blob: bcdf572a769f58992eb44990cbafe32e30effbc8 [file] [log] [blame] [edit]
#!/usr/bin/python
"""
Step file creator/editor.
@copyright: Red Hat Inc 2009
@author: mgoldish@redhat.com (Michael Goldish)
@version: "20090401"
"""
import pygtk, gtk, os, glob, shutil, sys, logging
import common, ppm_utils
pygtk.require('2.0')
# General utilities
def corner_and_size_clipped(startpoint, endpoint, limits):
c0 = startpoint[:]
c1 = endpoint[:]
if c0[0] < 0:
c0[0] = 0
if c0[1] < 0:
c0[1] = 0
if c1[0] < 0:
c1[0] = 0
if c1[1] < 0:
c1[1] = 0
if c0[0] > limits[0] - 1:
c0[0] = limits[0] - 1
if c0[1] > limits[1] - 1:
c0[1] = limits[1] - 1
if c1[0] > limits[0] - 1:
c1[0] = limits[0] - 1
if c1[1] > limits[1] - 1:
c1[1] = limits[1] - 1
return ([min(c0[0], c1[0]),
min(c0[1], c1[1])],
[abs(c1[0] - c0[0]) + 1,
abs(c1[1] - c0[1]) + 1])
def key_event_to_qemu_string(event):
keymap = gtk.gdk.keymap_get_default()
keyvals = keymap.get_entries_for_keycode(event.hardware_keycode)
keyval = keyvals[0][0]
keyname = gtk.gdk.keyval_name(keyval)
dict = { "Return": "ret",
"Tab": "tab",
"space": "spc",
"Left": "left",
"Right": "right",
"Up": "up",
"Down": "down",
"F1": "f1",
"F2": "f2",
"F3": "f3",
"F4": "f4",
"F5": "f5",
"F6": "f6",
"F7": "f7",
"F8": "f8",
"F9": "f9",
"F10": "f10",
"F11": "f11",
"F12": "f12",
"Escape": "esc",
"minus": "minus",
"equal": "equal",
"BackSpace": "backspace",
"comma": "comma",
"period": "dot",
"slash": "slash",
"Insert": "insert",
"Delete": "delete",
"Home": "home",
"End": "end",
"Page_Up": "pgup",
"Page_Down": "pgdn",
"Menu": "menu",
"semicolon": "0x27",
"backslash": "0x2b",
"apostrophe": "0x28",
"grave": "0x29",
"less": "0x2b",
"bracketleft": "0x1a",
"bracketright": "0x1b",
"Super_L": "0xdc",
"Super_R": "0xdb",
}
if ord('a') <= keyval <= ord('z') or ord('0') <= keyval <= ord('9'):
str = keyname
elif keyname in dict.keys():
str = dict[keyname]
else:
return ""
if event.state & gtk.gdk.CONTROL_MASK:
str = "ctrl-" + str
if event.state & gtk.gdk.MOD1_MASK:
str = "alt-" + str
if event.state & gtk.gdk.SHIFT_MASK:
str = "shift-" + str
return str
class StepMakerWindow:
# Constructor
def __init__(self):
# Window
self.window = gtk.Window(gtk.WINDOW_TOPLEVEL)
self.window.set_title("Step Maker Window")
self.window.connect("delete-event", self.delete_event)
self.window.connect("destroy", self.destroy)
self.window.set_default_size(600, 800)
# Main box (inside a frame which is inside a VBox)
self.menu_vbox = gtk.VBox()
self.window.add(self.menu_vbox)
self.menu_vbox.show()
frame = gtk.Frame()
frame.set_border_width(10)
frame.set_shadow_type(gtk.SHADOW_NONE)
self.menu_vbox.pack_end(frame)
frame.show()
self.main_vbox = gtk.VBox(spacing=10)
frame.add(self.main_vbox)
self.main_vbox.show()
# EventBox
self.scrolledwindow = gtk.ScrolledWindow()
self.scrolledwindow.set_policy(gtk.POLICY_AUTOMATIC,
gtk.POLICY_AUTOMATIC)
self.scrolledwindow.set_shadow_type(gtk.SHADOW_NONE)
self.main_vbox.pack_start(self.scrolledwindow)
self.scrolledwindow.show()
table = gtk.Table(1, 1)
self.scrolledwindow.add_with_viewport(table)
table.show()
table.realize()
self.event_box = gtk.EventBox()
table.attach(self.event_box, 0, 1, 0, 1, gtk.EXPAND, gtk.EXPAND)
self.event_box.show()
self.event_box.realize()
# Image
self.image = gtk.Image()
self.event_box.add(self.image)
self.image.show()
# Data VBox
self.data_vbox = gtk.VBox(spacing=10)
self.main_vbox.pack_start(self.data_vbox, expand=False)
self.data_vbox.show()
# User VBox
self.user_vbox = gtk.VBox(spacing=10)
self.main_vbox.pack_start(self.user_vbox, expand=False)
self.user_vbox.show()
