/usr/lib/python2.7/dist-packages/pyqtgraph/graphicsItems/AxisItem.py is in python-pyqtgraph 0.9.10-5.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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from ..python2_3 import asUnicode
import numpy as np
from ..Point import Point
from .. import debug as debug
import weakref
from .. import functions as fn
from .. import getConfigOption
from .GraphicsWidget import GraphicsWidget
__all__ = ['AxisItem']
class AxisItem(GraphicsWidget):
"""
GraphicsItem showing a single plot axis with ticks, values, and label.
Can be configured to fit on any side of a plot, and can automatically synchronize its displayed scale with ViewBox items.
Ticks can be extended to draw a grid.
If maxTickLength is negative, ticks point into the plot.
"""
def __init__(self, orientation, pen=None, linkView=None, parent=None, maxTickLength=-5, showValues=True):
"""
============== ===============================================================
**Arguments:**
orientation one of 'left', 'right', 'top', or 'bottom'
maxTickLength (px) maximum length of ticks to draw. Negative values draw
into the plot, positive values draw outward.
linkView (ViewBox) causes the range of values displayed in the axis
to be linked to the visible range of a ViewBox.
showValues (bool) Whether to display values adjacent to ticks
pen (QPen) Pen used when drawing ticks.
============== ===============================================================
"""
GraphicsWidget.__init__(self, parent)
self.label = QtGui.QGraphicsTextItem(self)
self.picture = None
self.orientation = orientation
if orientation not in ['left', 'right', 'top', 'bottom']:
raise Exception("Orientation argument must be one of 'left', 'right', 'top', or 'bottom'.")
if orientation in ['left', 'right']:
self.label.rotate(-90)
self.style = {
'tickTextOffset': [5, 2], ## (horizontal, vertical) spacing between text and axis
'tickTextWidth': 30, ## space reserved for tick text
'tickTextHeight': 18,
'autoExpandTextSpace': True, ## automatically expand text space if needed
'tickFont': None,
'stopAxisAtTick': (False, False), ## whether axis is drawn to edge of box or to last tick
'textFillLimits': [ ## how much of the axis to fill up with tick text, maximally.
(0, 0.8), ## never fill more than 80% of the axis
(2, 0.6), ## If we already have 2 ticks with text, fill no more than 60% of the axis
(4, 0.4), ## If we already have 4 ticks with text, fill no more than 40% of the axis
(6, 0.2), ## If we already have 6 ticks with text, fill no more than 20% of the axis
],
'showValues': showValues,
'tickLength': maxTickLength,
'maxTickLevel': 2,
'maxTextLevel': 2,
}
self.textWidth = 30 ## Keeps track of maximum width / height of tick text
self.textHeight = 18
# If the user specifies a width / height, remember that setting
# indefinitely.
self.fixedWidth = None
self.fixedHeight = None
self.labelText = ''
self.labelUnits = ''
self.labelUnitPrefix=''
self.labelStyle = {}
self.logMode = False
self.tickFont = None
self._tickLevels = None ## used to override the automatic ticking system with explicit ticks
self._tickSpacing = None # used to override default tickSpacing method
self.scale = 1.0
self.autoSIPrefix = True
self.autoSIPrefixScale = 1.0
self.setRange(0, 1)
if pen is None:
self.setPen()
else:
self.setPen(pen)
self._linkedView = None
if linkView is not None:
self.linkToView(linkView)
self.showLabel(False)
self.grid = False
#self.setCacheMode(self.DeviceCoordinateCache)
def setStyle(self, **kwds):
"""
Set various style options.
=================== =======================================================
Keyword Arguments:
tickLength (int) The maximum length of ticks in pixels.
Positive values point toward the text; negative
values point away.
tickTextOffset (int) reserved spacing between text and axis in px
tickTextWidth (int) Horizontal space reserved for tick text in px
tickTextHeight (int) Vertical space reserved for tick text in px
autoExpandTextSpace (bool) Automatically expand text space if the tick
strings become too long.
tickFont (QFont or None) Determines the font used for tick
values. Use None for the default font.
stopAxisAtTick (tuple: (bool min, bool max)) If True, the axis
line is drawn only as far as the last tick.
