serval-dna/conf_parse.c
Andrew Bettison 54ce857cff Improve config schema declaration
Remove array key SORTED flag; all arrays are now sorted by key

Use representation's comparison function for sorting arrays, not
a schema-supplied comparison function.
2013-03-01 15:27:28 +10:30

602 lines
20 KiB
C

/*
Serval DNA configuration
Copyright (C) 2012 Serval Project Inc.
This program 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 2
of the License, or (at your option) any later version.
This program 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, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include <assert.h>
#include "log.h"
#include "conf.h"
// Generate config set-default function definitions, cf_dfl_config_NAME().
#define STRUCT(__name, __validator...) \
int cf_dfl_config_##__name(struct config_##__name *s) {
#define NODE(__type, __element, __default, __repr, __flags, __comment) \
s->__element = (__default);
#define ATOM(__type, __element, __default, __repr, __flags, __comment) \
s->__element = (__default);
#define STRING(__size, __element, __default, __repr, __flags, __comment) \
strncpy(s->__element, (__default), (__size))[(__size)] = '\0';
#define SUB_STRUCT(__name, __element, __flags) \
cf_dfl_config_##__name(&s->__element);
#define NODE_STRUCT(__name, __element, __repr, __flags) \
cf_dfl_config_##__name(&s->__element);
#define END_STRUCT \
return CFOK; \
}
#define ARRAY(__name, __flags, __validator...) \
int cf_dfl_config_##__name(struct config_##__name *a) { \
a->ac = 0; \
return CFOK; \
}
#define KEY_ATOM(__type, __keyrepr)
#define KEY_STRING(__strsize, __keyrepr)
#define VALUE_ATOM(__type, __eltrepr)
#define VALUE_STRING(__strsize, __eltrepr)
#define VALUE_NODE(__type, __eltrepr)
#define VALUE_SUB_STRUCT(__structname)
#define VALUE_NODE_STRUCT(__structname, __eltrepr)
#define END_ARRAY(__size)
#include "conf_schema.h"
#undef STRUCT
#undef NODE
#undef ATOM
#undef STRING
#undef SUB_STRUCT
#undef NODE_STRUCT
#undef END_STRUCT
#undef ARRAY
#undef KEY_ATOM
#undef KEY_STRING
#undef VALUE_ATOM
#undef VALUE_STRING
#undef VALUE_NODE
#undef VALUE_SUB_STRUCT
#undef VALUE_NODE_STRUCT
#undef END_ARRAY
// Schema item flags.
#define __MANDATORY (1<<0)
#define __TEXT (1<<1)
#define __CHILDREN (1<<2)
#define __NO_DUPLICATES (1<<3)
// Schema flag symbols, to be used in the '__flags' macro arguments.
#define MANDATORY |__MANDATORY
#define USES_TEXT |__TEXT
#define USES_CHILDREN |__CHILDREN
#define NO_DUPLICATES |__NO_DUPLICATES
// Generate parsing functions, cf_opt_config_SECTION()
#define STRUCT(__name, __validator...) \
int cf_opt_config_##__name(struct config_##__name *strct, const struct cf_om_node *node) { \
int (*validator)(const struct cf_om_node *, struct config_##__name *, int) = (NULL, ##__validator); \
int result = CFEMPTY; \
char used[node->nodc]; \
memset(used, 0, node->nodc * sizeof used[0]);
#define __ITEM(__element, __flags, __parseexpr) \
{ \
int i = cf_om_get_child(node, #__element, NULL); \
const struct cf_om_node *child = (i != -1) ? node->nodv[i] : NULL; \
int ret = CFEMPTY; \
if (child) { \
used[i] |= (__flags); \
ret = (__parseexpr); \
if (ret == CFERROR) \
return CFERROR; \
} \
result |= ret & CF__SUBFLAGS; \
