Source code for wtforms.widgets.core

from markupsafe import escape
from markupsafe import Markup

__all__ = (
    "CheckboxInput",
    "ColorInput",
    "DateInput",
    "DateTimeInput",
    "DateTimeLocalInput",
    "EmailInput",
    "FileInput",
    "HiddenInput",
    "ListWidget",
    "MonthInput",
    "NumberInput",
    "Option",
    "PasswordInput",
    "RadioInput",
    "RangeInput",
    "SearchInput",
    "Select",
    "SubmitInput",
    "TableWidget",
    "TextArea",
    "TextInput",
    "TelInput",
    "TimeInput",
    "URLInput",
    "WeekInput",
)


def clean_key(key):
    key = key.rstrip("_")
    if key.startswith("data_") or key.startswith("aria_"):
        key = key.replace("_", "-")
    return key


[docs]def html_params(**kwargs): """ Generate HTML attribute syntax from inputted keyword arguments. The output value is sorted by the passed keys, to provide consistent output each time this function is called with the same parameters. Because of the frequent use of the normally reserved keywords `class` and `for`, suffixing these with an underscore will allow them to be used. In order to facilitate the use of ``data-`` and ``aria-`` attributes, if the name of the attribute begins with ``data_`` or ``aria_``, then every underscore will be replaced with a hyphen in the generated attribute. >>> html_params(data_attr='user.name', aria_labeledby='name') 'data-attr="user.name" aria-labeledby="name"' In addition, the values ``True`` and ``False`` are special: * ``attr=True`` generates the HTML compact output of a boolean attribute, e.g. ``checked=True`` will generate simply ``checked`` * ``attr=False`` will be ignored and generate no output. >>> html_params(name='text1', id='f', class_='text') 'class="text" id="f" name="text1"' >>> html_params(checked=True, readonly=False, name="text1", abc="hello") 'abc="hello" checked name="text1"' .. versionchanged:: 3.0 ``aria_`` args convert underscores to hyphens like ``data_`` args. .. versionchanged:: 2.2 ``data_`` args convert all underscores to hyphens, instead of only the first one. """ params = [] for k, v in sorted(kwargs.items()): k = clean_key(k) if v is True: params.append(k) elif v is False: pass else: params.append('{}="{}"'.format(str(k), escape(v))) return " ".join(params)
[docs]class ListWidget: """ Renders a list of fields as a `ul` or `ol` list. This is used for fields which encapsulate many inner fields as subfields. The widget will try to iterate the field to get access to the subfields and call them to render them. If `prefix_label` is set, the subfield's label is printed before the field, otherwise afterwards. The latter is useful for iterating radios or checkboxes. """ def __init__(self, html_tag="ul", prefix_label=True): assert html_tag in ("ol", "ul") self.html_tag = html_tag self.prefix_label = prefix_label def __call__(self, field, **kwargs): kwargs.setdefault("id", field.id) html = ["<{} {}>".format(self.html_tag, html_params(**kwargs))] for subfield in field: if self.prefix_label: html.append(f"<li>{subfield.label} {subfield()}</li>") else: html.append(f"<li>{subfield()} {subfield.label}</li>") html.append("</%s>" % self.html_tag) return Markup("".join(html))
[docs]class TableWidget: """ Renders a list of fields as a set of table rows with th/td pairs. If `with_table_tag` is True, then an enclosing <table> is placed around the rows. Hidden fields will not be displayed with a row, instead the field will be pushed into a subsequent table row to ensure XHTML validity. Hidden fields at the end of the field list will appear outside the table. """ def __init__(self, with_table_tag=True): self.with_table_tag = with_table_tag def __call__(self, field, **kwargs): html = [] if self.with_table_tag: kwargs.setdefault("id", field.id) html.append("<table %s>" % html_params(**kwargs)) hidden = "" for subfield in field: if subfield.type in ("HiddenField", "CSRFTokenField"): hidden += str(subfield) else: html.append( "<tr><th>%s</th><td>%s%s</td></tr>" % (str(subfield.label), hidden, str(subfield)) ) hidden = "" if self.with_table_tag: html.append("</table>") if hidden: html.append(hidden) return Markup("".join(html))
