File:  [parser3project] / parser3 / src / classes / table.C
Revision 1.172.2.14.2.21: download - view: text, annotated - select for diffs - revision graph
Wed Apr 2 08:49:57 2003 UTC (23 years, 3 months ago) by paf
few for(size_t i=0...) -> for(Array_iterator... i(..); i.has_next()

/** @file
	Parser: @b table parser class.

	Copyright (c) 2001-2003 ArtLebedev Group (http://www.artlebedev.com)
	Author: Alexandr Petrosian <paf@design.ru> (http://paf.design.ru)
*/

static const char* IDENT_TABLE_C="$Date: 2003/04/02 08:49:57 $";

#include "classes.h"
#include "pa_vmethod_frame.h"

#include "pa_common.h"
#include "pa_request.h"
#include "pa_vtable.h"
#include "pa_vint.h"
#include "pa_sql_connection.h"
#include "pa_vbool.h"

// class

class MTable: public Methoded {
public: // VStateless_class
	Value* create_new_value() { return new VTable(); }

public:
	MTable();

public: // Methoded
	bool used_directly() { return true; }
};

// global variable

DECLARE_CLASS_VAR(table, new MTable, 0);

// defines for globals

#define SQL_LIMIT_NAME "limit"
#define SQL_OFFSET_NAME "offset"
#define SQL_DEFAULT_NAME "default"
#define SQL_DISTINCT_NAME "distinct"

// globals

String sql_limit_name(SQL_LIMIT_NAME);
String sql_offset_name(SQL_OFFSET_NAME);
String sql_default_name(SQL_DEFAULT_NAME);
String sql_distinct_name(SQL_DISTINCT_NAME);

// methods

static void get_copy_options(Request& r, MethodParams* params, size_t param_index,
							 const Table& source,
							 int& offset,
							 int& limit) {

	offset=0;
	limit=0;
	if(params->count()<=param_index)
		return;

	Value& voptions=params->as_no_junction(param_index, "options must be hash, not code");
	if(!voptions.is_string()) {
		if(HashStringValue* options=voptions.get_hash()) {
			int valid_options=0;
			if(Value* voffset=options->get(sql_offset_name)) {
				valid_options++;
				if(voffset->is_string()) {
					const String&  soffset=*voffset->get_string();
					if(soffset == "cur")
						offset=source.current();
					else
						throw Exception("parser.runtime",
							&soffset,
							"must be 'cur' string or expression");
				} else 
					offset=r.process_to_value(*voffset).as_int();
			}
			if(Value* vlimit=options->get(sql_limit_name)) {
				valid_options++;
				limit=r.process_to_value(*vlimit).as_int();
				if(!limit) // zero limit = should be 'nothing to copy', for methods zero means 'all'
					limit=-1; // thus fixing
			}
			if(valid_options!=options->count())
				throw Exception("parser.runtime",
					0,
					"called with invalid option");
		} else
			throw Exception("parser.runtime",
				0,
				"options must be hash");
	}
}

static void _create(Request& r, MethodParams* params) {
	// clone/copy part?
	if(Table *source=(*params)[0]->get_table()) {
		int offset, limit;
		get_copy_options(r, params, 1, *source, 
			offset, limit);
		GET_SELF(r, VTable).set_table(*new Table(*source, offset, limit));
		return;
	}

	// data is last parameter
	Temp_lang temp_lang(r, String::L_PASS_APPENDED);
	const String&  data=
		r.process_to_string(params->as_junction(params->count()-1, "body must be code"));

	// parse columns
	size_t raw_pos_after=0;
	Table::columns_type columns;
	if(params->count()==2) {
		columns=Table::columns_type(0); // nameless
	} else {
		columns=Table::columns_type(new ArrayString);

		ArrayString head;
		data.split(head, raw_pos_after, "\n", String::L_AS_IS, 1);
		if(head.count()) {
			size_t col_pos_after=0;
			head[0]->split(*columns, col_pos_after, "\t", String::L_AS_IS);
		}
	}

	Table& table=*new Table(columns);
	// parse cells

	ArrayString rows;
	data.split(rows, raw_pos_after, "\n", String::L_AS_IS);
	Array_iterator<const String*> i(rows);
	while(i.has_next()) {
		Table::element_type row(new ArrayString);
		const String&  string=*i.next();
		// remove comment lines
		if(!string.length())
			continue;

		size_t col_pos_after=0;
		string.split(*row, col_pos_after, "\t", String::L_AS_IS);
		table+=row;
	}