# Screendump ID HBox
box = gtk.HBox(spacing=10)
self.data_vbox.pack_start(box)
box.show()
label = gtk.Label("Screendump ID:")
box.pack_start(label, False)
label.show()
self.entry_screendump = gtk.Entry()
self.entry_screendump.set_editable(False)
box.pack_start(self.entry_screendump)
self.entry_screendump.show()
label = gtk.Label("Time:")
box.pack_start(label, False)
label.show()
self.entry_time = gtk.Entry()
self.entry_time.set_editable(False)
self.entry_time.set_width_chars(10)
box.pack_start(self.entry_time, False)
self.entry_time.show()
# Comment HBox
box = gtk.HBox(spacing=10)
self.data_vbox.pack_start(box)
box.show()
label = gtk.Label("Comment:")
box.pack_start(label, False)
label.show()
self.entry_comment = gtk.Entry()
box.pack_start(self.entry_comment)
self.entry_comment.show()
# Sleep HBox
box = gtk.HBox(spacing=10)
self.data_vbox.pack_start(box)
box.show()
self.check_sleep = gtk.CheckButton("Sleep:")
self.check_sleep.connect("toggled", self.event_check_sleep_toggled)
box.pack_start(self.check_sleep, False)
self.check_sleep.show()
self.spin_sleep = gtk.SpinButton(gtk.Adjustment(0, 0, 50000, 1, 10, 0),
climb_rate=0.0)
box.pack_start(self.spin_sleep, False)
self.spin_sleep.show()
# Barrier HBox
box = gtk.HBox(spacing=10)
self.data_vbox.pack_start(box)
box.show()
self.check_barrier = gtk.CheckButton("Barrier:")
self.check_barrier.connect("toggled", self.event_check_barrier_toggled)
box.pack_start(self.check_barrier, False)
self.check_barrier.show()
vbox = gtk.VBox()
box.pack_start(vbox)
vbox.show()
self.label_barrier_region = gtk.Label("Region:")
self.label_barrier_region.set_alignment(0, 0.5)
vbox.pack_start(self.label_barrier_region)
self.label_barrier_region.show()
self.label_barrier_md5sum = gtk.Label("MD5:")
self.label_barrier_md5sum.set_alignment(0, 0.5)
vbox.pack_start(self.label_barrier_md5sum)
self.label_barrier_md5sum.show()
self.label_barrier_timeout = gtk.Label("Timeout:")
box.pack_start(self.label_barrier_timeout, False)
self.label_barrier_timeout.show()
self.spin_barrier_timeout = gtk.SpinButton(gtk.Adjustment(0, 0, 50000,
1, 10, 0),
climb_rate=0.0)
box.pack_start(self.spin_barrier_timeout, False)
self.spin_barrier_timeout.show()
self.check_barrier_optional = gtk.CheckButton("Optional")
box.pack_start(self.check_barrier_optional, False)
self.check_barrier_optional.show()
# Keystrokes HBox
box = gtk.HBox(spacing=10)
self.data_vbox.pack_start(box)
box.show()
label = gtk.Label("Keystrokes:")
box.pack_start(label, False)
label.show()
frame = gtk.Frame()
frame.set_shadow_type(gtk.SHADOW_IN)
box.pack_start(frame)
frame.show()
self.text_buffer = gtk.TextBuffer()
self.entry_keys = gtk.TextView(self.text_buffer)
self.entry_keys.set_wrap_mode(gtk.WRAP_WORD)
self.entry_keys.connect("key-press-event", self.event_key_press)
frame.add(self.entry_keys)
self.entry_keys.show()
self.check_manual = gtk.CheckButton("Manual")
self.check_manual.connect("toggled", self.event_manual_toggled)
box.pack_start(self.check_manual, False)
self.check_manual.show()
button = gtk.Button("Clear")
button.connect("clicked", self.event_clear_clicked)
box.pack_start(button, False)
button.show()
# Mouse click HBox
box = gtk.HBox(spacing=10)
self.data_vbox.pack_start(box)
box.show()
label = gtk.Label("Mouse action:")
box.pack_start(label, False)
label.show()
self.button_capture = gtk.Button("Capture")
box.pack_start(self.button_capture, False)
self.button_capture.show()
self.check_mousemove = gtk.CheckButton("Move: ...")
box.pack_start(self.check_mousemove, False)
self.check_mousemove.show()
self.check_mouseclick = gtk.CheckButton("Click: ...")
