def plot_day_summary2(ax, opens, closes, highs, lows, ticksize=4,
colorup='k', colordown='r',
):
"""
Represent the time, open, close, high, low as a vertical line
ranging from low to high. The left tick is the open and the right
tick is the close.
ax : an Axes instance to plot to
ticksize : size of open and close ticks in points
colorup : the color of the lines where close >= open
colordown : the color of the lines where close < open
return value is a list of lines added
"""
# note this code assumes if any value open, close, low, high is
# missing they all are missing
rangeSegments = [ ((i, low), (i, high)) for i, low, high in zip(xrange(len(lows)), lows, highs) if low != -1 ]
# the ticks will be from ticksize to 0 in points at the origin and
# we'll translate these to the i, close location
openSegments = [ ((-ticksize, 0), (0, 0)) ]
# the ticks will be from 0 to ticksize in points at the origin and
# we'll translate these to the i, close location
closeSegments = [ ((0, 0), (ticksize, 0)) ]
offsetsOpen = [ (i, open) for i, open in zip(xrange(len(opens)), opens) if open != -1 ]
offsetsClose = [ (i, close) for i, close in zip(xrange(len(closes)), closes) if close != -1 ]
scale = ax.figure.dpi * Value(1/72.0)
tickTransform = scale_transform( scale, zero())
r,g,b = colorConverter.to_rgb(colorup)
colorup = r,g,b,1
r,g,b = colorConverter.to_rgb(colordown)
colordown = r,g,b,1
colord = { True : colorup,
False : colordown,
}
colors = [colord[open>=close] for open, close in zip(opens, closes) if open!=-1 and close !=-1]
assert(len(rangeSegments)==len(offsetsOpen))
assert(len(offsetsOpen)==len(offsetsClose))
assert(len(offsetsClose)==len(colors))
useAA = 0, # use tuple here
lw = 1, # and here
rangeCollection = LineCollection(rangeSegments,
colors = colors,
linewidths = lw,
antialiaseds = useAA,
)
openCollection = LineCollection(openSegments,
colors = colors,
antialiaseds = useAA,
linewidths = lw,
offsets = offsetsOpen,
transOffset = ax.transData,
)
openCollection.set_transform(tickTransform)
closeCollection = LineCollection(closeSegments,
colors = colors,
antialiaseds = useAA,
linewidths = lw,
offsets = offsetsClose,
transOffset = ax.transData,
)
closeCollection.set_transform(tickTransform)
minx, maxx = (0, len(rangeSegments))
miny = min([low for low in lows if low !=-1])
maxy = max([high for high in highs if high != -1])
corners = (minx, miny), (maxx, maxy)
ax.update_datalim(corners)
ax.autoscale_view()
# add these last
ax.add_collection(rangeCollection)
ax.add_collection(openCollection)
ax.add_collection(closeCollection)
return rangeCollection, openCollection, closeCollection
def plot_day_summary2(ax, opens, closes, highs, lows, ticksize=4,
colorup='k', colordown='r',
):
"""
Represent the time, open, close, high, low as a vertical line
ranging from low to high. The left tick is the open and the right
tick is the close.
ax : an Axes instance to plot to
ticksize : size of open and close ticks in points
colorup : the color of the lines where close >= open
colordown : the color of the lines where close < open
return value is a list of lines added
"""
# note this code assumes if any value open, close, low, high is
# missing they all are missing
rangeSegments = [ ((i, low), (i, high)) for i, low, high in zip(xrange(len(lows)), lows, highs) if low != -1 ]
# the ticks will be from ticksize to 0 in points at the origin and
# we'll translate these to the i, close location
openSegments = [ ((-ticksize, 0), (0, 0)) ]
# the ticks will be from 0 to ticksize in points at the origin and
# we'll translate these to the i, close location
closeSegments = [ ((0, 0), (ticksize, 0)) ]
offsetsOpen = [ (i, open) for i, open in zip(xrange(len(opens)), opens) if open != -1 ]
offsetsClose = [ (i, close) for i, close in zip(xrange(len(closes)), closes) if close != -1 ]
scale = ax.figure.dpi * Value(1/72.0)
tickTransform = scale_transform( scale, zero())
r,g,b = colorConverter.to_rgb(colorup)
colorup = r,g,b,1
r,g,b = colorConverter.to_rgb(colordown)
colordown = r,g,b,1
colord = { True : colorup,
False : colordown,
}
colors = [colord[open<close] for open, close in zip(opens, closes) if open!=-1 and close !=-1]
assert(len(rangeSegments)==len(offsetsOpen))
assert(len(offsetsOpen)==len(offsetsClose))
assert(len(offsetsClose)==len(colors))
useAA = 0, # use tuple here
lw = 1, # and here
rangeCollection = LineCollection(rangeSegments,
colors = colors,
linewidths = lw,
antialiaseds = useAA,
)
openCollection = LineCollection(openSegments,
colors = colors,
antialiaseds = useAA,
linewidths = lw,
offsets = offsetsOpen,
transOffset = ax.transData,
)
openCollection.set_transform(tickTransform)
closeCollection = LineCollection(closeSegments,
colors = colors,
antialiaseds = useAA,
linewidths = lw,
offsets = offsetsClose,
transOffset = ax.transData,
)
closeCollection.set_transform(tickTransform)
minx, maxx = (0, len(rangeSegments))
miny = min([low for low in lows if low !=-1])
maxy = max([high for high in highs if high != -1])
corners = (minx, miny), (maxx, maxy)
ax.update_datalim(corners)
ax.autoscale_view()
# add these last
ax.add_collection(rangeCollection)
ax.add_collection(openCollection)
ax.add_collection(closeCollection)
return rangeCollection, openCollection, closeCollection