Exemplo n.º 1
0
def draw_from_point_to_point(parent_axes, insert_axes, point1, point2,
                             **kwargs):
    from mpl_toolkits.axes_grid1.inset_locator import TransformedBbox, BboxConnector, Bbox
    rect = TransformedBbox(Bbox([point1, point1]), parent_axes.transData)
    rect2 = TransformedBbox(Bbox([point2, point2]), insert_axes.transData)
    # rect = TransformedBbox(Bbox([[1, 0], [1, 0]]), parent_axes.transData)
    loc = 1
    p1 = BboxConnector(rect, rect2, loc, **kwargs)
    parent_axes.add_patch(p1)
    p1.set_clip_on(False)
    return p1
def mark_inset(parent_axes,
               inset_axes,
               loc1a=1,
               loc1b=1,
               loc2a=2,
               loc2b=2,
               **kwargs):
    rect = TransformedBbox(inset_axes.viewLim, parent_axes.transData)
    pp = BboxPatch(rect, fill=False, linewidth=.5, **kwargs)
    parent_axes.add_patch(pp)

    p1 = BboxConnector(inset_axes.bbox,
                       rect,
                       loc1=loc1a,
                       loc2=loc1b,
                       linewidth=.5,
                       **kwargs)
    inset_axes.add_patch(p1)
    p1.set_clip_on(False)
    p2 = BboxConnector(inset_axes.bbox,
                       rect,
                       loc1=loc2a,
                       loc2=loc2b,
                       linewidth=.5,
                       **kwargs)
    inset_axes.add_patch(p2)
    p2.set_clip_on(False)

    return pp, p1, p2
Exemplo n.º 3
0
    def mark_inset(ax, ax2, m, m2, MAP, loc1=(1, 2), loc2=(3, 4), **kwargs):
        """
	    https://stackoverflow.com/questions/41610834/basemap-projection-geos-controlling-mark-inset-location
	    Patched mark_inset to work with Basemap.
	    Reason: Basemap converts Geographic (lon/lat) to Map Projection (x/y) coordinates

	    Additionally: set connector locations separately for both axes:
	        loc1 & loc2: tuple defining start and end-locations of connector 1 & 2
	    """
        axzoom_geoLims = (MAP['cyl'][2:], MAP['cyl'][:2])
        rect = TransformedBbox(Bbox(np.array(m(*axzoom_geoLims)).T),
                               ax.transData)
        pp = BboxPatch(rect, fill=False, **kwargs)
        ax.add_patch(pp)
        p1 = BboxConnector(ax2.bbox,
                           rect,
                           loc1=loc1[0],
                           loc2=loc1[1],
                           **kwargs)
        ax2.add_patch(p1)
        p1.set_clip_on(False)
        p2 = BboxConnector(ax2.bbox,
                           rect,
                           loc1=loc2[0],
                           loc2=loc2[1],
                           **kwargs)
        ax2.add_patch(p2)
        p2.set_clip_on(False)
        return pp, p1, p2
Exemplo n.º 4
0
def mark_inset(parent_axes, inset_axes, loc1=1, loc2=2, **kwargs):
    from mpl_toolkits.axes_grid1.inset_locator import TransformedBbox, BboxPatch, BboxConnector
    try:
        loc1a, loc1b = loc1
    except:
        loc1a = loc1
        loc1b = loc1
    try:
        loc2a, loc2b = loc2
    except:
        loc2a = loc2
        loc2b = loc2
    rect = TransformedBbox(inset_axes.viewLim, parent_axes.transData)

    pp = BboxPatch(rect, fill=False, **kwargs)
    parent_axes.add_patch(pp)
    pp.set_clip_on(False)

    p1 = BboxConnector(inset_axes.bbox, rect, loc1=loc1a, loc2=loc1b, **kwargs)
    inset_axes.add_patch(p1)
    p1.set_clip_on(False)
    p2 = BboxConnector(inset_axes.bbox, rect, loc1=loc2a, loc2=loc2b, **kwargs)
    inset_axes.add_patch(p2)
    p2.set_clip_on(False)

    return pp, p1, p2
def mark_geo_inset(ax, ax2, m, m2, loc1=(1, 2), loc2=(3, 4), **kwargs):
    """ Patched mark_inset to work with Basemap.
    
    Reason: Basemap converts Geographic (lon/lat) to Map Projection (x/y) coordinates
    See: https://stackoverflow.com/questions/41610834/basemap-projection-geos-controlling-mark-inset-location

    Args:
        ax (subplot): parent subplot where inset is marked on parent map
        ax2 (subplot): inset subplot where inset map is displayed
        m (basemap): parent basemap associated with ax
        m2 (basemap): inset basemap associated with ax2
        loc1 (tuple): start and end locations of connector 1
        loc2 (tuple): start and end locations of connector 2
        **kwargs (optional args): to manage the presentation of the connectors and inset markers
   
        loc tuple values:
        'upper right'  : 1,
        'upper left'   : 2,
        'lower left'   : 3,
        'lower right'  : 4

    Returns:
        BboxPatch: Patch for the inset coverage on the parent subplot
        BboxConnector: Connector line 1 connecting the coverage rectangle on the parent subplot to the inset map
        BboxConnector: Connector line 2 connecting the coverage rectanlge on the parent subplot to the inset map
    """

