ref: 5622b0bbd878dbc34045cc6fd37cffa64461eabe
dir: /sys/src/cmd/spin/pangen3.c/
/***** spin: pangen3.c *****/
/*
* This file is part of the public release of Spin. It is subject to the
* terms in the LICENSE file that is included in this source directory.
* Tool documentation is available at http://spinroot.com
*/
#include "spin.h"
#include "y.tab.h"
#include <assert.h>
extern FILE *th, *tc;
extern int eventmapnr, old_priority_rules;
typedef struct SRC {
int ln, st; /* linenr, statenr */
Symbol *fn; /* filename */
struct SRC *nxt;
} SRC;
static int col;
static Symbol *lastfnm;
static Symbol lastdef;
static int lastfrom;
static SRC *frst = (SRC *) 0;
static SRC *skip = (SRC *) 0;
extern int ltl_mode;
extern void sr_mesg(FILE *, int, int);
static void
putnr(int n)
{
if (col++ == 8)
{ fprintf(tc, "\n\t"); /* was th */
col = 1;
}
fprintf(tc, "%3d, ", n); /* was th */
}
static void
putfnm(int j, Symbol *s)
{
if (lastfnm && lastfnm == s && j != -1)
return;
if (lastfnm)
fprintf(tc, "{ \"%s\", %d, %d },\n\t", /* was th */
lastfnm->name,
lastfrom,
j-1);
lastfnm = s;
lastfrom = j;
}
static void
putfnm_flush(int j)
{
if (lastfnm)
fprintf(tc, "{ \"%s\", %d, %d }\n", /* was th */
lastfnm->name,
lastfrom, j);
}
static SRC *
newsrc(int m, SRC *n)
{ SRC *tmp;
tmp = (SRC *) emalloc(sizeof(SRC));
tmp->st = m;
tmp->nxt = n;
return tmp;
}
void
putskip(int m) /* states that need not be reached */
{ SRC *tmp, *lst = (SRC *)0;
/* 6.4.0: now an ordered list */
for (tmp = skip; tmp; lst = tmp, tmp = tmp->nxt)
{ if (tmp->st == m)
{ return;
}
if (tmp->st > m) /* insert before */
{ if (tmp == skip)
{ tmp = newsrc(m, skip);
skip = tmp;
} else
{ assert(lst);
tmp = newsrc(m, lst->nxt);
lst->nxt = tmp;
}
return;
} }
/* insert at the end */
if (lst)
{ lst->nxt = newsrc(m, 0);
} else /* empty list */
{ skip = newsrc(m, 0);
}
}
void
unskip(int m) /* a state that needs to be reached after all */
{ SRC *tmp, *lst = (SRC *)0;
for (tmp = skip; tmp; lst = tmp, tmp = tmp->nxt)
{ if (tmp->st == m)
{ if (tmp == skip)
skip = skip->nxt;
else if (lst) /* always true, but helps coverity */
lst->nxt = tmp->nxt;
break;
}
if (tmp->st > m)
{ break; /* m is not in list */
} }
}
void
putsrc(Element *e) /* match states to source lines */
{ SRC *tmp, *lst = (SRC *)0;
int n, m;
if (!e || !e->n) return;
n = e->n->ln;
m = e->seqno;
/* 6.4.0: now an ordered list */
for (tmp = frst; tmp; lst = tmp, tmp = tmp->nxt)
{ if (tmp->st == m)
{ if (tmp->ln != n || tmp->fn != e->n->fn)
printf("putsrc mismatch seqno %d, line %d - %d, file %s\n", m, n,
tmp->ln, tmp->fn->name);
return;
}
if (tmp->st > m) /* insert before */
{ if (tmp == frst)
{ tmp = newsrc(m, frst);
frst = tmp;
} else
{ assert(lst);
tmp = newsrc(m, lst->nxt);
lst->nxt = tmp;
}
tmp->ln = n;
tmp->fn = e->n->fn;
return;
} }
/* insert at the end */
tmp = newsrc(m, lst?lst->nxt:0);
tmp->ln = n;
tmp->fn = e->n->fn;
if (lst)
{ lst->nxt = tmp;
} else
{ frst = tmp;
}
}
static void
dumpskip(int n, int m)
{ SRC *tmp, *lst;
FILE *tz = tc; /* was th */
int j;
fprintf(tz, "uchar reached%d [] = {\n\t", m);
tmp = skip;
lst = (SRC *) 0;
for (j = 0, col = 0; j <= n; j++)
{ /* find j in the sorted list */
for ( ; tmp; lst = tmp, tmp = tmp->nxt)
{ if (tmp->st == j)
{ putnr(1);
if (lst)
lst->nxt = tmp->nxt;
else
skip = tmp->nxt;
break;
}
if (tmp->st > j)
{ putnr(0);
break; /* j is not in the list */
} }