Otherwise, the line is drawn to the edge of the
AxisItem boundary.
textFillLimits (list of (tick #, % fill) tuples). This structure
determines how the AxisItem decides how many ticks
should have text appear next to them. Each tuple in
the list specifies what fraction of the axis length
may be occupied by text, given the number of ticks
that already have text displayed. For example::
[(0, 0.8), # Never fill more than 80% of the axis
(2, 0.6), # If we already have 2 ticks with text,
# fill no more than 60% of the axis
(4, 0.4), # If we already have 4 ticks with text,
# fill no more than 40% of the axis
(6, 0.2)] # If we already have 6 ticks with text,
# fill no more than 20% of the axis
showValues (bool) indicates whether text is displayed adjacent
to ticks.
=================== =======================================================
Added in version 0.9.9
"""
for kwd,value in kwds.items():
if kwd not in self.style:
raise NameError("%s is not a valid style argument." % kwd)
if kwd in ('tickLength', 'tickTextOffset', 'tickTextWidth', 'tickTextHeight'):
if not isinstance(value, int):
raise ValueError("Argument '%s' must be int" % kwd)
if kwd == 'tickTextOffset':
if self.orientation in ('left', 'right'):
self.style['tickTextOffset'][0] = value
else:
self.style['tickTextOffset'][1] = value
elif kwd == 'stopAxisAtTick':
try:
assert len(value) == 2 and isinstance(value[0], bool) and isinstance(value[1], bool)
except:
raise ValueError("Argument 'stopAxisAtTick' must have type (bool, bool)")
self.style[kwd] = value
else:
self.style[kwd] = value
self.picture = None
self._adjustSize()
self.update()
def close(self):
self.scene().removeItem(self.label)
self.label = None
self.scene().removeItem(self)
def setGrid(self, grid):
"""Set the alpha value (0-255) for the grid, or False to disable.
When grid lines are enabled, the axis tick lines are extended to cover
the extent of the linked ViewBox, if any.
"""
self.grid = grid
self.picture = None
self.prepareGeometryChange()
self.update()
def setLogMode(self, log):
"""
If *log* is True, then ticks are displayed on a logarithmic scale and values
are adjusted accordingly. (This is usually accessed by changing the log mode
of a :func:`PlotItem <pyqtgraph.PlotItem.setLogMode>`)
"""
self.logMode = log
self.picture = None
self.update()
def setTickFont(self, font):
self.tickFont = font
self.picture = None
self.prepareGeometryChange()
## Need to re-allocate space depending on font size?
self.update()
def resizeEvent(self, ev=None):
#s = self.size()
## Set the position of the label
nudge = 5
br = self.label.boundingRect()
p = QtCore.QPointF(0, 0)
if self.orientation == 'left':
p.setY(int(self.size().height()/2 + br.width()/2))
p.setX(-nudge)
elif self.orientation == 'right':
p.setY(int(self.size().height()/2 + br.width()/2))
p.setX(int(self.size().width()-br.height()+nudge))
elif self.orientation == 'top':
p.setY(-nudge)
p.setX(int(self.size().width()/2. - br.width()/2.))
elif self.orientation == 'bottom':
p.setX(int(self.size().width()/2. - br.width()/2.))
p.setY(int(self.size().height()-br.height()+nudge))
self.label.setPos(p)
self.picture = None
def showLabel(self, show=True):
"""Show/hide the label text for this axis."""
#self.drawLabel = show
self.label.setVisible(show)
if self.orientation in ['left', 'right']:
self._updateWidth()
else:
self._updateHeight()
if self.autoSIPrefix:
self.updateAutoSIPrefix()
def setLabel(self, text=None, units=None, unitPrefix=None, **args):
"""Set the text displayed adjacent to the axis.
============== =============================================================
**Arguments:**
text The text (excluding units) to display on the label for this
axis.
units The units for this axis. Units should generally be given
without any scaling prefix (eg, 'V' instead of 'mV'). The
scaling prefix will be automatically prepended based on the
range of data displayed.
**args All extra keyword arguments become CSS style options for
the <span> tag which will surround the axis label and units.
============== =============================================================
The final text generated for the label will look like::
<span style="...options...">{text} (prefix{units})</span>
Each extra keyword argument will become a CSS option in the above template.
