ref: 39bf5b987e8ab53a74adec5a15b30f4eda85b357
dir: /sys/src/cmd/spin/spinlex.c/
/***** spin: spinlex.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 <stdlib.h> #include <assert.h> #include <errno.h> #include <ctype.h> #include "spin.h" #include "y.tab.h" #define MAXINL 16 /* max recursion depth inline fcts */ #define MAXPAR 32 /* max params to an inline call */ #define MAXLEN 512 /* max len of an actual parameter text */ typedef struct IType { Symbol *nm; /* name of the type */ Lextok *cn; /* contents */ Lextok *params; /* formal pars if any */ Lextok *rval; /* variable to assign return value, if any */ char **anms; /* literal text for actual pars */ char *prec; /* precondition for c_code or c_expr */ int uiid; /* unique inline id */ int is_expr; /* c_expr in an ltl formula */ int dln, cln; /* def and call linenr */ Symbol *dfn, *cfn; /* def and call filename */ struct IType *nxt; /* linked list */ } IType; typedef struct C_Added { Symbol *s; Symbol *t; Symbol *ival; Symbol *fnm; int lno; struct C_Added *nxt; } C_Added; extern RunList *X; extern ProcList *rdy; extern Symbol *Fname, *oFname; extern Symbol *context, *owner; extern YYSTYPE yylval; extern short has_last, has_code, has_priority; extern int verbose, IArgs, hastrack, separate, in_for; extern int implied_semis, ltl_mode, in_seq, par_cnt; short has_stack = 0; int lineno = 1; int scope_seq[128], scope_level = 0; char CurScope[MAXSCOPESZ]; char yytext[2048]; FILE *yyin, *yyout; static C_Added *c_added, *c_tracked; static IType *Inline_stub[MAXINL]; static char *ReDiRect; static char *Inliner[MAXINL], IArg_cont[MAXPAR][MAXLEN]; static unsigned char in_comment=0; static int IArgno = 0, Inlining = -1; static int check_name(char *); static int last_token = 0; #define ValToken(x, y) { if (in_comment) goto again; \ yylval = nn(ZN,0,ZN,ZN); \ yylval->val = x; \ last_token = y; \ return y; \ } #define SymToken(x, y) { if (in_comment) goto again; \ yylval = nn(ZN,0,ZN,ZN); \ yylval->sym = x; \ last_token = y; \ return y; \ } static int getinline(void); static void uninline(void); static int PushBack; static int PushedBack; static char pushedback[4096]; static void push_back(char *s) { if (PushedBack + strlen(s) > 4094) { fatal("select statement too large", 0); } strcat(pushedback, s); PushedBack += strlen(s); } static int Getchar(void) { int c; if (PushedBack > 0 && PushBack < PushedBack) { c = pushedback[PushBack++]; if (PushBack == PushedBack) { pushedback[0] = '\0'; PushBack = PushedBack = 0; } return c; /* expanded select statement */ } if (Inlining<0) { c = getc(yyin); } else { c = getinline(); } #if 0 if (0) { printf("<%c:%d>[%d] ", c, c, Inlining); } else { printf("%c", c); } #endif return c; } static void Ungetch(int c) { if (PushedBack > 0 && PushBack > 0) { PushBack--; return; } if (Inlining<0) { ungetc(c,yyin); } else { uninline(); } if (0) { printf("\n<bs{%d}bs>\n", c); } } static int notdollar(int c) { return (c != '$' && c != '\n'); } static int notquote(int c) { return (c != '\"' && c != '\n'); } int isalnum_(int c) { return (isalnum(c) || c == '_'); } static int isalpha_(int c) { return isalpha(c); /* could be macro */ } static int isdigit_(int c) { return isdigit(c); /* could be macro */ } static void getword(int first, int (*tst)(int)) { int i=0, c; yytext[i++]= (char) first; while (tst(c = Getchar())) { yytext[i++] = (char) c; if (c == '\\') { c = Getchar(); yytext[i++] = (char) c; /* no tst */ } } yytext[i] = '\0'; Ungetch(c); } static int follow(int tok, int ifyes, int ifno) { int c; if ((c = Getchar()) == tok) { return ifyes; } Ungetch(c); return ifno; } static IType *seqnames; static void def_inline(Symbol *s, int ln, char *ptr, char *prc, Lextok *nms) { IType *tmp; int cnt = 0; char *nw = (char *) emalloc(strlen(ptr)+1); strcpy(nw, ptr); for (tmp = seqnames; tmp; cnt++, tmp = tmp->nxt) if (!strcmp(s->name, tmp->nm->name)) { non_fatal("procedure name %s redefined", tmp->nm->name); tmp->cn = (Lextok *) nw; tmp->params = nms; tmp->dln = ln; tmp->dfn = Fname; return; } tmp = (IType *) emalloc(sizeof(IType)); tmp->nm = s; tmp->cn = (Lextok *) nw; tmp->params = nms; if (strlen(prc) > 0) { tmp->prec = (char *) emalloc(strlen(prc)+1); strcpy(tmp->prec, prc); } tmp->dln = ln; tmp->dfn = Fname; tmp->uiid = cnt+1; /* so that 0 means: not an inline */ tmp->nxt = seqnames; seqnames = tmp; } void gencodetable(FILE *fd) { IType *tmp; char *q; int cnt; if (separate == 2) return; fprintf(fd, "struct {\n"); fprintf(fd, " char *c; char *t;\n"); fprintf(fd, "} code_lookup[] = {\n"); if (has_code) for (tmp = seqnames; tmp; tmp = tmp->nxt) if (tmp->nm->type == CODE_FRAG || tmp->nm->type == CODE_DECL) { fprintf(fd, "\t{ \"%s\", ", tmp->nm->name); q = (char *) tmp->cn; while (*q == '\n' || *q == '\r' || *q == '\\') q++; fprintf(fd, "\""); cnt = 0; while (*q && cnt < 1024) /* pangen1.h allows 