The class QAccordionGen has 11 public methods. Consider refactoring QAccordionGen to keep number of public methods under 10. Open
class QAccordionGen extends QPanel {
protected $strJavaScripts = __JQUERY_EFFECTS__;
protected $strStyleSheets = __JQUERY_CSS__;
/** @var mixed */
protected $mixActive;
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TooManyPublicMethods
Since: 0.1
A class with too many public methods is probably a good suspect for refactoring, in order to reduce its complexity and find a way to have more fine grained objects.
By default it ignores methods starting with 'get' or 'set'.
Example
Source https://phpmd.org/rules/codesize.html#toomanypublicmethods
Method __set
has 66 lines of code (exceeds 25 allowed). Consider refactoring. Open
public function __set($strName, $mixValue) {
switch ($strName) {
case 'Active':
$this->mixActive = $mixValue;
$this->AddAttributeScript($this->getJqSetupFunction(), 'option', 'active', $mixValue);
Function __set
has a Cognitive Complexity of 16 (exceeds 5 allowed). Consider refactoring. Open
public function __set($strName, $mixValue) {
switch ($strName) {
case 'Active':
$this->mixActive = $mixValue;
$this->AddAttributeScript($this->getJqSetupFunction(), 'option', 'active', $mixValue);
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Cognitive Complexity
Cognitive Complexity is a measure of how difficult a unit of code is to intuitively understand. Unlike Cyclomatic Complexity, which determines how difficult your code will be to test, Cognitive Complexity tells you how difficult your code will be to read and comprehend.
A method's cognitive complexity is based on a few simple rules:
- Code is not considered more complex when it uses shorthand that the language provides for collapsing multiple statements into one
- Code is considered more complex for each "break in the linear flow of the code"
- Code is considered more complex when "flow breaking structures are nested"
Further reading
Function MakeJqOptions
has a Cognitive Complexity of 8 (exceeds 5 allowed). Consider refactoring. Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
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Cognitive Complexity
Cognitive Complexity is a measure of how difficult a unit of code is to intuitively understand. Unlike Cyclomatic Complexity, which determines how difficult your code will be to test, Cognitive Complexity tells you how difficult your code will be to read and comprehend.
A method's cognitive complexity is based on a few simple rules:
- Code is not considered more complex when it uses shorthand that the language provides for collapsing multiple statements into one
- Code is considered more complex for each "break in the linear flow of the code"
- Code is considered more complex when "flow breaking structures are nested"
Further reading
Avoid too many return
statements within this method. Open
case 'Event': return $this->strEvent;
Avoid too many return
statements within this method. Open
case 'Icons': return $this->mixIcons;
Avoid too many return
statements within this method. Open
case 'HeightStyle': return $this->strHeightStyle;
Avoid too many return
statements within this method. Open
case 'Header': return $this->mixHeader;
Avoid too many return
statements within this method. Open
return parent::__get($strName);
The method MakeJqOptions() has an NPath complexity of 256. The configured NPath complexity threshold is 200. Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
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NPathComplexity
Since: 0.1
The NPath complexity of a method is the number of acyclic execution paths through that method. A threshold of 200 is generally considered the point where measures should be taken to reduce complexity.
Example
class Foo {
function bar() {
// lots of complicated code
}
}
Source https://phpmd.org/rules/codesize.html#npathcomplexity
The method __get() has a Cyclomatic Complexity of 10. The configured cyclomatic complexity threshold is 10. Open
public function __get($strName) {
switch ($strName) {
case 'Active': return $this->mixActive;
case 'Animate': return $this->mixAnimate;
case 'Collapsible': return $this->blnCollapsible;
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CyclomaticComplexity
Since: 0.1
Complexity is determined by the number of decision points in a method plus one for the method entry. The decision points are 'if', 'while', 'for', and 'case labels'. Generally, 1-4 is low complexity, 5-7 indicates moderate complexity, 8-10 is high complexity, and 11+ is very high complexity.
Example
// Cyclomatic Complexity = 11
class Foo {
1 public function example() {
2 if ($a == $b) {
3 if ($a1 == $b1) {
fiddle();
4 } elseif ($a2 == $b2) {
fiddle();
} else {
fiddle();
}
5 } elseif ($c == $d) {
6 while ($c == $d) {
fiddle();
}
7 } elseif ($e == $f) {
8 for ($n = 0; $n < $h; $n++) {
fiddle();
}
} else {
switch ($z) {
9 case 1:
fiddle();
break;
10 case 2:
fiddle();
break;
11 case 3:
fiddle();
break;
default:
fiddle();
break;
}
}
}
}
Source https://phpmd.org/rules/codesize.html#cyclomaticcomplexity
The method __set() has a Cyclomatic Complexity of 15. The configured cyclomatic complexity threshold is 10. Open
public function __set($strName, $mixValue) {
switch ($strName) {
case 'Active':
$this->mixActive = $mixValue;
$this->AddAttributeScript($this->getJqSetupFunction(), 'option', 'active', $mixValue);
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CyclomaticComplexity
Since: 0.1
Complexity is determined by the number of decision points in a method plus one for the method entry. The decision points are 'if', 'while', 'for', and 'case labels'. Generally, 1-4 is low complexity, 5-7 indicates moderate complexity, 8-10 is high complexity, and 11+ is very high complexity.
Example
// Cyclomatic Complexity = 11
class Foo {
1 public function example() {
2 if ($a == $b) {
3 if ($a1 == $b1) {
fiddle();
4 } elseif ($a2 == $b2) {
fiddle();
} else {
fiddle();
}
5 } elseif ($c == $d) {
6 while ($c == $d) {
fiddle();
}
7 } elseif ($e == $f) {
8 for ($n = 0; $n < $h; $n++) {
fiddle();
}
} else {
switch ($z) {
9 case 1:
fiddle();
break;
10 case 2:
fiddle();
break;
11 case 3:
fiddle();
break;
default:
fiddle();
break;
}
}
}
}
Source https://phpmd.org/rules/codesize.html#cyclomaticcomplexity
Missing class import via use statement (line '413', column '9'). Open
new QModelConnectorParam (get_called_class(), 'Collapsible', 'Whether all the sections can be closed at once. Allows collapsing theactive section.', QType::Boolean),
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MissingImport
Since: 2.7.0
Importing all external classes in a file through use statements makes them clearly visible.
Example
function make() {
return new \stdClass();
}
Source http://phpmd.org/rules/cleancode.html#MissingImport
Missing class import via use statement (line '414', column '9'). Open
new QModelConnectorParam (get_called_class(), 'Disabled', 'Disables the accordion if set to true.', QType::Boolean),
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MissingImport
Since: 2.7.0
Importing all external classes in a file through use statements makes them clearly visible.
Example
function make() {
return new \stdClass();
}
Source http://phpmd.org/rules/cleancode.html#MissingImport
Missing class import via use statement (line '415', column '9'). Open
new QModelConnectorParam (get_called_class(), 'Event', 'The event that accordion headers will react to in order to activatethe associated panel. Multiple events can be specified, separated by aspace.', QType::String),
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MissingImport
Since: 2.7.0
Importing all external classes in a file through use statements makes them clearly visible.
Example
function make() {
return new \stdClass();
}
Source http://phpmd.org/rules/cleancode.html#MissingImport
Missing class import via use statement (line '416', column '9'). Open
new QModelConnectorParam (get_called_class(), 'HeightStyle', 'Controls the height of the accordion and each panel. Possible values: * \"auto\": All panels will be set to the height of the tallest panel. * \"fill\": Expand to the available height based on the accordionsparent height. * \"content\": Each panel will be only as tall as its content.', QType::String),
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MissingImport
Since: 2.7.0
Importing all external classes in a file through use statements makes them clearly visible.
Example
function make() {
return new \stdClass();
}
Source http://phpmd.org/rules/cleancode.html#MissingImport
Avoid using static access to class 'QApplication' in method 'Option2'. Open
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "option", $optionName, $value, QJsPriority::Low);
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StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid assigning values to variables in if clauses and the like (line '171', column '17'). Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
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IfStatementAssignment
Since: 2.7.0
Assignments in if clauses and the like are considered a code smell. Assignments in PHP return the right operand as their result. In many cases, this is an expected behavior, but can lead to many difficult to spot bugs, especially when the right operand could result in zero, null or an empty string and the like.
Example
class Foo
{
public function bar($flag)
{
if ($foo = 'bar') { // possible typo
// ...
}
if ($baz = 0) { // always false
// ...
}
}
}
Source http://phpmd.org/rules/cleancode.html#ifstatementassignment
Avoid assigning values to variables in if clauses and the like (line '168', column '17'). Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
- Read upRead up
- Exclude checks
IfStatementAssignment
Since: 2.7.0
Assignments in if clauses and the like are considered a code smell. Assignments in PHP return the right operand as their result. In many cases, this is an expected behavior, but can lead to many difficult to spot bugs, especially when the right operand could result in zero, null or an empty string and the like.
Example
class Foo
{
public function bar($flag)
{
if ($foo = 'bar') { // possible typo
// ...
}
if ($baz = 0) { // always false
// ...
}
}
}
Source http://phpmd.org/rules/cleancode.html#ifstatementassignment
Avoid using static access to class 'QApplication' in method 'Enable'. Open
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "enable", QJsPriority::Low);
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StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid assigning values to variables in if clauses and the like (line '165', column '17'). Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
- Read upRead up
- Exclude checks
IfStatementAssignment
Since: 2.7.0
Assignments in if clauses and the like are considered a code smell. Assignments in PHP return the right operand as their result. In many cases, this is an expected behavior, but can lead to many difficult to spot bugs, especially when the right operand could result in zero, null or an empty string and the like.
Example
class Foo
{
public function bar($flag)
{
if ($foo = 'bar') { // possible typo
// ...
}
if ($baz = 0) { // always false
// ...
}
}
}
Source http://phpmd.org/rules/cleancode.html#ifstatementassignment
Avoid assigning values to variables in if clauses and the like (line '167', column '17'). Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
- Read upRead up
- Exclude checks
IfStatementAssignment
Since: 2.7.0
Assignments in if clauses and the like are considered a code smell. Assignments in PHP return the right operand as their result. In many cases, this is an expected behavior, but can lead to many difficult to spot bugs, especially when the right operand could result in zero, null or an empty string and the like.
Example
class Foo
{
public function bar($flag)
{
if ($foo = 'bar') { // possible typo
// ...
}
if ($baz = 0) { // always false
// ...
}
}
}
Source http://phpmd.org/rules/cleancode.html#ifstatementassignment
Avoid using static access to class 'QApplication' in method 'Option3'. Open
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "option", $options, QJsPriority::Low);
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StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid using static access to class 'QApplication' in method 'GetEndScript'. Open
QApplication::ExecuteControlCommand($strId, $strFunc, $jqOptions, QJsPriority::High);
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StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid using static access to class 'QApplication' in method 'Refresh'. Open
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "refresh", QJsPriority::Low);
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- Exclude checks
StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid using static access to class 'QType' in method '__set'. Open
$this->strHeightStyle = QType::Cast($mixValue, QType::String);
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StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid assigning values to variables in if clauses and the like (line '164', column '17'). Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
- Read upRead up
- Exclude checks
IfStatementAssignment
Since: 2.7.0
Assignments in if clauses and the like are considered a code smell. Assignments in PHP return the right operand as their result. In many cases, this is an expected behavior, but can lead to many difficult to spot bugs, especially when the right operand could result in zero, null or an empty string and the like.
Example
class Foo
{
public function bar($flag)
{
if ($foo = 'bar') { // possible typo
// ...
}
if ($baz = 0) { // always false
// ...
}
}
}
Source http://phpmd.org/rules/cleancode.html#ifstatementassignment
Avoid assigning values to variables in if clauses and the like (line '170', column '17'). Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
- Read upRead up
- Exclude checks
IfStatementAssignment
Since: 2.7.0
Assignments in if clauses and the like are considered a code smell. Assignments in PHP return the right operand as their result. In many cases, this is an expected behavior, but can lead to many difficult to spot bugs, especially when the right operand could result in zero, null or an empty string and the like.
Example
class Foo
{
public function bar($flag)
{
if ($foo = 'bar') { // possible typo
// ...
}
if ($baz = 0) { // always false
// ...
}
}
}
Source http://phpmd.org/rules/cleancode.html#ifstatementassignment
Avoid using static access to class 'QApplication' in method 'GetEndScript'. Open
QApplication::ExecuteControlCommand($strId, $strFunc, QJsPriority::High);
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- Exclude checks
StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid using static access to class 'QApplication' in method 'Disable'. Open
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "disable", QJsPriority::Low);
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StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid assigning values to variables in if clauses and the like (line '166', column '17'). Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
- Read upRead up
- Exclude checks
IfStatementAssignment
Since: 2.7.0
Assignments in if clauses and the like are considered a code smell. Assignments in PHP return the right operand as their result. In many cases, this is an expected behavior, but can lead to many difficult to spot bugs, especially when the right operand could result in zero, null or an empty string and the like.
Example
class Foo
{
public function bar($flag)
{
if ($foo = 'bar') { // possible typo
// ...
}
if ($baz = 0) { // always false
// ...
}
}
}
Source http://phpmd.org/rules/cleancode.html#ifstatementassignment
Avoid using static access to class 'QApplication' in method 'GetEndScript'. Open
QApplication::ExecuteControlCommand($strId, 'off', QJsPriority::High);
- Read upRead up
- Exclude checks
StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid using static access to class 'QApplication' in method 'Option'. Open
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "option", $optionName, QJsPriority::Low);
- Read upRead up
- Exclude checks
StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid assigning values to variables in if clauses and the like (line '169', column '17'). Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
- Read upRead up
- Exclude checks
IfStatementAssignment
Since: 2.7.0
Assignments in if clauses and the like are considered a code smell. Assignments in PHP return the right operand as their result. In many cases, this is an expected behavior, but can lead to many difficult to spot bugs, especially when the right operand could result in zero, null or an empty string and the like.
Example
class Foo
{
public function bar($flag)
{
if ($foo = 'bar') { // possible typo
// ...
}
if ($baz = 0) { // always false
// ...
}
}
}
Source http://phpmd.org/rules/cleancode.html#ifstatementassignment
Avoid using static access to class 'QType' in method '__set'. Open
$this->strEvent = QType::Cast($mixValue, QType::String);
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- Exclude checks
StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid using static access to class 'QType' in method '__set'. Open
$this->blnCollapsible = QType::Cast($mixValue, QType::Boolean);
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- Exclude checks
StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid using static access to class 'QType' in method '__set'. Open
$this->blnDisabled = QType::Cast($mixValue, QType::Boolean);
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- Exclude checks
StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
The method GetEndScript uses an else expression. Else clauses are basically not necessary and you can simplify the code by not using them. Open
} else {
QApplication::ExecuteControlCommand($strId, $strFunc, $jqOptions, QJsPriority::High);
}
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- Exclude checks
ElseExpression
Since: 1.4.0
An if expression with an else branch is basically not necessary. You can rewrite the conditions in a way that the else clause is not necessary and the code becomes simpler to read. To achieve this, use early return statements, though you may need to split the code it several smaller methods. For very simple assignments you could also use the ternary operations.
Example
class Foo
{
public function bar($flag)
{
if ($flag) {
// one branch
} else {
// another branch
}
}
}
Source https://phpmd.org/rules/cleancode.html#elseexpression
Avoid using static access to class 'QApplication' in method 'Option1'. Open
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "option", QJsPriority::Low);
- Read upRead up
- Exclude checks
StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid using static access to class 'QApplication' in method 'Destroy'. Open
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "destroy", QJsPriority::Low);
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- Exclude checks
StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Avoid using static access to class 'QApplication' in method 'Instance'. Open
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "instance", QJsPriority::Low);
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- Exclude checks
StaticAccess
Since: 1.4.0
Static access causes unexchangeable dependencies to other classes and leads to hard to test code. Avoid using static access at all costs and instead inject dependencies through the constructor. The only case when static access is acceptable is when used for factory methods.
Example
class Foo
{
public function bar()
{
Bar::baz();
}
}
Source https://phpmd.org/rules/cleancode.html#staticaccess
Similar blocks of code found in 3 locations. Consider refactoring. Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
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Duplicated Code
Duplicated code can lead to software that is hard to understand and difficult to change. The Don't Repeat Yourself (DRY) principle states:
Every piece of knowledge must have a single, unambiguous, authoritative representation within a system.
When you violate DRY, bugs and maintenance problems are sure to follow. Duplicated code has a tendency to both continue to replicate and also to diverge (leaving bugs as two similar implementations differ in subtle ways).
Tuning
This issue has a mass of 265.
We set useful threshold defaults for the languages we support but you may want to adjust these settings based on your project guidelines.
The threshold configuration represents the minimum mass a code block must have to be analyzed for duplication. The lower the threshold, the more fine-grained the comparison.
If the engine is too easily reporting duplication, try raising the threshold. If you suspect that the engine isn't catching enough duplication, try lowering the threshold. The best setting tends to differ from language to language.
See codeclimate-duplication
's documentation for more information about tuning the mass threshold in your .codeclimate.yml
.
Refactorings
- Extract Method
- Extract Class
- Form Template Method
- Introduce Null Object
- Pull Up Method
- Pull Up Field
- Substitute Algorithm
Further Reading
- Don't Repeat Yourself on the C2 Wiki
- Duplicated Code on SourceMaking
- Refactoring: Improving the Design of Existing Code by Martin Fowler. Duplicated Code, p76
Similar blocks of code found in 4 locations. Consider refactoring. Open
public static function GetModelConnectorParams() {
return array_merge(parent::GetModelConnectorParams(), array(
new QModelConnectorParam (get_called_class(), 'Collapsible', 'Whether all the sections can be closed at once. Allows collapsing theactive section.', QType::Boolean),
new QModelConnectorParam (get_called_class(), 'Disabled', 'Disables the accordion if set to true.', QType::Boolean),
new QModelConnectorParam (get_called_class(), 'Event', 'The event that accordion headers will react to in order to activatethe associated panel. Multiple events can be specified, separated by aspace.', QType::String),
- Read upRead up
Duplicated Code
Duplicated code can lead to software that is hard to understand and difficult to change. The Don't Repeat Yourself (DRY) principle states:
Every piece of knowledge must have a single, unambiguous, authoritative representation within a system.
When you violate DRY, bugs and maintenance problems are sure to follow. Duplicated code has a tendency to both continue to replicate and also to diverge (leaving bugs as two similar implementations differ in subtle ways).
Tuning
This issue has a mass of 126.
We set useful threshold defaults for the languages we support but you may want to adjust these settings based on your project guidelines.
The threshold configuration represents the minimum mass a code block must have to be analyzed for duplication. The lower the threshold, the more fine-grained the comparison.
If the engine is too easily reporting duplication, try raising the threshold. If you suspect that the engine isn't catching enough duplication, try lowering the threshold. The best setting tends to differ from language to language.
See codeclimate-duplication
's documentation for more information about tuning the mass threshold in your .codeclimate.yml
.
Refactorings
- Extract Method
- Extract Class
- Form Template Method
- Introduce Null Object
- Pull Up Method
- Pull Up Field
- Substitute Algorithm
Further Reading
- Don't Repeat Yourself on the C2 Wiki
- Duplicated Code on SourceMaking
- Refactoring: Improving the Design of Existing Code by Martin Fowler. Duplicated Code, p76
Similar blocks of code found in 5 locations. Consider refactoring. Open
public function __get($strName) {
switch ($strName) {
case 'Active': return $this->mixActive;
case 'Animate': return $this->mixAnimate;
case 'Collapsible': return $this->blnCollapsible;
- Read upRead up
Duplicated Code
Duplicated code can lead to software that is hard to understand and difficult to change. The Don't Repeat Yourself (DRY) principle states:
Every piece of knowledge must have a single, unambiguous, authoritative representation within a system.
When you violate DRY, bugs and maintenance problems are sure to follow. Duplicated code has a tendency to both continue to replicate and also to diverge (leaving bugs as two similar implementations differ in subtle ways).
Tuning
This issue has a mass of 115.
We set useful threshold defaults for the languages we support but you may want to adjust these settings based on your project guidelines.
The threshold configuration represents the minimum mass a code block must have to be analyzed for duplication. The lower the threshold, the more fine-grained the comparison.
If the engine is too easily reporting duplication, try raising the threshold. If you suspect that the engine isn't catching enough duplication, try lowering the threshold. The best setting tends to differ from language to language.
See codeclimate-duplication
's documentation for more information about tuning the mass threshold in your .codeclimate.yml
.
Refactorings
- Extract Method
- Extract Class
- Form Template Method
- Introduce Null Object
- Pull Up Method
- Pull Up Field
- Substitute Algorithm
Further Reading
- Don't Repeat Yourself on the C2 Wiki
- Duplicated Code on SourceMaking
- Refactoring: Improving the Design of Existing Code by Martin Fowler. Duplicated Code, p76
The class QAccordion_BeforeActivateEvent is not named in CamelCase. Open
class QAccordion_BeforeActivateEvent extends QJqUiEvent {
const EventName = 'accordionbeforeactivate';
}
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- Exclude checks
CamelCaseClassName
Since: 0.2
It is considered best practice to use the CamelCase notation to name classes.
Example
class class_name {
}
Source
The class QAccordion_ActivateEvent is not named in CamelCase. Open
class QAccordion_ActivateEvent extends QJqUiEvent {
const EventName = 'accordionactivate';
}
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- Exclude checks
CamelCaseClassName
Since: 0.2
It is considered best practice to use the CamelCase notation to name classes.
