some cleanup

7 years ago · dd6e3493b9
3 changed files with 360 additions and 331 deletions
--- a/arduino_timetable/init.py
+++ b/arduino_timetable/init.py
@ -1,333 +1,13 @@
-''' Controlling an Arduino with a time table '''
+''' Controlling an Arduino with commands in a time table '''
-import asyncio
+from .gui import run_application
-import serial
+from .timetable import (
-import serial.tools.list_ports
+    parse_time_table,
-
+    parse_excel_file,
-from collections import namedtuple
+    find_arduino_port,
 from datetime import datetime, timedelta
 from openpyxl import load_workbook
 __version__ = '0.0.1'
 # example time table for the TrapControl
 example = '''
        00:00.0    close
        00:06.0    open
        00:08.0    close
        00:10.0    open
        00:12.0    close
        00:14.0    open
        00:16.0    close
        00:18.0    open
        00:20.0    close
        00:22.0    open
        '''
 # datetime formats for timetable parsing
 TIMETABLE_FORMATS = ['%M:%S', '%M:%S.%f', '%H:%M:%S', '%H:%M:%S.%f']
 # named tuple for a single scheduled command
 ScheduledCommand = namedtuple('ScheduledCommand', 'delta command cmd')
 def parse_time_table(timetable, available_commands):
    ''' parses a (text) time table into a list of ScheduledCommands
    timetable:
        a textual representaion of time and commands like
        00:12.0    close
        00:14.0    open
        00:16.0    close
        00:18.0    open
    available_commands:
        a dictionary containing the available human readable commands as
        keys and the commands to send as values
        {'open': 0, 'close': 1}
    returns a list consisting of ScheduledCommands
    '''
    # split the time table text by line break
    raw_lines = timetable.split('\n')
    # remove surrounding white space
    content_lines = (line.strip() for line in raw_lines)
    # remove empty lines
    lines = (line for line in content_lines if line)
    timed_commands =[]
    for line in lines:
        # split the lines into time and command
        try:
            raw_time, raw_command = line.split(None, 1)
        except ValueError:
            msg = "error in line '{}'".format(line)
            raise ValueError(msg)
        # parse time and commands
        delta = parse_time(raw_time)
        cmd = parse_command(raw_command, available_commands)
        # add a ScheduledCommand to the resulting list
        tc = ScheduledCommand(delta, raw_command, cmd)
        timed_commands.append(tc)
    return timed_commands
 def parse_excel_file(path, available_commands):
    ''' parses an time table in an excel file into a list of ScheduledCommands
    path:
        path to excel file
        the time must be in the first column of the first sheet, the command in
        the second column
    available_commands:
        a dictionary containing the available human readable commands as
        keys and the commands to send as values
        {'open': 0, 'close': 1}
    returns a list consisting of ScheduledCommands
    '''
    workbook = load_workbook(path, read_only=True)
    sheets = workbook.get_sheet_names()
    sheet_name = sheets[0]
    sheet = workbook[sheet_name]
    is_header = True
    timed_commands = []
    for i, row in enumerate(sheet.rows):
        delta = parse_time_cell(row[0])
        print(i, row[0].value, delta)
        if delta is None:
            # no time in the cell
            if is_header:
                # this is still a header
                continue
            else:
                # not the header and not a time cell
                # premature end of list
                break
        else:
            # a time in the cell, this is not a header any more
            is_header = False
        raw_command = row[1].value
        cmd = parse_command(raw_command, available_commands)
        # add a ScheduledCommand to the resulting list
        tc = ScheduledCommand(delta, raw_command, cmd)
        timed_commands.append(tc)
    return timed_commands
 def parse_time_cell(excel_cell):
    if excel_cell.is_date:
        return time_as_timedelta(excel_cell.value)
    if isinstance(excel_cell.value, float):
        return timedelta(days=excel_cell.value)
    try:
        delta = parse_time(excel_cell.value)
        return delta
    except ValueError:
        return None
 def parse_time(time_str):
    ''' parses a string to extract the time information
    time_str:
        string representaion of a time like '00:03.0'
    returns a timedelta object, e.g. timedelta(seconds=3)
    '''
    # try the available time formats
    for format_str in TIMETABLE_FORMATS:
        try:
            time_obj = datetime.strptime(time_str, format_str)
            break
        except ValueError:
            pass
    else:
        msg = "time data '{}' does not match any format".format(time_str)
        raise ValueError(msg)
    return time_as_timedelta(time_obj)
 def time_as_timedelta(time_object):
    ''' converts a time object to a timedelta '''
    return timedelta(
        hours=time_object.hour,
        minutes=time_object.minute,
        seconds=time_object.second,
        microseconds=time_object.microsecond
        )
 def parse_command(command, available_commands):
    ''' parses a string and checks if it is a valid command
    raw_command:
        human readable representation of the command
    available_commands:
        a dictionary containing the available human readable commands as
        keys and the commands to send as values
