ref: b5a6dc7849cbd9f1fd23183ba46f0d5deb24e81d
dir: /sys/src/cmd/spin/pc_zpp.c/
/***** spin: pc_zpp.c *****/ /* Copyright (c) 1997-2003 by Lucent Technologies, Bell Laboratories. */ /* All Rights Reserved. This software is for educational purposes only. */ /* No guarantee whatsoever is expressed or implied by the distribution of */ /* this code. Permission is given to distribute this code provided that */ /* this introductory message is not removed and no monies are exchanged. */ /* Software written by Gerard J. Holzmann. For tool documentation see: */ /* http://spinroot.com/ */ /* Send all bug-reports and/or questions to: [email protected] */ /* pc_zpp.c is only used in the PC version of Spin */ /* it is included to avoid too great a reliance on an external cpp */ #include <stdlib.h> #include <stdio.h> #include <string.h> #include <ctype.h> #ifdef PC enum cstate { PLAIN, IN_STRING, IN_QUOTE, S_COMM, COMMENT, E_COMM }; #define MAXNEST 32 #define MAXDEF 128 #define MAXLINE 512 #define GENEROUS 4096 #define debug(x,y) if (verbose) printf(x,y) static FILE *outpp /* = stdout */; static int if_truth[MAXNEST]; static int printing[MAXNEST]; static int if_depth, nr_defs, verbose = 0; static enum cstate state = PLAIN; static char Out1[GENEROUS], Out2[GENEROUS]; static struct Defines { int exists; char *src, *trg; } d[MAXDEF]; static int process(char *, int, char *); static int zpp_do(char *); extern char *emalloc(int); /* main.c */ static int do_define(char *p) { char *q, *r, *s; for (q = p+strlen(p)-1; q > p; q--) if (*q == '\n' || *q == '\t' || *q == ' ') *q = '\0'; else break; q = p + strspn(p, " \t"); if (!(r = strchr(q, '\t'))) r = strchr(q, ' '); if (!r) { s = ""; goto adddef; } s = r + strspn(r, " \t"); *r = '\0'; if (strchr(q, '(')) { debug("zpp: #define with arguments %s\n", q); return 0; } for (r = q+strlen(q)-1; r > q; r--) if (*r == ' ' || *r == '\t') *r = '\0'; else break; if (nr_defs >= MAXDEF) { debug("zpp: too many #defines (max %d)\n", nr_defs); return 0; } if (strcmp(q, s) != 0) { int j; adddef: for (j = 0; j < nr_defs; j++) if (!strcmp(d[j].src, q)) d[j].exists = 0; d[nr_defs].src = emalloc(strlen(q)+1); d[nr_defs].trg = emalloc(strlen(s)+1); strcpy(d[nr_defs].src, q); strcpy(d[nr_defs].trg, s); d[nr_defs++].exists = 1; } return 1; } static int isvalid(int c) { return (isalnum(c) || c == '_'); } static char * apply(char *p0) { char *out, *in1, *in2, *startat; int i, j; startat = in1 = Out2; strcpy(Out2, p0); out = Out1; *out = '\0'; for (i = nr_defs-1; i >= 0; i--) { if (!d[i].exists) continue; j = (int) strlen(d[i].src); more: in2 = strstr(startat, d[i].src); if (!in2) /* no more matches */ { startat = in1; continue; } if ((in2 == in1 || !isvalid(*(in2-1))) && (in2+j == '\0' || !isvalid(*(in2+j)))) { *in2 = '\0'; if (strlen(in1)+strlen(d[i].trg)+strlen(in2+j) >= GENEROUS) { printf("spin: circular macro expansion %s -> %s ?\n", d[i].src, d[i].trg); return in1; } strcat(out, in1); strcat(out, d[i].trg); strcat(out, in2+j); if (in1 == Out2) { startat = in1 = Out1; out = Out2; } else { startat = in1 = Out2; out = Out1; } *out = '\0'; } else { startat = in2+1; /* +1 not +j.. */ } goto more; /* recursive defines */ } return in1; } static char * do_common(char *p) { char *q, *s; q = p + strspn(p, " \t"); for (s = (q + strlen(q) - 1); s > q; s--) if (*s == ' ' || *s == '\t' || *s == '\n') *s = '\0'; else break; return q; } static int do_undefine(char *p) { int i; char *q = do_common(p); for (i = 0; i < nr_defs; i++) if (!strcmp(d[i].src, q)) d[i].exists = 0; return 1; } static char * check_ifdef(char *p) { int i; char *q = do_common(p); for (i = 0; i < nr_defs; i++) if (d[i].exists && !strcmp(d[i].src, q)) return d[i].trg; return (char *) 0; } static int do_ifdef(char *p) { if (++if_depth >= MAXNEST) { debug("zpp: too deeply nested (max %d)\n", MAXNEST); return 0; } if_truth[if_depth] = (check_ifdef(p) != (char *)0); printing[if_depth] = printing[if_depth-1]&&if_truth[if_depth]; return 1; } static int do_ifndef(char *p) { if (++if_depth >= MAXNEST) { debug("zpp: too deeply nested (max %d)\n", MAXNEST); return 