def layoutcolorbarsingle(ax, cax, shrink, aspect, location, pad=0.05):
"""
Do the layout for a colorbar, to not overly pollute colorbar.py
*pad* is in fraction of the original axis size.
"""
axlb = ax._layoutbox
axpos = ax._poslayoutbox
axsslb = ax.get_subplotspec()._layoutbox
lb = layoutbox.LayoutBox(
parent=axsslb,
name=axsslb.name + '.cbar',
artist=cax)
if location in ('left', 'right'):
lbpos = layoutbox.LayoutBox(
parent=lb,
name=lb.name + '.pos',
tightwidth=False,
pos=True,
subplot=False,
artist=cax)
if location == 'right':
# arrange to right of parent axis
layoutbox.hstack([axlb, lb], padding=pad * axlb.width,
strength='strong')
else:
layoutbox.hstack([lb, axlb], padding=pad * axlb.width)
# constrain the height and center...
layoutbox.match_heights([axpos, lbpos], [1, shrink])
layoutbox.align([axpos, lbpos], 'v_center')
# set the width of the pos box
lbpos.constrain_width(shrink * axpos.height * (1/aspect),
strength='strong')
elif location in ('bottom', 'top'):
lbpos = layoutbox.LayoutBox(
parent=lb,
name=lb.name + '.pos',
tightheight=True,
pos=True,
subplot=False,
artist=cax)
if location == 'bottom':
layoutbox.vstack([axlb, lb], padding=pad * axlb.height)
else:
layoutbox.vstack([lb, axlb], padding=pad * axlb.height)
# constrain the height and center...
layoutbox.match_widths([axpos, lbpos],
[1, shrink], strength='strong')
layoutbox.align([axpos, lbpos], 'h_center')
# set the height of the pos box
lbpos.constrain_height(axpos.width * aspect * shrink,
strength='medium')
return lb, lbpos
def layoutcolorbarsingle(ax, cax, shrink, aspect, location, pad=0.05):
"""
Do the layout for a colorbar, to not oeverly pollute colorbar.py
`pad` is in fraction of the original axis size.
"""
axlb = ax._layoutbox
axpos = ax._poslayoutbox
axsslb = ax.get_subplotspec()._layoutbox
lb = layoutbox.LayoutBox(
parent=axsslb,
name=axsslb.name + '.cbar',
artist=cax)
if location in ('left', 'right'):
lbpos = layoutbox.LayoutBox(
parent=lb,
name=lb.name + '.pos',
tightwidth=False,
pos=True,
subplot=False,
artist=cax)
if location == 'right':
# arrange to right of parent axis
layoutbox.hstack([axlb, lb], padding=pad * axlb.width,
strength='strong')
else:
layoutbox.hstack([lb, axlb], padding=pad * axlb.width)
# constrain the height and center...
layoutbox.match_heights([axpos, lbpos], [1, shrink])
layoutbox.align([axpos, lbpos], 'v_center')
# set the width of the pos box
lbpos.constrain_width(shrink * axpos.height * (1/aspect),
strength='strong')
elif location in ('bottom', 'top'):
lbpos = layoutbox.LayoutBox(
parent=lb,
name=lb.name + '.pos',
tightheight=True,
pos=True,
subplot=False,
artist=cax)
if location == 'bottom':
layoutbox.vstack([axlb, lb], padding=pad * axlb.height)
else:
layoutbox.vstack([lb, axlb], padding=pad * axlb.height)
# constrain the height and center...
layoutbox.match_widths([axpos, lbpos],
[1, shrink], strength='strong')
layoutbox.align([axpos, lbpos], 'h_center')
# set the height of the pos box
lbpos.constrain_height(axpos.width * aspect * shrink,
strength='medium')
return lb, lbpos
def _align_spines(fig, gs):
"""
- Align right/left and bottom/top spines of appropriate subplots.
- Compare size of subplotspec including height and width ratios
and make sure that the axes spines are at least as large
as they should be.
"""
# for each gridspec...
nrows, ncols = gs.get_geometry()
width_ratios = gs.get_width_ratios()
height_ratios = gs.get_height_ratios()
if width_ratios is None:
width_ratios = np.ones(ncols)
if height_ratios is None:
height_ratios = np.ones(nrows)
# get axes in this gridspec....
axs = []
for ax in fig.axes:
if (hasattr(ax, 'get_subplotspec')
and ax._layoutbox is not None):
if ax.get_subplotspec().get_gridspec() == gs:
axs += [ax]
rownummin = np.zeros(len(axs), dtype=np.int8)
rownummax = np.zeros(len(axs), dtype=np.int8)
colnummin = np.zeros(len(axs), dtype=np.int8)
colnummax = np.zeros(len(axs), dtype=np.int8)
width = np.zeros(len(axs))
height = np.zeros(len(axs))
for n, ax in enumerate(axs):
ss0 = ax.get_subplotspec()
if ss0.num2 is None:
ss0.num2 = ss0.num1
rownummin[n], colnummin[n] = divmod(ss0.num1, ncols)
rownummax[n], colnummax[n] = divmod(ss0.num2, ncols)
width[n] = np.sum(
width_ratios[colnummin[n]:(colnummax[n] + 1)])
height[n] = np.sum(
height_ratios[rownummin[n]:(rownummax[n] + 1)])
for nn, ax in enumerate(axs[:-1]):
