/** @file
Parser: @b hash parser class.
Copyright (c) 2001-2004 ArtLebedev Group (http://www.artlebedev.com)
Author: Alexandr Petrosian <paf@design.ru> (http://paf.design.ru)
*/
static const char * const IDENT_HASH_C="$Date: 2004/03/25 11:49:25 $";
#include "classes.h"
#include "pa_vmethod_frame.h"
#include "pa_request.h"
#include "pa_vhash.h"
#include "pa_vvoid.h"
#include "pa_sql_connection.h"
#include "pa_vtable.h"
#include "pa_vbool.h"
#include "pa_vmethod_frame.h"
// class
class MHash: public Methoded {
public: // VStateless_class
Value* create_new_value(Pool&) { return new VHash(); }
public:
MHash();
public: // Methoded
bool used_directly() { return true; }
};
// global variable
DECLARE_CLASS_VAR(hash, new MHash, 0);
// methods
#ifndef DOXYGEN
class Hash_sql_event_handlers: public SQL_Driver_query_event_handlers {
const String& statement_string; const char* statement_cstr;
bool distinct;
HashStringValue& rows_hash;
HashStringValue* row_hash;
int column_index;
ArrayString columns;
bool only_one_column;
static VBool only_one_column_value;
public:
Hash_sql_event_handlers(
const String& astatement_string, const char* astatement_cstr,
bool adistinct,
HashStringValue& arows_hash):
statement_string(astatement_string), statement_cstr(astatement_cstr),
distinct(adistinct),
rows_hash(arows_hash),
row_hash(0),
column_index(0),
only_one_column(false) {
}
bool add_column(SQL_Error& error, const char* str, size_t length) {
try {
columns+=new String(str, length, true);
return false;
} catch(...) {
error=SQL_Error("exception occured in Hash_sql_event_handlers::add_column");
return true;
}
}
bool before_rows(SQL_Error& error) {
if(columns.count()<1) {
error=SQL_Error("parser.runtime", "no columns");
return true;
}
only_one_column=columns.count()==1;
return false;
}
bool add_row(SQL_Error& /*error*/) {
column_index=0;
return false;
}
bool add_row_cell(SQL_Error& error, const char *ptr, size_t length) {
try {
String& cell=*new String;
if(length)
cell.append_know_length(ptr, length, String::L_TAINTED);
bool duplicate=false;
if(only_one_column) {
duplicate=rows_hash.put_dont_replace(cell, &only_one_column_value); // put. existed?
} else if(column_index==0) {
VHash* row_vhash=new VHash;
row_hash=&row_vhash->hash();
duplicate=rows_hash.put_dont_replace(cell, row_vhash); // put. existed?
} else
row_hash->put(*columns[column_index], new VString(cell));
if(duplicate & !distinct) {
error=SQL_Error("parser.runtime", "duplicate key");
return true;
}
column_index++;
return false;
} catch(...) {
error=SQL_Error("exception occured in Hash_sql_event_handlers::add_row_cell");
return true;
}
}
};
VBool Hash_sql_event_handlers::only_one_column_value(true);
#endif
static void copy_all_overwrite_to(
HashStringValue::key_type key,
HashStringValue::value_type value,
HashStringValue* dest) {
dest->put(key, value);
}
static void _create_or_add(Request& r, MethodParams& params) {
if(params.count()) {
Value& vsrc=params.as_no_junction(0, "param must be hash");
if(HashStringValue* src=vsrc.get_hash()) {
HashStringValue* self=&(GET_SELF(r, VHash).hash());
if(src==self) // same: doing nothing
return;
src->for_each(copy_all_overwrite_to, self);
}
}
}
static void remove_key_from(
HashStringValue::key_type key,
HashStringValue::value_type /*value*/,
HashStringValue* dest) {
dest->remove(key);
}
static void _sub(Request& r, MethodParams& params) {
