<?php namespace Laravel\Database\Query\Grammars;
use Laravel\Database\Query;
use Laravel\Database\Expression;
class Grammar extends \Laravel\Database\Grammar {
/**
* All of the query componenets in the order they should be built.
*
* @var array
*/
protected $components = array(
'aggregate', 'selects', 'from', 'joins', 'wheres',
'groupings', 'orderings', 'limit', 'offset',
);
/**
* Compile a SQL SELECT statement from a Query instance.
*
* @param Query $query
* @return string
*/
public function select(Query $query)
{
return $this->concatenate($this->components($query));
}
/**
* Generate the SQL for every component of the query.
*
* @param Query $query
* @return array
*/
final protected function components($query)
{
// Each portion of the statement is compiled by a function corresponding
// to an item in the components array. This lets us to keep the creation
// of the query very granular, and allows for the flexible customization
// of the query building process by each database system's grammar.
//
// Note that each component also corresponds to a public property on the
// query instance, allowing us to pass the appropriate data into each of
// the compiler functions.
foreach ($this->components as $component)
{
if ( ! is_null($query->$component))
{
$sql[$component] = call_user_func(array($this, $component), $query);
}
}
return (array) $sql;
}
/**
* Concatenate an array of SQL segments, removing those that are empty.
*
* @param array $components
* @return string
*/
final protected function concatenate($components)
{
return implode(' ', array_filter($components, function($value)
{
return (string) $value !== '';
}));
}
/**
* Compile the SELECT clause for a query.
*
* @param Query $query
* @return string
*/
protected function selects(Query $query)
{
// Sometimes developers may set a "select" clause on the same query that
// is performing in aggregate look-up, such as during pagination. So we
// will not generate the select clause if an aggregate is present.
if ( ! is_null($query->aggregate)) return;
$select = ($query->distinct) ? 'SELECT DISTINCT ' : 'SELECT ';
return $select.$this->columnize($query->selects);
}
/**
* Compile an aggregating SELECT clause for a query.
*
* @param Query $query
* @return string
*/
protected function aggregate(Query $query)
{
$column = $this->wrap($query->aggregate['column']);
return 'SELECT '.$query->aggregate['aggregator'].'('.$column.')';
}
/**
* Compile the FROM clause for a query.
*
* @param Query $query
* @return string
*/
protected function from(Query $query)
{
return 'FROM '.$this->wrap_table($query->from);
}
/**
* Compile the JOIN clauses for a query.
*
* @param Query $query
* @return string
*/
protected function joins(Query $query)
{
// We need to iterate through each JOIN clause that is attached to the
// query an translate it into SQL. The table and the columns will be
// wrapped in identifiers to avoid naming collisions.
//
// Once all of the JOINs have been compiled, we can concatenate them
// together using a single space, which should give us the complete
// set of joins in valid SQL that can appended to the query.
foreach ($query->joins as $join)
{
$table = $this->wrap_table($join['table']);
$column1 = $this->wrap($join['column1']);
$column2 = $this->wrap($join['column2']);
$sql[] = "{$join['type']} JOIN {$table} ON {$column1} {$join['operator']} {$column2}";
}
return implode(' ', $sql);
}
/**
* Compile the WHERE clause for a query.
*
* @param Query $query
* @return string
*/
final protected function wheres(Query $query)
{
if (is_null($query->wheres)) return '';
// Each WHERE clause array has a "type" that is assigned by the query
// builder, and each type has its own compiler function. We will call
// the appropriate compiler for each where clause in the query.
//
// Keeping each particular where clause in its own "compiler" allows
// us to keep the query generation process very granular, making it
// easier to customize derived grammars for other databases.
foreach ($query->wheres as $where)
{
$sql[] = $where['connector'].' '.$this->{$where['type']}($where);
}
if (isset($sql))
{
// We attach the boolean connector to every where segment just
// for convenience. Once we have built the entire clause we'll
// remove the first instance of a connector from the clause.
return 'WHERE '.preg_replace('/AND |OR /', '', implode(' ', $sql), 1);
}
}
/**
* Compile a nested WHERE clause.
*
* @param array $where
* @return string
*/
protected function where_nested($where)
{
// To generate a nested WHERE clause, we'll just feed the query
// back into the "wheres" method. Once we have the clause, we
// will strip off the first six characters to get rid of the
// leading WHERE keyword.
return '('.substr($this->wheres($where['query']), 6).')';
}
/**
* Compile a simple WHERE clause.
