pyqtgraph/graphicsItems.py

2516 lines
86 KiB
Python

# -*- coding: utf-8 -*-
"""
graphicsItems.py - Defines several graphics item classes for use in Qt graphics/view framework
Copyright 2010 Luke Campagnola
Distributed under MIT/X11 license. See license.txt for more infomation.
Provides ImageItem, PlotCurveItem, and ViewBox, amongst others.
"""
from PyQt4 import QtGui, QtCore
if not hasattr(QtCore, 'Signal'):
QtCore.Signal = QtCore.pyqtSignal
from ObjectWorkaround import *
#tryWorkaround(QtCore, QtGui)
#from numpy import *
import numpy as np
try:
import scipy.weave as weave
from scipy.weave import converters
except:
pass
from scipy.fftpack import fft
from scipy.signal import resample
import scipy.stats
#from metaarray import MetaArray
from Point import *
from functions import *
import types, sys, struct
import weakref
#from debug import *
## Should probably just use QGraphicsGroupItem and instruct it to pass events on to children..
class ItemGroup(QtGui.QGraphicsItem):
def __init__(self, *args):
QtGui.QGraphicsItem.__init__(self, *args)
if hasattr(self, "ItemHasNoContents"):
self.setFlag(self.ItemHasNoContents)
def boundingRect(self):
return QtCore.QRectF()
def paint(self, *args):
pass
def addItem(self, item):
item.setParentItem(self)
#if hasattr(QtGui, "QGraphicsObject"):
#QGraphicsObject = QtGui.QGraphicsObject
#else:
#class QObjectWorkaround:
#def __init__(self):
#self._qObj_ = QtCore.QObject()
#def connect(self, *args):
#return QtCore.QObject.connect(self._qObj_, *args)
#def disconnect(self, *args):
#return QtCore.QObject.disconnect(self._qObj_, *args)
#def emit(self, *args):
#return QtCore.QObject.emit(self._qObj_, *args)
#class QGraphicsObject(QtGui.QGraphicsItem, QObjectWorkaround):
#def __init__(self, *args):
#QtGui.QGraphicsItem.__init__(self, *args)
#QObjectWorkaround.__init__(self)
class GraphicsObject(QGraphicsObject):
"""Extends QGraphicsObject with a few important functions.
(Most of these assume that the object is in a scene with a single view)"""
def __init__(self, *args):
QGraphicsObject.__init__(self, *args)
self._view = None
def getViewWidget(self):
"""Return the view widget for this item. If the scene has multiple views, only the first view is returned.
the view is remembered for the lifetime of the object, so expect trouble if the object is moved to another view."""
if self._view is None:
scene = self.scene()
if scene is None:
return None
views = scene.views()
if len(views) < 1:
return None
self._view = weakref.ref(self.scene().views()[0])
return self._view()
def getBoundingParents(self):
"""Return a list of parents to this item that have child clipping enabled."""
p = self
parents = []
while True:
p = p.parentItem()
if p is None:
break
if p.flags() & self.ItemClipsChildrenToShape:
parents.append(p)
return parents
def viewBounds(self):
"""Return the allowed visible boundaries for this item. Takes into account the viewport as well as any parents that clip."""
bounds = QtCore.QRectF(0, 0, 1, 1)
view = self.getViewWidget()
if view is None:
return None
bounds = self.mapRectFromScene(view.visibleRange())
for p in self.getBoundingParents():
bounds &= self.mapRectFromScene(p.sceneBoundingRect())
return bounds
def viewTransform(self):
"""Return the transform that maps from local coordinates to the item's view coordinates"""
view = self.getViewWidget()
if view is None:
return None
return self.deviceTransform(view.viewportTransform())
def pixelVectors(self):
"""Return vectors in local coordinates representing the width and height of a view pixel."""
vt = self.viewTransform()
if vt is None:
return None
vt = vt.inverted()[0]
orig = vt.map(QtCore.QPointF(0, 0))
return vt.map(QtCore.QPointF(1, 0))-orig, vt.map(QtCore.QPointF(0, 1))-orig
def pixelWidth(self):
vt = self.viewTransform()
if vt is None:
return 0
vt = vt.inverted()[0]
return abs((vt.map(QtCore.QPointF(1, 0))-vt.map(QtCore.QPointF(0, 0))).x())
def pixelHeight(self):
vt = self.viewTransform()
if vt is None:
return 0
vt = vt.inverted()[0]
return abs((vt.map(QtCore.QPointF(0, 1))-vt.map(QtCore.QPointF(0, 0))).y())
def mapToView(self, obj):
vt = self.viewTransform()
if vt is None:
return None
return vt.map(obj)
def mapRectToView(self, obj):
vt = self.viewTransform()
if vt is None:
return None
return vt.mapRect(obj)
def mapFromView(self, obj):
vt = self.viewTransform()
if vt is None:
return None
vt = vt.inverted()[0]
return vt.map(obj)
def mapRectFromView(self, obj):
vt = self.viewTransform()
if vt is None:
return None
vt = vt.inverted()[0]
return vt.mapRect(obj)
class ImageItem(QtGui.QGraphicsPixmapItem, QObjectWorkaround):
if 'linux' not in sys.platform: ## disable weave optimization on linux--broken there.
useWeave = True
else:
useWeave = False
def __init__(self, image=None, copy=True, parent=None, border=None, *args):
QObjectWorkaround.__init__(self)
self.qimage = QtGui.QImage()
self.pixmap = None
#self.useWeave = True
self.blackLevel = None
self.whiteLevel = None
self.alpha = 1.0
self.image = None
self.clipLevel = None
self.drawKernel = None
if border is not None:
border = mkPen(border)
self.border = border
QtGui.QGraphicsPixmapItem.__init__(self, parent, *args)
#self.pixmapItem = QtGui.QGraphicsPixmapItem(self)
if image is not None:
self.updateImage(image, copy, autoRange=True)
#self.setCacheMode(QtGui.QGraphicsItem.DeviceCoordinateCache)
def setAlpha(self, alpha):
self.alpha = alpha
self.updateImage()
#def boundingRect(self):
#return self.pixmapItem.boundingRect()
#return QtCore.QRectF(0, 0, self.qimage.width(), self.qimage.height())
def width(self):
if self.pixmap is None:
return None
return self.pixmap.width()
def height(self):
if self.pixmap is None:
return None
return self.pixmap.height()
def setClipLevel(self, level=None):
self.clipLevel = level
#def paint(self, p, opt, widget):
#pass
#if self.pixmap is not None:
#p.drawPixmap(0, 0, self.pixmap)
#print "paint"
def setLevels(self, white=None, black=None):
if white is not None:
self.whiteLevel = white
if black is not None:
self.blackLevel = black
self.updateImage()
def getLevels(self):
return self.whiteLevel, self.blackLevel
def updateImage(self, image=None, copy=True, autoRange=False, clipMask=None, white=None, black=None):
axh = {'x': 0, 'y': 1, 'c': 2}
#print "Update image", black, white
if white is not None:
self.whiteLevel = white
if black is not None:
self.blackLevel = black
gotNewData = False
if image is None:
if self.image is None:
return
else:
gotNewData = True
if copy:
self.image = image.view(np.ndarray).copy()
else:
self.image = image.view(np.ndarray)
#print " image max:", self.image.max(), "min:", self.image.min()
# Determine scale factors
if autoRange or self.blackLevel is None:
self.blackLevel = self.image.min()
self.whiteLevel = self.image.max()
#print "Image item using", self.blackLevel, self.whiteLevel
if self.blackLevel != self.whiteLevel:
scale = 255. / (self.whiteLevel - self.blackLevel)
else:
scale = 0.
## Recolor and convert to 8 bit per channel
# Try using weave, then fall back to python
shape = self.image.shape
black = float(self.blackLevel)
try:
if not ImageItem.useWeave:
raise Exception('Skipping weave compile')
sim = np.ascontiguousarray(self.image)
sim.shape = sim.size
im = np.empty(sim.shape, dtype=np.ubyte)
n = im.size
code = """
for( int i=0; i<n; i++ ) {
float a = (sim(i)-black) * (float)scale;
if( a > 255.0 )
a = 255.0;
else if( a < 0.0 )
a = 0.0;
im(i) = a;
}
"""
weave.inline(code, ['sim', 'im', 'n', 'black', 'scale'], type_converters=converters.blitz, compiler = 'gcc')
sim.shape = shape
im.shape = shape
except:
if ImageItem.useWeave:
ImageItem.useWeave = False
#sys.excepthook(*sys.exc_info())
#print "=============================================================================="
print "Weave compile failed, falling back to slower version."
self.image.shape = shape
im = ((self.image - black) * scale).clip(0.,255.).astype(np.ubyte)
try:
im1 = np.empty((im.shape[axh['y']], im.shape[axh['x']], 4), dtype=np.ubyte)
except:
print im.shape, axh
raise
alpha = np.clip(int(255 * self.alpha), 0, 255)
# Fill image
if im.ndim == 2:
im2 = im.transpose(axh['y'], axh['x'])
im1[..., 0] = im2
im1[..., 1] = im2
im1[..., 2] = im2
im1[..., 3] = alpha
elif im.ndim == 3: #color image
im2 = im.transpose(axh['y'], axh['x'], axh['c'])
for i in range(0, im.shape[axh['c']]):
im1[..., i] = im2[..., i]
for i in range(im.shape[axh['c']], 3):
im1[..., i] = 0
if im.shape[axh['c']] < 4:
im1[..., 3] = alpha
else:
raise Exception("Image must be 2 or 3 dimensions")
#self.im1 = im1
# Display image
if self.clipLevel is not None or clipMask is not None:
if clipMask is not None:
mask = clipMask.transpose()
else:
mask = (self.image < self.clipLevel).transpose()
im1[..., 0][mask] *= 0.5
im1[..., 1][mask] *= 0.5
im1[..., 2][mask] = 255
#print "Final image:", im1.dtype, im1.min(), im1.max(), im1.shape
self.ims = im1.tostring() ## Must be held in memory here because qImage won't do it for us :(
qimage = QtGui.QImage(self.ims, im1.shape[1], im1.shape[0], QtGui.QImage.Format_ARGB32)
self.pixmap = QtGui.QPixmap.fromImage(qimage)
##del self.ims
self.setPixmap(self.pixmap)
self.update()
if gotNewData:
self.emit(QtCore.SIGNAL('imageChanged'))
def getPixmap(self):
return self.pixmap.copy()
def getHistogram(self, bins=500, step=3):
"""returns an x and y arrays containing the histogram values for the current image.