For example, you can set the font size and color of the label::
labelStyle = {'color': '#FFF', 'font-size': '14pt'}
axis.setLabel('label text', units='V', **labelStyle)
"""
if text is not None:
self.labelText = text
self.showLabel()
if units is not None:
self.labelUnits = units
self.showLabel()
if unitPrefix is not None:
self.labelUnitPrefix = unitPrefix
if len(args) > 0:
self.labelStyle = args
self.label.setHtml(self.labelString())
self._adjustSize()
self.picture = None
self.update()
def labelString(self):
if self.labelUnits == '':
if not self.autoSIPrefix or self.autoSIPrefixScale == 1.0:
units = ''
else:
units = asUnicode('(x%g)') % (1.0/self.autoSIPrefixScale)
else:
#print repr(self.labelUnitPrefix), repr(self.labelUnits)
units = asUnicode('(%s%s)') % (asUnicode(self.labelUnitPrefix), asUnicode(self.labelUnits))
s = asUnicode('%s %s') % (asUnicode(self.labelText), asUnicode(units))
style = ';'.join(['%s: %s' % (k, self.labelStyle[k]) for k in self.labelStyle])
return asUnicode("<span style='%s'>%s</span>") % (style, asUnicode(s))
def _updateMaxTextSize(self, x):
## Informs that the maximum tick size orthogonal to the axis has
## changed; we use this to decide whether the item needs to be resized
## to accomodate.
if self.orientation in ['left', 'right']:
mx = max(self.textWidth, x)
if mx > self.textWidth or mx < self.textWidth-10:
self.textWidth = mx
if self.style['autoExpandTextSpace'] is True:
self._updateWidth()
#return True ## size has changed
else:
mx = max(self.textHeight, x)
if mx > self.textHeight or mx < self.textHeight-10:
self.textHeight = mx
if self.style['autoExpandTextSpace'] is True:
self._updateHeight()
#return True ## size has changed
def _adjustSize(self):
if self.orientation in ['left', 'right']:
self._updateWidth()
else:
self._updateHeight()
def setHeight(self, h=None):
"""Set the height of this axis reserved for ticks and tick labels.
The height of the axis label is automatically added.
If *height* is None, then the value will be determined automatically
based on the size of the tick text."""
self.fixedHeight = h
self._updateHeight()
def _updateHeight(self):
if not self.isVisible():
h = 0
else:
if self.fixedHeight is None:
if not self.style['showValues']:
h = 0
elif self.style['autoExpandTextSpace'] is True:
h = self.textHeight
else:
h = self.style['tickTextHeight']
h += self.style['tickTextOffset'][1] if self.style['showValues'] else 0
h += max(0, self.style['tickLength'])
if self.label.isVisible():
h += self.label.boundingRect().height() * 0.8
else:
h = self.fixedHeight
self.setMaximumHeight(h)
self.setMinimumHeight(h)
self.picture = None
def setWidth(self, w=None):
"""Set the width of this axis reserved for ticks and tick labels.
The width of the axis label is automatically added.
If *width* is None, then the value will be determined automatically
based on the size of the tick text."""
self.fixedWidth = w
self._updateWidth()
def _updateWidth(self):
if not self.isVisible():
w = 0
else:
if self.fixedWidth is None:
if not self.style['showValues']:
w = 0
elif self.style['autoExpandTextSpace'] is True:
w = self.textWidth
else:
w = self.style['tickTextWidth']
w += self.style['tickTextOffset'][0] if self.style['showValues'] else 0
w += max(0, self.style['tickLength'])
if self.label.isVisible():
w += self.label.boundingRect().height() * 0.8 ## bounding rect is usually an overestimate
else:
w = self.fixedWidth
self.setMaximumWidth(w)
self.setMinimumWidth(w)
self.picture = None
def pen(self):
if self._pen is None:
return fn.mkPen(getConfigOption('foreground'))
return fn.mkPen(self._pen)
def setPen(self, *args, **kwargs):
"""
Set the pen used for drawing text, axes, ticks, and grid lines.
If no arguments are given, the default foreground color will be used
(see :func:`setConfigOption <pyqtgraph.setConfigOption>`).
"""
self.picture = None
if args or kwargs:
self._pen = fn.mkPen(*args, **kwargs)
else:
self._pen = fn.mkPen(getConfigOption('foreground'))
self.labelStyle['color'] = '#' + fn.colorStr(self._pen.color())[:6]
self.setLabel()
self.update()
def setScale(self, scale=None):
"""
Set the value scaling for this axis.