0; } if_truth[if_depth] = (check_ifdef(p) == (char *)0); printing[if_depth] = printing[if_depth-1]&&if_truth[if_depth]; return 1; } static int is_simple(char *q) { if (!q) return 0; if (strcmp(q, "0") == 0) if_truth[if_depth] = 0; else if (strcmp(q, "1") == 0) if_truth[if_depth] = 1; else return 0; return 1; } static int do_if(char *p) { char *q = do_common(p); if (++if_depth >= MAXNEST) { debug("zpp: too deeply nested (max %d)\n", MAXNEST); return 0; } if (!is_simple(q) && !is_simple(check_ifdef(q))) { debug("zpp: cannot handle #if %s\n", q); return 0; } printing[if_depth] = printing[if_depth-1]&&if_truth[if_depth]; return 1; } static int do_else(char *unused) { if_truth[if_depth] = 1-if_truth[if_depth]; printing[if_depth] = printing[if_depth-1]&&if_truth[if_depth]; return 1; } static int do_endif(char *p) { if (--if_depth < 0) { debug("zpp: unbalanced #endif %s\n", p); return 0; } return 1; } static int do_include(char *p) { char *r, *q; q = strchr(p, '<'); r = strrchr(p, '>'); if (!q || !r) { q = strchr (p, '\"'); r = strrchr(p, '\"'); if (!q || !r || q == r) { debug("zpp: malformed #include %s", p); return 0; } } *r = '\0'; return zpp_do(++q); } static int in_comment(char *p) { char *q = p; for (q = p; *q != '\n' && *q != '\0'; q++) switch (state) { case PLAIN: switch (*q) { case '"': state = IN_STRING; break; case '\'': state = IN_QUOTE; break; case '/': state = S_COMM; break; case '\\': q++; break; } break; case IN_STRING: if (*q == '"') state = PLAIN; else if (*q == '\\') q++; break; case IN_QUOTE: if (*q == '\'') state = PLAIN; else if (*q == '\\') q++; break; case S_COMM: if (*q == '*') { *(q-1) = *q = ' '; state = COMMENT; } else if (*q != '/') state = PLAIN; break; case COMMENT: state = (*q == '*') ? E_COMM: COMMENT; *q = ' '; break; case E_COMM: if (*q == '/') state = PLAIN; else if (*q != '*') state = COMMENT; *q = ' '; break; } if (state == S_COMM) state = PLAIN; else if (state == E_COMM) state = COMMENT; return (state == COMMENT); } static int zpp_do(char *fnm) { char buf[2048], buf2[MAXLINE], *p; int n, on; FILE *inp; int lno = 0, nw_lno = 0; if ((inp = fopen(fnm, "r")) == NULL) { fprintf(stdout, "spin: error, '%s': No such file\n", fnm); return 0; /* 4.1.2 was stderr */ } printing[0] = if_truth[0] = 1; fprintf(outpp, "#line %d \"%s\"\n", lno+1, fnm); while (fgets(buf, MAXLINE, inp)) { lno++; n = (int) strlen(buf); on = 0; nw_lno = 0; while (n > 2 && buf[n-2] == '\\') { buf[n-2] = '\0'; feedme: if (!fgets(buf2, MAXLINE, inp)) { debug("zpp: unexpected EOF ln %d\n", lno); return 0; /* switch to cpp */ } lno++; if (n + (int) strlen(buf2) >= 2048) { debug("zpp: line %d too long\n", lno); return 0; } strcat(buf, buf2); n = (int) strlen(buf); } if (in_comment(&buf[on])) { buf[n-1] = '\0'; /* eat newline */ on = n-1; nw_lno = 1; goto feedme; } p = buf + strspn(buf, " \t"); if (nw_lno && *p != '#') fprintf(outpp, "#line %d \"%s\"\n", lno, fnm); if (*p == '#') { if (!process(p+1, lno+1, fnm)) return 0; } else if (printing[if_depth]) fprintf(outpp, "%s", apply(buf)); } fclose(inp); return 1; } int try_zpp(char *fnm, char *onm) { int r; if ((outpp = fopen(onm, "w")) == NULL) return 0; r = zpp_do(fnm); fclose(outpp); return r; /* 1 = ok; 0 = use cpp */ } static struct Directives { int len; char *directive; int (*handler)(char *); int interp; } s[] = { { 6, "define", do_define, 1 }, { 4, "else", do_else, 0 }, { 5, "endif", do_endif, 0 }, { 5, "ifdef", do_ifdef, 0 }, { 6, "ifndef", do_ifndef, 0 }, { 2, "if", do_if, 0 }, { 7, "include", do_include, 1 }, { 8, "undefine", do_undefine, 1 }, }; static int process(char *q, int lno, char *fnm) { char *p; int i, r; for (p = q; *p; p++) if (*p != ' ' && *p != '\t') break; for (i = 0; i < (int) (sizeof(s)/sizeof(struct Directives)); i++) if (!strncmp(s[i].directive, p, s[i].len)) { if (s[i].interp && !printing[if_depth]) return 1; fprintf(outpp, "#line %d \"%s\"\n", lno, fnm); r = s[i].handler(p + s[i].len); if (i == 6) /* include */ fprintf(outpp, "#line %d \"%s\"\n", lno, fnm); return r; } debug("zpp: unrecognized directive: %s", p); return 0; } #endif