The step argument causes pixels to be skipped when computing the histogram to save time."""
stepData = self.image[::step, ::step]
hist = np.histogram(stepData, bins=bins)
return hist[1][:-1], hist[0]
def mousePressEvent(self, ev):
if self.drawKernel is not None and ev.button() == QtCore.Qt.LeftButton:
self.drawAt(ev.pos())
ev.accept()
else:
ev.ignore()
def mouseMoveEvent(self, ev):
#print "mouse move", ev.pos()
if self.drawKernel is not None:
self.drawAt(ev.pos())
def mouseReleaseEvent(self, ev):
pass
def drawAt(self, pos):
self.image[int(pos.x()), int(pos.y())] += 1
self.updateImage()
def setDrawKernel(self, kernel=None):
self.drawKernel = kernel
def paint(self, p, *args):
#QtGui.QGraphicsPixmapItem.paint(self, p, *args)
if self.pixmap is None:
return
p.drawPixmap(self.boundingRect(), self.pixmap, QtCore.QRectF(0, 0, self.pixmap.width(), self.pixmap.height()))
if self.border is not None:
p.setPen(self.border)
p.drawRect(self.boundingRect())
class PlotCurveItem(GraphicsObject):
"""Class representing a single plot curve."""
sigClicked = QtCore.Signal(object)
def __init__(self, y=None, x=None, copy=False, pen=None, shadow=None, parent=None, color=None, clickable=False):
GraphicsObject.__init__(self, parent)
#GraphicsWidget.__init__(self, parent)
self.free()
#self.dispPath = None
if pen is None:
if color is None:
self.setPen((200,200,200))
else:
self.setPen(color)
else:
self.setPen(pen)
self.shadow = shadow
if y is not None:
self.updateData(y, x, copy)
#self.setCacheMode(QtGui.QGraphicsItem.DeviceCoordinateCache)
self.metaData = {}
self.opts = {
'spectrumMode': False,
'logMode': [False, False],
'pointMode': False,
'pointStyle': None,
'downsample': False,
'alphaHint': 1.0,
'alphaMode': False
}
self.setClickable(clickable)
#self.fps = None
def setClickable(self, s):
self.clickable = s
def getData(self):
if self.xData is None:
return (None, None)
if self.xDisp is None:
nanMask = np.isnan(self.xData) | np.isnan(self.yData)
if any(nanMask):
x = self.xData[~nanMask]
y = self.yData[~nanMask]
else:
x = self.xData
y = self.yData
ds = self.opts['downsample']
if ds > 1:
x = x[::ds]
y = resample(y[:len(x)*ds], len(x))
if self.opts['spectrumMode']:
f = fft(y) / len(y)
y = abs(f[1:len(f)/2])
dt = x[-1] - x[0]
x = np.linspace(0, 0.5*len(x)/dt, len(y))
if self.opts['logMode'][0]:
x = np.log10(x)
if self.opts['logMode'][1]:
y = np.log10(y)
self.xDisp = x
self.yDisp = y
#print self.yDisp.shape, self.yDisp.min(), self.yDisp.max()
#print self.xDisp.shape, self.xDisp.min(), self.xDisp.max()
return self.xDisp, self.yDisp
#def generateSpecData(self):
#f = fft(self.yData) / len(self.yData)
#self.ySpec = abs(f[1:len(f)/2])
#dt = self.xData[-1] - self.xData[0]
#self.xSpec = linspace(0, 0.5*len(self.xData)/dt, len(self.ySpec))
def getRange(self, ax, frac=1.0):
#print "getRange", ax, frac
(x, y) = self.getData()
if x is None or len(x) == 0:
return (0, 1)
if ax == 0:
d = x
elif ax == 1:
d = y
if frac >= 1.0:
return (d.min(), d.max())
elif frac <= 0.0:
raise Exception("Value for parameter 'frac' must be > 0. (got %s)" % str(frac))
else:
return (scipy.stats.scoreatpercentile(d, 50 - (frac * 50)), scipy.stats.scoreatpercentile(d, 50 + (frac * 50)))
#bins = 1000
#h = histogram(d, bins)
#s = len(d) * (1.0-frac)
#mnTot = mxTot = 0
#mnInd = mxInd = 0
#for i in range(bins):
#mnTot += h[0][i]
#if mnTot > s:
#mnInd = i
#break
#for i in range(bins):
#mxTot += h[0][-i-1]
#if mxTot > s:
#mxInd = -i-1
#break
##print mnInd, mxInd, h[1][mnInd], h[1][mxInd]
#return(h[1][mnInd], h[1][mxInd])
def setMeta(self, data):
self.metaData = data
def meta(self):
return self.metaData
def setPen(self, pen):
self.pen = mkPen(pen)
self.update()
def setColor(self, color):
self.pen.setColor(color)
self.update()
def setAlpha(self, alpha, auto):
self.opts['alphaHint'] = alpha
self.opts['alphaMode'] = auto
self.update()
def setSpectrumMode(self, mode):
self.opts['spectrumMode'] = mode
self.xDisp = self.yDisp = None
self.path = None
self.update()
def setLogMode(self, mode):
self.opts['logMode'] = mode
self.xDisp = self.yDisp = None
self.path = None
self.update()
def setPointMode(self, mode):
self.opts['pointMode'] = mode
self.update()
def setShadowPen(self, pen):
self.shadow = pen
self.update()
def setDownsampling(self, ds):
if self.opts['downsample'] != ds:
self.opts['downsample'] = ds
self.xDisp = self.yDisp = None
self.path = None
self.update()
def setData(self, x, y, copy=False):
"""For Qwt compatibility"""
self.updateData(y, x, copy)
def updateData(self, data, x=None, copy=False):
if isinstance(data, list):
data = np.array(data)
if isinstance(x, list):
x = np.array(x)
if not isinstance(data, np.ndarray) or data.ndim > 2:
raise Exception("Plot data must be 1 or 2D ndarray (data shape is %s)" % str(data.shape))
if x == None:
if 'complex' in str(data.dtype):
raise Exception("Can not plot complex data types.")
else:
if 'complex' in str(data.dtype)+str(x.dtype):
raise Exception("Can not plot complex data types.")
if data.ndim == 2: ### If data is 2D array, then assume x and y values are in first two columns or rows.
if x is not None:
raise Exception("Plot data may be 2D only if no x argument is supplied.")
ax = 0
if data.shape[0] > 2 and data.shape[1] == 2:
ax = 1
ind = [slice(None), slice(None)]
ind[ax] = 0
y = data[tuple(ind)]
ind[ax] = 1
x = data[tuple(ind)]
elif data.ndim == 1:
y = data
self.prepareGeometryChange()
if copy:
self.yData = y.copy()
else:
self.yData = y
if copy and x is not None:
self.xData = x.copy()
else:
self.xData = x
if x is None:
self.xData = np.arange(0, self.yData.shape[0])
if self.xData.shape != self.yData.shape:
raise Exception("X and Y arrays must be the same shape--got %s and %s." % (str(x.shape), str(y.shape)))
self.path = None
#self.specPath = None
self.xDisp = self.yDisp = None
self.update()
self.emit(QtCore.SIGNAL('plotChanged'), self)
def generatePath(self, x, y):
path = QtGui.QPainterPath()
## Create all vertices in path. The method used below creates a binary format so that all
## vertices can be read in at once. This binary format may change in future versions of Qt,
## so the original (slower) method is left here for emergencies:
#path.moveTo(x[0], y[0])
#for i in range(1, y.shape[0]):
