def iLabel(node, *args, **kargs):
#code for making specialized faces for intermediates mostly cribbed from the ete2 website example (though not interactive):
# http://pythonhosted.org/ete2/tutorial/tutorial_drawing.html#creating-your-custom-interactive-item-faces
my_label = node.name
ellipse = QGraphicsEllipseItem(
0, 0, fontSize * 2, fontSize * 2
) #I think the first two are coords of center; second pair is major/minor axis
ellipse.setPen(QPen(QColor('black')))
ellipse.setBrush(QBrush(QColor('white')))
text = QGraphicsSimpleTextItem(my_label)
text.setParentItem(ellipse)
text.setBrush(QBrush(QColor("black")))
font = QFont("Arial", fontSize * .9, weight=80)
font.setLetterSpacing(1, 2) #add 2 pixels between letters for legibility
text.setFont(font)
#Center text according to masterItem size
tw = text.boundingRect().width()
th = text.boundingRect().height()
center = ellipse.boundingRect().center()
text.setPos(
center.x() + 1 - tw / 2,
center.y() - th / 2
) #since the last letter has an extra 2 pixels after it from the spacing command, adjust center to compensate
return ellipse
def update_items(self):
#self.item = QGraphicsRectItem(0,0,self._total_w, self.row_h)
seq_width = 0
nopen = QPen(QtCore.Qt.NoPen)
font = QFont("Courier", self.fsize)
rect_cls = self.InteractiveLetterItem if self.interact else QGraphicsRectItem
for i, letter in enumerate(self.seq):
width = self.col_w
for m in self.special_col:
if m[0] < i <= m[1]:
width = self.alt_col_w
break
#load interactive item if called correspondingly
rectItem = rect_cls(0, 0, width, self.row_h, parent=self.item)
rectItem.setX(seq_width) # to give correct X to children item
rectItem.setBrush(self.bg_col[letter])
rectItem.setPen(nopen)
if self.interact:
if self.codon:
rectItem.codon = '%s, %d: %s' % (
self.seq[i], i, self.codon[i * 3:i * 3 + 3])
else:
rectItem.codon = '%s, %d' % (self.seq[i], i)
# write letter if enough space
if width >= self.fsize:
text = QGraphicsSimpleTextItem(letter, parent=rectItem)
text.setFont(font)
text.setBrush(self.fg_col[letter])
# Center text according to rectItem size
tw = text.boundingRect().width()
th = text.boundingRect().height()
text.setPos((width - tw) / 2, (self.row_h - th) / 2)
seq_width += width
self.width = seq_width
def draw_y_axis(self):
lineItem = QGraphicsLineItem(0, self.coordY(self.ylim[0]),
0, self.coordY(self.ylim[1]),
parent=self.item)
lineItem.setPen(QPen(QColor('black')))
lineItem.setZValue(10)
max_w = 0
for y in set(self.hlines + list(self.ylim)):
lineItem = QGraphicsLineItem(0, self.coordY(y),
-5, self.coordY(y),
parent=self.item)
lineItem.setPen(QPen(QColor('black')))
lineItem.setZValue(10)
text = QGraphicsSimpleTextItem(str(y))
text.setFont(QFont("Arial", self.fsize-2))
text.setParentItem(self.item)
tw = text.boundingRect().width()
max_w = tw if tw > max_w else max_w
th = text.boundingRect().height()
# Center text according to masterItem size
text.setPos(-tw - 5, self.coordY(y)-th/2)
if self.ylabel:
text = QGraphicsSimpleTextItem(self.ylabel)
text.setFont(QFont("Arial", self.fsize-1))
text.setParentItem(self.item)
text.rotate(-90)
tw = text.boundingRect().width()
th = text.boundingRect().height()
# Center text according to masterItem size
text.setPos(-th -5-max_w, tw/2+self.coordY(sum(self.ylim)/2))
def iLabel(node, *args, **kargs):
#code for making specialized faces for intermediates mostly cribbed from the ete2 website example (though not interactive):
# http://pythonhosted.org/ete2/tutorial/tutorial_drawing.html#creating-your-custom-interactive-item-faces
my_label = node.name
ellipse = QGraphicsEllipseItem(0,0,fontSize*2,fontSize*2) #I think the first two are coords of center; second pair is major/minor axis
ellipse.setPen(QPen(QColor( 'black' )))
ellipse.setBrush(QBrush(QColor( 'white' )))
text = QGraphicsSimpleTextItem(my_label)
text.setParentItem(ellipse)
text.setBrush(QBrush(QColor("black")))
font = QFont("Arial",fontSize*.9,weight=80)
font.setLetterSpacing(1, 2) #add 2 pixels between letters for legibility
text.setFont(font)
#Center text according to masterItem size
tw = text.boundingRect().width()
th = text.boundingRect().height()
center = ellipse.boundingRect().center()
text.setPos(center.x()+1-tw/2, center.y()-th/2) #since the last letter has an extra 2 pixels after it from the spacing command, adjust center to compensate
return ellipse
def update_items(self):
#self.item = QGraphicsRectItem(0,0,self._total_w, self.row_h)
seq_width = 0
nopen = QPen(QtCore.Qt.NoPen)
font = QFont("Courier", self.fsize)
rect_cls = self.InteractiveLetterItem if self.interact else QGraphicsRectItem