box.pack_start(self.check_mouseclick, False)
self.check_mouseclick.show()
self.spin_sensitivity = gtk.SpinButton(gtk.Adjustment(1, 1, 100, 1, 10,
0),
climb_rate=0.0)
box.pack_end(self.spin_sensitivity, False)
self.spin_sensitivity.show()
label = gtk.Label("Sensitivity:")
box.pack_end(label, False)
label.show()
self.spin_latency = gtk.SpinButton(gtk.Adjustment(10, 1, 500, 1, 10, 0),
climb_rate=0.0)
box.pack_end(self.spin_latency, False)
self.spin_latency.show()
label = gtk.Label("Latency:")
box.pack_end(label, False)
label.show()
self.handler_event_box_press = None
self.handler_event_box_release = None
self.handler_event_box_scroll = None
self.handler_event_box_motion = None
self.handler_event_box_expose = None
self.window.realize()
self.window.show()
self.clear_state()
# Utilities
def message(self, text, title):
dlg = gtk.MessageDialog(self.window,
gtk.DIALOG_MODAL | gtk.DIALOG_DESTROY_WITH_PARENT,
gtk.MESSAGE_INFO,
gtk.BUTTONS_CLOSE,
title)
dlg.set_title(title)
dlg.format_secondary_text(text)
response = dlg.run()
dlg.destroy()
def question_yes_no(self, text, title):
dlg = gtk.MessageDialog(self.window,
gtk.DIALOG_MODAL | gtk.DIALOG_DESTROY_WITH_PARENT,
gtk.MESSAGE_QUESTION,
gtk.BUTTONS_YES_NO,
title)
dlg.set_title(title)
dlg.format_secondary_text(text)
response = dlg.run()
dlg.destroy()
if response == gtk.RESPONSE_YES:
return True
return False
def inputdialog(self, text, title, default_response=""):
# Define a little helper function
def inputdialog_entry_activated(entry):
dlg.response(gtk.RESPONSE_OK)
# Create the dialog
dlg = gtk.MessageDialog(self.window,
gtk.DIALOG_MODAL | gtk.DIALOG_DESTROY_WITH_PARENT,
gtk.MESSAGE_QUESTION,
gtk.BUTTONS_OK_CANCEL,
title)
dlg.set_title(title)
dlg.format_secondary_text(text)
# Create an entry widget
entry = gtk.Entry()
entry.set_text(default_response)
entry.connect("activate", inputdialog_entry_activated)
dlg.vbox.pack_start(entry)
entry.show()
# Run the dialog
response = dlg.run()
dlg.destroy()
if response == gtk.RESPONSE_OK:
return entry.get_text()
return None
def filedialog(self, title=None, default_filename=None):
chooser = gtk.FileChooserDialog(title=title, parent=self.window,
action=gtk.FILE_CHOOSER_ACTION_OPEN,
buttons=(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL, gtk.STOCK_OPEN,
gtk.RESPONSE_OK))
chooser.resize(700, 500)
if default_filename:
chooser.set_filename(os.path.abspath(default_filename))
filename = None
response = chooser.run()
if response == gtk.RESPONSE_OK:
filename = chooser.get_filename()
chooser.destroy()
return filename
def redirect_event_box_input(self, press=None, release=None, scroll=None,
motion=None, expose=None):
if self.handler_event_box_press != None: \
self.event_box.disconnect(self.handler_event_box_press)
if self.handler_event_box_release != None: \
self.event_box.disconnect(self.handler_event_box_release)
if self.handler_event_box_scroll != None: \
self.event_box.disconnect(self.handler_event_box_scroll)
if self.handler_event_box_motion != None: \
self.event_box.disconnect(self.handler_event_box_motion)
if self.handler_event_box_expose != None: \
self.event_box.disconnect(self.handler_event_box_expose)
self.handler_event_box_press = None
self.handler_event_box_release = None
self.handler_event_box_scroll = None
self.handler_event_box_motion = None
self.handler_event_box_expose = None
if press != None: self.handler_event_box_press = \
self.event_box.connect("button-press-event", press)
if release != None: self.handler_event_box_release = \
self.event_box.connect("button-release-event", release)
if scroll != None: self.handler_event_box_scroll = \
self.event_box.connect("scroll-event", scroll)
if motion != None: self.handler_event_box_motion = \
self.event_box.connect("motion-notify-event", motion)
if expose != None: self.handler_event_box_expose = \
self.event_box.connect_after("expose-event", expose)
def get_keys(self):
return self.text_buffer.get_text(
self.text_buffer.get_start_iter(),
self.text_buffer.get_end_iter())
def add_key(self, key):
text = self.get_keys()
if len(text) > 0 and text[-1] != ' ':
text += " "
text += key
self.text_buffer.set_text(text)
def clear_keys(self):
self.text_buffer.set_text("")
def update_barrier_info(self):
if self.barrier_selected:
self.label_barrier_region.set_text("Selected region: Corner: " + \
str(tuple(self.barrier_corner)) + \
" Size: " + \
str(tuple(self.barrier_size)))
else:
self.label_barrier_region.set_text("No region selected.")
self.label_barrier_md5sum.set_text("MD5: " + self.barrier_md5sum)
def update_mouse_click_info(self):
if self.mouse_click_captured:
self.check_mousemove.set_label("Move: " + \
str(tuple(self.mouse_click_coords)))
self.check_mouseclick.set_label("Click: button %d" %
self.mouse_click_button)
else:
self.check_mousemove.set_label("Move: ...")
self.check_mouseclick.set_label("Click: ...")