# path.lineTo(x[i], y[i])
## Speed this up using >> operator
## Format is:
## numVerts(i4) 0(i4)
## x(f8) y(f8) 0(i4) <-- 0 means this vertex does not connect
## x(f8) y(f8) 1(i4) <-- 1 means this vertex connects to the previous vertex
## ...
## 0(i4)
##
## All values are big endian--pack using struct.pack('>d') or struct.pack('>i')
#
n = x.shape[0]
# create empty array, pad with extra space on either end
arr = np.empty(n+2, dtype=[('x', '>f8'), ('y', '>f8'), ('c', '>i4')])
# write first two integers
arr.data[12:20] = struct.pack('>ii', n, 0)
# Fill array with vertex values
arr[1:-1]['x'] = x
arr[1:-1]['y'] = y
arr[1:-1]['c'] = 1
# write last 0
lastInd = 20*(n+1)
arr.data[lastInd:lastInd+4] = struct.pack('>i', 0)
# create datastream object and stream into path
buf = QtCore.QByteArray(arr.data[12:lastInd+4]) # I think one unnecessary copy happens here
ds = QtCore.QDataStream(buf)
ds >> path
return path
def boundingRect(self):
(x, y) = self.getData()
if x is None or y is None or len(x) == 0 or len(y) == 0:
return QtCore.QRectF()
if self.shadow is not None:
lineWidth = (max(self.pen.width(), self.shadow.width()) + 1)
else:
lineWidth = (self.pen.width()+1)
pixels = self.pixelVectors()
xmin = x.min() - pixels[0].x() * lineWidth
xmax = x.max() + pixels[0].x() * lineWidth
ymin = y.min() - abs(pixels[1].y()) * lineWidth
ymax = y.max() + abs(pixels[1].y()) * lineWidth
return QtCore.QRectF(xmin, ymin, xmax-xmin, ymax-ymin)
def paint(self, p, opt, widget):
if self.xData is None:
return
#if self.opts['spectrumMode']:
#if self.specPath is None:
#self.specPath = self.generatePath(*self.getData())
#path = self.specPath
#else:
if self.path is None:
self.path = self.generatePath(*self.getData())
path = self.path
if self.shadow is not None:
sp = QtGui.QPen(self.shadow)
else:
sp = None
## Copy pens and apply alpha adjustment
cp = QtGui.QPen(self.pen)
for pen in [sp, cp]:
if pen is None:
continue
c = pen.color()
c.setAlpha(c.alpha() * self.opts['alphaHint'])
pen.setColor(c)
#pen.setCosmetic(True)
if self.shadow is not None:
p.setPen(sp)
p.drawPath(path)
p.setPen(cp)
p.drawPath(path)
#p.setPen(QtGui.QPen(QtGui.QColor(255,0,0)))
#p.drawRect(self.boundingRect())
def free(self):
self.xData = None ## raw values
self.yData = None
self.xDisp = None ## display values (after log / fft)
self.yDisp = None
self.path = None
#del self.xData, self.yData, self.xDisp, self.yDisp, self.path
def mousePressEvent(self, ev):
#GraphicsObject.mousePressEvent(self, ev)
if not self.clickable:
ev.ignore()
if ev.button() != QtCore.Qt.LeftButton:
ev.ignore()
self.mousePressPos = ev.pos()
self.mouseMoved = False
def mouseMoveEvent(self, ev):
#GraphicsObject.mouseMoveEvent(self, ev)
self.mouseMoved = True
print "move"
def mouseReleaseEvent(self, ev):
#GraphicsObject.mouseReleaseEvent(self, ev)
if not self.mouseMoved:
self.sigClicked.emit(self)
class CurvePoint(QtGui.QGraphicsItem, QObjectWorkaround):
"""A GraphicsItem that sets its location to a point on a PlotCurveItem.
The position along the curve is a property, and thus can be easily animated."""
def __init__(self, curve, index=0, pos=None):
"""Position can be set either as an index referring to the sample number or
the position 0.0 - 1.0"""
QtGui.QGraphicsItem.__init__(self)
QObjectWorkaround.__init__(self)
self.curve = None
self.setProperty('position', 0.0)
self.setProperty('index', 0)
if hasattr(self, 'ItemHasNoContents'):
self.setFlags(self.flags() | self.ItemHasNoContents)
self.curve = curve
self.setParentItem(curve)
if pos is not None:
self.setPos(pos)
else:
self.setIndex(index)
def setPos(self, pos):
self.setProperty('position', pos)
def setIndex(self, index):
self.setProperty('index', index)
def event(self, ev):
if not isinstance(ev, QtCore.QDynamicPropertyChangeEvent) or self.curve is None:
return
if ev.propertyName() == 'index':
index = self.property('index').toInt()[0]
elif ev.propertyName() == 'position':
index = None
else:
return
(x, y) = self.curve.getData()
if index is None:
#print self.property('position').toDouble()[0], self.property('position').typeName()
index = (len(x)-1) * clip(self.property('position').toDouble()[0], 0.0, 1.0)
if index != int(index):
i1 = int(index)
i2 = clip(i1+1, 0, len(x)-1)
s2 = index-i1
s1 = 1.0-s2
newPos = (x[i1]*s1+x[i2]*s2, y[i1]*s1+y[i2]*s2)
else:
index = int(index)
i1 = clip(index-1, 0, len(x)-1)
i2 = clip(index+1, 0, len(x)-1)
newPos = (x[index], y[index])
p1 = self.parentItem().mapToScene(QtCore.QPointF(x[i1], y[i1]))
p2 = self.parentItem().mapToScene(QtCore.QPointF(x[i2], y[i2]))
ang = np.arctan2(p2.y()-p1.y(), p2.x()-p1.x())
self.resetTransform()
self.rotate(180+ ang * 180 / np.pi)
QtGui.QGraphicsItem.setPos(self, *newPos)
def boundingRect(self):
return QtCore.QRectF()
def paint(self, *args):
pass
def makeAnimation(self, prop='position', start=0.0, end=1.0, duration=10000, loop=1):
anim = QtCore.QPropertyAnimation(self._qObj_, prop)
anim.setDuration(duration)
anim.setStartValue(start)
anim.setEndValue(end)
anim.setLoopCount(loop)
return anim
class ArrowItem(QtGui.QGraphicsPolygonItem):
def __init__(self, **opts):
QtGui.QGraphicsPolygonItem.__init__(self)
defOpts = {
'style': 'tri',
'pxMode': True,
'size': 20,
'angle': -150,
'pos': (0,0),
'width': 8,
'tipAngle': 25,
'baseAngle': 90,
'pen': (200,200,200),
'brush': (50,50,200),
}
defOpts.update(opts)
self.setStyle(**defOpts)
self.setPen(mkPen(defOpts['pen']))
self.setBrush(mkBrush(defOpts['brush']))
self.rotate(self.opts['angle'])
self.moveBy(*self.opts['pos'])
def setStyle(self, **opts):
self.opts = opts
if opts['style'] == 'tri':
points = [
QtCore.QPointF(0,0),
QtCore.QPointF(opts['size'],-opts['width']/2.),
QtCore.QPointF(opts['size'],opts['width']/2.),
]
poly = QtGui.QPolygonF(points)
else:
raise Exception("Unrecognized arrow style '%s'" % opts['style'])
self.setPolygon(poly)
if opts['pxMode']:
self.setFlags(self.flags() | self.ItemIgnoresTransformations)
else:
self.setFlags(self.flags() & ~self.ItemIgnoresTransformations)
def paint(self, p, *args):
p.setRenderHint(QtGui.QPainter.Antialiasing)
QtGui.QGraphicsPolygonItem.paint(self, p, *args)
class CurveArrow(CurvePoint):
"""Provides an arrow that points to any specific sample on a PlotCurveItem.
Provides properties that can be animated."""
def __init__(self, curve, index=0, pos=None, **opts):
CurvePoint.__init__(self, curve, index=index, pos=pos)
if opts.get('pxMode', True):
opts['pxMode'] = False
self.setFlags(self.flags() | self.ItemIgnoresTransformations)
opts['angle'] = 0
self.arrow = ArrowItem(**opts)
self.arrow.setParentItem(self)
def setStyle(**opts):
return self.arrow.setStyle(**opts)
class ScatterPlotItem(QtGui.QGraphicsWidget):
sigPointClicked = QtCore.Signal(object)
def __init__(self, spots=None, pxMode=True, pen=None, brush=None, size=5):
QtGui.QGraphicsWidget.__init__(self)
self.spots = []
self.range = [[0,0], [0,0]]
if brush is None:
brush = QtGui.QBrush(QtGui.QColor(100, 100, 150))
self.brush = brush
if pen is None:
pen = QtGui.QPen(QtGui.QColor(200, 200, 200))
self.pen = pen
self.size = size
self.pxMode = pxMode
if spots is not None:
self.setPoints(spots)
def setPxMode(self, mode):
self.pxMode = mode
def clear(self):
for i in self.spots:
i.setParentItem(None)
s = i.scene()
if s is not None:
s.removeItem(i)
self.spots = []
def getRange(self, ax, percent):
return self.range[ax]
def setPoints(self, spots):
self.clear()
self.range = [[0,0],[0,0]]
self.addPoints(spots)
def addPoints(self, spots):
xmn = ymn = xmx = ymx = None
for s in spots:
pos = Point(s['pos'])
size = s.get('size', self.size)
brush = s.get('brush', self.brush)
pen = s.get('pen', self.pen)
pen.setCosmetic(True)
data = s.get('data', None)
item = self.mkSpot(pos, size, self.pxMode, brush, pen, data)
self.spots.append(item)
if xmn is None:
xmn = pos[0]-size
xmx = pos[0]+size
ymn = pos[1]-size
ymx = pos[1]+size
else:
xmn = min(xmn, pos[0]-size)
xmx = max(xmx, pos[0]+size)
ymn = min(ymn, pos[1]-size)
ymx = max(ymx, pos[1]+size)
self.range = [[xmn, xmx], [ymn, ymx]]
def mkSpot(self, pos, size, pxMode, brush, pen, data):
item = SpotItem(size, pxMode, brush, pen, data)
item.setParentItem(self)
item.setPos(pos)
item.sigClicked.connect(self.pointClicked)
return item
def boundingRect(self):
((xmn, xmx), (ymn, ymx)) = self.range
return QtCore.QRectF(xmn, ymn, xmx-xmn, ymx-ymn)
def paint(self, p, *args):
pass
def pointClicked(self, point):
self.sigPointClicked.emit(point)
def points(self):
return self.spots[:]
class SpotItem(QtGui.QGraphicsWidget):
sigClicked = QtCore.Signal(object)
def __init__(self, size, pxMode, brush, pen, data):
QtGui.QGraphicsWidget.__init__(self)
if pxMode:
self.setFlags(self.flags() | self.ItemIgnoresTransformations)
#self.setCacheMode(self.DeviceCoordinateCache) ## causes crash on linux
self.pen = pen
self.brush = brush
self.path = QtGui.QPainterPath()
s2 = size/2.