for i, letter in enumerate(self.seq):
width = self.col_w
for m in self.special_col:
if m[0] < i <= m[1]:
width = self.alt_col_w
break
#load interactive item if called correspondingly
rectItem = rect_cls(0, 0, width, self.row_h, parent=self.item)
rectItem.setX(seq_width) # to give correct X to children item
rectItem.setBrush(self.bg_col[letter])
rectItem.setPen(nopen)
if self.interact:
if self.codon:
rectItem.codon = '%s, %d: %s' % (self.seq[i], i,
self.codon[i*3:i*3+3])
else:
rectItem.codon = '%s, %d' % (self.seq[i], i)
# write letter if enough space
if width >= self.fsize:
text = QGraphicsSimpleTextItem(letter, parent=rectItem)
text.setFont(font)
text.setBrush(self.fg_col[letter])
# Center text according to rectItem size
tw = text.boundingRect().width()
th = text.boundingRect().height()
text.setPos((width - tw)/2, (self.row_h - th)/2)
seq_width += width
self.width = seq_width
def draw_y_axis(self):
lineItem = QGraphicsLineItem(0,
self.coordY(self.ylim[0]),
0,
self.coordY(self.ylim[1]),
parent=self.item)
lineItem.setPen(QPen(QColor('black')))
lineItem.setZValue(10)
max_w = 0
for y in set(self.hlines + list(self.ylim)):
lineItem = QGraphicsLineItem(0,
self.coordY(y),
-5,
self.coordY(y),
parent=self.item)
lineItem.setPen(QPen(QColor('black')))
lineItem.setZValue(10)
text = QGraphicsSimpleTextItem(str(y))
text.setFont(QFont("Arial", self.fsize - 2))
text.setParentItem(self.item)
tw = text.boundingRect().width()
max_w = tw if tw > max_w else max_w
th = text.boundingRect().height()
# Center text according to masterItem size
text.setPos(-tw - 5, self.coordY(y) - th / 2)
if self.ylabel:
text = QGraphicsSimpleTextItem(self.ylabel)
text.setFont(QFont("Arial", self.fsize - 1))
text.setParentItem(self.item)
text.rotate(-90)
tw = text.boundingRect().width()
th = text.boundingRect().height()
# Center text according to masterItem size
text.setPos(-th - 5 - max_w,
tw / 2 + self.coordY(sum(self.ylim) / 2))
def update_items(self):
rect_cls = QGraphicsRectItem
self.item = rect_cls(0, 0, self.width, self.row_h)
seq_width = 0
nopen = QPen(Qt.NoPen)
font = QFont("Courier", self.fsize)
for i, letter in enumerate(self.seq):
width = self.col_w
for reg in self.special_col:
if reg[0] < i <= reg[1]:
width = self.alt_col_w
break
rectitem = rect_cls(0, 0, width, self.row_h, parent=self.item)
rectitem.setX(seq_width) # to give correct X to children item
rectitem.setBrush(self.bg_col[letter])
rectitem.setPen(nopen)
# write letter if enough space
if width >= self.fsize:
text = QGraphicsSimpleTextItem(letter, parent=rectitem)
text.setFont(font)
text.setBrush(self.fg_col[letter])
# Center text according to rectitem size
txtw = text.boundingRect().width()
txth = text.boundingRect().height()
text.setPos((width - txtw) / 2, (self.row_h - txth) / 2)
seq_width += width
self.width = seq_width
def update_items(self):
try:
max_codons = math.ceil(
max([len(x) for x in self.readict.values()]) / 2.0) * 2
except:
max_codons = 1
if self.maxcodon:
max_codons = max(max_codons, self.maxcodon)
max_h = max_codons * (self.h + self.spacer)
rect_cls = QGraphicsRectItem
self.item = rect_cls()
nopen = QPen(QColor('#EEEEEE'))
nobrush = QBrush(Qt.NoBrush)
width = self.mgl
font = QFont(self.ffamily, self.fsize)
for aa in self.aa_list:
codons = self.readict.get(aa, [])
tot_codons = len(codons)
hpos = (self.h + self.spacer) * (max_codons - tot_codons) / 2.0
for cod in codons:
rectitem = rect_cls(0, 0, self.w, self.h, parent=self.item)
rectitem.setX(width)
rectitem.setY(hpos)
rectitem.setBrush(self.bgcolor[aa])
rectitem.setPen(nopen)
hpos += (self.h + self.spacer)
# write letter if enough space
if self.w >= self.fsize:
text = QGraphicsSimpleTextItem(cod, parent=rectitem)
text.setFont(font)
text.setBrush(self.fgcolor[aa])
# Center text according to rectitem size
txtw = text.boundingRect().width()
txth = text.boundingRect().height()
text.setPos((self.w - txtw) / 2, (self.h - txth) / 2)
# this only happen if codon reassignment not found for aa
# we do not need a spacer if it's an internal node (I hope)
if hpos == 0 and self.is_leaf:
rectitem = rect_cls(0, 0, self.w, self.h, parent=self.item)
rectitem.setX(width)
rectitem.setY(hpos)
rectitem.setBrush(nobrush)
rectitem.setPen(nopen)
width += self.w + self.spacer
self.width = width
self.item.setPen(nopen)
self.item.setRect(0, 0, self.width, max_h)
def add_text(self):
if (self.labels):
center = self.item.boundingRect().center()
text = QGraphicsSimpleTextItem(str(self.labels))
text.setFont(QFont("Arial", self.label_size))
text.setParentItem(self.item)
text.setBrush(QBrush(QColor('#ddd')))
tw = text.boundingRect().width() / 2.
