Fix aspectRatio and zoom range issues when zooming (#1093)

* Check and enforce view limits in the setRange function

* Check limits when setting aspectRatio

- This change is required due to moving the limit checking out of the updateViewRange function.
- If the original logic remained, aspect ratio could be lost due to "squshing" the requested view into the viewBox

* Add tests for ViewBox zooming limits and aspect ratio

* - Move test code to proper location and fix instantiation of QApplication

Co-authored-by: Israel Brewster <ijbrewster@alaska.edu>
This commit is contained in:
Israel Brewster 2020-05-30 12:09:09 -08:00 committed by GitHub
parent 2ac1eefeb5
commit 949df4da16
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2 changed files with 297 additions and 79 deletions

View File

@ -282,7 +282,7 @@ class ViewBox(GraphicsWidget):
#if scene is not None and hasattr(scene, 'sigPrepareForPaint'):
#scene.sigPrepareForPaint.connect(self.prepareForPaint)
#return ret
def update(self, *args, **kwargs):
self.prepareForPaint()
GraphicsWidget.update(self, *args, **kwargs)
@ -398,12 +398,12 @@ class ViewBox(GraphicsWidget):
"""
if item.zValue() < self.zValue():
item.setZValue(self.zValue()+1)
scene = self.scene()
if scene is not None and scene is not item.scene():
scene.addItem(item) ## Necessary due to Qt bug: https://bugreports.qt-project.org/browse/QTBUG-18616
item.setParentItem(self.childGroup)
if not ignoreBounds:
self.addedItems.append(item)
self.updateAutoRange()
@ -414,12 +414,12 @@ class ViewBox(GraphicsWidget):
self.addedItems.remove(item)
except:
pass
scene = self.scene()
if scene is not None:
scene.removeItem(item)
item.setParentItem(None)
self.updateAutoRange()
def clear(self):
@ -431,19 +431,19 @@ class ViewBox(GraphicsWidget):
def resizeEvent(self, ev):
self._matrixNeedsUpdate = True
self.updateMatrix()
self.linkedXChanged()
self.linkedYChanged()
self.updateAutoRange()
self.updateViewRange()
self._matrixNeedsUpdate = True
self.updateMatrix()
self.background.setRect(self.rect())
self.borderRect.setRect(self.rect())
self.sigStateChanged.emit(self)
self.sigResized.emit(self)
self.childGroup.prepareGeometryChange()
@ -536,7 +536,11 @@ class ViewBox(GraphicsWidget):
yOff = False if setRequested[1] else None
self.enableAutoRange(x=xOff, y=yOff)
changed.append(True)
limits = (self.state['limits']['xLimits'], self.state['limits']['yLimits'])
minRng = [self.state['limits']['xRange'][0], self.state['limits']['yRange'][0]]
maxRng = [self.state['limits']['xRange'][1], self.state['limits']['yRange'][1]]
for ax, range in changes.items():
mn = min(range)
mx = max(range)
@ -564,6 +568,39 @@ class ViewBox(GraphicsWidget):
mn -= p
mx += p
# max range cannot be larger than bounds, if they are given
if limits[ax][0] is not None and limits[ax][1] is not None:
if maxRng[ax] is not None:
maxRng[ax] = min(maxRng[ax], limits[ax][1] - limits[ax][0])
else:
maxRng[ax] = limits[ax][1] - limits[ax][0]
# If we have limits, we will have at least a max range as well
if maxRng[ax] is not None or minRng[ax] is not None:
diff = mx - mn
if maxRng[ax] is not None and diff > maxRng[ax]:
delta = maxRng[ax] - diff
elif minRng[ax] is not None and diff < minRng[ax]:
delta = minRng[ax] - diff
else:
delta = 0
mn -= delta / 2.
mx += delta / 2.
# Make sure our requested area is within limits, if any
if limits[ax][0] is not None or limits[ax][1] is not None:
lmn, lmx = limits[ax]
if lmn is not None and mn < lmn:
delta = lmn - mn # Shift the requested view to match our lower limit
mn = lmn
mx += delta
elif lmx is not None and mx > lmx:
delta = lmx - mx
mx = lmx
mn += delta
# Set target range
if self.state['targetRange'][ax] != [mn, mx]:
self.state['targetRange'][ax] = [mn, mx]
@ -1443,40 +1480,6 @@ class ViewBox(GraphicsWidget):
aspect = self.state['aspectLocked'] # size ratio / view ratio
tr = self.targetRect()
bounds = self.rect()
if aspect is not False and 0 not in [aspect, tr.height(), bounds.height(), bounds.width()]:
## This is the view range aspect ratio we have requested
targetRatio = tr.width() / tr.height() if tr.height() != 0 else 1
## This is the view range aspect ratio we need to obey aspect constraint
viewRatio = (bounds.width() / bounds.height() if bounds.height() != 0 else 1) / aspect
viewRatio = 1 if viewRatio == 0 else viewRatio
# Decide which range to keep unchanged
#print self.name, "aspect:", aspect, "changed:", changed, "auto:", self.state['autoRange']
if forceX:
ax = 0
elif forceY:
ax = 1
else:
# if we are not required to keep a particular axis unchanged,
# then make the entire target range visible
ax = 0 if targetRatio > viewRatio else 1
if ax == 0:
## view range needs to be taller than target
dy = 0.5 * (tr.width() / viewRatio - tr.height())
if dy != 0:
changed[1] = True
viewRange[1] = [self.state['targetRange'][1][0] - dy, self.state['targetRange'][1][1] + dy]
else:
## view range needs to be wider than target
dx = 0.5 * (tr.height() * viewRatio - tr.width())
if dx != 0:
changed[0] = True
viewRange[0] = [self.state['targetRange'][0][0] - dx, self.state['targetRange'][0][1] + dx]
# ----------- Make corrections for view limits -----------
limits = (self.state['limits']['xLimits'], self.state['limits']['yLimits'])
minRng = [self.state['limits']['xRange'][0], self.state['limits']['yRange'][0]]
@ -1489,43 +1492,58 @@ class ViewBox(GraphicsWidget):
# max range cannot be larger than bounds, if they are given
if limits[axis][0] is not None and limits[axis][1] is not None:
if maxRng[axis] is not None:
maxRng[axis] = min(maxRng[axis], limits[axis][1]-limits[axis][0])
maxRng[axis] = min(maxRng[axis], limits[axis][1] - limits[axis][0])
else:
maxRng[axis] = limits[axis][1]-limits[axis][0]
maxRng[axis] = limits[axis][1] - limits[axis][0]
#print "\nLimits for axis %d: range=%s min=%s max=%s" % (axis, limits[axis], minRng[axis], maxRng[axis])
#print "Starting range:", viewRange[axis]
if aspect is not False and 0 not in [aspect, tr.height(), bounds.height(), bounds.width()]:
# Apply xRange, yRange
diff = viewRange[axis][1] - viewRange[axis][0]
if maxRng[axis] is not None and diff > maxRng[axis]:
delta = maxRng[axis] - diff
changed[axis] = True
elif minRng[axis] is not None and diff < minRng[axis]:
delta = minRng[axis] - diff
changed[axis] = True
## This is the view range aspect ratio we have requested
targetRatio = tr.width() / tr.height() if tr.height() != 0 else 1
## This is the view range aspect ratio we need to obey aspect constraint
viewRatio = (bounds.width() / bounds.height() if bounds.height() != 0 else 1) / aspect
viewRatio = 1 if viewRatio == 0 else viewRatio
# Calculate both the x and y ranges that would be needed to obtain the desired aspect ratio
dy = 0.5 * (tr.width() / viewRatio - tr.height())
dx = 0.5 * (tr.height() * viewRatio - tr.width())
rangeY = [self.state['targetRange'][1][0] - dy, self.state['targetRange'][1][1] + dy]
rangeX = [self.state['targetRange'][0][0] - dx, self.state['targetRange'][0][1] + dx]
canidateRange = [rangeX, rangeY]
# Decide which range to try to keep unchanged
#print self.name, "aspect:", aspect, "changed:", changed, "auto:", self.state['autoRange']
if forceX:
ax = 0
elif forceY:
ax = 1
else:
delta = 0
# if we are not required to keep a particular axis unchanged,
# then try to make the entire target range visible
ax = 0 if targetRatio > viewRatio else 1
target = 0 if ax == 1 else 1
# See if this choice would cause out-of-range issues
if maxRng is not None or minRng is not None:
diff = canidateRange[target][1] - canidateRange[target][0]
if maxRng[target] is not None and diff > maxRng[target] or \
minRng[target] is not None and diff < minRng[target]:
# tweak the target range down so we can still pan properly
self.state['targetRange'][ax] = canidateRange[ax]
ax = target # Switch the "fixed" axes
viewRange[axis][0] -= delta/2.
viewRange[axis][1] += delta/2.
if ax == 0:
## view range needs to be taller than target
if dy != 0:
changed[1] = True
viewRange[1] = rangeY
else:
## view range needs to be wider than target
if dx != 0:
changed[0] = True
viewRange[0] = rangeX
#print "after applying min/max:", viewRange[axis]
# Apply xLimits, yLimits
mn, mx = limits[axis]
if mn is not None and viewRange[axis][0] < mn:
delta = mn - viewRange[axis][0]
viewRange[axis][0] += delta
viewRange[axis][1] += delta
changed[axis] = True
elif mx is not None and viewRange[axis][1] > mx:
delta = mx - viewRange[axis][1]
viewRange[axis][0] += delta
viewRange[axis][1] += delta
changed[axis] = True
#print "after applying edge limits:", viewRange[axis]
changed = [(viewRange[i][0] != self.state['viewRange'][i][0]) or (viewRange[i][1] != self.state['viewRange'][i][1]) for i in (0,1)]
self.state['viewRange'] = viewRange
@ -1605,13 +1623,13 @@ class ViewBox(GraphicsWidget):
self.window()
except RuntimeError: ## this view has already been deleted; it will probably be collected shortly.
return
def view_key(view):
return (view.window() is self.window(), view.name)
## make a sorted list of all named views
nv = sorted(ViewBox.NamedViews.values(), key=view_key)
if self in nv:
nv.remove(self)