self.path.addEllipse(QtCore.QRectF(-s2, -s2, size, size))
self.data = data
def setBrush(self, brush):
self.brush = mkBrush(brush)
self.update()
def setPen(self, pen):
self.pen = mkPen(pen)
self.update()
def boundingRect(self):
return self.path.boundingRect()
def shape(self):
return self.path
def paint(self, p, *opts):
p.setPen(self.pen)
p.setBrush(self.brush)
p.drawPath(self.path)
def mousePressEvent(self, ev):
QtGui.QGraphicsItem.mousePressEvent(self, ev)
if ev.button() == QtCore.Qt.LeftButton:
self.mouseMoved = False
ev.accept()
else:
ev.ignore()
def mouseMoveEvent(self, ev):
QtGui.QGraphicsItem.mouseMoveEvent(self, ev)
self.mouseMoved = True
pass
def mouseReleaseEvent(self, ev):
QtGui.QGraphicsItem.mouseReleaseEvent(self, ev)
if not self.mouseMoved:
self.sigClicked.emit(self)
class ROIPlotItem(PlotCurveItem):
def __init__(self, roi, data, img, axes=(0,1), xVals=None, color=None):
self.roi = roi
self.roiData = data
self.roiImg = img
self.axes = axes
self.xVals = xVals
PlotCurveItem.__init__(self, self.getRoiData(), x=self.xVals, color=color)
roi.connect(roi, QtCore.SIGNAL('regionChanged'), self.roiChangedEvent)
#self.roiChangedEvent()
def getRoiData(self):
d = self.roi.getArrayRegion(self.roiData, self.roiImg, axes=self.axes)
if d is None:
return
while d.ndim > 1:
d = d.mean(axis=1)
return d
def roiChangedEvent(self):
d = self.getRoiData()
self.updateData(d, self.xVals)
class UIGraphicsItem(GraphicsObject):
"""Base class for graphics items with boundaries relative to a GraphicsView widget"""
def __init__(self, view, bounds=None):
GraphicsObject.__init__(self)
self._view = weakref.ref(view)
if bounds is None:
self._bounds = QtCore.QRectF(0, 0, 1, 1)
else:
self._bounds = bounds
self._viewRect = self._view().rect()
self._viewTransform = self.viewTransform()
self.setNewBounds()
QtCore.QObject.connect(view, QtCore.SIGNAL('viewChanged'), self.viewChangedEvent)
def viewRect(self):
"""Return the viewport widget rect"""
return self._view().rect()
def viewTransform(self):
"""Returns a matrix that maps viewport coordinates onto scene coordinates"""
if self._view() is None:
return QtGui.QTransform()
else:
return self._view().viewportTransform()
def boundingRect(self):
if self._view() is None:
self.bounds = self._bounds
else:
vr = self._view().rect()
tr = self.viewTransform()
if vr != self._viewRect or tr != self._viewTransform:
#self.viewChangedEvent(vr, self._viewRect)
self._viewRect = vr
self._viewTransform = tr
self.setNewBounds()
#print "viewRect", self._viewRect.x(), self._viewRect.y(), self._viewRect.width(), self._viewRect.height()
#print "bounds", self.bounds.x(), self.bounds.y(), self.bounds.width(), self.bounds.height()
return self.bounds
def setNewBounds(self):
bounds = QtCore.QRectF(
QtCore.QPointF(self._bounds.left()*self._viewRect.width(), self._bounds.top()*self._viewRect.height()),
QtCore.QPointF(self._bounds.right()*self._viewRect.width(), self._bounds.bottom()*self._viewRect.height())
)
bounds.adjust(0.5, 0.5, 0.5, 0.5)
self.bounds = self.viewTransform().inverted()[0].mapRect(bounds)
self.prepareGeometryChange()
def viewChangedEvent(self):
"""Called when the view widget is resized"""
self.boundingRect()
self.update()
def unitRect(self):
return self.viewTransform().inverted()[0].mapRect(QtCore.QRectF(0, 0, 1, 1))
def paint(self, *args):
pass
class LabelItem(QtGui.QGraphicsWidget):
def __init__(self, text, parent=None, **args):
QtGui.QGraphicsWidget.__init__(self, parent)
self.item = QtGui.QGraphicsTextItem(self)
self.opts = args
if 'color' not in args:
self.opts['color'] = 'CCC'
else:
if isinstance(args['color'], QtGui.QColor):
self.opts['color'] = colorStr(args['color'])[:6]
self.sizeHint = {}
self.setText(text)
def setAttr(self, attr, value):
"""Set default text properties. See setText() for accepted parameters."""
self.opts[attr] = value
def setText(self, text, **args):
"""Set the text and text properties in the label. Accepts optional arguments for auto-generating
a CSS style string:
color: string (example: 'CCFF00')
size: string (example: '8pt')
bold: boolean
italic: boolean
"""
self.text = text
opts = self.opts.copy()
for k in args:
opts[k] = args[k]
optlist = []
if 'color' in opts:
optlist.append('color: #' + opts['color'])
if 'size' in opts:
optlist.append('font-size: ' + opts['size'])
if 'bold' in opts and opts['bold'] in [True, False]:
optlist.append('font-weight: ' + {True:'bold', False:'normal'}[opts['bold']])
if 'italic' in opts and opts['italic'] in [True, False]:
optlist.append('font-style: ' + {True:'italic', False:'normal'}[opts['italic']])
full = "<span style='%s'>%s</span>" % ('; '.join(optlist), text)
#print full
self.item.setHtml(full)
self.updateMin()
def resizeEvent(self, ev):
c1 = self.boundingRect().center()
c2 = self.item.mapToParent(self.item.boundingRect().center()) # + self.item.pos()
dif = c1 - c2
self.item.moveBy(dif.x(), dif.y())
#print c1, c2, dif, self.item.pos()
def setAngle(self, angle):
self.angle = angle
self.item.resetMatrix()
self.item.rotate(angle)
self.updateMin()
def updateMin(self):
bounds = self.item.mapRectToParent(self.item.boundingRect())
self.setMinimumWidth(bounds.width())
self.setMinimumHeight(bounds.height())
#print self.text, bounds.width(), bounds.height()
#self.sizeHint = {
#QtCore.Qt.MinimumSize: (bounds.width(), bounds.height()),
#QtCore.Qt.PreferredSize: (bounds.width(), bounds.height()),
#QtCore.Qt.MaximumSize: (bounds.width()*2, bounds.height()*2),
#QtCore.Qt.MinimumDescent: (0, 0) ##?? what is this?
#}
#def sizeHint(self, hint, constraint):
#return self.sizeHint[hint]
class ScaleItem(QtGui.QGraphicsWidget):
def __init__(self, orientation, pen=None, linkView=None, parent=None):
"""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 make a grid."""
QtGui.QGraphicsWidget.__init__(self, parent)
self.label = QtGui.QGraphicsTextItem(self)
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.setMinimumWidth(25)
#self.setSizePolicy(QtGui.QSizePolicy(
#QtGui.QSizePolicy.Minimum,
#QtGui.QSizePolicy.Expanding
#))
self.label.rotate(-90)
#else:
#self.setMinimumHeight(50)
#self.setSizePolicy(QtGui.QSizePolicy(
#QtGui.QSizePolicy.Expanding,
#QtGui.QSizePolicy.Minimum
#))
#self.drawLabel = False
self.labelText = ''
self.labelUnits = ''
self.labelUnitPrefix=''
self.labelStyle = {'color': '#CCC'}
self.textHeight = 18
self.tickLength = 10
self.scale = 1.0
self.autoScale = True
self.setRange(0, 1)
if pen is None:
pen = QtGui.QPen(QtGui.QColor(100, 100, 100))
self.setPen(pen)
self.linkedView = None
if linkView is not None:
self.linkToView(linkView)
self.showLabel(False)
self.grid = False
def setGrid(self, grid):
"""Set the alpha value for the grid, or False to disable."""
self.grid = grid
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)
#s.setWidth(10)
elif self.orientation == 'right':
#s.setWidth(10)
p.setY(int(self.size().height()/2 + br.width()/2))
p.setX(int(self.size().width()-br.height()+nudge))
elif self.orientation == 'top':
#s.setHeight(10)
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.))
#s.setHeight(10)
p.setY(int(self.size().height()-br.height()+nudge))
#self.label.resize(s)
self.label.setPos(p)
def showLabel(self, show=True):
#self.drawLabel = show
self.label.setVisible(show)
if self.orientation in ['left', 'right']:
self.setWidth()
else:
self.setHeight()
if self.autoScale:
self.setScale()
def setLabel(self, text=None, units=None, unitPrefix=None, **args):
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.resizeEvent()
self.update()
def labelString(self):
if self.labelUnits == '':
if self.scale == 1.0:
units = ''
else:
units = u'(x%g)' % (1.0/self.scale)
else:
#print repr(self.labelUnitPrefix), repr(self.labelUnits)
units = u'(%s%s)' % (self.labelUnitPrefix, self.labelUnits)
s = u'%s %s' % (self.labelText, units)
style = ';'.join(['%s: "%s"' % (k, self.labelStyle[k]) for k in self.labelStyle])
return u"<span style='%s'>%s</span>" % (style, s)
def setHeight(self, h=None):
if h is None:
h = self.textHeight + self.tickLength
if self.label.isVisible():
h += self.textHeight
self.setMaximumHeight(h)
self.setMinimumHeight(h)
def setWidth(self, w=None):
if w is None:
w = self.tickLength + 40
if self.label.isVisible():
w += self.textHeight
self.setMaximumWidth(w)
self.setMinimumWidth(w)
def setPen(self, pen):
self.pen = pen
self.update()
def setScale(self, scale=None):
if scale is None:
#if self.drawLabel: ## If there is a label, then we are free to rescale the values
if self.label.isVisible():
d = self.range[1] - self.range[0]
#pl = 1-int(log10(d))
#scale = 10 ** pl
(scale, prefix) = siScale(d / 2.)