def clear_state(self, clear_screendump=True):
# Recording time
self.entry_time.set_text("unknown")
if clear_screendump:
# Screendump
self.clear_image()
# Screendump ID
self.entry_screendump.set_text("")
# Comment
self.entry_comment.set_text("")
# Sleep
self.check_sleep.set_active(True)
self.check_sleep.set_active(False)
self.spin_sleep.set_value(10)
# Barrier
self.clear_barrier_state()
# Keystrokes
self.check_manual.set_active(False)
self.clear_keys()
# Mouse actions
self.check_mousemove.set_sensitive(False)
self.check_mouseclick.set_sensitive(False)
self.check_mousemove.set_active(False)
self.check_mouseclick.set_active(False)
self.mouse_click_captured = False
self.mouse_click_coords = [0, 0]
self.mouse_click_button = 0
self.update_mouse_click_info()
def clear_barrier_state(self):
self.check_barrier.set_active(True)
self.check_barrier.set_active(False)
self.check_barrier_optional.set_active(False)
self.spin_barrier_timeout.set_value(10)
self.barrier_selection_started = False
self.barrier_selected = False
self.barrier_corner0 = [0, 0]
self.barrier_corner1 = [0, 0]
self.barrier_corner = [0, 0]
self.barrier_size = [0, 0]
self.barrier_md5sum = ""
self.update_barrier_info()
def set_image(self, w, h, data):
(self.image_width, self.image_height, self.image_data) = (w, h, data)
self.image.set_from_pixbuf(gtk.gdk.pixbuf_new_from_data(
data, gtk.gdk.COLORSPACE_RGB, False, 8,
w, h, w*3))
hscrollbar = self.scrolledwindow.get_hscrollbar()
hscrollbar.set_range(0, w)
vscrollbar = self.scrolledwindow.get_vscrollbar()
vscrollbar.set_range(0, h)
def set_image_from_file(self, filename):
if not ppm_utils.image_verify_ppm_file(filename):
logging.warning("set_image_from_file: Warning: received invalid"
"screendump file")
return self.clear_image()
(w, h, data) = ppm_utils.image_read_from_ppm_file(filename)
self.set_image(w, h, data)
def clear_image(self):
self.image.clear()
self.image_width = 0
self.image_height = 0
self.image_data = ""
def update_screendump_id(self, data_dir):
if not self.image_data:
return
# Find a proper ID for the screendump
scrdump_md5sum = ppm_utils.image_md5sum(self.image_width,
self.image_height,
self.image_data)
scrdump_id = ppm_utils.find_id_for_screendump(scrdump_md5sum, data_dir)
if not scrdump_id:
# Not found; generate one
scrdump_id = ppm_utils.generate_id_for_screendump(scrdump_md5sum,
data_dir)
self.entry_screendump.set_text(scrdump_id)
def get_step_lines(self, data_dir=None):
if self.check_barrier.get_active() and not self.barrier_selected:
self.message("No barrier region selected.", "Error")
return
str = "step"
# Add step recording time
if self.entry_time.get_text():
str += " " + self.entry_time.get_text()
str += "\n"
# Add screendump line
if self.image_data:
str += "screendump %s\n" % self.entry_screendump.get_text()
# Add comment
if self.entry_comment.get_text():
str += "# %s\n" % self.entry_comment.get_text()
# Add sleep line
if self.check_sleep.get_active():
str += "sleep %d\n" % self.spin_sleep.get_value()
# Add barrier_2 line
if self.check_barrier.get_active():
str += "barrier_2 %d %d %d %d %s %d" % (
self.barrier_size[0], self.barrier_size[1],
self.barrier_corner[0], self.barrier_corner[1],
self.barrier_md5sum, self.spin_barrier_timeout.get_value())
if self.check_barrier_optional.get_active():
str += " optional"
str += "\n"
# Add "Sending keys" comment
keys_to_send = self.get_keys().split()
if keys_to_send:
str += "# Sending keys: %s\n" % self.get_keys()
# Add key and var lines
for key in keys_to_send:
if key.startswith("$"):
varname = key[1:]
str += "var %s\n" % varname
else:
str += "key %s\n" % key
# Add mousemove line
if self.check_mousemove.get_active():
str += "mousemove %d %d\n" % (self.mouse_click_coords[0],
self.mouse_click_coords[1])
# Add mouseclick line
if self.check_mouseclick.get_active():
dict = { 1 : 1,
2 : 2,
3 : 4 }
str += "mouseclick %d\n" % dict[self.mouse_click_button]
# Write screendump and cropped screendump image files
if data_dir and self.image_data:
# Create the data dir if it doesn't exist
if not os.path.exists(data_dir):
os.makedirs(data_dir)
# Get the full screendump filename
scrdump_filename = os.path.join(data_dir,
self.entry_screendump.get_text())
# Write screendump file if it doesn't exist
if not os.path.exists(scrdump_filename):
try:
ppm_utils.image_write_to_ppm_file(scrdump_filename,
self.image_width,
self.image_height,
self.image_data)
except IOError:
self.message("Could not write screendump file.", "Error")
#if self.check_barrier.get_active():
# # Crop image to get the cropped screendump
# (cw, ch, cdata) = ppm_utils.image_crop(
# self.image_width, self.image_height, self.image_data,
# self.barrier_corner[0], self.barrier_corner[1],
# self.barrier_size[0], self.barrier_size[1])
# cropped_scrdump_md5sum = ppm_utils.image_md5sum(cw, ch, cdata)
# cropped_scrdump_filename = \
# ppm_utils.get_cropped_screendump_filename(scrdump_filename,
# cropped_scrdump_md5sum)
# # Write cropped screendump file
# try:
# ppm_utils.image_write_to_ppm_file(cropped_scrdump_filename,
# cw, ch, cdata)
# except IOError:
# self.message("Could not write cropped screendump file.",
# "Error")
return str
def set_state_from_step_lines(self, str, data_dir, warn=True):
