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|
/* GNU m4 -- A simple macro processor
Copyright (C) 1989, 1990, 1991, 1992, 1993, 1994, 1999, 2000, 2003,
2004, 2005, 2006, 2007, 2008, 2009 Free Software Foundation, Inc.
This file is part of GNU M4.
GNU M4 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 of the License, or
(at your option) any later version.
GNU M4 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 this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef M4MODULE_H
#define M4MODULE_H 1
#include <m4/hash.h>
#include <m4/system.h>
BEGIN_C_DECLS
/* --- MODULE AUTHOR DECLARATIONS --- */
typedef struct m4 m4;
typedef struct m4_builtin m4_builtin;
typedef struct m4_call_info m4_call_info;
typedef struct m4_macro m4_macro;
typedef struct m4_macro_args m4_macro_args;
typedef struct m4_module m4_module;
typedef struct obstack m4_obstack;
typedef struct m4_string m4_string;
typedef struct m4_string_pair m4_string_pair;
typedef struct m4_symbol m4_symbol;
typedef struct m4_symbol_value m4_symbol_value;
typedef void m4_builtin_func (m4 *, m4_obstack *, size_t, m4_macro_args *);
/* The value of m4_builtin flags is built from these: */
enum {
/* Set if macro flattens non-text tokens, such as builtin macro
tokens, to the empty string prior to invoking the builtin; if
clear, non-text tokens must be transparently handled by the
builtin. May only be set if max_args is nonzero. */
M4_BUILTIN_FLATTEN_ARGS = (1 << 0),
/* Set if macro should only be recognized with arguments; may only
be set if min_args is nonzero. */
M4_BUILTIN_BLIND = (1 << 1),
/* Set if macro has side effects even when there are too few
arguments; may only be set if min_args is nonzero. */
M4_BUILTIN_SIDE_EFFECT = (1 << 2),
/* Mask of valid flag bits. Any other bits must be set to 0. */
M4_BUILTIN_FLAGS_MASK = (1 << 3) - 1
};
struct m4_builtin
{
m4_builtin_func * func; /* implementation of the builtin */
const char * name; /* name found by builtin, printed by dumpdef */
int flags; /* bitwise OR of M4_BUILTIN_* bits */
size_t min_args; /* 0-based minimum number of arguments */
/* max arguments, SIZE_MAX if unlimited; must be >= min_args */
size_t max_args;
};
struct m4_macro
{
const char *name;
const char *value;
size_t min_args; /* 0-based minimum number of arguments */
/* max arguments, SIZE_MAX if unlimited; must be >= min_args */
size_t max_args;
};
/* Describe a single string, such as a macro name. */
struct m4_string
{
char *str; /* Array of characters, possibly including NUL. */
size_t len; /* Length of string. */
};
/* Describe a pair of strings, such as begin and end quotes. */
struct m4_string_pair
{
char *str1; /* First string. */
size_t len1; /* First length. */
char *str2; /* Second string. */
size_t len2; /* Second length. */
};
/* Declare a prototype for the function "builtin_<NAME>". Note that
the function name includes any macro expansion of NAME. */
#define M4BUILTIN(name) \
static void CONC (builtin_, name) \
(m4 *, m4_obstack *, size_t, m4_macro_args *);
/* Begin the implementation of the function "builtin_<NAME>",
declaring parameter names that can be used by other helper macros
in this file. Note that the function name includes any macro
expansion of NAME. */
#define M4BUILTIN_HANDLER(name) \
static void CONC (builtin_, name) \
(m4 *context, m4_obstack *obs, size_t argc, m4_macro_args *argv)
/* Declare a prototype, then begin the implementation of the function
