ### */
- || (arg2?(reduce(ap2(arg2,hd[hold],tl[hold]))==NIL) /* ### */
- :(tl[hold]=reduce(tl[hold]))!=NIL ))
- { hd[e]=I; e=tl[e]; goto DONE; }
- hd[e]=I; e=tl[e]=hold;
- goto DONE;
-
- case LEX_STAR: /* LEX_STAR f p x => p : x, if f p x = []
- => LEX_STAR f q y, otherwise
- where
- (q,y) = f p x
- */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
- hold=ap2(arg1,arg2,lastarg);
- while((hold=reduce(hold))!=NIL) /* ### */
- arg2=hd[hold],lastarg=tl[hold],hold=ap2(arg1,arg2,lastarg);
- tag[e]=CONS; hd[e]=arg2;
- goto DONE;
-
- case LEX_OPT: /* LEX_OPT f p x => p : x, if f p x = []
- => f p x, otherwise
- */
- GETARG(arg1);
- GETARG(arg2);
- upleft;
- hold=ap2(arg1,arg2,lastarg);
- if((hold=reduce(hold))==NIL) /* ### */
- { tag[e]=CONS; hd[e]=arg2; goto DONE; }
- hd[e]=I; e=tl[e]=hold;
- goto DONE;
-
-/* case NUMBER: /* constructor of arity 1
- UPLEFT; /* cannot occur free
- goto DONE; */ /* UNUSED*/
-
-/* case CONSTRUCTOR:
- for(;;){upleft; } /* reapply to args until DONE */
-
- default: /* non combinator */
- cycles--; /* oops! */
- if(abnormal(e)) /* silly recursion */
- { fprintf(stderr,"\nBLACK HOLE\n");
- outstats();
- exit(1); }
-
- switch(tag[e])
- { case STRCONS: e=pn_val(e); /* private name */
- /*if(e==UNDEF||e==FREE)
- fprintf(stderr,
- "\nimpossible event in reduce - undefined pname\n"),
- exit(1);
- /* redundant test - remove when sure */
- goto NEXTREDEX;
- case DATAPAIR: /* datapair(oldn,0)(fileinfo(filename,0))=>BOTTOM */
- /* kludge for trapping inherited undefined name without
- current alias - see code in load_defs */
- upleft;
- fprintf(stderr,
- "\nUNDEFINED NAME (specified as \"%s\" in %s)\n",
- (char *)hd[hd[e]],(char *)hd[lastarg]);
- outstats();
- exit(1);
- case ID: if(id_val(e)==UNDEF||id_val(e)==FREE)
- { fprintf(stderr,"\nUNDEFINED NAME - %s\n",get_id(e));
- outstats();
- exit(1); }
- /* setcell(AP,I,id_val(e)); /* overwrites error-info */
- e=id_val(e); /* could be eager in value */
- goto NEXTREDEX;
- default: fprintf(stderr,"\nimpossible tag (%d) in reduce\n",tag[e]);
- exit(1);
- case CONSTRUCTOR: for(;;){upleft; } /* reapply to args until DONE */
- case STARTREADVALS:
- /* readvals(0,t) file => READVALS (t:file) streamptr */
- { char *fil;
- upleft;
- lastarg=reduce(lastarg); /* ### */
- if(lastarg==OFFSIDE) /* special case, represents stdin */
- { if(stdinuse&&stdinuse!='+')
- { tag[e]=AP; hd[e]=I; e=tl[e]=NIL; goto DONE; }
- stdinuse='+';
- hold=cons(tl[hd[e]],0),lastarg=(word)stdin; }
- else
- hold=cons(tl[hd[e]],lastarg),
- lastarg=(word)fopen(fil=getstring(lastarg,"readvals"),"r");
- if((FILE *)lastarg==NULL) /* cannot open file for reading */
- /* { hd[e]=I; e=tl[e]=NIL; goto DONE; } */
- { fprintf(stderr,"\nreadvals, cannot open: \"%s\"\n",fil);
- outstats(); exit(1); }
- hd[e]=ap(READVALS,hold); }
- DOWNLEFT;
- DOWNLEFT;
- goto L_READVALS;
- case ATOM: /* for(;;){upleft; } */
- /* as above if there are constructors with tag ATOM
- and +ve arity. Since there are none we could test
- for missing combinators at this point. Thus
- /*if(!abnormal(s))
- fprintf(stderr,"\nreduce: unknown combinator "),
- out(stderr,e), putc('\n',stderr),exit(1); */
- case INT:
- case UNICODE:
- case DOUBLE:
- case CONS:; /* all fall thru to DONE */