# now compare ax to all the axs:
#
# If the subplotspecs have the same colnumXmax, then line
# up their right sides. If they have the same min, then
# line up their left sides (and vertical equivalents).
rownum0min, colnum0min = rownummin[nn], colnummin[nn]
rownum0max, colnum0max = rownummax[nn], colnummax[nn]
width0, height0 = width[nn], height[nn]
alignleft = False
alignright = False
alignbot = False
aligntop = False
alignheight = False
alignwidth = False
for mm in range(nn+1, len(axs)):
axc = axs[mm]
rownumCmin, colnumCmin = rownummin[mm], colnummin[mm]
rownumCmax, colnumCmax = rownummax[mm], colnummax[mm]
widthC, heightC = width[mm], height[mm]
# Horizontally align axes spines if they have the
# same min or max:
if not alignleft and colnum0min == colnumCmin:
# we want the _poslayoutboxes to line up on left
# side of the axes spines...
layoutbox.align([ax._poslayoutbox,
axc._poslayoutbox],
'left')
alignleft = True
if not alignright and colnum0max == colnumCmax:
# line up right sides of _poslayoutbox
layoutbox.align([ax._poslayoutbox,
axc._poslayoutbox],
'right')
alignright = True
# Vertically align axes spines if they have the
# same min or max:
if not aligntop and rownum0min == rownumCmin:
# line up top of _poslayoutbox
_log.debug('rownum0min == rownumCmin')
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox],
'top')
aligntop = True
if not alignbot and rownum0max == rownumCmax:
# line up bottom of _poslayoutbox
_log.debug('rownum0max == rownumCmax')
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox],
'bottom')
alignbot = True
###########
# Now we make the widths and heights of position boxes
# similar. (i.e the spine locations)
# This allows vertically stacked subplots to have
# different sizes if they occupy different amounts
# of the gridspec: i.e.
# gs = gridspec.GridSpec(3,1)
# ax1 = gs[0,:]
# ax2 = gs[1:,:]
# then drows0 = 1, and drowsC = 2, and ax2
# should be at least twice as large as ax1.
# But it can be more than twice as large because
# it needs less room for the labeling.
#
# For height, this only needs to be done if the
# subplots share a column. For width if they
# share a row.
drowsC = (rownumCmax - rownumCmin + 1)
drows0 = (rownum0max - rownum0min + 1)
dcolsC = (colnumCmax - colnumCmin + 1)
dcols0 = (colnum0max - colnum0min + 1)
if not alignheight and drows0 == drowsC:
ax._poslayoutbox.constrain_height(
axc._poslayoutbox.height * height0 / heightC)
alignheight = True
elif _in_same_column(colnum0min, colnum0max,
colnumCmin, colnumCmax):
if height0 > heightC:
ax._poslayoutbox.constrain_height_min(
axc._poslayoutbox.height * height0 / heightC)
# these constraints stop the smaller axes from
# being allowed to go to zero height...
axc._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * heightC /
(height0*1.8))
elif height0 < heightC:
axc._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * heightC / height0)
ax._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * height0 /
(heightC*1.8))
# widths...
if not alignwidth and dcols0 == dcolsC:
ax._poslayoutbox.constrain_width(
axc._poslayoutbox.width * width0 / widthC)
alignwidth = True
elif _in_same_row(rownum0min, rownum0max,
rownumCmin, rownumCmax):
if width0 > widthC:
ax._poslayoutbox.constrain_width_min(
axc._poslayoutbox.width * width0 / widthC)
axc._poslayoutbox.constrain_width_min(
ax._poslayoutbox.width * widthC /
(width0*1.8))
elif width0 < widthC:
axc._poslayoutbox.constrain_width_min(
ax._poslayoutbox.width * widthC / width0)
ax._poslayoutbox.constrain_width_min(
axc._poslayoutbox.width * width0 /
(widthC*1.8))
def do_constrained_layout(fig, renderer, h_pad, w_pad,
hspace=None, wspace=None):
"""
Do the constrained_layout. Called at draw time in
``figure.constrained_layout()``
Parameters
----------
fig: Figure
is the ``figure`` instance to do the layout in.
renderer: Renderer
the renderer to use.
h_pad, w_pad : float
are in figure-normalized units, and are a padding around the axes
elements.
hspace, wspace : float
are in fractions of the subplot sizes.
"""
''' Steps:
1. get a list of unique gridspecs in this figure. Each gridspec will be
constrained separately.
2. Check for gaps in the gridspecs. i.e. if not every axes slot in the
gridspec has been filled. If empty, add a ghost axis that is made so
that it cannot be seen (though visible=True). This is needed to make
a blank spot in the layout.
3. Compare the tight_bbox of each axes to its `position`, and assume that
the difference is the space needed by the elements around the edge of
the axes (decorations) like the title, ticklabels, x-labels, etc. This
can include legends who overspill the axes boundaries.
4. Constrain gridspec elements to line up:
a) if colnum0 neq colnumC, the two subplotspecs are stacked next to
each other, with the appropriate order.
b) if colnum0 == columnC line up the left or right side of the
_poslayoutbox (depending if it is the min or max num that is equal).
c) do the same for rows...
5. The above doesn't constrain relative sizes of the _poslayoutboxes at
all, and indeed zero-size is a solution that the solver often finds more
convenient than expanding the sizes. Right now the solution is to compare
subplotspec sizes (i.e. drowsC and drows0) and constrain the larger
_poslayoutbox to be larger than the ratio of the sizes. i.e. if drows0 >
drowsC, then ax._poslayoutbox > axc._poslayoutbox * drowsC / drows0. This
works fine *if* the decorations are similar between the axes. If the
larger subplotspec has much larger axes decorations, then the constraint
above is incorrect.
We need the greater than in the above, in general, rather than an equals
sign. Consider the case of the left column having 2 rows, and the right
column having 1 row. We want the top and bottom of the _poslayoutboxes to
line up. So that means if there are decorations on the left column axes
they will be smaller than half as large as the right hand axis.
