/* -*- indented-text -*- */
/* Process source files and output type information.
- Copyright (C) 2002, 2003, 2004 Free Software Foundation, Inc.
+ Copyright (C) 2002, 2003, 2004, 2005 Free Software Foundation, Inc.
This file is part of GCC.
#include "gengtype.h"
#include "gengtype-yacc.h"
+#define YY_INPUT(BUF,RESULT,SIZE) ((RESULT) = macro_input (BUF,SIZE))
+
+static unsigned macro_input (char *buffer, unsigned);
+static const char *push_macro_expansion (const char *, unsigned,
+ const char *, unsigned);
+static char *mangle_macro_name (const char *, unsigned,
+ const char *, unsigned);
static void update_lineno (const char *l, size_t len);
struct fileloc lexer_line;
is_pointer = 1;
for (namelen = 1; ISIDNUM (namestart[namelen]); namelen++)
;
- t = find_structure (xmemdup (tagstart, taglen, taglen+1), union_p);
+ t = find_structure ((const char *) xmemdup (tagstart, taglen, taglen+1),
+ union_p);
if (is_pointer)
t = create_pointer (t);
- do_typedef (xmemdup (namestart, namelen, namelen+1), t, &lexer_line);
+ namestart = (char *) xmemdup (namestart, namelen, namelen+1);
+#ifdef USE_MAPPED_LOCATION
+ /* temporary kludge - gentype doesn't handle cpp conditionals */
+ if (strcmp (namestart, "location_t") != 0
+ && strcmp (namestart, "expanded_location") != 0)
+#endif
+ do_typedef (namestart, t, &lexer_line);
update_lineno (yytext, yyleng);
}
ISSPACE(*typestart);
typestart++)
;
- for (typelen = namestart - typestart;
- ISSPACE(typestart[typelen-1]);
+ for (typelen = namestart - typestart;
+ ISSPACE (typestart[typelen-1]);
typelen--)
;
t = create_scalar_type (typestart, typelen);
- do_typedef (xmemdup (namestart, namelen, namelen+1), t, &lexer_line);
+ do_typedef ((const char *) xmemdup (namestart, namelen, namelen+1), t,
+ &lexer_line);
update_lineno (yytext, yyleng);
}
namestart -= namelen - 1;
t = create_scalar_type ("function type", sizeof ("function type")-1);
- do_typedef (xmemdup (namestart, namelen, namelen+1), t, &lexer_line);
+ do_typedef ((const char *) xmemdup (namestart, namelen, namelen+1), t,
+ &lexer_line);
update_lineno (yytext, yyleng);
}
namestart -= namelen - 1;
t = create_scalar_type ("function type", sizeof ("function type")-1);
- do_typedef (xmemdup (namestart, namelen, namelen+1), t, &lexer_line);
+ do_typedef ((const char *) xmemdup (namestart, namelen, namelen+1), t,
+ &lexer_line);
update_lineno (yytext, yyleng);
}
namestart -= namelen - 1;
t = create_scalar_type ("function type", sizeof ("function type")-1);
- do_typedef (xmemdup (namestart, namelen, namelen+1), t, &lexer_line);
+ do_typedef ((const char *) xmemdup (namestart, namelen, namelen+1), t,
+ &lexer_line);
update_lineno (yytext, yyleng);
}
namestart -= namelen - 1;
t = create_scalar_type ("function type", sizeof ("function type")-1);
- do_typedef (xmemdup (namestart, namelen, namelen+1), t, &lexer_line);
+ do_typedef ((const char *) xmemdup (namestart, namelen, namelen+1), t,
+ &lexer_line);
update_lineno (yytext, yyleng);
}
for (taglen = 1; ISIDNUM (tagstart[taglen]); taglen++)
;
- yylval.t = find_structure (xmemdup (tagstart, taglen, taglen + 1), union_p);
+ yylval.t = find_structure ((const char *) xmemdup (tagstart, taglen,
+ taglen + 1),
+ union_p);
BEGIN(in_struct);
update_lineno (yytext, yyleng);
return typedef_p ? ENT_TYPEDEF_STRUCT : ENT_STRUCT;
return ENT_YACCUNION;
}
+^"DEF_VEC_"[[:alnum:]_]*{WS}?"("{WS}?{ID}{WS}?(","{WS}?{ID}{WS}?)*")" {
+ char *macro, *arg;
+ unsigned macro_len, arg_len;
+ char *ptr = yytext;
+ const char *additional;
+ type_p t;
+
