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bookViewer.py
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bookViewer.py
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#!/usr/bin/python
import sys
import traceback
import curses
from six.moves import cPickle
from collections import deque
from pylimitbook.bookViewerBook import BookViewerBook
class BookViewer(object):
def __init__(self):
self.help_text = ' n:Next N:Prev t:Play for time T:Go to time l:Play for lines L:Play to line a:Aggregate .:Repeat'
self.screen = None
self.quotebook = BookViewerBook()
self.max_reverse = 100
self.quotebook_history = deque(maxlen=self.max_reverse)
self.infile = []
self.curr_index = -1
self.last_skipped = 0
self.aggregate = False
self.keys = {
'EXIT': 113, # q
'REPEAT': 46, # .
'PREVIOUS': 78, # N
'NEXT': 110, # n
'PLAY_FOR_TIME': 116, # t
'PLAY_TO_TIME': 84, # T
'PLAY_FOR_LINES': 108, # l
'PLAY_TO_LINE': 76, # L
'AGGREGATE': 97, # a
'ESCAPE': 27, # <ESC>
}
def reset(self):
self.quotebook = BookViewerBook()
self.quotebook_history.clear()
self.curr_index = -1
def process_line(self, save_history=False):
# Save the history
if save_history:
self.quotebook_history.append(cPickle.dumps(self.quotebook, protocol=-1))
else:
self.quotebook_history.clear()
# Play line
line = self.infile[self.curr_index + 1]
if line[0] == 'B':
self.quotebook.bid(line.rstrip())
elif line[0] == 'A':
self.quotebook.ask(line.rstrip())
else:
self.quotebook.trade(line.rstrip())
self.curr_index += 1
def reverse_book(self):
if len(self.quotebook_history) > 0:
self.quotebook = cPickle.loads(self.quotebook_history.pop())
self.curr_index -= 1
def read_file(self, filename):
try:
reader = open(sys.argv[1], 'r')
for line in reader:
self.infile.append(line)
except IOError:
print('Cannot open input file: %s' % filename)
sys.exit(1)
def play_lines(self, number):
target_index = self.curr_index + number
if target_index > self.curr_index:
max_index = target_index if target_index < len(self.infile) else len(self.infile) - 1
while self.curr_index < max_index:
if max_index - self.curr_index <= self.max_reverse:
self.process_line(save_history=True)
else:
self.process_line(save_history=False)
elif target_index < self.curr_index and target_index >= 0:
# Negative lines
reverse_lines = self.curr_index - target_index
while reverse_lines > 0 and len(self.quotebook_history) > 0:
self.reverse_book()
reverse_lines -= 1
def play_to_line(self, line):
# subtract 1 because lines start at 1 not 0
self.play_lines(line - self.curr_index - 1)
def play_time(self, time):
target_time = self.quotebook.last_timestamp + time
if target_time >= self.quotebook.last_timestamp:
while self.quotebook.last_timestamp < target_time and \
len(self.infile) > self.curr_index + 1:
if target_time - self.quotebook.last_timestamp <= 5000 \
or self.curr_index > len(self.infile) - self.max_reverse:
self.process_line(save_history=True)
else:
self.process_line(save_history=False)
elif target_time < self.quotebook.last_timestamp and target_time >= 0:
# Reverse time
while self.quotebook.last_timestamp > target_time \
and len(self.quotebook_history) > 0:
self.reverse_book()
if self.quotebook.last_timestamp > target_time and self.curr_index > 0:
# Play up to the line
self.reset()
self.play_time(target_time)
def play_to_time(self, time):
self.play_time(time - self.quotebook.last_timestamp)
def get_int_value(self, message):
dimensions = self.screen.getmaxyx()
if len(message) < dimensions[1]:
empty = dimensions[1] - len(message) - 2
self.screen.addstr(dimensions[0] - 2, len(message) + 1, \
" " * empty, curses.A_STANDOUT)
self.screen.addstr(dimensions[0] - 2, 1, message, curses.A_STANDOUT)
curses.curs_set(1);
curses.echo() # show cursor
value = self.screen.getstr()
self.draw_help()
curses.curs_set(0);
curses.noecho()
try:
return int(value)
except ValueError:
return None
def process_key(self, character):
if character == self.keys['PREVIOUS']:
self.play_lines(-1)
elif character == self.keys['NEXT']:
self.play_lines(1)
elif character == self.keys['PLAY_FOR_TIME']:
value = self.get_int_value('Milliseconds: ')
if value != None:
self.last_skipped = value
self.play_time(value)
elif character == self.keys['PLAY_TO_TIME']:
value = self.get_int_value('Milliseconds: ')
if value != None:
self.play_to_time(value)
elif character == self.keys['PLAY_FOR_LINES']:
value = self.get_int_value('Lines: ')
if value != None:
self.last_skipped = value
self.play_lines(value)
elif character == self.keys['PLAY_TO_LINE']:
value = self.get_int_value('Line: ')
if value != None:
self.play_to_line(value)
elif character == self.keys['AGGREGATE']:
# Toggle tier aggregation
self.aggregate = True if self.aggregate == False else False
def draw_book(self):
dimensions = self.screen.getmaxyx()
length = int(dimensions[0] - 5)
width = int((dimensions[1] - 3) / 3)
# Bids
bid_win = curses.newwin(length, width, 3, 2)
book = ''
if self.aggregate:
book = self.quotebook.bid_book_aggregated_str().split('\n')
else:
book = self.quotebook.bid_book_str().split('\n')
for idx, line in enumerate(book):
if idx == 0:
bid_win.addstr(idx, 1, line, curses.A_STANDOUT)
elif idx == length:
break
else:
bid_win.addstr(idx, 1, line)
bid_win.refresh()
# Asks
ask_win = curses.newwin(length, width, 3, 3 + width)
book = ''
if self.aggregate:
book = self.quotebook.ask_book_aggregated_str().split('\n')
else:
book = self.quotebook.ask_book_str().split('\n')
for idx, line in enumerate(book):
if idx == 0:
ask_win.addstr(idx, 1, line, curses.A_STANDOUT)
elif idx == length:
break
else:
ask_win.addstr(idx, 1, line)
ask_win.refresh()
# Trades
trade_win = curses.newwin(length, width, 3, 3 + (width * 2) - 1)
book = self.quotebook.trade_book_str().split('\n')
for idx, line in enumerate(book):
if idx == 0:
trade_win.addstr(idx, 1, line, curses.A_STANDOUT)
elif idx == length:
break
else:
trade_win.addstr(idx, 1, line)
trade_win.refresh()
def draw_help(self):
dimensions = self.screen.getmaxyx()
self.screen.addstr(dimensions[0] - 2, 1, self.help_text, curses.A_STANDOUT)
if len(self.help_text) < self.screen.getmaxyx()[1] - 4:
empty = self.screen.getmaxyx()[1] - len(self.help_text) - 3
self.screen.addstr(dimensions[0] - 2, len(self.help_text) + 1, " " * empty, \
curses.A_STANDOUT)
def draw_screen(self):
self.screen.clear()
self.screen.border(0)
self.screen.refresh()
self.draw_help()
def main(self, stdscr):
# Draw the shortcut key bar
self.screen = stdscr
self.draw_screen()
# Read the file
self.read_file(sys.argv[1])
self.play_lines(1)
exit = False
last_pressed = None
while not exit:
self.draw_book()
# Print current line
line = self.infile[self.curr_index].rstrip() + ' (line ' \
+ str(self.curr_index + 1) + ')'
if self.aggregate:
line += ' [AGGREGATED VIEW]'
dimensions = self.screen.getmaxyx()
if len(line) < dimensions[1] - 4:
empty = dimensions[1] - len(line) - 10
line += (" " * empty)
self.screen.addstr(1, 3, line.replace(',', ', '))
# Refresh the screen
self.screen.refresh()
character = self.screen.getch()
if character == curses.KEY_RESIZE:
# Window resize
self.draw_screen()
self.draw_book()
elif character == self.keys['REPEAT'] and last_pressed != None:
if last_pressed == self.keys['PLAY_FOR_LINES']:
self.play_lines(self.last_skipped)
elif last_pressed == self.keys['PLAY_FOR_TIME']:
self.play_time(self.last_skipped)
else:
self.process_key(last_pressed)
elif character == self.keys['EXIT']:
exit = True
else:
last_pressed = character
self.process_key(character)
if __name__ == '__main__':
if len(sys.argv) != 2:
print("usage: %s input.csv" % sys.argv[0])
sys.exit(0)
try:
# Initiate window
stdscr = curses.initscr()
curses.noecho() # hide cursor
# Turn off echoing of keys, and enter cbreak mode,
# where no buffering is performed on keyboard input
curses.noecho();
curses.cbreak()
curses.curs_set(0) # Hide cursor
# In keypad mode, escape sequences for special keys
# (like the cursor keys) will be interpreted and
# a special value like curses.KEY_LEFT will be returned
stdscr.keypad(1)
bookViewer = BookViewer()
bookViewer.main(stdscr) # Enter the main loop
# Set everything back to normal
stdscr.keypad(0)
curses.echo();
curses.nocbreak()
curses.endwin() # Terminate curses
except KeyboardInterrupt:
# ctrl-c
stdscr.keypad(0)
curses.echo();
curses.nocbreak()
curses.endwin()
except:
# In the event of an error, restore the terminal
# to a sane state.
stdscr.keypad(0)
curses.echo();
curses.nocbreak()
curses.endwin()
traceback.print_exc() # Print the exception