[docs]class Input: """ Render a basic ``<input>`` field. This is used as the basis for most of the other input fields. By default, the `_value()` method will be called upon the associated field to provide the ``value=`` HTML attribute. """ html_params = staticmethod(html_params) validation_attrs = ["required"] def __init__(self, input_type=None): if input_type is not None: self.input_type = input_type def __call__(self, field, **kwargs): kwargs.setdefault("id", field.id) kwargs.setdefault("type", self.input_type) if "value" not in kwargs: kwargs["value"] = field._value() flags = getattr(field, "flags", {}) for k in dir(flags): if k in self.validation_attrs and k not in kwargs: kwargs[k] = getattr(flags, k) return Markup("<input %s>" % self.html_params(name=field.name, **kwargs))
[docs]class TextInput(Input): """ Render a single-line text input. """ input_type = "text" validation_attrs = ["required", "maxlength", "minlength", "pattern"]
[docs]class PasswordInput(Input): """ Render a password input. For security purposes, this field will not reproduce the value on a form submit by default. To have the value filled in, set `hide_value` to `False`. """ input_type = "password" validation_attrs = ["required", "maxlength", "minlength", "pattern"] def __init__(self, hide_value=True): self.hide_value = hide_value def __call__(self, field, **kwargs): if self.hide_value: kwargs["value"] = "" return super().__call__(field, **kwargs)
[docs]class HiddenInput(Input): """ Render a hidden input. """ input_type = "hidden" def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) self.field_flags = {"hidden": True}
[docs]class CheckboxInput(Input): """ Render a checkbox. The ``checked`` HTML attribute is set if the field's data is a non-false value. """ input_type = "checkbox" def __call__(self, field, **kwargs): if getattr(field, "checked", field.data): kwargs["checked"] = True return super().__call__(field, **kwargs)
class RadioInput(Input): """ Render a single radio button. This widget is most commonly used in conjunction with ListWidget or some other listing, as singular radio buttons are not very useful. """ input_type = "radio" def __call__(self, field, **kwargs): if field.checked: kwargs["checked"] = True return super().__call__(field, **kwargs)
[docs]class FileInput(Input): """Render a file chooser input. :param multiple: allow choosing multiple files """ input_type = "file" validation_attrs = ["required", "accept"] def __init__(self, multiple=False): super().__init__() self.multiple = multiple def __call__(self, field, **kwargs): # browser ignores value of file input for security kwargs["value"] = False if self.multiple: kwargs["multiple"] = True return super().__call__(field, **kwargs)
[docs]class SubmitInput(Input): """ Renders a submit button. The field's label is used as the text of the submit button instead of the data on the field. """ input_type = "submit" def __call__(self, field, **kwargs): kwargs.setdefault("value", field.label.text) return super().__call__(field, **kwargs)
[docs]class TextArea: """ Renders a multi-line text area. `rows` and `cols` ought to be passed as keyword args when rendering. """ validation_attrs = ["required", "maxlength", "minlength"] def __call__(self, field, **kwargs): kwargs.setdefault("id", field.id) flags = getattr(field, "flags", {}) for k in dir(flags): if k in self.validation_attrs and k not in kwargs: kwargs[k] = getattr(flags, k) return Markup( "<textarea %s>\r\n%s</textarea>" % (html_params(name=field.name, **kwargs), escape(field._value())) )