ret &= CF__FLAGS; \
if (!(ret & CFEMPTY)) \
result &= ~CFEMPTY; \
else if ((__flags) & __MANDATORY) { \
cf_warn_missing_node(node, #__element); \
result |= CFINCOMPLETE; \
} \
if (ret & ~CFEMPTY) { \
assert(child != NULL); \
if (child->text) \
cf_warn_node_value(child, ret); \
result |= CFSUB(ret); \
} \
}
#define NODE(__type, __element, __default, __repr, __flags, __comment) \
__ITEM(__element, 0 __flags, cf_opt_##__repr(&strct->__element, child))
#define ATOM(__type, __element, __default, __repr, __flags, __comment) \
__ITEM(__element, ((0 __flags)|__TEXT)&~__CHILDREN, child->text ? cf_opt_##__repr(&strct->__element, child->text) : CFEMPTY)
#define STRING(__size, __element, __default, __repr, __flags, __comment) \
__ITEM(__element, ((0 __flags)|__TEXT)&~__CHILDREN, child->text ? cf_opt_##__repr(strct->__element, (__size) + 1, child->text) : CFEMPTY)
#define SUB_STRUCT(__name, __element, __flags) \
__ITEM(__element, (0 __flags)|__CHILDREN, cf_opt_config_##__name(&strct->__element, child))
#define NODE_STRUCT(__name, __element, __repr, __flags) \
__ITEM(__element, (0 __flags)|__TEXT|__CHILDREN, cf_opt_##__repr(&strct->__element, child))
#define END_STRUCT \
{ \
int i; \
for (i = 0; i < node->nodc; ++i) { \
if (node->nodv[i]->text && !(used[i] & __TEXT)) { \
cf_warn_unsupported_node(node->nodv[i]); \
result |= CFSUB(CFUNSUPPORTED); \
} \
if (node->nodv[i]->nodc && !(used[i] & __CHILDREN)) { \
cf_warn_unsupported_children(node->nodv[i]); \
result |= CFSUB(CFUNSUPPORTED); \
} \
} \
} \
if (validator) \
result = (*validator)(node, strct, result); \
return result; \
}
#define ARRAY(__name, __flags, __validator...) \
int cf_opt_config_##__name(struct config_##__name *array, const struct cf_om_node *node) { \
int flags = (0 __flags); \
int (*keycmp)(const void *, const void *) = NULL; \
int (*validator)(const struct cf_om_node *, struct config_##__name *, int) = (NULL, ##__validator); \
int result = CFOK; \
int i, n; \
for (n = 0, i = 0; i < node->nodc && n < NELS(array->av); ++i) { \
const struct cf_om_node *child = node->nodv[i]; \
int ret = CFEMPTY;
#define __ARRAY_KEY(__parseexpr, __cmpfunc, __cmpfuncargs) \
keycmp = (int (*)(const void *, const void *)) __cmpfunc; \
ret = (__parseexpr); \
if (ret == CFERROR) \
return CFERROR; \
result |= ret & CF__SUBFLAGS; \
ret &= CF__FLAGS; \
result |= CFSUB(ret); \
if (ret == CFOK && (flags & __NO_DUPLICATES)) { \
int j; \
for (j = 0; j < n; ++j) { \
if (__cmpfunc __cmpfuncargs == 0) { \
cf_warn_duplicate_node(child, NULL); \
ret |= CFDUPLICATE; \
} \
} \
} \
if (ret != CFOK) \
cf_warn_array_key(child, ret);
#define __ARRAY_VALUE(__dflexpr, __parseexpr) \
if (ret == CFOK) { \
ret = (__dflexpr); \
if (ret == CFOK) \
ret = (__parseexpr); \
if (ret == CFERROR) \
return CFERROR; \
result |= ret & CF__SUBFLAGS; \
ret &= CF__FLAGS; \
result |= CFSUB(ret); \
if (ret == CFOK) \
++n; \
else \
cf_warn_array_value(child, ret); \
}
#define END_ARRAY(__size) \
} \
if (i < node->nodc) { \
assert(n == NELS(array->av)); \
result |= CFARRAYOVERFLOW; \
for (; i < node->nodc; ++i) \
cf_warn_list_overflow(node->nodv[i]); \
} \
array->ac = n; \
qsort(array->av, array->ac, sizeof array->av[0], (int (*)(const void *, const void *)) keycmp); \
