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import os
from gi.repository import Gtk
from pychrysalide import core
from pychrysalide.gtkext import BuiltNamedWidget
from pychrysalide.gtkext import EasyGtk
from pychrysalide.gui import PanelItem
from pychrysalide.gui.panels import UpdatablePanel
from .distro import ByteDistribution
from .entropy import ShannonEntropy
class CGlimpsePanel(PanelItem, UpdatablePanel):
_key = 'cglimpse'
_path = 'Ms'
_working_group_id = core.setup_tiny_global_work_group()
def __init__(self):
"""Initialize the GUI panel."""
directory = os.path.dirname(os.path.realpath(__file__))
filename = os.path.join(directory, 'panel.ui')
widget = BuiltNamedWidget('Content glimpse', 'Binary content glimpse', filename)
super(CGlimpsePanel, self).__init__(widget)
self._builder = self.named_widget.builder
self._builder.connect_signals(self)
self._content = None
combo = self._builder.get_object('method_sel')
self._on_method_changed(combo)
def _change_content(self, old, new):
"""Get notified about a LoadedContent change."""
self._content = new.content if new else None
combo = self._builder.get_object('method_sel')
self._on_method_changed(combo)
def _setup(self, uid):
"""Prepare an update process for a panel."""
assert(uid == 0)
return ( 1, {}, 'Computing data for content glimpse' )
def _introduce(self, uid, data):
"""Introduce the update process and switch display."""
assert(uid == 0)
self.switch_to_updating_mask()
def _process(self, uid, status, id, data):
"""Perform the computing of data to render."""
assert(uid == 0)
self._current.update(self._content.data)
area = self._builder.get_object('content')
area.queue_draw()
def _conclude(self, uid, data):
"""Conclude the update process and display the computed data."""
assert(uid == 0)
self.switch_to_updated_content()
def _clean_data(self, uid, data):
"""Delete dynamically generated objects for the panel update."""
# Not really useful here...
assert(uid == 0)
def _on_method_changed(self, combo):
"""React on method selection change."""
tree_iter = combo.get_active_iter()
if tree_iter:
model = combo.get_model()
key = model[tree_iter][1]
if key == 'shanon':
self._current = ShannonEntropy(self._builder)
else:
assert(key == 'distrib')
self._current = ByteDistribution(self._builder)
self._current.switch()
if self._content:
self.run_update(0)
def _on_options_toggled(self, button):
"""React on options display/hide order."""
lbl = self._builder.get_object('options_label')
common = self._builder.get_object('common_options')
if button.get_active():
button.get_parent().child_set_property(button, 'expand', False)
lbl.set_angle(0)
common.show()
else:
button.get_parent().child_set_property(button, 'expand', True)
lbl.set_angle(90)
common.hide()
def _render_grid(self, widget, cr):
"""Draw a basic empty grid."""
# Colors
color = EasyGtk.get_color_from_style('view', True)
bg_color = [ color.red, color.green, color.blue, color.alpha ]
color = EasyGtk.get_color_from_style('background', False)
line_color = [ color.red, color.green, color.blue, color.alpha ]
# Background
w = widget.get_allocation().width
h = widget.get_allocation().height
cr.set_source_rgba(*bg_color)
cr.rectangle(0, 0, w, h)
cr.fill()
# Area definitions
x_range, y_range = self._current.setup_rendering()
margin_left = 0
margin_bottom = 0
y_count = int((y_range[2] - y_range[0]) / y_range[1])
for i in range(y_count + 1):
text = self._current.format_legend(y_range[0] + i * y_range[1], True)
(_, _, width, height, _, _) = cr.text_extents(text)
if width > margin_left:
margin_left = width
margin_bottom = height
bar_padding = 5
bar_tick = 3
arrow_size = 4
graph_left = bar_padding + margin_left + bar_tick * 3
graph_right = w - 2 * bar_padding
graph_bottom = h - bar_padding - margin_bottom - bar_tick * 3
data_left = graph_left + 2 * bar_padding
data_right = graph_right - 2 * bar_padding
data_top = 5 * bar_padding
data_bottom = graph_bottom - 2 * bar_padding
data_height = data_bottom - data_top
data_width = data_right - data_left
data_area = [ data_left, data_top, data_width, data_height ]
# Grid content #1
cr.set_source_rgba(*line_color)
cr.set_line_width(1)
cr.move_to(graph_left, 2 * bar_padding)
cr.line_to(graph_left, graph_bottom)
cr.line_to(graph_right, graph_bottom)
cr.stroke()
cr.move_to(graph_right, graph_bottom)
cr.line_to(graph_right - arrow_size, graph_bottom - arrow_size)
cr.line_to(graph_right - arrow_size, graph_bottom + arrow_size)
cr.fill()
cr.move_to(graph_left, 2 * bar_padding)
cr.line_to(graph_left - arrow_size, 2 * bar_padding + arrow_size)
cr.line_to(graph_left + arrow_size, 2 * bar_padding + arrow_size)
cr.fill()
cr.set_source_rgba(0, 0, 0, 0.2)
cr.rectangle(*data_area)
cr.fill()
# Grid content #2
y_count = int((y_range[2] - y_range[0]) / y_range[1])
for i in range(y_count + 1):
y = data_bottom - (i * data_height) / y_count
# Line
cr.save()
cr.set_source_rgba(*line_color[:3], line_color[3] * 0.4)
cr.set_dash([ 2 * bar_tick, 6 * bar_tick ])
cr.move_to(graph_left + 6 * bar_tick, y)
cr.line_to(data_right, y)
cr.stroke()
cr.restore()
# Tick
cr.set_source_rgba(*line_color)
cr.move_to(graph_left - bar_tick, y)
cr.line_to(graph_left + bar_tick, y)
cr.stroke()
# Text
text = self._current.format_legend(y_range[0] + i * y_range[1], True)
_, _, tw, th, _, _ = cr.text_extents(text)
x = graph_left - 3 * bar_tick - tw
cr.move_to(x, y + th / 2)
cr.show_text(text)
x_count = int((x_range[2] - x_range[0]) / x_range[1])
for i in range(x_count + 1):
x = data_left + (i * data_width) / x_count
# Line
cr.save()
cr.set_source_rgba(*line_color[:3], line_color[3] * 0.4)
cr.set_dash([ 2 * bar_tick, 6 * bar_tick ])
cr.move_to(x, data_top)
cr.line_to(x, data_bottom)
cr.stroke()
cr.restore()
# Tick
cr.set_source_rgba(*line_color)
cr.move_to(x, graph_bottom - bar_tick)
cr.line_to(x, graph_bottom + bar_tick)
cr.stroke()
# Text
text = self._current.format_legend(x_range[0] + i * x_range[1], False)
_, _, tw, th, _, _ = cr.text_extents(text)
y = graph_bottom + 3 * bar_tick + th
cr.move_to(x - tw / 2, y)
cr.show_text(text)
return data_area
def _render_content_glimpse(self, widget, cr):
"""Draw the selected content view."""
data_area = self._render_grid(widget, cr)
if self._content:
self._current.render(cr, data_area)
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