	// replace any previous table value
	GET_SELF(r, VTable).set_table(table);
}

static void _load(Request& r, MethodParams* params) {
	const String&  first_param=params->as_string(0, "file name must be string");
	int filename_param_index=0;
	bool nameless=first_param=="nameless";
	if(nameless)
		filename_param_index++;
	size_t options_param_index=filename_param_index+1;
	
	// loading text
	char *data=file_read_text(r.charsets.source(),
		r.absolute(params->as_string(filename_param_index, "file name must be string")),
		true,
		options_param_index<params->count()?params->as_no_junction(options_param_index, "additional params must be hash").get_hash():0
	);

	// parse columns
	Table::columns_type columns;
	if(nameless) {
		columns=Table::columns_type(0); // nameless
	} else {
		columns=Table::columns_type(new ArrayString);

		while(char *row_chars=getrow(&data)) {
			// remove empty&comment lines
			if(!*row_chars || *row_chars == '#')
				continue;
			do {
				*columns+=new String(lsplit(&row_chars, '\t'), 0, true);
			} while(row_chars);

			break;
		}
	}

	// parse cells
	Table& table=*new Table(columns);
	char *row_chars;
	while(row_chars=getrow(&data)) {
		// remove empty&comment lines
		if(!*row_chars || *row_chars == '#')
			continue;
		Table::element_type row(new ArrayString);
		while(char *cell_chars=lsplit(&row_chars, '\t')) {
			*row+=new String(cell_chars, 0, true);
		}
		table+=row;
	};

	// replace any previous table value
	GET_SELF(r, VTable).set_table(table);
}

/// @todo "x\nx" "xxx""xx"
static void _save(Request& r, MethodParams* params) {
	Value& vfile_name=params->as_no_junction(params->count()-1, "file name must not be code");

	Table& table=GET_SELF(r, VTable).table();

	bool do_append=false;
	String sdata;
	if(params->count()==1) { // named output
		// write out names line
		if(table.columns()) { // named table
			for(Array_iterator<const String*> i(*table.columns()); i.has_next(); ) {
				sdata.append(*i.next(), String::L_TABLE);
				if(i.has_next())
					sdata.append_help_length("\t", 1, String::L_CLEAN);
			}
		} else { // nameless table
			if(int lsize=table.count()?table[0]->count():0)
				for(int column=0; column<lsize; column++) {
					char *cindex_tab=new(PointerFreeGC) char[MAX_NUMBER];
					sdata.append_help_length(cindex_tab, 
						snprintf(cindex_tab, MAX_NUMBER, "%d\t", column),
						String::L_CLEAN);
				}
			else
				sdata.append_help_length("empty nameless table", 0, String::L_CLEAN);
		}
		sdata.append_help_length("\n", 1, String::L_CLEAN);
	} else { // mode specified
		const String&  mode=params->as_string(0, "mode must be string");
		if(mode=="append")
			do_append=true;
		else if(mode=="nameless")
			/*ok, already skipped names output*/;
		else
			throw Exception("parser.runtime",
				&mode,
				"unknown mode, must be 'append'");

	}
	// data lines
	Array_iterator<ArrayString*> i(table);
	while(i.has_next()) {
		for(Array_iterator<const String*> c(*i.next()); c.has_next(); ) {
			sdata.append(*c.next(), String::L_TABLE);
			if(c.has_next())
				sdata.append_help_length("\t", 1, String::L_CLEAN);
		}
		sdata.append_help_length("\n", 1, String::L_CLEAN);
	}

	// write
	file_write(r.absolute(vfile_name.as_string()), 
		sdata.cstr(), sdata.length(), true, do_append);
}

static void _count(Request& r, MethodParams* ) {
	int result=GET_SELF(r, VTable).table().count();
	r.write_no_lang(*new VInt(result));
}

static void _line(Request& r, MethodParams* ) {
	int result=1+GET_SELF(r, VTable).table().current();
	r.write_no_lang(*new VInt(result));
}

static void _offset(Request& r, MethodParams* params) {
	Table& table=GET_SELF(r, VTable).table();
	if(params->count()) {
		bool absolute=false;
		if(params->count()>1) {
		    const String&  whence=params->as_string(0, "whence must be string");
		    if(whence=="cur")
				absolute=false;
		    else if(whence=="set")
				absolute=true;
		    else
				throw Exception("parser.runtime",
					&whence,
					"is invalid whence, valid are 'cur' or 'set'");
		}
		