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
if scale != self.scale:
self.scale = scale
self.setLabel()
self.update()
def setRange(self, mn, mx):
if mn in [np.nan, np.inf, -np.inf] or mx in [np.nan, np.inf, -np.inf]:
raise Exception("Not setting range to [%s, %s]" % (str(mn), str(mx)))
self.range = [mn, mx]
if self.autoScale:
self.setScale()
self.update()
def linkToView(self, view):
if self.orientation in ['right', 'left']:
signal = QtCore.SIGNAL('yRangeChanged')
else:
signal = QtCore.SIGNAL('xRangeChanged')
if self.linkedView is not None:
QtCore.QObject.disconnect(view, signal, self.linkedViewChanged)
self.linkedView = view
QtCore.QObject.connect(view, signal, self.linkedViewChanged)
def linkedViewChanged(self, _, newRange):
self.setRange(*newRange)
def boundingRect(self):
if self.linkedView is None or self.grid is False:
return self.mapRectFromParent(self.geometry())
else:
return self.mapRectFromParent(self.geometry()) | self.mapRectFromScene(self.linkedView.mapRectToScene(self.linkedView.boundingRect()))
def paint(self, p, opt, widget):
p.setPen(self.pen)
#bounds = self.boundingRect()
bounds = self.mapRectFromParent(self.geometry())
if self.linkedView is None or self.grid is False:
tbounds = bounds
else:
tbounds = self.mapRectFromScene(self.linkedView.mapRectToScene(self.linkedView.boundingRect()))
if self.orientation == 'left':
p.drawLine(bounds.topRight(), bounds.bottomRight())
tickStart = tbounds.right()
tickStop = bounds.right()
tickDir = -1
axis = 0
elif self.orientation == 'right':
p.drawLine(bounds.topLeft(), bounds.bottomLeft())
tickStart = tbounds.left()
tickStop = bounds.left()
tickDir = 1
axis = 0
elif self.orientation == 'top':
p.drawLine(bounds.bottomLeft(), bounds.bottomRight())
tickStart = tbounds.bottom()
tickStop = bounds.bottom()
tickDir = -1
axis = 1
elif self.orientation == 'bottom':
p.drawLine(bounds.topLeft(), bounds.topRight())
tickStart = tbounds.top()
tickStop = bounds.top()
tickDir = 1
axis = 1
## Determine optimal tick spacing
#intervals = [1., 2., 5., 10., 20., 50.]
#intervals = [1., 2.5, 5., 10., 25., 50.]
intervals = [1., 2., 10., 20., 100.]
dif = abs(self.range[1] - self.range[0])
if dif == 0.0:
return
#print "dif:", dif
pw = 10 ** (np.floor(np.log10(dif))-1)
for i in range(len(intervals)):
i1 = i
if dif / (pw*intervals[i]) < 10:
break
textLevel = i1 ## draw text at this scale level
#print "range: %s dif: %f power: %f interval: %f spacing: %f" % (str(self.range), dif, pw, intervals[i1], sp)
#print " start at %f, %d ticks" % (start, num)
if axis == 0:
xs = -bounds.height() / dif
else:
xs = bounds.width() / dif
tickPositions = set() # remembers positions of previously drawn ticks
## draw ticks and text
## draw three different intervals, long ticks first
for i in reversed([i1, i1+1, i1+2]):
if i > len(intervals):
continue
## spacing for this interval
sp = pw*intervals[i]
## determine starting tick
start = np.ceil(self.range[0] / sp) * sp
## determine number of ticks
num = int(dif / sp) + 1
## last tick value
last = start + sp * num
## Number of decimal places to print
maxVal = max(abs(start), abs(last))
places = max(0, 1-int(np.log10(sp*self.scale)))
## length of tick
h = min(self.tickLength, (self.tickLength*3 / num) - 1.)
## alpha
a = min(255, (765. / num) - 1.)
if axis == 0:
offset = self.range[0] * xs - bounds.height()
else:
offset = self.range[0] * xs
for j in range(num):
v = start + sp * j
x = (v * xs) - offset
p1 = [0, 0]
p2 = [0, 0]
p1[axis] = tickStart
p2[axis] = tickStop + h*tickDir
p1[1-axis] = p2[1-axis] = x
if p1[1-axis] > [bounds.width(), bounds.height()][1-axis]:
continue
if p1[1-axis] < 0:
continue
p.setPen(QtGui.QPen(QtGui.QColor(100, 100, 100, a)))
# draw tick only if there is none
tickPos = p1[1-axis]
if tickPos not in tickPositions:
p.drawLine(Point(p1), Point(p2))
tickPositions.add(tickPos)
if i == textLevel:
if abs(v) < .001 or abs(v) >= 10000:
vstr = "%g" % (v * self.scale)
else:
vstr = ("%%0.%df" % places) % (v * self.scale)
textRect = p.boundingRect(QtCore.QRectF(0, 0, 100, 100), QtCore.Qt.AlignCenter, vstr)
height = textRect.height()
self.textHeight = height
if self.orientation == 'left':
textFlags = QtCore.Qt.AlignRight|QtCore.Qt.AlignVCenter
rect = QtCore.QRectF(tickStop-100, x-(height/2), 100-self.tickLength, height)
elif self.orientation == 'right':
textFlags = QtCore.Qt.AlignLeft|QtCore.Qt.AlignVCenter
rect = QtCore.QRectF(tickStop+self.tickLength, x-(height/2), 100-self.tickLength, height)
elif self.orientation == 'top':
textFlags = QtCore.Qt.AlignCenter|QtCore.Qt.AlignBottom
rect = QtCore.QRectF(x-100, tickStop-self.tickLength-height, 200, height)
elif self.orientation == 'bottom':
textFlags = QtCore.Qt.AlignCenter|QtCore.Qt.AlignTop
rect = QtCore.QRectF(x-100, tickStop+self.tickLength, 200, height)
p.setPen(QtGui.QPen(QtGui.QColor(100, 100, 100)))
p.drawText(rect, textFlags, vstr)
#p.drawRect(rect)
## Draw label
#if self.drawLabel:
#height = self.size().height()
#width = self.size().width()
#if self.orientation == 'left':
#p.translate(0, height)
#p.rotate(-90)
#rect = QtCore.QRectF(0, 0, height, self.textHeight)
#textFlags = QtCore.Qt.AlignCenter|QtCore.Qt.AlignTop
#elif self.orientation == 'right':
#p.rotate(10)
#rect = QtCore.QRectF(0, 0, height, width)
#textFlags = QtCore.Qt.AlignCenter|QtCore.Qt.AlignBottom
##rect = QtCore.QRectF(tickStart+self.tickLength, x-(height/2), 100-self.tickLength, height)
#elif self.orientation == 'top':
#rect = QtCore.QRectF(0, 0, width, height)
#textFlags = QtCore.Qt.AlignCenter|QtCore.Qt.AlignTop
##rect = QtCore.QRectF(x-100, tickStart-self.tickLength-height, 200, height)
#elif self.orientation == 'bottom':
#rect = QtCore.QRectF(0, 0, width, height)
#textFlags = QtCore.Qt.AlignCenter|QtCore.Qt.AlignBottom
##rect = QtCore.QRectF(x-100, tickStart+self.tickLength, 200, height)
#p.drawText(rect, textFlags, self.labelString())
##p.drawRect(rect)
def show(self):
if self.orientation in ['left', 'right']:
self.setWidth()
else:
self.setHeight()
QtGui.QGraphicsWidget.show(self)
def hide(self):
if self.orientation in ['left', 'right']:
self.setWidth(0)
else:
self.setHeight(0)
QtGui.QGraphicsWidget.hide(self)
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()
class ViewBox(QtGui.QGraphicsWidget):
"""Box that allows internal scaling/panning of children by mouse drag. Not compatible with GraphicsView having the same functionality."""
def __init__(self, parent=None):
QtGui.QGraphicsWidget.__init__(self, parent)
#self.gView = view
#self.showGrid = showGrid
self.range = [[0,1], [0,1]] ## child coord. range visible [[xmin, xmax], [ymin, ymax]]
self.aspectLocked = False
self.setFlag(QtGui.QGraphicsItem.ItemClipsChildrenToShape)
#self.setFlag(QtGui.QGraphicsItem.ItemClipsToShape)
#self.childGroup = QtGui.QGraphicsItemGroup(self)
self.childGroup = ItemGroup(self)
self.currentScale = Point(1, 1)
self.yInverted = False
#self.invertY()
self.setZValue(-100)
#self.picture = None
self.setSizePolicy(QtGui.QSizePolicy(QtGui.QSizePolicy.Expanding, QtGui.QSizePolicy.Expanding))
self.drawFrame = False
self.mouseEnabled = [True, True]
def setMouseEnabled(self, x, y):
self.mouseEnabled = [x, y]
def addItem(self, item):
if item.zValue() < self.zValue():
item.setZValue(self.zValue()+1)
item.setParentItem(self.childGroup)
#print "addItem:", item, item.boundingRect()
def removeItem(self, item):
self.scene().removeItem(item)
def resizeEvent(self, ev):
#self.setRange(self.range, padding=0)
self.updateMatrix()
def viewRect(self):
try:
return QtCore.QRectF(self.range[0][0], self.range[1][0], self.range[0][1]-self.range[0][0], self.range[1][1] - self.range[1][0])
except:
print "make qrectf failed:", self.range
raise
def updateMatrix(self):
#print "udpateMatrix:"
#print " range:", self.range
vr = self.viewRect()
translate = Point(vr.center())
bounds = self.boundingRect()
#print " bounds:", bounds
if vr.height() == 0 or vr.width() == 0:
return
scale = Point(bounds.width()/vr.width(), bounds.height()/vr.height())
#print " scale:", scale
m = QtGui.QMatrix()
## First center the viewport at 0
self.childGroup.resetMatrix()
center = self.transform().inverted()[0].map(bounds.center())
#print " transform to center:", center
if self.yInverted:
m.translate(center.x(), -center.y())
#print " inverted; translate", center.x(), center.y()
else:
m.translate(center.x(), center.y())
#print " not inverted; translate", center.x(), -center.y()
## Now scale and translate properly
if self.aspectLocked:
scale = Point(scale.min())
if not self.yInverted:
scale = scale * Point(1, -1)
m.scale(scale[0], scale[1])
#print " scale:", scale
st = translate
m.translate(-st[0], -st[1])
#print " translate:", st
self.childGroup.setMatrix(m)
self.currentScale = scale
def invertY(self, b=True):
self.yInverted = b
self.updateMatrix()
def childTransform(self):
m = self.childGroup.transform()
m1 = QtGui.QTransform()
m1.translate(self.childGroup.pos().x(), self.childGroup.pos().y())
return m*m1
def setAspectLocked(self, s):
self.aspectLocked = s
def viewScale(self):
pr = self.range
#print "viewScale:", self.range
xd = pr[0][1] - pr[0][0]
yd = pr[1][1] - pr[1][0]
if xd == 0 or yd == 0:
print "Warning: 0 range in view:", xd, yd
return np.array([1,1])
#cs = self.canvas().size()
cs = self.boundingRect()
scale = np.array([cs.width() / xd, cs.height() / yd])
#print "view scale:", scale
return scale
def scaleBy(self, s, center=None):
#print "scaleBy", s, center
xr, yr = self.range
if center is None:
xc = (xr[1] + xr[0]) * 0.5
yc = (yr[1] + yr[0]) * 0.5
else:
(xc, yc) = center
x1 = xc + (xr[0]-xc) * s[0]
x2 = xc + (xr[1]-xc) * s[0]
y1 = yc + (yr[0]-yc) * s[1]
y2 = yc + (yr[1]-yc) * s[1]
#print xr, xc, s, (xr[0]-xc) * s[0], (xr[1]-xc) * s[0]
#print [[x1, x2], [y1, y2]]
self.setXRange(x1, x2, update=False, padding=0)
self.setYRange(y1, y2, padding=0)
#print self.range
def translateBy(self, t, viewCoords=False):
t = t.astype(np.float)
#print "translate:", t, self.viewScale()
if viewCoords: ## scale from pixels
t /= self.viewScale()
xr, yr = self.range
#self.setAxisScale(self.xBottom, xr[0] + t[0], xr[1] + t[0])
#self.setAxisScale(self.yLeft, yr[0] + t[1], yr[1] + t[1])
#print xr, yr, t
self.setXRange(xr[0] + t[0], xr[1] + t[0], update=False, padding=0)
self.setYRange(yr[0] + t[1], yr[1] + t[1], padding=0)
#self.replot(autoRange=False)
#self.updateMatrix()
def wheelEvent(self, ev, axis=None):
mask = np.array(self.mouseEnabled, dtype=np.float)
degree = ev.delta() / 8.0;
dif = np.zeros(2) # FIXME: insert axis count here ..
