deluge/plugins/NetworkGraph/plugin.py

170 lines
5.5 KiB
Python

# netgraph plugin
class plugin_NetGraph:
def __init__(self, path, deluge_core, deluge_interface):
import gtk
self.parent = deluge_interface
self.location = path
self.core = deluge_core
self.image = gtk.Image()
self.viewPort = gtk.Viewport()
self.viewPort.add(self.image)
self.scrolledWindow = gtk.ScrolledWindow()
self.scrolledWindow.add(self.viewPort)
self.scrolledWindow.set_policy(gtk.POLICY_AUTOMATIC, gtk.POLICY_AUTOMATIC)
self.topWidget = self.scrolledWindow
self.parentNotebook = self.parent.notebook
# print "Parent NOTEBOOK:", self.parentNotebook
self.parentNotebook.append_page(self.topWidget, gtk.Label("Graph"))
# print "My INDEX in parentNoteBook:", self.index
self.image.show()
self.viewPort.show()
self.scrolledWindow.show()
self.length = 60
self.width = -1
self.height = -1
import pango
self.pangoContext = self.parent.window.get_pango_context()
self.pangoLayout = pango.Layout(self.pangoContext)
self.savedUpSpeeds = []
self.savedDownSpeeds = []
self.bootupRuns = 3 # This ensures that we pass the resizing phase, with scrollbars, etc.
# So the first time it is viewed, we are all ready
def unload(self): # Shutdown is called when the plugin is deactivated
numPages = self.parentNotebook.get_n_pages()
for page in range(numPages):
if self.parentNotebook.get_nth_page(page) == self.topWidget:
self.parentNotebook.remove_page(page)
break
def configure(self):
pass
def update(self):
import gtk
session_info = self.core.get_state()
self.savedUpSpeeds.insert(0, session_info['upload_rate'])
if len(self.savedUpSpeeds) > self.length:
self.savedUpSpeeds.pop()
self.savedDownSpeeds.insert(0, session_info['download_rate'])
if len(self.savedDownSpeeds) > self.length:
self.savedDownSpeeds.pop()
if not self.parentNotebook.get_nth_page(self.parentNotebook.get_current_page()) == \
self.topWidget and not self.bootupRuns > 0:
return
self.bootupRuns = max(self.bootupRuns - 1, 0)
extraWidth = self.scrolledWindow.get_vscrollbar().get_allocation().width * 1.5
extraHeight = self.scrolledWindow.get_hscrollbar().get_allocation().height * 1.5
allocation = self.scrolledWindow.get_allocation()
allocation.width = int(allocation.width) - extraWidth
allocation.height = int(allocation.height) - extraHeight
# Don't try to allocate a size too small, or you might crash
if allocation.width < 2 or allocation.height < 2:
return
# savedDownSpeeds = [1,2,3,2,1]
# savedUpSpeeds = [5,8,0,0,1,2]
# allocation = self.image.get_allocation()
# allocation.width = 300
# allocation.height = 200
if not allocation.width == self.width or not allocation.height == self.height:
# print "New Pixmap!"
self.width = allocation.width
self.height = allocation.height
self.networkPixmap = gtk.gdk.Pixmap(None, self.width, self.height, 24)
self.image.set_from_pixmap(self.networkPixmap, None)
self.ctx = self.networkPixmap.cairo_create()
self.networkPixmap.draw_rectangle(self.image.get_style().white_gc,True, 0, 0, self.width, self.height)
maxSpeed = max(max(self.savedDownSpeeds),max(self.savedUpSpeeds))
if maxSpeed == 0:
return
maxSpeed = maxSpeed*1.1 # Give some extra room on top
self.drawSpeedPoly(self.savedDownSpeeds, (0.5,1, 0.5, 1.0), maxSpeed, True)
self.drawSpeedPoly(self.savedDownSpeeds, (0, 0.75,0, 1.0), maxSpeed, False)
self.drawSpeedPoly(self.savedUpSpeeds, (0.33,0.33,1.0, 0.5), maxSpeed, True)
self.drawSpeedPoly(self.savedUpSpeeds, (0, 0, 1.0, 0.75), maxSpeed, False)
meanUpSpeed = sum(self.savedUpSpeeds) /len(self.savedUpSpeeds)
meanDownSpeed = sum(self.savedDownSpeeds)/len(self.savedDownSpeeds)
shownSpeed = max(meanUpSpeed, meanDownSpeed)
import common
self.pangoLayout.set_text(common.frate(shownSpeed))
self.networkPixmap.draw_layout(self.image.get_style().black_gc,
4,
int(self.height - 1 - (self.height*shownSpeed/maxSpeed)),
self.pangoLayout)
self.networkPixmap.draw_line(self.image.get_style().black_gc,
0, int(self.height - (self.height*shownSpeed/maxSpeed)),
self.width, int(self.height - (self.height*shownSpeed/maxSpeed)))
self.networkPixmap.draw_rectangle(self.image.get_style().black_gc,False, 0, 0, self.width-1, self.height-1)
self.image.queue_draw()
def tracePath(self, speeds, maxSpeed):
lineWidth = 4
self.ctx.set_line_width(lineWidth)
self.ctx.move_to(self.width + lineWidth,self.height + lineWidth)
self.ctx.line_to(self.width + lineWidth,int(self.height-(self.height*speeds[0]/maxSpeed)))
for i in range(len(speeds)):
self.ctx.line_to(int(self.width-1-((i*self.width)/(self.length-1))),
int(self.height-1-(self.height*speeds[i]/maxSpeed)))
self.ctx.line_to(int(self.width-1-(((len(speeds)-1)*self.width)/(self.length-1))),
int(self.height)-1 + lineWidth)
self.ctx.close_path()
def drawSpeedPoly(self, speeds, color, maxSpeed, fill):
self.tracePath(speeds, maxSpeed)
self.ctx.set_source_rgba(color[0],color[1],color[2], color[3])
if fill:
self.ctx.fill()
else:
self.ctx.stroke()
### Register plugin with Deluge
register_plugin("Network Activity Graph", # The name of the plugin
plugin_NetGraph, # The plugin's class
"Alon Zakai, Zach Tibbitts", # Authors
"0.2", # The plugin's version number
"Network Activity Graph plugin\n\nWritten by Kripkenstein", # A description of the plugin
config=False, # If the plugin can be configured
)