2048 */ { switch (*q) { case '"': fprintf(fd, "\\\""); break; case '%': fprintf(fd, "%%"); break; case '\n': fprintf(fd, "\\n"); break; default: putc(*q, fd); break; } q++; cnt++; } if (*q) fprintf(fd, "..."); fprintf(fd, "\""); fprintf(fd, " },\n"); } fprintf(fd, " { (char *) 0, \"\" }\n"); fprintf(fd, "};\n"); } static int iseqname(char *t) { IType *tmp; for (tmp = seqnames; tmp; tmp = tmp->nxt) { if (!strcmp(t, tmp->nm->name)) return 1; } return 0; } Lextok * return_statement(Lextok *n) { if (Inline_stub[Inlining]->rval) { Lextok *g = nn(ZN, NAME, ZN, ZN); Lextok *h = Inline_stub[Inlining]->rval; g->sym = lookup("rv_"); return nn(h, ASGN, h, n); } else { fatal("return statement outside inline", (char *) 0); } return ZN; } static int getinline(void) { int c; if (ReDiRect) { c = *ReDiRect++; if (c == '\0') { ReDiRect = (char *) 0; c = *Inliner[Inlining]++; } } else { c = *Inliner[Inlining]++; } if (c == '\0') { lineno = Inline_stub[Inlining]->cln; Fname = Inline_stub[Inlining]->cfn; Inlining--; #if 0 if (verbose&32) printf("spin: %s:%d, done inlining %s\n", Fname, lineno, Inline_stub[Inlining+1]->nm->name); #endif return Getchar(); } return c; } static void uninline(void) { if (ReDiRect) ReDiRect--; else Inliner[Inlining]--; } int is_inline(void) { if (Inlining < 0) return 0; /* i.e., not an inline */ if (Inline_stub[Inlining] == NULL) fatal("unexpected, inline_stub not set", 0); return Inline_stub[Inlining]->uiid; } IType * find_inline(char *s) { IType *tmp; for (tmp = seqnames; tmp; tmp = tmp->nxt) if (!strcmp(s, tmp->nm->name)) break; if (!tmp) fatal("cannot happen, missing inline def %s", s); return tmp; } void c_state(Symbol *s, Symbol *t, Symbol *ival) /* name, scope, ival */ { C_Added *r; r = (C_Added *) emalloc(sizeof(C_Added)); r->s = s; /* pointer to a data object */ r->t = t; /* size of object, or "global", or "local proctype_name" */ r->ival = ival; r->lno = lineno; r->fnm = Fname; r->nxt = c_added; if(strncmp(r->s->name, "\"unsigned unsigned", 18) == 0) { int i; for (i = 10; i < 18; i++) { r->s->name[i] = ' '; } /* printf("corrected <%s>\n", r->s->name); */ } c_added = r; } void c_track(Symbol *s, Symbol *t, Symbol *stackonly) /* name, size */ { C_Added *r; r = (C_Added *) emalloc(sizeof(C_Added)); r->s = s; r->t = t; r->ival = stackonly; /* abuse of name */ r->nxt = c_tracked; r->fnm = Fname; r->lno = lineno; c_tracked = r; if (stackonly != ZS) { if (strcmp(stackonly->name, "\"Matched\"") == 0) r->ival = ZS; /* the default */ else if (strcmp(stackonly->name, "\"UnMatched\"") != 0 && strcmp(stackonly->name, "\"unMatched\"") != 0 && strcmp(stackonly->name, "\"StackOnly\"") != 0) non_fatal("expecting '[Un]Matched', saw %s", stackonly->name); else has_stack = 1; /* unmatched stack */ } } char * skip_white(char *p) { if (p != NULL) { while (*p == ' ' || *p == '\t') p++; } else { fatal("bad format - 1", (char *) 0); } return p; } char * skip_nonwhite(char *p) { if (p != NULL) { while (*p != ' ' && *p != '\t') p++; } else { fatal("bad format - 2", (char *) 0); } return p; } static char * jump_etc(C_Added *r) { char *op = r->s->name; char *p = op; char *q = (char *) 0; int oln = lineno; Symbol *ofnm = Fname; /* try to get the type separated from the name */ lineno = r->lno; Fname = r->fnm; p = skip_white(p); /* initial white space */ if (strncmp(p, "enum", strlen("enum")) == 0) /* special case: a two-part typename */ { p += strlen("enum")+1; p = skip_white(p); } if (strncmp(p, "unsigned", strlen("unsigned")) == 0) /* possibly a two-part typename */ { p += strlen("unsigned")+1; q = p = skip_white(p); } p = skip_nonwhite(p); /* type name */ p = skip_white(p); /* white space */ while (*p == '*') p++; /* decorations */ p = skip_white(p); /* white space */ if (*p == '\0') { if (q) { p = q; /* unsigned with implied 'int' */ } else { fatal("c_state format (%s)", op); } } if (strchr(p, '[') && !strchr(p, '{')) { non_fatal("array initialization error, c_state (%s)", p); p = (char *) 0; } lineno = oln; Fname = ofnm; return p; } void c_add_globinit(FILE *fd) { C_Added *r; char *p, *q; fprintf(fd, "void\nglobinit(void)\n{\n"); for (r = c_added; r; r = r->nxt) { if (r->ival == ZS) continue; if (strncmp(r->t->name, " Global ", strlen(" Global ")) == 0) { for (q = r->ival->name; *q; q++) { if (*q == '\"') *q = ' '; if (*q == '\\') *q++ = ' '; /* skip over the next */ } p = jump_etc(r); /* e.g., "int **q" */ if (p) fprintf(fd, " now.