if (validator) \
result = (*validator)(node, array, result); \
if (result & ~CFEMPTY) { \
cf_warn_no_array(node, result); \
array->ac = 0; \
} \
if (array->ac == 0) \
result |= CFEMPTY; \
return result; \
}
#define KEY_ATOM(__type, __keyrepr) \
__ARRAY_KEY(cf_opt_##__keyrepr(&array->av[n].key, child->key), cf_cmp_##__keyrepr, (&array->av[j].key, &array->av[n].key))
#define KEY_STRING(__strsize, __keyrepr) \
__ARRAY_KEY(cf_opt_##__keyrepr(array->av[n].key, sizeof array->av[n].key, child->key), cf_cmp_##__keyrepr, (&array->av[j].key[0], &array->av[n].key[0]))
#define VALUE_ATOM(__type, __eltrepr) \
__ARRAY_VALUE(CFOK, child->text ? cf_opt_##__eltrepr(&array->av[n].value, child->text) : CFEMPTY)
#define VALUE_STRING(__strsize, __eltrepr) \
__ARRAY_VALUE(CFOK, child->text ? cf_opt_##__eltrepr(array->av[n].value, sizeof array->av[n].value, child->text) : CFEMPTY)
#define VALUE_NODE(__type, __eltrepr) \
__ARRAY_VALUE(CFOK, cf_opt_##__eltrepr(&array->av[n].value, child))
#define VALUE_SUB_STRUCT(__structname) \
__ARRAY_VALUE(cf_dfl_config_##__structname(&array->av[n].value), cf_opt_config_##__structname(&array->av[n].value, child))
#define VALUE_NODE_STRUCT(__structname, __eltrepr) \
__ARRAY_VALUE(cf_dfl_config_##__structname(&array->av[n].value), cf_opt_##__eltrepr(&array->av[n].value, child))
#include "conf_schema.h"
#undef STRUCT
#undef NODE
#undef ATOM
#undef STRING
#undef SUB_STRUCT
#undef NODE_STRUCT
#undef END_STRUCT
#undef ARRAY
#undef KEY_ATOM
#undef KEY_STRING
#undef VALUE_ATOM
#undef VALUE_STRING
#undef VALUE_NODE
#undef VALUE_SUB_STRUCT
#undef VALUE_NODE_STRUCT
#undef __ARRAY_KEY
#undef __ARRAY_VALUE
#undef END_ARRAY
// Generate config array search-by-key functions.
#define STRUCT(__name, __validator...)
#define NODE(__type, __element, __default, __repr, __flags, __comment)
#define ATOM(__type, __element, __default, __repr, __flags, __comment)
#define STRING(__size, __element, __default, __repr, __flags, __comment)
#define SUB_STRUCT(__name, __element, __flags)
#define NODE_STRUCT(__name, __element, __repr, __flags)
#define END_STRUCT
#define ARRAY(__name, __flags, __validator...) \
int config_##__name##__get(const struct config_##__name *array,
#define KEY_ATOM(__type, __keyrepr) \
const __type *key) { \
int i; \
for (i = 0; i < array->ac; ++i) \
if ((cf_cmp_##__keyrepr(key, &array->av[i].key)) == 0) \
return i; \
return -1; \
}
#define KEY_STRING(__strsize, __keyrepr) \
const char *key) { \
int i; \
for (i = 0; i < array->ac; ++i) \
if ((cf_cmp_##__keyrepr(&key[0], &array->av[i].key[0])) == 0) \
return i; \
return -1; \
}
#define VALUE_ATOM(__type, __eltrepr)
#define VALUE_STRING(__strsize, __eltrepr)
#define VALUE_NODE(__type, __eltrepr)
#define VALUE_SUB_STRUCT(__structname)
#define VALUE_NODE_STRUCT(__structname, __eltrepr)
#define END_ARRAY(__size)
#include "conf_schema.h"
#undef STRUCT
#undef NODE
#undef ATOM
#undef STRING
#undef SUB_STRUCT
#undef NODE_STRUCT
#undef END_STRUCT
#undef ARRAY
#undef KEY_ATOM
#undef KEY_STRING
#undef VALUE_ATOM
#undef VALUE_STRING
#undef VALUE_NODE
#undef VALUE_SUB_STRUCT
#undef VALUE_NODE_STRUCT
#undef END_ARRAY
// Generate config schema dump functions, cf_sch_config_NAME().
