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+\chapter{Using SQLMap PHP DataMapper}

+The SQLMap DataMapper API provides four core functions:

+

+\begin{itemize}

+  \item build a \tt{TSqlMapper} instance from a configuration file or cache

+  \item execute an update query (including insert and delete).

+  \item execute a select query for a single object

+  \item execute a select query for a list of objects

+\end{itemize}

+

+The API also provides support for retrieving paginated lists and managing

+transactions.

+

+\section{Building a \tt{TSqlMapper} instance}

+An XML document is a wonderful tool for describing a database configuration

+(Chapter~\ref{section:4.3}) or defining a set of data mappings

+(Chapter~\ref{section:3}), but you can't execute XML. In order to use the

+SQLMap configuration and definitions in your PHP application, you need a class

+you can call.

+

+The framework provides service methods that you can call which read the

+configuration file (and any of its definition files) and builds a

+\tt{TSqlMapper} object. The \tt{TSqlMapper} object provides access to the rest

+of the framework. Example~\ref{example:9.4} shows a singleton Mapper that is

+similar to the one bundled with the framework.

+

+\begin{example}\label{example:9.4}

+A Mapper singleton you can call from your own applications

+\begin{verbatim}

+require_once('/path/to/SQLMap/TSqlMapper.php');

+

+class TMapper

+{

+    private static $_mapper;

+

+    public static function configure($configFile)

+    {

+        if(is_null(self::$_mapper))

+        {

+            $builder = new TDomSqlMapBuilder();

+            self::$_mapper = $builder->configure($configFile);

+        }

+        return self::$_mapper;

+    }

+

+    public static function instance()

+    {

+        return self::$_mapper;

+    }

+}

+\end{verbatim}

+\end{example}

+

+To obtain the \tt{TSqlMapper} instance, first configure the mapper once,

+\begin{verbatim}

+TMapper::configure('path/to/sqlmap.config');

+\end{verbatim}

+The \tt{TDomSqlMapBuilder} object will go throught the the \tt{sqlmap.config}

+file and build a \tt{TSqlMapper} instance. To use \tt{TSqlMapper} in your

+application, specify one of the \tt{TSqlMapper} methods (see Section ???).

+Here's an example:

+\begin{verbatim}

+$list = TMapper::instance()->queryForList("PermitNoForYearList", $values);

+\end{verbatim}

+

+\subsection{Multiple Databases}

+If you need access to more than one database from the same application, create

+a DataMapper configuration file for that database and another Mapper class to

+go with it.

+

+\subsection{\tt{TDomSqlMapBuilder} Configuration Options}

+If you find that you already have loaded your DataMapper configuration

+information as a \tt{SimpleXMLElement} instance within your application, the

+\tt{TDomSqlMapBuilder} provides \tt{Configure} overloads for those types as

+well.

+

+\section{Exploring the SQLMap PHP DataMapper API through the \tt{TSqlMapper}}

+The \tt{TSqlMapper} instance acts as a facade to provide access the rest of

+the DataMapper framework. The DataMapper API methods are shown in Example

+4.11.

+

+\begin{example}

+The SQLMap DataMapper API for PHP.

+\begin{verbatim}

+ /* Query API */

+ public function queryForObject($statementName, $parameter=null, $result=null);

+ public function queryForList($statementName, $parameter=null, $result=null,

+                                    $skip=-1, $max=-1);

+ public function queryForPagedList($statementName, $parameter=null, $pageSize=10);

+ public function queryForMap($statementName, $parameter=null,

+                                    $keyProperty=null, $valueProperty=null);

+

+ public function insert($statementName, $parameter=null)

+ public function update($statementName, $parameter=null)

+ public function delete($statementName, $parameter=null)

+

+ /* Connection API */

+ public function openConnection()

+ public function closeConnection()

+

+ /* Transaction API */

+ public function beginTransaction()

+ public function commitTransaction()

+ public function rollBackTransaction()

+\end{verbatim}

+\end{example}

+

+Note that each of the API methods accept the name of the Mapped Statement as

+the first parameter. The \tt{statementName} parameter corresponds to the

+\tt{id} of the Mapped Statement in the Data Map definition (see

+Section~\ref{section:3.3}). In each case, a \tt{parameterObject} also may be

+passed. The following sections describe how the API methods work.