		Value& offset_expr=params->as_junction(params->count()-1, "offset must be expression");
		table.offset(absolute, r.process_to_value(offset_expr).as_int());
	} else
		r.write_no_lang(*new VInt(table.current()));
}

static void _menu(Request& r, MethodParams* params) {
	Value& body_code=params->as_junction(0, "body must be code");
	
	Value* delim_maybe_code=params->count()>1?(*params)[1]:0;

	Table& table=GET_SELF(r, VTable).table();
	bool need_delim=false;
	int saved_current=table.current();
	int size=table.count();
	for(int row=0; row<size; row++) {
		table.set_current(row);

		StringOrValue sv_processed=r.process(body_code);
		const String* s_processed=sv_processed.get_string();
		if(delim_maybe_code && s_processed && s_processed->length()) { // delimiter set and we have body
			if(need_delim) // need delim & iteration produced string?
				r.write_pass_lang(r.process(*delim_maybe_code));
			need_delim=true;
		}
		r.write_pass_lang(sv_processed);
	}
	table.set_current(saved_current);
}

#ifndef DOXYGEN
struct Row_info {
	Request *r;
	Table *table;
	Value* key_code;
	size_t key_field;
	Array<int>* value_fields;
	HashStringValue* hash;
	bool distinct;
	size_t row;
};
#endif
static void table_row_to_hash(Table::element_type row, Row_info *info) {
	const String* key;
	if(info->key_code) {
		info->table->set_current(info->row++); // change context row
		StringOrValue sv_processed=info->r->process(*info->key_code);
		key=&sv_processed.as_string();
	} else
		key=info->key_field<row->count()?row->get(info->key_field):0;

	if(!key)
		return; // ignore rows without key [too-short-record_array if-indexed]
		
	VHash* vhash=new VHash;
	HashStringValue& hash=vhash->hash();
	for(Array_iterator<int> i(*info->value_fields); i.has_next(); ) {
		size_t value_field=i.next();
		if(value_field<row->count())
			hash.put(
				*info->table->columns()->get(value_field), 
				new VString(*row->get(value_field)));
	}

	if(info->hash->put_dont_replace(*key, vhash)) // put. existed?
		if(!info->distinct)
			throw Exception("parser.runtime",
				key,
				"duplicate key");
}
static void _hash(Request& r, MethodParams* params) {
	Table& self_table=GET_SELF(r, VTable).table();
	VHash& result=*new VHash;
	if(Table::columns_type columns=self_table.columns())
		if(columns->count()>0) {
			bool distinct=false;
			int param_index=params->count()-1;
			if(param_index>0) {
				if(HashStringValue* options=
					params->as_no_junction(param_index, "param must not be code").get_hash()) {
					--param_index;
					int valid_options=0;
					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");
				}
			}
			if(param_index==2) // bad options param type
				throw Exception("parser.runtime",
					0,
					"options must be hash");

			Array<int> value_fields;
			if(param_index>0) {
				Value& value_fields_param=params->as_no_junction(param_index, "value field(s) must not be code");
				if(value_fields_param.is_string()) {
					value_fields+=self_table.column_name2index(
						*value_fields_param.get_string(), true);
				} else if(Table* value_fields_table=value_fields_param.get_table()) {
					for(Array_iterator<Table::element_type> i(*value_fields_table); 
						i.has_next(); ) {
						const String& value_field_name
							=*i.next()->get(0);
						value_fields
							+=self_table.column_name2index(value_field_name, true);
					}
				} else
					throw Exception("parser.runtime",
						0,
						"value field(s) must be string or self_table"
					);
			} else { // by all columns, including key
				for(size_t i=0; i<columns->count(); i++)
					value_fields+=i;
			}