Value& vsrc=params.as_no_junction(0, "param must be hash");
if(HashStringValue* src=vsrc.get_hash()) {
HashStringValue* self=&(GET_SELF(r, VHash).hash());
if(src==self) { // same: clearing
self->clear();
return;
}
src->for_each(remove_key_from, self);
}
}
static void copy_all_dontoverwrite_to(
HashStringValue::key_type key,
HashStringValue::value_type value,
HashStringValue* dest) {
dest->put_dont_replace(key, value);
}
static void _union(Request& r, MethodParams& params) {
// dest = copy of self
Value& result=*new VHash(GET_SELF(r, VHash).hash());
// dest += b
Value& vsrc=params.as_no_junction(0, "param must be hash");
if(HashStringValue* src=vsrc.get_hash())
src->for_each(copy_all_dontoverwrite_to, result.get_hash());
// return result
r.write_no_lang(result);
}
#ifndef DOXYGEN
struct Copy_intersection_to_info {
HashStringValue* b;
HashStringValue* dest;
};
#endif
static void copy_intersection_to(
HashStringValue::key_type key,
HashStringValue::value_type value,
Copy_intersection_to_info *info) {
if(info->b->get(key))
info->dest->put_dont_replace(key, value);
}
static void _intersection(Request& r, MethodParams& params) {
Value& result=*new VHash;
// dest += b
Value& vb=params.as_no_junction(0, "param must be hash");
if(HashStringValue* b=vb.get_hash()) {
Copy_intersection_to_info info={b, result.get_hash()};
GET_SELF(r, VHash).hash().for_each(copy_intersection_to, &info);
}
// return result
r.write_no_lang(result);
}
static bool intersects(
HashStringValue::key_type key,
HashStringValue::value_type /*value*/,
HashStringValue* b) {
return b->get(key)!=0;
}
static void _intersects(Request& r, MethodParams& params) {
bool result=false;
Value& vb=params.as_no_junction(0, "param must be hash");
if(HashStringValue* b=vb.get_hash())
result=GET_SELF(r, VHash).hash().first_that(intersects, b)!=0;
// return result
r.write_no_lang(*new VBool(result));
}
extern String sql_limit_name;
extern String sql_offset_name;
extern String sql_default_name;
extern String sql_distinct_name;
static void _sql(Request& r, MethodParams& params) {
Value& statement=params.as_junction(0, "statement must be code");
ulong limit=0;
ulong offset=0;
bool distinct=false;
if(params.count()>1) {
Value& voptions=params.as_no_junction(1, "options must be hash, not code");
if(!voptions.is_string())
if(HashStringValue* options=voptions.get_hash()) {
int valid_options=0;
if(Value* vlimit=options->get(sql_limit_name)) {
valid_options++;
limit=(ulong)r.process_to_value(*vlimit).as_double();
}
if(Value* voffset=options->get(sql_offset_name)) {
valid_options++;
offset=(ulong)r.process_to_value(*voffset).as_double();
}
if(Value* vdistinct=options->get(sql_distinct_name)) {
valid_options++;
distinct=r.process_to_value(*vdistinct).as_bool();
}
if(valid_options!=options->count())
throw Exception("parser.runtime",
0,
"called with invalid option");
} else
throw Exception("parser.runtime",
0,
"options must be hash");
}
Temp_lang temp_lang(r, String::L_SQL);
const String& statement_string=r.process_to_string(statement);
const char* statement_cstr=
statement_string.cstr(String::L_UNSPECIFIED, r.connection());
HashStringValue& hash=GET_SELF(r, VHash).hash();
hash.clear();
Hash_sql_event_handlers handlers(
statement_string, statement_cstr,
distinct,
hash);
r.connection()->query(
statement_cstr, offset, limit,
handlers,
statement_string);