if (!tmp)
{ putnr(0);
} }
fprintf(tz, "};\n");
fprintf(tz, "uchar *loopstate%d;\n", m);
if (m == eventmapnr)
fprintf(th, "#define reached_event reached%d\n", m);
skip = (SRC *) 0;
}
void
dumpsrc(int n, int m)
{ SRC *tmp, *lst;
int j;
static int did_claim = 0;
FILE *tz = tc; /* was th */
fprintf(tz, "\nshort src_ln%d [] = {\n\t", m);
tmp = frst;
for (j = 0, col = 0; j <= n; j++)
{ for ( ; tmp; tmp = tmp->nxt)
{ if (tmp->st == j)
{ putnr(tmp->ln);
break;
}
if (tmp->st > j)
{ putnr(0);
break;
} }
if (!tmp)
{ putnr(0);
} }
fprintf(tz, "};\n");
lastfnm = (Symbol *) 0;
lastdef.name = "-";
fprintf(tz, "S_F_MAP src_file%d [] = {\n\t", m);
tmp = frst;
lst = (SRC *) 0;
for (j = 0, col = 0; j <= n; j++)
{ for ( ; tmp; lst = tmp, tmp = tmp->nxt)
{ if (tmp->st == j)
{ putfnm(j, tmp->fn);
if (lst)
lst->nxt = tmp->nxt;
else
frst = tmp->nxt;
break;
}
if (tmp->st > j)
{ putfnm(j, &lastdef);
break;
} }
if (!tmp)
{ putfnm(j, &lastdef);
} }
putfnm_flush(j);
fprintf(tz, "};\n");
if (pid_is_claim(m) && !did_claim)
{ fprintf(tz, "short *src_claim;\n");
did_claim++;
}
if (m == eventmapnr)
fprintf(th, "#define src_event src_ln%d\n", m);
frst = (SRC *) 0;
dumpskip(n, m);
}
#define Cat0(x) comwork(fd,now->lft,m); fprintf(fd, x); \
comwork(fd,now->rgt,m)
#define Cat1(x) fprintf(fd,"("); Cat0(x); fprintf(fd,")")
#define Cat2(x,y) fprintf(fd,x); comwork(fd,y,m)
#define Cat3(x,y,z) fprintf(fd,x); comwork(fd,y,m); fprintf(fd,z)
static int
symbolic(FILE *fd, Lextok *tv)
{ Lextok *n; extern Lextok *Mtype;
int cnt = 1;
if (tv->ismtyp)
for (n = Mtype; n; n = n->rgt, cnt++)
if (cnt == tv->val)
{ fprintf(fd, "%s", n->lft->sym->name);
return 1;
}
return 0;
}
static void
comwork(FILE *fd, Lextok *now, int m)
{ Lextok *v;
int i, j;
if (!now) { fprintf(fd, "0"); return; }
switch (now->ntyp) {
case CONST: sr_mesg(fd, now->val, now->ismtyp); break;
case '!': Cat3("!(", now->lft, ")"); break;
case UMIN: Cat3("-(", now->lft, ")"); break;
case '~': Cat3("~(", now->lft, ")"); break;
case '/': Cat1("/"); break;
case '*': Cat1("*"); break;
case '-': Cat1("-"); break;
case '+': Cat1("+"); break;
case '%': Cat1("%%"); break;
case '&': Cat1("&"); break;
case '^': Cat1("^"); break;
case '|': Cat1("|"); break;
case LE: Cat1("<="); break;
case GE: Cat1(">="); break;
case GT: Cat1(">"); break;
case LT: Cat1("<"); break;
case NE: Cat1("!="); break;
case EQ:
if (ltl_mode
&& now->lft->ntyp == 'p'
&& now->rgt->ntyp == 'q') /* remote ref */
{ Lextok *p = now->lft->lft;
fprintf(fd, "(");
fprintf(fd, "%s", p->sym->name);
if (p->lft)
{ fprintf(fd, "[");
putstmnt(fd, p->lft, 0); /* pid */
fprintf(fd, "]");
}
fprintf(fd, "@");
fprintf(fd, "%s", now->rgt->sym->name);
fprintf(fd, ")");
break;
}
Cat1("==");
break;
case OR: Cat1("||"); break;
case AND: Cat1("&&"); break;
case LSHIFT: Cat1("<<"); break;
case RSHIFT: Cat1(">>"); break;
case RUN: fprintf(fd, "run %s(", now->sym->name);
for (v = now->lft; v; v = v->rgt)
if (v == now->lft)
{ comwork(fd, v->lft, m);
} else
{ Cat2(",", v->lft);
}
fprintf(fd, ")");
break;
case LEN: putname(fd, "len(", now->lft, m, ")");
break;
case FULL: putname(fd, "full(", now->lft, m, ")");
break;
case EMPTY: putname(fd, "empty(", now->lft, m, ")");
break;
case NFULL: putname(fd, "nfull(", now->lft, m, ")");
break;
case NEMPTY: putname(fd, "nempty(", now->lft, m, ")");
break;
case 's': putname(fd, "", now->lft, m, now->val?"!!":"!");