if axis is not None and axis >= 0 and axis < len(dif):
# set axis for asymmetric scaling
dif.itemset(axis, 1.0)
else:
dif += 1.0 # scale symmetrical by default
dif *= degree
s = ((mask * 0.02) + 1) ** dif # actual scaling factor
# scale 'around' mouse cursor position
center = Point(self.childGroup.transform().inverted()[0].map(ev.pos()))
self.scaleBy(s, center)
self.emit(QtCore.SIGNAL('rangeChangedManually'), self.mouseEnabled)
ev.accept()
def mouseMoveEvent(self, ev):
QtGui.QGraphicsWidget.mouseMoveEvent(self, ev)
pos = np.array([ev.pos().x(), ev.pos().y()])
dif = pos - self.mousePos
dif *= -1
self.mousePos = pos
## Ignore axes if mouse is disabled
mask = np.array(self.mouseEnabled, dtype=np.float)
## Scale or translate based on mouse button
if ev.buttons() & QtCore.Qt.LeftButton:
if not self.yInverted:
mask *= np.array([1, -1])
tr = dif*mask
self.translateBy(tr, viewCoords=True)
self.emit(QtCore.SIGNAL('rangeChangedManually'), self.mouseEnabled)
ev.accept()
elif ev.buttons() & QtCore.Qt.RightButton:
dif = ev.screenPos() - ev.lastScreenPos()
dif = np.array([dif.x(), dif.y()])
dif[0] *= -1
s = ((mask * 0.02) + 1) ** dif
#print mask, dif, s
center = Point(self.childGroup.transform().inverted()[0].map(ev.buttonDownPos(QtCore.Qt.RightButton)))
self.scaleBy(s, center)
self.emit(QtCore.SIGNAL('rangeChangedManually'), self.mouseEnabled)
ev.accept()
else:
ev.ignore()
def mousePressEvent(self, ev):
QtGui.QGraphicsWidget.mousePressEvent(self, ev)
self.mousePos = np.array([ev.pos().x(), ev.pos().y()])
self.pressPos = self.mousePos.copy()
ev.accept()
def mouseReleaseEvent(self, ev):
QtGui.QGraphicsWidget.mouseReleaseEvent(self, ev)
pos = np.array([ev.pos().x(), ev.pos().y()])
#if sum(abs(self.pressPos - pos)) < 3: ## Detect click
#if ev.button() == QtCore.Qt.RightButton:
#self.ctrlMenu.popup(self.mapToGlobal(ev.pos()))
self.mousePos = pos
ev.accept()
def setRange(self, ax, min, max, padding=0.02, update=True):
if ax == 0:
self.setXRange(min, max, update=update, padding=padding)
else:
self.setYRange(min, max, update=update, padding=padding)
def setYRange(self, min, max, update=True, padding=0.02):
#print "setYRange:", min, max
if min == max: ## If we requested no range, try to preserve previous scale. Otherwise just pick an arbitrary scale.
dy = self.range[1][1] - self.range[1][0]
if dy == 0:
dy = 1
min -= dy*0.5
max += dy*0.5
#raise Exception("Tried to set range with 0 width.")
if any(np.isnan([min, max])) or any(np.isinf([min, max])):
raise Exception("Not setting range [%s, %s]" % (str(min), str(max)))
padding = (max-min) * padding
min -= padding
max += padding
if self.range[1] != [min, max]:
#self.setAxisScale(self.yLeft, min, max)
self.range[1] = [min, max]
#self.ctrl.yMinText.setText('%g' % min)
#self.ctrl.yMaxText.setText('%g' % max)
self.emit(QtCore.SIGNAL('yRangeChanged'), self, (min, max))
self.emit(QtCore.SIGNAL('viewChanged'), self)
if update:
self.updateMatrix()
def setXRange(self, min, max, update=True, padding=0.02):
#print "setXRange:", min, max
if min == max:
dx = self.range[0][1] - self.range[0][0]
if dx == 0:
dx = 1
min -= dx*0.5
max += dx*0.5
#print "Warning: Tried to set range with 0 width."
#raise Exception("Tried to set range with 0 width.")
if any(np.isnan([min, max])) or any(np.isinf([min, max])):
raise Exception("Not setting range [%s, %s]" % (str(min), str(max)))
padding = (max-min) * padding
min -= padding
max += padding
if self.range[0] != [min, max]:
#self.setAxisScale(self.xBottom, min, max)
self.range[0] = [min, max]
#self.ctrl.xMinText.setText('%g' % min)
#self.ctrl.xMaxText.setText('%g' % max)
self.emit(QtCore.SIGNAL('xRangeChanged'), self, (min, max))
self.emit(QtCore.SIGNAL('viewChanged'), self)
if update:
self.updateMatrix()
def autoRange(self, padding=0.02):
br = self.childGroup.childrenBoundingRect()
#print br
#px = br.width() * padding
#py = br.height() * padding
self.setXRange(br.left(), br.right(), padding=padding, update=False)
self.setYRange(br.top(), br.bottom(), padding=padding)
def boundingRect(self):
return QtCore.QRectF(0, 0, self.size().width(), self.size().height())
def paint(self, p, opt, widget):
if self.drawFrame:
bounds = self.boundingRect()
p.setPen(QtGui.QPen(QtGui.QColor(100, 100, 100)))
#p.fillRect(bounds, QtGui.QColor(0, 0, 0))
p.drawRect(bounds)
class InfiniteLine(GraphicsObject):
def __init__(self, view, pos=0, angle=90, pen=None, movable=False, bounds=None):
GraphicsObject.__init__(self)
self.bounds = QtCore.QRectF() ## graphicsitem boundary
if bounds is None: ## allowed value boundaries for orthogonal lines
self.maxRange = [None, None]
else:
self.maxRange = bounds
self.setMovable(movable)
self.view = weakref.ref(view)
self.p = [0, 0]
self.setAngle(angle)
self.setPos(pos)
self.hasMoved = False
if pen is None:
pen = QtGui.QPen(QtGui.QColor(200, 200, 100))
self.setPen(pen)
self.currentPen = self.pen
#self.setFlag(self.ItemSendsScenePositionChanges)
#for p in self.getBoundingParents():
#QtCore.QObject.connect(p, QtCore.SIGNAL('viewChanged'), self.updateLine)
QtCore.QObject.connect(self.view(), QtCore.SIGNAL('viewChanged'), self.updateLine)
def setMovable(self, m):
self.movable = m
self.setAcceptHoverEvents(m)
def setBounds(self, bounds):
self.maxRange = bounds
self.setValue(self.value())
def hoverEnterEvent(self, ev):
self.currentPen = QtGui.QPen(QtGui.QColor(255, 0,0))
self.update()
ev.ignore()
def hoverLeaveEvent(self, ev):
self.currentPen = self.pen
self.update()
ev.ignore()
def setPen(self, pen):
self.pen = pen
self.currentPen = self.pen
def setAngle(self, angle):
self.angle = ((angle+45) % 180) - 45 ## -45 <= angle < 135
self.updateLine()
def setPos(self, pos):
if type(pos) in [list, tuple]:
newPos = pos
elif isinstance(pos, QtCore.QPointF):
newPos = [pos.x(), pos.y()]
else:
if self.angle == 90:
newPos = [pos, 0]
elif self.angle == 0:
newPos = [0, pos]
else:
raise Exception("Must specify 2D coordinate for non-orthogonal lines.")