+ /* Find the macro name. */
+ for (macro = ptr; *ptr != '(' && !ISSPACE (*ptr); ptr++)
+ continue;
+ for (macro_len = ptr - macro; !(ISALNUM (*ptr) || *ptr == '_'); ptr++)
+ continue;
+
+ /* Find the argument(s). */
+ for (arg = ptr; *ptr != ')'; ptr++)
+ continue;
+ arg_len = ptr - arg;
+
+ /* Create the struct and typedef. */
+ ptr = mangle_macro_name ("VEC", 3, arg, arg_len);
+
+ t = find_structure (ptr, 0);
+ do_typedef (ptr, t, &lexer_line);
+
+ /* Push the macro for later expansion. */
+ additional = push_macro_expansion (macro, macro_len, arg, arg_len);
+
+ if (additional)
+ {
+ ptr = mangle_macro_name (ptr, strlen (ptr),
+ additional, strlen (additional));
+ t = find_structure (ptr, 0);
+ do_typedef (ptr, t, &lexer_line);
+ }
+}
+
<in_struct>{
"/*" { BEGIN(in_struct_comment); }
-^"%{" { BEGIN(in_yacc_escape); }
-
-^"@@".* /* Used for c-parse.in C/ObjC demarcation. */
+^"%{" { BEGIN(in_yacc_escape); } /* } */
{WS} { update_lineno (yytext, yyleng); }
"const"/[^[:alnum:]_] /* don't care */
-
"GTY"/[^[:alnum:]_] { return GTY_TOKEN; }
"union"/[^[:alnum:]_] { return UNION; }
"struct"/[^[:alnum:]_] { return STRUCT; }
"ptr_alias"/[^[:alnum:]_] { return ALIAS; }
"nested_ptr"/[^[:alnum:]_] { return NESTED_PTR; }
[0-9]+ { return NUM; }
-"param"[0-9]*"_is"/[^[:alnum:]_] {
- yylval.s = xmemdup (yytext, yyleng, yyleng+1);
+"param"[0-9]*"_is"/[^[:alnum:]_] {
+ yylval.s = (const char *) xmemdup (yytext, yyleng, yyleng+1);
return PARAM_IS;
}
return SCALAR;
}
+"VEC"{WS}?"("{WS}?{ID}{WS}?(","{WS}?{ID}{WS}?)*")" {
+ char *macro, *arg;
+ unsigned macro_len, arg_len;
+ char *ptr = yytext;
+
+ /* Find the macro name */
+ for (macro = ptr; *ptr != '(' && !ISSPACE (*ptr); ptr++)
+ continue;
+ for (macro_len = ptr - macro; !(ISALNUM(*ptr) || *ptr == '_'); ptr++)
+ continue;
+
+ /* Find the arguments. */
+ for (arg = ptr; *ptr != ')'; ptr++)
+ continue;
+ arg_len = ptr - arg;
+
+ ptr = mangle_macro_name (macro, macro_len, arg, arg_len);
+ yylval.s = ptr;
+ return ID;
+}
+
{ID}/[^[:alnum:]_] {
- yylval.s = xmemdup (yytext, yyleng, yyleng+1);
+ yylval.s = (const char *) xmemdup (yytext, yyleng, yyleng+1);
return ID;
}
\"([^"\\]|\\.)*\" {
- yylval.s = xmemdup (yytext+1, yyleng-2, yyleng-1);
+ yylval.s = (const char *) xmemdup (yytext+1, yyleng-2, yyleng-1);
return STRING;
}
"["[^\[\]]*"]" {
- yylval.s = xmemdup (yytext+1, yyleng-2, yyleng-1);
+ yylval.s = (const char *) xmemdup (yytext+1, yyleng-2, yyleng-1);
return ARRAY;
}
^"%"{ID} {
- yylval.s = xmemdup (yytext+1, yyleng-1, yyleng);
+ yylval.s = (const char *) xmemdup (yytext+1, yyleng-1, yyleng);
return PERCENT_ID;
}
"'"("\\".|[^\\])"'" {
- yylval.s = xmemdup (yytext+1, yyleng-2, yyleng);
+ yylval.s = (const char *) xmemdup (yytext+1, yyleng-2, yyleng);
return CHAR;
}
return PERCENTPERCENT;
}
+"#define"[^\n]*\n {lexer_line.line++;}
+
. {
error_at_line (&lexer_line, "unexpected character `%s'", yytext);
}
%%
+/* Deal with the expansion caused by the DEF_VEC_x macros. */
+
+/* Mangle a macro and argument list as done by cpp concatenation in
+ the compiler proper. */
+static char *
+mangle_macro_name (const char *macro, unsigned macro_len,
+ const char *arg, unsigned arg_len)
+{
+ char *ptr = (char *) xmemdup (macro, macro_len, macro_len + arg_len + 2);
+
+ /* Now copy and concatenate each argument */
+ while (arg_len)
+ {
+ ptr[macro_len++] = '_';
+ for (; arg_len && (ISALNUM(*arg) || *arg == '_'); arg_len--)
+ ptr[macro_len++] = *arg++;
+ for (; arg_len && !(ISALNUM(*arg) || *arg == '_'); arg_len--)
+ arg++;
+ }
+ ptr[macro_len] = 0;