Setting this value causes the axis to draw ticks and tick labels as if
the view coordinate system were scaled. By default, the axis scaling is
1.0.
"""
# Deprecated usage, kept for backward compatibility
if scale is None:
scale = 1.0
self.enableAutoSIPrefix(True)
if scale != self.scale:
self.scale = scale
self.setLabel()
self.picture = None
self.update()
def enableAutoSIPrefix(self, enable=True):
"""
Enable (or disable) automatic SI prefix scaling on this axis.
When enabled, this feature automatically determines the best SI prefix
to prepend to the label units, while ensuring that axis values are scaled
accordingly.
For example, if the axis spans values from -0.1 to 0.1 and has units set
to 'V' then the axis would display values -100 to 100
and the units would appear as 'mV'
This feature is enabled by default, and is only available when a suffix
(unit string) is provided to display on the label.
"""
self.autoSIPrefix = enable
self.updateAutoSIPrefix()
def updateAutoSIPrefix(self):
if self.label.isVisible():
(scale, prefix) = fn.siScale(max(abs(self.range[0]*self.scale), abs(self.range[1]*self.scale)))
if self.labelUnits == '' and prefix in ['k', 'm']: ## If we are not showing units, wait until 1e6 before scaling.
scale = 1.0
prefix = ''
self.setLabel(unitPrefix=prefix)
else:
scale = 1.0
self.autoSIPrefixScale = scale
self.picture = None
self.update()
def setRange(self, mn, mx):
"""Set the range of values displayed by the axis.
Usually this is handled automatically by linking the axis to a ViewBox with :func:`linkToView <pyqtgraph.AxisItem.linkToView>`"""
if any(np.isinf((mn, mx))) or any(np.isnan((mn, mx))):
raise Exception("Not setting range to [%s, %s]" % (str(mn), str(mx)))
self.range = [mn, mx]
if self.autoSIPrefix:
self.updateAutoSIPrefix()
self.picture = None
self.update()
def linkedView(self):
"""Return the ViewBox this axis is linked to"""
if self._linkedView is None:
return None
else:
return self._linkedView()
def linkToView(self, view):
"""Link this axis to a ViewBox, causing its displayed range to match the visible range of the view."""
oldView = self.linkedView()
self._linkedView = weakref.ref(view)
if self.orientation in ['right', 'left']:
if oldView is not None:
oldView.sigYRangeChanged.disconnect(self.linkedViewChanged)
view.sigYRangeChanged.connect(self.linkedViewChanged)
else:
if oldView is not None:
oldView.sigXRangeChanged.disconnect(self.linkedViewChanged)
view.sigXRangeChanged.connect(self.linkedViewChanged)
if oldView is not None:
oldView.sigResized.disconnect(self.linkedViewChanged)
view.sigResized.connect(self.linkedViewChanged)
def linkedViewChanged(self, view, newRange=None):
if self.orientation in ['right', 'left']:
if newRange is None:
newRange = view.viewRange()[1]
if view.yInverted():
self.setRange(*newRange[::-1])
else:
self.setRange(*newRange)
else:
if newRange is None:
newRange = view.viewRange()[0]
if view.xInverted():
self.setRange(*newRange[::-1])
else:
self.setRange(*newRange)
def boundingRect(self):
linkedView = self.linkedView()
if linkedView is None or self.grid is False:
rect = self.mapRectFromParent(self.geometry())
## extend rect if ticks go in negative direction
## also extend to account for text that flows past the edges
tl = self.style['tickLength']
if self.orientation == 'left':
rect = rect.adjusted(0, -15, -min(0,tl), 15)
elif self.orientation == 'right':
rect = rect.adjusted(min(0,tl), -15, 0, 15)
elif self.orientation == 'top':
rect = rect.adjusted(-15, 0, 15, -min(0,tl))
elif self.orientation == 'bottom':
rect = rect.adjusted(-15, min(0,tl), 15, 0)
return rect
else:
return self.mapRectFromParent(self.geometry()) | linkedView.mapRectToItem(self, linkedView.boundingRect())
def paint(self, p, opt, widget):
profiler = debug.Profiler()
if self.picture is None:
try:
picture = QtGui.QPicture()
painter = QtGui.QPainter(picture)
specs = self.generateDrawSpecs(painter)
profiler('generate specs')
if specs is not None:
self.drawPicture(painter, *specs)
profiler('draw picture')
finally:
painter.end()
self.picture = picture
#p.setRenderHint(p.Antialiasing, False) ## Sometimes we get a segfault here ???