## check bounds (only works for orthogonal lines)
if self.angle == 90:
if self.maxRange[0] is not None:
newPos[0] = max(newPos[0], self.maxRange[0])
if self.maxRange[1] is not None:
newPos[0] = min(newPos[0], self.maxRange[1])
elif self.angle == 0:
if self.maxRange[0] is not None:
newPos[1] = max(newPos[1], self.maxRange[0])
if self.maxRange[1] is not None:
newPos[1] = min(newPos[1], self.maxRange[1])
if self.p != newPos:
self.p = newPos
self.updateLine()
self.emit(QtCore.SIGNAL('positionChanged'), self)
def getXPos(self):
return self.p[0]
def getYPos(self):
return self.p[1]
def getPos(self):
return self.p
def value(self):
if self.angle%180 == 0:
return self.getYPos()
elif self.angle%180 == 90:
return self.getXPos()
else:
return self.getPos()
def setValue(self, v):
self.setPos(v)
## broken in 4.7
#def itemChange(self, change, val):
#if change in [self.ItemScenePositionHasChanged, self.ItemSceneHasChanged]:
#self.updateLine()
#print "update", change
#print self.getBoundingParents()
#else:
#print "ignore", change
#return GraphicsObject.itemChange(self, change, val)
def updateLine(self):
#unit = QtCore.QRect(0, 0, 10, 10)
#if self.scene() is not None:
#gv = self.scene().views()[0]
#unit = gv.mapToScene(unit).boundingRect()
##print unit
#unit = self.mapRectFromScene(unit)
##print unit
vr = self.view().viewRect()
#vr = self.viewBounds()
if vr is None:
return
#print 'before', self.bounds
if self.angle > 45:
m = np.tan((90-self.angle) * np.pi / 180.)
y2 = vr.bottom()
y1 = vr.top()
x1 = self.p[0] + (y1 - self.p[1]) * m
x2 = self.p[0] + (y2 - self.p[1]) * m
else:
m = np.tan(self.angle * np.pi / 180.)
x1 = vr.left()
x2 = vr.right()
y2 = self.p[1] + (x1 - self.p[0]) * m
y1 = self.p[1] + (x2 - self.p[0]) * m
#print vr, x1, y1, x2, y2
self.prepareGeometryChange()
self.line = (QtCore.QPointF(x1, y1), QtCore.QPointF(x2, y2))
self.bounds = QtCore.QRectF(self.line[0], self.line[1])
## Stupid bug causes lines to disappear:
if self.angle % 180 == 90:
px = self.pixelWidth()
#self.bounds.setWidth(1e-9)
self.bounds.setX(x1 + px*-5)
self.bounds.setWidth(px*10)
if self.angle % 180 == 0:
px = self.pixelHeight()
#self.bounds.setHeight(1e-9)
self.bounds.setY(y1 + px*-5)
self.bounds.setHeight(px*10)
#QtGui.QGraphicsLineItem.setLine(self, x1, y1, x2, y2)
#self.update()
def boundingRect(self):
#self.updateLine()
#return QtGui.QGraphicsLineItem.boundingRect(self)
#print "bounds", self.bounds
return self.bounds
def paint(self, p, *args):
w,h = self.pixelWidth()*5, self.pixelHeight()*5*1.1547
#self.updateLine()
l = self.line
p.setPen(self.currentPen)
#print "paint", self.line
p.drawLine(l[0], l[1])
p.setBrush(QtGui.QBrush(self.currentPen.color()))
p.drawConvexPolygon(QtGui.QPolygonF([
l[0] + QtCore.QPointF(-w, 0),
l[0] + QtCore.QPointF(0, h),
l[0] + QtCore.QPointF(w, 0),
]))
#p.setPen(QtGui.QPen(QtGui.QColor(255,0,0)))
#p.drawRect(self.boundingRect())
def mousePressEvent(self, ev):
if self.movable and ev.button() == QtCore.Qt.LeftButton:
ev.accept()
self.pressDelta = self.mapToParent(ev.pos()) - QtCore.QPointF(*self.p)
else:
ev.ignore()
def mouseMoveEvent(self, ev):
self.setPos(self.mapToParent(ev.pos()) - self.pressDelta)
self.emit(QtCore.SIGNAL('dragged'), self)
self.hasMoved = True
def mouseReleaseEvent(self, ev):
if self.hasMoved and ev.button() == QtCore.Qt.LeftButton:
self.hasMoved = False
self.emit(QtCore.SIGNAL('positionChangeFinished'), self)
class LinearRegionItem(GraphicsObject):
"""Used for marking a horizontal or vertical region in plots."""
def __init__(self, view, orientation="vertical", vals=[0,1], brush=None, movable=True, bounds=None):
GraphicsObject.__init__(self)
self.orientation = orientation
if hasattr(self, "ItemHasNoContents"):
self.setFlag(self.ItemHasNoContents)
self.rect = QtGui.QGraphicsRectItem(self)
self.rect.setParentItem(self)
self.bounds = QtCore.QRectF()
self.view = weakref.ref(view)
self.setBrush = self.rect.setBrush
self.brush = self.rect.brush
if orientation[0] == 'h':
self.lines = [
InfiniteLine(view, QtCore.QPointF(0, vals[0]), 0, movable=movable, bounds=bounds),
InfiniteLine(view, QtCore.QPointF(0, vals[1]), 0, movable=movable, bounds=bounds)]
else:
self.lines = [
InfiniteLine(view, QtCore.QPointF(vals[0], 0), 90, movable=movable, bounds=bounds),
InfiniteLine(view, QtCore.QPointF(vals[1], 0), 90, movable=movable, bounds=bounds)]
QtCore.QObject.connect(self.view(), QtCore.SIGNAL('viewChanged'), self.updateBounds)
for l in self.lines:
l.setParentItem(self)
l.connect(l, QtCore.SIGNAL('positionChangeFinished'), self.lineMoveFinished)
l.connect(l, QtCore.SIGNAL('positionChanged'), self.lineMoved)
if brush is None:
brush = QtGui.QBrush(QtGui.QColor(0, 0, 255, 50))
self.setBrush(brush)
self.setMovable(movable)
def setBounds(self, bounds):
for l in self.lines:
l.setBounds(bounds)
def setMovable(self, m):
for l in self.lines:
l.setMovable(m)
self.movable = m
def boundingRect(self):
return self.rect.boundingRect()
def lineMoved(self):
self.updateBounds()
self.emit(QtCore.SIGNAL('regionChanged'), self)
def lineMoveFinished(self):
self.emit(QtCore.SIGNAL('regionChangeFinished'), self)
def updateBounds(self):
vb = self.view().viewRect()
vals = [self.lines[0].value(), self.lines[1].value()]
if self.orientation[0] == 'h':
vb.setTop(min(vals))
vb.setBottom(max(vals))
else:
vb.setLeft(min(vals))
vb.setRight(max(vals))
if vb != self.bounds:
self.bounds = vb
self.rect.setRect(vb)
def mousePressEvent(self, ev):
if not self.movable:
ev.ignore()
return
for l in self.lines:
l.mousePressEvent(ev) ## pass event to both lines so they move together
#if self.movable and ev.button() == QtCore.Qt.LeftButton:
#ev.accept()
#self.pressDelta = self.mapToParent(ev.pos()) - QtCore.QPointF(*self.p)
#else:
#ev.ignore()
def mouseReleaseEvent(self, ev):
for l in self.lines:
l.mouseReleaseEvent(ev)
def mouseMoveEvent(self, ev):
#print "move", ev.pos()
if not self.movable:
return
self.lines[0].blockSignals(True) # only want to update once
for l in self.lines:
l.mouseMoveEvent(ev)
self.lines[0].blockSignals(False)
#self.setPos(self.mapToParent(ev.pos()) - self.pressDelta)
#self.emit(QtCore.SIGNAL('dragged'), self)
def getRegion(self):
if self.orientation[0] == 'h':
r = (self.bounds.top(), self.bounds.bottom())
else:
r = (self.bounds.left(), self.bounds.right())
return (min(r), max(r))
def setRegion(self, rgn):
self.lines[0].setValue(rgn[0])
self.lines[1].setValue(rgn[1])
class VTickGroup(QtGui.QGraphicsPathItem):
def __init__(self, xvals=None, yrange=None, pen=None, relative=False, view=None):
QtGui.QGraphicsPathItem.__init__(self)
if yrange is None:
yrange = [0, 1]
if xvals is None:
xvals = []
if pen is None:
pen = (200, 200, 200)
self.ticks = []
self.xvals = []
if view is None:
self.view = None
else:
self.view = weakref.ref(view)
self.yrange = [0,1]
self.setPen(pen)
self.setYRange(yrange, relative)
self.setXVals(xvals)
self.valid = False
def setPen(self, pen):
pen = mkPen(pen)
QtGui.QGraphicsPathItem.setPen(self, pen)
def setXVals(self, vals):
self.xvals = vals
self.rebuildTicks()
self.valid = False
def setYRange(self, vals, relative=False):
self.yrange = vals
self.relative = relative
if self.view is not None:
if relative:
#QtCore.QObject.connect(self.view, QtCore.SIGNAL('viewChanged'), self.rebuildTicks)
QtCore.QObject.connect(self.view(), QtCore.SIGNAL('viewChanged'), self.rescale)
else:
try:
#QtCore.QObject.disconnect(self.view, QtCore.SIGNAL('viewChanged'), self.rebuildTicks)
QtCore.QObject.disconnect(self.view(), QtCore.SIGNAL('viewChanged'), self.rescale)
except:
pass
self.rebuildTicks()
self.valid = False
def rescale(self):
#print "RESCALE:"
self.resetTransform()
#height = self.view.size().height()
#p1 = self.mapFromScene(self.view.mapToScene(QtCore.QPoint(0, height * (1.0-self.yrange[0]))))
#p2 = self.mapFromScene(self.view.mapToScene(QtCore.QPoint(0, height * (1.0-self.yrange[1]))))
#yr = [p1.y(), p2.y()]
vb = self.view().viewRect()
p1 = vb.bottom() - vb.height() * self.yrange[0]
p2 = vb.bottom() - vb.height() * self.yrange[1]
yr = [p1, p2]
#print " ", vb, yr
self.translate(0.0, yr[0])
self.scale(1.0, (yr[1]-yr[0]))
#print " ", self.mapRectToScene(self.boundingRect())
self.boundingRect()
self.update()
def boundingRect(self):
#print "--request bounds:"
b = QtGui.QGraphicsPathItem.boundingRect(self)
#print " ", self.mapRectToScene(b)
return b
def yRange(self):
#if self.relative:
#height = self.view.size().height()
#p1 = self.mapFromScene(self.view.mapToScene(QtCore.QPoint(0, height * (1.0-self.yrange[0]))))
#p2 = self.mapFromScene(self.view.mapToScene(QtCore.QPoint(0, height * (1.0-self.yrange[1]))))
#return [p1.y(), p2.y()]
#else:
#return self.yrange
return self.yrange
def rebuildTicks(self):
self.path = QtGui.QPainterPath()
yrange = self.yRange()
#print "rebuild ticks:", yrange
for x in self.xvals:
#path.moveTo(x, yrange[0])
#path.lineTo(x, yrange[1])
self.path.moveTo(x, 0.)