+

+\subsection{Insert, Update, Delete}

+\begin{verbatim}

+ public function insert($statementName, $parameter=null)

+ public function update($statementName, $parameter=null)

+ public function delete($statementName, $parameter=null)

+\end{verbatim}

+

+If a Mapped Statement uses one of the \tt{<insert>}, \tt{<update>}, or

+\tt{<delete>} statement-types, then it should use the corresponding API

+method. The \tt{<insert>} element supports a nested \tt{<selectKey>} element

+for generating primary keys (see Section~\ref{section:3.3.3}). If the

+\tt{<selectKey>} stanza is used, then \tt{insert} returns the generated key;

+otherwise a null object is returned. Both the \tt{update} and \tt{delete}

+methods return the number of rows affected by the statement.

+

+\subsection{QueryForObject}

+\begin{verbatim}

+public function queryForObject($statementName, $parameter=null, $result=null);

+\end{verbatim}

+

+If a Mapped Statement is expected to select a single row, then call it using

+\tt{queryForObject}. Since the Mapped Statement definition specifies the

+result class expected, the framework can both create and populate the result

+class for you. Alternatively, if you need to manage the result object

+yourself, say because it is being populated by more than one statement, you

+can use the alternate form and pass your \tt{\$resultObject} as the third

+parameter.

+

+\subsection{QueryForList}

+

+\begin{verbatim}

+public function queryForList($statementName, $parameter=null, $result=null,

+                                    $skip=-1, $max=-1);

+\end{verbatim}

+If a Mapped Statement is expected to select multiple rows, then call it using

+\tt{queryForList}. Each entry in the list will be an result object populated

+from the corresponding row of the query result. If you need to manage the

+\tt{\$resultObject} yourself, then it can be passed as the third parameter. If

+you need to obtain a partial result, the fourth parameter \tt{\$skip} and

+fifth parameter \tt{\$max} allow you to skip a number of records (the starting

+point) and the maximum number to return.

+

+

+\subsection{QueryForPagedList}

+\begin{verbatim}

+ public function queryForPagedList($statementName, $parameter=null, $pageSize=10);

+\end{verbatim}

+We live in an age of information overflow. A database query often returns more

+hits than users want to see at once, and our requirements may say that we need

+to offer a long list of results a ``page'' at a time. If the query returns

+1000 hits, we might need to present the hits to the user in sets of fifty, and

+let them move back and forth between the sets. Since this is such a common

+requirement, the framework provides a convenience method.

+

+The \tt{TSqlMapPagedList} interface includes methods for navigating through

+pages (\tt{nextPage()}, \tt{previousPage()}, \tt{gotoPage(\$pageIndex)}) and

+also checking the status of the page (\tt{getIsFirstPage()},

+\tt{getIsMiddlePage()}, \tt{getIsLastPage()}, \tt{getIsNextPageAvailable()},

+\tt{getIsPreviousPageAvailable()}, \tt{getCurrentPageIndex()},

+\tt{getPageSize()}). The total number of records available is not accessible

+from the \tt{TSqlMapPagedList} interface, unless a virtual count is defined

+using \tt{setVirtualCount(\$value)}, this should be easily accomplished by

+simply executing a second statement that counts the expected results.

+

+\begin{mybox}{Tip:}

+The \tt{queryForPagedList} method is convenient, but note that a larger set

+(up to 3 times the page size) will first be returned by the database provider

+and the smaller set extracted by the framework. The higher the page size, the

+larger set that will be returned and thrown away. For very large sets, you may

+want to use a stored procedure or your own query that uses \tt{\$skip} and

+\tt{\$max} as parameters in \tt{queryForList}.