    # Doesn't work for Basemap
    #    rect = TransformedBbox(inset_axes.viewLim, parent_axes.transData)
    #    axzoom_geoLims = np.array(m2(*ax2.viewLim._points.T, inverse=True))

    axzoom_geoLims = m2(ax2.get_xlim(), ax2.get_ylim(), inverse=True)
    rect = TransformedBbox(Bbox(np.array(m(*axzoom_geoLims)).T), ax.transData)

    pp = BboxPatch(rect, fill=False, **kwargs)
    ax.add_patch(pp)

    p1 = BboxConnector(ax2.bbox, rect, loc1=loc1[0], loc2=loc1[1], **kwargs)
    ax2.add_patch(p1)
    p1.set_clip_on(False)
    p2 = BboxConnector(ax2.bbox, rect, loc1=loc2[0], loc2=loc2[1], **kwargs)
    ax2.add_patch(p2)
    p2.set_clip_on(False)

    return pp, p1, p2
Exemplo n.º 6
0
    def _mark_inset(parent_axes, inset_axes, loc1a = 1, loc1b = 1, loc2a = 2, loc2b = 2, **kwargs):
        # Draw a bbox of the region of the inset axes in the parent axes and
        # connecting lines between the bbox and the inset axes area
        # loc1, loc2 : {1, 2, 3, 4}
        rect = TransformedBbox(inset_axes.viewLim, parent_axes.transData)

        pp = BboxPatch(rect, fill = False, **kwargs)
        parent_axes.add_patch(pp)

        p1 = BboxConnector(inset_axes.bbox, rect, loc1 = loc1a, loc2 = loc1b, **kwargs)
        inset_axes.add_patch(p1)
        p1.set_clip_on(False)
        p2 = BboxConnector(inset_axes.bbox, rect, loc1 = loc2a, loc2 = loc2b, **kwargs)
        inset_axes.add_patch(p2)
        p2.set_clip_on(False)

        print('\nInset created')
        return pp, p1, p2
Exemplo n.º 7
0
def mark_inset(parent_axes,
               inset_axes,
               loc1a=1,
               loc1b=1,
               loc2a=2,
               loc2b=2,
               **kwargs):
    """
    Redefined the mark_inset function. Gives freedom to connect any corner of an 
    inset plot to any corner of the parent plot.
    """
    rect = TransformedBbox(inset_axes.viewLim, parent_axes.transData)

    pp = BboxPatch(rect, fill=False, **kwargs)
    parent_axes.add_patch(pp)

    p1 = BboxConnector(inset_axes.bbox, rect, loc1=loc1a, loc2=loc1b, **kwargs)
    inset_axes.add_patch(p1)
    p1.set_clip_on(False)
    p2 = BboxConnector(inset_axes.bbox, rect, loc1=loc2a, loc2=loc2b, **kwargs)
    inset_axes.add_patch(p2)
    p2.set_clip_on(False)

    return pp, p1, p2
Exemplo n.º 8
0
def mark_inset(parent_axes,
               inset_axes,
               loc1a=1,
               loc1b=1,
               loc2a=2,
               loc2b=2,
               **kwargs):
    # Draw a bbox of the region of the inset axes in the parent axes and
    # connecting lines between the bbox and the inset axes area
    # loc1, loc2 : {1, 2, 3, 4}
    from mpl_toolkits.axes_grid1.inset_locator import TransformedBbox, BboxPatch, BboxConnector
    rect = TransformedBbox(inset_axes.viewLim, parent_axes.transData)

    pp = BboxPatch(rect, fill=False, **kwargs)
    parent_axes.add_patch(pp)

    p1 = BboxConnector(inset_axes.bbox, rect, loc1=loc1a, loc2=loc1b, **kwargs)
    inset_axes.add_patch(p1)
    p1.set_clip_on(False)
    p2 = BboxConnector(inset_axes.bbox, rect, loc1=loc2a, loc2=loc2b, **kwargs)
    inset_axes.add_patch(p2)
    p2.set_clip_on(False)

    return pp, p1, p2
                mark_inset(parent_axes=parent_ax,
                           inset_axes=axins,
                           loc1=ZR['l1'],
                           loc2=ZR['l2'],
                           fc="none",
                           ec="0.5")
            else:  # if 'fitsfile' in ZR
                blt = bl.transform_to(parent_ax.wcs.wcs.radesys.lower())
                trt = tr.transform_to(parent_ax.wcs.wcs.radesys.lower())
                (rx1, ry1), (rx2, ry2) = (parent_ax.wcs.wcs_world2pix(
                    [[blt.ra.deg, blt.dec.deg]], 0)[0],
                                          parent_ax.wcs.wcs_world2pix(
                                              [[trt.ra.deg, trt.dec.deg]],
                                              0)[0])
                bbox = Bbox(np.array([(rx1, ry1), (rx2, ry2)]))
                rect = TransformedBbox(bbox, parent_ax.transData)

                markinkwargs = dict(fc='none', ec='0.5')

                pp = BboxPatch(rect, fill=False, **markinkwargs)
                parent_ax.add_patch(pp)

                p1 = BboxConnector(axins.bbox,
                                   rect,
                                   loc1=ZR['l1'],
                                   **markinkwargs)
                axins.add_patch(p1)
                p1.set_clip_on(False)
                p2 = BboxConnector(axins.bbox,
                                   rect,
                                   loc1=ZR['l2'],