View File

@ -0,0 +1,200 @@
# -*- coding: utf-8 -*-
import pyqtgraph as pg
import pytest
app = pg.mkQApp()
def test_zoom_normal():
vb = pg.ViewBox()
testRange = pg.QtCore.QRect(0, 0, 10, 20)
vb.setRange(testRange, padding=0)
vbViewRange = vb.getState()['viewRange']
assert vbViewRange == [[testRange.left(), testRange.right()],
[testRange.top(), testRange.bottom()]]
def test_zoom_limit():
"""Test zooming with X and Y limits set"""
vb = pg.ViewBox()
vb.setLimits(xMin=0, xMax=10, yMin=0, yMax=10)
# Try zooming within limits. Should return unmodified
testRange = pg.QtCore.QRect(0, 0, 9, 9)
vb.setRange(testRange, padding=0)
vbViewRange = vb.getState()['viewRange']
assert vbViewRange == [[testRange.left(), testRange.right()],
[testRange.top(), testRange.bottom()]]
# And outside limits. both view range and targetRange should be set to limits
testRange = pg.QtCore.QRect(-5, -5, 16, 20)
vb.setRange(testRange, padding=0)
expected = [[0, 10], [0, 10]]
vbState = vb.getState()
assert vbState['targetRange'] == expected
assert vbState['viewRange'] == expected
def test_zoom_range_limit():
"""Test zooming with XRange and YRange limits set, but no X and Y limits"""
vb = pg.ViewBox()
vb.setLimits(minXRange=5, maxXRange=10, minYRange=5, maxYRange=10)
# Try something within limits
testRange = pg.QtCore.QRect(-15, -15, 7, 7)
vb.setRange(testRange, padding=0)
expected = [[testRange.left(), testRange.right()],
[testRange.top(), testRange.bottom()]]
vbViewRange = vb.getState()['viewRange']
assert vbViewRange == expected
# and outside limits
testRange = pg.QtCore.QRect(-15, -15, 17, 17)
# Code should center the required width reduction, so move each side by 3
expected = [[testRange.left() + 3, testRange.right() - 3],
[testRange.top() + 3, testRange.bottom() - 3]]
vb.setRange(testRange, padding=0)
vbViewRange = vb.getState()['viewRange']
vbTargetRange = vb.getState()['targetRange']
assert vbViewRange == expected
assert vbTargetRange == expected
def test_zoom_ratio():
"""Test zooming with a fixed aspect ratio set"""
vb = pg.ViewBox(lockAspect=1)
# Give the viewbox a size of the proper aspect ratio to keep things easy
vb.setFixedHeight(10)
vb.setFixedWidth(10)
# request a range with a good ratio
testRange = pg.QtCore.QRect(0, 0, 10, 10)
vb.setRange(testRange, padding=0)
expected = [[testRange.left(), testRange.right()],
[testRange.top(), testRange.bottom()]]
viewRange = vb.getState()['viewRange']
viewWidth = viewRange[0][1] - viewRange[0][0]
viewHeight = viewRange[1][1] - viewRange[1][0]
# Assert that the width and height are equal, since we locked the aspect ratio at 1
assert viewWidth == viewHeight
# and for good measure, that it is the same as the test range
assert viewRange == expected
# Now try to set to something with a different aspect ratio
testRange = pg.QtCore.QRect(0, 0, 10, 20)
vb.setRange(testRange, padding=0)
viewRange = vb.getState()['viewRange']
