fpdb/pyfpdb/Hud.py

597 lines
26 KiB
Python

#!/usr/bin/env python
"""Hud.py
Create and manage the hud overlays.
"""
# Copyright 2008, Ray E. Barker
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
########################################################################
# Standard Library modules
import os
import sys
# pyGTK modules
import pygtk
import gtk
import pango
import gobject
# win32 modules -- only imported on windows systems
if os.name == 'nt':
import win32gui
import win32con
import win32api
# FreePokerTools modules
import Tables # needed for testing only
import Configuration
import Stats
import Mucked
import Database
import HUD_main
class Hud:
def __init__(self, table, max, poker_game, config, db_connection):
self.table = table
self.config = config
self.poker_game = poker_game
self.max = max
self.db_connection = db_connection
self.deleted = False
self.stacked = True
self.site = table.site
self.colors = config.get_default_colors(self.table.site)
self.stat_windows = {}
self.popup_windows = {}
self.aux_windows = []
(font, font_size) = config.get_default_font(self.table.site)
print "font = ", font, "size = ", font_size
if font == None or font_size == None:
self.font = pango.FontDescription("Sans 7")
else:
print "Setting font to ", font + " " + font_size
self.font = pango.FontDescription(font + " " + font_size)
# Set up a main window for this this instance of the HUD
self.main_window = gtk.Window()
# self.window.set_decorated(0)
self.main_window.set_gravity(gtk.gdk.GRAVITY_STATIC)
self.main_window.set_title(table.name + " FPDBHUD")
self.main_window.connect("destroy", self.kill_hud)
self.main_window.set_decorated(False)
self.main_window.set_opacity(self.colors["hudopacity"])
#self.main_window.set_transient_for(parent.get_toplevel())
self.ebox = gtk.EventBox()
# self.label = gtk.Label("Right click to close HUD for %s\nor Save Stat Positions." % (table.name))
self.label = gtk.Label("FPDB Menu (Right Click)\nLeft-drag to move")
self.label.modify_bg(gtk.STATE_NORMAL, gtk.gdk.color_parse(self.colors['hudbgcolor']))
self.label.modify_fg(gtk.STATE_NORMAL, gtk.gdk.color_parse(self.colors['hudfgcolor']))
self.main_window.add(self.ebox)
self.ebox.add(self.label)
self.ebox.modify_bg(gtk.STATE_NORMAL, gtk.gdk.color_parse(self.colors['hudbgcolor']))
self.ebox.modify_fg(gtk.STATE_NORMAL, gtk.gdk.color_parse(self.colors['hudfgcolor']))
self.main_window.move(self.table.x, self.table.y)
# A popup window for the main window
self.menu = gtk.Menu()
self.item1 = gtk.MenuItem('Kill this HUD')
self.menu.append(self.item1)
self.item1.connect("activate", self.kill_hud)
self.item1.show()
self.item2 = gtk.MenuItem('Save Layout')
self.menu.append(self.item2)
self.item2.connect("activate", self.save_layout)
self.item2.show()
self.item3 = gtk.MenuItem('Reposition Stats')
self.menu.append(self.item3)
self.item3.connect("activate", self.reposition_windows)
self.item3.show()
self.item4 = gtk.MenuItem('Debug Stat Windows')
self.menu.append(self.item4)
self.item4.connect("activate", self.debug_stat_windows)
self.item4.show()
self.ebox.connect_object("button-press-event", self.on_button_press, self.menu)
self.main_window.show_all()
# set_keep_above(1) for windows
if os.name == 'nt':
self.topify_window(self.main_window)
else:
self.main_window.parentgdkhandle = gtk.gdk.window_foreign_new(self.table.number) # gets a gdk handle for poker client
self.main_window.gdkhandle = gtk.gdk.window_foreign_new(self.main_window.window.xid) # gets a gdk handle for the hud table window
self.main_window.gdkhandle.set_transient_for(self.main_window.parentgdkhandle) #
self.main_window.set_destroy_with_parent(True)
def update_table_position(self):
(x, y) = self.main_window.parentgdkhandle.get_origin()
if self.table.x != x or self.table.y != y:
self.table.x = x
self.table.y = y
self.main_window.move(x, y)
adj = self.adj_seats(self.hand, self.config)
loc = self.config.get_locations(self.table.site, self.max)
for i in range(1, self.max + 1):
(x, y) = loc[adj[i]]
if self.stat_windows.has_key(i):
self.stat_windows[i].relocate(x, y)
return True
def on_button_press(self, widget, event):
if event.button == 1:
self.main_window.begin_move_drag(event.button, int(event.x_root), int(event.y_root), event.time)
return True
if event.button == 3:
widget.popup(None, None, None, event.button, event.time)
return True
return False
def kill_hud(self, *args):
for k in self.stat_windows.keys():
self.stat_windows[k].window.destroy()
self.main_window.destroy()
self.deleted = True
def reposition_windows(self, *args):
self.update_table_position()
return True
def debug_stat_windows(self, *args):
print self.table, "\n", self.main_window.window.get_transient_for()
for w in self.stat_windows:
print self.stat_windows[w].window.window.get_transient_for()
def save_layout(self, *args):
