define(`pushdefFUNC_NAME', ` pushdef(`FUNC_NAME', `xc_`'KIND`'_`'ifelse(`$2', `', `$1', `$2')') ') dnl {{{ DECL_STRUCT_P_FUNC(1:type, 2:name, 3:comma=;) define(`DECL_STRUCT_P_FUNC', `translit( pushdefFUNC_NAME(`$1', `$2') define(`DEFINED_'ifelse(`$2', `', `$1', `$2'), `') ifdef(`EXPORT_'ifelse(`$2', `', `$1', `$2'), `void', `static void inline') FUNC_NAME`'( IFDPRINT( `const $1 * const src, int indent') IFCALC( `processor_t *processor, const $1 * const src') IFSTORE( `processor_t *processor, $1 *dst, const $1 * const src') IFRESTORE(`processor_t *processor, $1 *dst, const $1 * const src') IFDASM( `zval *dst, const $1 * const src') IFASM( `$1 *dst, const $1 * const src') TSRMLS_DC )ifelse(`$3', `', `;') popdef(`FUNC_NAME')dnl , ` ', ` ')') dnl }}} dnl {{{ DEF_STRUCT_P_FUNC(1:type, 2:name, 3:body) define(`DEF_STRUCT_P_FUNC', ` pushdefFUNC_NAME(`$1', `$2') /* {`{'{ FUNC_NAME */ ifdef(`EXPORT_'ifelse(`$2', `', `$1', `$2'), ` /* export: DECL_STRUCT_P_FUNC(`$1', `$2') :export */ ') DECL_STRUCT_P_FUNC(`$1', `$2', 1) { pushdef(`ELEMENTS_DONE') ifdef(`SIZEOF_$1', , `m4_errprint(`AUTOCHECK WARN: $1: missing structinfo, dont panic')define(`SIZEOF_$1', 0)') IFASSERT(` /* {{{ init assert */ ifdef(`SIZEOF_$1', , `m4_errprint(`missing SIZEOF_$1, safe to ignore')define(`SIZEOF_$1', 0)') ifdef(`COUNTOF_$1', , `m4_errprint(`missing COUNTOF_$1, safe to ignore')define(`COUNTOF_$1', 0)') dnl SIZEOF_x COUNTOF_x can be both defined or both not ifdef(`SIZEOF_$1', ` ifdef(`COUNTOF_$1', , `m4_errprint(`AUTOCHECK WARN: missing COUNTOF_$1')') ', ` define(`SIZEOF_$1', 0) ') ifdef(`COUNTOF_$1', ` ifdef(`SIZEOF_$1', , `m4_errprint(`AUTOCHECK WARN: missing SIZEOF_$1')') ', ` define(`COUNTOF_$1', 0) ') int assert_size = SIZEOF_$1, assert_count = COUNTOF_$1; int done_size = 0, done_count = 0; /* }}} */ IFRESTORE(`assert(xc_is_shm(src));') IFCALCSTORE(`assert(!xc_is_shm(src));') do { ') ifdef(`USEMEMCPY', `IFCOPY(` memcpy(dst, src, sizeof($1)); do { ')') IFDPRINT(` fprintf(stderr, "%s", " {\n"); indent ++; ') $3`' IFDPRINT(` indent --; INDENT()fprintf(stderr, "}\n"); ') ifdef(`SKIPASSERT_ONCE', `undefine(`SKIPASSERT_ONCE')', ` IFASSERT(` /* {{{ check assert */ if (done_count != assert_count) { fprintf(stderr , "count assertion failed at %s `#'%d FUNC_NAME`' : unexpected %d - expected %d = %d != 0\n" , __FILE__, __LINE__ , done_count, assert_count, done_count - assert_count ); abort(); } if (done_size != assert_size) { fprintf(stderr , "size assertion failed at %s `#'%d FUNC_NAME`' : %d - %d = %d != 0\n" , __FILE__, __LINE__ , done_size, assert_size, done_size - assert_size ); abort(); } /* }}} */ ') ifdef(`ELEMENTSOF_$1', ` pushdef(`ELEMENTS_UNDONE', LIST_DIFF(defn(`ELEMENTSOF_$1'), defn(`ELEMENTS_DONE'))) ifelse(defn(`ELEMENTS_UNDONE'), , `m4_errprint(`AUTOCHECK INFO: $1: processor looks good')', ` m4_errprint(`AUTOCHECK ERROR: ====' KIND `$1 =================') m4_errprint(`AUTOCHECK expected:' defn(`ELEMENTSOF_$1')) m4_errprint(`AUTOCHECK missing :' defn(`ELEMENTS_UNDONE')) define(`EXIT_PENDING', 1) ') popdef(`ELEMENTS_UNDONE') ') ') ifdef(`USEMEMCPY', `IFCOPY(` } while (0); ')') IFASSERT(` } while (0); ') popdef(`ELEMENTS_DONE') } /* }`}'} */ popdef(`FUNC_NAME') ') dnl }}} dnl {{{ STRUCT_P_EX(1:type, 2:dst, 3:src, 4:elm-name, 5:name=type, 6:&) define(`STRUCT_P_EX', ` DBG(`$0($*)') pushdefFUNC_NAME(`$1', `$5') ifdef(`DEFINED_'ifelse(`$5', `', `$1', `$5'), `', `m4_errprint(`Unknown struct "'ifelse(`$5', `', `$1', `$5')`"')') assert(sizeof($1) == sizeof(($6 $3)[0])); ifelse(`$6', `', `ALLOC(`$2', `$1')') IFDASM(`do { zval *zv; ALLOC_INIT_ZVAL(zv); array_init(zv); ') FUNC_NAME`'( IFDPRINT( ` $6 $3, indent') IFCALC( `processor, $6 $3') IFSTORE( `processor, $6 $2, $6 $3') IFRESTORE(`processor, $6 $2, $6 $3') IFDASM( `zv, $6 $3') IFASM( `$6 $2, $6 $3') TSRMLS_CC ); IFDASM(` add_assoc_zval_ex(dst, ZEND_STRS("$4"), zv); } while (0); ') popdef(`FUNC_NAME') ifelse(`$6', , `FIXPOINTER_EX(`$1', `$2')') ') dnl }}} dnl {{{ STRUCT_P(1:type, 2:elm, 3:name=type) define(`STRUCT_P', ` DBG(`$0($*)') if (src->$2) { STRUCT_P_EX(`$1', `dst->$2', `src->$2', `$2', `$3') IFDPRINT(`INDENT()`'fprintf(stderr, "$1:$2");') } else { COPYNULL_EX(`dst->$2', `$2') IFDPRINT(`INDENT()`'fprintf(stderr, "$1:$2:\tNULL\n");') } DONE(`$2') ') dnl }}} dnl {{{ STRUCT(1:type, 2:elm, 3:name=type) define(`STRUCT', ` DBG(`$0($*)') assert(sizeof($1) == sizeof(src->$2)); IFDPRINT(`INDENT()`'fprintf(stderr, "$1:$2");') STRUCT_P_EX(`$1', `dst->$2', `src->$2', `$2', `$3', `&') DONE(`$2') ') dnl }}} dnl {{{ STRUCT_ARRAY_I(1:count, 2:type, 3:elm, 4:name=type) define(`STRUCT_ARRAY_I', ` pushdef(`i', `ii') STRUCT_ARRAY(`$1', `$2', `$3', `$4') popdef(`i') ') dnl }}} dnl {{{ STRUCT_ARRAY(1:count, 2:type, 3:elm, 4:name=type) define(`STRUCT_ARRAY', ` if (src->$3) { pushdefFUNC_NAME(`$2', `$4') IFDASM(` zval *arr; ALLOC_INIT_ZVAL(arr); array_init(arr); for (i = 0; i < src->$1; i ++) { zval *zv; ALLOC_INIT_ZVAL(zv); array_init(zv); FUNC_NAME (zv, &(src->$3[i]) TSRMLS_CC); add_next_index_zval(arr, zv); } add_assoc_zval_ex(dst, ZEND_STRS("$3"), arr); ', ` ALLOC(`dst->$3', `$2', `src->$1') ifdef(`AFTER_ALLOC', AFTER_ALLOC) for (i = 0; i < src->$1; i ++) { DISABLECHECK(` ifdef(`BEFORE_LOOP', `BEFORE_LOOP') STRUCT(`$2', `$3[i]', `$4') ') } ')dnl IFDASM DONE(`$3') popdef(`FUNC_NAME') } else { COPYNULL(`$3') ifdef(`AFTER_ALLOC', AFTER_ALLOC) } ') dnl }}}