- }
-
- } /* end of decode switch */
-
- DONE: /* sub task completed -- s is either BACKSTOP or a tailpointer */
-
- if(s==BACKSTOP)
- { /* whole expression now in hnf */
-#ifdef DEBUG
- if(debug&02)printf("result= "),out(stdout,e),putchar('\n');
- rdepth--;
-#endif
- return(e); /* end of reduction */
- /* outchar(hd[e]);
- e=tl[e];
- goto NEXTREDEX;
- /* above shows how to incorporate printing into m/c */
- }
-
- /* otherwise deal with return from subtask */
- UPRIGHT;
- if(tag[e]==AP)
- { /* we have just reduced argn of strict operator -- so now
- we must reduce arg(n-1) */
- DOWNLEFT;
- DOWNRIGHT; /* there is a faster way to do this - see TRY */
- goto NEXTREDEX;
- }
-
- /* only possible if mktlptr marks the cell rather than the field */
-/* if(e==BACKSTOP)
- fprintf(stderr,"\nprogram error: BLACK HOLE2\n"),
- outstats(),
- exit(1); */
-
- /* we are through reducing args of strict operator */
- /* we can merge the following switch with the main one, if desired,
- - in this case use the alternate definitions of READY and RESTORE
- and replace the following switch by
- /* e=READY(e); goto OPDECODE; */
-
-#ifdef DEBUG
- if(debug&02){ printf("ready("); out(stdout,e); printf(")\n"); }
-#endif
- switch(e) /* "ready" switch */
- {
-/* case READY(MONOP):/* paradigm for execution of strict monadic operator
- GETARG(arg1);
- hd[e]=I; e=tl[e]=do_monop(arg1);
- goto NEXTREDEX; */
-
- case READY(I): /* I x => x */
- UPLEFT;
- e=lastarg;
- goto NEXTREDEX;
-
- case READY(SEQ): /* SEQ a b => b, a~=BOTTOM */
- UPLEFT;
- upleft;
- hd[e]=I;e=lastarg;
- goto NEXTREDEX;
-
- case READY(FORCE): /* FORCE x => x, total x */
- UPLEFT;
- force(lastarg);
- hd[e]=I;e=lastarg;
- goto NEXTREDEX;
-
- case READY(HD):
- UPLEFT;
- if(lastarg==NIL)
- { fprintf(stderr,"\nATTEMPT TO TAKE hd OF []\n");
- outstats(); exit(1); }
- hd[e]=I; e=tl[e]=hd[lastarg];
- goto NEXTREDEX;
-
- case READY(TL):
- UPLEFT;
- if(lastarg==NIL)
- { fprintf(stderr,"\nATTEMPT TO TAKE tl OF []\n");
- outstats(); exit(1); }
- hd[e]=I; e=tl[e]=tl[lastarg];
- goto NEXTREDEX;
-
- case READY(BODY):
- /* BODY(k x1 .. xn) => k x1 ... x(n-1)
- for arbitrary constructor k */
- UPLEFT;
- hd[e]=I; e=tl[e]=hd[lastarg];
- goto NEXTREDEX;
-
- case READY(LAST): /* LAST(k x1 .. xn) => xn
- for arbitrary constructor k */
- UPLEFT;
- hd[e]=I; e=tl[e]=tl[lastarg];
- goto NEXTREDEX;
-
- case READY(TAKE):
- GETARG(arg1);
- upleft;
- if(tag[arg1]!=INT)word_error("take");
- { long long n=get_word(arg1);
- if(n<=0||(lastarg=reduce(lastarg))==NIL) /* ### */
- { simpl(NIL); goto DONE; }
- setcell(CONS,hd[lastarg],ap2(TAKE,sto_word(n-1),tl[lastarg])); }
- goto DONE;
-
- case READY(FILEMODE): /* FILEMODE string => string'
- (see filemode in manual) */
- UPLEFT;
- if(!stat(getstring(lastarg,"filemode"),&buf))
- { mode_t mode=buf.st_mode;
- word d=S_ISDIR(mode)?'d':'-';
- word perm= buf.st_uid==geteuid()?(mode&0700)>>6:
- buf.st_gid==getegid()?(mode&070)>>3:
- mode&07;
- word r=perm&04?'r':'-',w=perm&02?'w':'-',x=perm&01?'x':'-';
- setcell(CONS,d,cons(r,cons(w,cons(x,NIL))));
- }
- else hd[e]=I,e=tl[e]=NIL;
- goto DONE;
-
- case READY(FILESTAT): /* FILESTAT string => ((inode,dev),mtime) */
- UPLEFT;
- /* Notes:
- Non-existent file has conventional ((inode,dev),mtime) of ((0,-1),0)
- We assume time_t can be stored in int field, this may not port */
- if(!stat(getstring(lastarg,"filestat"),&buf))
- setcell(CONS,cons(sto_word(buf.st_ino),
- sto_word(buf.st_dev) ),
- sto_word(buf.st_mtime) );
- else setcell(CONS,cons(stosmallint(0),
- stosmallint(-1) ),
- stosmallint(0) );
- goto DONE;
-
- case READY(GETENV): /* GETENV string => string'
- (see man (2) getenv) */
- UPLEFT;
- { char *a = getstring(lastarg,"getenv");
- unsigned char *p = getenv(a);
- hold = NIL;
- if(p){ word i;
- unsigned char *q=p, *r=p;
- if(UTF8)
- { while(*r) /* compress to Latin-1 in situ */
- if(*r>127) /* start of multibyte */
- if((*r==194||*r==195)&&r[1]>=128&&r[1]<=191) /* Latin-1 */
- *q= *r==194?r[1]:r[1]+64, q++, r+=2;
- else getenv_error(a),
- /* or silently accept errors here? */
- *q++=*r++;
- else *q++=*r++;
- *q='\0';
- }
- /* convert p to list */
- i = strlen(p);
- while(i--)hold=cons(p[i],hold);
- }
- }
- hd[e]=I; e=tl[e]=hold;
- goto DONE;
-
- case READY(EXEC): /* EXEC string
- fork off a process to execute string as a
- shell command, returning (via pipes) the
- triple (stdout,stderr,exit_status)
- convention: if fork fails, exit status is -1 */
- UPLEFT;
- { word pid=(-1),fd[2],fd_a[2];
- char *cp=getstring(lastarg,"system");
- /* pipe(fd) should return 0, -1 means fail */
- /* fd_a is 2nd pipe, for error messages */
- if(pipe(fd)==(-1)||pipe(fd_a)==(-1)||(pid=fork()))
- { /* parent (reader) */
- FILE *fp,*fp_a;
- if(pid!= -1)
- close(fd[1]),
- close(fd_a[1]),
- fp=(FILE *)fdopen(fd[0],"r"),
- fp_a=(FILE *)fdopen(fd_a[0],"r");
- if(pid== -1||!fp||!fp_a)
- setcell(CONS,NIL,cons(piperrmess(pid),sto_word(-1))); else
- setcell(CONS,ap(READ,fp),cons(ap(READ,fp_a),ap(WAIT,pid)));
- }
- else { /* child (writer) */
- word in;
- static char *shell="/bin/sh";
- dup2(fd[1],1); /* so pipe replaces stdout */
- dup2(fd_a[1],2); /* 2nd pipe replaces stderr */
- close(fd[1]);
- close(fd[0]);
- close(fd_a[1]);
- close(fd_a[0]);
- fclose(stdin); /* anti side-effect measure */
- execl(shell,shell,"-c",cp,(char *)0);
- }
- }
- goto DONE;
-
- case READY(NUMVAL): /* NUMVAL numeral => number */
- UPLEFT;
- { word x=lastarg;
- word base=10;
- while(x!=NIL)
- hd[x]=reduce(hd[x]), /* ### */
- x=tl[x]=reduce(tl[x]); /* ### */
- while(lastarg!=NIL&&isspace(hd[lastarg]))lastarg=tl[lastarg];
- x=lastarg;
- if(x!=NIL&&hd[x]=='-')x=tl[x];
- if(hd[x]=='0'&&tl[x]!=NIL)
- switch(tolower(hd[tl[x]]))
- { case 'o':
- base=8;
- x=tl[tl[x]];
- while(x!=NIL&&isodigit(hd[x]))x=tl[x];
- break;
- case 'x':
- base=16;
- x=tl[tl[x]];
- while(x!=NIL&&isxdigit(hd[x]))x=tl[x];
- break;
- default: goto L;
- }
- else L: while(x!=NIL&&isdigit(hd[x]))x=tl[x];
- if(x==NIL)
- hd[e]=I,e=tl[e]=strtobig(lastarg,base);
- else { char *p=linebuf;
- double d; char junk=0;
- x=lastarg;
- while(x!=NIL&&p-linebuf<BUFSIZE-1) *p++ = hd[x], x=tl[x];
- *p++ ='\0';
- if(p-linebuf>60||sscanf(linebuf,"%lf%c",&d,&junk)!=1||junk)
- { fprintf(stderr,"\nbad arg for numval: \"%s\"\n",linebuf);
- outstats();
- exit(1); }
- else hd[e]=I,e=tl[e]=sto_dbl(d); }
- goto DONE; }
-
- case READY(STARTREAD): /* STARTREAD filename => READ streamptr */
- UPLEFT;
- { char *fil;