th = text.boundingRect().height() / 2.
x = -tw + center.x()
y = -th + center.y()
# Center text according to masterItem size
text.setPos(x, y)
def update_items(self):
rect_cls = QGraphicsRectItem
nobrush = QBrush(Qt.NoBrush)
nopen = QPen(QColor('#FFFFFF'))
grad = Qt.NoBrush
self.item = rect_cls()
for codon in self.codons.keys():
rectitem = rect_cls(self.width, self.margin,
self.w, self.h, parent=self.item)
total_rea = len(self.aa_list[codon])
if total_rea > 0:
grad = QLinearGradient(QPointF(0, 0.5), QPointF(1, 0.5))
grad.setCoordinateMode(QLinearGradient.ObjectBoundingMode)
pointpos = 1.0 / total_rea
starting = -0.001
for reqcol, aa in enumerate(self.aa_list[codon]):
curcol = self.bgcolor[aa]
# use the same color twice to mark start and end
grad.setColorAt(starting + 0.001, curcol)
starting += pointpos
grad.setColorAt(starting, curcol)
# grad.setColorAt(starting, QColor(curcol))
# put small rec in big rec
# Comment award of the year !
brush = QBrush(QColor('#CCCCCC'))
pen = QPen(QColor('#BBBBBB'))
if self.codons[codon]:
brush = QBrush(grad)
pen = QPen(QColor('#000000'))
rectitem.setBrush(brush)
rectitem.setPen(pen)
# Center text according to rectitem size
text = QGraphicsSimpleTextItem(self.codons[codon], parent=rectitem)
text.setFont(self.font)
text.setBrush(self.fgcolor)
center = rectitem.boundingRect().center()
txtw = text.boundingRect().width()
txth = text.boundingRect().height()
text.setPos(center.x() - txtw / 2, center.y() - txth / 2)
self.width += self.w + self.margin
# now plot the big rect (with margin)
self.item.setPen(nopen)
self.item.setBrush(nobrush)
self.item.setRect(0, 0, self.width, self.h + (2 * self.margin))
def __init__(self, table, vector, mass=1.0):
"""Documentation here"""
self.name = table.name
self._mediator = Mediator()
# layout widget
x, y = vector.x, vector.y
text = QGraphicsSimpleTextItem('{0} as {1}'.format(self.name, self.alias))
width = text.boundingRect().width()
QGraphicsRectItem.__init__(self, x, y, width + 10, 22)
self.table = table.alias(self.alias)
self.setBrush(Qt.cyan)
self.setPen(Qt.darkCyan)
self.width = width + 10
self.height = 22
self.setFlag(self.ItemIsSelectable, True)
text.setParentItem(self)
text.setX(x + 5)
text.setY(y + 5)
self.point = vector
self.mass = mass
self.velocity = Vector(0, 0)
self.force = Vector(0, 0)
self.instances.append(self)
def showMoveHelper(self, visible=True):
"""show help text In empty HandBoards"""
if visible:
if not self.__moveHelper:
splitter = QGraphicsRectItem(self)
hbCenter = self.rect().center()
splitter.setRect(hbCenter.x() * 0.5, hbCenter.y(), hbCenter.x() * 1, 1)
helpItems = [splitter]
for name, yFactor in [(m18n('Move Exposed Tiles Here'), 0.5),
(m18n('Move Concealed Tiles Here'), 1.5)]:
helper = QGraphicsSimpleTextItem(name, self)
helper.setScale(3)
nameRect = QRectF()
nameRect.setSize(helper.mapToParent(helper.boundingRect()).boundingRect().size())
center = QPointF(hbCenter)
center.setY(center.y() * yFactor)
helper.setPos(center - nameRect.center())
if self.sceneRotation() == 180:
rotateCenter(helper, 180)
helpItems.append(helper)
self.__moveHelper = self.scene().createItemGroup(helpItems)
self.__moveHelper.setVisible(True)
else:
if self.__moveHelper:
self.__moveHelper.setVisible(False)
def draw_x_axis(self):
#lineItem = QGraphicsLineItem(self.col_w/2,
# self.coordY(self.ylim[0])+2,
# self.width-self.col_w/2,
# self.coordY(self.ylim[0])+2,
# parent=self.item)
#lineItem.setPen(QPen(QColor('black')))
#lineItem.setZValue(10)
#all_vals = list(range(0, len(self.values), 5))
#if (len(self.values)-1)%5:
# all_vals += [len(self.values)-1]
for x, lab in enumerate(self.values):
# lineItem = QGraphicsLineItem(0, self.coordY(self.ylim[0])+2,
# 0, self.coordY(self.ylim[0])+6,
# parent=self.item)
# lineItem.setX(x*self.col_w + self.col_w/2)
# lineItem.setPen(QPen(QColor('black')))
# lineItem.setZValue(10)
text = QGraphicsSimpleTextItem(str(lab))