        {'open': 0, 'close': 1}
    returns the command to send over serial
    '''
    try:
        cmd = available_commands[command.lower()]
    except KeyError:
        msg = "unknown command '{}'".format(command)
        raise ValueError(msg)
    if isinstance(cmd, str):
        cmd = cmd.encode('utf-8')
    return cmd
 def find_arduino_port():
    ''' returns the port where an arduino is connected '''
    # some regular expressions matching arduino and genuino
    tmp = serial.tools.list_ports.grep('.+uino.+')
    port_list = list(tmp)
    # rais an error, if no or more than one arduinos are found
    if len(port_list) == 0:
        raise IOError('no arduino port found')
    elif len(port_list) > 1:
        raise IOError('{} arduino ports found'.format(len(port_list)))
    # return only the device name
    port_info = port_list[0]
    return port_info.device
 def send_command(scheduled_command, serial_connection):
    ''' sends a command over a serial connection '''
    serial_connection.write(scheduled_command.cmd)
    print(str(scheduled_command.delta), scheduled_command.command)
 def run(scheduled_commands, serial_connection):
    ''' run scheduled commands
    scheduled_commands:
        list of ScheduledCommands
    serial_connection:
        serial connection object to send commands
    '''
    # use a new event loop every time
    # if only one eventloop is used, the interactive use of run()
    # does not work since the loop is closed in the end
    loop = asyncio.new_event_loop()
    for scheduled_command in scheduled_commands:
        loop.call_later(
            scheduled_command.delta.total_seconds(),
    send_command,
-            scheduled_command,
+    run,
-            serial_connection
+    TimedCommands
    )
    # loop should stop one second after last command in list
    timed_loop_stop = scheduled_command.delta + timedelta(seconds=1)
    loop.call_later(timed_loop_stop.total_seconds(), loop.stop)
    try:
        loop.run_forever()
    except KeyboardInterrupt:
        loop.stop()
    loop.close()
 class TimedCommands(object):
    ''' lightweight encapsulation of the functions in the module '''
-    def __init__(self,
+__version__ = '0.0.1'
                 timetable,
                 available_commands,
                 port=None,
                 baudrate=9600,
                 **serial_kwargs):
        ''' parses a time table and establishes a serial connection
        timetable:
            a file path to an excel file or
            a textual representaion of time and commands like
            00:12.0    close
            00:14.0    open
            00:16.0    close
            00:18.0    open
        available_commands:
            a dictionary containing the available human readable commands
            as keys and the commands to send as values.
            If an other iterable with strings is provided, the lowercase
            version of the strings will be used as human readable commands
            and the first letter of the strings as commands to send over the
            wire.
        port [None]
            port where the Arduino is connected
            if port is None, the ports are scanned for an Arduino
        baudrate [9600]
            speed of the serial connection
        serial_kwargs
            dictionary with further arguments for the serial connection
        '''
        # make sure the available commands are a dictionary
        cmd_dict = self._ensure_command_dict(available_commands)
        # parse the time table into something suitable
        if '.xls' in timetable:
            self.commands = parse_excel_file(timetable, cmd_dict)
        else:
            self.commands = parse_time_table(timetable, cmd_dict)
        # establish the serial connection
        port = port or find_arduino_port()
        self.serial = serial.Serial(port, baudrate, **serial_kwargs)
    def _ensure_command_dict(self, iterable):
        ''' ensures, that the available commands are a dictionary
        iterable:
            if the itarable is a dictionary, the keys will be
            transformed to lowercase
            if it is not a dictionary, the lowercase version of the
            items is used as a human readable command and the first
            character of this command will be sent over the wire
        '''
        try:
            if isinstance(iterable, dict):
                pairs = list(iterable.items())
                keys = [key.lower() for key, value in pairs]
                values = [value for key, value in pairs]
            else:
                tmp = (str(item) for item in iterable)
                keys = [item.lower() for item in tmp]
                values = [item[0] for item in keys]
            pairs = zip(keys, values)
            return dict(pairs)
        except:
            msg = 'available commands should be a list or dict of strings'
            raise TypeError(msg)
    def run(self):
        ''' run the scheduled commands '''
        run(self.commands, self.serial)
 class TrapControl(TimedCommands):
    ''' A simple, stripped down version for the magnetic plug trap '''
    def __init__(self, timetable):
        super().__init__(timetable, ['open', 'close'])
--- a/arduino_timetable/timetable.py
+++ b/arduino_timetable/timetable.py
@ -0,0 +1,344 @@
 ''' Controlling an Arduino with a time table '''
 import asyncio
 import serial
 import serial.tools.list_ports
 from collections import namedtuple
