/usr/lib/python2.7/dist-packages/timechart/plot.py is in pytimechart 1.0.0~rc1-3.2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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ScatterPlot, PlotAxis, PlotGrid,OverlayPlotContainer, VPlotContainer,add_default_axes, \
add_default_grids,VPlotContainer
from chaco.tools.api import PanTool, ZoomTool,RangeSelection,RangeSelectionOverlay
from chaco.api import create_line_plot
from traitsui.api import View,Item,VGroup,HGroup
from traits.api import HasTraits,DelegatesTo,Trait
from traits.api import Float, Instance, Int,Bool,Str,Unicode,Enum,Button
from chaco.api import AbstractOverlay, BaseXYPlot
from chaco.label import Label
from kiva.trait_defs.kiva_font_trait import KivaFont
from enable.api import black_color_trait, KeySpec
from model import tcProject
from colors import get_aggcolor_by_id,get_color_id
import tools
from numpy import linspace,arange,amin,amax
from math import log
from numpy import array, ndarray,argmax,searchsorted,mean
from numpy import array, compress, column_stack, invert, isnan, transpose, zeros,ones
from traits.api import List
from enable.colors import ColorTrait
from pyface.timer import timer
process_colors=[0x000000,0x555555,0xffff88,0x55ffff,0xAD2D2D, 0xeeeeee,0xeeaaaa,0xaaaaee,0xee0000]
class TimeChartOptions(HasTraits):
remove_pids_not_on_screen = Bool(True)
show_wake_events = Bool(False)
show_p_states = Bool(True)
show_c_states = Bool(True)
auto_zoom_y = Bool(True)
use_overview = Bool(True)
proj = tcProject
def connect(self,plot):
self.auto_zoom_timer = timer.Timer(300,self._auto_zoom_y_delayed)
self.auto_zoom_timer.Stop()
self.plot = plot
def _minimum_time_filter_changed(self):
self.plot.invalidate()
def _remove_pids_not_on_screen_changed(self):
self.plot.invalidate()
def _show_wake_events_changed(self):
self.plot.invalidate()
def _show_p_states_changed(self):
self.plot.invalidate()
def _show_c_states_changed(self):
self.plot.invalidate()
def _use_overview_changed(self):
self.plot.invalidate()
def _auto_zoom_y_changed(self,val):
self.plot.auto_zoom_y()
self.auto_zoom_timer.Stop()
def _auto_zoom_y_delayed(self):
self.plot.auto_zoom_y()
self.auto_zoom_timer.Stop()
def _on_toggle_autohide(self, value):
self.remove_pids_not_on_screen = value
def _on_toggle_wakes(self, value):
self.show_wake_events = value
def _on_toggle_cpuidle(self, value):
self.show_c_states = value
def _on_toggle_cpufreq(self, value):
self.show_p_states = value
def _on_toggle_auto_zoom_y(self, value):
self.auto_zoom_y = value
def _on_toggle_overview(self, value):
self.use_overview = value
class TextView(HasTraits):
text = Str
save = Button()
def __init__(self,text,title):
self.text = text
self.trait_view().title = title
traits_view = View(
Item('text',style="custom",show_label=False),
HGroup(
Item('save'),
show_labels = False),
resizable = True,
width = 1024,
height = 600,
)
def _save_changed(self):
from window import save_dialog
fn = save_dialog()
if fn:
try:
f = open(fn,"w")
f.write(self.text)
f.close()
except:
print "unable to write file..."
class RangeSelectionTools(HasTraits):
time = Str
start = 0
end = 0
def connect(self,plot):
self.plot = plot
plot.range_selection.on_trait_change(self._selection_update_handler, "selection")
self._timer = timer.Timer(100,self._selection_updated_delayed)
self._timer.Stop()
def _selection_update_handler(self,value):
if value is not None :
self.start, self.end = amin(value), amax(value)
time = self.end-self.start
self.time = "%d.%03d %03ds"%(time/1000000,(time/1000)%1000,time%1000)
self.plot.immediate_invalidate()
self._timer.Stop()
self._timer.Start()
else:
self.start = 0
self.end = 0
def _on_zoom(self):
if self.end != self.start:
self.plot.index_range.high = self.end
self.plot.index_range.low = self.start
self.plot.range_selection.deselect()
self.plot.invalidate_draw()
self.plot.request_redraw()
def _on_unzoom(self):
self.plot.index_range.high = self.plot.highest_i
self.plot.index_range.low = self.plot.lowest_i
self.plot.invalidate_draw()
self.plot.request_redraw()
def _on_trace_text(self):
if self.end != self.start:
text = self.plot.proj.get_selection_text(self.start,self.end)
text_view = TextView(text,"%s:[%d:%d]"%(self.plot.proj.filename,self.start,self.end))
text_view.edit_traits()
def _selection_updated_delayed(self):
self.plot.proj.process_stats(self.start,self.end)
self._timer.Stop()
class tcPlot(BarPlot):
"""custom plot to draw the timechart
probably not very 'chacotic' We draw the chart as a whole
"""