This can break down if the decoration size for the right hand axis (the
margins) is very large. There must be a math way to check for this case.
'''
invTransFig = fig.transFigure.inverted().transform_bbox
# list of unique gridspecs that contain child axes:
gss = set()
for ax in fig.axes:
if hasattr(ax, 'get_subplotspec'):
gs = ax.get_subplotspec().get_gridspec()
if gs._layoutbox is not None:
gss.add(gs)
if len(gss) == 0:
warnings.warn('There are no gridspecs with layoutboxes. '
'Possibly did not call parent GridSpec with the figure= '
'keyword')
# check for unoccupied gridspec slots and make ghost axes for these
# slots... Do for each gs separately. This is a pretty big kludge
# but shoudn't have too much ill effect. The worst is that
# someone querrying the figure will wonder why there are more
# axes than they thought.
if fig._layoutbox.constrained_layout_called < 1:
for gs in gss:
nrows, ncols = gs.get_geometry()
hassubplotspec = np.zeros(nrows * ncols, dtype=bool)
axs = []
for ax in fig.axes:
if (hasattr(ax, 'get_subplotspec')
and ax._layoutbox is not None
and ax.get_subplotspec().get_gridspec() == gs):
axs += [ax]
for ax in axs:
ss0 = ax.get_subplotspec()
if ss0.num2 is None:
ss0.num2 = ss0.num1
hassubplotspec[ss0.num1:(ss0.num2 + 1)] = True
for nn, hss in enumerate(hassubplotspec):
if not hss:
# this gridspec slot doesn't have an axis so we
# make a "ghost".
ax = fig.add_subplot(gs[nn])
ax.set_frame_on(False)
ax.set_xticks([])
ax.set_yticks([])
ax.set_facecolor((1, 0, 0, 0))
# for each axes, make a margin between the *pos* layoutbox and the
# *axes* layoutbox be a minimum size that can accomodate the
# decorations on the axis.
for ax in fig.axes:
_log.debug(ax._layoutbox)
if ax._layoutbox is not None:
pos = ax.get_position(original=True)
tightbbox = get_axall_tightbbox(ax, renderer)
bbox = invTransFig(tightbbox)
# use stored h_pad if it exists
h_padt = ax._poslayoutbox.h_pad
if h_padt is None:
h_padt = h_pad
w_padt = ax._poslayoutbox.w_pad
if w_padt is None:
w_padt = w_pad
ax._poslayoutbox.edit_left_margin_min(-bbox.x0 +
pos.x0 + w_padt)
ax._poslayoutbox.edit_right_margin_min(bbox.x1 -
pos.x1 + w_padt)
ax._poslayoutbox.edit_bottom_margin_min(
-bbox.y0 + pos.y0 + h_padt)
ax._poslayoutbox.edit_top_margin_min(bbox.y1-pos.y1+h_padt)
_log.debug('left %f', (-bbox.x0 + pos.x0 + w_pad))
_log.debug('right %f', (bbox.x1 - pos.x1 + w_pad))
_log.debug('bottom %f', (-bbox.y0 + pos.y0 + h_padt))
# Sometimes its possible for the solver to collapse
# rather than expand axes, so they all have zero height
# or width. This stops that... It *should* have been
# taken into account w/ pref_width...
if fig._layoutbox.constrained_layout_called < 1:
ax._poslayoutbox.constrain_height_min(20, strength='weak')
ax._poslayoutbox.constrain_width_min(20, strength='weak')
ax._layoutbox.constrain_height_min(20, strength='weak')
ax._layoutbox.constrain_width_min(20, strength='weak')
ax._poslayoutbox.constrain_top_margin(0, strength='weak')
ax._poslayoutbox.constrain_bottom_margin(0,
strength='weak')
ax._poslayoutbox.constrain_right_margin(0, strength='weak')
ax._poslayoutbox.constrain_left_margin(0, strength='weak')
# do layout for suptitle.
if fig._suptitle is not None:
sup = fig._suptitle
bbox = invTransFig(sup.get_window_extent(renderer=renderer))
height = bbox.y1 - bbox.y0
sup._layoutbox.edit_height(height+h_pad)
# OK, the above lines up ax._poslayoutbox with ax._layoutbox
# now we need to
# 1) arrange the subplotspecs. We do it at this level because
# the subplotspecs are meant to contain other dependent axes
# like colorbars or legends.
# 2) line up the right and left side of the ax._poslayoutbox
# that have the same subplotspec maxes.
if fig._layoutbox.constrained_layout_called < 1:
# arrange the subplotspecs... This is all done relative to each
# other. Some subplotspecs conatain axes, and others contain gridspecs
# the ones that contain gridspecs are a set proportion of their
# parent gridspec. The ones that contain axes are not so constrained.
figlb = fig._layoutbox
for child in figlb.children:
if child._is_gridspec_layoutbox():
# farm the gridspec layout out.
#
# This routine makes all the subplot spec containers
# have the correct arrangement. It just stacks the
# subplot layoutboxes in the correct order...
arange_subplotspecs(child, hspace=hspace, wspace=wspace)