self.clear_state()
for line in str.splitlines():
words = line.split()
if not words:
continue
if line.startswith("#") \
and not self.entry_comment.get_text() \
and not line.startswith("# Sending keys:") \
and not line.startswith("# ----"):
self.entry_comment.set_text(line.strip("#").strip())
elif words[0] == "step":
if len(words) >= 2:
self.entry_time.set_text(words[1])
elif words[0] == "screendump":
self.entry_screendump.set_text(words[1])
self.set_image_from_file(os.path.join(data_dir, words[1]))
elif words[0] == "sleep":
self.spin_sleep.set_value(int(words[1]))
self.check_sleep.set_active(True)
elif words[0] == "key":
self.add_key(words[1])
elif words[0] == "var":
self.add_key("$%s" % words[1])
elif words[0] == "mousemove":
self.mouse_click_captured = True
self.mouse_click_coords = [int(words[1]), int(words[2])]
self.update_mouse_click_info()
elif words[0] == "mouseclick":
self.mouse_click_captured = True
self.mouse_click_button = int(words[1])
self.update_mouse_click_info()
elif words[0] == "barrier_2":
# Get region corner and size from step lines
self.barrier_corner = [int(words[3]), int(words[4])]
self.barrier_size = [int(words[1]), int(words[2])]
# Get corner0 and corner1 from step lines
self.barrier_corner0 = self.barrier_corner
self.barrier_corner1 = [self.barrier_corner[0] +
self.barrier_size[0] - 1,
self.barrier_corner[1] +
self.barrier_size[1] - 1]
# Get the md5sum
self.barrier_md5sum = words[5]
# Pretend the user selected the region with the mouse
self.barrier_selection_started = True
self.barrier_selected = True
# Update label widgets according to region information
self.update_barrier_info()
# Check the barrier checkbutton
self.check_barrier.set_active(True)
# Set timeout value
self.spin_barrier_timeout.set_value(int(words[6]))
# Set 'optional' checkbutton state
self.check_barrier_optional.set_active(words[-1] == "optional")
# Update the image widget
self.event_box.queue_draw()
if warn:
# See if the computed md5sum matches the one recorded in
# the file
computed_md5sum = ppm_utils.get_region_md5sum(
self.image_width, self.image_height,
self.image_data, self.barrier_corner[0],
self.barrier_corner[1], self.barrier_size[0],
self.barrier_size[1])
if computed_md5sum != self.barrier_md5sum:
self.message("Computed MD5 sum (%s) differs from MD5"
" sum recorded in steps file (%s)" %
(computed_md5sum, self.barrier_md5sum),
"Warning")
# Events
def delete_event(self, widget, event):
pass
def destroy(self, widget):
gtk.main_quit()
def event_check_barrier_toggled(self, widget):
if self.check_barrier.get_active():
self.redirect_event_box_input(
self.event_button_press,
self.event_button_release,
None,
None,
self.event_expose)
self.event_box.queue_draw()
self.event_box.window.set_cursor(gtk.gdk.Cursor(gtk.gdk.CROSSHAIR))
self.label_barrier_region.set_sensitive(True)
self.label_barrier_md5sum.set_sensitive(True)
self.label_barrier_timeout.set_sensitive(True)
self.spin_barrier_timeout.set_sensitive(True)
self.check_barrier_optional.set_sensitive(True)
else:
self.redirect_event_box_input()
self.event_box.queue_draw()
self.event_box.window.set_cursor(None)
self.label_barrier_region.set_sensitive(False)
self.label_barrier_md5sum.set_sensitive(False)
self.label_barrier_timeout.set_sensitive(False)
self.spin_barrier_timeout.set_sensitive(False)
self.check_barrier_optional.set_sensitive(False)
def event_check_sleep_toggled(self, widget):
if self.check_sleep.get_active():
self.spin_sleep.set_sensitive(True)
else:
self.spin_sleep.set_sensitive(False)
def event_manual_toggled(self, widget):
self.entry_keys.grab_focus()
def event_clear_clicked(self, widget):
self.clear_keys()
self.entry_keys.grab_focus()
def event_expose(self, widget, event):
if not self.barrier_selection_started:
return
(corner, size) = corner_and_size_clipped(self.barrier_corner0,
self.barrier_corner1,
self.event_box.size_request())
gc = self.event_box.window.new_gc(line_style=gtk.gdk.LINE_DOUBLE_DASH,
line_width=1)
gc.set_foreground(gc.get_colormap().alloc_color("red"))
gc.set_background(gc.get_colormap().alloc_color("dark red"))
gc.set_dashes(0, (4, 4))
self.event_box.window.draw_rectangle(
gc, False,
corner[0], corner[1],
size[0]-1, size[1]-1)
def event_drag_motion(self, widget, event):
old_corner1 = self.barrier_corner1
self.barrier_corner1 = [int(event.x), int(event.y)]
(corner, size) = corner_and_size_clipped(self.barrier_corner0,
self.barrier_corner1,
self.event_box.size_request())
(old_corner, old_size) = corner_and_size_clipped(self.barrier_corner0,
old_corner1,
self.event_box.size_request())
corner0 = [min(corner[0], old_corner[0]), min(corner[1], old_corner[1])]
corner1 = [max(corner[0] + size[0], old_corner[0] + old_size[0]),
max(corner[1] + size[1], old_corner[1] + old_size[1])]
size = [corner1[0] - corner0[0] + 1,
corner1[1] - corner0[1] + 1]
self.event_box.queue_draw_area(corner0[0], corner0[1], size[0], size[1])
def event_button_press(self, widget, event):
(corner, size) = corner_and_size_clipped(self.barrier_corner0,
self.barrier_corner1,
self.event_box.size_request())
self.event_box.queue_draw_area(corner[0], corner[1], size[0], size[1])
self.barrier_corner0 = [int(event.x), int(event.y)]