%s = %s;\n", p, r->ival->name); } else if (strncmp(r->t->name, " Hidden ", strlen(" Hidden ")) == 0) { for (q = r->ival->name; *q; q++) { if (*q == '\"') *q = ' '; if (*q == '\\') *q++ = ' '; /* skip over the next */ } p = jump_etc(r); /* e.g., "int **q" */ if (p) fprintf(fd, " %s = %s;\n", p, r->ival->name); /* no now. prefix */ } } fprintf(fd, "}\n"); } void c_add_locinit(FILE *fd, int tpnr, char *pnm) { C_Added *r; char *p, *q, *s; int frst = 1; fprintf(fd, "void\nlocinit%d(int h)\n{\n", tpnr); for (r = c_added; r; r = r->nxt) if (r->ival != ZS && strncmp(r->t->name, " Local", strlen(" Local")) == 0) { for (q = r->ival->name; *q; q++) if (*q == '\"') *q = ' '; p = jump_etc(r); /* e.g., "int **q" */ q = r->t->name + strlen(" Local"); while (*q == ' ' || *q == '\t') q++; /* process name */ s = (char *) emalloc(strlen(q)+1); strcpy(s, q); q = &s[strlen(s)-1]; while (*q == ' ' || *q == '\t') *q-- = '\0'; if (strcmp(pnm, s) != 0) continue; if (frst) { fprintf(fd, "\tuchar *this = pptr(h);\n"); frst = 0; } if (p) { fprintf(fd, "\t\t((P%d *)this)->%s = %s;\n", tpnr, p, r->ival->name); } } fprintf(fd, "}\n"); } /* tracking: 1. for non-global and non-local c_state decls: add up all the sizes in c_added 2. add a global char array of that size into now 3. generate a routine that memcpy's the required values into that array 4. generate a call to that routine */ void c_preview(void) { C_Added *r; hastrack = 0; if (c_tracked) hastrack = 1; else for (r = c_added; r; r = r->nxt) if (strncmp(r->t->name, " Global ", strlen(" Global ")) != 0 && strncmp(r->t->name, " Hidden ", strlen(" Hidden ")) != 0 && strncmp(r->t->name, " Local", strlen(" Local")) != 0) { hastrack = 1; /* c_state variant now obsolete */ break; } } int c_add_sv(FILE *fd) /* 1+2 -- called in pangen1.c */ { C_Added *r; int cnt = 0; if (!c_added && !c_tracked) return 0; for (r = c_added; r; r = r->nxt) /* pickup global decls */ if (strncmp(r->t->name, " Global ", strlen(" Global ")) == 0) fprintf(fd, " %s;\n", r->s->name); for (r = c_added; r; r = r->nxt) if (strncmp(r->t->name, " Global ", strlen(" Global ")) != 0 && strncmp(r->t->name, " Hidden ", strlen(" Hidden ")) != 0 && strncmp(r->t->name, " Local", strlen(" Local")) != 0) { cnt++; /* obsolete use */ } for (r = c_tracked; r; r = r->nxt) cnt++; /* preferred use */ if (cnt == 0) return 0; cnt = 0; fprintf(fd, " uchar c_state["); for (r = c_added; r; r = r->nxt) if (strncmp(r->t->name, " Global ", strlen(" Global ")) != 0 && strncmp(r->t->name, " Hidden ", strlen(" Hidden ")) != 0 && strncmp(r->t->name, " Local", strlen(" Local")) != 0) { fprintf(fd, "%ssizeof(%s)", (cnt==0)?"":"+", r->t->name); cnt++; } for (r = c_tracked; r; r = r->nxt) { if (r->ival != ZS) continue; fprintf(fd, "%s%s", (cnt==0)?"":"+", r->t->name); cnt++; } if (cnt == 0) fprintf(fd, "4"); /* now redundant */ fprintf(fd, "];\n"); return 1; } void c_stack_size(FILE *fd) { C_Added *r; int cnt = 0; for (r = c_tracked; r; r = r->nxt) if (r->ival != ZS) { fprintf(fd, "%s%s", (cnt==0)?"":"+", r->t->name); cnt++; } if (cnt == 0) { fprintf(fd, "WS"); } } void c_add_stack(FILE *fd) { C_Added *r; int cnt = 0; if ((!c_added && !c_tracked) || !has_stack) { return; } for (r = c_tracked; r; r = r->nxt) if (r->ival != ZS) { cnt++; } if (cnt > 0) { fprintf(fd, " uchar c_stack[StackSize];\n"); } } void c_add_hidden(FILE *fd) { C_Added *r; for (r = c_added; r; r = r->nxt) /* pickup hidden decls */ if (strncmp(r->t->name, "\"Hidden\"", strlen("\"Hidden\"")) == 0) { r->s->name[strlen(r->s->name)-1] = ' '; fprintf(fd, "%s; /* Hidden */\n", &r->s->name[1]); r->s->name[strlen(r->s->name)-1] = '"'; } /* called before c_add_def - quotes are still there */ } void c_add_loc(FILE *fd, char *s) /* state vector entries for proctype s */ { C_Added *r; static char buf[1024]; char *p; if (!c_added) return; strcpy(buf, s); strcat(buf, " "); for (r = c_added; r; r = r->nxt) /* pickup local decls */ if (strncmp(r->t->name, " Local", strlen(" Local")) == 0) { p = r->t->name + strlen(" Local"); fprintf(fd, "/* XXX p=<%s>, s=<%s>, buf=<%s> r->s->name=<%s>XXX */\n", p, s, buf, r->s->name); while (*p == ' ' || *p == '\t') p++; if (strcmp(p, buf) == 0) fprintf(fd, " %s;\n", r->s->name); } } void c_add_def(FILE *fd) /* 3 - called in plunk_c_fcts() */ { C_Added *r; fprintf(fd, "#if defined(C_States) && (HAS_TRACK==1)\n"); for (r = c_added; r; r = r->nxt) { r->s->name[strlen(r->s->name)-1] = ' '; r->s->name[0] = ' '; /* remove the "s */ r->t->name[strlen(r->t->name)-1] = ' '; r->t->name[0] = ' '; if (strncmp(r->t->name, " Global ", strlen(" Global ")) == 0 || strncmp(r->t->name, " Hidden ", strlen(" Hidden ")) == 0 || strncmp(r->t->name, " Local", strlen(" Local")) == 0) continue; if (strchr(r->s->name, '&')) fatal("dereferencing state object: %s", r->s->name); fprintf(fd, "extern %s %s;\n", r->t->name, r->s->name); } for (r = c_tracked; r; r = r->nxt) { r->s->name[strlen(r->s->name)-1] = ' '; r->s->name[0] = ' '; /* remove " */ r->t->name[strlen(r->t->name)-1] = ' '; r->t->name[0] = ' '; } if (separate == 2) { fprintf(fd, "#endif\n"); return; } if (has_stack) { fprintf(fd, "int cpu_printf(const char *, ...);\n"); fprintf(fd, "void\nc_stack(uchar *p_t_r)\n{\n"); fprintf(fd, "#ifdef VERBOSE\n"); fprintf(fd, " cpu_printf(\"c_stack %%u\\n\", p_t_r);\n"); fprintf(fd, "#endif\n"); for (r = c_tracked; r; r = r->nxt) { if (r->ival == ZS) continue; fprintf(fd, "\tif(%s)\n", r->s->name); fprintf(fd, "\t\tmemcpy(p_t_r, %s, %s);\n", r->s->name, r->t->name); fprintf(fd, "\telse\n"); fprintf(fd, "\t\tmemset(p_t_r, 0, %s);\n", r->t->name); fprintf(fd, "\tp_t_r += %s;\n", r->t->name); } fprintf(fd, "}\n\n"); } fprintf(fd, "void\nc_update(uchar *p_t_r)\n{\n"); fprintf(fd, "#ifdef VERBOSE\n"); fprintf(fd, " printf(\"c_update %%p\\n\", p_t_r);\n"); fprintf(fd, "#endif\n"); for (r = c_added; r; r = r->nxt) { if (strncmp(r->t->name, " Global ", strlen(" Global ")) == 0 || strncmp(r->t->name, " Hidden ", strlen(" Hidden ")) == 0 || strncmp(r->t->name, " Local", strlen(" Local")) == 0) continue; fprintf(fd, "\tmemcpy(p_t_r, &%s, sizeof(%s));\n", r->s->name, r->t->name); fprintf(fd, "\tp_t_r += sizeof(%s);\n", r->t->name); } for (r = c_tracked; r; r = r->nxt) { if (r->ival) continue; fprintf(fd, "\tif(%s)\n", r->s->name); fprintf(fd, "\t\tmemcpy(p_t_r, %s, %s);\n", r->s->name, r->t->name); fprintf(fd, "\telse\n"); fprintf(fd, "\t\tmemset(p_t_r, 0, %s);\n", r->t->name); fprintf(fd, "\tp_t_r += %s;\n", r->t->name); } fprintf(fd, "}\n"); if (has_stack) { fprintf(fd, "void\nc_unstack(uchar *p_t_r)\n{\n"); fprintf(fd, "#ifdef VERBOSE\n"); fprintf(fd, " cpu_printf(\"c_unstack %%u\\n\", p_t_r);\n"); fprintf(fd, "#endif\n"); for (r = c_tracked; r; r = r->nxt) { if (r->ival == ZS) continue; fprintf(fd, "\tif(%s)\n", r->s->name); fprintf(fd, "\t\tmemcpy(%s, p_t_r, %s);\n", r->s->name, r->t->name); fprintf(fd, "\tp_t_r += %s;\n", r->t->name); } fprintf(fd, "}\n"); } fprintf(fd, "void\nc_revert(uchar *p_t_r)\n{\n"); fprintf(fd, "#ifdef VERBOSE\n"); fprintf(fd, " printf(\"c_revert %%p\\n\", p_t_r);\n"); fprintf(fd, "#endif\n"); for (r = c_added; r; r = r->nxt) { if (strncmp(r->t->name, " Global ", strlen(" Global ")) == 0 || strncmp(r->t->name, " Hidden ", strlen(" Hidden ")) == 0 || strncmp(r->t->name, " Local", strlen(" Local")) == 0) continue; fprintf(fd, "\tmemcpy(&%s, p_t_r, sizeof(%s));\n", r->s->name, r->t->name); fprintf(fd, "\tp_t_r += sizeof(%s);\n", r->t->name); } for (r = c_tracked; r; r = r->nxt) { if (r->ival != ZS) continue; fprintf(fd, "\tif(%s)\n", r->s->name); fprintf(fd, "\t\tmemcpy(%s, p_t_r, %s);\n", r->s->name, r->t->name); fprintf(fd, "\tp_t_r += %s;\n", r->t->name); } fprintf(fd, "}\n"); fprintf(fd, "#endif\n"); } void plunk_reverse(FILE *fd, IType *p, int matchthis) { char *y, *z; if (!p) return; plunk_reverse(fd, p->nxt, matchthis); if (!p->nm->context && p->nm->type == matchthis && p->is_expr == 0) { fprintf(fd, "\n/* start of %s */\n", p->nm->name); z = (char *) p->cn; while (*z == '\n' || *z == '\r' || *z == '\\') { z++; } /* e.g.: \#include "..." */ y = z; while ((y = strstr(y, "\\#")) != NULL) { *y = '\n'; y++; } fprintf(fd, "%s\n", z); fprintf(fd, "\n/* end of %s */\n", p->nm->name); } } void plunk_c_decls(FILE *fd) { plunk_reverse(fd, seqnames, CODE_DECL); } void plunk_c_fcts(FILE *fd) { if (separate == 2 && hastrack) { c_add_def(fd); return; } c_add_hidden(fd); plunk_reverse(fd, seqnames, CODE_FRAG); if (c_added || c_tracked) /* enables calls to c_revert and c_update */ fprintf(fd, "#define C_States 1\n"); else fprintf(fd, "#undef C_States\n"); if (hastrack) c_add_def(fd); c_add_globinit(fd); do_locinits(fd); } static void check_inline(IType *tmp) { char buf[128]; ProcList *p; if (!X) return; for (p = rdy; p; p = p->nxt) { if (strcmp(p->n->name, X->n->name) == 0) continue; sprintf(buf, "P%s->", p->n->name); if (strstr((char *)tmp->cn, buf)) { printf("spin: in proctype %s, ref to object in proctype %s\n", X->n->name, p->n->name); fatal("invalid variable ref in '%s'", tmp->nm->name); } } } extern short terse; extern short nocast; void plunk_expr(FILE *fd, char *s) { IType *tmp; char *q; tmp = find_inline(s); check_inline(tmp); if (terse && nocast) { for (q = (char *) tmp->cn; q && *q != '\0'; q++) { fflush(fd); if (*q == '"') { fprintf(fd, "\\"); } fprintf(fd, "%c", *q); } } else { fprintf(fd, "%s", (char *) tmp->cn); } } void preruse(FILE *fd, Lextok *n) /* check a condition for c_expr with preconditions */ { IType *tmp; if (!n) return; if (n->ntyp == C_EXPR) { tmp = find_inline(n->sym->name); if (tmp->prec) { fprintf(fd, "if (!(%s)) { if (!readtrail) { depth++; ", tmp->prec); fprintf(fd, "trpt++; trpt->pr = II; trpt->o_t = t; trpt->st = tt; "); fprintf(fd, "uerror(\"c_expr line %d precondition false: %s\"); continue;", tmp->dln, tmp->prec); fprintf(fd, " } else { printf(\"pan: precondition false: %s\\n\"); ", tmp->prec); fprintf(fd, "_m = 3; goto P999; } } \n\t\t"); } } else { preruse(fd, n->rgt); preruse(fd, n->lft); } } int glob_inline(char *s) { IType *tmp; char *bdy; tmp = find_inline(s); bdy = (char *) tmp->cn; return (strstr(bdy, "now.") /* global ref or */ || strchr(bdy, '(') > bdy); /* possible C-function call */ } char * put_inline(FILE *fd, char *s) { IType *tmp; tmp = find_inline(s); check_inline(tmp); return (char *) tmp->cn; } void mark_last(void) { if (seqnames) { seqnames->is_expr = 1; } } void plunk_inline(FILE *fd, char *s, int how, int gencode) /* c_code with precondition */ { IType *tmp; tmp = find_inline(s); check_inline(tmp); fprintf(fd, "{ "); if (how && tmp->prec) { fprintf(fd, "if (!