viewWidth = viewRange[0][1] - viewRange[0][0]
viewHeight = viewRange[1][1] - viewRange[1][0]
# Don't really care what we got here, as long as the width and height are the same
assert viewWidth == viewHeight
def test_zoom_ratio2():
"""Slightly more complicated zoom ratio test, where the view box shape does not match the ratio"""
vb = pg.ViewBox(lockAspect=1)
# twice as wide as tall
vb.setFixedHeight(10)
vb.setFixedWidth(20)
# more or less random requested range
testRange = pg.QtCore.QRect(0, 0, 10, 15)
vb.setRange(testRange, padding=0)
viewRange = vb.getState()['viewRange']
viewWidth = viewRange[0][1] - viewRange[0][0]
viewHeight = viewRange[1][1] - viewRange[1][0]
# View width should be twice as wide as the height,
# since the viewbox is twice as wide as it is tall.
assert viewWidth == 2 * viewHeight
def test_zoom_ratio_with_limits1():
"""Test zoom with both ratio and limits set"""
vb = pg.ViewBox(lockAspect=1)
# twice as wide as tall
vb.setFixedHeight(10)
vb.setFixedWidth(20)
# set some limits
vb.setLimits(xMin=-5, xMax=5, yMin=-5, yMax=5)
# Try to zoom too tall
testRange = pg.QtCore.QRect(0, 0, 6, 10)
vb.setRange(testRange, padding=0)
viewRange = vb.getState()['viewRange']
viewWidth = viewRange[0][1] - viewRange[0][0]
viewHeight = viewRange[1][1] - viewRange[1][0]
# Make sure our view is within limits and the proper aspect ratio
assert viewRange[0][0] >= -5
assert viewRange[0][1] <= 5
assert viewRange[1][0] >= -5
assert viewRange[1][1] <= 5
assert viewWidth == 2 * viewHeight
def test_zoom_ratio_with_limits2():
vb = pg.ViewBox(lockAspect=1)
# twice as wide as tall
vb.setFixedHeight(10)
vb.setFixedWidth(20)
# set some limits
vb.setLimits(xMin=-5, xMax=5, yMin=-5, yMax=5)
# Same thing, but out-of-range the other way
testRange = pg.QtCore.QRect(0, 0, 16, 6)
vb.setRange(testRange, padding=0)
viewRange = vb.getState()['viewRange']
viewWidth = viewRange[0][1] - viewRange[0][0]
viewHeight = viewRange[1][1] - viewRange[1][0]
# Make sure our view is within limits and the proper aspect ratio
assert viewRange[0][0] >= -5
assert viewRange[0][1] <= 5
assert viewRange[1][0] >= -5
assert viewRange[1][1] <= 5
assert viewWidth == 2 * viewHeight
def test_zoom_ratio_with_limits_out_of_range():
vb = pg.ViewBox(lockAspect=1)
# twice as wide as tall
vb.setFixedHeight(10)
vb.setFixedWidth(20)
# set some limits
vb.setLimits(xMin=-5, xMax=5, yMin=-5, yMax=5)
# Request something completely out-of-range and out-of-aspect
testRange = pg.QtCore.QRect(10, 10, 25, 100)
vb.setRange(testRange, padding=0)
viewRange = vb.getState()['viewRange']
viewWidth = viewRange[0][1] - viewRange[0][0]
viewHeight = viewRange[1][1] - viewRange[1][0]
# Make sure our view is within limits and the proper aspect ratio
assert viewRange[0][0] >= -5
assert viewRange[0][1] <= 5
assert viewRange[1][0] >= -5
assert viewRange[1][1] <= 5
assert viewWidth == 2 * viewHeight
if __name__ == "__main__":
setup_module(None)
test_zoom_ratio()