self.barrier_corner1 = [int(event.x), int(event.y)]
self.redirect_event_box_input(
self.event_button_press,
self.event_button_release,
None,
self.event_drag_motion,
self.event_expose)
self.barrier_selection_started = True
def event_button_release(self, widget, event):
self.redirect_event_box_input(
self.event_button_press,
self.event_button_release,
None,
None,
self.event_expose)
(self.barrier_corner, self.barrier_size) = \
corner_and_size_clipped(self.barrier_corner0, self.barrier_corner1,
self.event_box.size_request())
self.barrier_md5sum = ppm_utils.get_region_md5sum(
self.image_width, self.image_height, self.image_data,
self.barrier_corner[0], self.barrier_corner[1],
self.barrier_size[0], self.barrier_size[1])
self.barrier_selected = True
self.update_barrier_info()
def event_key_press(self, widget, event):
if self.check_manual.get_active():
return False
str = key_event_to_qemu_string(event)
self.add_key(str)
return True
class StepEditor(StepMakerWindow):
ui = '''<ui>
<menubar name="MenuBar">
<menu action="File">
<menuitem action="Open"/>
<separator/>
<menuitem action="Quit"/>
</menu>
<menu action="Edit">
<menuitem action="CopyStep"/>
<menuitem action="DeleteStep"/>
</menu>
<menu action="Insert">
<menuitem action="InsertNewBefore"/>
<menuitem action="InsertNewAfter"/>
<separator/>
<menuitem action="InsertStepsBefore"/>
<menuitem action="InsertStepsAfter"/>
</menu>
<menu action="Tools">
<menuitem action="CleanUp"/>
</menu>
</menubar>
</ui>'''
# Constructor
def __init__(self, filename=None):
StepMakerWindow.__init__(self)
self.steps_filename = None
self.steps = []
# Create a UIManager instance
uimanager = gtk.UIManager()
# Add the accelerator group to the toplevel window
accelgroup = uimanager.get_accel_group()
self.window.add_accel_group(accelgroup)
# Create an ActionGroup
actiongroup = gtk.ActionGroup('StepEditor')
# Create actions
actiongroup.add_actions([
('Quit', gtk.STOCK_QUIT, '_Quit', None, 'Quit the Program',
self.quit),
('Open', gtk.STOCK_OPEN, '_Open', None, 'Open steps file',
self.open_steps_file),
('CopyStep', gtk.STOCK_COPY, '_Copy current step...', "",
'Copy current step to user specified position', self.copy_step),
('DeleteStep', gtk.STOCK_DELETE, '_Delete current step', "",
'Delete current step', self.event_remove_clicked),
('InsertNewBefore', gtk.STOCK_ADD, '_New step before current', "",
'Insert new step before current step', self.insert_before),
('InsertNewAfter', gtk.STOCK_ADD, 'N_ew step after current', "",
'Insert new step after current step', self.insert_after),
('InsertStepsBefore', gtk.STOCK_ADD, '_Steps before current...',
"", 'Insert steps (from file) before current step',
self.insert_steps_before),
('InsertStepsAfter', gtk.STOCK_ADD, 'Steps _after current...', "",
'Insert steps (from file) after current step',
self.insert_steps_after),
('CleanUp', gtk.STOCK_DELETE, '_Clean up data directory', "",
'Move unused PPM files to a backup directory', self.cleanup),
('File', None, '_File'),
('Edit', None, '_Edit'),
('Insert', None, '_Insert'),
('Tools', None, '_Tools')
])
def create_shortcut(name, callback, keyname):
# Create an action
action = gtk.Action(name, None, None, None)
# Connect a callback to the action
action.connect("activate", callback)
actiongroup.add_action_with_accel(action, keyname)
# Have the action use accelgroup
action.set_accel_group(accelgroup)
# Connect the accelerator to the action
action.connect_accelerator()
create_shortcut("Next", self.event_next_clicked, "Page_Down")
create_shortcut("Previous", self.event_prev_clicked, "Page_Up")
# Add the actiongroup to the uimanager
uimanager.insert_action_group(actiongroup, 0)
# Add a UI description
uimanager.add_ui_from_string(self.ui)
# Create a MenuBar
menubar = uimanager.get_widget('/MenuBar')
self.menu_vbox.pack_start(menubar, False)
# Remember the Edit menu bar for future reference
self.menu_edit = uimanager.get_widget('/MenuBar/Edit')
self.menu_edit.set_sensitive(False)
# Remember the Insert menu bar for future reference
self.menu_insert = uimanager.get_widget('/MenuBar/Insert')
self.menu_insert.set_sensitive(False)
# Remember the Tools menu bar for future reference
self.menu_tools = uimanager.get_widget('/MenuBar/Tools')
self.menu_tools.set_sensitive(False)
# Next/Previous HBox
hbox = gtk.HBox(spacing=10)
self.user_vbox.pack_start(hbox)
hbox.show()
self.button_first = gtk.Button(stock=gtk.STOCK_GOTO_FIRST)
self.button_first.connect("clicked", self.event_first_clicked)
hbox.pack_start(self.button_first)
self.button_first.show()
#self.button_prev = gtk.Button("<< Previous")
self.button_prev = gtk.Button(stock=gtk.STOCK_GO_BACK)
self.button_prev.connect("clicked", self.event_prev_clicked)
hbox.pack_start(self.button_prev)
self.button_prev.show()
self.label_step = gtk.Label("Step:")
hbox.pack_start(self.label_step, False)
self.label_step.show()
self.entry_step_num = gtk.Entry()
self.entry_step_num.connect("activate", self.event_entry_step_activated)
self.entry_step_num.set_width_chars(3)
hbox.pack_start(self.entry_step_num, False)
self.entry_step_num.show()
#self.button_next = gtk.Button("Next >>")
self.button_next = gtk.Button(stock=gtk.STOCK_GO_FORWARD)