 from datetime import datetime, timedelta
 from openpyxl import load_workbook
 # example time table for the TrapControl
 example = '''
        00:00.0    close
        00:06.0    open
        00:08.0    close
        00:10.0    open
        00:12.0    close
        00:14.0    open
        00:16.0    close
        00:18.0    open
        00:20.0    close
        00:22.0    open
        '''
 # datetime formats for timetable parsing
 TIMETABLE_FORMATS = ['%M:%S', '%M:%S.%f', '%H:%M:%S', '%H:%M:%S.%f']
 # named tuple for a single scheduled command
 ScheduledCommand = namedtuple('ScheduledCommand', 'delta command cmd')
 def parse_time_table(timetable, available_commands=None):
    ''' parses a (text) time table into a list of ScheduledCommands
    timetable:
        a textual representaion of time and commands like
        00:12.0    close
        00:14.0    open
        00:16.0    close
        00:18.0    open
    available_commands:
        a dictionary containing the available human readable commands as
        keys and the commands to send as values
        {'open': 0, 'close': 1}
        if None is provided, the check is skipped and the first lower case
        letter used
    returns a list consisting of ScheduledCommands
    '''
    # split the time table text by line break
    raw_lines = timetable.split('\n')
    # remove surrounding white space
    content_lines = (line.strip() for line in raw_lines)
    # remove empty lines
    lines = (line for line in content_lines if line)
    timed_commands =[]
    for line in lines:
        # split the lines into time and command
        try:
            raw_time, raw_command = line.split(None, 1)
        except ValueError:
            msg = "error in line '{}'".format(line)
            raise ValueError(msg)
        # parse time and commands
        delta = parse_time(raw_time)
        cmd = parse_command(raw_command, available_commands)
        # add a ScheduledCommand to the resulting list
        tc = ScheduledCommand(delta, raw_command, cmd)
        timed_commands.append(tc)
    return timed_commands
 def parse_excel_file(path, available_commands=None):
    ''' parses an time table in an excel file into a list of ScheduledCommands
    path:
        path to excel file
        the time must be in the first column of the first sheet, the command in
        the second column
    available_commands:
        a dictionary containing the available human readable commands as
        keys and the commands to send as values
        {'open': 0, 'close': 1}
        if None is provided, the check is skipped and the first lower case
        letter used
    returns a list consisting of ScheduledCommands
    '''
    workbook = load_workbook(path, read_only=True)
    sheets = workbook.get_sheet_names()
    sheet_name = sheets[0]
    sheet = workbook[sheet_name]
    is_header = True
    timed_commands = []
    for i, row in enumerate(sheet.rows):
        delta = parse_time_cell(row[0])
        if delta is None:
            # no time in the cell
            if is_header:
                # this is still a header
                continue
            else:
                # not the header and not a time cell
                # premature end of list
                break
        else:
            # a time in the cell, this is not a header any more
            is_header = False
        raw_command = row[1].value
        cmd = parse_command(raw_command, available_commands)
        # add a ScheduledCommand to the resulting list
        tc = ScheduledCommand(delta, raw_command, cmd)
        timed_commands.append(tc)
    return timed_commands
 def parse_time_cell(excel_cell):
    ''' parse an excel cell that contains a time value
    if no time value is found in the excel cell None will be returned
    '''
    if excel_cell.is_date:
        # the excel value is a datetime object
        return time_as_timedelta(excel_cell.value)
    if isinstance(excel_cell.value, float):
        # sometimes excel stores times as a float value
        return timedelta(days=excel_cell.value)
    try:
        # if it is not a common date fomat, try to parse it
        delta = parse_time(excel_cell.value)
        return delta
    except ValueError:
        return None
 def parse_time(time_str):
    ''' parses a string to extract the time information
    time_str:
        string representaion of a time like '00:03.0'
    returns a timedelta object, e.g. timedelta(seconds=3)
    '''
    # try the available time formats
    time_str = str(time_str)
    for format_str in TIMETABLE_FORMATS:
        try:
            time_obj = datetime.strptime(time_str, format_str)
            break
        except ValueError:
            pass
    else:
        msg = "time data '{}' does not match any format".format(time_str)
        raise ValueError(msg)
    return time_as_timedelta(time_obj)
 def time_as_timedelta(time_object):
    ''' converts a time object to a timedelta '''
    return timedelta(
        hours=time_object.hour,
        minutes=time_object.minute,
        seconds=time_object.second,
        microseconds=time_object.microsecond
        )
 def parse_command(command, available_commands=None):
    ''' parses a string and checks if it is a valid command
    raw_command:
        human readable representation of the command
    available_commands:
        a dictionary containing the available human readable commands as
        keys and the commands to send as values
        {'open': 0, 'close': 1}