}
static void keys_collector(
HashStringValue::key_type key,
HashStringValue::value_type,
Table *table) {
Table::element_type row(new ArrayString);
*row+=new String(key, String::L_TAINTED);
*table+=row;
}
static void _keys(Request& r, MethodParams& params) {
const String* keys_column_name;
if(params.count()>0)
keys_column_name=¶ms.as_string(0, "column name must be string");
else
keys_column_name=new String("key");
Table::columns_type columns(new ArrayString);
*columns+=keys_column_name;
Table* table=new Table(columns);
GET_SELF(r, VHash).hash().for_each(keys_collector, table);
r.write_no_lang(*new VTable(table));
}
static void _count(Request& r, MethodParams&) {
r.write_no_lang(*new VInt(GET_SELF(r, VHash).hash().count()));
}
static void _delete(Request& r, MethodParams& params) {
GET_SELF(r, VHash).hash().remove(params.as_string(0, "key must be string"));
}
#ifndef DOXYGEN
struct Foreach_info {
Request *r;
const String* key_var_name;
const String* value_var_name;
Value* body_code;
Value* delim_maybe_code;
VString* vkey;
bool need_delim;
};
#endif
static void one_foreach_cycle(
HashStringValue::key_type akey,
HashStringValue::value_type avalue,
Foreach_info *info) {
info->vkey->set_string(*new String(akey, String::L_TAINTED));
Value& ncontext=*info->r->get_method_frame()->caller();
ncontext.put_element(*info->key_var_name, info->vkey, false);
ncontext.put_element(*info->value_var_name, avalue, false);
StringOrValue sv_processed=info->r->process(*info->body_code);
const String* s_processed=sv_processed.get_string();
if(info->delim_maybe_code && s_processed && s_processed->length()) { // delimiter set and we have body
if(info->need_delim) // need delim & iteration produced string?
info->r->write_pass_lang(info->r->process(*info->delim_maybe_code));
info->need_delim=true;
}
info->r->write_pass_lang(sv_processed);
}
static void _foreach(Request& r, MethodParams& params) {
Foreach_info info={
&r,
¶ms.as_string(0, "key-var name must be string"),
¶ms.as_string(1, "value-var name must be string"),
¶ms.as_junction(2, "body must be code"),
params.count()>3?params.get(3):0,
/*vkey=*/new VString,
false
};
VHash& self=GET_SELF(r, VHash);
HashStringValue& hash=self.hash();
VHash_lock lock(self);
hash.for_each(one_foreach_cycle, &info);
}
// constructor
MHash::MHash(): Methoded("hash")
{
// ^hash::create[[copy_from]]
add_native_method("create", Method::CT_DYNAMIC, _create_or_add, 0, 1);
// ^hash.add[add_from]
add_native_method("add", Method::CT_DYNAMIC, _create_or_add, 1, 1);
// ^hash.sub[sub_from]
add_native_method("sub", Method::CT_DYNAMIC, _sub, 1, 1);
// ^a.union[b] = hash
add_native_method("union", Method::CT_DYNAMIC, _union, 1, 1);
// ^a.intersection[b] = hash
add_native_method("intersection", Method::CT_DYNAMIC, _intersection, 1, 1);
// ^a.intersects[b] = bool
add_native_method("intersects", Method::CT_DYNAMIC, _intersects, 1, 1);
// ^a.delete[key]
add_native_method("delete", Method::CT_DYNAMIC, _delete, 1, 1);
// ^hash:sql[query][$.limit(1) $.offset(2)]
add_native_method("sql", Method::CT_DYNAMIC, _sql, 1, 2);
// ^hash._keys[[column name]]
add_native_method("_keys", Method::CT_DYNAMIC, _keys, 0, 1);
// ^hash._count[]
add_native_method("_count", Method::CT_DYNAMIC, _count, 0, 0);
// ^hash.foreach[key;value]{code}[delim]
add_native_method("foreach", Method::CT_DYNAMIC, _foreach, 2+1, 2+1+1);
}
E-mail: