QValidator class provides validation of input text. More…
Inherited by: QRegularExpressionValidator, QIntValidator, QDoubleValidator
The class itself is abstract. Two subclasses,
QDoubleValidator , provide basic numeric-range checking, and
QRegularExpressionValidator provides general checking using a custom regular expression.
If the built-in validators aren’t sufficient, you can subclass
QValidator . The class has two virtual functions:
validate() must be implemented by every subclass. It returns
Acceptable depending on whether its argument is valid (for the subclass’s definition of valid).
These three states require some explanation. An
Invalid string is clearly invalid.
Intermediate is less obvious: the concept of validity is difficult to apply when the string is incomplete (still being edited).
Intermediate as the property of a string that is neither clearly invalid nor acceptable as a final result.
Acceptable means that the string is acceptable as a final result. One might say that any string that is a plausible intermediate state during entry of an
Acceptable string is
Here are some examples:
For a line edit that accepts integers from 10 to 1000 inclusive, 42 and 123 are
Acceptable, the empty string, 5, or 1234 are
Intermediate, and “asdf” and 10114 is
For an editable combobox that accepts URLs, any well-formed URL is
Acceptable, “http://example.com/,” is
Intermediate(it might be a cut and paste action that accidentally took in a comma at the end), the empty string is
Intermediate(the user might select and delete all of the text in preparation for entering a new URL) and “http:///./” is
For a spin box that accepts lengths, “11cm” and “1in” are
Acceptable, “11” and the empty string are
Intermediate, and “http://example.com” and “hour” are
fixup() is provided for validators that can repair some user errors. The default implementation does nothing.
QLineEdit , for example, will call
fixup() if the user presses Enter (or Return) and the content is not currently valid. This allows the
fixup() function the opportunity of performing some magic to make an
A validator has a locale, set with
setLocale() . It is typically used to parse localized data. For example,
QDoubleValidator use it to parse localized representations of integers and doubles.
QValidator is typically used with
- class PySide6.QtGui.QValidator([parent=None])#
Sets up the validator. The
parent parameter is passed on to the
This enum type defines the states in which a validated string can exist.
The string is clearly invalid.
The string is a plausible intermediate value.
The string is acceptable as a final result; i.e. it is valid.
arg__1 – str
This function attempts to change
input to be valid according to this validator’s rules. It need not result in a valid string: callers of this function must re-test afterwards; the default does nothing.
Reimplementations of this function can change
input even if they do not produce a valid string. For example, an ISBN validator might want to delete every character except digits and “-”, even if the result is still not a valid ISBN; a surname validator might want to remove whitespace from the start and end of the string, even if the resulting string is not in the list of accepted surnames.
- Return type
Returns the locale for the validator. The locale is by default initialized to the same as QLocale().
locale that will be used for the validator. Unless has been called, the validator will use the default locale set with
setDefault() . If a default locale has not been set, it is the operating system’s locale.
- PySide6.QtGui.QValidator.validate(arg__1, arg__2)#
arg__1 – str
arg__2 – int
- Return type
This virtual function returns
input is invalid according to this validator’s rules,
Intermediate if it is likely that a little more editing will make the input acceptable (e.g. the user types “4” into a widget which accepts integers between 10 and 99), and
Acceptable if the input is valid.
The function can change both
pos (the cursor position) if required.