Custom sorting function returns false or negative number which means the first parameter should be sorted before the second parameter, positive number or true otherwise, 0 is equal
usort does not save the key name
uasort key name will be saved
uksort sorting It is done on the key name
<!doctype html>
<html lang="en">
<head>
<meta charset="utf-8">
<title>Sorting Multidimensional Arrays</title>
</head>
<body>
<?php
$a = [
[
'key1' => 940,
'key2' => 'blah',
],
[
'key1' => 23,
'key2' => 'this',
],
[
'key1' => 894,
'key2' => 'that',
],
];
var_dump($a);
// 比较的规则第一个小于第二个返回负数或false, 相当于第一个的值减去第二个, 如果前小后大则为负, 前大后小则为正, 两个一样, 则为0
//按第一个数组key1的数字从小到大排序
function asc_number_sort($x, $y) {
echo "iteration x1 = ".$x['key1'].' y = '.$y['key1'];
if ($x['key1'] > $y['key1']) {
return true; // true或正数表示第二个参数应该排在前面, 小的在前
} elseif ($x['key1'] < $y['key1']) {
return false; // false或负数意味着第一个参数排第二个参数的前面, 小的在前
} else {
return 0; //表示两个数相等
}
}
usort($a, 'asc_number_sort');
echo '针对key1从小到大排序';
var_dump($a);
//对第二个关键字进行排序
function string_sort($x, $y) {
return strcasecmp($x['key2'], $y['key2']); // strcmp区分大小写 strcasecmp不区分大小写
}
usort($a, 'string_sort');
echo '针对key2按字母排序';
var_dump($a);
// create the array.
// Array structs
// StudentId = > ["name" => "Name", "grade" => xx.x];
$students = [
256 => ['name' => 'Jon', 'grade' => '98.5'],
2 => ['name' => 'Vance', 'grade' => '85.1'],
9 => ['name' => 'Stephen', 'grade' => '94.0'],
364 => ['name' => 'Steve', 'grade' => '85.1'],
68 => ['name' => 'Rob', 'grade' => '74.6'],
];
function name_sort($x, $y) {
return strcasecmp($x['name'], $y['name']);
}
function grade_sort($x, $y) {
return $x['grade'] < $y['grade'];
}
echo print_r($students, 1);
uasort($students, 'name_sort'); //保持键并使用自定义排序
echo print_r($students, 1);
uasort($students, 'grade_sort');
echo print_r($students, 1);
?>
</body>
</html><!doctype html>
<html lang="en">
<head>
<meta charset="utf-8">
<title>Sorting Multidimensional Arrays</title>
</head>
<body>
<?php
$db = mysqli_connect('192.168.31.172', 'root', 'root', 'phpadvanced');
mysqli_query($db, "set names utf8");
if(!empty($_POST['task'])) {
$parent_id = 0;
if(isset($_POST['parent_id']) && filter_var($_POST['parent_id'], FILTER_VALIDATE_INT, ['min_range' => 1])) {
$parent_id = $_POST['parent_id'];
}
$task = mysqli_real_escape_string($db, strip_tags($_POST['task']));
$q = "INSERT INTO tasks (parent_id, task) VALUES ($parent_id, '$task')";
echo $q;
$r = mysqli_query($db, $q);
if(mysqli_affected_rows($db) == 1) {
echo '<p>任务添加成功</p>';
} else {
echo '<p>任务添加失败</p>';
}
}
?>
<form action="add_task.php" method="post">
<fieldset>
<legend>添加一个任务</legend>
<p>任务: <input name="task" type="text" size="60" maxlength="100" required> </p>
<p>上级任务: <select name="parent_id">
<option value="0">无上级</option>
<?php
$q = 'SELECT task_id, parent_id, task FROM tasks WHERE date_completed="0000-00-00 00:00:00" ORDER BY date_added ASC';
$r = mysqli_query($db, $q);
$tasks = [];
while(list($task_id, $parent_id, $task) = mysqli_fetch_array($r, MYSQLI_NUM)) {
echo "<option value=\"$task_id\">$task</option>";
$tasks[] = ['task_id' => $task_id, 'parent_id' => $parent_id, 'task' => $task];
}
?>
</select></p>
<input name="submit" type="submit" value="添加这个任务" />
</fieldset>
</form>
<?php
// 对任务的父id进行排序
function parent_sort($x, $y) {
return ($x['parent_id'] > $y['parent_id']);
}
usort($tasks, 'parent_sort');
echo '<h2>当前的任务列表</h2><ul>';
foreach ($tasks as $task) {
echo "<li>{$task['task']}</li>\n";
}
echo '</ul>';
?>
</body>
</html>CREATE TABLE tasks ( task_id INT UNSIGNED NOT NULL AUTO_INCREMENT, parent_id INT UNSIGNED NOT NULL DEFAULT 0, task VARCHAR(100) NOT NULL, date_added TIMESTAMP NOT NULL, date_completed TIMESTAMP, PRIMARY KEY (task_id), INDEX parent (parent_id), INDEX added (date_added), INDEX completed (date_completed) );
The above introduces PHP multi-dimensional array sorting and its application in practical work, including aspects of it. I hope it will be helpful to friends who are interested in PHP tutorials.
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