(%s)) { if (!readtrail) {", tmp->prec); fprintf(fd, " uerror(\"c_code line %d precondition false: %s\"); continue; ", tmp->dln, tmp->prec); fprintf(fd, "} else { "); fprintf(fd, "printf(\"pan: precondition false: %s\\n\"); _m = 3; goto P999; } } ", tmp->prec); } if (!gencode) /* not in d_step */ { fprintf(fd, "\n\t\tsv_save();"); } fprintf(fd, "%s", (char *) tmp->cn); fprintf(fd, " }\n"); } int side_scan(char *t, char *pat) { char *r = strstr(t, pat); return (r && *(r-1) != '"' && *(r-1) != '\''); } void no_side_effects(char *s) { IType *tmp; char *t; /* could still defeat this check via hidden * side effects in function calls, * but this will catch at least some cases */ tmp = find_inline(s); t = (char *) tmp->cn; if (side_scan(t, ";") || side_scan(t, "++") || side_scan(t, "--")) { bad: lineno = tmp->dln; Fname = tmp->dfn; non_fatal("c_expr %s has side-effects", s); return; } while ((t = strchr(t, '=')) != NULL) { if (*(t-1) == '!' || *(t-1) == '>' || *(t-1) == '<' || *(t-1) == '"' || *(t-1) == '\'') { t += 2; continue; } t++; if (*t != '=') goto bad; t++; } } void pickup_inline(Symbol *t, Lextok *apars, Lextok *rval) { IType *tmp; Lextok *p, *q; int j; tmp = find_inline(t->name); if (++Inlining >= MAXINL) fatal("inlines nested too deeply", 0); tmp->cln = lineno; /* remember calling point */ tmp->cfn = Fname; /* and filename */ tmp->rval = rval; for (p = apars, q = tmp->params, j = 0; p && q; p = p->rgt, q = q->rgt) j++; /* count them */ if (p || q) fatal("wrong nr of params on call of '%s'", t->name); tmp->anms = (char **) emalloc(j * sizeof(char *)); for (p = apars, j = 0; p; p = p->rgt, j++) { tmp->anms[j] = (char *) emalloc(strlen(IArg_cont[j])+1); strcpy(tmp->anms[j], IArg_cont[j]); } lineno = tmp->dln; /* linenr of def */ Fname = tmp->dfn; /* filename of same */ Inliner[Inlining] = (char *)tmp->cn; Inline_stub[Inlining] = tmp; #if 0 if (verbose&32) printf("spin: %s:%d, inlining '%s' (from %s:%d)\n", tmp->cfn->name, tmp->cln, t->name, tmp->dfn->name, tmp->dln); #endif for (j = 0; j < Inlining; j++) { if (Inline_stub[j] == Inline_stub[Inlining]) { fatal("cyclic inline attempt on: %s", t->name); } } last_token = SEMI; /* avoid insertion of extra semi */ } extern int pp_mode; static void do_directive(int first) { int c = first; /* handles lines starting with pound */ getword(c, isalpha_); if (strcmp(yytext, "#ident") == 0) goto done; if ((c = Getchar()) != ' ') fatal("malformed preprocessor directive - # .", 0); if (!isdigit_(c = Getchar())) fatal("malformed preprocessor directive - # .lineno", 0); getword(c, isdigit_); lineno = atoi(yytext); /* pickup the line number */ if ((c = Getchar()) == '\n') return; /* no filename */ if (c != ' ') fatal("malformed preprocessor directive - .fname", 0); if ((c = Getchar()) != '\"') { printf("got %c, expected \" -- lineno %d\n", c, lineno); fatal("malformed preprocessor directive - .fname (%s)", yytext); } getword(Getchar(), notquote); /* was getword(c, notquote); */ if (Getchar() != '\"') fatal("malformed preprocessor directive - fname.", 0); /* strcat(yytext, "\""); */ Fname = lookup(yytext); done: while (Getchar() != '\n') ; } void precondition(char *q) { int c, nest = 1; for (;;) { c = Getchar(); *q++ = c; switch (c) { case '\n': lineno++; break; case '[': nest++; break; case ']': if (--nest <= 0) { *--q = '\0'; return; } break; } } fatal("cannot happen", (char *) 0); /* unreachable */ } Symbol * prep_inline(Symbol *s, Lextok *nms) { int c, nest = 1, dln, firstchar, cnr; char *p; Lextok *t; static char Buf1[SOMETHINGBIG], Buf2[RATHERSMALL]; static int c_code = 1; for (t = nms; t; t = t->rgt) if (t->lft) { if (t->lft->ntyp != NAME) fatal("bad param to inline %s", s?s->name:"--"); t->lft->sym->hidden |= 32; } if (!s) /* C_Code fragment */ { s = (Symbol *) emalloc(sizeof(Symbol)); s->name = (char *) emalloc(strlen("c_code")+26); sprintf(s->name, "c_code%d", c_code++); s->context = context; s->type = CODE_FRAG; } else { s->type = PREDEF; } p = &Buf1[0]; Buf2[0] = '\0'; for (;;) { c = Getchar(); switch (c) { case '[': if (s->type != CODE_FRAG) goto bad; precondition(&Buf2[0]); /* e.g., c_code [p] { r = p-r; } */ continue; case '{': break; case '\n': lineno++; /* fall through */ case ' ': case '\t': case '\f': case '\r': continue; default : printf("spin: saw char '%c'\n", c); bad: fatal("bad inline: %s", s->name); } break; } dln = lineno; if (s->type == CODE_FRAG) { if (verbose&32) { sprintf(Buf1, "\t/* line %d %s */\n\t\t", lineno, Fname->name); } else { strcpy(Buf1, ""); } } else { sprintf(Buf1, "\n#line %d \"%s\"\n{", lineno, Fname->name); } p += strlen(Buf1); firstchar = 1; cnr = 1; /* not zero */ more: c = Getchar(); *p++ = (char) c; if (p - Buf1 >= SOMETHINGBIG) fatal("inline text too long", 0); switch (c) { case '\n': lineno++; cnr = 0; break; case '{': cnr++; nest++; break; case '}': cnr++; if (--nest <= 0) { *p = '\0'; if (s->type == CODE_FRAG) { *--p = '\0'; /* remove trailing '}' */ } def_inline(s, dln, &Buf1[0], &Buf2[0], nms); if (firstchar) { printf("%3d: %s, warning: empty inline definition (%s)\n", dln, Fname->name, s->name); } return s; /* normal return */ } break; case '#': if (cnr == 0) { p--; do_directive(c); /* reads to newline */ } else { firstchar = 0; cnr++; } break; case '\t': case ' ': case '\f': cnr++; break; case '"': do { c = Getchar(); *p++ = (char) c; if (c == '\\') { *p++ = (char) Getchar(); } if (p - Buf1 >= SOMETHINGBIG) { fatal("inline text too long", 0); } } while (c != '"'); /* end of string */ /* *p = '\0'; */ break; case '\'': c = Getchar(); *p++ = (char) c; if (c == '\\') { *p++ = (char) Getchar(); } c = Getchar(); *p++ = (char) c; assert(c == '\''); break; default: firstchar = 0; cnr++; break; } goto more; } static void set_cur_scope(void) { int i; char tmpbuf[256]; strcpy(CurScope, "_"); if (context) for (i = 0; i < scope_level; i++) { sprintf(tmpbuf, "%d_", scope_seq[i]); strcat(CurScope, tmpbuf); } } static int pre_proc(void) { char b[512]; int c, i = 0; b[i++] = '#'; while ((c = Getchar()) != '\n' && c != EOF) { b[i++] = (char) c; } b[i] = '\0'; yylval = nn(ZN, 0, ZN, ZN); yylval->sym = lookup(b); return PREPROC; } static int specials[] = { '}', ')', ']', OD, FI, ELSE, BREAK, C_CODE, C_EXPR, C_DECL, NAME, CONST, INCR, DECR, 0 }; int follows_token(int c) { int i; for (i = 0; specials[i]; i++) { if (c == specials[i]) { return 1; } } return 0; } #define DEFER_LTL #ifdef DEFER_LTL /* defer ltl formula to the end of the spec * no matter where they appear in the original */ static int deferred = 0; static FILE *defer_fd; int get_deferred(void) { if (!defer_fd) { return 0; /* nothing was deferred */ } fclose(defer_fd); defer_fd = fopen(TMP_FILE2, "r"); if (!defer_fd) { non_fatal("cannot retrieve deferred ltl formula", (char *) 0); return 0; } fclose(yyin); yyin = defer_fd; return 1; } void zap_deferred(void) { (void) unlink(TMP_FILE2); } int put_deferred(void) { int c, cnt; if (!defer_fd) { defer_fd = fopen(TMP_FILE2, "w+"); if (!defer_fd) { non_fatal("cannot defer ltl expansion", (char *) 0); return 0; } } fprintf(defer_fd, "ltl "); cnt = 0; while ((c = getc(yyin)) != EOF) { if (c == '{') { cnt++; } if (c == '}') { cnt--; if (cnt == 0) { break; } } fprintf(defer_fd, "%c", c); } fprintf(defer_fd, "}\n"); fflush(defer_fd); return 1; } #endif #define EXPAND_SELECT #ifdef EXPAND_SELECT static char tmp_hold[256]; static int tmp_has; void new_select(void) { tmp_hold[0] = '\0'; tmp_has = 0; } int scan_to(int stop, int (*tst)(int), char *buf) { int c, i = 0; do { c = Getchar(); if (tmp_has < sizeof(tmp_hold)) { tmp_hold[tmp_has++] = c; } if (c == '\n') { lineno++; } else if (buf) { buf[i++] = c; } if (tst && !tst(c) && c != ' ' && c != '\t') { break; } } while (c != stop && c != EOF); if (buf) { buf[i-1] = '\0'; } if (c != stop) { if (0) { printf("saw: '%c', expected '%c'\n", c, stop); } if (tmp_has < sizeof(tmp_hold)) { tmp_hold[tmp_has] = '\0'; push_back(tmp_hold); if (0) { printf("pushed back: <'%s'>\n", tmp_hold); } return 0; /* internal expansion fails */ } else { fatal("expecting select ( name : constant .. constant )", 0); } } return 1; /* success */ } #endif int lex(void) { int c; again: c = Getchar(); yytext[0] = (char) c; yytext[1] = '\0'; switch (c) { case EOF: #ifdef DEFER_LTL if (!deferred) { deferred = 1; if (get_deferred()) { goto again; } } else { zap_deferred(); } #endif return c; case '\n': /* newline */ lineno++; /* make most semi-colons optional */ if (implied_semis /* && context */ && in_seq && par_cnt == 0 && follows_token(last_token)) { if (0) { printf("insert ; line %d, last_token %d in_seq %d\n", lineno-1, last_token, in_seq); } ValToken(1, SEMI); } /* else fall thru */ case '\r': /* carriage return */ goto again; case ' ': case '\t': case '\f': /* white space */ goto again; case '#': /* preprocessor directive */ if (in_comment) goto again; if (pp_mode) { last_token = PREPROC; return pre_proc(); } do_directive(c); goto again; case '\"': getword(c, notquote); if (Getchar() != '\"') fatal("string not terminated", yytext); strcat(yytext, "\""); SymToken(lookup(yytext), STRING) case '$': getword('\"', notdollar); if (Getchar() != '$') fatal("ltl definition not terminated", yytext); strcat(yytext, "\""); SymToken(lookup(yytext), STRING) case '\'': /* new 3.0.9 */ c = Getchar(); if (c == '\\') { c = Getchar(); if (c == 'n') c = '\n'; else if (c == 'r') c = '\r'; else if (c == 't') c = '\t'; else if (c == 'f') c = '\f'; } if (Getchar() != '\'' && !in_comment) fatal("character quote missing: %s", yytext); ValToken(c, CONST) default: break; } if (isdigit_(c)) { long int nr; getword(c, isdigit_); errno = 0; nr = strtol(yytext, NULL, 10); if (errno != 0) { fprintf(stderr, "spin: value out of range: '%s' read as '%d'\n", yytext, (int) nr); } ValToken((int)nr, CONST) } if (isalpha_(c) || c == '_') { getword(c, isalnum_); if (!in_comment) { c = check_name(yytext); #ifdef EXPAND_SELECT if (c == SELECT && Inlining < 0) { char name[64], from[32], upto[32]; int i, a, b; new_select(); if (!scan_to('(', 0, 0) || !scan_to(':', isalnum, name) || !scan_to('.', isdigit, from) || !scan_to('.', 0, 0) || !scan_to(')', isdigit, upto)) { goto not_expanded; } a = atoi(from); b = atoi(upto); if (0) { printf("Select %s from %d to %d\n", name, a, b); } if (a > b) { non_fatal("bad range in select statement", 0); goto again; } if (b - a <= 32) { push_back("if "); for (i = a; i <= b; i++) { char buf[128]; push_back(":: "); sprintf(buf, "%s = %d ", name, i); push_back(buf); } push_back("fi "); } else { char buf[128]; sprintf(buf, "%s = %d; do ", name, a); push_back(buf); sprintf(buf, ":: (%s < %d) -> %s++ ", name, b, name); push_back(buf); push_back(":: break od; "); } goto again; } not_expanded: #endif #ifdef DEFER_LTL if (c == LTL && !deferred) { if (put_deferred()) { goto again; } } #endif if (c) { last_token = c; return c; } /* else fall through */ } goto again; } if (ltl_mode) { switch (c) { case '-': c = follow('>', IMPLIES, '-'); break; case '[': c = follow(']', ALWAYS, '['); break; case '<': c = follow('>', EVENTUALLY, '<'); if (c == '<') { c = Getchar(); if (c == '-') { c = follow('>', EQUIV, '-'); if (c == '-') { Ungetch(c); c = '<'; } } else { Ungetch(c); c = '<'; } } default: break; } } switch (c) { case '/': c = follow('*', 0, '/'); if (!c) { in_comment = 1; goto again; } break; case '*': c = follow('/', 0, '*'); if (!c) { in_comment = 0; goto again; } break; case ':': c = follow(':', SEP, ':'); break; case '-': c = follow('>', ARROW, follow('-', DECR, '-')); break; case '+': c = follow('+', INCR, '+'); break; case '<': c = follow('<', LSHIFT, follow('=', LE, LT)); break; case '>': c = follow('>', RSHIFT, follow('=', GE, GT)); break; case '=': c = follow('=', EQ, ASGN); break; case '!': c = follow('=', NE, follow('!', O_SND, SND)); break; case '?': c = follow('?', R_RCV, RCV); break; case '&': c = follow('&', AND, '&'); break; case '|': c = follow('|', OR, '|'); break; case ';': c = SEMI; break; case '.': c = follow('.', DOTDOT, '.'); break; case '{': scope_seq[scope_level++]++; set_cur_scope(); break; case '}': scope_level--; set_cur_scope(); break; default : break; } ValToken(0, c) } static struct { char *s; int tok; } LTL_syms[] = { /* [], <>, ->, and <-> are intercepted in lex() */ { "U", UNTIL }, { "V", RELEASE }, { "W", WEAK_UNTIL }, { "X", NEXT }, { "always", ALWAYS }, { "eventually", EVENTUALLY }, { "until", UNTIL }, { "stronguntil",UNTIL }, { "weakuntil", WEAK_UNTIL }, { "release", RELEASE }, { "next", NEXT }, { "implies", IMPLIES }, { "equivalent", EQUIV }, { 0, 0 }, }; static struct { char *s; int tok; int val; char *sym; } Names[] = { {"active", ACTIVE, 0, 0}, {"assert", ASSERT, 0, 0}, {"atomic", ATOMIC, 0, 0}, {"bit", TYPE, BIT, 0}, {"bool", TYPE, BIT, 0}, {"break", BREAK, 0, 0}, {"byte", TYPE, BYTE, 0}, {"c_code", C_CODE, 0, 0}, {"c_decl", C_DECL, 0, 0}, {"c_expr", C_EXPR, 0, 0}, {"c_state", C_STATE, 0, 0}, {"c_track", C_TRACK, 0, 0}, {"D_proctype", D_PROCTYPE, 0, 0}, {"do", DO, 0, 0}, {"chan", TYPE, CHAN, 0}, {"else", ELSE, 0, 0}, {"empty", EMPTY, 0, 0}, {"enabled", ENABLED, 0, 0}, {"eval", EVAL, 0, 0}, {"false", CONST, 0, 0}, {"fi", FI, 0, 0}, {"for", FOR, 0, 0}, {"full", FULL, 0, 0}, {"get_priority", GET_P, 0, 0}, {"goto", GOTO, 0, 0}, {"hidden", HIDDEN, 0, ":hide:"}, {"if", IF, 0, 0}, {"in", IN, 0, 0}, {"init", INIT, 0, ":init:"}, {"inline", INLINE, 0, 0}, {"int", TYPE, INT, 0}, {"len", LEN, 0, 0}, {"local", ISLOCAL, 0, ":local:"}, {"ltl", LTL, 0, ":ltl:"}, {"mtype", TYPE, MTYPE, 0}, {"nempty", NEMPTY, 0, 0}, {"never", CLAIM, 0, ":never:"}, {"nfull", NFULL, 0, 0}, {"notrace", TRACE, 0, ":notrace:"}, {"np_", NONPROGRESS, 0, 0}, {"od", OD, 0, 0}, {"of", OF, 0, 0}, {"pc_value", PC_VAL, 0, 0}, {"pid", TYPE, BYTE, 0}, {"printf", PRINT, 0, 0}, {"printm", PRINTM, 0, 0}, {"priority", PRIORITY, 0, 0}, {"proctype", PROCTYPE, 0, 0}, {"provided", PROVIDED, 0, 0}, {"return", RETURN, 0, 0}, {"run", RUN, 0, 0}, {"d_step", D_STEP, 0, 0}, {"select", SELECT, 0, 0}, {"set_priority", SET_P, 0, 0}, {"short", TYPE, SHORT, 0}, {"skip", CONST, 1, 0}, {"timeout", TIMEOUT, 0, 0}, {"trace", TRACE, 0, ":trace:"}, {"true", CONST, 1, 0}, {"show", SHOW, 