        if None is provided, the check is skipped and the first lower case
        letter used
    returns the command to send over serial
    '''
    if available_commands is None:
        cmd = str(command)[0]
    else:
        try:
            cmd = available_commands[command.lower()]
        except KeyError:
            msg = "unknown command '{}'".format(command)
            raise ValueError(msg)
    if isinstance(cmd, str):
        cmd = cmd.encode('utf-8')
    return cmd
 def find_arduino_port():
    ''' returns the port where an arduino is connected '''
    # some regular expressions matching arduino and genuino
    tmp = serial.tools.list_ports.grep('.+uino.+')
    port_list = list(tmp)
    # rais an error, if no or more than one arduinos are found
    if len(port_list) == 0:
        raise IOError('no arduino port found')
    elif len(port_list) > 1:
        raise IOError('{} arduino ports found'.format(len(port_list)))
    # return only the device name
    port_info = port_list[0]
    return port_info.device
 def send_command(scheduled_command, serial_connection):
    ''' sends a command over a serial connection '''
    serial_connection.write(scheduled_command.cmd)
    print(str(scheduled_command.delta), scheduled_command.command)
 def run(scheduled_commands, serial_connection):
    ''' run scheduled commands
    scheduled_commands:
        list of ScheduledCommands
    serial_connection:
        serial connection object to send commands
    '''
    # use a new event loop every time
    # if only one eventloop is used, the interactive use of run()
    # does not work since the loop is closed in the end
    loop = asyncio.new_event_loop()
    for scheduled_command in scheduled_commands:
        loop.call_later(
            scheduled_command.delta.total_seconds(),
            send_command,
            scheduled_command,
            serial_connection
            )
    # loop should stop one second after last command in list
    timed_loop_stop = scheduled_command.delta + timedelta(seconds=1)
    loop.call_later(timed_loop_stop.total_seconds(), loop.stop)
    try:
        loop.run_forever()
    except KeyboardInterrupt:
        loop.stop()
    loop.close()
 class TimedCommands(object):
    ''' lightweight encapsulation of the functions in the module '''
    def __init__(self,
                 timetable,
                 available_commands,
                 port=None,
                 baudrate=9600,
                 **serial_kwargs):
        ''' parses a time table and establishes a serial connection
        timetable:
            a file path to an excel file or
            a textual representaion of time and commands like
            00:12.0    close
            00:14.0    open
            00:16.0    close
            00:18.0    open
        available_commands:
            a dictionary containing the available human readable commands
            as keys and the commands to send as values.
            If an other iterable with strings is provided, the lowercase
            version of the strings will be used as human readable commands
            and the first letter of the strings as commands to send over the
            wire.
        port [None]
            port where the Arduino is connected
            if port is None, the ports are scanned for an Arduino
        baudrate [9600]
            speed of the serial connection
        serial_kwargs
            dictionary with further arguments for the serial connection
        '''
        # make sure the available commands are a dictionary
        cmd_dict = self._ensure_command_dict(available_commands)
        # parse the time table into something suitable
        if '.xls' in timetable:
            self.commands = parse_excel_file(timetable, cmd_dict)
        else:
            self.commands = parse_time_table(timetable, cmd_dict)
        # establish the serial connection
        port = port or find_arduino_port()
        self.serial = serial.Serial(port, baudrate, **serial_kwargs)
    def _ensure_command_dict(self, iterable):
        ''' ensures, that the available commands are a dictionary
        iterable:
            if the itarable is a dictionary, the keys will be
            transformed to lowercase
            if it is not a dictionary, the lowercase version of the
            items is used as a human readable command and the first
            character of this command will be sent over the wire
        '''
        try:
            if isinstance(iterable, dict):
                pairs = list(iterable.items())
                keys = [key.lower() for key, value in pairs]
                values = [value for key, value in pairs]
            else:
                tmp = (str(item) for item in iterable)
                keys = [item.lower() for item in tmp]
                values = [item[0] for item in keys]
            pairs = zip(keys, values)
            return dict(pairs)
        except:
            msg = 'available commands should be a list or dict of strings'
            raise TypeError(msg)
    def run(self):
        ''' run the scheduled commands '''
        run(self.commands, self.serial)
    def close(self):
        ''' closes an open serial connection '''
        self.serial.close()
--- a/run_magnetic_trap.py
+++ b/run_magnetic_trap.py
@ -0,0 +1,5 @@
 from arduino_timetable import run_application
 if __name__ == '__main__':
    arduino_commands = {'open': 'o', 'close': 'c'}
    run_application(arduino_commands, "It's a trap!")