text.rotate(-90)
text.setFont(QFont("Arial", self.fsize-2))
text.setParentItem(self.item)
tw = text.boundingRect().height()
# Center text according to masterItem size
text.setPos(x*self.col_w-tw/2 + self.col_w/2,
self.coordY(self.ylim[0]))
def update_items(self):
self.item = QGraphicsRectItem(
0, 0, self.width, self.row_h * self.coeff_h)
seq_width = 0
nopen = QPen(Qt.NoPen)
self.item.setPen(nopen)
font = QFont(self.ftype, self.fsize)
if self.fstyle == "italic":
font.setStyle(QFont.StyleItalic)
elif self.fstyle == "oblique":
font.setStyle(QFont.StyleOblique)
rect_cls = QGraphicsRectItem
for i, val in enumerate(self.liste):
width = self.col_w
height = self.row_h * len(str(val)) + 1
rectitem = rect_cls(0, 0, width, height, parent=self.item)
rectitem.setX(seq_width) # to give correct X to children item
rectitem.setBrush(QBrush(QColor(self.bgcolor)))
rectitem.setPen(nopen)
# write letter if enough space in height
if height >= self.fsize:
text = QGraphicsSimpleTextItem(str(val), parent=rectitem)
text.setFont(font)
text.setBrush(QBrush(QColor(self.fgcolor)))
# Center text according to rectitem size
# txtw = text.boundingRect().width()
txth = text.boundingRect().height()
text.setRotation(self.rot)
text.setX(txth)
seq_width += width
self.width = seq_width
def draw_x_axis(self):
#lineItem = QGraphicsLineItem(self.col_w/2,
# self.coordY(self.ylim[0])+2,
# self.width-self.col_w/2,
# self.coordY(self.ylim[0])+2,
# parent=self.item)
#lineItem.setPen(QPen(QColor('black')))
#lineItem.setZValue(10)
#all_vals = list(range(0, len(self.values), 5))
#if (len(self.values)-1)%5:
# all_vals += [len(self.values)-1]
for x, lab in enumerate(self.values):
# lineItem = QGraphicsLineItem(0, self.coordY(self.ylim[0])+2,
# 0, self.coordY(self.ylim[0])+6,
# parent=self.item)
# lineItem.setX(x*self.col_w + self.col_w/2)
# lineItem.setPen(QPen(QColor('black')))
# lineItem.setZValue(10)
text = QGraphicsSimpleTextItem(str(lab))
text.rotate(-90)
text.setFont(QFont("Arial", self.fsize - 2))
text.setParentItem(self.item)
tw = text.boundingRect().height()
# Center text according to masterItem size
text.setPos(x * self.col_w - tw / 2 + self.col_w / 2,
self.coordY(self.ylim[0]))
def draw_x_axis(self):
lineItem = QGraphicsLineItem(self.col_w / 2,
self.coordY(self.ylim[0]) + 2,
self.width - self.col_w / 2,
self.coordY(self.ylim[0]) + 2,
parent=self.item)
lineItem.setPen(QPen(QColor('black')))
lineItem.setZValue(10)
all_vals = list(range(0, len(self.values), self.x_inter_values))
if (len(self.values) - 1) % self.x_inter_values:
all_vals += [len(self.values) - 1]
hp_x = []
if self.hp:
for x in list(range(0, len(self.values))):
if self.x_values[x] in self.hp:
hp_x.append(x)
if not x in all_vals:
all_vals += [x]
all_vals.sort()
for x in all_vals:
lineItem = QGraphicsLineItem(0,
self.coordY(self.ylim[0]) + 2,
0,
self.coordY(self.ylim[0]) + 6,
parent=self.item)
lineItem.setX(x * self.col_w + self.col_w / 2)
lineItem.setPen(QPen(QColor('black')))
lineItem.setZValue(10)
if x in hp_x:
text = QGraphicsSimpleTextItem("*" + str(self.x_values[x]))
qfont = QFont("Arial", self.fsize - 1)
#qfont.setBold(True)
text.setFont(qfont)
else:
text = QGraphicsSimpleTextItem(" " + str(self.x_values[x]))
text.setFont(QFont("Arial", self.fsize - 1))
text.rotate(-90)
text.setParentItem(self.item)
text.setZValue(10)
tw = text.boundingRect().width()
th = text.boundingRect().height()
# Center text according to masterItem size
text.setPos(x * self.col_w - th / 2 + self.col_w / 2,
tw + self.coordY(self.ylim[0]) + 7)
def update_items(self):
rect_h = self.height
if self.x_axis:
rect_h += 30
self.item = QGraphicsRectItem(0, 0, self.width + 40, rect_h)
self.item.setPen(QPen(QColor('white')))
#X axis
if self.x_axis:
self.draw_x_axis()