#p.setRenderHint(p.TextAntialiasing, True)
self.picture.play(p)
def setTicks(self, ticks):
"""Explicitly determine which ticks to display.
This overrides the behavior specified by tickSpacing(), tickValues(), and tickStrings()
The format for *ticks* looks like::
[
[ (majorTickValue1, majorTickString1), (majorTickValue2, majorTickString2), ... ],
[ (minorTickValue1, minorTickString1), (minorTickValue2, minorTickString2), ... ],
...
]
If *ticks* is None, then the default tick system will be used instead.
"""
self._tickLevels = ticks
self.picture = None
self.update()
def setTickSpacing(self, major=None, minor=None, levels=None):
"""
Explicitly determine the spacing of major and minor ticks. This
overrides the default behavior of the tickSpacing method, and disables
the effect of setTicks(). Arguments may be either *major* and *minor*,
or *levels* which is a list of (spacing, offset) tuples for each
tick level desired.
If no arguments are given, then the default behavior of tickSpacing
is enabled.
Examples::
# two levels, all offsets = 0
axis.setTickSpacing(5, 1)
# three levels, all offsets = 0
axis.setTickSpacing([(3, 0), (1, 0), (0.25, 0)])
# reset to default
axis.setTickSpacing()
"""
if levels is None:
if major is None:
levels = None
else:
levels = [(major, 0), (minor, 0)]
self._tickSpacing = levels
self.picture = None
self.update()
def tickSpacing(self, minVal, maxVal, size):
"""Return values describing the desired spacing and offset of ticks.
This method is called whenever the axis needs to be redrawn and is a
good method to override in subclasses that require control over tick locations.
The return value must be a list of tuples, one for each set of ticks::
[
(major tick spacing, offset),
(minor tick spacing, offset),
(sub-minor tick spacing, offset),
...
]
"""
# First check for override tick spacing
if self._tickSpacing is not None:
return self._tickSpacing
dif = abs(maxVal - minVal)
if dif == 0:
return []
## decide optimal minor tick spacing in pixels (this is just aesthetics)
optimalTickCount = max(2., np.log(size))
## optimal minor tick spacing
optimalSpacing = dif / optimalTickCount
## the largest power-of-10 spacing which is smaller than optimal
p10unit = 10 ** np.floor(np.log10(optimalSpacing))
## Determine major/minor tick spacings which flank the optimal spacing.
intervals = np.array([1., 2., 10., 20., 100.]) * p10unit
minorIndex = 0
while intervals[minorIndex+1] <= optimalSpacing:
minorIndex += 1
levels = [
(intervals[minorIndex+2], 0),
(intervals[minorIndex+1], 0),
#(intervals[minorIndex], 0) ## Pretty, but eats up CPU
]
if self.style['maxTickLevel'] >= 2:
## decide whether to include the last level of ticks
minSpacing = min(size / 20., 30.)
maxTickCount = size / minSpacing
if dif / intervals[minorIndex] <= maxTickCount:
levels.append((intervals[minorIndex], 0))
return levels
##### This does not work -- switching between 2/5 confuses the automatic text-level-selection
### Determine major/minor tick spacings which flank the optimal spacing.
#intervals = np.array([1., 2., 5., 10., 20., 50., 100.]) * p10unit
#minorIndex = 0
#while intervals[minorIndex+1] <= optimalSpacing:
#minorIndex += 1
### make sure we never see 5 and 2 at the same time
#intIndexes = [
#[0,1,3],
#[0,2,3],
#[2,3,4],
#[3,4,6],
#[3,5,6],
#][minorIndex]
#return [
#(intervals[intIndexes[2]], 0),
#(intervals[intIndexes[1]], 0),
#(intervals[intIndexes[0]], 0)
#]
def tickValues(self, minVal, maxVal, size):
"""
Return the values and spacing of ticks to draw::
[
(spacing, [major ticks]),
(spacing, [minor ticks]),
...
]
By default, this method calls tickSpacing to determine the correct tick locations.
This is a good method to override in subclasses.