"<NAME>_LTX_m4_init_module", which will automatically be registered
as the initialization function for module NAME. Note that NAME is
intentionally used literally, rather than subjected to macro
expansion. */
#define M4INIT_HANDLER(name) \
void name ## _LTX_m4_init_module \
(m4 *, m4_module *, m4_obstack *); \
void name ## _LTX_m4_init_module \
(m4 *context, m4_module *module, m4_obstack *obs)
/* Declare a prototype, then begin the implementation of the function
"<NAME>_LTX_m4_init_module", which will automatically be registered
as the cleanup function for module NAME. Note that NAME is
intentionally used literally, rather than subjected to macro
expansion. */
#define M4FINISH_HANDLER(name) \
void name ## _LTX_m4_finish_module \
(m4 *, m4_module *, m4_obstack *); \
void name ## _LTX_m4_finish_module \
(m4 *context, m4_module *module, m4_obstack *obs)
/* Declare a variable S of type "<S>_func" to be a pointer to the
function named S imported from the module M, or NULL if the import
fails. Note that M and S are intentionally used literally rather
than subjected to macro expansion, in all but the variable name. */
#define M4_MODULE_IMPORT(M, S) \
S ## _func *S = (S ## _func *) m4_module_import (context, #M, #S, obs)
/* Build an entry in a builtin table, for the builtin N implemented by
the function "builtin_<N>" with name NAME. Build the flags from
the appropriate combination of M4_BUILTIN_FLAG_* based on M if the
builtin transparently supports macro tokens, B if it is blind, and
S if it has side effects. Specify that the builtin takes MIN and
MAX arguments. Note that N is subject to macro expansion, and that
NAME is generally used as #N to avoid clashes with builtins named
after a standard function that is defined as a macro. */
#define M4BUILTIN_ENTRY(N, NAME, M, B, S, MIN, MAX) \
{ \
CONC (builtin_, N), NAME, \
(((!(M) && (MAX)) ? M4_BUILTIN_FLATTEN_ARGS : 0) \
| (((B) && (MIN)) ? M4_BUILTIN_BLIND : 0) \
| (((S) && (MIN)) ? M4_BUILTIN_SIDE_EFFECT : 0)), \
MIN, MAX \
},
/* Grab the text contents of argument I, or abort if the argument is
not text. Assumes that `m4 *context' and `m4_macro_args *argv' are
in scope. */
#define M4ARG(i) m4_arg_text (context, argv, i, false)
/* Grab the length of the text contents of argument I, or abort if the
argument is not text. Assumes that `m4 *context' and
`m4_macro_args *argv' are in scope. */
#define M4ARGLEN(i) m4_arg_len (context, argv, i, false)
extern bool m4_bad_argc (m4 *, size_t, const m4_call_info *, size_t,
size_t, bool);
extern bool m4_numeric_arg (m4 *, const m4_call_info *, const char *,
size_t, int *);
extern bool m4_parse_truth_arg (m4 *, const m4_call_info *, const char *,
size_t, bool);
extern m4_symbol *m4_symbol_value_lookup (m4 *, m4_macro_args *, size_t, bool);
extern const char *m4_info_name (const m4_call_info *);
/* Error handling. */
extern void m4_error (m4 *, int, int, const m4_call_info *, const char *, ...)
M4_GNUC_PRINTF (5, 6);
extern void m4_warn (m4 *, int, const m4_call_info *, const char *, ...)
M4_GNUC_PRINTF (4, 5);
extern const char * m4_get_program_name (void);
extern void m4_set_program_name (const char *);
extern void m4_set_exit_failure (int);
/* --- CONTEXT MANAGEMENT --- */
typedef struct m4_syntax_table m4_syntax_table;
typedef struct m4_symbol_table m4_symbol_table;
extern m4 * m4_create (void);
extern void m4_delete (m4 *);
#define m4_context_field_table \