# - Align right/left and bottom/top spines of appropriate subplots.
# - Compare size of subplotspec including height and width ratios
# and make sure that the axes spines are at least as large
# as they should be.
for gs in gss:
# for each gridspec...
nrows, ncols = gs.get_geometry()
width_ratios = gs.get_width_ratios()
height_ratios = gs.get_height_ratios()
if width_ratios is None:
width_ratios = np.ones(ncols)
if height_ratios is None:
height_ratios = np.ones(nrows)
# get axes in this gridspec....
axs = []
for ax in fig.axes:
if (hasattr(ax, 'get_subplotspec')
and ax._layoutbox is not None):
if ax.get_subplotspec().get_gridspec() == gs:
axs += [ax]
rownummin = np.zeros(len(axs), dtype=np.int8)
rownummax = np.zeros(len(axs), dtype=np.int8)
colnummin = np.zeros(len(axs), dtype=np.int8)
colnummax = np.zeros(len(axs), dtype=np.int8)
width = np.zeros(len(axs))
height = np.zeros(len(axs))
for n, ax in enumerate(axs):
ss0 = ax.get_subplotspec()
if ss0.num2 is None:
ss0.num2 = ss0.num1
rownummin[n], colnummin[n] = divmod(ss0.num1, ncols)
rownummax[n], colnummax[n] = divmod(ss0.num2, ncols)
width[n] = np.sum(
width_ratios[colnummin[n]:(colnummax[n] + 1)])
height[n] = np.sum(
height_ratios[rownummin[n]:(rownummax[n] + 1)])
for nn, ax in enumerate(axs[:-1]):
ss0 = ax.get_subplotspec()
# now compare ax to all the axs:
#
# If the subplotspecs have the same colnumXmax, then line
# up their right sides. If they have the same min, then
# line up their left sides (and vertical equivalents).
rownum0min, colnum0min = rownummin[nn], colnummin[nn]
rownum0max, colnum0max = rownummax[nn], colnummax[nn]
width0, height0 = width[nn], height[nn]
alignleft = False
alignright = False
alignbot = False
aligntop = False
alignheight = False
alignwidth = False
for mm in range(nn+1, len(axs)):
axc = axs[mm]
rownumCmin, colnumCmin = rownummin[mm], colnummin[mm]
rownumCmax, colnumCmax = rownummax[mm], colnummax[mm]
widthC, heightC = width[mm], height[mm]
# Horizontally align axes spines if they have the
# same min or max:
if not alignleft and colnum0min == colnumCmin:
# we want the _poslayoutboxes to line up on left
# side of the axes spines...
layoutbox.align([ax._poslayoutbox,
axc._poslayoutbox],
'left')
alignleft = True
if not alignright and colnum0max == colnumCmax:
# line up right sides of _poslayoutbox
layoutbox.align([ax._poslayoutbox,
axc._poslayoutbox],
'right')
alignright = True
# Vertically align axes spines if they have the
# same min or max:
if not aligntop and rownum0min == rownumCmin:
# line up top of _poslayoutbox
_log.debug('rownum0min == rownumCmin')
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox],
'top')
aligntop = True
if not alignbot and rownum0max == rownumCmax:
# line up bottom of _poslayoutbox
_log.debug('rownum0max == rownumCmax')
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox],
'bottom')
alignbot = True
###########
# Now we make the widths and heights of position boxes
# similar. (i.e the spine locations)
# This allows vertically stacked subplots to have
# different sizes if they occupy different amounts
# of the gridspec: i.e.
# gs = gridspec.GridSpec(3,1)
# ax1 = gs[0,:]
# ax2 = gs[1:,:]
# then drows0 = 1, and drowsC = 2, and ax2
# should be at least twice as large as ax1.
# But it can be more than twice as large because
# it needs less room for the labeling.
#
# For height, this only needs to be done if the
# subplots share a column. For width if they
# share a row.
drowsC = (rownumCmax - rownumCmin + 1)
drows0 = (rownum0max - rownum0min + 1)
dcolsC = (colnumCmax - colnumCmin + 1)
dcols0 = (colnum0max - colnum0min + 1)
if not alignheight and drows0 == drowsC:
ax._poslayoutbox.constrain_height(
axc._poslayoutbox.height * height0 / heightC)
alignheight = True
elif in_same_column(colnum0min, colnum0max,
colnumCmin, colnumCmax):
if height0 > heightC:
ax._poslayoutbox.constrain_height_min(
axc._poslayoutbox.height * height0 / heightC)
# these constraints stop the smaller axes from
# being allowed to go to zero height...
axc._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * heightC /
(height0*1.8))
elif height0 < heightC:
axc._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * heightC / height0)
ax._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * height0 /
(heightC*1.8))
# widths...
if not alignwidth and dcols0 == dcolsC:
ax._poslayoutbox.constrain_width(
axc._poslayoutbox.width * width0 / widthC)
alignwidth = True
elif in_same_row(rownum0min, rownum0max,
rownumCmin, rownumCmax):
if width0 > widthC:
ax._poslayoutbox.constrain_width_min(
axc._poslayoutbox.width * width0 / widthC)
axc._poslayoutbox.constrain_width_min(
ax._poslayoutbox.width * widthC /
(width0*1.8))
elif width0 < widthC:
axc._poslayoutbox.constrain_width_min(
ax._poslayoutbox.width * widthC / width0)
ax._poslayoutbox.constrain_width_min(
axc._poslayoutbox.width * width0 /
(widthC*1.8))
fig._layoutbox.constrained_layout_called += 1
fig._layoutbox.update_variables()
# Now set the position of the axes...
for ax in fig.axes:
if ax._layoutbox is not None:
newpos = ax._poslayoutbox.get_rect()
_log.debug('newpos %r', newpos)
# Now set the new position.
# ax.set_position will zero out the layout for
# this axis, allowing users to hard-code the position,
# so this does the same w/o zeroing layout.
ax._set_position(newpos, which='original')
def do_constrained_layout(fig,
renderer,
h_pad,
w_pad,
hspace=None,
wspace=None):
"""
Do the constrained_layout. Called at draw time in
``figure.constrained_layout()``
Parameters
----------
fig: Figure
is the ``figure`` instance to do the layout in.
renderer: Renderer
the renderer to use.
h_pad, w_pad : float
are in figure-normalized units, and are a padding around the axes
elements.
hspace, wspace : float
are in fractions of the subplot sizes.