[docs]class Select: """ Renders a select field. If `multiple` is True, then the `size` property should be specified on rendering to make the field useful. The field must provide an `iter_choices()` method which the widget will call on rendering; this method must yield tuples of `(value, label, selected)`. It also must provide a `has_groups()` method which tells whether choices are divided into groups, and if they do, the field must have an `iter_groups()` method that yields tuples of `(label, choices)`, where `choices` is a iterable of `(value, label, selected)` tuples. """ validation_attrs = ["required"] def __init__(self, multiple=False): self.multiple = multiple def __call__(self, field, **kwargs): kwargs.setdefault("id", field.id) if self.multiple: kwargs["multiple"] = True flags = getattr(field, "flags", {}) for k in dir(flags): if k in self.validation_attrs and k not in kwargs: kwargs[k] = getattr(flags, k) html = ["<select %s>" % html_params(name=field.name, **kwargs)] if field.has_groups(): for group, choices in field.iter_groups(): html.append("<optgroup %s>" % html_params(label=group)) for val, label, selected in choices: html.append(self.render_option(val, label, selected)) html.append("</optgroup>") else: for val, label, selected in field.iter_choices(): html.append(self.render_option(val, label, selected)) html.append("</select>") return Markup("".join(html)) @classmethod def render_option(cls, value, label, selected, **kwargs): if value is True: # Handle the special case of a 'True' value. value = str(value) options = dict(kwargs, value=value) if selected: options["selected"] = True return Markup( "<option {}>{}</option>".format(html_params(**options), escape(label)) )
class Option: """ Renders the individual option from a select field. This is just a convenience for various custom rendering situations, and an option by itself does not constitute an entire field. """ def __call__(self, field, **kwargs): return Select.render_option( field._value(), field.label.text, field.checked, **kwargs )
[docs]class SearchInput(Input): """ Renders an input with type "search". """ input_type = "search" validation_attrs = ["required", "maxlength", "minlength", "pattern"]
[docs]class TelInput(Input): """ Renders an input with type "tel". """ input_type = "tel" validation_attrs = ["required", "maxlength", "minlength", "pattern"]
[docs]class URLInput(Input): """ Renders an input with type "url". """ input_type = "url" validation_attrs = ["required", "maxlength", "minlength", "pattern"]
[docs]class EmailInput(Input): """ Renders an input with type "email". """ input_type = "email" validation_attrs = ["required", "maxlength", "minlength", "pattern"]
[docs]class DateTimeInput(Input): """ Renders an input with type "datetime". """ input_type = "datetime" validation_attrs = ["required", "max", "min", "step"]
[docs]class DateInput(Input): """ Renders an input with type "date". """ input_type = "date" validation_attrs = ["required", "max", "min", "step"]
[docs]class MonthInput(Input): """ Renders an input with type "month". """ input_type = "month" validation_attrs = ["required", "max", "min", "step"]
[docs]class WeekInput(Input): """ Renders an input with type "week". """ input_type = "week" validation_attrs = ["required", "max", "min", "step"]
[docs]class TimeInput(Input): """ Renders an input with type "time". """ input_type = "time" validation_attrs = ["required", "max", "min", "step"]
[docs]class DateTimeLocalInput(Input): """ Renders an input with type "datetime-local". """ input_type = "datetime-local" validation_attrs = ["required", "max", "min", "step"]
[docs]class NumberInput(Input): """ Renders an input with type "number". """ input_type = "number" validation_attrs = ["required", "max", "min", "step"] def __init__(self, step=None, min=None, max=None): self.step = step self.min = min self.max = max def __call__(self, field, **kwargs): if self.step is not None: kwargs.setdefault("step", self.step) if self.min is not None: kwargs.setdefault("min", self.min) if self.max is not None: kwargs.setdefault("max", self.max) return super().__call__(field, **kwargs)
[docs]class RangeInput(Input): """ Renders an input with type "range". """ input_type = "range" validation_attrs = ["required", "max", "min", "step"] def __init__(self, step=None): self.step = step def __call__(self, field, **kwargs): if self.step is not None: kwargs.setdefault("step", self.step) return super().__call__(field, **kwargs)
[docs]class ColorInput(Input): """ Renders an input with type "color". """ input_type = "color"