#ifdef HAVE_CONFIG_H
# include "config.h"
+#else
+# include "php_config.h"
#endif
#include "php.h"
#include "php_psi.h"
#include "zend_exceptions.h"
+#include "zend_interfaces.h"
+#include "ext/spl/spl_iterators.h"
#include "parser.h"
#include "engine.h"
#include "calc.h"
#include "marshal.h"
-size_t psi_t_alignment(token_t t)
+static inline void psi_do_set(zval *return_value, set_value *set)
{
-#define PSI_ALIGNOF(T) case PSI_T_## T: return ALIGNOF_## T ##_T;
- switch (t) {
- PSI_ALIGNOF(INT8);
- PSI_ALIGNOF(UINT8);
- PSI_ALIGNOF(INT16);
- PSI_ALIGNOF(UINT16);
- PSI_ALIGNOF(INT32);
- PSI_ALIGNOF(UINT32);
- PSI_ALIGNOF(INT64);
- PSI_ALIGNOF(UINT64);
- case PSI_T_FLOAT:
- return ALIGNOF_FLOAT;
- case PSI_T_DOUBLE:
- return ALIGNOF_DOUBLE;
- case PSI_T_POINTER:
- case PSI_T_FUNCTION:
- return ALIGNOF_VOID_P;
- case PSI_T_ENUM:
- return ALIGNOF_INT;
- EMPTY_SWITCH_DEFAULT_CASE();
- }
- return 0;
-}
+ decl_arg *set_arg = set->vars->vars[0]->arg;
-size_t psi_t_size(token_t t)
-{
-#define PSI_SIZEOF(T) case PSI_T_## T : return SIZEOF_## T ##_T;
- switch (t) {
- PSI_SIZEOF(INT8);
- PSI_SIZEOF(UINT8);
- PSI_SIZEOF(INT16);
- PSI_SIZEOF(UINT16);
- PSI_SIZEOF(INT32);
- PSI_SIZEOF(UINT32);
- PSI_SIZEOF(INT64);
- PSI_SIZEOF(UINT64);
- case PSI_T_FLOAT:
- return SIZEOF_FLOAT;
- case PSI_T_DOUBLE:
- return SIZEOF_DOUBLE;
- case PSI_T_POINTER:
- case PSI_T_FUNCTION:
- return SIZEOF_VOID_P;
- case PSI_T_ENUM:
- return SIZEOF_INT;
- EMPTY_SWITCH_DEFAULT_CASE();
- }
- return 0;
+ zval_dtor(return_value);
+ set->func->handler(return_value, set, set_arg->let);
}
int psi_internal_type(impl_type *type)
}
}
+zend_long psi_zval_count(zval *zvalue)
+{
+ /* mimic PHP count() */
+ zend_long count;
+ zval retval;
+
+ switch (Z_TYPE_P(zvalue)) {
+ default:
+ count = 1;
+ break;
+ case IS_NULL:
+ count = 0;
+ break;
+ case IS_ARRAY:
+ count = zend_array_count(Z_ARRVAL_P(zvalue));
+ break;
+ case IS_OBJECT:
+ count = 1;
+ if (Z_OBJ_HT_P(zvalue)->count_elements) {
+ if (SUCCESS == Z_OBJ_HT_P(zvalue)->count_elements(zvalue, &count)) {
+ break;
+ }
+ }
+
+ if (instanceof_function(Z_OBJCE_P(zvalue), spl_ce_Countable)) {
+ zend_call_method_with_0_params(zvalue, NULL, NULL, "count", &retval);
+ if (Z_TYPE(retval) != IS_UNDEF) {
+ count = zval_get_long(&retval);
+ zval_ptr_dtor(&retval);
+ }
+ }
+ break;
+ }
+
+ return count;
+}
+
zend_internal_arg_info *psi_internal_arginfo(impl *impl)
{
size_t i;
return mem;
}
-static inline impl_val *psi_let_val(token_t let_func, impl_arg *iarg, impl_val *arg_val, decl_struct *strct, void **to_free)
-{
- abort();
- return arg_val;
-}
-
-static inline impl_val *psi_let_func(let_func *func, decl_arg *darg) {
- return darg->ptr = func->handler(darg->ptr, darg->type, func->var->arg, &darg->mem);
-}
+static inline impl_val *psi_let_func(let_func *func, decl_arg *darg);
-static inline void *psi_do_let(let_stmt *let)
+static inline void *psi_let_val(let_val *val, decl_arg *darg)
{
- decl_arg *darg = let->var->arg;
+ ZEND_ASSERT(darg);
- switch (let->val ? let->val->kind : PSI_LET_NULL) {
+ switch (val ? val->kind : PSI_LET_NULL) {
case PSI_LET_TMP:
- memcpy(darg->ptr, deref_impl_val(let->val->data.var->arg->let, let->val->data.var), sizeof(impl_val));
+ memcpy(darg->ptr, deref_impl_val(val->data.var->arg->let, val->data.var), sizeof(impl_val));
break;
case PSI_LET_NULL:
if (darg->var->array_size) {
}
break;
case PSI_LET_CALLOC:
- darg->val.ptr = psi_do_calloc(let->val->data.alloc);
+ darg->val.ptr = psi_do_calloc(val->data.alloc);
darg->mem = darg->val.ptr;
break;
- case PSI_LET_CALLBACK:
- darg->val.ptr = let->val->data.callback->decl->call.sym;
- break;
case PSI_LET_NUMEXP:
- darg->val.zend.lval = psi_long_num_exp(let->val->data.num, NULL);
+ darg->val.zend.lval = psi_long_num_exp(val->data.num, NULL);
+ break;
+ case PSI_LET_CALLBACK:
+ darg->val.ptr = val->data.callback->decl->call.sym;
break;
case PSI_LET_FUNC:
- if (!psi_let_func(let->val->data.func, darg)) {
+ if (!psi_let_func(val->data.func, darg)) {
return NULL;
}
break;
}
- if (let->val && let->val->flags.one.is_reference) {
+ if (val && val->is_reference) {
return darg->let = &darg->ptr;
} else {
return darg->let = darg->ptr;
}
}
+static inline impl_val *psi_let_func_ex(let_func *func, void *dptr, decl_type *dtype, decl_var *dvar, token_t itype, impl_val *ival, zval *zvalue, void **to_free) {
+ switch (func->type) {
+ case PSI_T_BOOLVAL:
+ return psi_let_boolval(dptr, dtype, itype, ival, zvalue, to_free);
+ case PSI_T_INTVAL:
+ return psi_let_intval(dptr, dtype, itype, ival, zvalue, to_free);
+ case PSI_T_FLOATVAL:
+ return psi_let_floatval(dptr, dtype, itype, ival, zvalue, to_free);
+ case PSI_T_STRVAL:
+ return psi_let_strval(dptr, dtype, itype, ival, zvalue, to_free);
+ case PSI_T_STRLEN:
+ return psi_let_strlen(dptr, dtype, itype, ival, zvalue, to_free);
+ case PSI_T_PATHVAL:
+ return psi_let_pathval(dptr, dtype, itype, ival, zvalue, to_free);
+ case PSI_T_OBJVAL:
+ return psi_let_objval(dptr, dtype, itype, ival, zvalue, to_free);
+ case PSI_T_ZVAL:
+ return psi_let_zval(dptr, dtype, itype, ival, zvalue, to_free);
+ case PSI_T_VOID:
+ return psi_let_void(dptr, dtype, itype, ival, zvalue, to_free);
+ case PSI_T_COUNT:
+ return psi_let_count(dptr, dtype, itype, ival, zvalue, to_free);
+ case PSI_T_ARRVAL:
+ if (func->inner) {
+ char *mem = NULL;
+ size_t i, j = 0;
+ decl_type *real;
+ decl_args *args = extract_decl_type_args(dtype, &real);
+
+ if (itype != PSI_T_ARRAY) {
+ SEPARATE_ARG_IF_REF(zvalue);
+ convert_to_array(zvalue);
+ }
+
+ if (args) {
+ size_t size = extract_decl_type_size(real, NULL);
+
+ mem = ecalloc(1, size + args->count * sizeof(void *));
+
+ for (i = 0; i < args->count; ++i) {
+ decl_arg *darg = args->args[i];
+ let_val *lval = locate_let_vals_val(func->inner, darg->var->name);
+ impl_val *ptr = NULL;
+
+ if (lval) {
+ if ((ptr = psi_let_val(lval, darg))) {
+ memcpy(mem + darg->layout->pos, ptr, darg->layout->len);
+ if (darg->mem) {
+ ((void **)(mem + size))[j++] = darg->mem;
+ }
+ }
+ if (real->type == PSI_T_UNION) {
+ break;
+ }
+ }
+ }
+ } else {
+ zval *zv;
+ let_val *inner = func->inner->vals[0];
+ decl_var *sub_var;
+ size_t size;
+
+ if (inner->var) {
+ sub_var = inner->var;
+ } else {