Example
class class_name {
}
Source
The class QAccordion_CreateEvent is not named in CamelCase. Open
class QAccordion_CreateEvent extends QJqUiEvent {
const EventName = 'accordioncreate';
}
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- Exclude checks
CamelCaseClassName
Since: 0.2
It is considered best practice to use the CamelCase notation to name classes.
Example
class class_name {
}
Source
Constant EventName should be defined in uppercase Open
const EventName = 'accordionactivate';
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- Exclude checks
ConstantNamingConventions
Since: 0.2
Class/Interface constant names should always be defined in uppercase.
Example
class Foo {
const MY_NUM = 0; // ok
const myTest = ""; // fail
}
Source https://phpmd.org/rules/naming.html#constantnamingconventions
Constant EventName should be defined in uppercase Open
const EventName = 'accordioncreate';
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- Exclude checks
ConstantNamingConventions
Since: 0.2
Class/Interface constant names should always be defined in uppercase.
Example
class Foo {
const MY_NUM = 0; // ok
const myTest = ""; // fail
}
Source https://phpmd.org/rules/naming.html#constantnamingconventions
Constant EventName should be defined in uppercase Open
const EventName = 'accordionbeforeactivate';
- Read upRead up
- Exclude checks
ConstantNamingConventions
Since: 0.2
Class/Interface constant names should always be defined in uppercase.
Example
class Foo {
const MY_NUM = 0; // ok
const myTest = ""; // fail
}
Source https://phpmd.org/rules/naming.html#constantnamingconventions
The method GetEndScript is not named in camelCase. Open
public function GetEndScript() {
$strId = $this->GetJqControlId();
$jqOptions = $this->makeJqOptions();
$strFunc = $this->getJqSetupFunction();
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- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method Option is not named in camelCase. Open
public function Option($optionName) {
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "option", $optionName, QJsPriority::Low);
}
- Read upRead up
- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method Disable is not named in camelCase. Open
public function Disable() {
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "disable", QJsPriority::Low);
}
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- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method Refresh is not named in camelCase. Open
public function Refresh() {
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "refresh", QJsPriority::Low);
}
- Read upRead up
- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method Enable is not named in camelCase. Open
public function Enable() {
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "enable", QJsPriority::Low);
}
- Read upRead up
- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method GetModelConnectorParams is not named in camelCase. Open
public static function GetModelConnectorParams() {
return array_merge(parent::GetModelConnectorParams(), array(
new QModelConnectorParam (get_called_class(), 'Collapsible', 'Whether all the sections can be closed at once. Allows collapsing theactive section.', QType::Boolean),
new QModelConnectorParam (get_called_class(), 'Disabled', 'Disables the accordion if set to true.', QType::Boolean),
new QModelConnectorParam (get_called_class(), 'Event', 'The event that accordion headers will react to in order to activatethe associated panel. Multiple events can be specified, separated by aspace.', QType::String),
- Read upRead up
- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method MakeJqOptions is not named in camelCase. Open
protected function MakeJqOptions() {
$jqOptions = null;
if (!is_null($val = $this->Active)) {$jqOptions['active'] = $val;}
if (!is_null($val = $this->Animate)) {$jqOptions['animate'] = $val;}
if (!is_null($val = $this->Collapsible)) {$jqOptions['collapsible'] = $val;}
- Read upRead up
- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method GetJqSetupFunction is not named in camelCase. Open
public function GetJqSetupFunction() {
return 'accordion';
}
- Read upRead up
- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method Option1 is not named in camelCase. Open
public function Option1() {
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "option", QJsPriority::Low);
}
- Read upRead up
- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method Destroy is not named in camelCase. Open
public function Destroy() {
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "destroy", QJsPriority::Low);
}
- Read upRead up
- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method Instance is not named in camelCase. Open
public function Instance() {
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "instance", QJsPriority::Low);
}
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- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method Option2 is not named in camelCase. Open
public function Option2($optionName, $value) {
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "option", $optionName, $value, QJsPriority::Low);
}
- Read upRead up
- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}
Source
The method Option3 is not named in camelCase. Open
public function Option3($options) {
QApplication::ExecuteControlCommand($this->getJqControlId(), $this->getJqSetupFunction(), "option", $options, QJsPriority::Low);
}
- Read upRead up
- Exclude checks
CamelCaseMethodName
Since: 0.2
It is considered best practice to use the camelCase notation to name methods.
Example
class ClassName {
public function get_name() {
}
}