clever-show/Drone/animation_lib.py

import time
import csv
import copy
import rospy
import logging
import threading
import ConfigParser

try:
    from FlightLib import FlightLib
except ImportError:
    print("Can't import FlightLib")
try:
    from FlightLib import LedLib
except ImportError:
    print("Can't import LedLib")

import tasking_lib as tasking

logger = logging.getLogger(__name__)

interrupt_event = threading.Event()

config = ConfigParser.ConfigParser()
config.read("client_config.ini")

default_delay = config.getfloat('ANIMATION', 'frame_delay')

anim_id = "Empty id"

# TODO refactor as class
# TODO separate code for frames transformations (e.g. for gps)

def get_id(filepath="animation.csv"):
    global anim_id
    try:
        animation_file = open(filepath)
    except IOError:
        logger.error("File {} can't be opened".format(filepath))
        anim_id = "No animation"
        return anim_id
    else:
        with animation_file:
            csv_reader = csv.reader(
                animation_file, delimiter=',', quotechar='|'
            )
            row_0 = csv_reader.next()
            if len(row_0) == 1:
                anim_id = row_0[0]
                logger.debug("Got animation_id: {}".format(anim_id))
            else:
                anim_id = "Empty id"
                logger.debug("No animation id in file")
    return anim_id

def get_start_xy(filepath="animation.csv", x_ratio=1, y_ratio=1):
    try:
        animation_file = open(filepath)
    except IOError:
        logger.error("File {} can't be opened".format(filepath))
        anim_id = "No animation"
        return float('nan'), float('nan')
    else:
        with animation_file:
            csv_reader = csv.reader(
                animation_file, delimiter=',', quotechar='|'
            )
            try:
                row_frame = csv_reader.next()
            except:
                return float('nan'), float('nan')
            if len(row_frame) == 1:
                anim_id = row_frame[0]
                logger.debug("Got animation_id: {}".format(row_frame[0]))
                row_frame = csv_reader.next()
            if len(row_frame) == 2:
                logger.debug("Got frame delay: {}".format(row_frame[1]))
                row_frame - csv_reader.next()
            try:
                frame_number, x, y, z, yaw, red, green, blue = row_frame
            except:
                return float('nan'), float('nan')
    return float(x)*x_ratio, float(y)*y_ratio


def load_animation(filepath="animation.csv", x0=0, y0=0, z0=0, x_ratio=1, y_ratio=1, z_ratio=1):
    imported_frames = []
    global anim_id
    try:
        animation_file = open(filepath)
    except IOError:
        logging.error("File {} can't be opened".format(filepath))
        anim_id = "No animation"
    else:
        with animation_file:
            current_frame_delay = default_delay
            csv_reader = csv.reader(
                animation_file, delimiter=',', quotechar='|'
            )
            row_0 = csv_reader.next()
            if len(row_0) == 1:
                anim_id = row_0[0]
                logger.debug("Got animation_id: {}".format(anim_id))
            elif len(row_0) == 2:
                current_frame_delay = float(row_0[1])
                logger.debug("Got new frame delay: {}".format(current_frame_delay))
            else:
                logger.debug("No animation id in file")
                frame_number, x, y, z, yaw, red, green, blue = row_0
                imported_frames.append({
                    'number': int(frame_number),
                    'x': x_ratio*float(x) + x0,
                    'y': y_ratio*float(y) + y0,
                    'z': z_ratio*float(z) + z0,
                    'yaw': float(yaw),
                    'red': int(red),
                    'green': int(green),
                    'blue': int(blue),
                    'delay': current_frame_delay
                })
            for row in csv_reader:
                if len(row) == 2:
                    current_frame_delay = float(row[1])
                else:
                    frame_number, x, y, z, yaw, red, green, blue = row
                    imported_frames.append({
                        'number': int(frame_number),
                        'x': x_ratio*float(x) + x0,
                        'y': y_ratio*float(y) + y0,
                        'z': z_ratio*float(z) + z0,
                        'yaw': float(yaw),
                        'red': int(red),
                        'green': int(green),
                        'blue': int(blue),
                        'delay': current_frame_delay
                    })
        return imported_frames