+\end{mybox}

+

+\subsection{QueryForMap}

+\begin{verbatim}

+public function queryForMap($statementName, $parameter=null,

+                                    $keyProperty=null, $valueProperty=null);

+\end{verbatim}

+The \tt{queryForList} methods return the result objects within a \tt{TList} or

+array instance. Alternatively, the \tt{queryForMap} returns a TMap or

+associative array instance. The value of each entry is one of the result

+objects. The key to each entry is indicated by the \tt{\$keyProperty}

+parameter. This is the name of the one of the properties of the result object,

+the value of which is used as the key for each entry. For example, If you

+needed a set of \tt{Employee} objects, you might want them returned as a

+\tt{TMap} keyed by each object's \tt{EmployeeNumber} property.

+

+If you don't need the entire result object in your result, you can add the

+\tt{\$valueProperty} parameter to indicate which result object property should

+be the value of an entry. For example, you might just want the

+\tt{EmployeeName} keyed by \tt{EmployeeNumber}.

+

+\subsection{Transaction}

+The DataMapper API includes methods to demarcate transactional boundaries. A

+transaction can be started, committed and/or rolled back. You can call the

+transaction methods from the \tt{TSqlMapper} instance.

+

+\begin{verbatim}

+// Begin a transactional session using Adodb transaction API

+public function beginTransaction()

+

+// Commit a transaction, uses Adodb transaction API

+public function commitTransaction()

+

+// RollBack a transaction, uses Adodb transaction API

+public void RollBackTransaction()

+\end{verbatim}

+

+\begin{example}\label{example:9.15}

+Using transactions

+\begin{verbatim}

+try

+{

+    $sqlMap->beginTransaction();

+    $item = $sqlMap->queryForObject("getItem", $itemId);

+    $item->setDescription($newDescription);

+    $sqlMap->update("updateItem", $item);

+    $sqlMap->commitTransaction();

+}

+catch

+{

+    $sqlMap->rollBackTransaction();

+}

+\end{verbatim}

+\end{example}

+

+\section{Coding Examples}

+\begin{example}\label{example:10.1}

+Executing Update (insert, update, delete)

+\begin{verbatim}

+$product = new Product();

+$product->setId(1);

+$product->setDescription('Shih Tzui');

+

+$key = $sqlMap->insert('insertProduct', $product);

+\end{verbatim}

+\end{example}

+

+\begin{example}\label{example:10.2}

+Executing Query for Object (select)

+\begin{verbatim}

+$key = 1;

+$product = $sqlMap->queryForObject ('getProduct', $key);

+\end{verbatim}

+\end{example}

+

+\begin{example}\label{example:10.3}

+Executing Query for Object (select) With Preallocated Result Object

+\begin{verbatim}

+$customer = new Customer();

+

+$sqlMap->beginTransaction();

+

+$sqlMap->queryForObject('getCust', $parameter, $customer);

+$sqlMap->queryForObject('getAddr', $parameter, $customer);

+$sqlMap->commitTransaction();

+\end{verbatim}

+\end{example}

+

+\begin{example}\label{example:10.4}

+Executing Query for List (select)

+\begin{verbatim}

+$list = $sqlMap->queryForList ('getProductList');

+\end{verbatim}

+\end{example}

+

+\begin{example}\label{example:10.4}

+Executing Query for List (select) With Result Boundaries

+\begin{verbatim}

+$list = $sqlMap->queryForList ('getProductList', $key, null, 0, 40);

+\end{verbatim}

+\end{example}

+

+\begin{example}\label{example:10.5}

+Executing Query for Paginated List (select)

+\begin{verbatim}

+$list = $sqlMap->queryForPagedList ('getProductList', null, 10);

+$list->nextPage();

+$list->previousPage();

+\end{verbatim}

+\end{example}

+

+\begin{example}\label{example:10.6}

+Executing Query for Map

+\begin{verbatim}

+ $map = $sqlMap->QueryForMap('getProductList', null, 'productCode');

+ $product = $map['EST-93'];

+\end{verbatim}

+\end{example}