#define STRUCT(__name, __validator...) \
int cf_sch_config_##__name(struct cf_om_node **rootp) { \
int i; \
struct cf_om_node **childp;
#define __ADD_CHILD(nodep, __elementstr) \
if ((i = cf_om_add_child(nodep, __elementstr)) == -1) \
return -1; \
childp = &(*nodep)->nodv[i];
#define __ATOM(nodep, __text) \
if (((*nodep)->text = str_edup(__text)) == NULL) \
return -1;
#define __STRUCT(nodep, __structname) \
if (cf_sch_config_##__structname(nodep) == -1) \
return -1;
#define NODE(__type, __element, __default, __repr, __flags, __comment) \
__ADD_CHILD(rootp, #__element) \
__ATOM(childp, "(" #__repr ")") \
__ADD_CHILD(childp, "(" #__repr ")") \
__ATOM(childp, "(" #__repr ")")
#define ATOM(__type, __element, __default, __repr, __flags, __comment) \
__ADD_CHILD(rootp, #__element) \
__ATOM(childp, "(" #__repr ")")
#define STRING(__size, __element, __default, __repr, __flags, __comment) \
__ADD_CHILD(rootp, #__element) \
__ATOM(childp, "(" #__repr ")")
#define SUB_STRUCT(__structname, __element, __flags) \
__ADD_CHILD(rootp, #__element) \
__STRUCT(childp, __structname)
#define NODE_STRUCT(__structname, __element, __repr, __flags) \
__ADD_CHILD(rootp, #__element) \
__ATOM(childp, "(" #__repr ")") \
__STRUCT(childp, __structname)
#define END_STRUCT \
return 0; \
}
#define ARRAY(__name, __flags, __validator...) \
int cf_sch_config_##__name(struct cf_om_node **rootp) { \
int i; \
struct cf_om_node **childp;
#define KEY_ATOM(__type, __keyrepr) \
__ADD_CHILD(rootp, "[" #__keyrepr "]")
#define KEY_STRING(__strsize, __keyrepr) \
__ADD_CHILD(rootp, "[" #__keyrepr "]")
#define VALUE_ATOM(__type, __eltrepr) \
__ATOM(childp, "(" #__eltrepr ")")
#define VALUE_STRING(__strsize, __eltrepr) \
__ATOM(childp, "(" #__eltrepr ")")
#define VALUE_NODE(__type, __eltrepr) \
__ATOM(childp, "(" #__eltrepr ")") \
__ADD_CHILD(childp, "(" #__eltrepr ")") \
__ATOM(childp, "(" #__eltrepr ")")
#define VALUE_SUB_STRUCT(__structname) \
__STRUCT(childp, __structname)
#define VALUE_NODE_STRUCT(__structname, __eltrepr) \
__ATOM(childp, "(" #__eltrepr ")") \
__STRUCT(childp, __structname)
#define END_ARRAY(__size) \
return 0; \
}
#include "conf_schema.h"
#undef __ADD_CHILD
#undef __ATOM
#undef __STRUCT
#undef STRUCT
#undef NODE
#undef ATOM
#undef STRING
#undef SUB_STRUCT
#undef NODE_STRUCT
#undef END_STRUCT
#undef ARRAY
#undef KEY_ATOM
#undef KEY_STRING
#undef VALUE_ATOM
#undef VALUE_STRING
#undef VALUE_NODE
#undef VALUE_SUB_STRUCT
#undef VALUE_NODE_STRUCT
#undef END_ARRAY
// Generate formatting functions, cf_fmt_config_SECTION()
#define STRUCT(__name, __validator...) \
int cf_fmt_config_##__name(struct cf_om_node **parentp, const struct config_##__name *strct) { \
int result = CFOK; \
int ret;
#define __FMT_TEXT(__repr, __eltname, __eltexpr, __defaultvar) \
const char *text = NULL; \
ret = cf_fmt_##__repr(&text, __eltexpr); \
if (ret == CFOK) { \
int n; \
if (text == NULL) { \
WHY("cf_fmt_" #__repr "() returned CFOK but text=NULL"); \
ret = CFERROR; \
} else if ((n = cf_om_add_child(parentp, __eltname)) == -1) { \
ret = CFERROR; \
} else { \
(*parentp)->nodv[n]->text = text; \
(*parentp)->nodv[n]->line_number = is_default ? 0 : 1; \
text = NULL; \
} \
} else if (ret == CFERROR || !is_default) \
WARNF("cf_fmt_" #__repr "() returned %s", strbuf_str(strbuf_cf_flags(strbuf_alloca(300), ret))); \
if (text) { \
free((char *)text); \
text = NULL; \
} \
if (ret == CFERROR) \
return CFERROR; \
else if (ret != CFOK && !is_default) \
result |= (ret & CF__SUBFLAGS) | CFSUB(ret & CF__FLAGS);
#define __FMT_NODE(__fmtfunc, __element) \
{ \
int n = cf_om_add_child(parentp, #__element); \
if (n == -1) \
ret = CFERROR; \
else { \
ret = __fmtfunc(&(*parentp)->nodv[n], &strct->__element); \
cf_om_remove_null_child(parentp, n); \
if (ret != CFOK) \
WARNF(#__fmtfunc "() returned %s", strbuf_str(strbuf_cf_flags(strbuf_alloca(300), ret))); \
if (n < (*parentp)->nodc && cf_om_remove_empty_child(parentp, n)) { \
WHYF(#__fmtfunc "() returned empty node at n=%d", n); \
ret = CFERROR; \
} \
} \
if (ret == CFERROR) \
return CFERROR; \
else if (ret != CFOK) \
result |= (ret & CF__SUBFLAGS) | CFSUB(ret & CF__FLAGS); \
}
#define NODE(__type, __element, __default, __repr, __flags, __comment) \
__FMT_NODE(cf_fmt_##__repr, __element)
#define ATOM(__type, __element, __default, __repr, __flags, __comment) \
{ \
__type dfl = __default; \
int is_default = cf_cmp_##__repr(&strct->__element, &dfl) == 0; \
__FMT_TEXT(__repr, #__element, &strct->__element, __default) \
}
#define STRING(__size, __element, __default, __repr, __flags, __comment) \
{ \
int is_default = cf_cmp_##__repr(&strct->__element[0], __default) == 0; \
__FMT_TEXT(__repr, #__element, &strct->__element[0], __default) \
}
#define SUB_STRUCT(__structname, __element, __flags) \
__FMT_NODE(cf_fmt_config_##__structname, __element)
#define NODE_STRUCT(__structname, __element, __repr, __flags) \
__FMT_NODE(cf_fmt_##__repr, __element)
#define END_STRUCT \
if ((*parentp)->nodc == 0) \
cf_om_free_node(parentp); \
return result; \
}
#define ARRAY(__name, __flags, __validator...) \
int cf_fmt_config_##__name(struct cf_om_node **parentp, const struct config_##__name *array) { \
int result = CFOK; \
int i; \
for (i = 0; i < array->ac; ++i) {
#define __ARRAY_KEY(__keyfunc, __keyexpr) \
const char *key = NULL; \
int ret = __keyfunc(&key, __keyexpr); \
int n = -1; \
if (ret != CFOK) { \
WARNF(#__keyfunc "() returned %s", strbuf_str(strbuf_cf_flags(strbuf_alloca(300), ret))); \
} else if (key == NULL) { \
WHY(#__keyfunc "() returned CFOK but key=NULL"); \
ret = CFERROR; \
} else { \
n = cf_om_add_child(parentp, key); \
if (n == -1) \
ret = CFERROR; \
} \
if (key) { \
free((char *)key); \
key = NULL; \
} \
if (ret == CFOK) {
#define __ARRAY_VALUE(__valuefunc) \
cf_om_remove_null_child(parentp, n); \
if (ret != CFOK) \
WARNF(#__valuefunc "() returned %s", strbuf_str(strbuf_cf_flags(strbuf_alloca(300), ret))); \
if (n < (*parentp)->nodc && cf_om_remove_empty_child(parentp, n)) { \
WHYF(#__valuefunc "() returned empty node at n=%d", n); \
ret = CFERROR; \
}
#define __ARRAY_TEXT(__valuefunc, __eltexpr) \
ret = __valuefunc(&(*parentp)->nodv[n]->text, __eltexpr); \
__ARRAY_VALUE(__valuefunc)
#define __ARRAY_NODE(__valuefunc, __eltexpr) \
ret = __valuefunc(&(*parentp)->nodv[n], __eltexpr); \
__ARRAY_VALUE(__valuefunc)
#define END_ARRAY(__size) \
} \
if (ret == CFERROR) \
return CFERROR; \
else if (ret != CFOK) \
result |= (ret & CF__SUBFLAGS) | CFSUB(ret & CF__FLAGS); \
} \
if ((*parentp)->nodc == 0) \
cf_om_free_node(parentp); \
return result; \
}
#define KEY_ATOM(__type, __keyrepr) \
__ARRAY_KEY(cf_fmt_##__keyrepr, &array->av[i].key);
#define KEY_STRING(__strsize, __keyrepr) \