"""
''' Steps:
1. get a list of unique gridspecs in this figure. Each gridspec will be
constrained separately.
2. Check for gaps in the gridspecs. i.e. if not every axes slot in the
gridspec has been filled. If empty, add a ghost axis that is made so
that it cannot be seen (though visible=True). This is needed to make
a blank spot in the layout.
3. Compare the tight_bbox of each axes to its `position`, and assume that
the difference is the space needed by the elements around the edge of
the axes (decorations) like the title, ticklabels, x-labels, etc. This
can include legends who overspill the axes boundaries.
4. Constrain gridspec elements to line up:
a) if colnum0 neq colnumC, the two subplotspecs are stacked next to
each other, with the appropriate order.
b) if colnum0 == columnC line up the left or right side of the
_poslayoutbox (depending if it is the min or max num that is equal).
c) do the same for rows...
5. The above doesn't constrain relative sizes of the _poslayoutboxes at
all, and indeed zero-size is a solution that the solver often finds more
convenient than expanding the sizes. Right now the solution is to compare
subplotspec sizes (i.e. drowsC and drows0) and constrain the larger
_poslayoutbox to be larger than the ratio of the sizes. i.e. if drows0 >
drowsC, then ax._poslayoutbox > axc._poslayoutbox * drowsC / drows0. This
works fine *if* the decorations are similar between the axes. If the
larger subplotspec has much larger axes decorations, then the constraint
above is incorrect.
We need the greater than in the above, in general, rather than an equals
sign. Consider the case of the left column having 2 rows, and the right
column having 1 row. We want the top and bottom of the _poslayoutboxes to
line up. So that means if there are decorations on the left column axes
they will be smaller than half as large as the right hand axis.
This can break down if the decoration size for the right hand axis (the
margins) is very large. There must be a math way to check for this case.
'''
invTransFig = fig.transFigure.inverted().transform_bbox
# list of unique gridspecs that contain child axes:
gss = set([])
for ax in fig.axes:
if hasattr(ax, 'get_subplotspec'):
gs = ax.get_subplotspec().get_gridspec()
if gs._layoutbox is not None:
gss.add(gs)
if len(gss) == 0:
warnings.warn('There are no gridspecs with layoutboxes. '
'Possibly did not call parent GridSpec with the figure= '
'keyword')
# check for unoccupied gridspec slots and make ghost axes for these
# slots... Do for each gs separately. This is a pretty big kludge
# but shoudn't have too much ill effect. The worst is that
# someone querrying the figure will wonder why there are more
# axes than they thought.
if fig._layoutbox.constrained_layout_called < 1:
for gs in gss:
nrows, ncols = gs.get_geometry()
hassubplotspec = np.zeros(nrows * ncols, dtype=bool)
axs = []
for ax in fig.axes:
if (hasattr(ax, 'get_subplotspec')
and ax._layoutbox is not None
and ax.get_subplotspec().get_gridspec() == gs):
axs += [ax]
for ax in axs:
ss0 = ax.get_subplotspec()
if ss0.num2 is None:
ss0.num2 = ss0.num1
hassubplotspec[ss0.num1:(ss0.num2 + 1)] = True
for nn, hss in enumerate(hassubplotspec):
if not hss:
# this gridspec slot doesn't have an axis so we
# make a "ghost".
ax = fig.add_subplot(gs[nn])
ax.set_frame_on(False)
ax.set_xticks([])
ax.set_yticks([])
ax.set_facecolor((1, 0, 0, 0))
# for each axes, make a margin between the *pos* layoutbox and the
# *axes* layoutbox be a minimum size that can accomodate the
# decorations on the axis.
for ax in fig.axes:
_log.debug(ax._layoutbox)
if ax._layoutbox is not None:
pos = ax.get_position(original=True)
tightbbox = get_axall_tightbbox(ax, renderer)
bbox = invTransFig(tightbbox)
# use stored h_pad if it exists
h_padt = ax._poslayoutbox.h_pad
if h_padt is None:
h_padt = h_pad
w_padt = ax._poslayoutbox.w_pad
if w_padt is None:
w_padt = w_pad
ax._poslayoutbox.edit_left_margin_min(-bbox.x0 + pos.x0 + w_padt)
ax._poslayoutbox.edit_right_margin_min(bbox.x1 - pos.x1 + w_padt)
ax._poslayoutbox.edit_bottom_margin_min(-bbox.y0 + pos.y0 + h_padt)
ax._poslayoutbox.edit_top_margin_min(bbox.y1 - pos.y1 + h_padt)
_log.debug('left %f', (-bbox.x0 + pos.x0 + w_pad))
_log.debug('right %f', (bbox.x1 - pos.x1 + w_pad))
_log.debug('bottom %f', (-bbox.y0 + pos.y0 + h_padt))
# Sometimes its possible for the solver to collapse
# rather than expand axes, so they all have zero height
# or width. This stops that... It *should* have been
# taken into account w/ pref_width...
if fig._layoutbox.constrained_layout_called < 1:
ax._poslayoutbox.constrain_height_min(20, strength='weak')
ax._poslayoutbox.constrain_width_min(20, strength='weak')
ax._layoutbox.constrain_height_min(20, strength='weak')
ax._layoutbox.constrain_width_min(20, strength='weak')
ax._poslayoutbox.constrain_top_margin(0, strength='weak')
ax._poslayoutbox.constrain_bottom_margin(0, strength='weak')
ax._poslayoutbox.constrain_right_margin(0, strength='weak')
ax._poslayoutbox.constrain_left_margin(0, strength='weak')
# do layout for suptitle.
if fig._suptitle is not None and fig._suptitle._layoutbox is not None:
sup = fig._suptitle
bbox = invTransFig(sup.get_window_extent(renderer=renderer))
height = bbox.y1 - bbox.y0
sup._layoutbox.edit_height(height + h_pad)