			{
				Row_info info;
				info.r=&r;
				info.table=&self_table;
				Value* key_param=(*params)[0];
				info.key_code=key_param->get_junction()?key_param:0;
				info.key_field=info.key_code?-1
					:self_table.column_name2index(key_param->as_string(), true);
				info.value_fields=&value_fields;
				info.hash=&result.hash();
				info.distinct=distinct;
				info.row=0;

				int saved_current=self_table.current();
				self_table.for_each(table_row_to_hash, &info);
				self_table.set_current(saved_current);
			}
		}
	r.write_no_lang(result);
}

#ifndef DOXYGEN
struct Table_seq_item {
	ArrayString* row;
	union {
		const char *c_str;
		double d;
	} value;
};
#endif
static int sort_cmp_string(const void *a, const void *b) {
	return strcmp(
		static_cast<const Table_seq_item *>(a)->value.c_str, 
		static_cast<const Table_seq_item *>(b)->value.c_str
	);
}
static int sort_cmp_double(const void *a, const void *b) {
	double va=static_cast<const Table_seq_item *>(a)->value.d;
	double vb=static_cast<const Table_seq_item *>(b)->value.d;
	if(va<vb)
		return -1;
	else if(va>vb)
		return +1;
	else 
		return 0;
}
static void _sort(Request& r, MethodParams* params) {
	Value& key_maker=params->as_junction(0, "key-maker must be code");

	bool reverse=params->count()>1/*..[desc|asc|]*/?
		reverse=params->as_no_junction(1, "order must not be code").as_string()=="desc":
		false; // default=asc

	Table& old_table=GET_SELF(r, VTable).table();
	Table& new_table=*new Table(old_table.columns());

	Table_seq_item* seq=new(PointerFreeGC) Table_seq_item[old_table.count()];
	int i;

	// calculate key values
	bool key_values_are_strings=true;
	int old_count=old_table.count();
	for(i=0; i<old_count; i++) {
		old_table.set_current(i);
		// calculate key value
		seq[i].row=old_table[i];
		Value* value=r.process_to_value(key_maker).as_expr_result(true/*return string as-is*/);
		if(i==0) // determining key values type by first one
			key_values_are_strings=value->is_string();

		if(key_values_are_strings)
			seq[i].value.c_str=value->as_string().cstr();
		else
			seq[i].value.d=value->as_double();
	}
	// sort keys
	_qsort(seq, old_count, sizeof(Table_seq_item), 
		key_values_are_strings?sort_cmp_string:sort_cmp_double);

	// reorder table as they require in 'seq'
	for(i=0; i<old_count; i++)
		new_table+=Table::element_type(seq[reverse?old_count-1-i:i].row);

	delete[] seq;

	// replace any previous table value
	GET_SELF(r, VTable).set_table(new_table);
}

static bool _locate_expression(Request& r, MethodParams* params) {
	if(params->count()>1)
		throw Exception("parser.runtime", 
			0,
			"locate by expression has only one parameter - expression");

	Value& expression_code=params->as_junction(0, "must be expression");

	Table& table=GET_SELF(r, VTable).table();
	int saved_current=table.current();
	int size=table.count();
	for(int row=0; row<size; row++) {
		table.set_current(row);

		if(r.process_to_value(expression_code).as_bool())
			return true;
	}
	table.set_current(saved_current);
	return false;
}
static bool _locate_name_value(Request& r, MethodParams* params) {
	if(params->count()>2)
		throw Exception("parser.runtime", 
			0,
			"locate by name and value has only two parameters - name and value");

	Table& table=GET_SELF(r, VTable).table();
	return table.locate(
		params->as_string(0, "column name must be string"),
		params->as_string(1, "value must be string")
	);
}
static void _locate(Request& r, MethodParams* params) {
	bool result=(*params)[0]->get_junction()?
		_locate_expression(r, params) :
		_locate_name_value(r, params);
	r.write_no_lang(*new VBool(result));
}

static void _flip(Request& r, MethodParams* params) {
	Table& old_table=GET_SELF(r, VTable).table();
	Table& new_table=*new Table(old_table.columns());
	if(size_t old_count=old_table.count())
		if(size_t old_cols=old_table[0]->count()) 
			for(size_t column=0; column<old_cols; column++) {
				Table::element_type new_row(new ArrayString(old_count));
				for(size_t i=0; i<old_count; i++) {
					Table::element_type old_row=old_table[i];
					*new_row+=column<old_row->count()?old_row->get(column):new String;
				}
				new_table+=new_row;
			}

	r.write_no_lang(*new VTable(&new_table));
}

static void _append(Request& r, MethodParams* params) {
	// data
	Temp_lang temp_lang(r, String::L_PASS_APPENDED);
	const String& string=r.process_to_string(params->as_junction(0, "body must be code"));