__ARRAY_KEY(cf_fmt_##__keyrepr, &array->av[i].key[0]);
#define VALUE_ATOM(__type, __eltrepr) \
__ARRAY_TEXT(cf_fmt_##__eltrepr, &array->av[i].value)
#define VALUE_STRING(__strsize, __eltrepr) \
__ARRAY_TEXT(cf_fmt_##__eltrepr, &array->av[i].value[0])
#define VALUE_NODE(__type, __eltrepr) \
__ARRAY_NODE(cf_fmt_##__eltrepr, &array->av[i].value)
#define VALUE_SUB_STRUCT(__structname) \
__ARRAY_NODE(cf_fmt_config_##__structname, &array->av[i].value)
#define VALUE_NODE_STRUCT(__structname, __eltrepr) \
__ARRAY_NODE(cf_fmt_##__eltrepr, &array->av[i].value)
#include "conf_schema.h"
#undef STRUCT
#undef NODE
#undef ATOM
#undef STRING
#undef SUB_STRUCT
#undef NODE_STRUCT
#undef END_STRUCT
#undef __FMT_TEXT
#undef __FMT_NODE
#undef ARRAY
#undef KEY_ATOM
#undef KEY_STRING
#undef VALUE_ATOM
#undef VALUE_STRING
#undef VALUE_NODE
#undef VALUE_SUB_STRUCT
#undef VALUE_NODE_STRUCT
#undef __ARRAY_KEY
#undef __ARRAY_TEXT
#undef __ARRAY_NODE
#undef __ARRAY_VALUE
#undef END_ARRAY
// Generate comparison functions, cf_cmp_config_SECTION()
#define STRUCT(__name, __validator...) \
int cf_cmp_config_##__name(const struct config_##__name *a, const struct config_##__name *b) { \
int c;
#define NODE(__type, __element, __default, __repr, __flags, __comment) \
if ((c = cf_cmp_##__repr(&a->__element, &b->__element))) \
return c;
#define ATOM(__type, __element, __default, __repr, __flags, __comment) \
if ((c = cf_cmp_##__repr(&a->__element, &b->__element))) \
return c;
#define STRING(__size, __element, __default, __repr, __flags, __comment) \
if ((c = cf_cmp_##__repr(&a->__element[0], &b->__element[0]))) \
return c;
#define SUB_STRUCT(__structname, __element, __flags) \
if ((c = cf_cmp_config_##__structname(&a->__element, &b->__element))) \
return c;
#define NODE_STRUCT(__structname, __element, __repr, __flags) \
if ((c = cf_cmp_##__repr(&a->__element, &b->__element))) \
return c;
#define END_STRUCT \
return 0; \
}
#define ARRAY(__name, __flags, __validator...) \
int cf_cmp_config_##__name(const struct config_##__name *a, const struct config_##__name *b) { \
int c; \
int i; \
for (i = 0; i < a->ac && i < b->ac; ++i) {
#define KEY_ATOM(__type, __keyrepr) \
if ((c = cf_cmp_##__keyrepr(&a->av[i].key, &b->av[i].key))) \
return c;
#define KEY_STRING(__strsize, __keyrepr) \
if ((c = cf_cmp_##__keyrepr(&a->av[i].key[0], &b->av[i].key[0]))) \
return c;
#define VALUE_ATOM(__type, __eltrepr) \
if ((c = cf_cmp_##__eltrepr(&a->av[i].value, &b->av[i].value))) \
return c;
#define VALUE_STRING(__strsize, __eltrepr) \
if ((c = cf_cmp_##__eltrepr(&a->av[i].value[0], &b->av[i].value[0]))) \
return c;
#define VALUE_NODE(__type, __eltrepr) \
if ((c = cf_cmp_##__eltrepr(&a->av[i].value, &b->av[i].value))) \
return c;
#define VALUE_SUB_STRUCT(__structname) \
if ((c = cf_cmp_config_##__structname(&a->av[i].value, &b->av[i].value))) \
return c;
#define VALUE_NODE_STRUCT(__structname, __eltrepr) \
if ((c = cf_cmp_##__eltrepr(&a->av[i].value, &b->av[i].value))) \
return c;
#define END_ARRAY(__size) \
} \
return (a->ac < b->ac) ? -1 : (a->ac > b->ac) ? 1 : 0; \
}
#include "conf_schema.h"
#undef STRUCT
#undef NODE
#undef ATOM
#undef STRING
#undef SUB_STRUCT
#undef NODE_STRUCT
#undef END_STRUCT
#undef ARRAY
#undef KEY_ATOM
#undef KEY_STRING
#undef VALUE_ATOM
#undef VALUE_STRING
#undef VALUE_NODE
#undef VALUE_SUB_STRUCT
#undef VALUE_NODE_STRUCT
#undef END_ARRAY