/* Process target.def to create initialization macros definition in target-hooks-def.h and documentation in target-hooks.texi. Copyright (C) 2009, 2010, 2011 Free Software Foundation, Inc. This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see . */ #include "bconfig.h" #include "system.h" #include "hashtab.h" #include "errors.h" struct hook_desc { const char *doc, *type, *name, *param, *init, *docname; }; static struct hook_desc hook_array[] = { #define HOOK_VECTOR_1(NAME, FRAGMENT) \ { 0, 0, #NAME, 0, 0, HOOK_TYPE }, #define DEFHOOKPOD(NAME, DOC, TYPE, INIT) \ { DOC, #TYPE, HOOK_PREFIX #NAME, 0, #INIT, HOOK_TYPE }, #define DEFHOOK(NAME, DOC, TYPE, PARAMS, INIT) \ { DOC, #TYPE, HOOK_PREFIX #NAME, #PARAMS, #INIT, HOOK_TYPE }, #define DEFHOOK_UNDOC(NAME, DOC, TYPE, PARAMS, INIT) \ { "*", #TYPE, HOOK_PREFIX #NAME, #PARAMS, #INIT, HOOK_TYPE }, #include "target.def" #include "c-family/c-target.def" #undef DEFHOOK }; /* For each @Fcode in the first paragraph of the documentation string DOC, print an @findex directive. HOOK_NAME is the name of the hook this bit of documentation pertains to. */ static void emit_findices (const char *doc, const char *hook_name) { const char *end = strstr (doc, "\n\n"); const char *fcode; while ((fcode = strstr (doc, "@Fcode{")) && (!end || fcode < end)) { fcode += strlen ("@Fcode{"); doc = strchr (fcode, '}'); if (!doc) fatal ("Malformed @Fcode for hook %s\n", hook_name); printf ("@findex %.*s\n", (int) (doc - fcode), fcode); doc = fcode; } } /* Return an upper-case copy of IN. */ static char * upstrdup (const char *in) { char *p, *ret = xstrdup (in); for (p = ret; *p; p++) *p = TOUPPER (*p); return ret; } /* Struct for 'start hooks' which start a sequence of consecutive hooks that are defined in target.def and to be documented in tm.texi. */ struct s_hook { char *name; int pos; }; static hashval_t s_hook_hash (const void *p) { const struct s_hook *s_hook = (const struct s_hook *)p; return htab_hash_string (s_hook->name); } static int s_hook_eq_p (const void *p1, const void *p2) { return (strcmp (((const struct s_hook *) p1)->name, ((const struct s_hook *) p2)->name) == 0); } /* Read the documentation file with name IN_FNAME, perform substitutions to incorporate informtion from hook_array, and emit the result on stdout. Hooks defined with DEFHOOK / DEFHOOKPOD are emitted at the place of a matching @hook in the input file; if there is no matching @hook, the hook is emitted after the hook that precedes it in target.def . Usually, the emitted hook documentation starts with the hook signature, followed by the string from the doc field. The documentation is bracketed in @deftypefn / @deftypevr and a matching @end. While emitting the doc field, @Fcode is translated to @code, and an @findex entry is added to the affected paragraph. If the doc field starts with '*', the leading '*' is stripped, and the doc field is otherwise emitted unaltered; no function signature/ @deftypefn/deftypevr/@end is emitted. In particular, a doc field of "*" means not to emit any ocumentation for this target.def / hook_array entry at all (there might be documentation for this hook in the file named IN_FNAME, though). A doc field of 0 is used to append the hook signature after the previous hook's signture, so that one description can be used for a group of hooks. When the doc field is "", @deftypefn/@deftypevr and the hook signature is emitted, but not the matching @end. This allows all the free-form documentation to be placed in IN_FNAME, to work around GPL/GFDL licensing incompatibility issues. */ static void emit_documentation (const char *in_fname) { int i, j; char buf[1000]; htab_t start_hooks = htab_create (99, s_hook_hash, s_hook_eq_p, (htab_del) 0); FILE *f; bool found_start = false; /* Enter all the start hooks in start_hooks. */ f = fopen (in_fname, "r"); if (!f) { perror (""); fatal ("Couldn't open input file"); } while (fscanf (f, "%*[^@]"), buf[0] = '\0', fscanf (f, "@%5[^ \n]", buf) != EOF) { void **p; struct s_hook *shp; if (strcmp (buf, "hook") != 0) continue; buf[0] = '\0'; fscanf (f, "%999s", buf); shp = XNEW (struct s_hook); shp->name = upstrdup (buf); shp->pos = -1; p = htab_find_slot (start_hooks, shp, INSERT); if (*p != HTAB_EMPTY_ENTRY) fatal ("Duplicate placement for hook %s\n", shp->name); *(struct s_hook **) p = shp; } fclose (f); /* For each hook in hook_array, if it is a start hook, store its position. */ for (i = 0; i < (int) (sizeof hook_array / sizeof hook_array[0]); i++) { struct