for (v = now->rgt, i=0; v; v = v->rgt, i++)
{ if (v != now->rgt) fprintf(fd,",");
if (!symbolic(fd, v->lft))
comwork(fd,v->lft,m);
}
break;
case 'r': putname(fd, "", now->lft, m, "?");
switch (now->val) {
case 0: break;
case 1: fprintf(fd, "?"); break;
case 2: fprintf(fd, "<"); break;
case 3: fprintf(fd, "?<"); break;
}
for (v = now->rgt, i=0; v; v = v->rgt, i++)
{ if (v != now->rgt) fprintf(fd,",");
if (!symbolic(fd, v->lft))
comwork(fd,v->lft,m);
}
if (now->val >= 2)
fprintf(fd, ">");
break;
case 'R': putname(fd, "", now->lft, m, now->val?"??[":"?[");
for (v = now->rgt, i=0; v; v = v->rgt, i++)
{ if (v != now->rgt) fprintf(fd,",");
if (!symbolic(fd, v->lft))
comwork(fd,v->lft,m);
}
fprintf(fd, "]");
break;
case ENABLED: Cat3("enabled(", now->lft, ")");
break;
case GET_P: if (old_priority_rules)
{ fprintf(fd, "1");
} else
{ Cat3("get_priority(", now->lft, ")");
}
break;
case SET_P: if (!old_priority_rules)
{ fprintf(fd, "set_priority(");
comwork(fd, now->lft->lft, m);
fprintf(fd, ", ");
comwork(fd, now->lft->rgt, m);
fprintf(fd, ")");
}
break;
case EVAL: Cat3("eval(", now->lft, ")");
break;
case NONPROGRESS:
fprintf(fd, "np_");
break;
case PC_VAL: Cat3("pc_value(", now->lft, ")");
break;
case 'c': Cat3("(", now->lft, ")");
break;
case '?': if (now->lft)
{ Cat3("( (", now->lft, ") -> ");
}
if (now->rgt)
{ Cat3("(", now->rgt->lft, ") : ");
Cat3("(", now->rgt->rgt, ") )");
}
break;
case ASGN:
if (check_track(now) == STRUCT) { break; }
comwork(fd,now->lft,m);
fprintf(fd," = ");
comwork(fd,now->rgt,m);
break;
case PRINT: { char c, buf[1024];
strncpy(buf, now->sym->name, 510);
for (i = j = 0; i < 510; i++, j++)
{ c = now->sym->name[i];
buf[j] = c;
if (c == '\\') buf[++j] = c;
if (c == '\"') buf[j] = '\'';
if (c == '\0') break;
}
if (now->ntyp == PRINT)
fprintf(fd, "printf");
else
fprintf(fd, "annotate");
fprintf(fd, "(%s", buf);
}
for (v = now->lft; v; v = v->rgt)
{ Cat2(",", v->lft);
}
fprintf(fd, ")");
break;
case PRINTM: fprintf(fd, "printm(");
comwork(fd, now->lft, m);
fprintf(fd, ")");
break;
case NAME:
putname(fd, "", now, m, "");
break;
case 'p':
if (ltl_mode)
{ fprintf(fd, "%s", now->lft->sym->name); /* proctype */
if (now->lft->lft)
{ fprintf(fd, "[");
putstmnt(fd, now->lft->lft, 0); /* pid */
fprintf(fd, "]");
}
fprintf(fd, ":"); /* remote varref */
fprintf(fd, "%s", now->sym->name); /* varname */
break;
}
putremote(fd, now, m);
break;
case 'q': fprintf(fd, "%s", now->sym->name);
break;
case C_EXPR:
case C_CODE: fprintf(fd, "{%s}", now->sym->name);
break;
case ASSERT: Cat3("assert(", now->lft, ")");
break;
case '.': fprintf(fd, ".(goto)"); break;
case GOTO: fprintf(fd, "goto %s", now->sym->name); break;
case BREAK: fprintf(fd, "break"); break;
case ELSE: fprintf(fd, "else"); break;
case '@': fprintf(fd, "-end-"); break;
case D_STEP: fprintf(fd, "D_STEP%d", now->ln); break;
case ATOMIC: fprintf(fd, "ATOMIC"); break;
case NON_ATOMIC: fprintf(fd, "sub-sequence"); break;
case IF: fprintf(fd, "IF"); break;
case DO: fprintf(fd, "DO"); break;
case UNLESS: fprintf(fd, "unless"); break;
case TIMEOUT: fprintf(fd, "timeout"); break;
default: if (isprint(now->ntyp))
fprintf(fd, "'%c'", now->ntyp);
else
fprintf(fd, "%d", now->ntyp);
break;
}
}
void
comment(FILE *fd, Lextok *now, int m)
{ extern short terse, nocast;
terse=nocast=1;
comwork(fd, now, m);
terse=nocast=0;
}