*
* @param array $where
* @return string
*/
protected function where($where)
{
$parameter = $this->parameter($where['value']);
return $this->wrap($where['column']).' '.$where['operator'].' '.$parameter;
}
/**
* Compile a WHERE IN clause.
*
* @param array $where
* @return string
*/
protected function where_in($where)
{
$parameters = $this->parameterize($where['values']);
return $this->wrap($where['column']).' IN ('.$parameters.')';
}
/**
* Compile a WHERE NOT IN clause.
*
* @param array $where
* @return string
*/
protected function where_not_in($where)
{
$parameters = $this->parameterize($where['values']);
return $this->wrap($where['column']).' NOT IN ('.$parameters.')';
}
/**
* Compile a WHERE NULL clause.
*
* @param array $where
* @return string
*/
protected function where_null($where)
{
return $this->wrap($where['column']).' IS NULL';
}
/**
* Compile a WHERE NULL clause.
*
* @param array $where
* @return string
*/
protected function where_not_null($where)
{
return $this->wrap($where['column']).' IS NOT NULL';
}
/**
* Compile a raw WHERE clause.
*
* @param array $where
* @return string
*/
final protected function where_raw($where)
{
return $where['sql'];
}
/**
* Compile the GROUP BY clause for a query.
*
* @param Query $query
* @return string
*/
protected function groupings(Query $query)
{
return 'GROUP BY '.$this->columnize($query->groupings);
}
/**
* Compile the ORDER BY clause for a query.
*
* @param Query $query
* @return string
*/
protected function orderings(Query $query)
{
foreach ($query->orderings as $ordering)
{
$direction = strtoupper($ordering['direction']);
$sql[] = $this->wrap($ordering['column']).' '.$direction;
}
return 'ORDER BY '.implode(', ', $sql);
}
/**
* Compile the LIMIT clause for a query.
*
* @param Query $query
* @return string
*/
protected function limit(Query $query)
{
return 'LIMIT '.$query->limit;
}
/**
* Compile the OFFSET clause for a query.
*
* @param Query $query
* @return string
*/
protected function offset(Query $query)
{
return 'OFFSET '.$query->offset;
}
/**
* Compile a SQL INSERT statment from a Query instance.
*
* This method handles the compilation of single row inserts and batch inserts.
*
* @param Query $query
* @param array $values
* @return string
*/
public function insert(Query $query, $values)
{
$table = $this->wrap_table($query->from);
// Force every insert to be treated like a batch insert. This simply makes
// creating the SQL syntax a little easier on us since we can always treat
// the values as if it is an array containing multiple inserts.
if ( ! is_array(reset($values))) $values = array($values);
// Since we only care about the column names, we can pass any of the insert
// arrays into the "columnize" method. The columns should be the same for
// every insert to the table so we can just use the first record.
$columns = $this->columnize(array_keys(reset($values)));
// Build the list of parameter place-holders of values bound to the query.
// Each insert should have the same number of bound paramters, so we can
// just use the first array of values.
$parameters = $this->parameterize(reset($values));
$parameters = implode(', ', array_fill(0, count($values), "($parameters)"));
return "INSERT INTO {$table} ({$columns}) VALUES {$parameters}";
}
/**
* Compile a SQL UPDATE statment from a Query instance.
*
* @param Query $query
* @param array $values
* @return string
*/
public function update(Query $query, $values)
{
$table = $this->wrap_table($query->from);
// Each column in the UPDATE statement needs to be wrapped in keyword
// identifiers, and a place-holder needs to be created for each value
// in the array of bindings. Of course, if the value of the binding
// is an expression, the expression string will be injected.
foreach ($values as $column => $value)
{
$columns[] = $this->wrap($column).' = '.$this->parameter($value);
}
$columns = implode(', ', $columns);
// UPDATE statements may be constrained by a WHERE clause, so we'll
// run the entire where compilation process for those contraints.
// This is easily achieved by passing the query to the "wheres"
// method which will call all of the where compilers.
return trim("UPDATE {$table} SET {$columns} ".$this->wheres($query));
}
/**
* Compile a SQL DELETE statment from a Query instance.
*
* @param Query $query
* @return string
*/
public function delete(Query $query)
{
$table = $this->wrap_table($query->from);
// Like the UPDATE statement, the DELETE statement is constrained
// by WHERE clauses, so we'll need to run the "wheres" method to
// make the WHERE clauses for the query. The "wheres" method
// encapsulates the logic to create the full WHERE clause.
return trim("DELETE FROM {$table} ".$this->wheres($query));
}
}