M4FIELD(m4_symbol_table *, symbol_table, symtab) \
M4FIELD(m4_syntax_table *, syntax_table, syntax) \
M4FIELD(const char *, current_file, current_file) \
M4FIELD(int, current_line, current_line) \
M4FIELD(int, output_line, output_line) \
M4FIELD(FILE *, debug_file, debug_file) \
M4FIELD(m4_obstack, trace_messages, trace_messages) \
M4FIELD(int, exit_status, exit_status) \
M4FIELD(int, current_diversion, current_diversion) \
M4FIELD(size_t, nesting_limit_opt, nesting_limit) \
M4FIELD(int, debug_level_opt, debug_level) \
M4FIELD(size_t, max_debug_arg_length_opt, max_debug_arg_length)\
M4FIELD(int, regexp_syntax_opt, regexp_syntax) \
#define m4_context_opt_bit_table \
M4OPT_BIT(M4_OPT_PREFIX_BUILTINS_BIT, prefix_builtins_opt) \
M4OPT_BIT(M4_OPT_SUPPRESS_WARN_BIT, suppress_warnings_opt) \
M4OPT_BIT(M4_OPT_DISCARD_COMMENTS_BIT, discard_comments_opt) \
M4OPT_BIT(M4_OPT_INTERACTIVE_BIT, interactive_opt) \
M4OPT_BIT(M4_OPT_SYNCOUTPUT_BIT, syncoutput_opt) \
M4OPT_BIT(M4_OPT_POSIXLY_CORRECT_BIT, posixly_correct_opt) \
M4OPT_BIT(M4_OPT_FATAL_WARN_BIT, fatal_warnings_opt) \
M4OPT_BIT(M4_OPT_WARN_EXIT_BIT, warnings_exit_opt) \
M4OPT_BIT(M4_OPT_SAFER_BIT, safer_opt) \
#define M4FIELD(type, base, field) \
extern type CONC (m4_get_, base) (m4 *context); \
extern type CONC (m4_set_, base) (m4 *context, type value);
m4_context_field_table
#undef M4FIELD
#define M4OPT_BIT(bit, base) \
extern bool CONC (m4_get_, base) (m4 *context); \
extern bool CONC (m4_set_, base) (m4 *context, bool value);
m4_context_opt_bit_table
#undef M4OPT_BIT
#define M4SYMTAB (m4_get_symbol_table (context))
#define M4SYNTAX (m4_get_syntax_table (context))
/* --- MODULE MANAGEMENT --- */
typedef void m4_module_init_func (m4 *, m4_module *, m4_obstack *);
typedef void m4_module_finish_func (m4 *, m4_module *, m4_obstack *);
extern m4_module * m4_module_load (m4 *, const char *, m4_obstack *);
extern const char * m4_module_makeresident (m4_module *);
extern int m4_module_refcount (const m4_module *);
extern void m4_module_unload (m4 *, const char *, m4_obstack *);
extern void * m4_module_import (m4 *, const char *, const char *,
m4_obstack *);
extern const char * m4_get_module_name (const m4_module *);
extern void m4__module_exit (m4 *);
/* --- SYMBOL TABLE MANAGEMENT --- */
typedef void *m4_symtab_apply_func (m4_symbol_table *, const char *, size_t,
m4_symbol *, void *);
extern m4_symbol_table *m4_symtab_create (size_t);
extern void m4_symtab_delete (m4_symbol_table *);
extern void * m4_symtab_apply (m4_symbol_table *, bool,
m4_symtab_apply_func *, void *);
extern m4_symbol *m4_symbol_lookup (m4_symbol_table *, const char *, size_t);
extern m4_symbol *m4_symbol_pushdef (m4_symbol_table *, const char *, size_t,
m4_symbol_value *);
extern m4_symbol *m4_symbol_define (m4_symbol_table *, const char *, size_t,
m4_symbol_value *);
extern void m4_symbol_popdef (m4_symbol_table *, const char *, size_t);
extern m4_symbol *m4_symbol_rename (m4_symbol_table *, const char *, size_t,
const char *, size_t);
extern void m4_symbol_delete (m4_symbol_table *, const char *, size_t);
#define m4_symbol_delete(symtab, name, len) M4_STMT_START \
{ \
while (m4_symbol_lookup (symtab, name, len)) \
m4_symbol_popdef (symtab, name, len); \
} M4_STMT_END
extern m4_symbol_value *m4_get_symbol_value (m4_symbol *);
extern bool m4_get_symbol_traced (m4_symbol *);
extern bool m4_set_symbol_name_traced (m4_symbol_table *,
