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Classe « Axes »

Méthode matplotlib.pyplot.Axes.errorbar

Signature de la méthode errorbar

def errorbar(self, x, y, yerr=None, xerr=None, fmt='', ecolor=None, elinewidth=None, capsize=None, barsabove=False, lolims=False, uplims=False, xlolims=False, xuplims=False, errorevery=1, capthick=None, *, data=None, **kwargs) 

Description

errorbar.__doc__

Plot y versus x as lines and/or markers with attached errorbars.

*x*, *y* define the data locations, *xerr*, *yerr* define the errorbar
sizes. By default, this draws the data markers/lines as well the
errorbars. Use fmt='none' to draw errorbars without any data markers.

Parameters
----------
x, y : float or array-like
    The data positions.

xerr, yerr : float or array-like, shape(N,) or shape(2, N), optional
    The errorbar sizes:

    - scalar: Symmetric +/- values for all data points.
    - shape(N,): Symmetric +/-values for each data point.
    - shape(2, N): Separate - and + values for each bar. First row
      contains the lower errors, the second row contains the upper
      errors.
    - *None*: No errorbar.

    Note that all error arrays should have *positive* values.

    See :doc:`/gallery/statistics/errorbar_features`
    for an example on the usage of ``xerr`` and ``yerr``.

fmt : str, default: ''
    The format for the data points / data lines. See `.plot` for
    details.

    Use 'none' (case insensitive) to plot errorbars without any data
    markers.

ecolor : color, default: None
    The color of the errorbar lines.  If None, use the color of the
    line connecting the markers.

elinewidth : float, default: None
    The linewidth of the errorbar lines. If None, the linewidth of
    the current style is used.

capsize : float, default: :rc:`errorbar.capsize`
    The length of the error bar caps in points.

capthick : float, default: None
    An alias to the keyword argument *markeredgewidth* (a.k.a. *mew*).
    This setting is a more sensible name for the property that
    controls the thickness of the error bar cap in points. For
    backwards compatibility, if *mew* or *markeredgewidth* are given,
    then they will over-ride *capthick*. This may change in future
    releases.

barsabove : bool, default: False
    If True, will plot the errorbars above the plot
    symbols. Default is below.

lolims, uplims, xlolims, xuplims : bool, default: False
    These arguments can be used to indicate that a value gives only
    upper/lower limits.  In that case a caret symbol is used to
    indicate this. *lims*-arguments may be scalars, or array-likes of
    the same length as *xerr* and *yerr*.  To use limits with inverted
    axes, `~.Axes.set_xlim` or `~.Axes.set_ylim` must be called before
    :meth:`errorbar`.  Note the tricky parameter names: setting e.g.
    *lolims* to True means that the y-value is a *lower* limit of the
    True value, so, only an *upward*-pointing arrow will be drawn!

errorevery : int or (int, int), default: 1
    draws error bars on a subset of the data. *errorevery* =N draws
    error bars on the points (x[::N], y[::N]).
    *errorevery* =(start, N) draws error bars on the points
    (x[start::N], y[start::N]). e.g. errorevery=(6, 3)
    adds error bars to the data at (x[6], x[9], x[12], x[15], ...).
    Used to avoid overlapping error bars when two series share x-axis
    values.

Returns
-------
`.ErrorbarContainer`
    The container contains:

    - plotline: `.Line2D` instance of x, y plot markers and/or line.
    - caplines: A tuple of `.Line2D` instances of the error bar caps.
    - barlinecols: A tuple of `.LineCollection` with the horizontal and
      vertical error ranges.

Other Parameters
----------------
**kwargs
    All other keyword arguments are passed on to the `~.Axes.plot` call
    drawing the markers. For example, this code makes big red squares
    with thick green edges::

        x, y, yerr = rand(3, 10)
        errorbar(x, y, yerr, marker='s', mfc='red',
                 mec='green', ms=20, mew=4)

    where *mfc*, *mec*, *ms* and *mew* are aliases for the longer
    property names, *markerfacecolor*, *markeredgecolor*, *markersize*
    and *markeredgewidth*.

    Valid kwargs for the marker properties are `.Line2D` properties:

    Properties:
    agg_filter: a filter function, which takes a (m, n, 3) float array and a dpi value, and returns a (m, n, 3) array
    alpha: scalar or None
    animated: bool
    antialiased or aa: bool
    clip_box: `.Bbox`
    clip_on: bool
    clip_path: Patch or (Path, Transform) or None
    color or c: color
    contains: unknown
    dash_capstyle: `.CapStyle` or {'butt', 'projecting', 'round'}
    dash_joinstyle: `.JoinStyle` or {'miter', 'round', 'bevel'}
    dashes: sequence of floats (on/off ink in points) or (None, None)
    data: (2, N) array or two 1D arrays
    drawstyle or ds: {'default', 'steps', 'steps-pre', 'steps-mid', 'steps-post'}, default: 'default'
    figure: `.Figure`
    fillstyle: {'full', 'left', 'right', 'bottom', 'top', 'none'}
    gid: str
    in_layout: bool
    label: object
    linestyle or ls: {'-', '--', '-.', ':', '', (offset, on-off-seq), ...}
    linewidth or lw: float
    marker: marker style string, `~.path.Path` or `~.markers.MarkerStyle`
    markeredgecolor or mec: color
    markeredgewidth or mew: float
    markerfacecolor or mfc: color
    markerfacecoloralt or mfcalt: color
    markersize or ms: float
    markevery: None or int or (int, int) or slice or list[int] or float or (float, float) or list[bool]
    path_effects: `.AbstractPathEffect`
    picker: float or callable[[Artist, Event], tuple[bool, dict]]
    pickradius: float
    rasterized: bool
    sketch_params: (scale: float, length: float, randomness: float)
    snap: bool or None
    solid_capstyle: `.CapStyle` or {'butt', 'projecting', 'round'}
    solid_joinstyle: `.JoinStyle` or {'miter', 'round', 'bevel'}
    transform: `matplotlib.transforms.Transform`
    url: str
    visible: bool
    xdata: 1D array
    ydata: 1D array
    zorder: float

Notes
-----


.. note::
    In addition to the above described arguments, this function can take
    a *data* keyword argument. If such a *data* argument is given,
    the following arguments can also be string ``s``, which is
    interpreted as ``data[s]`` (unless this raises an exception):
    *x*, *y*, *xerr*, *yerr*.

    Objects passed as **data** must support item access (``data[s]``) and
    membership test (``s in data``).