# OK, the above lines up ax._poslayoutbox with ax._layoutbox
# now we need to
# 1) arrange the subplotspecs. We do it at this level because
# the subplotspecs are meant to contain other dependent axes
# like colorbars or legends.
# 2) line up the right and left side of the ax._poslayoutbox
# that have the same subplotspec maxes.
if fig._layoutbox.constrained_layout_called < 1:
# arrange the subplotspecs... This is all done relative to each
# other. Some subplotspecs conatain axes, and others contain gridspecs
# the ones that contain gridspecs are a set proportion of their
# parent gridspec. The ones that contain axes are not so constrained.
figlb = fig._layoutbox
for child in figlb.children:
if child._is_gridspec_layoutbox():
# farm the gridspec layout out.
#
# This routine makes all the subplot spec containers
# have the correct arrangement. It just stacks the
# subplot layoutboxes in the correct order...
_arange_subplotspecs(child, hspace=hspace, wspace=wspace)
# - Align right/left and bottom/top spines of appropriate subplots.
# - Compare size of subplotspec including height and width ratios
# and make sure that the axes spines are at least as large
# as they should be.
for gs in gss:
# for each gridspec...
nrows, ncols = gs.get_geometry()
width_ratios = gs.get_width_ratios()
height_ratios = gs.get_height_ratios()
if width_ratios is None:
width_ratios = np.ones(ncols)
if height_ratios is None:
height_ratios = np.ones(nrows)
# get axes in this gridspec....
axs = []
for ax in fig.axes:
if (hasattr(ax, 'get_subplotspec')
and ax._layoutbox is not None):
if ax.get_subplotspec().get_gridspec() == gs:
axs += [ax]
rownummin = np.zeros(len(axs), dtype=np.int8)
rownummax = np.zeros(len(axs), dtype=np.int8)
colnummin = np.zeros(len(axs), dtype=np.int8)
colnummax = np.zeros(len(axs), dtype=np.int8)
width = np.zeros(len(axs))
height = np.zeros(len(axs))
for n, ax in enumerate(axs):
ss0 = ax.get_subplotspec()
if ss0.num2 is None:
ss0.num2 = ss0.num1
rownummin[n], colnummin[n] = divmod(ss0.num1, ncols)
rownummax[n], colnummax[n] = divmod(ss0.num2, ncols)
width[n] = np.sum(width_ratios[colnummin[n]:(colnummax[n] +
1)])
height[n] = np.sum(height_ratios[rownummin[n]:(rownummax[n] +
1)])
for nn, ax in enumerate(axs[:-1]):
ss0 = ax.get_subplotspec()
# now compare ax to all the axs:
#
# If the subplotspecs have the same colnumXmax, then line
# up their right sides. If they have the same min, then
# line up their left sides (and vertical equivalents).
rownum0min, colnum0min = rownummin[nn], colnummin[nn]
rownum0max, colnum0max = rownummax[nn], colnummax[nn]
width0, height0 = width[nn], height[nn]
alignleft = False
alignright = False
alignbot = False
aligntop = False
alignheight = False
alignwidth = False
for mm in range(nn + 1, len(axs)):
axc = axs[mm]
rownumCmin, colnumCmin = rownummin[mm], colnummin[mm]
rownumCmax, colnumCmax = rownummax[mm], colnummax[mm]
widthC, heightC = width[mm], height[mm]
# Horizontally align axes spines if they have the
# same min or max:
if not alignleft and colnum0min == colnumCmin:
# we want the _poslayoutboxes to line up on left
# side of the axes spines...
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox],
'left')
alignleft = True
if not alignright and colnum0max == colnumCmax:
# line up right sides of _poslayoutbox
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox],
'right')
alignright = True
# Vertically align axes spines if they have the
# same min or max:
if not aligntop and rownum0min == rownumCmin:
# line up top of _poslayoutbox
_log.debug('rownum0min == rownumCmin')
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox],
'top')
aligntop = True
if not alignbot and rownum0max == rownumCmax:
# line up bottom of _poslayoutbox
_log.debug('rownum0max == rownumCmax')
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox],
'bottom')