- lastarg = (word)fopen(fil=getstring(lastarg,"read"),"r");
- if((FILE *)lastarg==NULL) /* cannot open file for reading */
- /* { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- /* could just return empty contents */
- { fprintf(stderr,"\nread, cannot open: \"%s\"\n",fil);
- outstats(); exit(1); }
- hd[e]=READ;
- DOWNLEFT; }
- goto L_READ;
-
- case READY(STARTREADBIN): /* STARTREADBIN filename => READBIN streamptr */
- UPLEFT;
- { char *fil;
- lastarg = (word)fopen(fil=getstring(lastarg,"readb"),"r");
- if((FILE *)lastarg==NULL) /* cannot open file for reading */
- /* { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- /* could just return empty contents */
- { fprintf(stderr,"\nreadb, cannot open: \"%s\"\n",fil);
- outstats(); exit(1); }
- hd[e]=READBIN;
- DOWNLEFT; }
- goto L_READBIN;
-
- case READY(TRY): /* TRY FAIL y => y
- TRY other y => other */
- GETARG(arg1);
- UPLEFT;
- if(arg1==FAIL)
- { hd[e]=I; e=lastarg; goto NEXTREDEX; }
- if(S<=(hold=head(arg1))&&hold<=ERROR)
- /* function - other than unsaturated constructor */
- goto DONE;/* nb! else may take premature decision(interacts with MOD1)*/
- hd[e]=I;
- e=tl[e]=arg1;
- goto NEXTREDEX;
-
- case READY(COND): /* COND True => K
- COND False => KI */
- UPLEFT;
- hd[e]=I;
- if(lastarg==True)
- { e=tl[e]=K; goto L_K; }
- else { e=tl[e]=KI; goto L_KI; }
- /* goto OPDECODE; /* to speed up we have set extra labels */
-
- /* alternative rules /* COND True x => K x
- COND False x => I */
-
- case READY(APPEND): /* APPEND NIL y => y
- APPEND (a:x) y => a:APPEND x y */
- GETARG(arg1);
- upleft;
- if(arg1==NIL)
- { hd[e]=I,e=lastarg; goto NEXTREDEX; }
- setcell(CONS,hd[arg1],ap2(APPEND,tl[arg1],lastarg));
- goto DONE;
-
- case READY(AND): /* AND True => I
- AND False => K False */
- UPLEFT;
- if(lastarg==True){ e=I; goto L_I; }
- else { hd[e]=K,DOWNLEFT; goto L_K; }
-
- case READY(OR): /* OR True => K True
- OR False => I */
- UPLEFT;
- if(lastarg==True){ hd[e]=K; DOWNLEFT; goto L_K; }
- else { e=I; goto L_I; }
-
- /* alternative rules ?? /* AND True y => y
- AND False y => False
- OR True y => True
- OR False y => y */
-
- case READY(NOT): /* NOT True => False
- NOT False => True */
- UPLEFT;
- hd[e]=I; e=tl[e]=lastarg==True?False:True;
- goto DONE;
-
- case READY(NEG): /* NEG x => -x, if x is a number */
- UPLEFT;
- if(tag[lastarg]==INT)simpl(bignegate(lastarg));
- else setdbl(e,-get_dbl(lastarg));
- goto DONE;
-
- case READY(CODE): /* miranda char to int type-conversion */
- UPLEFT;
- simpl(make(INT,get_char(lastarg),0));
- goto DONE;
-
- case READY(DECODE): /* int to char type conversion */
- UPLEFT;
- if(tag[lastarg]==DOUBLE)word_error("decode");
- long long val=get_word(lastarg);
- if(val<0||val>UMAX)
- { fprintf(stderr,"\nCHARACTER OUT-OF-RANGE decode(%d)\n",val);
- outstats();
- exit(1); }
- hd[e]=I; e=tl[e]=sto_char(val);
- goto DONE;
-
- case READY(INTEGER): /* predicate on numbers */
- UPLEFT;
- hd[e]=I; e=tl[e]=tag[lastarg]==INT?True:False;
- goto NEXTREDEX;
-
- case READY(SHOWNUM): /* SHOWNUM number => numeral */
- UPLEFT;
- if(tag[lastarg]==DOUBLE)
- { double x=get_dbl(lastarg);
-#ifndef RYU
- sprintf(linebuf,"%.16g",x);
- char *p=linebuf;
- while isdigit(*p)p++; /* add .0 to false integer */