self.button_next.connect("clicked", self.event_next_clicked)
hbox.pack_start(self.button_next)
self.button_next.show()
self.button_last = gtk.Button(stock=gtk.STOCK_GOTO_LAST)
self.button_last.connect("clicked", self.event_last_clicked)
hbox.pack_start(self.button_last)
self.button_last.show()
# Save HBox
hbox = gtk.HBox(spacing=10)
self.user_vbox.pack_start(hbox)
hbox.show()
self.button_save = gtk.Button("_Save current step")
self.button_save.connect("clicked", self.event_save_clicked)
hbox.pack_start(self.button_save)
self.button_save.show()
self.button_remove = gtk.Button("_Delete current step")
self.button_remove.connect("clicked", self.event_remove_clicked)
hbox.pack_start(self.button_remove)
self.button_remove.show()
self.button_replace = gtk.Button("_Replace screendump")
self.button_replace.connect("clicked", self.event_replace_clicked)
hbox.pack_start(self.button_replace)
self.button_replace.show()
# Disable unused widgets
self.button_capture.set_sensitive(False)
self.spin_latency.set_sensitive(False)
self.spin_sensitivity.set_sensitive(False)
# Disable main vbox because no steps file is loaded
self.main_vbox.set_sensitive(False)
# Set title
self.window.set_title("Step Editor")
# Events
def delete_event(self, widget, event):
# Make sure the step is saved (if the user wants it to be)
self.verify_save()
def event_first_clicked(self, widget):
if not self.steps:
return
# Make sure the step is saved (if the user wants it to be)
self.verify_save()
# Go to first step
self.set_step(0)
def event_last_clicked(self, widget):
if not self.steps:
return
# Make sure the step is saved (if the user wants it to be)
self.verify_save()
# Go to last step
self.set_step(len(self.steps) - 1)
def event_prev_clicked(self, widget):
if not self.steps:
return
# Make sure the step is saved (if the user wants it to be)
self.verify_save()
# Go to previous step
index = self.current_step_index - 1
if self.steps:
index = index % len(self.steps)
self.set_step(index)
def event_next_clicked(self, widget):
if not self.steps:
return
# Make sure the step is saved (if the user wants it to be)
self.verify_save()
# Go to next step
index = self.current_step_index + 1
if self.steps:
index = index % len(self.steps)
self.set_step(index)
def event_entry_step_activated(self, widget):
if not self.steps:
return
step_index = self.entry_step_num.get_text()
if not step_index.isdigit():
return
step_index = int(step_index) - 1
if step_index == self.current_step_index:
return
self.verify_save()
self.set_step(step_index)
def event_save_clicked(self, widget):
if not self.steps:
return
self.save_step()
def event_remove_clicked(self, widget):
if not self.steps:
return
if not self.question_yes_no("This will modify the steps file."
" Are you sure?", "Remove step?"):
return
# Remove step
del self.steps[self.current_step_index]
# Write changes to file
self.write_steps_file(self.steps_filename)
# Move to previous step
self.set_step(self.current_step_index)
def event_replace_clicked(self, widget):
if not self.steps:
return
# Let the user choose a screendump file
current_filename = os.path.join(self.steps_data_dir,
self.entry_screendump.get_text())
filename = self.filedialog("Choose PPM image file",
default_filename=current_filename)
if not filename:
return
if not ppm_utils.image_verify_ppm_file(filename):
self.message("Not a valid PPM image file.", "Error")
return
self.clear_image()
self.clear_barrier_state()
self.set_image_from_file(filename)
self.update_screendump_id(self.steps_data_dir)
# Menu actions
def open_steps_file(self, action):
# Make sure the step is saved (if the user wants it to be)
self.verify_save()
# Let the user choose a steps file
current_filename = self.steps_filename
filename = self.filedialog("Open steps file",
default_filename=current_filename)
if not filename:
return
self.set_steps_file(filename)
def quit(self, action):
# Make sure the step is saved (if the user wants it to be)
self.verify_save()
# Quit
gtk.main_quit()
def copy_step(self, action):
if not self.steps:
return
self.verify_save()
self.set_step(self.current_step_index)
# Get the desired position
step_index = self.inputdialog("Copy step to position:",
"Copy step",
str(self.current_step_index + 2))
if not step_index:
return
step_index = int(step_index) - 1
# Get the lines of the current step
step = self.steps[self.current_step_index]
# Insert new step at position step_index
self.steps.insert(step_index, step)
# Go to new step
self.set_step(step_index)
# Write changes to disk
self.write_steps_file(self.steps_filename)
def insert_before(self, action):
if not self.steps_filename:
return
if not self.question_yes_no("This will modify the steps file."
" Are you sure?", "Insert new step?"):
return
self.verify_save()
step_index = self.current_step_index
# Get the lines of a blank step
self.clear_state()
step = self.get_step_lines()
# Insert new step at position step_index
self.steps.insert(step_index, step)
# Go to new step
self.set_step(step_index)
# Write changes to disk
self.write_steps_file(self.steps_filename)
def insert_after(self, action):
if not self.steps_filename:
return
if not self.question_yes_no("This will modify the steps file."
" Are you sure?", "Insert new step?"):
return
self.verify_save()
step_index = self.current_step_index + 1
# Get the lines of a blank step
self.clear_state()
step = self.get_step_lines()
# Insert new step at position step_index
self.steps.insert(step_index, step)
# Go to new step
self.set_step(step_index)
# Write changes to disk
self.write_steps_file(self.steps_filename)
def insert_steps(self, filename, index):
# Read the steps file
(steps, header) = self.read_steps_file(filename)
data_dir = ppm_utils.get_data_dir(filename)
for step in steps:
self.set_state_from_step_lines(step, data_dir, warn=False)
step = self.get_step_lines(self.steps_data_dir)
# Insert steps into self.steps
self.steps[index:index] = steps
# Write changes to disk
self.write_steps_file(self.steps_filename)
def insert_steps_before(self, action):
if not self.steps_filename:
return
# Let the user choose a steps file
current_filename = self.steps_filename
filename = self.filedialog("Choose steps file",
default_filename=current_filename)
if not filename:
return
self.verify_save()
step_index = self.current_step_index
# Insert steps at position step_index
self.insert_steps(filename, step_index)
# Go to new steps
self.set_step(step_index)
def insert_steps_after(self, action):
if not self.steps_filename:
return
# Let the user choose a steps file
current_filename = self.steps_filename
filename = self.filedialog("Choose steps file",
default_filename=current_filename)
if not filename:
return
self.verify_save()
step_index = self.current_step_index + 1
# Insert new steps at position step_index
self.insert_steps(filename, step_index)
# Go to new steps
self.set_step(step_index)
def cleanup(self, action):
if not self.steps_filename:
return
if not self.question_yes_no("All unused PPM files will be moved to a"
" backup directory. Are you sure?",
"Clean up data directory?"):
return
# Remember the current step index
current_step_index = self.current_step_index
# Get the backup dir
backup_dir = os.path.join(self.steps_data_dir, "backup")
# Create it if it doesn't exist
if not os.path.exists(backup_dir):
os.makedirs(backup_dir)
# Move all files to the backup dir
for filename in glob.glob(os.path.join(self.steps_data_dir,
"*.[Pp][Pp][Mm]")):
shutil.move(filename, backup_dir)
# Get the used files back
for step in self.steps:
self.set_state_from_step_lines(step, backup_dir, warn=False)
self.get_step_lines(self.steps_data_dir)
# Remove the used files from the backup dir
used_files = os.listdir(self.steps_data_dir)
for filename in os.listdir(backup_dir):
if filename in used_files:
os.unlink(os.path.join(backup_dir, filename))
# Restore step index
self.set_step(current_step_index)
# Inform the user
self.message("All unused PPM files may be found at %s." %
os.path.abspath(backup_dir),
"Clean up data directory")
# Methods
def read_steps_file(self, filename):
steps = []
header = ""
file = open(filename, "r")
for line in file.readlines():
words = line.split()
if not words:
continue
if line.startswith("# ----"):
continue
if words[0] == "step":
steps.append("")
if steps:
steps[-1] += line
else:
header += line
file.close()
return (steps, header)
def set_steps_file(self, filename):
try:
(self.steps, self.header) = self.read_steps_file(filename)
except (TypeError, IOError):
self.message("Cannot read file %s." % filename, "Error")
return
self.steps_filename = filename
self.steps_data_dir = ppm_utils.get_data_dir(filename)
# Go to step 0
self.set_step(0)
def set_step(self, index):
# Limit index to legal boundaries
if index < 0:
index = 0
if index > len(self.steps) - 1:
index = len(self.steps) - 1
# Enable the menus
self.menu_edit.set_sensitive(True)
self.menu_insert.set_sensitive(True)
self.menu_tools.set_sensitive(True)
# If no steps exist...
if self.steps == []:
self.current_step_index = index
self.current_step = None
# Set window title
self.window.set_title("Step Editor -- %s" %
os.path.basename(self.steps_filename))
# Set step entry widget text
self.entry_step_num.set_text("")
# Clear the state of all widgets
self.clear_state()
# Disable the main vbox
self.main_vbox.set_sensitive(False)
return
self.current_step_index = index
self.current_step = self.steps[index]
# Set window title
self.window.set_title("Step Editor -- %s -- step %d" %
(os.path.basename(self.steps_filename),
index + 1))
# Set step entry widget text
self.entry_step_num.set_text(str(self.current_step_index + 1))
# Load the state from the step lines
self.set_state_from_step_lines(self.current_step, self.steps_data_dir)
# Enable the main vbox
self.main_vbox.set_sensitive(True)
# Make sure the step lines in self.current_step are identical to the
# output of self.get_step_lines
self.current_step = self.get_step_lines()
def verify_save(self):
if not self.steps:
return
# See if the user changed anything
if self.get_step_lines() != self.current_step:
if self.question_yes_no("Step contents have been modified."
" Save step?", "Save changes?"):
self.save_step()
def save_step(self):
lines = self.get_step_lines(self.steps_data_dir)
if lines != None:
self.steps[self.current_step_index] = lines
self.current_step = lines
self.write_steps_file(self.steps_filename)
def write_steps_file(self, filename):
file = open(filename, "w")
file.write(self.header)
for step in self.steps:
file.write("# " + "-" * 32 + "\n")
file.write(step)
file.close()
if __name__ == "__main__":
se = StepEditor()
if len(sys.argv) > 1:
se.set_steps_file(sys.argv[1])
gtk.main()