+ sub_var = copy_decl_var(dvar);
+ assert(sub_var->pointer_level);
+ --sub_var->pointer_level;
+ }
+
+ size = sub_var->pointer_level ? SIZEOF_VOID_P : extract_decl_type_size(real, NULL);
+ mem = ecalloc(1, size * (1 + zend_array_count(Z_ARRVAL_P(zvalue))));
+
+ ZEND_HASH_FOREACH_VAL_IND(Z_ARRVAL_P(zvalue), zv)
+ {
+ void *tmp = NULL;
+ impl_val val = {0}, *ptr, *sub;
+
+ ptr = psi_let_func_ex(inner->data.func, &val, real, dvar, 0, NULL, zv, &tmp);
+ sub = deref_impl_val(ptr, sub_var);
+
+ memcpy(&mem[size * j++], &sub, size);
+ }
+ ZEND_HASH_FOREACH_END();
+
+ if (sub_var != inner->var) {
+ free_decl_var(sub_var);
+ }
+ }
+ return *to_free = mem;
+ } else {
+ return psi_let_arrval(dptr, dtype, dvar, itype, ival, zvalue, to_free);
+ }
+ break;
+ default:
+ assert(0);
+ }
+ return NULL;
+}
+
+static inline impl_val *psi_let_func(let_func *func, decl_arg *darg) {
+
+ if (func->var->arg) {
+ return darg->ptr = psi_let_func_ex(func,
+ darg->ptr, darg->type, darg->var,
+ func->var->arg->type->type,
+ &func->var->arg->val,
+ func->var->arg->_zv,
+ &darg->mem);
+ } else {
+ impl_var *ivar = locate_let_val_impl_var(func->outer);
+ zval *entry = zend_symtable_str_find(Z_ARRVAL_P(ivar->arg->_zv), func->var->name+1, strlen(func->var->name)-1);
+ impl_arg *iarg = init_impl_arg(
+ init_impl_type(PSI_T_MIXED, "mixed"),
+ copy_impl_var(func->var), NULL);
+
+ func->var->arg = iarg;
+ if (entry) {
+ iarg->_zv = entry;
+ } else {
+ zval ztmp;
+
+ ZVAL_NULL(&ztmp);
+ iarg->_zv = zend_symtable_str_update_ind(Z_ARRVAL_P(ivar->arg->_zv), func->var->name+1, strlen(func->var->name)-1, &ztmp);
+ }
+
+ psi_let_func(func, darg);
+ free_impl_arg(iarg);
+ return darg->ptr;
+ }
+
+}
+
+static inline void *psi_do_let(let_stmt *let)
+{
+ return psi_let_val(let->val, let->val->var->arg);
+}
+
static inline void psi_do_return(zval *return_value, return_stmt *ret)
{
ret->set->func->handler(return_value, ret->set, ret->set->vars->vars[0]->arg->ptr);
}
/* FIXME: check in validate_* that free functions return scalar */
- PSI_ContextCall(&PSI_G(context), &f->decl->call, NULL);
+ psi_context_call(&PSI_G(context), &f->decl->call, NULL);
}
}
-static inline void psi_clean_array_struct(let_stmt *let, decl_arg *darg) {
- if (let->val->kind == PSI_LET_FUNC
- && let->val->data.func->type == PSI_T_ARRVAL) {
+static inline void psi_clean_array_struct(let_val *val, decl_arg *darg) {
+ if (val->kind == PSI_LET_FUNC
+ && val->data.func->type == PSI_T_ARRVAL) {
decl_type *type = real_decl_type(darg->type);
if (type->type == PSI_T_STRUCT) {
while (*ptr) {
efree(*ptr++);
}
+ // args = type->real.strct->args;
+ } else if (type->type == PSI_T_UNION) {
+ void **ptr = (void **) ((char *) darg->mem + type->real.unn->size);
+
+ if (*ptr) {
+ efree(*ptr);
+ }
+ // args = type->real.unn->args;
+ }
+#if 0
+ if (args && val->data.func->inner) {
+ size_t i;
+
+ for (i = 0; i < val->data.func->inner->count; ++i) {
+ let_val *inner = val->data.func->inner->vals[i];
+ decl_var *refvar = locate_let_val_inner_ref(inner)->var;
+ decl_arg *subarg = locate_decl_arg(args, refvar->name);
+
+ if (subarg) {