const char *, size_t, bool);
extern void m4_symbol_print (m4 *, m4_symbol *, m4_obstack *,
const m4_string_pair *, bool, size_t,
bool);
extern bool m4_symbol_value_flatten_args (m4_symbol_value *);
#define m4_is_symbol_void(symbol) \
(m4_is_symbol_value_void (m4_get_symbol_value (symbol)))
#define m4_is_symbol_text(symbol) \
(m4_is_symbol_value_text (m4_get_symbol_value (symbol)))
#define m4_is_symbol_func(symbol) \
(m4_is_symbol_value_func (m4_get_symbol_value (symbol)))
#define m4_is_symbol_placeholder(symbol) \
(m4_is_symbol_value_placeholder (m4_get_symbol_value (symbol)))
#define m4_get_symbol_text(symbol) \
(m4_get_symbol_value_text (m4_get_symbol_value (symbol)))
#define m4_get_symbol_len(symbol) \
(m4_get_symbol_value_len (m4_get_symbol_value (symbol)))
#define m4_get_symbol_func(symbol) \
(m4_get_symbol_value_func (m4_get_symbol_value (symbol)))
#define m4_get_symbol_builtin(symbol) \
(m4_get_symbol_value_builtin (m4_get_symbol_value (symbol)))
#define m4_get_symbol_placeholder(symbol) \
(m4_get_symbol_value_placeholder (m4_get_symbol_value (symbol)))
#define m4_symbol_flatten_args(symbol) \
(m4_symbol_value_flatten_args (m4_get_symbol_value (symbol)))
extern m4_symbol_value *m4_symbol_value_create (void);
extern void m4_symbol_value_delete (m4_symbol_value *);
extern bool m4_symbol_value_copy (m4 *, m4_symbol_value *,
m4_symbol_value *);
extern bool m4_is_symbol_value_text (m4_symbol_value *);
extern bool m4_is_symbol_value_func (m4_symbol_value *);
extern bool m4_is_symbol_value_placeholder (m4_symbol_value *);
extern bool m4_is_symbol_value_void (m4_symbol_value *);
extern const char * m4_get_symbol_value_text (m4_symbol_value *);
extern size_t m4_get_symbol_value_len (m4_symbol_value *);
extern unsigned int m4_get_symbol_value_quote_age (m4_symbol_value *);
extern m4_builtin_func *m4_get_symbol_value_func (m4_symbol_value *);
extern const m4_builtin *m4_get_symbol_value_builtin (m4_symbol_value *);
extern const char * m4_get_symbol_value_placeholder (m4_symbol_value *);
extern void m4_set_symbol_value_text (m4_symbol_value *,
const char *, size_t,
unsigned int);
extern void m4_set_symbol_value_placeholder (m4_symbol_value *,
const char *);
/* --- BUILTIN MANAGEMENT --- */
extern m4_symbol_value *m4_builtin_find_by_name (m4_module *, const char *);
extern m4_symbol_value *m4_builtin_find_by_func (m4_module *,
m4_builtin_func *);
/* --- MACRO MANAGEMENT --- */
extern void m4_macro_expand_input (m4 *);
extern void m4_macro_call (m4 *, m4_symbol_value *, m4_obstack *,
m4_macro_args *);
extern size_t m4_arg_argc (m4_macro_args *);
extern const m4_call_info *m4_arg_info (m4_macro_args *);
extern m4_symbol_value *m4_arg_symbol (m4_macro_args *, size_t);
extern bool m4_is_arg_text (m4_macro_args *, size_t);
extern bool m4_is_arg_func (m4_macro_args *, size_t);
extern bool m4_is_arg_composite (m4_macro_args *, size_t);
extern const char *m4_arg_text (m4 *, m4_macro_args *, size_t, bool);
extern bool m4_arg_equal (m4 *, m4_macro_args *, size_t,
size_t);
extern bool m4_arg_empty (m4_macro_args *, size_t);
extern size_t m4_arg_len (m4 *, m4_macro_args *, size_t, bool);
extern m4_builtin_func *m4_arg_func (m4_macro_args *, size_t);
extern m4_obstack *m4_arg_scratch (m4 *);
extern m4_macro_args *m4_make_argv_ref (m4 *, m4_macro_args *, const char *,
size_t, bool, bool);
extern void m4_push_arg (m4 *, m4_obstack *, m4_macro_args *,
size_t);