new_layout = [(0, 0)] * self.max
# todo: have the hud track the poker table's window position regularly, don't forget to update table.x and table.y.
for sw in self.stat_windows:
loc = self.stat_windows[sw].window.get_position()
new_loc = (loc[0] - self.table.x, loc[1] - self.table.y)
new_layout[self.stat_windows[sw].adj - 1] = new_loc
self.config.edit_layout(self.table.site, self.max, locations = new_layout)
self.config.save()
def adj_seats(self, hand, config):
adj = range(0, self.max + 1) # default seat adjustments = no adjustment
# does the user have a fav_seat?
try:
if int(config.supported_sites[self.table.site].layout[self.max].fav_seat) > 0:
fav_seat = config.supported_sites[self.table.site].layout[self.max].fav_seat
# db_connection = Database.Database(config, self.db_name, 'temp')
actual_seat = self.db_connection.get_actual_seat(hand, config.supported_sites[self.table.site].screen_name)
# db_connection.close_connection()
for i in range(0, self.max + 1):
j = actual_seat + i
if j > self.max: j = j - self.max
adj[j] = fav_seat + i
if adj[j] > self.max: adj[j] = adj[j] - self.max
except:
pass
return adj
def create(self, hand, config):
# update this hud, to the stats and players as of "hand"
# hand is the hand id of the most recent hand played at this table
#
# this method also manages the creating and destruction of stat
# windows via calls to the Stat_Window class
adj = self.adj_seats(hand, config)
loc = self.config.get_locations(self.table.site, self.max)
# create the stat windows
for i in range(1, self.max + 1):
(x, y) = loc[adj[i]]
if self.stat_windows.has_key(i):
self.stat_windows[i].relocate(x, y)
else:
self.stat_windows[i] = Stat_Window(game = config.supported_games[self.poker_game],
parent = self,
table = self.table,
x = x,
y = y,
seat = i,
adj = adj[i],
player_id = 'fake',
font = self.font)
self.stats = []
for i in range(0, config.supported_games[self.poker_game].rows + 1):
row_list = [''] * config.supported_games[self.poker_game].cols
self.stats.append(row_list)
for stat in config.supported_games[self.poker_game].stats.keys():
self.stats[config.supported_games[self.poker_game].stats[stat].row] \
[config.supported_games[self.poker_game].stats[stat].col] = \
config.supported_games[self.poker_game].stats[stat].stat_name
game_params = config.get_game_parameters(self.poker_game)
if not game_params['aux'] == "":
aux_params = config.get_aux_parameters(game_params['aux'])
self.aux_windows.append(eval("%s.%s(gtk.Window(), self, config, aux_params)" % (aux_params['module'], aux_params['class'])))
# gobject.timeout_add(500, self.update_table_position)
def update(self, hand, config, stat_dict):
self.hand = hand # this is the last hand, so it is available later
self.update_table_position()
for s in stat_dict.keys():
try:
self.stat_windows[stat_dict[s]['seat']].player_id = stat_dict[s]['player_id']
except: # omg, we have more seats than stat windows .. damn poker sites with incorrect max seating info .. let's force 10 here
self.max = 10
self.create(hand, config)
self.stat_windows[stat_dict[s]['seat']].player_id = stat_dict[s]['player_id']
for r in range(0, config.supported_games[self.poker_game].rows):
for c in range(0, config.supported_games[self.poker_game].cols):
this_stat = config.supported_games[self.poker_game].stats[self.stats[r][c]]
number = Stats.do_stat(stat_dict, player = stat_dict[s]['player_id'], stat = self.stats[r][c])
statstring = this_stat.hudprefix + str(number[1]) + this_stat.hudsuffix
if this_stat.hudcolor != "":
self.label.modify_fg(gtk.STATE_NORMAL, gtk.gdk.color_parse(self.colors['hudfgcolor']))
self.stat_windows[stat_dict[s]['seat']].label[r][c].modify_fg(gtk.STATE_NORMAL, gtk.gdk.color_parse(this_stat.hudcolor))
self.stat_windows[stat_dict[s]['seat']].label[r][c].set_text(statstring)
if statstring != "xxx":
self.stat_windows[stat_dict[s]['seat']].window.show_all()
tip = stat_dict[s]['screen_name'] + "\n" + number[5] + "\n" + \
number[3] + ", " + number[4]
Stats.do_tip(self.stat_windows[stat_dict[s]['seat']].e_box[r][c], tip)
# for m in self.aux_windows:
# m.update_data(hand)
# m.update_gui(hand)
def topify_window(self, window):
"""Set the specified gtk window to stayontop in MS Windows."""