alignbot = True
###########
# Now we make the widths and heights of position boxes
# similar. (i.e the spine locations)
# This allows vertically stacked subplots to have
# different sizes if they occupy different amounts
# of the gridspec: i.e.
# gs = gridspec.GridSpec(3,1)
# ax1 = gs[0,:]
# ax2 = gs[1:,:]
# then drows0 = 1, and drowsC = 2, and ax2
# should be at least twice as large as ax1.
# But it can be more than twice as large because
# it needs less room for the labeling.
#
# For height, this only needs to be done if the
# subplots share a column. For width if they
# share a row.
drowsC = (rownumCmax - rownumCmin + 1)
drows0 = (rownum0max - rownum0min + 1)
dcolsC = (colnumCmax - colnumCmin + 1)
dcols0 = (colnum0max - colnum0min + 1)
if not alignheight and drows0 == drowsC:
ax._poslayoutbox.constrain_height(
axc._poslayoutbox.height * height0 / heightC)
alignheight = True
elif in_same_column(colnum0min, colnum0max, colnumCmin,
colnumCmax):
if height0 > heightC:
ax._poslayoutbox.constrain_height_min(
axc._poslayoutbox.height * height0 / heightC)
# these constraints stop the smaller axes from
# being allowed to go to zero height...
axc._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * heightC /
(height0 * 1.8))
elif height0 < heightC:
axc._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * heightC / height0)
ax._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * height0 /
(heightC * 1.8))
# widths...
if not alignwidth and dcols0 == dcolsC:
ax._poslayoutbox.constrain_width(
axc._poslayoutbox.width * width0 / widthC)
alignwidth = True
elif in_same_row(rownum0min, rownum0max, rownumCmin,
rownumCmax):
if width0 > widthC:
ax._poslayoutbox.constrain_width_min(
axc._poslayoutbox.width * width0 / widthC)
axc._poslayoutbox.constrain_width_min(
ax._poslayoutbox.width * widthC /
(width0 * 1.8))
elif width0 < widthC:
axc._poslayoutbox.constrain_width_min(
ax._poslayoutbox.width * widthC / width0)
ax._poslayoutbox.constrain_width_min(
axc._poslayoutbox.width * width0 /
(widthC * 1.8))
fig._layoutbox.constrained_layout_called += 1
fig._layoutbox.update_variables()
# Now set the position of the axes...
for ax in fig.axes:
if ax._layoutbox is not None:
newpos = ax._poslayoutbox.get_rect()
_log.debug('newpos %r', newpos)
# Now set the new position.
# ax.set_position will zero out the layout for
# this axis, allowing users to hard-code the position,
# so this does the same w/o zeroing layout.
ax._set_position(newpos, which='original')
def _align_spines(fig, gs):
"""
- Align right/left and bottom/top spines of appropriate subplots.
- Compare size of subplotspec including height and width ratios
and make sure that the axes spines are at least as large
as they should be.
"""
# for each gridspec...
nrows, ncols = gs.get_geometry()
width_ratios = gs.get_width_ratios()
height_ratios = gs.get_height_ratios()
if width_ratios is None:
width_ratios = np.ones(ncols)
if height_ratios is None:
height_ratios = np.ones(nrows)
# get axes in this gridspec....
axs = []
for ax in fig.axes:
if (hasattr(ax, 'get_subplotspec') and ax._layoutbox is not None):
if ax.get_subplotspec().get_gridspec() == gs:
axs += [ax]
rownummin = np.zeros(len(axs), dtype=np.int8)
rownummax = np.zeros(len(axs), dtype=np.int8)
colnummin = np.zeros(len(axs), dtype=np.int8)
colnummax = np.zeros(len(axs), dtype=np.int8)
width = np.zeros(len(axs))
height = np.zeros(len(axs))
for n, ax in enumerate(axs):
ss0 = ax.get_subplotspec()
if ss0.num2 is None:
ss0.num2 = ss0.num1
rownummin[n], colnummin[n] = divmod(ss0.num1, ncols)
rownummax[n], colnummax[n] = divmod(ss0.num2, ncols)
width[n] = np.sum(width_ratios[colnummin[n]:(colnummax[n] + 1)])
height[n] = np.sum(height_ratios[rownummin[n]:(rownummax[n] + 1)])
for nn, ax in enumerate(axs[:-1]):
# now compare ax to all the axs:
#
# If the subplotspecs have the same colnumXmax, then line
# up their right sides. If they have the same min, then
# line up their left sides (and vertical equivalents).
rownum0min, colnum0min = rownummin[nn], colnummin[nn]
rownum0max, colnum0max = rownummax[nn], colnummax[nn]
width0, height0 = width[nn], height[nn]
alignleft = False
alignright = False
alignbot = False
aligntop = False
alignheight = False
alignwidth = False
for mm in range(nn + 1, len(axs)):
axc = axs[mm]
rownumCmin, colnumCmin = rownummin[mm], colnummin[mm]
rownumCmax, colnumCmax = rownummax[mm], colnummax[mm]
widthC, heightC = width[mm], height[mm]
# Horizontally align axes spines if they have the
# same min or max:
if not alignleft and colnum0min == colnumCmin:
# we want the _poslayoutboxes to line up on left
# side of the axes spines...
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox], 'left')
alignleft = True
if not alignright and colnum0max == colnumCmax:
# line up right sides of _poslayoutbox
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox], 'right')
alignright = True
# Vertically align axes spines if they have the
# same min or max:
if not aligntop and rownum0min == rownumCmin:
# line up top of _poslayoutbox
_log.debug('rownum0min == rownumCmin')
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox], 'top')
aligntop = True
if not alignbot and rownum0max == rownumCmax:
# line up bottom of _poslayoutbox
_log.debug('rownum0max == rownumCmax')
layoutbox.align([ax._poslayoutbox, axc._poslayoutbox],
'bottom')