extern void m4_push_args (m4 *, m4_obstack *, m4_macro_args *,
bool, bool);
extern void m4_wrap_args (m4 *, m4_macro_args *);
/* --- RUNTIME DEBUGGING --- */
/* The value of debug_level is a bitmask of the following: */
enum {
/* a: show arglist in trace output */
M4_DEBUG_TRACE_ARGS = (1 << 0),
/* e: show expansion in trace output */
M4_DEBUG_TRACE_EXPANSION = (1 << 1),
/* q: quote args and expansion in trace output */
M4_DEBUG_TRACE_QUOTE = (1 << 2),
/* t: trace all macros -- overrides trace{on,off} */
M4_DEBUG_TRACE_ALL = (1 << 3),
/* l: add line numbers to trace output */
M4_DEBUG_TRACE_LINE = (1 << 4),
/* f: add file name to trace output */
M4_DEBUG_TRACE_FILE = (1 << 5),
/* p: trace path search of include files */
M4_DEBUG_TRACE_PATH = (1 << 6),
/* c: show macro call before args collection */
M4_DEBUG_TRACE_CALL = (1 << 7),
/* i: trace changes of input files */
M4_DEBUG_TRACE_INPUT = (1 << 8),
/* x: add call id to trace output */
M4_DEBUG_TRACE_CALLID = (1 << 9),
/* m: trace module actions */
M4_DEBUG_TRACE_MODULE = (1 << 10),
/* s: trace pushdef stacks */
M4_DEBUG_TRACE_STACK = (1 << 11),
/* d: warn if dereferencing undefined macro */
M4_DEBUG_TRACE_DEREF = (1 << 12),
/* o: output dumpdef to stderr, not debug file */
M4_DEBUG_TRACE_OUTPUT_DUMPDEF = (1 << 13),
/* V: very verbose -- print everything */
M4_DEBUG_TRACE_VERBOSE = ((1 << 14) - 1)
};
/* initial flags, used if no -d or -E -- equiv: d */
#define M4_DEBUG_TRACE_INITIAL M4_DEBUG_TRACE_DEREF
/* default flags, used by debugmode() -- equiv: +adeq */
#define M4_DEBUG_TRACE_DEFAULT \
(M4_DEBUG_TRACE_ARGS | M4_DEBUG_TRACE_EXPANSION \
| M4_DEBUG_TRACE_QUOTE | M4_DEBUG_TRACE_DEREF)
#define m4_is_debug_bit(C,B) ((m4_get_debug_level_opt (C) & (B)) != 0)
extern int m4_debug_decode (m4 *, const char *, size_t);
extern bool m4_debug_set_output (m4 *, const m4_call_info *,
const char *);
extern void m4_debug_message_prefix (m4 *);
extern void m4_debug_message (m4 *, int, const char *, ...)
M4_GNUC_PRINTF (3, 4);
extern void m4_trace_prepare (m4 *, const m4_call_info *,
m4_symbol_value *);
/* --- REGEXP SYNTAX --- */
extern const char * m4_regexp_syntax_decode (int);
extern int m4_regexp_syntax_encode (const char *);
/* --- SYNTAX TABLE DEFINITIONS --- */
extern m4_syntax_table *m4_syntax_create (void);
extern void m4_syntax_delete (m4_syntax_table *syntax);
extern int m4_syntax_code (char ch);
extern const char * m4_get_syntax_lquote (m4_syntax_table *syntax);
extern const char * m4_get_syntax_rquote (m4_syntax_table *syntax);
extern const char * m4_get_syntax_bcomm (m4_syntax_table *syntax);
extern const char * m4_get_syntax_ecomm (m4_syntax_table *syntax);
extern const m4_string_pair *m4_get_syntax_quotes (m4_syntax_table *);
extern const m4_string_pair *m4_get_syntax_comments (m4_syntax_table *);
extern bool m4_is_syntax_single_quotes (m4_syntax_table *);
extern bool m4_is_syntax_single_comments (m4_syntax_table *);
extern bool m4_is_syntax_single_dollar (m4_syntax_table *);
extern bool m4_is_syntax_macro_escaped (m4_syntax_table *);
/* These are values to be assigned to syntax table entries. Although
they are bit masks for fast categorization in m4__next_token(),
only one value per syntax table entry is allowed. The enumeration
is currently sorted in order of parsing precedence. */
enum {
M4_SYNTAX_IGNORE = 0,
M4_SYNTAX_ESCAPE = 1 << 0,
M4_SYNTAX_ALPHA = 1 << 1,
M4_SYNTAX_LQUOTE = 1 << 2,
M4_SYNTAX_BCOMM = 1 << 3,