	// parse cells
	Table::element_type row=new ArrayString;
	size_t pos_after=0;
	string.split(*row, pos_after, "\t", String::L_AS_IS);

	GET_SELF(r, VTable).table()+=row;
}

static void _join(Request& r, MethodParams* params) {
	Table* maybe_src=params->as_no_junction(0, "table ref must not be code").get_table();
	if(!maybe_src)
		throw Exception("parser.runtime", 
			0, 
			"source is not a table");

	Table& src=*maybe_src;
	Table& dest=GET_SELF(r, VTable).table();
	if(&src == &dest)
		throw Exception("parser.runtime", 
			0, 
			"source and destination are same table");

	int offset, limit;
	get_copy_options(r, params, 1, src, 
		offset, limit);

	if(Table::columns_type dest_columns=dest.columns()) { // dest is named
		int saved_src_current=src.current();
		int m=src.count()-offset;
		if(!limit || limit>m)
			limit=m;
		int end=offset+limit;
		for(int src_row=offset; src_row<end; src_row++) {
			src.set_current(src_row);
			Table::element_type dest_row(new ArrayString(src.count()));
			for(size_t dest_column=0; dest_column<dest_columns->count(); dest_column++) {
				const String* src_item=src.item(*dest_columns->get(dest_column));
				*dest_row+=src_item?src_item:new String;
			}
			dest+=dest_row;
		}
		src.set_current(saved_src_current);
	} else { // dest is nameless
		size_t src_count=src.count();
		for(size_t src_row=0; src_row<src_count; src_row++)
			dest+=src[src_row];
	}
}

#ifndef DOXYGEN
class Table_sql_event_handlers: public SQL_Driver_query_event_handlers {
	ArrayString& columns;
	ArrayString* row;
public:
	Table* table;
public:
	Table_sql_event_handlers() :
		columns(*new ArrayString), row(0), table(0) {
	}

	bool add_column(SQL_Error& error, const char *str, size_t size) {
		try {
			columns+=new String(str, size, true);
			return false;
		} catch(...) {
			error=SQL_Error("exception occured in Table_sql_event_handlers::add_column");
			return true;
		}
	}
	bool before_rows(SQL_Error& error) { 
		try {
			table=new Table(&columns);
			return false;
		} catch(...) {
			error=SQL_Error("exception occured in Table_sql_event_handlers::before_rows");
			return true;
		}
	}
	bool add_row(SQL_Error& error) {
		try {
			*table+=row=new ArrayString;
			return false;
		} catch(...) {
			error=SQL_Error("exception occured in Table_sql_event_handlers::add_row");
			return true;
		}
	}
	bool add_row_cell(SQL_Error& error, const char* str, size_t size) {
		try {
			String& cell=*new String;
			if(size)
				cell.append_help_length(str, size, String::L_TAINTED);
			*row+=&cell;
			return false;
		} catch(...) {
			error=SQL_Error("exception occured in Table_sql_event_handlers::add_row_cell");
			return true;
		}
	}
};
#endif
static void _sql(Request& r, MethodParams* params) {
	Value& statement=params->as_junction(0, "statement must be code");

	ulong limit=0;
	ulong offset=0;
	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(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());
	Table_sql_event_handlers handlers;
#ifdef RESOURCES_DEBUG
	struct timeval mt[2];
	//measure:before
	gettimeofday(&mt[0],NULL);
#endif	
	r.connection()->query(
		statement_cstr, offset, limit, 
		handlers,
		statement_string);
	
#ifdef RESOURCES_DEBUG
		//measure:after connect
	gettimeofday(&mt[1],NULL);
	
	double t[2];
	for(int i=0;i<2;i++)
	    t[i]=mt[i].tv_sec+mt[i].tv_usec/1000000.0;
	    
	r.sql_request_time+=t[1]-t[0];
#endif	    			

	Table& result=
		handlers.table?*handlers.table: // query resulted in table? return it
		*new Table(Table::columns_type(0)); // query returned no table, fake it