alignbot = True
###########
# Now we make the widths and heights of position boxes
# similar. (i.e the spine locations)
# This allows vertically stacked subplots to have
# different sizes if they occupy different amounts
# of the gridspec: i.e.
# gs = gridspec.GridSpec(3,1)
# ax1 = gs[0,:]
# ax2 = gs[1:,:]
# then drows0 = 1, and drowsC = 2, and ax2
# should be at least twice as large as ax1.
# But it can be more than twice as large because
# it needs less room for the labeling.
#
# For height, this only needs to be done if the
# subplots share a column. For width if they
# share a row.
drowsC = (rownumCmax - rownumCmin + 1)
drows0 = (rownum0max - rownum0min + 1)
dcolsC = (colnumCmax - colnumCmin + 1)
dcols0 = (colnum0max - colnum0min + 1)
if not alignheight and drows0 == drowsC:
ax._poslayoutbox.constrain_height(axc._poslayoutbox.height *
height0 / heightC)
alignheight = True
elif _in_same_column(colnum0min, colnum0max, colnumCmin,
colnumCmax):
if height0 > heightC:
ax._poslayoutbox.constrain_height_min(
axc._poslayoutbox.height * height0 / heightC)
# these constraints stop the smaller axes from
# being allowed to go to zero height...
axc._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * heightC / (height0 * 1.8))
elif height0 < heightC:
axc._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * heightC / height0)
ax._poslayoutbox.constrain_height_min(
ax._poslayoutbox.height * height0 / (heightC * 1.8))
# widths...
if not alignwidth and dcols0 == dcolsC:
ax._poslayoutbox.constrain_width(axc._poslayoutbox.width *
width0 / widthC)
alignwidth = True
elif _in_same_row(rownum0min, rownum0max, rownumCmin, rownumCmax):
if width0 > widthC:
ax._poslayoutbox.constrain_width_min(
axc._poslayoutbox.width * width0 / widthC)
axc._poslayoutbox.constrain_width_min(
ax._poslayoutbox.width * widthC / (width0 * 1.8))
elif width0 < widthC:
axc._poslayoutbox.constrain_width_min(
ax._poslayoutbox.width * widthC / width0)
ax._poslayoutbox.constrain_width_min(
axc._poslayoutbox.width * width0 / (widthC * 1.8))
def _align_spines(fig, gs):
"""
- Align right/left and bottom/top spines of appropriate subplots.
- Compare size of subplotspec including height and width ratios
and make sure that the axes spines are at least as large
as they should be.
"""
# for each gridspec...
nrows, ncols = gs.get_geometry()
width_ratios = gs.get_width_ratios()
height_ratios = gs.get_height_ratios()
if width_ratios is None:
width_ratios = np.ones(ncols)
if height_ratios is None:
height_ratios = np.ones(nrows)
# get axes in this gridspec....
axs = [
ax for ax in fig.axes
if (hasattr(ax, 'get_subplotspec') and ax._layoutbox is not None
and ax.get_subplotspec().get_gridspec() == gs)
]
rowspans = []
colspans = []
heights = []
widths = []
for ax in axs:
ss0 = ax.get_subplotspec()
rowspan = ss0.rowspan
colspan = ss0.colspan
rowspans.append(rowspan)
colspans.append(colspan)
heights.append(sum(height_ratios[rowspan.start:rowspan.stop]))
widths.append(sum(width_ratios[colspan.start:colspan.stop]))
for idx0, ax0 in enumerate(axs):
# Compare ax to all other axs: If the subplotspecs start (/stop) at
# the same column, then line up their left (/right) sides; likewise
# for rows/top/bottom.
rowspan0 = rowspans[idx0]
colspan0 = colspans[idx0]
height0 = heights[idx0]
width0 = widths[idx0]
alignleft = False
alignright = False
alignbot = False
aligntop = False
alignheight = False
alignwidth = False
for idx1 in range(idx0 + 1, len(axs)):
ax1 = axs[idx1]
rowspan1 = rowspans[idx1]
colspan1 = colspans[idx1]
width1 = widths[idx1]
height1 = heights[idx1]
# Horizontally align axes spines if they have the same min or max:
if not alignleft and colspan0.start == colspan1.start:
_log.debug('same start columns; line up layoutbox lefts')
layoutbox.align([ax0._poslayoutbox, ax1._poslayoutbox], 'left')
alignleft = True
if not alignright and colspan0.stop == colspan1.stop:
_log.debug('same stop columns; line up layoutbox rights')
layoutbox.align([ax0._poslayoutbox, ax1._poslayoutbox],
'right')
alignright = True
# Vertically align axes spines if they have the same min or max:
if not aligntop and rowspan0.start == rowspan1.start:
_log.debug('same start rows; line up layoutbox tops')
layoutbox.align([ax0._poslayoutbox, ax1._poslayoutbox], 'top')
aligntop = True
if not alignbot and rowspan0.stop == rowspan1.stop:
_log.debug('same stop rows; line up layoutbox bottoms')
layoutbox.align([ax0._poslayoutbox, ax1._poslayoutbox],
'bottom')
alignbot = True
# Now we make the widths and heights of position boxes
# similar. (i.e the spine locations)
# This allows vertically stacked subplots to have different sizes
# if they occupy different amounts of the gridspec, e.g. if
# gs = gridspec.GridSpec(3, 1)
# ax0 = gs[0, :]
# ax1 = gs[1:, :]
# then len(rowspan0) = 1, and len(rowspan1) = 2,
# and ax1 should be at least twice as large as ax0.
# But it can be more than twice as large because
# it needs less room for the labeling.
# For heights, do it if the subplots share a column.
if not alignheight and len(rowspan0) == len(rowspan1):
ax0._poslayoutbox.constrain_height(ax1._poslayoutbox.height *
height0 / height1)
alignheight = True
elif _spans_overlap(colspan0, colspan1):
if height0 > height1:
ax0._poslayoutbox.constrain_height_min(
ax1._poslayoutbox.height * height0 / height1)
elif height0 < height1:
ax1._poslayoutbox.constrain_height_min(
ax0._poslayoutbox.height * height1 / height0)
# For widths, do it if the subplots share a row.
if not alignwidth and len(colspan0) == len(colspan1):
ax0._poslayoutbox.constrain_width(ax1._poslayoutbox.width *
width0 / width1)
alignwidth = True
elif _spans_overlap(rowspan0, rowspan1):
if width0 > width1:
ax0._poslayoutbox.constrain_width_min(
ax1._poslayoutbox.width * width0 / width1)
elif width0 < width1:
ax1._poslayoutbox.constrain_width_min(
ax0._poslayoutbox.width * width1 / width0)