M4_SYNTAX_ACTIVE = 1 << 4,
M4_SYNTAX_NUM = 1 << 5,
M4_SYNTAX_SPACE = 1 << 6,
M4_SYNTAX_OPEN = 1 << 7,
M4_SYNTAX_CLOSE = 1 << 8,
M4_SYNTAX_COMMA = 1 << 9,
M4_SYNTAX_OTHER = 1 << 10,
/* These values are bit masks to OR with categories above, a syntax entry
may have any number of these in addition to a maximum of one of the
values above. */
M4_SYNTAX_DOLLAR = 1 << 11,
M4_SYNTAX_LBRACE = 1 << 12,
M4_SYNTAX_RBRACE = 1 << 13,
M4_SYNTAX_RQUOTE = 1 << 14,
M4_SYNTAX_ECOMM = 1 << 15
};
/* Mask of attribute syntax categories. */
#define M4_SYNTAX_MASKS (M4_SYNTAX_RQUOTE | M4_SYNTAX_ECOMM \
| M4_SYNTAX_DOLLAR | M4_SYNTAX_LBRACE \
| M4_SYNTAX_RBRACE)
/* Mask of basic syntax categories where any change requires a
recomputation of the overall syntax characteristics. */
#define M4_SYNTAX_SUSPECT (M4_SYNTAX_LQUOTE | M4_SYNTAX_BCOMM \
| M4_SYNTAX_ESCAPE)
#define m4_syntab(S, C) ((S)->table[(C)])
/* Determine if character C matches any of the bitwise-or'd syntax
categories T for the given syntax table S. C can be either an
unsigned int (including special values such as CHAR_BUILTIN) or a
char which will be interpreted as an unsigned char. */
#define m4_has_syntax(S, C, T) \
((m4_syntab ((S), sizeof (C) == 1 ? to_uchar (C) : (C)) & (T)) > 0)
extern void m4_set_quotes (m4_syntax_table *, const char *, size_t,
const char *, size_t);
extern void m4_set_comment (m4_syntax_table *, const char *, size_t,
const char *, size_t);
extern int m4_set_syntax (m4_syntax_table *, char, char, const char *,
size_t);
extern void m4_reset_syntax (m4_syntax_table *);
/* --- INPUT TOKENIZATION --- */
extern void m4_input_init (m4 *context);
extern void m4_input_exit (void);
extern void m4_skip_line (m4 *context, const m4_call_info *);
/* push back input */
extern void m4_push_file (m4 *, FILE *, const char *, bool);
extern void m4_push_builtin (m4 *, m4_obstack *, m4_symbol_value *);
extern m4_obstack *m4_push_string_init (m4 *, const char *, int);
extern void m4_push_string_finish (void);
extern bool m4_pop_wrapup (m4 *);
extern void m4_input_print (m4 *, m4_obstack *, int);
/* --- OUTPUT MANAGEMENT --- */
extern void m4_output_init (m4 *);
extern void m4_output_exit (void);
extern void m4_output_text (m4 *, const char *, size_t);
extern void m4_divert_text (m4 *, m4_obstack *, const char *,
size_t, int);
extern void m4_shipout_int (m4_obstack *, int);
extern void m4_shipout_string (m4 *, m4_obstack *, const char *,
size_t, bool);
extern bool m4_shipout_string_trunc (m4_obstack *, const char *, size_t,
const m4_string_pair *, size_t *);
extern void m4_make_diversion (m4 *, int);
extern void m4_insert_diversion (m4 *, int);
extern void m4_insert_file (m4 *, FILE *);
extern void m4_freeze_diversions (m4 *, FILE *);
extern void m4_undivert_all (m4 *);
/* --- PATH MANAGEMENT --- */
extern void m4_include_env_init (m4 *);
extern void m4_add_include_directory (m4 *, const char *, bool);
extern FILE * m4_path_search (m4 *, const char *, char **);
#define obstack_chunk_alloc xmalloc
#define obstack_chunk_free free
/* Convert a possibly-signed character to an unsigned character. This is
a bit safer than casting to unsigned char, since it catches some type
errors that the cast doesn't. */
#if HAVE_INLINE
static inline unsigned char to_uchar (char ch) { return ch; }
#else
# define to_uchar(C) ((unsigned char) (C))
#endif
END_C_DECLS
#endif /* !M4MODULE_H */
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