- if(!*p)*p++='.',*p++='0',*p='\0';
- hd[e]=I; e=tl[e]=str_conv(linebuf); }
-#else
- d2s_buffered(x,linebuf);
- arg1=str_conv(linebuf);
- if(*linebuf=='.')arg1=cons('0',arg1);
- if(*linebuf=='-'&&linebuf[1]=='.')arg1=cons('-',cons('0',tl[arg1]));
- hd[e]=I; e=tl[e]=arg1; }
-#endif
- else simpl(bigtostr(lastarg));
- goto DONE;
-
- case READY(SHOWHEX):
- UPLEFT;
- if(tag[lastarg]==DOUBLE)
- { sprintf(linebuf,"%a",get_dbl(lastarg));
- hd[e]=I; e=tl[e]=str_conv(linebuf); }
- else simpl(bigtostrx(lastarg));
- goto DONE;
-
- case READY(SHOWOCT):
- UPLEFT;
- if(tag[lastarg]==DOUBLE)word_error("showoct");
- else simpl(bigtostr8(lastarg));
- goto DONE;
-
- /* paradigm for strict monadic arithmetic fns */
- case READY(ARCTAN_FN): /* atan */
- UPLEFT;
- errno=0; /* to clear */
- setdbl(e,atan(force_dbl(lastarg)));
- if(errno)math_error("atan");
- goto DONE;
-
- case READY(EXP_FN): /* exp */
- UPLEFT;
- errno=0; /* to clear */
- setdbl(e,exp(force_dbl(lastarg)));
- if(errno)math_error("exp");
- goto DONE;
-
- case READY(ENTIER_FN): /* floor */
- UPLEFT;
- if(tag[lastarg]==INT)simpl(lastarg);
- else simpl(dbltobig(get_dbl(lastarg)));
- goto DONE;
-
- case READY(LOG_FN): /* log */
- UPLEFT;
- if(tag[lastarg]==INT)setdbl(e,biglog(lastarg));
- else { errno=0; /* to clear */
- fa=force_dbl(lastarg);
- setdbl(e,log(fa));
- if(errno)math_error("log"); }
- goto DONE;
-
- case READY(LOG10_FN): /* log10 */
- UPLEFT;
- if(tag[lastarg]==INT)setdbl(e,biglog10(lastarg));
- else { errno=0; /* to clear */
- fa=force_dbl(lastarg);
- setdbl(e,log10(fa));
- if(errno)math_error("log10"); }
- goto DONE;
-
- case READY(SIN_FN): /* sin */
- UPLEFT;
- errno=0; /* to clear */
- setdbl(e,sin(force_dbl(lastarg)));
- if(errno)math_error("sin");
- goto DONE;
-
- case READY(COS_FN): /* cos */
- UPLEFT;
- errno=0; /* to clear */
- setdbl(e,cos(force_dbl(lastarg)));
- if(errno)math_error("cos");
- goto DONE;
-
- case READY(SQRT_FN): /* sqrt */
- UPLEFT;
- fa=force_dbl(lastarg);
- if(fa<0.0)math_error("sqrt");
- setdbl(e,sqrt(fa));
- goto DONE;
-
-/* case READY(DIOP):/* paradigm for execution of strict diadic operator
- RESTORE(e); /* do not write modified form of operator back into graph
- GETARG(arg1);
- GETARG(arg2);
- hd[e]=I; e=tl[e]=diop(arg1,arg2);
- goto NEXTREDEX; */
-
-/* case READY(EQUAL): /* UNUSED
- RESTORE(e);
- GETARG(arg1);
- GETARG(arg2);
- if(isap(arg1)&&hd[arg1]!=NUMBER&&isap(arg2)&&hd[arg2]!=NUMBER)
- { /* recurse on components
- hd[e]=ap2(EQUAL,tl[arg1],tl[arg2]);
- hd[e]=ap3(EQUAL,hd[arg1],hd[arg2],hd[e]);
- tl[e]=False;
- }
- else { hd[e]=I; e=tl[e]= (eqatom(arg1,arg2)?True:False); }
- goto NEXTREDEX; */
-
- case READY(ZIP): /* ZIP (a:x) (b:y) => (a,b) : ZIP x y
- ZIP x y => [] */
- RESTORE(e);
- GETARG(arg1);
- GETARG(arg2);
- if(arg1==NIL||arg2==NIL)
- { hd[e]=I; e=tl[e]=NIL; goto DONE; }
- setcell(CONS,cons(hd[arg1],hd[arg2]),ap2(ZIP,tl[arg1],tl[arg2]));
- goto DONE;
-
- case READY(EQ): /* EQ x x => True
- EQ x y => False
- see definition of function "compare" above */
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- hd[e]=I; e=tl[e]=compare(arg1,lastarg)?False:True; /* ### */
- goto DONE;
-
- case READY(NEQ): /* NEQ x x => False
- NEQ x y => True
- see definition of function "compare" above */
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- hd[e]=I; e=tl[e]=compare(arg1,lastarg)?True:False; /* ### */
- goto DONE;
-
- case READY(GR):
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- hd[e]=I; e=tl[e]=compare(arg1,lastarg)>0?True:False; /* ### */
- goto DONE;
-
- case READY(GRE):
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- hd[e]=I; e=tl[e]=compare(arg1,lastarg)>=0?True:False; /* ### */
- goto DONE;
-
- case READY(PLUS):
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- if(tag[arg1]==DOUBLE)
- setdbl(e,get_dbl(arg1)+force_dbl(lastarg)); else
- if(tag[lastarg]==DOUBLE)
- setdbl(e,bigtodbl(arg1)+get_dbl(lastarg));
- else simpl(bigplus(arg1,lastarg));
- goto DONE;
-
- case READY(MINUS):
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- if(tag[arg1]==DOUBLE)
- setdbl(e,get_dbl(arg1)-force_dbl(lastarg)); else
- if(tag[lastarg]==DOUBLE)
- setdbl(e,bigtodbl(arg1)-get_dbl(lastarg));
- else simpl(bigsub(arg1,lastarg));
- goto DONE;
-
- case READY(TIMES):
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- if(tag[arg1]==DOUBLE)
- setdbl(e,get_dbl(arg1)*force_dbl(lastarg)); else
- if(tag[lastarg]==DOUBLE)
- setdbl(e,bigtodbl(arg1)*get_dbl(lastarg));
- else simpl(bigtimes(arg1,lastarg));
- goto DONE;
-
- case READY(INTDIV):
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- if(tag[arg1]==DOUBLE||tag[lastarg]==DOUBLE)word_error("div");
- if(bigzero(lastarg))div_error(); /* build into bigmod ? */
- simpl(bigdiv(arg1,lastarg));
- goto DONE;
-
- case READY(FDIV):
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- /* experiment, suppressed
- if(tag[lastarg]==INT&&tag[arg1]==INT&&!bigzero(lastarg))
- { extern int b_rem;
- int d = bigdiv(arg1,lastarg);
- if(bigzero(b_rem)){ simpl(d); goto DONE; }
- } /* makes a/b integer if a, b integers dividing exactly */
- fa=force_dbl(arg1);
- fb=force_dbl(lastarg);
- if(fb==0.0)div_error();
- setdbl(e,fa/fb);
- goto DONE;
-
- case READY(MOD):
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- if(tag[arg1]==DOUBLE||tag[lastarg]==DOUBLE)word_error("mod");
- if(bigzero(lastarg))div_error(); /* build into bigmod ? */
- simpl(bigmod(arg1,lastarg));
- goto DONE;
-
- case READY(POWER):
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- if(tag[lastarg]==DOUBLE)
- { fa=force_dbl(arg1);
- if(fa<0.0)errno=EDOM,math_error("^");
- fb=get_dbl(lastarg); }else
- if(tag[arg1]==DOUBLE)
- fa=get_dbl(arg1),fb=bigtodbl(lastarg); else
- if(neg(lastarg))
- fa=bigtodbl(arg1),fb=bigtodbl(lastarg);
- else { simpl(bigpow(arg1,lastarg));
- goto DONE; }
- errno=0; /* to clear */
- setdbl(e,pow(fa,fb));
- if(errno)math_error("power");
- goto DONE;
-
- case READY(SHOWSCALED): /* SHOWSCALED precision number => numeral */
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- if(tag[arg1]==DOUBLE)
- word_error("showscaled");
- arg1=getsmallint(arg1);
- (void)sprintf(linebuf,"%.*e",arg1,force_dbl(lastarg));
- hd[e]=I; e=tl[e]=str_conv(linebuf);
- goto DONE;
-
- case READY(SHOWFLOAT): /* SHOWFLOAT precision number => numeral */
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- if(tag[arg1]==DOUBLE)
- word_error("showfloat");
- arg1=getsmallint(arg1);
- (void)sprintf(linebuf,"%.*f",arg1,force_dbl(lastarg));
- hd[e]=I; e=tl[e]=str_conv(linebuf);
- goto DONE;
-
-#define coerce_dbl(x) tag[x]==DOUBLE?(x):sto_dbl(bigtodbl(x))
-
- case READY(STEP): /* STEP i a => GENSEQ (i,NIL) a */
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- hd[e]=ap(GENSEQ,cons(arg1,NIL));
- goto NEXTREDEX;
-
- case READY(MERGE): /* MERGE [] y => y
- MERGE (a:x) [] => a:x
- MERGE (a:x) (b:y) => a:MERGE x (b:y), if a<=b
- => b:MERGE (a:x) y, otherwise */
- RESTORE(e);
- GETARG(arg1);
- UPLEFT;
- if(arg1==NIL)simpl(lastarg); else
- if(lastarg==NIL)simpl(arg1); else
- if(compare(hd[arg1]=reduce(hd[arg1]),
- hd[lastarg]=reduce(hd[lastarg]))<=0) /* ### */
- setcell(CONS,hd[arg1],ap2(MERGE,tl[arg1],lastarg));
- else setcell(CONS,hd[lastarg],ap2(MERGE,tl[lastarg],arg1));
- goto DONE;
-
- case READY(STEPUNTIL): /* STEPUNTIL i a b => GENSEQ (i,b) a */
- RESTORE(e);
- GETARG(arg1);
- GETARG(arg2);
- UPLEFT;
- hd[e]=ap(GENSEQ,cons(arg1,arg2));
- if(tag[arg1]==INT?poz(arg1):get_dbl(arg1)>=0.0)
- tag[tl[hd[e]]]=AP; /* hack to record sign of step - see GENSEQ */
- goto NEXTREDEX;
-
- case READY(Ush):
- /* Ush (k f1...fn) p (k x1...xn)
- => "k"++' ':f1 x1 ...++' ':fn xn, p='\0'
- => "(k"++' ':f1 x1 ...++' ':fn xn++")", p='\1'
- Ush (k f1...fn) p other => FAIL */
- RESTORE(e);
- GETARG(arg1);
- GETARG(arg2);
- GETARG(arg3);
- if(constr_tag(head(arg1))!=constr_tag(head(arg3)))
- { hd[e]=I;
- e=tl[e]=FAIL;
- goto DONE; } /* result is string, so cannot be more args */
- if(tag[arg1]==CONSTRUCTOR) /* don't parenthesise atom */
- { hd[e]=I;
- if(suppressed(arg1))
- e=tl[e]=str_conv("<unprintable>");
- else e=tl[e]=str_conv(constr_name(arg1));
- goto DONE; }
- hold=arg2?cons(')',NIL):NIL;
- while(tag[arg1]!=CONSTRUCTOR)
- hold=cons(' ',ap2(APPEND,ap(tl[arg1],tl[arg3]),hold)),
- arg1=hd[arg1],arg3=hd[arg3];
- if(suppressed(arg1))
- { hd[e]=I; e=tl[e]=str_conv("<unprintable>"); goto DONE; }
- hold=ap2(APPEND,str_conv(constr_name(arg1)),hold);
- if(arg2)
- { setcell(CONS,'(',hold); goto DONE; }
- else { hd[e]=I; e=tl[e]=hold; goto NEXTREDEX; }
-
- default: fprintf(stderr,"\nimpossible event in reduce ("),
- out(stderr,e),fprintf(stderr,")\n"),
- exit(1);
- return(0); /* proforma only - unreachable */
- } /* end of "ready" switch */
-
-} /* end of reduce */
-
-memclass(c,x) /* is char c in list x (may include ranges) */
-{ while(x!=NIL)
- { if(hd[x]==DOTDOT)
- { x=tl[x];
- if(hd[x]<=c&&c<=hd[tl[x]])return(1);
- x=tl[x]; }
- else if(c==hd[x])return(1);
- x=tl[x]; }
- return(0);
-}
-
-lexfail(x) /* x is known to be a non-empty string (see LEX_RPT) */
-{ word i=24;
- fprintf(stderr,"\nLEX FAILS WITH UNRECOGNISED INPUT: \"");
- while(i--&&x!=NIL&&0<=lh(x)&&lh(x)<=255)
- fprintf(stderr,"%s",charname(lh(x))),
- x=tl[x];
- fprintf(stderr,"%s\"\n",x==NIL?"":"...");
- outstats();
- exit(1);
-}
-
-lexstate(x) /* extracts initial state info from list of chars labelled
- by LEX_COUNT - x is evaluated and known to be non-empty */
-{ x = hd[hd[x]]; /* count field of first char */
- return(cons(sto_word(x>>8),stosmallint(x&255)));
-}
-
-piperrmess(pid)
-word pid;
-{ return(str_conv(pid== -1?"cannot create process\n":"cannot open pipe\n"));
-}
-
-g_residue(toks2) /* remainder of token stream from last token examined */
-word toks2;
-{ word toks1 = NIL;
- if(tag[toks2]!=CONS)
- { if(tag[toks2]==AP&&hd[toks2]==I&&tl[toks2]==NIL)
- return(cons(NIL,NIL));
- return(cons(NIL,toks2)); /*no tokens examined, whole grammar is `error'*/
- /* fprintf(stderr,"\nimpossible event in g_residue\n"),
- exit(1); /* grammar fn must have examined >=1 tokens */ }
- while(tag[tl[toks2]]==CONS)toks1=cons(hd[toks2],toks1),toks2=tl[toks2];
- if(tl[toks2]==NIL||tag[tl[toks2]]==AP&&hd[tl[toks2]]==I&&tl[tl[toks2]]==NIL)
- { toks1=cons(hd[toks2],toks1);
- return(cons(ap(DESTREV,toks1),NIL)); }
- return(cons(ap(DESTREV,toks1),toks2));
-}
-
-numplus(x,y)
-word x,y;
-{ if(tag[x]==DOUBLE)
- return(sto_dbl(get_dbl(x)+force_dbl(y)));
- if(tag[y]==DOUBLE)
- return(sto_dbl(bigtodbl(x)+get_dbl(y)));
- return(bigplus(x,y));
-}
-
-fn_error(s)
-char *s;
-{ fprintf(stderr,"\nprogram error: %s\n",s);
- outstats();
- exit(1); }
-
-getenv_error(char *a)
-{ fprintf(stderr,
- "program error: getenv(%s): illegal characters in result string\n",a);
- outstats();
- exit(1); }
-
-subs_error()
-{ fn_error("subscript out of range");
-}
-
-div_error()
-{ fn_error("attempt to divide by zero");
-}
-/* other arithmetic exceptions signal-trapped by fpe_error - see STEER */
-
-math_error(s)
-char *s;
-{ fprintf(stderr,"\nmath function %serror (%s)\n",
- errno==EDOM?"domain ":errno==ERANGE?"range ":"",s);
- outstats();
- exit(1);
-}
-
-word_error(s)
-char *s;
-{ fprintf(stderr,
- "\nprogram error: fractional number where integer expected (%s)\n",s);
- outstats();
- exit(1);
-}
-
-char *stdname(c)
-word c;
-{ return c==':' ? "$:-" : c=='-' ? "$-" : "$+"; }
-
-stdin_error(c)
-word c;
-{ if(stdinuse==c)
- fprintf(stderr,"program error: duplicate use of %s\n",stdname(c));
- else fprintf(stderr,"program error: simultaneous use of %s and %s\n",
- stdname(c), stdname(stdinuse));
- outstats();
- exit(1);
-}
-
-#ifdef BSDCLOCK
-#include <sys/times.h>
-#include <unistd.h>
-#ifndef CLK_TCK
-#define CLK_TCK sysconf(_SC_CLK_TCK)
-#endif
-#else
-/* this is ANSII C, POSIX */
-#include <time.h>
-clock_t start, end;
-#endif
-
-initclock()
-{
-#ifndef BSDCLOCK
-start=clock();
-#endif
-}
-
-out_here(f,h,nl) /* h is fileinfo(scriptname,line_no) */
-FILE *f;
-word h,nl;
-{ extern word errs;
- if(tag[h]!=FILEINFO)
- { fprintf(stderr,"(impossible event in outhere)\n"); return; }
- fprintf(f,"(line %3d of \"%s\")",tl[h],(char *)hd[h]);
- if(nl)putc('\n',f); else putc(' ',f);
- if(compiling&&!errs)errs=h; /* relevant only when called from steer.c */
-} /* `soft' error, set errs rather than errline, so not saved in dump */
-
-outstats()
-{ extern long claims,nogcs;
- extern word atcount;
- extern long long cellcount;
-#ifdef BSDCLOCK
- struct tms buffer;
-#endif
-#ifdef HISTO
- if(sourcemc)printhisto();
-#endif
- if(!atcount)return;
-#ifdef BSDCLOCK
- times(&buffer);
-#else
- end=clock();
-#endif
- printf("||");
- printf("reductions = %lld, cells claimed = %lld, ",
- cycles,cellcount+claims);
- printf("no of gc's = %ld, cpu = %0.2f",nogcs,
-#ifdef BSDCLOCK
- buffer.tms_utime/(CLK_TCK*1.0));
-#else
- ((double) (end - start)) / CLOCKS_PER_SEC);
-#endif
- putchar('\n');
-#ifdef DEBUG
- printf("||maxr_depth=%d\n",maxrdepth);
-#endif
-}
-
-/* end of MIRANDA REDUCE */
-