	// replace any previous table value
	GET_SELF(r, VTable).set_table(result);
}

static void _columns(Request& r, MethodParams* ) {

	Table::columns_type result_columns(new ArrayString);
	*result_columns+=new String("column");
	Table& result_table=*new Table(result_columns);

	Table& source_table=GET_SELF(r, VTable).table();
	if(Table::columns_type source_columns=source_table.columns()) {
		for(Array_iterator<const String*> i(*source_columns); i.has_next(); ) {
			Table::element_type result_row(new ArrayString);
			*result_row+=i.next();
			result_table+=result_row;
		}
	}

	r.write_no_lang(*new VTable(&result_table));
}

static void _select(Request& r, MethodParams* params) {
	Value& vcondition=params->as_junction(0, "condition must be expression");

	Table& source_table=GET_SELF(r, VTable).table();
	Table& result_table=*new Table(source_table.columns());

	int saved_current=source_table.current();
	int size=source_table.count();
	for(int row=0; row<size; row++) {
		source_table.set_current(row);

		bool condition=r.process_to_value(vcondition, 
				/*0/*no name* /,*/
				false/*don't intercept string*/).as_bool();

		if(condition) // ...condition is true=
			result_table+=source_table[row]; // =green light to go to result
	}
	source_table.set_current(saved_current);

	r.write_no_lang(*new VTable(&result_table));
}

// constructor

MTable::MTable(): Methoded("table") {
	// ^table::create{data}
	// ^table::create[nameless]{data}
	// ^table::create[table]
	add_native_method("create", Method::CT_DYNAMIC, _create, 1, 2);
	// old name for compatibility with <= v 1.141 2002/01/25 11:33:45 paf
	add_native_method("set", Method::CT_DYNAMIC, _create, 1, 2); 

	// ^table::load[file]  
	// ^table::load[nameless;file]
	add_native_method("load", Method::CT_DYNAMIC, _load, 1, 3);

	// ^table.save[file]  
	// ^table.save[nameless;file]
	add_native_method("save", Method::CT_DYNAMIC, _save, 1, 2);

	// ^table.count[]
	add_native_method("count", Method::CT_DYNAMIC, _count, 0, 0);

	// ^table.line[]
	add_native_method("line", Method::CT_DYNAMIC, _line, 0, 0);

	// ^table.offset[]  
	// ^table.offset(offset)
	// ^table.offset[cur|set](offset)
	add_native_method("offset", Method::CT_DYNAMIC, _offset, 0, 2);

	// ^table.menu{code}  
	// ^table.menu{code}[delim]
	add_native_method("menu", Method::CT_DYNAMIC, _menu, 1, 2);

	// ^table:hash[key field name]
	// ^table:hash[key field name][value field name(s) string/table]
	add_native_method("hash", Method::CT_DYNAMIC, _hash, 1, 3);

	// ^table.sort{string-key-maker} ^table.sort{string-key-maker}[desc|asc]
	// ^table.sort(numeric-key-maker) ^table.sort(numeric-key-maker)[desc|asc]
	add_native_method("sort", Method::CT_DYNAMIC, _sort, 1, 2);

	// ^table.locate[field;value]
	add_native_method("locate", Method::CT_DYNAMIC, _locate, 1, 2);

	// ^table.flip[]
	add_native_method("flip", Method::CT_DYNAMIC, _flip, 0, 0);

	// ^table.append{r{tab}e{tab}c{tab}o{tab}r{tab}d}
	add_native_method("append", Method::CT_DYNAMIC, _append, 1, 1);

	// ^table.join[table][$.limit(10) $.offset(1) $.offset[cur] ]
	add_native_method("join", Method::CT_DYNAMIC, _join, 1, 2);


	// ^table:sql[query]
	// ^table:sql[query][$.limit(1) $.offset(2)]
	add_native_method("sql", Method::CT_DYNAMIC, _sql, 1, 2);

	// ^table:columns[]
	add_native_method("columns", Method::CT_DYNAMIC, _columns, 0, 0);

	// ^table.select(expression) = table
	add_native_method("select", Method::CT_DYNAMIC, _select, 1, 1);
}

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