+ psi_clean_array_struct(val->data.func->inner->vals[i], subarg);
+ if (subarg->mem) {
+ efree(subarg->mem);
+ subarg->mem = NULL;
+ }
+ }
+ }
+ }
+#endif
+ }
+}
+
+static inline void psi_clean_let_val(let_val *val) {
+
+ let_func *func = locate_let_val_func(val);
+
+ if (func && func->inner) {
+ size_t i;
+
+ for (i = 0; i < func->inner->count; ++i) {
+ let_val *inner = func->inner->vals[i];
+ psi_clean_let_val(inner);
+ }
+ }
+ if (val->var) {
+ decl_arg *darg = val->var->arg;
+ if (darg) {
+ if (darg->mem) {
+ psi_clean_array_struct(val, darg);
+ efree(darg->mem);
+ darg->mem = NULL;
+ }
+ darg->ptr = &darg->val;
+ darg->let = darg->ptr;
}
}
}
for (i = 0; i < impl->stmts->let.count; ++i) {
let_stmt *let = impl->stmts->let.list[i];
- decl_arg *darg = let->var->arg;
-
- if (darg->mem) {
- psi_clean_array_struct(let, darg);
- efree(darg->mem);
- darg->mem = NULL;
- }
- darg->ptr = &darg->val;
- darg->let = darg->ptr;
+ psi_clean_let_val(let->val);
}
if (impl->func->args->vararg.args) {
}
if (!impl->decl->func->var->pointer_level) {
- decl_type *real = real_decl_type(impl->decl->func->type);
+ decl_type *real;
+ decl_args *args = extract_decl_type_args(impl->decl->func->type, &real);
switch (real->type) {
case PSI_T_STRUCT:
- impl->decl->func->ptr = psi_array_to_struct(real->real.strct, NULL);
+ case PSI_T_UNION:
+ impl->decl->func->ptr = ecalloc(1,
+ extract_decl_type_size(real, NULL) + args->count * sizeof(void*));
+ break;
+ default:
break;
}
}
impl_arg *vaarg = va->args->args[i];
void *to_free = NULL;
token_t vatype = va->name->type->type;
- let_func_handler let_fn;
+ psi_marshal_let let_fn;
if (vatype == PSI_T_MIXED) {
switch (Z_TYPE_P(vaarg->_zv)) {
/* FIXME: varargs with struct-by-value :) */
//if (!psi_let_val(let_fn, vaarg, &va->values[i], NULL, &to_free)) {
- if (!let_fn(&va->values[i], NULL, vaarg, &to_free)) {
+ if (!let_fn(&va->values[i], NULL, vaarg->type->type, &vaarg->val, vaarg->_zv, &to_free)) {
return NULL;
}
}
}
- PSI_ContextCall(&PSI_G(context), &impl->decl->call, va);
+ psi_context_call(&PSI_G(context), &impl->decl->call, va);
psi_do_return(return_value, impl->stmts->ret.list[0]);
for (i = 0; i < impl->stmts->set.count; ++i) {
iarg->_zv = &return_value;
zend_fcall_info_call(&iarg->val.zend.cb->fci, &iarg->val.zend.cb->fcc, iarg->_zv, NULL);
- /* marshal return value of the userland call */
+ /* marshal return value of the userland call
switch (iarg->type->type) {
case PSI_T_BOOL: zend_parse_arg_bool(iarg->_zv, &iarg->val.zend.bval, NULL, 0); break;
case PSI_T_LONG: zend_parse_arg_long(iarg->_zv, &iarg->val.zend.lval, NULL, 0, 1); break;
case PSI_T_DOUBLE: zend_parse_arg_double(iarg->_zv, &iarg->val.dval, NULL, 0); break;
case PSI_T_STRING: zend_parse_arg_str(iarg->_zv, &iarg->val.zend.str, 0); break;
}
- result = cb->func->handler(retval, decl_cb->func->type, iarg, &to_free);
+ */
+ result = psi_let_func_ex(cb->func, retval, decl_cb->func->type, decl_cb->func->var, 0, &iarg->val, iarg->_zv, &to_free);
+ // result = cb->func->handler(retval, decl_cb->func->type, iarg, &to_free);
if (result != retval) {
*(void **)retval = result;