# Legend
self.draw_legend()
# Y axes and colo rect
yi = -1
for model in ["PCOC", "PC", "OC", "Topological", "Identical"]:
if self.dict_values_pcoc.has_key(model):
yi += 1
y = yi * self.col_w
# Y axes
## Stick
yaxis = (yi + 0.5) * self.col_w
lineItem = QGraphicsLineItem(self.width,
yaxis,
self.width + 5,
yaxis,
parent=self.item)
lineItem.setPen(QPen(QColor('black')))
## Text
text = QGraphicsSimpleTextItem(model)
text.setFont(QFont("Arial", self.fsize - 2))
text.setParentItem(self.item)
tw = text.boundingRect().width()
th = text.boundingRect().height()
## Center text according to masterItem size
text.setPos(self.width + 5, yaxis - th / 2)
# Color rect for each model
values = self.dict_values_pcoc[model]
for i, val in enumerate(values):
self.draw_fun(i * self.col_w, y, val, col_width=self.col_w)
def ugly_name_face(node, *args, **kargs):
""" This is my item generator. It must receive a node object, and
returns a Qt4 graphics item that can be used as a node face.
"""
# receive an arbitrary number of arguments, in this case width and
# height of the faces
width = args[0][0]
height = args[0][1]
## Creates a main master Item that will contain all other elements
## Items can be standard QGraphicsItem
# masterItem = QGraphicsRectItem(0, 0, width, height)
# Or your custom Items, in which you can re-implement interactive
# functions, etc. Check QGraphicsItem doc for details.
masterItem = InteractiveItem(0, 0, width, height)
# Keep a link within the item to access node info
masterItem.node = node
# I dont want a border around the masterItem
masterItem.setPen(QPen(QtCore.Qt.NoPen))
# Add ellipse around text
ellipse = QGraphicsEllipseItem(masterItem.rect())
ellipse.setParentItem(masterItem)
# Change ellipse color
ellipse.setBrush(QBrush(QColor(random_color())))
# Add node name within the ellipse
text = QGraphicsSimpleTextItem(node.name)
text.setParentItem(ellipse)
text.setPen(QPen(QPen(QColor("white"))))
# Center text according to masterItem size
tw = text.boundingRect().width()
th = text.boundingRect().height()
center = masterItem.boundingRect().center()
text.setPos(center.x() - tw / 2, center.y() - th / 2)
return masterItem
def ugly_name_face(node, *args, **kargs):
""" This is my item generator. It must receive a node object, and
returns a Qt4 graphics item that can be used as a node face.
"""
# receive an arbitrary number of arguments, in this case width and
# height of the faces
width = args[0][0]
height = args[0][1]
## Creates a main master Item that will contain all other elements
## Items can be standard QGraphicsItem
# masterItem = QGraphicsRectItem(0, 0, width, height)
# Or your custom Items, in which you can re-implement interactive
# functions, etc. Check QGraphicsItem doc for details.
masterItem = InteractiveItem(0, 0, width, height)
# Keep a link within the item to access node info
masterItem.node = node
# I dont want a border around the masterItem
masterItem.setPen(QPen(QtCore.Qt.NoPen))
# Add ellipse around text
ellipse = QGraphicsEllipseItem(masterItem.rect())
ellipse.setParentItem(masterItem)
# Change ellipse color
ellipse.setBrush(QBrush(QColor( random_color())))
# Add node name within the ellipse
text = QGraphicsSimpleTextItem(node.name)
text.setParentItem(ellipse)
text.setPen(QPen(QPen(QColor("white"))))
# Center text according to masterItem size
tw = text.boundingRect().width()
th = text.boundingRect().height()
center = masterItem.boundingRect().center()
text.setPos(center.x()-tw/2, center.y()-th/2)
return masterItem
def iLabel(node, *args, **kargs):
#code for making specialized faces for intermediates mostly cribbed from the ete2 website example (though not interactive):
# http://pythonhosted.org/ete2/tutorial/tutorial_drawing.html#creating-your-custom-interactive-item-faces
my_label = args[0][0] #or maybe just node.name?