self.path.lineTo(x, 1.)
self.setPath(self.path)
self.valid = True
self.rescale()
#print " done..", self.boundingRect()
def paint(self, *args):
if not self.valid:
self.rebuildTicks()
#print "Paint", self.boundingRect()
QtGui.QGraphicsPathItem.paint(self, *args)
class GridItem(UIGraphicsItem):
def __init__(self, view, bounds=None, *args):
UIGraphicsItem.__init__(self, view, bounds)
#QtGui.QGraphicsItem.__init__(self, *args)
self.setFlag(QtGui.QGraphicsItem.ItemClipsToShape)
#self.setCacheMode(QtGui.QGraphicsItem.DeviceCoordinateCache)
self.picture = None
def viewChangedEvent(self):
self.picture = None
UIGraphicsItem.viewChangedEvent(self)
#self.update()
def paint(self, p, opt, widget):
#p.setPen(QtGui.QPen(QtGui.QColor(100, 100, 100)))
#p.drawRect(self.boundingRect())
## draw picture
if self.picture is None:
#print "no pic, draw.."
self.generatePicture()
p.drawPicture(0, 0, self.picture)
#print "draw"
def generatePicture(self):
self.picture = QtGui.QPicture()
p = QtGui.QPainter()
p.begin(self.picture)
dt = self.viewTransform().inverted()[0]
vr = self.viewRect()
unit = self.unitRect()
dim = [vr.width(), vr.height()]
lvr = self.boundingRect()
ul = np.array([lvr.left(), lvr.top()])
br = np.array([lvr.right(), lvr.bottom()])
texts = []
if ul[1] > br[1]:
x = ul[1]
ul[1] = br[1]
br[1] = x
for i in range(2, -1, -1): ## Draw three different scales of grid
dist = br-ul
nlTarget = 10.**i
d = 10. ** np.floor(np.log10(abs(dist/nlTarget))+0.5)
ul1 = np.floor(ul / d) * d
br1 = np.ceil(br / d) * d
dist = br1-ul1
nl = (dist / d) + 0.5
for ax in range(0,2): ## Draw grid for both axes
ppl = dim[ax] / nl[ax]
c = np.clip(3.*(ppl-3), 0., 30.)
linePen = QtGui.QPen(QtGui.QColor(255, 255, 255, c))
textPen = QtGui.QPen(QtGui.QColor(255, 255, 255, c*2))
bx = (ax+1) % 2
for x in range(0, int(nl[ax])):
p.setPen(linePen)
p1 = np.array([0.,0.])
p2 = np.array([0.,0.])
p1[ax] = ul1[ax] + x * d[ax]
p2[ax] = p1[ax]
p1[bx] = ul[bx]
p2[bx] = br[bx]
p.drawLine(QtCore.QPointF(p1[0], p1[1]), QtCore.QPointF(p2[0], p2[1]))
if i < 2:
p.setPen(textPen)
if ax == 0:
x = p1[0] + unit.width()
y = ul[1] + unit.height() * 8.
else:
x = ul[0] + unit.width()*3
y = p1[1] + unit.height()
texts.append((QtCore.QPointF(x, y), "%g"%p1[ax]))
tr = self.viewTransform()
tr.scale(1.5, 1.5)
p.setWorldTransform(tr.inverted()[0])
for t in texts:
x = tr.map(t[0])
p.drawText(x, t[1])
p.end()
class ScaleBar(UIGraphicsItem):
def __init__(self, view, size, width=5, color=(100, 100, 255)):
self.size = size
UIGraphicsItem.__init__(self, view)
self.setAcceptedMouseButtons(QtCore.Qt.NoButton)
#self.pen = QtGui.QPen(QtGui.QColor(*color))
#self.pen.setWidth(width)
#self.pen.setCosmetic(True)
#self.pen2 = QtGui.QPen(QtGui.QColor(0,0,0))
#self.pen2.setWidth(width+2)
#self.pen2.setCosmetic(True)
self.brush = QtGui.QBrush(QtGui.QColor(*color))
self.pen = QtGui.QPen(QtGui.QColor(0,0,0))
self.width = width
def paint(self, p, opt, widget):
rect = self.boundingRect()
unit = self.unitRect()
y = rect.bottom() + (rect.top()-rect.bottom()) * 0.02
y1 = y + unit.height()*self.width
x = rect.right() + (rect.left()-rect.right()) * 0.02
x1 = x - self.size
p.setPen(self.pen)
p.setBrush(self.brush)
rect = QtCore.QRectF(
QtCore.QPointF(x1, y1),
QtCore.QPointF(x, y)
)
p.translate(x1, y1)
p.scale(rect.width(), rect.height())
p.drawRect(0, 0, 1, 1)
alpha = np.clip(((self.size/unit.width()) - 40.) * 255. / 80., 0, 255)
p.setPen(QtGui.QPen(QtGui.QColor(0, 0, 0, alpha)))
for i in range(1, 10):
#x2 = x + (x1-x) * 0.1 * i
x2 = 0.1 * i
p.drawLine(QtCore.QPointF(x2, 0), QtCore.QPointF(x2, 1))
def setSize(self, s):
self.size = s
class ColorScaleBar(UIGraphicsItem):
def __init__(self, view, size, offset):
self.size = size
self.offset = offset
UIGraphicsItem.__init__(self, view)
self.setAcceptedMouseButtons(QtCore.Qt.NoButton)
self.brush = QtGui.QBrush(QtGui.QColor(200,0,0))
self.pen = QtGui.QPen(QtGui.QColor(0,0,0))
self.labels = {'max': 1, 'min': 0}
self.gradient = QtGui.QLinearGradient()
self.gradient.setColorAt(0, QtGui.QColor(0,0,0))
self.gradient.setColorAt(1, QtGui.QColor(255,0,0))
def setGradient(self, g):
self.gradient = g
self.update()
def setLabels(self, l):
self.labels = l
self.update()
def paint(self, p, opt, widget):
rect = self.boundingRect() ## Boundaries of visible area in scene coords.
unit = self.unitRect() ## Size of one view pixel in scene coords.
## determine max width of all labels
labelWidth = 0
labelHeight = 0
for k in self.labels:
b = p.boundingRect(QtCore.QRectF(0, 0, 0, 0), QtCore.Qt.AlignLeft | QtCore.Qt.AlignVCenter, k)
labelWidth = max(labelWidth, b.width())
labelHeight = max(labelHeight, b.height())
labelWidth *= unit.width()
labelHeight *= unit.height()
textPadding = 2 # in px
if self.offset[0] < 0:
x3 = rect.right() + unit.width() * self.offset[0]
x2 = x3 - labelWidth - unit.width()*textPadding*2
x1 = x2 - unit.width() * self.size[0]
else:
x1 = rect.left() + unit.width() * self.offset[0]
x2 = x1 + unit.width() * self.size[0]
x3 = x2 + labelWidth + unit.width()*textPadding*2
if self.offset[1] < 0:
y2 = rect.top() - unit.height() * self.offset[1]
y1 = y2 + unit.height() * self.size[1]
else:
y1 = rect.bottom() - unit.height() * self.offset[1]
y2 = y1 - unit.height() * self.size[1]
self.b = [x1,x2,x3,y1,y2,labelWidth]
## Draw background
p.setPen(self.pen)
p.setBrush(QtGui.QBrush(QtGui.QColor(255,255,255,100)))
rect = QtCore.QRectF(
QtCore.QPointF(x1 - unit.width()*textPadding, y1 + labelHeight/2 + unit.height()*textPadding),
QtCore.QPointF(x3, y2 - labelHeight/2 - unit.height()*textPadding)
)
p.drawRect(rect)
## Have to scale painter so that text and gradients are correct size. Bleh.
p.scale(unit.width(), unit.height())
## Draw color bar
self.gradient.setStart(0, y1/unit.height())
self.gradient.setFinalStop(0, y2/unit.height())
p.setBrush(self.gradient)
rect = QtCore.QRectF(
QtCore.QPointF(x1/unit.width(), y1/unit.height()),
QtCore.QPointF(x2/unit.width(), y2/unit.height())
)
p.drawRect(rect)
## draw labels
p.setPen(QtGui.QPen(QtGui.QColor(0,0,0)))
tx = x2 + unit.width()*textPadding
lh = labelHeight/unit.height()
for k in self.labels:
y = y1 + self.labels[k] * (y2-y1)
p.drawText(QtCore.QRectF(tx/unit.width(), y/unit.height() - lh/2.0, 1000, lh), QtCore.Qt.AlignLeft | QtCore.Qt.AlignVCenter, k)