"""
minVal, maxVal = sorted((minVal, maxVal))
minVal *= self.scale
maxVal *= self.scale
#size *= self.scale
ticks = []
tickLevels = self.tickSpacing(minVal, maxVal, size)
allValues = np.array([])
for i in range(len(tickLevels)):
spacing, offset = tickLevels[i]
## determine starting tick
start = (np.ceil((minVal-offset) / spacing) * spacing) + offset
## determine number of ticks
num = int((maxVal-start) / spacing) + 1
values = (np.arange(num) * spacing + start) / self.scale
## remove any ticks that were present in higher levels
## we assume here that if the difference between a tick value and a previously seen tick value
## is less than spacing/100, then they are 'equal' and we can ignore the new tick.
values = list(filter(lambda x: all(np.abs(allValues-x) > spacing*0.01), values) )
allValues = np.concatenate([allValues, values])
ticks.append((spacing/self.scale, values))
if self.logMode:
return self.logTickValues(minVal, maxVal, size, ticks)
#nticks = []
#for t in ticks:
#nvals = []
#for v in t[1]:
#nvals.append(v/self.scale)
#nticks.append((t[0]/self.scale,nvals))
#ticks = nticks
return ticks
def logTickValues(self, minVal, maxVal, size, stdTicks):
## start with the tick spacing given by tickValues().
## Any level whose spacing is < 1 needs to be converted to log scale
ticks = []
for (spacing, t) in stdTicks:
if spacing >= 1.0:
ticks.append((spacing, t))
if len(ticks) < 3:
v1 = int(np.floor(minVal))
v2 = int(np.ceil(maxVal))
#major = list(range(v1+1, v2))
minor = []
for v in range(v1, v2):
minor.extend(v + np.log10(np.arange(1, 10)))
minor = [x for x in minor if x>minVal and x<maxVal]
ticks.append((None, minor))
return ticks
def tickStrings(self, values, scale, spacing):
"""Return the strings that should be placed next to ticks. This method is called
when redrawing the axis and is a good method to override in subclasses.
The method is called with a list of tick values, a scaling factor (see below), and the
spacing between ticks (this is required since, in some instances, there may be only
one tick and thus no other way to determine the tick spacing)
The scale argument is used when the axis label is displaying units which may have an SI scaling prefix.
When determining the text to display, use value*scale to correctly account for this prefix.
For example, if the axis label's units are set to 'V', then a tick value of 0.001 might
be accompanied by a scale value of 1000. This indicates that the label is displaying 'mV', and
thus the tick should display 0.001 * 1000 = 1.
"""
if self.logMode:
return self.logTickStrings(values, scale, spacing)
places = max(0, np.ceil(-np.log10(spacing*scale)))
strings = []
for v in values:
vs = v * scale
if abs(vs) < .001 or abs(vs) >= 10000:
vstr = "%g" % vs
else:
vstr = ("%%0.%df" % places) % vs
strings.append(vstr)
return strings
def logTickStrings(self, values, scale, spacing):
return ["%0.1g"%x for x in 10 ** np.array(values).astype(float)]
def generateDrawSpecs(self, p):
"""
Calls tickValues() and tickStrings() to determine where and how ticks should
be drawn, then generates from this a set of drawing commands to be
interpreted by drawPicture().