ellipse = QGraphicsEllipseItem(0,0,fontSize*2,fontSize*2) #I think the first two are coords of center; second pair is major/minor axis
ellipse.setBrush(QBrush(QColor( 'black' )))
text = QGraphicsSimpleTextItem(my_label)
text.setParentItem(ellipse)
text.setBrush(QBrush(QColor("white")))
text.setFont(QFont("Arial",fontSize*.75))
#Center text according to masterItem size
tw = text.boundingRect().width()
th = text.boundingRect().height()
center = ellipse.boundingRect().center()
text.setPos(center.x()-tw/2, center.y()-th/2)
return ellipse
def draw_legend(self):
legend_h = self.height * ((self.nb_models - 1) / float(self.nb_models))
if legend_h < 35:
legend_h = 35
legend_rect = QGraphicsRectItem(-20, 0, 10, legend_h, parent=self.item)
x0 = -20
n_cat = 6.
for y, str_y in [(1, 1), (1 / n_cat * 5, 0.99), (1 / n_cat * 4, 0.9),
(1 / n_cat * 3, 0.8), (1 / n_cat * 2, 0.7),
(1 / n_cat * 1, 0.5), (1 / n_cat * 0, 0)]:
y_stick = legend_h - y * legend_h
lineItem = QGraphicsLineItem(x0 - 5,
y_stick,
x0,
y_stick,
parent=self.item)
lineItem.setPen(QPen(QColor('black')))
text = QGraphicsSimpleTextItem(str(str_y))
text.setFont(QFont("Arial", self.fsize - 4))
text.setParentItem(self.item)
tw = text.boundingRect().width()
th = text.boundingRect().height()
# Center text according to masterItem size
text.setPos(x0 - tw - 7, y_stick - th / 2)
for (y1, y2, c) in [(1, 1 / n_cat * 5, 0.99),
(1 / n_cat * 5, 1 / n_cat * 4, 0.9),
(1 / n_cat * 4, 1 / n_cat * 3, 0.8),
(1 / n_cat * 3, 1 / n_cat * 2, 0.7),
(1 / n_cat * 2, 1 / n_cat * 1, 0.5),
(1 / n_cat * 1, 1 / n_cat * 0, 0)]:
y1_stick = legend_h - y1 * legend_h
y2_stick = legend_h - y2 * legend_h
self.draw_fun(x0,
y1_stick,
c,
col_width=10,
col_height=y2_stick - y1_stick)
def iLabel(node, *args, **kargs):
#code for making specialized faces for intermediates mostly cribbed from the ete2 website example (though not interactive):
# http://pythonhosted.org/ete2/tutorial/tutorial_drawing.html#creating-your-custom-interactive-item-faces
my_label = args[0][0] #or maybe just node.name?
ellipse = QGraphicsEllipseItem(
0, 0, fontSize * 2, fontSize * 2
) #I think the first two are coords of center; second pair is major/minor axis
ellipse.setBrush(QBrush(QColor('black')))
text = QGraphicsSimpleTextItem(my_label)
text.setParentItem(ellipse)
text.setBrush(QBrush(QColor("white")))
text.setFont(QFont("Arial", fontSize * .75))
#Center text according to masterItem size
tw = text.boundingRect().width()
th = text.boundingRect().height()
center = ellipse.boundingRect().center()
text.setPos(center.x() - tw / 2, center.y() - th / 2)
return ellipse
class PreCrossoverHandle(QGraphicsItem):
scafpen = QPen(styles.pch_scaf_stroke, styles.PATH_STRAND_STROKE_WIDTH)
scafpen.setCapStyle(Qt.FlatCap) # or Qt.RoundCap
scafpen.setJoinStyle(Qt.RoundJoin)
stappen = QPen(styles.pch_stap_stroke, styles.PATH_STRAND_STROKE_WIDTH)
stappen.setCapStyle(Qt.FlatCap) # or Qt.RoundCap
stappen.setJoinStyle(Qt.RoundJoin)
disabpen = QPen(styles.pch_disab_stroke, styles.PATH_STRAND_STROKE_WIDTH)
disabpen.setCapStyle(Qt.FlatCap)
disabpen.setJoinStyle(Qt.RoundJoin)
disabbrush = QBrush(styles.pch_disab_stroke) # For the helix number label
enabbrush = QBrush(Qt.SolidPattern) # Also for the helix number label
baseWidth = styles.PATH_BASE_WIDTH
rect = QRectF(0, 0, styles.PATH_BASE_WIDTH, styles.PATH_BASE_WIDTH)
toHelixNumFont = QFont("Times", 10, QFont.Bold)
def __init__(self, parentPH, fromStrand, fromIdx, toVH, toIdx, orientedLeft):
super(PreCrossoverHandle, self).__init__(parentPH)
self.fromVH = parentPH.vhelix()
self.fromStrand = fromStrand
self.fromIdx = fromIdx
self.toVH = toVH
self.toIdx = toIdx
self.orientedLeft = orientedLeft
self.fromVH.basesModified.connect(self.updateVisibilityAndEnabledness)
self.toVH.basesModified.connect(self.updateVisibilityAndEnabledness)
self.label = QGraphicsSimpleTextItem(str(toVH.number()), parent=self)
self.label.setFont(self.toHelixNumFont)
x = self.baseWidth * self.fromIdx
y = (-1.25 if self.onTopStrand() else 2.25) * self.baseWidth
self.setPos(x, y)
halfLabelW = self.label.boundingRect().width() / 2
labelX = self.baseWidth/2 - halfLabelW
labelY = (-.10 if self.onTopStrand() else .48) * self.baseWidth
self.label.setPos(labelX, labelY)