0, ":show:"}, {"typedef", TYPEDEF, 0, 0}, {"unless", UNLESS, 0, 0}, {"unsigned", TYPE, UNSIGNED, 0}, {"xr", XU, XR, 0}, {"xs", XU, XS, 0}, {0, 0, 0, 0}, }; static int check_name(char *s) { int i; yylval = nn(ZN, 0, ZN, ZN); if (ltl_mode) { for (i = 0; LTL_syms[i].s; i++) { if (strcmp(s, LTL_syms[i].s) == 0) { return LTL_syms[i].tok; } } } for (i = 0; Names[i].s; i++) { if (strcmp(s, Names[i].s) == 0) { yylval->val = Names[i].val; if (Names[i].sym) yylval->sym = lookup(Names[i].sym); if (Names[i].tok == IN && !in_for) { continue; } return Names[i].tok; } } if ((yylval->val = ismtype(s)) != 0) { yylval->ismtyp = 1; return CONST; } if (strcmp(s, "_last") == 0) has_last++; if (strcmp(s, "_priority") == 0) has_priority++; if (Inlining >= 0 && !ReDiRect) { Lextok *tt, *t = Inline_stub[Inlining]->params; for (i = 0; t; t = t->rgt, i++) /* formal pars */ if (!strcmp(s, t->lft->sym->name) /* varname matches formal */ && strcmp(s, Inline_stub[Inlining]->anms[i]) != 0) /* actual pars */ { #if 0 if (verbose&32) printf("\tline %d, replace %s in call of '%s' with %s\n", lineno, s, Inline_stub[Inlining]->nm->name, Inline_stub[Inlining]->anms[i]); #endif for (tt = Inline_stub[Inlining]->params; tt; tt = tt->rgt) if (!strcmp(Inline_stub[Inlining]->anms[i], tt->lft->sym->name)) { /* would be cyclic if not caught */ printf("spin: %s:%d replacement value: %s\n", oFname->name?oFname->name:"--", lineno, tt->lft->sym->name); fatal("formal par of %s contains replacement value", Inline_stub[Inlining]->nm->name); yylval->ntyp = tt->lft->ntyp; yylval->sym = lookup(tt->lft->sym->name); return NAME; } /* check for occurrence of param as field of struct */ { char *ptr = Inline_stub[Inlining]->anms[i]; while ((ptr = strstr(ptr, s)) != NULL) { if (*(ptr-1) == '.' || *(ptr+strlen(s)) == '.') { fatal("formal par of %s used in structure name", Inline_stub[Inlining]->nm->name); } ptr++; } } ReDiRect = Inline_stub[Inlining]->anms[i]; return 0; } } yylval->sym = lookup(s); /* symbol table */ if (isutype(s)) return UNAME; if (isproctype(s)) return PNAME; if (iseqname(s)) return INAME; return NAME; } int yylex(void) { static int last = 0; static int hold = 0; int c; /* * repair two common syntax mistakes with * semi-colons before or after a '}' */ if (hold) { c = hold; hold = 0; last_token = c; } else { c = lex(); if (last == ELSE && c != SEMI && c != ARROW && c != FI) { hold = c; last = 0; last_token = SEMI; return SEMI; } if (last == '}' && c != PROCTYPE && c != INIT && c != CLAIM && c != SEP && c != FI && c != OD && c != '}' && c != UNLESS && c != SEMI && c != ARROW && c != EOF) { hold = c; last = 0; last_token = SEMI; return SEMI; /* insert ';' */ } if (c == SEMI || c == ARROW) { /* if context, we're not in a typedef * because they're global. * if owner, we're at the end of a ref * to a struct field -- prevent that the * lookahead is interpreted as a field of * the same struct... */ if (context) owner = ZS; hold = lex(); /* look ahead */ if (hold == '}' || hold == ARROW || hold == SEMI) { c = hold; /* omit ';' */ hold = 0; } } } last = c; if (IArgs) { static int IArg_nst = 0; if (strcmp(yytext, ",") == 0) { IArg_cont[++IArgno][0] = '\0'; } else if (strcmp(yytext, "(") == 0) { if (IArg_nst++ == 0) { IArgno = 0; IArg_cont[0][0] = '\0'; } else { assert(strlen(IArg_cont[IArgno])+strlen(yytext) < sizeof(IArg_cont)); strcat(IArg_cont[IArgno], yytext); } } else if (strcmp(yytext, ")") == 0) { if (--IArg_nst > 0) { assert(strlen(IArg_cont[IArgno])+strlen(yytext) < sizeof(IArg_cont)); strcat(IArg_cont[IArgno], yytext); } } else if (c == CONST && yytext[0] == '\'') { sprintf(yytext, "'%c'", yylval->val); assert(strlen(IArg_cont[IArgno])+strlen(yytext) < sizeof(IArg_cont)); strcat(IArg_cont[IArgno], yytext); } else if (c == CONST) { sprintf(yytext, "%d", yylval->val); assert(strlen(IArg_cont[IArgno])+strlen(yytext) < sizeof(IArg_cont)); strcat(IArg_cont[IArgno], yytext); } else { switch (c) { case ARROW: strcpy(yytext, "->"); break; /* NEW */ case SEP: strcpy(yytext, "::"); break; case SEMI: strcpy(yytext, ";"); break; case DECR: strcpy(yytext, "--"); break; case INCR: strcpy(yytext, "++"); break; case LSHIFT: strcpy(yytext, "<<"); break; case RSHIFT: strcpy(yytext, ">>"); break; case LE: strcpy(yytext, "<="); break; case LT: strcpy(yytext, "<"); break; case GE: strcpy(yytext, ">="); break; case GT: strcpy(yytext, ">"); break; case EQ: strcpy(yytext, "=="); break; case ASGN: strcpy(yytext, "="); break; case NE: strcpy(yytext, "!="); break; case R_RCV: strcpy(yytext, "??"); break; case RCV: strcpy(yytext, "?"); break; case O_SND: strcpy(yytext, "!!"); break; case SND: strcpy(yytext, "!"); break; case AND: strcpy(yytext, "&&"); break; case OR: strcpy(yytext, "||"); break; } assert(strlen(IArg_cont[IArgno])+strlen(yytext) < sizeof(IArg_cont)); strcat(IArg_cont[IArgno], yytext); } } return c; }