def correct_animation(frames, frame_delay=0.1, min_takeoff_height=0.5, move_delta=0.01, check_takeoff=True, check_land=True):
    corrected_frames = copy.deepcopy(frames)
    start_action = 'takeoff'
    frames_to_start = 0
    time_to_start = 0
    if len(corrected_frames) == 0:
        raise Exception('Nothing to correct!')
    # Check takeoff
    # If copter takes off in animation file, copter must be armed first and then all animation can be played
    if (corrected_frames[0]['z'] < min_takeoff_height) and check_takeoff:
        start_action = 'arm'
        # If the first point is low, then detect moment to arm,
        # delete all points, where copter is standing, and count time_delta
        for i in range(len(corrected_frames)-1):
            if corrected_frames[i-frames_to_start+1]['z'] - corrected_frames[i-frames_to_start]['z'] > move_delta:
                break
            time_to_start += corrected_frames[i-frames_to_start]['delay']
            del corrected_frames[i-frames_to_start]
            frames_to_start += 1
    start_delay = time_to_start
    # Check Land
    # If copter lands in animation, landing points can be deleted
    if (corrected_frames[len(corrected_frames)-1]['z'] < min_takeoff_height) and check_land:
        for i in range(len(corrected_frames)-1,0,-1):
            # print i
            if abs(corrected_frames[i-1]['z'] - corrected_frames[i]['z']) < move_delta:
                break
            del corrected_frames[i]
        for i in range(len(corrected_frames)-1,0,-1):
            if (abs(corrected_frames[i-1]['x'] - corrected_frames[i]['x']) > move_delta or
                abs(corrected_frames[i-1]['y'] - corrected_frames[i]['y']) > move_delta):
                break
            del corrected_frames[i]
    return corrected_frames, start_action, start_delay

# Needs for test
def save_corrected_animation(frames, filename="corrected_animation.csv"):
    corrected_animation = open(filename, mode='w+')
    csv_writer = csv.writer(corrected_animation, delimiter=',', quotechar='"', quoting=csv.QUOTE_MINIMAL)
    for frame in frames:
        csv_writer.writerow([frame['number'],frame['x'], frame['y'], frame['z'], frame['delay']])
        # print frame
    corrected_animation.close()

def convert_frame(frame):
    return ((frame['x'], frame['y'], frame['z']), (frame['red'], frame['green'], frame['blue']), frame['yaw'])

try:
    def execute_frame(point=(), color=(), yaw=float('Nan'), frame_id='aruco_map', use_leds=True,
                    flight_func=FlightLib.navto, auto_arm=False, flight_kwargs=None, interrupter=interrupt_event):
        if flight_kwargs is None:
            flight_kwargs = {}

        flight_func(*point, yaw=yaw, frame_id=frame_id, auto_arm=auto_arm, interrupter=interrupt_event, **flight_kwargs)
        if use_leds:
            if color:
                LedLib.fill(*color)




    def execute_animation(frames, frame_delay, frame_id='aruco_map', use_leds=True, flight_func=FlightLib.navto,
                        interrupter=interrupt_event):
        next_frame_time = 0
        for frame in frames:
            if interrupter.is_set():
                logger.warning("Animation playing function interrupted!")
                interrupter.clear()
                return
            execute_frame(*convert_frame(frame), frame_id=frame_id, use_leds=use_leds, flight_func=flight_func,
                        interrupter=interrupter)

            next_frame_time += frame_delay
            tasking.wait(next_frame_time, interrupter)


    def takeoff(z=1.5, safe_takeoff=True, frame_id='map', timeout=5.0, use_leds=True,
                interrupter=interrupt_event):
        if use_leds:
            LedLib.wipe_to(255, 0, 0, interrupter=interrupter)
        result = FlightLib.takeoff(height=z, timeout_takeoff=timeout, frame_id=frame_id,
                                emergency_land=safe_takeoff, interrupter=interrupter)
        if result == 'not armed' or result == 'timeout':
            raise Exception('STOP')  # Raise exception to clear task_manager if copter can't arm
        if use_leds:
            LedLib.blink(0, 255, 0, wait=50, interrupter=interrupter)


    def land(z=1.5, descend=False, timeout=5.0, frame_id='aruco_map', use_leds=True,
            interrupter=interrupt_event):
        if use_leds:
            LedLib.blink(255, 0, 0, interrupter=interrupter)
        FlightLib.land(z=z, descend=descend, timeout_land=timeout, frame_id_land=frame_id, interrupter=interrupter)
        if use_leds:
            LedLib.off()

except NameError:
    print("Can't create flying functions")