self.updateVisibilityAndEnabledness()
def onTopStrand(self):
return self.fromVH.evenParity() and self.fromStrand==StrandType.Scaffold or\
not self.fromVH.evenParity() and self.fromStrand==StrandType.Staple
def couldFormNewCrossover(self):
return self.fromVH.possibleNewCrossoverAt(self.fromStrand, self.fromIdx, self.toVH, self.toIdx)
def crossoverExists(self):
return self.fromVH.hasCrossoverAt(self.fromStrand, self.fromIdx)
def is3pEndOfCrossover(self):
return self.orientedLeft and self.onTopStrand() or\
not self.orientedLeft and not self.onTopStrand
def updateVisibilityAndEnabledness(self):
shouldBeVisible = not self.crossoverExists()
self.setVisible(shouldBeVisible)
self.label.setVisible(shouldBeVisible)
if self.couldFormNewCrossover():
self.label.setBrush(self.enabbrush)
else:
self.label.setBrush(self.disabbrush)
self.update()
def paint(self, painter, option, widget=None):
#Look Up Table
pathLUT = (_ppathRD, _ppathRU, _ppathLD, _ppathLU)
path = pathLUT[2*int(self.orientedLeft) + int(self.onTopStrand())]
pen = self.disabpen
if self.couldFormNewCrossover():
if self.fromStrand == StrandType.Scaffold:
pen = self.scafpen
else:
pen = self.stappen
painter.setPen(pen)
painter.drawPath(path)
def boundingRect(self):
return self.rect
def mousePressEvent(self, event):
if event.button() != Qt.LeftButton:
return QGraphicsItem.mousePressEvent(self, event)
if not self.couldFormNewCrossover():
return
# Determine upstream base
fromHelix, toHelix = self.fromVH, self.toVH
fromIdx, toIdx = self.fromIdx, self.toIdx
if not self.is3pEndOfCrossover():
fromHelix, toHelix = toHelix, fromHelix
fromIdx, toIdx = toIdx, fromIdx
# Create XoverHandlePair and store references
# fromHelix.installXoverFrom3To5(StrandType.Scaffold, \
# fromIndex, toHelix, toIndex)
fromHelix.installXoverFrom3To5(self.fromStrand, \
fromIdx, toHelix, toIdx)
def polygon_name_face(node, *args, **kwargs):
"""create a wedge shaped face in the style of ARB
Args:
width (int): size in pixels for the width of the wedge
height (int): size in pixels for the height of the wedge
width_percent (float): change the angle of the point of the wedge.
This must be a number between 0 and 1
Returns:
QGraphicsRectItem: The Qt graphics item of the polygon
"""
n_leaves = len(node.get_leaves())
closest_leaf_dist = node.get_closest_leaf()[1]
farthest_leaf_dist = node.get_farthest_leaf()[1]
base_height = 30
width = 60
height = math.log(n_leaves, 2) + base_height
width_percent = closest_leaf_dist / farthest_leaf_dist
#print(width, height, width_percent)
points = [
(0.0, 0.0), # top left point
(width, 0.0), # top right point
(width * width_percent, height), # bottom right point
(0.0, height), # bottom left point
(0.0, 0.0) # back to the beginning
]
shape = QPolygonF()
for i in points:
shape << QtCore.QPointF(*i)
## Creates a main master Item that will contain all other elements
## Items can be standard QGraphicsItem
masterItem = QGraphicsRectItem(0, 0, width, height)
# Keep a link within the item to access node info
masterItem.node = node
# I dont want a border around the masterItem
masterItem.setPen(QPen(QtCore.Qt.NoPen))
polygon = QGraphicsPolygonItem(shape, masterItem)
# Make the wedge grey in color
polygon.setBrush(QBrush(QColor( '#D3D3D3')))
# Print the name of the node
# Center text according to masterItem size
center = masterItem.boundingRect().center()
text = QGraphicsSimpleTextItem(node.name)
text.setParentItem(polygon)
tw = text.boundingRect().width()
th = text.boundingRect().height()
text.setPos(center.x() + tw/2, center.y() - th/2)
# this is a hack to prevent the name being printed twice
# we set the node name to blank after we write it with the QGraphicsSimpleTextItem
# it must be set to a blank string for it not to be printed later
node.name = ''
# print the number of collapsed leaves in the polygon
leaves_count_text = QGraphicsSimpleTextItem('('+str(n_leaves)+')')
leaves_count_text.setParentItem(polygon)
leaves_count_text.setFont(QFont('Veranda', 6))
leaves_count_text.setPos(masterItem.boundingRect().x() + 5, center.y() - leaves_count_text.boundingRect().height()/2)
polygon.setPos(0, masterItem.boundingRect().y()/1.5)
return masterItem
class ActiveSliceHandle(QGraphicsItem):
"""docstring for ActiveSliceHandle"""
_baseWidth = styles.PATH_BASE_WIDTH