def windowEnumerationHandler(hwnd, resultList):
'''Callback for win32gui.EnumWindows() to generate list of window handles.'''
resultList.append((hwnd, win32gui.GetWindowText(hwnd)))
unique_name = 'unique name for finding this window'
real_name = window.get_title()
window.set_title(unique_name)
tl_windows = []
win32gui.EnumWindows(windowEnumerationHandler, tl_windows)
for w in tl_windows:
if w[1] == unique_name:
#win32gui.ShowWindow(w[0], win32con.SW_HIDE)
self.main_window.parentgdkhandle = gtk.gdk.window_foreign_new(long(self.table.number))
self.main_window.gdkhandle = gtk.gdk.window_foreign_new(w[0])
self.main_window.gdkhandle.set_transient_for(self.main_window.parentgdkhandle)
#win32gui.ShowWindow(w[0], win32con.SW_SHOW)
style = win32gui.GetWindowLong(self.table.number, win32con.GWL_EXSTYLE)
#style |= win32con.WS_EX_TOOLWINDOW
#style &= ~win32con.WS_EX_APPWINDOW
style |= win32con.WS_CLIPCHILDREN
win32gui.SetWindowLong(self.table.number, win32con.GWL_EXSTYLE, style)
#win32gui.SetWindowPos(w[0], win32con.HWND_TOPMOST, 0, 0, 0, 0, win32con.SWP_NOMOVE|win32con.SWP_NOSIZE)
# notify_id = (w[0],
# 0,
# win32gui.NIF_ICON | win32gui.NIF_MESSAGE | win32gui.NIF_TIP,
# win32con.WM_USER+20,
# 0,
# '')
# win32gui.Shell_NotifyIcon(win32gui.NIM_DELETE, notify_id)
#
window.set_title(real_name)
class Stat_Window:
def button_press_cb(self, widget, event, *args):
# This handles all callbacks from button presses on the event boxes in
# the stat windows. There is a bit of an ugly kludge to separate single-
# and double-clicks.
if event.button == 3: # right button event
if event.type == gtk.gdk.BUTTON_PRESS: # left button single click
if self.sb_click > 0: return
self.sb_click = gobject.timeout_add(250, self.single_click, widget)
elif event.type == gtk.gdk._2BUTTON_PRESS: # left button double click
if self.sb_click > 0:
gobject.source_remove(self.sb_click)
self.sb_click = 0
self.double_click(widget, event, *args)
if event.button == 2: # middle button event
self.window.hide()
# print "middle button clicked"
pass
if event.button == 1: # left button event
# TODO: make position saving save sizes as well?
if event.state & gtk.gdk.SHIFT_MASK:
self.window.begin_resize_drag(gtk.gdk.WINDOW_EDGE_SOUTH_EAST, event.button, int(event.x_root), int(event.y_root), event.time)
else:
self.window.begin_move_drag(event.button, int(event.x_root), int(event.y_root), event.time)
def single_click(self, widget):