+
+ return ptr;
+}
+
+typedef struct macro_def
+{
+ const char *name;
+ const char *expansion;
+ const char *additional;
+} macro_def_t;
+
+typedef struct macro
+{
+ const macro_def_t *def;
+ struct macro *next;
+ const char *args[10];
+} macro_t;
+
+static const macro_def_t macro_defs[] =
+{
+#define IN_GENGTYPE 1
+#include "vec.h"
+ {NULL, NULL, NULL}
+};
+
+/* Chain of macro expansions to do at end of scanning. */
+static macro_t *macro_expns;
+static macro_t *macro_expns_end;
+
+/* Push macro NAME (NAME_LEN) with argument ARG (ARG_LEN) onto the
+ expansion queue. We ensure NAME is known at this point. */
+
+static const char *
+push_macro_expansion (const char *name, unsigned name_len,
+ const char *arg, unsigned arg_len)
+{
+ unsigned ix;
+
+ for (ix = 0; macro_defs[ix].name; ix++)
+ if (strlen (macro_defs[ix].name) == name_len
+ && !memcmp (name, macro_defs[ix].name, name_len))
+ {
+ macro_t *expansion = XNEW (macro_t);
+ char *args;
+ unsigned argno, last_arg;
+
+ expansion->def = ¯o_defs[ix];
+ expansion->next = NULL;
+ args = (char *) xmemdup (arg, arg_len, arg_len+1);
+ args[arg_len] = 0;
+ for (argno = 0; *args;)
+ {
+ expansion->args[argno++] = args;
+ while (*args && (ISALNUM (*args) || *args == '_'))
+ args++;
+ if (argno == 1)
+ expansion->args[argno++] = "base";
+ if (!*args)
+ break;
+ *args++ = 0;
+ while (*args && !(ISALNUM (*args) || *args == '_'))
+ args++;
+ }
+ last_arg = argno;
+ for (; argno != 10; argno++)
+ expansion->args[argno] = NULL;
+ if (macro_expns_end)
+ macro_expns_end->next = expansion;
+ else
+ macro_expns = expansion;
+ macro_expns_end = expansion;
+ if (macro_defs[ix].additional)
+ {
+ macro_t *expn2 = XNEW (macro_t);
+ memcpy (expn2, expansion, sizeof (*expn2));
+ expansion = expn2;
+ expansion->def += 1;
+ expansion->args[last_arg++] = macro_defs[ix].additional;
+ macro_expns_end->next = expansion;
+ macro_expns_end = expansion;
+ }
+ if (last_arg > 2 && strcmp (expansion->args[last_arg - 1], "heap"))
+ expansion->args[last_arg++] = "GTY (())";
+ return macro_defs[ix].additional;
+ }
+ error_at_line (&lexer_line, "unrecognized macro `%.*s(%.*s)'",
+ name_len, name, arg_len, arg);
+ return NULL;
+}
+
+/* Attempt to read some input. Use fread until we're at the end of
+ file. At end of file expand the next queued macro. We presume the
+ buffer is large enough for the entire expansion. */
+
+static unsigned
+macro_input (char *buffer, unsigned size)
+{
+ unsigned result;
+
+ result = fread (buffer, 1, size, yyin);
+ if (result)
+ /*NOP*/;
+ else if (ferror (yyin))
+ YY_FATAL_ERROR ("read of source file failed");
+ else if (macro_expns)
+ {
+ const char *expn;
+ unsigned len;
+
+ for (expn = macro_expns->def->expansion; *expn; expn++)
+ {
+ if (*expn == '#')
+ {
+ int argno;
+
+ argno = expn[1] - '0';
+ expn += 1;
+
+ /* Remove inserted space? */
+ if (buffer[result-1] == ' ' && buffer[result-2] == '_')
+ result--;
+
+ /* Insert the argument value */
+ if (macro_expns->args[argno])
+ {
+ len = strlen (macro_expns->args[argno]);
+ memcpy (&buffer[result], macro_expns->args[argno], len);
+ result += len;
+ }
+
+ /* Skip next space? */
+ if (expn[1] == ' ' && expn[2] == '_')
+ expn++;
+ }
+ else
+ {
+ buffer[result++] = *expn;
+ if (*expn == ';' || *expn == '{')
+ buffer[result++] = '\n';
+ }
+ }
+ if (result > size)
+ YY_FATAL_ERROR ("buffer too small to expand macro");
+ macro_expns = macro_expns->next;
+ if (!macro_expns)
+ macro_expns_end = NULL;
+ }
+ return result;
+}
+
void
yyerror (const char *s)
{