_brush = QBrush(styles.orangefill)
_labelbrush = QBrush(styles.orangestroke)
_pen = QPen(styles.orangestroke, styles.SLICE_HANDLE_STROKE_WIDTH)
_myfont = QFont("Times", 12, QFont.Bold)
def __init__(self, pathHelixGroup):
super(ActiveSliceHandle, self).__init__(pathHelixGroup)
self._pathHelixGroup = None
self._activeSlice = 0
self._dragMode = False
self._label = QGraphicsSimpleTextItem("", parent=self)
self._label.setPos(0, -18)
self._label.setFont(self._myfont)
self._label.setBrush(self._labelbrush)
self._label.hide()
self.setPathHelixGroup(pathHelixGroup)
self.setFlag(QGraphicsItem.ItemIsMovable)
self.setAcceptHoverEvents(True)
self.setZValue(styles.ZACTIVESLICEHANDLE)
def controller(self):
return self._pathHelixGroup.controller()
def part(self):
return self._pathHelixGroup.part()
def pathHelixGroup(self):
return self._pathHelixGroup
def setPathHelixGroup(self, newPHG):
if self._pathHelixGroup:
self._pathHelixGroup.geometryChanged.disconnect(\
self.prepareGeometryChange)
self._pathHelixGroup.displayedVHsChanged.disconnect(self._hideIfEmptySelection)
if self._pathHelixGroup and self._pathHelixGroup.part():
self._pathHelixGroup.part().activeSliceWillChange.disconnect(\
self._updateActiveSlice)
self._pathHelixGroup = newPHG
newPHG.geometryChanged.connect(self.prepareGeometryChange)
newPHG.part().activeSliceWillChange.connect(self._updateActiveSlice)
newPHG.displayedVHsChanged.connect(self._hideIfEmptySelection)
self._hideIfEmptySelection()
self._updateActiveSlice(newPHG.part().activeSlice())
def activeSlice(self):
return self.part().activeSlice()
def setActiveSlice(self, baseIndex):
self.part().setActiveSlice(baseIndex)
def _hideIfEmptySelection(self):
self.setVisible(len(self.pathHelixGroup().displayedVHs())>0)
def _updateActiveSlice(self, baseIndex):
"""The slot that receives active slice changed notifications from
the part and changes the receiver to reflect the part"""
bi = int(baseIndex)
if bi < 0 or bi >= self.part().dimensions()[2]:
raise IndexError
self.setPos(bi * self._baseWidth, -styles.PATH_HELIX_PADDING)
self._activeSlice = bi
if self._label:
self._label.setText("%d" % bi)
self._label.setX((self._baseWidth -\
self._label.boundingRect().width()) / 2)
def boundingRect(self):
return QRectF(0, 0, self._baseWidth,\
self.pathHelixGroup().boundingRect().height())
def paint(self, painter, option, widget=None):
if self.boundingRect().height() > 0:
painter.setBrush(self._brush)
painter.setPen(self._pen)
painter.drawRect(self.boundingRect())
self._label.show()
else:
self._label.hide()
def resetBounds(self, maxBase):
"""Call after resizing virtualhelix canvas."""
self.maxBase = maxBase
self.maxX = (maxBase - 1) * self._baseWidth
def hoverEnterEvent(self, event):
if self.controller().isSelectToolActive():
self.setCursor(Qt.OpenHandCursor)
QGraphicsItem.hoverEnterEvent(self, event)
# end def
# def hoverMoveEvent(self, event):
# if not self.controller().isSelectToolActive():
# # pass None, but if needed pass self for having a special
# # behavior for the slice helix
# self.controller().toolHoverMove(None, event, flag=True)
# QGraphicsItem.hoverMoveEvent(self, event)
# end def
def hoverLeaveEvent(self, event):
self.setCursor(Qt.ArrowCursor)
QGraphicsItem.hoverLeaveEvent(self, event)
# end def
def mouseMoveEvent(self, event):
"""Snaps handle into place when dragging."""
if not self.controller().isSelectToolActive() or not self._dragMode:
return
x = event.scenePos().x()
dx = int((x - self.pressX)/self._baseWidth)
self.setActiveSlice(self.pressBaseIdx+dx)
def mousePressEvent(self, event):
if event.button() != Qt.LeftButton:
event.ignore()
QGraphicsItem.mousePressEvent(self, event)
return
if not self.controller().isSelectToolActive():
return
self.scene().views()[0].addToPressList(self)
self._dragMode = True
self.pressX = event.scenePos().x()
self.pressBaseIdx = self.activeSlice()
def customMouseRelease(self, eventPosition):
"""Snaps to grid after mouse released. Updates vhelix data according
to what movement took place."""
self._dragMode = False
def moveToLastSlice(self):
"""Moves to the last slice position."""
self.setActiveSlice(self.part().numBases() - 1)
def moveToFirstSlice(self):
"""Moves to the last slice position."""
self.setActiveSlice(0)