# The text of the axis title.
title = Trait('', Str, Unicode) #May want to add PlotLabel option
# The font of the title.
title_font = KivaFont('modern 9')
# The font of the title.
title_font_large = KivaFont('modern 15')
# The font of the title.
title_font_huge = KivaFont('modern 20')
# The spacing between the axis line and the title
title_spacing = Trait('auto', 'auto', Float)
# The color of the title.
title_color = ColorTrait("black")
not_on_screen = List
on_screen = List
options = TimeChartOptions()
range_tools = RangeSelectionTools()
redraw_timer = None
def invalidate(self):
self.invalidate_draw()
self.request_redraw()
def immediate_invalidate(self):
self.invalidate_draw()
self.request_redraw_delayed()
def request_redraw_delayed(self):
self.redraw_timer.Stop()
BarPlot.request_redraw(self)
def request_redraw(self):
if self.redraw_timer == None:
self.redraw_timer = timer.Timer(30,self.request_redraw_delayed)
self.redraw_timer.Start()
def auto_zoom_y(self):
if self.value_range.high != self.max_y+1 or self.value_range.low != self.min_y:
self.value_range.high = self.max_y+1
self.value_range.low = self.min_y
self.invalidate_draw()
self.request_redraw()
def _gather_timechart_points(self,start_ts,end_ts,y,step):
low_i = searchsorted(end_ts,self.index_mapper.range.low)
high_i = searchsorted(start_ts,self.index_mapper.range.high)
if low_i==high_i:
return array([])
start_ts = start_ts[low_i:high_i]
end_ts = end_ts[low_i:high_i]
points = column_stack((start_ts,end_ts,
zeros(high_i-low_i)+(y+step), ones(high_i-low_i)+(y-step),array(range(low_i,high_i))))
return points
def _draw_label(self,gc,label,text,x,y):
label.text = text
l_w,l_h = label.get_width_height(gc)
offset = array((x,y-l_h/2))
gc.translate_ctm(*offset)
label.draw(gc)
gc.translate_ctm(*(-offset))
return l_w,l_h
def _draw_timechart(self,gc,tc,label,base_y):
bar_middle_y = self.first_bar_y+(base_y+.5)*self.bar_height
points = self._gather_timechart_points(tc.start_ts,tc.end_ts,base_y,.2)
overview = None
if self.options.use_overview:
if points.size > 500:
overview = tc.get_overview_ts(self.overview_threshold)
points = self._gather_timechart_points(overview[0],overview[1],base_y,.2)
if self.options.remove_pids_not_on_screen and points.size == 0:
return 0
if bar_middle_y+self.bar_height < self.y or bar_middle_y-self.bar_height>self.y+self.height:
return 1 #quickly decide we are not on the screen
self._draw_bg(gc,base_y,tc.bg_color)
# we are too short in height, dont display all the labels
if self.last_label >= bar_middle_y:
# draw label
l_w,l_h = self._draw_label(gc,label,tc.name,self.x,bar_middle_y)
self.last_label = bar_middle_y-8
else:
l_w,l_h = 0,0
if points.size != 0:
# draw the middle line from end of label to end of screen
if l_w != 0: # we did not draw label because too short on space
gc.set_alpha(0.2)
gc.move_to(self.x+l_w,bar_middle_y)
gc.line_to(self.x+self.width,bar_middle_y)
gc.draw_path()
gc.set_alpha(0.5)
# map the bars start and stop locations into screen space
lower_left_pts = self.map_screen(points[:,(0,2)])
upper_right_pts = self.map_screen(points[:,(1,3)])
bounds = upper_right_pts - lower_left_pts
if overview: # critical path, we only draw unicolor rects
#calculate the mean color
#print points.size
gc.set_fill_color(get_aggcolor_by_id(get_color_id("overview")))
gc.set_alpha(.9)
rects=column_stack((lower_left_pts, bounds))
gc.rects(rects)
gc.draw_path()
else:
# lets display them more nicely
rects=column_stack((lower_left_pts, bounds,points[:,(4)]))
last_t = -1
gc.save_state()
for x,y,sx,sy,i in rects:
t = tc.types[i]
if last_t != t:
# only draw when we change color. agg will then simplify the path
# note that a path only can only have one color in agg.
gc.draw_path()
gc.set_fill_color(get_aggcolor_by_id(int(t)))
last_t = t
gc.rect(x,y,sx,sy)
# draw last path
gc.draw_path()
if tc.has_comments:
for x,y,sx,sy,i in rects:
if sx<8: # not worth calculatig text size
continue
label.text = tc.get_comment(i)
l_w,l_h = label.get_width_height(gc)
if l_w < sx:
offset = array((x,y+self.bar_height*.6/2-l_h/2))
gc.translate_ctm(*offset)
label.draw(gc)
gc.translate_ctm(*(-offset))
if tc.max_latency > 0: # emphase events where max_latency is reached
ts = tc.max_latency_ts
if ts.size>0:
points = self._gather_timechart_points(ts,ts,base_y,0)
if points.size>0:
# map the bars start and stop locations into screen space
gc.set_alpha(1)
lower_left_pts = self.map_screen(points[:,(0,2)])
upper_right_pts = self.map_screen(points[:,(1,3)])
bounds = upper_right_pts - lower_left_pts
rects=column_stack((lower_left_pts, bounds))
gc.rects(rects)
gc.draw_path()
return 1
def _draw_freqchart(self,gc,tc,label,y):
self._draw_bg(gc,y,tc.bg_color)
low_i = searchsorted(tc.start_ts,self.index_mapper.range.low)
high_i = searchsorted(tc.start_ts,self.index_mapper.range.high)
if low_i>0:
low_i -=1
if high_i<len(tc.start_ts):
high_i +=1
if low_i>=high_i-1:
return array([])
start_ts = tc.start_ts[low_i:high_i-1]
end_ts = tc.start_ts[low_i+1:high_i]
values = (tc.types[low_i:high_i-1]/(float(tc.max_types)))+y
starts = column_stack((start_ts,values))
ends = column_stack((end_ts,values))
starts = self.map_screen(starts)
ends = self.map_screen(ends)
gc.begin_path()
gc.line_set(starts, ends)
gc.stroke_path()
for i in xrange(len(starts)):
x1,y1 = starts[i]
x2,y2 = ends[i]
sx = x2-x1
if sx >8:
label.text = str(tc.types[low_i+i])
l_w,l_h = label.get_width_height(gc)
if l_w < sx:
if x1<0:x1=0
offset = array((x1,y1))
gc.translate_ctm(*offset)
label.draw(gc)
gc.translate_ctm(*(-offset))
def _draw_wake_ups(self,gc,processes_y):
low_i = searchsorted(self.proj.wake_events['time'],self.index_mapper.range.low)
high_i = searchsorted(self.proj.wake_events['time'],self.index_mapper.range.high)
gc.set_stroke_color((0,0,0,.6))
for i in xrange(low_i,high_i):
waker,wakee,ts = self.proj.wake_events[i]
if processes_y.has_key(wakee) and processes_y.has_key(waker):
y1 = processes_y[wakee]
y2 = processes_y[waker]
x,y = self.map_screen(array((ts,y1)))
gc.move_to(x,y)
y2 = processes_y[waker]
x,y = self.map_screen(array((ts,y2)))
gc.line_to(x,y)
x,y = self.map_screen(array((ts,(y1+y2)/2)))
if y1 > y2:
y+=5
dy=-5
else:
y-=5
dy=+5
gc.move_to(x,y)
gc.line_to(x-3,y+dy)
gc.move_to(x,y)
gc.line_to(x+3,y+dy)
gc.draw_path()
def _draw_bg(self,gc,y,color):
gc.set_alpha(1)
gc.set_line_width(0)
gc.set_fill_color(color)
this_bar_y = self.map_screen(array((0,y)))[1]
gc.rect(self.x, this_bar_y, self.width, self.bar_height)
gc.draw_path()
gc.set_line_width(self.line_width)
gc.set_alpha(0.5)
def _draw_plot(self, gc, view_bounds=None, mode="normal"):
gc.save_state()
gc.clip_to_rect(self.x, self.y, self.width, self.height)
gc.set_antialias(1)
gc.set_stroke_color(self.line_color_)
gc.set_line_width(self.line_width)
self.first_bar_y = self.map_screen(array((0,0)))[1]
self.last_label = self.height+self.y
self.bar_height = self.map_screen(array((0,1)))[1]-self.first_bar_y
self.max_y = y = self.proj.num_cpu*2+self.proj.num_process-1
if self.bar_height>15:
font = self.title_font_large
else:
font = self.title_font
label = Label(text="",
font=font,
color=self.title_color,
rotate_angle=0)
# we unmap four pixels on screen, and find the nearest greater power of two
# this by rounding the log2, and then exponentiate again
# as the overview data is cached, this avoids using too much memory
four_pixels = self.index_mapper.map_data(array((0,4)))
self.overview_threshold = 1<<int(log(1+int(four_pixels[1] - four_pixels[0]),2))
for i in xrange(len(self.proj.c_states)):
tc = self.proj.c_states[i]
if self.options.show_c_states:
self._draw_timechart(gc,tc,label,y)
y-=1
tc = self.proj.p_states[i]
if self.options.show_p_states:
self._draw_freqchart(gc,tc,label,y)
y-=1
processes_y = {0xffffffffffffffffL:y+1}
not_on_screen = []
on_screen = []
for tc in self.proj.processes:
if tc.show==False:
continue
processes_y[(tc.comm,tc.pid)] = y+.5
if self._draw_timechart(gc,tc,label,y) or not self.options.remove_pids_not_on_screen:
y-=1
on_screen.append(tc)
else:
not_on_screen.append(tc)
self.not_on_screen = not_on_screen
self.on_screen = on_screen
if self.options.show_wake_events:
self._draw_wake_ups(gc,processes_y)
message = ""
if self.proj.filename=="dummy":
message = "please load a trace file in the 'file' menu"
elif len(self.proj.processes)==0:
message = "no processes??! is your trace empty?"
if message:
label.text = message
label.font = self.title_font_huge
gc.translate_ctm(100,(self.y+self.height)/2)
label.draw(gc)
gc.restore_state()
self.min_y = y
if self.options.auto_zoom_y:
self.options.auto_zoom_timer.Start()
def _on_hide_others(self):
for i in self.not_on_screen:
i.show = False
self.invalidate_draw()
self.request_redraw()
def _on_hide_onscreen(self):
for i in self.on_screen:
i.show = False
self.invalidate_draw()
self.request_redraw()
def create_timechart_container(project):
""" create a vplotcontainer which connects all the inside plots to synchronize their index_range """
# find index limits
low = 1<<64
high = 0
for i in xrange(len(project.c_states)):
if len(project.c_states[i].start_ts):
low = min(low,project.c_states[i].start_ts[0])
high = max(high,project.c_states[i].end_ts[-1])
if len(project.p_states[i].start_ts):
low = min(low,project.p_states[i].start_ts[0])
high = max(high,project.p_states[i].start_ts[-1])
for tc in project.processes:
if len(tc.start_ts):
low = min(low,tc.start_ts[0])
high = max(high,tc.end_ts[-1])
project.process_stats(low,high)
if low > high:
low=0
high=1
# we have the same x_mapper/range for each plots
index_range = DataRange1D(low=low, high=high)
index_mapper = LinearMapper(range=index_range,domain_limit=(low,high))
value_range = DataRange1D(low=0, high=project.num_cpu*2+project.num_process)
value_mapper = LinearMapper(range=value_range,domain_limit=(0,project.num_cpu*2+project.num_process))
index = ArrayDataSource(array((low,high)), sort_order="ascending")
plot = tcPlot(index=index,
proj=project, bgcolor="white",padding=(0,0,0,40),
use_backbuffer = True,
fill_padding = True,
value_mapper = value_mapper,
index_mapper=index_mapper,
line_color="black",
render_style='hold',
line_width=1)
plot.lowest_i = low
plot.highest_i = high
project.on_trait_change(plot.invalidate, "plot_redraw")
project.on_trait_change(plot.invalidate, "selected")
max_process = 50
if value_range.high>max_process:
value_range.low = value_range.high-max_process
# Attach some tools
plot.tools.append(tools.myPanTool(plot,drag_button='left'))
zoom = tools.myZoomTool(component=plot, tool_mode="range", always_on=True,axis="index",drag_button=None)
plot.tools.append(zoom)
plot.range_selection = tools.myRangeSelection(plot,resize_margin=3)
plot.tools.append(plot.range_selection)
plot.overlays.append(RangeSelectionOverlay(component=plot,axis="index",use_backbuffer=True))
axe = PlotAxis(orientation='bottom',title='time',mapper=index_mapper,component=plot)
plot.underlays.append(axe)
plot.options.connect(plot)
plot.range_tools.connect(plot)
return plot
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