s_hook sh, *shp; void *p; if (!hook_array[i].doc || strcmp (hook_array[i].doc, "*") == 0) continue; sh.name = upstrdup (hook_array[i].name); p = htab_find (start_hooks, &sh); if (p) { shp = (struct s_hook *) p; if (shp->pos >= 0) fatal ("Duplicate hook %s\n", sh.name); shp->pos = i; found_start = true; } else if (!found_start) fatal ("No place specified to document hook %s\n", sh.name); free (sh.name); } /* Copy input file to stdout, substituting @hook directives with the corresponding hook documentation sequences. */ f = fopen (in_fname, "r"); if (!f) { perror (""); fatal ("Couldn't open input file"); } for (;;) { struct s_hook sh, *shp; int c = getc (f); char *name; if (c == EOF) break; if (c != '@') { putchar (c); continue; } buf[0] = '\0'; fscanf (f, "%5[^ \n]", buf); if (strcmp (buf, "hook") != 0) { printf ("@%s", buf); continue; } fscanf (f, "%999s", buf); sh.name = name = upstrdup (buf); shp = (struct s_hook *) htab_find (start_hooks, &sh); if (!shp || shp->pos < 0) fatal ("No documentation for hook %s\n", sh.name); i = shp->pos; do { const char *q, *e; const char *deftype; const char *doc, *fcode, *p_end; /* A leading '*' means to output the documentation string without further processing. */ if (*hook_array[i].doc == '*') printf ("%s", hook_array[i].doc + 1); else { if (i != shp->pos) printf ("\n\n"); emit_findices (hook_array[i].doc, name); /* Print header. Function-valued hooks have a parameter list, unlike POD-valued ones. */ deftype = hook_array[i].param ? "deftypefn" : "deftypevr"; printf ("@%s {%s} ", deftype, hook_array[i].docname); if (strchr (hook_array[i].type, ' ')) printf ("{%s}", hook_array[i].type); else printf ("%s", hook_array[i].type); printf (" %s", name); if (hook_array[i].param) { /* Print the parameter list, with the parameter names enclosed in @var{}. */ printf (" "); for (q = hook_array[i].param; (e = strpbrk (q, " *,)")); q = e + 1) /* Type names like 'int' are followed by a space, sometimes also by '*'. 'void' should appear only in "(void)". */ if (*e == ' ' || *e == '*' || *q == '(') printf ("%.*s", (int) (e - q + 1), q); else printf ("@var{%.*s}%c", (int) (e - q), q, *e); } /* POD-valued hooks sometimes come in groups with common documentation.*/ for (j = i + 1; j < (int) (sizeof hook_array / sizeof hook_array[0]) && hook_array[j].doc == 0 && hook_array[j].type; j++) { char *namex = upstrdup (hook_array[j].name); printf ("\n@%sx {%s} {%s} %s", deftype, hook_array[j].docname, hook_array[j].type, namex); } if (hook_array[i].doc[0]) { printf ("\n"); /* Print each documentation paragraph in turn. */ for (doc = hook_array[i].doc; *doc; doc = p_end) { /* Find paragraph end. */ p_end = strstr (doc, "\n\n"); p_end = (p_end ? p_end + 2 : doc + strlen (doc)); /* Print paragraph, emitting @Fcode as @code. */ for (; (fcode = strstr (doc, "@Fcode{")) && fcode < p_end; doc = fcode + 2) printf ("%.*s@", (int) (fcode - doc), doc); printf ("%.*s", (int) (p_end - doc), doc); /* Emit function indices for next paragraph. */ emit_findices (p_end, name); } printf ("\n@end %s", deftype); } } if (++i >= (int) (sizeof hook_array / sizeof hook_array[0]) || !hook_array[i].doc) break; free (name); sh.name = name = upstrdup (hook_array[i].name); } while (!htab_find (start_hooks, &sh)); free (name); } } /* Emit #defines to stdout (this will be redirected to generate target-hook-def.h) which set target hooks initializer macros to their default values. These should only be emitted for hooks whose type is given by DOCNAME. */ static void emit_init_macros (const char *docname) { int i; const int MAX_NEST = 2; int print_nest, nest = 0; for (print_nest = 0; print_nest <= MAX_NEST; print_nest++) { for (i = 0; i < (int) (sizeof hook_array / sizeof hook_array[0]); i++) { char *name = upstrdup (hook_array[i].name); if (strcmp (hook_array[i].docname, docname) != 0) continue; if (!hook_array[i].type) { if (*name) { if (nest && nest == print_nest) printf (" %s, \\\n", name); nest++; if (nest > MAX_NEST) fatal ("Unexpected nesting of %s\n", name); if (nest == print_nest) printf ("\n#define %s \\\n { \\\n", name); } else { if (nest == print_nest) printf (" }\n"); nest--; } continue; } if (0 == print_nest) { /* Output default definitions of target hooks. */ printf ("#ifndef %s\n#define %s %s\n#endif\n", name, name, hook_array[i].init); } if (nest == print_nest) printf (" %s, \\\n", name); } } } int main (int argc, char **argv) { if (argc >= 3) emit_documentation (argv[2]); else emit_init_macros (argv[1]); return 0; }