"""
profiler = debug.Profiler()
#bounds = self.boundingRect()
bounds = self.mapRectFromParent(self.geometry())
linkedView = self.linkedView()
if linkedView is None or self.grid is False:
tickBounds = bounds
else:
tickBounds = linkedView.mapRectToItem(self, linkedView.boundingRect())
if self.orientation == 'left':
span = (bounds.topRight(), bounds.bottomRight())
tickStart = tickBounds.right()
tickStop = bounds.right()
tickDir = -1
axis = 0
elif self.orientation == 'right':
span = (bounds.topLeft(), bounds.bottomLeft())
tickStart = tickBounds.left()
tickStop = bounds.left()
tickDir = 1
axis = 0
elif self.orientation == 'top':
span = (bounds.bottomLeft(), bounds.bottomRight())
tickStart = tickBounds.bottom()
tickStop = bounds.bottom()
tickDir = -1
axis = 1
elif self.orientation == 'bottom':
span = (bounds.topLeft(), bounds.topRight())
tickStart = tickBounds.top()
tickStop = bounds.top()
tickDir = 1
axis = 1
#print tickStart, tickStop, span
## determine size of this item in pixels
points = list(map(self.mapToDevice, span))
if None in points:
return
lengthInPixels = Point(points[1] - points[0]).length()
if lengthInPixels == 0:
return
# Determine major / minor / subminor axis ticks
if self._tickLevels is None:
tickLevels = self.tickValues(self.range[0], self.range[1], lengthInPixels)
tickStrings = None
else:
## parse self.tickLevels into the formats returned by tickLevels() and tickStrings()
tickLevels = []
tickStrings = []
for level in self._tickLevels:
values = []
strings = []
tickLevels.append((None, values))
tickStrings.append(strings)
for val, strn in level:
values.append(val)
strings.append(strn)
## determine mapping between tick values and local coordinates
dif = self.range[1] - self.range[0]
if dif == 0:
xScale = 1
offset = 0
else:
if axis == 0:
xScale = -bounds.height() / dif
offset = self.range[0] * xScale - bounds.height()
else:
xScale = bounds.width() / dif
offset = self.range[0] * xScale
xRange = [x * xScale - offset for x in self.range]
xMin = min(xRange)
xMax = max(xRange)
profiler('init')
tickPositions = [] # remembers positions of previously drawn ticks
## compute coordinates to draw ticks
## draw three different intervals, long ticks first
tickSpecs = []
for i in range(len(tickLevels)):
tickPositions.append([])
ticks = tickLevels[i][1]
## length of tick
tickLength = self.style['tickLength'] / ((i*0.5)+1.0)
lineAlpha = 255 / (i+1)
if self.grid is not False:
lineAlpha *= self.grid/255. * np.clip((0.05 * lengthInPixels / (len(ticks)+1)), 0., 1.)
for v in ticks:
## determine actual position to draw this tick
x = (v * xScale) - offset
if x < xMin or x > xMax: ## last check to make sure no out-of-bounds ticks are drawn
tickPositions[i].append(None)
continue
tickPositions[i].append(x)
p1 = [x, x]
p2 = [x, x]
p1[axis] = tickStart
p2[axis] = tickStop
if self.grid is False:
p2[axis] += tickLength*tickDir
tickPen = self.pen()
color = tickPen.color()
color.setAlpha(lineAlpha)
tickPen.setColor(color)
tickSpecs.append((tickPen, Point(p1), Point(p2)))
profiler('compute ticks')
if self.style['stopAxisAtTick'][0] is True:
stop = max(span[0].y(), min(map(min, tickPositions)))
if axis == 0:
span[0].setY(stop)
else:
span[0].setX(stop)
if self.style['stopAxisAtTick'][1] is True:
stop = min(span[1].y(), max(map(max, tickPositions)))
if axis == 0:
span[1].setY(stop)
else:
span[1].setX(stop)
axisSpec = (self.pen(), span[0], span[1])
textOffset = self.style['tickTextOffset'][axis] ## spacing between axis and text
#if self.style['autoExpandTextSpace'] is True:
#textWidth = self.textWidth
#textHeight = self.textHeight
#else:
#textWidth = self.style['tickTextWidth'] ## space allocated for horizontal text
#textHeight = self.style['tickTextHeight'] ## space allocated for horizontal text
textSize2 = 0
textRects = []
textSpecs = [] ## list of draw
# If values are hidden, return early
if not self.style['showValues']:
return (axisSpec, tickSpecs, textSpecs)
for i in range(min(len(tickLevels), self.style['maxTextLevel']+1)):
## Get the list of strings to display for this level
if tickStrings is None:
spacing, values = tickLevels[i]
strings = self.tickStrings(values, self.autoSIPrefixScale * self.scale, spacing)
else:
strings = tickStrings[i]
if len(strings) == 0:
continue
## ignore strings belonging to ticks that were previously ignored
for j in range(len(strings)):
if tickPositions[i][j] is None:
strings[j] = None
## Measure density of text; decide whether to draw this level
rects = []
for s in strings:
if s is None:
rects.append(None)
else:
br = p.boundingRect(QtCore.QRectF(0, 0, 100, 100), QtCore.Qt.AlignCenter, asUnicode(s))
## boundingRect is usually just a bit too large
## (but this probably depends on per-font metrics?)
br.setHeight(br.height() * 0.8)
rects.append(br)
textRects.append(rects[-1])
if len(textRects) > 0:
## measure all text, make sure there's enough room
if axis == 0:
textSize = np.sum([r.height() for r in textRects])
textSize2 = np.max([r.width() for r in textRects])
else:
textSize = np.sum([r.width() for r in textRects])
textSize2 = np.max([r.height() for r in textRects])
else:
textSize = 0
textSize2 = 0
if i > 0: ## always draw top level
## If the strings are too crowded, stop drawing text now.
## We use three different crowding limits based on the number
## of texts drawn so far.
textFillRatio = float(textSize) / lengthInPixels
finished = False
for nTexts, limit in self.style['textFillLimits']:
if len(textSpecs) >= nTexts and textFillRatio >= limit:
finished = True
break
if finished:
break
#spacing, values = tickLevels[best]
#strings = self.tickStrings(values, self.scale, spacing)
# Determine exactly where tick text should be drawn
for j in range(len(strings)):
vstr = strings[j]
if vstr is None: ## this tick was ignored because it is out of bounds
continue
vstr = asUnicode(vstr)
x = tickPositions[i][j]
#textRect = p.boundingRect(QtCore.QRectF(0, 0, 100, 100), QtCore.Qt.AlignCenter, vstr)
textRect = rects[j]
height = textRect.height()
width = textRect.width()
#self.textHeight = height
offset = max(0,self.style['tickLength']) + textOffset
if self.orientation == 'left':
textFlags = QtCore.Qt.TextDontClip|QtCore.Qt.AlignRight|QtCore.Qt.AlignVCenter
rect = QtCore.QRectF(tickStop-offset-width, x-(height/2), width, height)
elif self.orientation == 'right':
textFlags = QtCore.Qt.TextDontClip|QtCore.Qt.AlignLeft|QtCore.Qt.AlignVCenter
rect = QtCore.QRectF(tickStop+offset, x-(height/2), width, height)
elif self.orientation == 'top':
textFlags = QtCore.Qt.TextDontClip|QtCore.Qt.AlignCenter|QtCore.Qt.AlignBottom
rect = QtCore.QRectF(x-width/2., tickStop-offset-height, width, height)
elif self.orientation == 'bottom':
textFlags = QtCore.Qt.TextDontClip|QtCore.Qt.AlignCenter|QtCore.Qt.AlignTop
rect = QtCore.QRectF(x-width/2., tickStop+offset, width, height)
#p.setPen(self.pen())
#p.drawText(rect, textFlags, vstr)
textSpecs.append((rect, textFlags, vstr))
profiler('compute text')
## update max text size if needed.
self._updateMaxTextSize(textSize2)
return (axisSpec, tickSpecs, textSpecs)
def drawPicture(self, p, axisSpec, tickSpecs, textSpecs):
profiler = debug.Profiler()
p.setRenderHint(p.Antialiasing, False)
p.setRenderHint(p.TextAntialiasing, True)
## draw long line along axis
pen, p1, p2 = axisSpec
p.setPen(pen)
p.drawLine(p1, p2)
p.translate(0.5,0) ## resolves some damn pixel ambiguity
## draw ticks
for pen, p1, p2 in tickSpecs:
p.setPen(pen)
p.drawLine(p1, p2)
profiler('draw ticks')
## Draw all text
if self.tickFont is not None:
p.setFont(self.tickFont)
p.setPen(self.pen())
for rect, flags, text in textSpecs:
p.drawText(rect, flags, text)
#p.drawRect(rect)
profiler('draw text')
def show(self):
GraphicsWidget.show(self)
if self.orientation in ['left', 'right']:
self._updateWidth()
else:
self._updateHeight()
def hide(self):
GraphicsWidget.hide(self)
if self.orientation in ['left', 'right']:
self._updateWidth()
else:
self._updateHeight()
def wheelEvent(self, ev):
if self.linkedView() is None:
return
if self.orientation in ['left', 'right']:
self.linkedView().wheelEvent(ev, axis=1)
else:
self.linkedView().wheelEvent(ev, axis=0)
ev.accept()
def mouseDragEvent(self, event):
if self.linkedView() is None:
return
if self.orientation in ['left', 'right']:
return self.linkedView().mouseDragEvent(event, axis=1)
else:
return self.linkedView().mouseDragEvent(event, axis=0)
def mouseClickEvent(self, event):
if self.linkedView() is None:
return
return self.linkedView().mouseClickEvent(event)
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