# Callback from the timeout in the single-click finding part of the
# button press call back. This needs to be modified to get all the
# arguments from the call.
# print "left button clicked"
self.sb_click = 0
Popup_window(widget, self)
return False
def double_click(self, widget, event, *args):
self.toggle_decorated(widget)
def toggle_decorated(self, widget):
top = widget.get_toplevel()
(x, y) = top.get_position()
if top.get_decorated():
top.set_decorated(0)
top.move(x, y)
else:
top.set_decorated(1)
top.move(x, y)
def relocate(self, x, y):
self.x = x + self.table.x
self.y = y + self.table.y
self.window.move(self.x, self.y)
def __init__(self, parent, game, table, seat, adj, x, y, player_id, font):
self.parent = parent # Hud object that this stat window belongs to
self.game = game # Configuration object for the curren
self.table = table # Table object where this is going
self.seat = seat # seat number of his player
self.adj = adj # the adjusted seat number for this player
self.x = x + table.x # table.x and y are the location of the table
self.y = y + table.y # x and y are the location relative to table.x & y
self.player_id = player_id # looks like this isn't used ;)
self.sb_click = 0 # used to figure out button clicks
self.window = gtk.Window()
self.window.set_decorated(0)
self.window.set_gravity(gtk.gdk.GRAVITY_STATIC)
self.window.set_title("%s" % seat)
self.window.set_property("skip-taskbar-hint", True)
self.window.set_transient_for(parent.main_window)
self.grid = gtk.Table(rows = self.game.rows, columns = self.game.cols, homogeneous = False)
self.window.add(self.grid)
self.e_box = []
self.frame = []
self.label = []
for r in range(self.game.rows):
self.e_box.append([])
self.label.append([])
for c in range(self.game.cols):
self.e_box[r].append( gtk.EventBox() )
self.e_box[r][c].modify_bg(gtk.STATE_NORMAL, gtk.gdk.color_parse(parent.colors['hudbgcolor']))
self.e_box[r][c].modify_fg(gtk.STATE_NORMAL, gtk.gdk.color_parse(parent.colors['hudfgcolor']))
Stats.do_tip(self.e_box[r][c], 'farts')
self.grid.attach(self.e_box[r][c], c, c+1, r, r+1, xpadding = 0, ypadding = 0)
self.label[r].append( gtk.Label('xxx') )
self.label[r][c].modify_bg(gtk.STATE_NORMAL, gtk.gdk.color_parse(parent.colors['hudbgcolor']))
self.label[r][c].modify_fg(gtk.STATE_NORMAL, gtk.gdk.color_parse(parent.colors['hudfgcolor']))
self.e_box[r][c].add(self.label[r][c])
self.e_box[r][c].connect("button_press_event", self.button_press_cb)
# font = pango.FontDescription(self.font)
self.label[r][c].modify_font(font)
self.window.set_opacity(parent.colors['hudopacity'])
self.window.move(self.x, self.y)
self.window.hide()
def destroy(*args): # call back for terminating the main eventloop
gtk.main_quit()
class Popup_window:
def __init__(self, parent, stat_window):
self.sb_click = 0
# create the popup window
self.window = gtk.Window()
self.window.set_decorated(0)
self.window.set_gravity(gtk.gdk.GRAVITY_STATIC)
# self.window.set_keep_above(1)
self.window.set_title("popup")
self.window.set_property("skip-taskbar-hint", True)
self.window.set_transient_for(parent.get_toplevel())
self.window.set_position(gtk.WIN_POS_CENTER_ON_PARENT)
self.ebox = gtk.EventBox()
self.ebox.connect("button_press_event", self.button_press_cb)
self.lab = gtk.Label("stuff\nstuff\nstuff")
# need an event box so we can respond to clicks
self.window.add(self.ebox)
self.ebox.add(self.lab)
self.ebox.modify_bg(gtk.STATE_NORMAL, gtk.gdk.color_parse(stat_window.parent.colors['hudbgcolor']))
self.ebox.modify_fg(gtk.STATE_NORMAL, gtk.gdk.color_parse(stat_window.parent.colors['hudfgcolor']))
self.window.modify_bg(gtk.STATE_NORMAL, gtk.gdk.color_parse(stat_window.parent.colors['hudbgcolor']))
self.window.modify_fg(gtk.STATE_NORMAL, gtk.gdk.color_parse(stat_window.parent.colors['hudfgcolor']))
self.lab.modify_bg(gtk.STATE_NORMAL, gtk.gdk.color_parse(stat_window.parent.colors['hudbgcolor']))
self.lab.modify_fg(gtk.STATE_NORMAL, gtk.gdk.color_parse(stat_window.parent.colors['hudfgcolor']))
# self.window.realize()
# figure out the row, col address of the click that activated the popup
row = 0
col = 0
for r in range(0, stat_window.game.rows):
for c in range(0, stat_window.game.cols):
if stat_window.e_box[r][c] == parent:
row = r
col = c
break
# figure out what popup format we're using
popup_format = "default"
for stat in stat_window.game.stats.keys():
if stat_window.game.stats[stat].row == row and stat_window.game.stats[stat].col == col:
popup_format = stat_window.game.stats[stat].popup
break
# get the list of stats to be presented from the config
stat_list = []
for w in stat_window.parent.config.popup_windows.keys():
if w == popup_format:
stat_list = stat_window.parent.config.popup_windows[w].pu_stats
break
# get a database connection
# db_connection = Database.Database(stat_window.parent.config, stat_window.parent.db_name, 'temp')
# calculate the stat_dict and then create the text for the pu
# stat_dict = db_connection.get_stats_from_hand(stat_window.parent.hand, stat_window.player_id)
stat_dict = self.db_connection.get_stats_from_hand(stat_window.parent.hand)
# db_connection.close_connection()
pu_text = ""
for s in stat_list:
number = Stats.do_stat(stat_dict, player = int(stat_window.player_id), stat = s)
pu_text += number[3] + "\n"
self.lab.set_text(pu_text)
self.window.show_all()
self.window.set_transient_for(stat_window.window)
# set_keep_above(1) for windows
if os.name == 'nt': self.topify_window(self.window)
def button_press_cb(self, widget, event, *args):
# This handles all callbacks from button presses on the event boxes in
# the popup windows. There is a bit of an ugly kludge to separate single-
# and double-clicks. This is the same code as in the Stat_window class
if event.button == 1: # left button event
if event.type == gtk.gdk.BUTTON_PRESS: # left button single click
if self.sb_click > 0: return
self.sb_click = gobject.timeout_add(250, self.single_click, widget)
elif event.type == gtk.gdk._2BUTTON_PRESS: # left button double click
if self.sb_click > 0:
gobject.source_remove(self.sb_click)
self.sb_click = 0
self.double_click(widget, event, *args)
if event.button == 2: # middle button event
pass
# print "middle button clicked"
if event.button == 3: # right button event
pass
# print "right button clicked"
def single_click(self, widget):
# Callback from the timeout in the single-click finding part of the
# button press call back. This needs to be modified to get all the
# arguments from the call.
self.sb_click = 0
self.window.destroy()
return False
def double_click(self, widget, event, *args):
self.toggle_decorated(widget)
def toggle_decorated(self, widget):
top = widget.get_toplevel()
(x, y) = top.get_position()
if top.get_decorated():
top.set_decorated(0)
top.move(x, y)
else:
top.set_decorated(1)
top.move(x, y)
def topify_window(self, window):
"""Set the specified gtk window to stayontop in MS Windows."""
def windowEnumerationHandler(hwnd, resultList):
'''Callback for win32gui.EnumWindows() to generate list of window handles.'''
resultList.append((hwnd, win32gui.GetWindowText(hwnd)))
unique_name = 'unique name for finding this window'
real_name = window.get_title()
window.set_title(unique_name)
tl_windows = []
win32gui.EnumWindows(windowEnumerationHandler, tl_windows)
for w in tl_windows:
if w[1] == unique_name:
# win32gui.ShowWindow(w[0], win32con.SW_HIDE)
# style = win32gui.GetWindowLong(w[0], win32con.GWL_EXSTYLE)
# style |= win32con.WS_EX_TOOLWINDOW
# style &= ~win32con.WS_EX_APPWINDOW
# win32gui.SetWindowLong(w[0], win32con.GWL_EXSTYLE, style)
# win32gui.ShowWindow(w[0], win32con.SW_SHOW)
win32gui.SetWindowPos(w[0], win32con.HWND_TOPMOST, 0, 0, 0, 0, win32con.SWP_NOMOVE|win32con.SWP_NOSIZE)
# notify_id = (w[0],
# 0,
# win32gui.NIF_ICON | win32gui.NIF_MESSAGE | win32gui.NIF_TIP,
# win32con.WM_USER+20,
# 0,
# '')
# win32gui.Shell_NotifyIcon(win32gui.NIM_DELETE, notify_id)
#
window.set_title(real_name)
if __name__== "__main__":
main_window = gtk.Window()
main_window.connect("destroy", destroy)
label = gtk.Label('Fake main window, blah blah, blah\nblah, blah')
main_window.add(label)
main_window.show_all()
c = Configuration.Config()
#tables = Tables.discover(c)
t = Tables.discover_table_by_name(c, "Motorway")
if t is None:
print "Table not found."
db = Database.Database(c, 'fpdb', 'holdem')
# for t in tables:
win = Hud(t, 10, 'holdem', c, db)
win.create(1, c)
# t.get_details()
win.update(8300, db, c)
gtk.main()