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cos / mirrors / cros / chromiumos / third_party / autotest / refs/heads/stabilize-11151.59.B / . / client / site_tests / firmware_TouchMTB / test_conf.py
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# -*- coding: utf-8 -*-
#
# Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
"""This configuration file defines the gestures to perform."""
from collections import defaultdict
from firmware_constants import DEV, GV, VAL
from validators import (CountPacketsValidator,
CountTrackingIDNormalFingerValidator,
CountTrackingIDFatFingerValidator,
DragLatencyValidator,
DiscardInitialSecondsValidator,
DrumrollValidator,
HysteresisValidator,
LinearityFatFingerValidator,
LinearityNormalFingerValidator,
MtbSanityValidator,
NoGapValidator,
NoReversedMotionValidator,
PhysicalClickValidator,
PinchValidator,
RangeValidator,
ReportRateValidator,
StationaryValidator,
StationaryFingerValidator,
StationaryTapValidator,
)
# Define which score aggregator is to be used. A score aggregator collects
# the scores from every tests and calculates the final score for the touch
# firmware test suite.
score_aggregator = 'fuzzy.average'
# Define some common criteria
count_packets_criteria = '>= 3, ~ -3'
drumroll_criteria = '<= 2.0'
# linearity_criteria is used for strictly straight line drawn with a ruler.
linearity_criteria = '<= 0.8, ~ +2.4'
# relaxed_linearity_criteria is used for lines drawn with thumb edge or
# fat fingers which are allowed to be curvy to some extent.
relaxed_linearity_criteria = '<= 1.5, ~ +3.0'
no_gap_criteria = '<= 1.8, ~ +1.0'
no_level_jump_criteria = '<= 10, ~ +30'
no_reversed_motion_criteria = '<= 5, ~ +30'
pinch_criteria = '>= 200, ~ -100'
range_criteria = '<= 0.01, ~ +0.07'
min_report_rate = 60
max_report_interval = 1.0 / min_report_rate * 1000
report_rate_criteria = '>= %d' % min_report_rate
stationary_finger_criteria = '<= 1.0'
stationary_tap_criteria = '<= 1.0'
hysteresis_criteria = '<= 2.0'
drag_latency_criteria = '<= 28.0'
MIN_MOVING_DISTANCE = 20
# Define filenames and paths
docroot = '/tmp'
report_basename = 'touch_firmware_report'
html_ext = '.html'
ENVIRONMENT_REPORT_HTML_NAME = 'REPORT_HTML_NAME'
log_root_dir = '/var/tmp/touch_firmware_test'
fw_prefix = 'fw_'
device_description_dir = 'tests/device'
version_filename = '.version'
# Define parameters for GUI
score_colors = ((0.9, 'blue'), (0.8, 'orange'), (0.0, 'red'))
num_chars_per_row = 28
# Define the validators that are shown only when there are failures.
validators_hidden_when_no_failures = ['PinchValidator',
'CountTrackingIDNormalFingerValidator',
'CountTrackingIDFatFingerValidator',
'CountPacketsValidator']
# Define the parent validators from which the derived validators should be
# merged in the top-level summary table.
merged_validators = [StationaryValidator,]
# Define the path to find the robot gestures library path
robot_lib_path_local = '/usr/local/lib*'
robot_lib_path = '/usr/lib*'
python_package = 'python*\.*'
gestures_sub_path = 'site-packages/touchbotII'
# Define the gesture names
NOISE_LINE = 'noise_line'
NOISE_STATIONARY = 'noise_stationary'
NOISE_STATIONARY_EXTENDED = 'noise_stationary_extended'
ONE_FINGER_TRACKING = 'one_finger_tracking'
ONE_FINGER_TO_EDGE = 'one_finger_to_edge'
TWO_FINGER_TRACKING = 'two_finger_tracking'
FINGER_CROSSING = 'finger_crossing'
ONE_FINGER_SWIPE = 'one_finger_swipe'
TWO_FINGER_SWIPE = 'two_finger_swipe'
PINCH_TO_ZOOM = 'pinch_to_zoom'
ONE_FINGER_TAP = 'one_finger_tap'
TWO_FINGER_TAP = 'two_finger_tap'
ONE_FINGER_PHYSICAL_CLICK = 'one_finger_physical_click'
TWO_FINGER_PHYSICAL_CLICK = 'two_fingers_physical_click'
THREE_FINGER_PHYSICAL_CLICK = 'three_fingers_physical_click'
FOUR_FINGER_PHYSICAL_CLICK = 'four_fingers_physical_click'
FIVE_FINGER_PHYSICAL_CLICK = 'five_fingers_physical_click'
STATIONARY_FINGER_NOT_AFFECTED_BY_2ND_FINGER_TAPS = \
'stationary_finger_not_affected_by_2nd_finger_taps'
FAT_FINGER_MOVE_WITH_RESTING_FINGER = 'fat_finger_move_with_resting_finger'
DRAG_EDGE_THUMB = 'drag_edge_thumb'
TWO_CLOSE_FINGERS_TRACKING = 'two_close_fingers_tracking'
RESTING_FINGER_PLUS_2ND_FINGER_MOVE = 'resting_finger_plus_2nd_finger_move'
TWO_FAT_FINGERS_TRACKING = 'two_fat_fingers_tracking'
FIRST_FINGER_TRACKING_AND_SECOND_FINGER_TAPS = \
'first_finger_tracking_and_second_finger_taps'
DRUMROLL = 'drumroll'
RAPID_TAPS = 'rapid_taps_20'
ONE_FINGER_TRACKING_FROM_CENTER = 'one_finger_tracking_from_center'
DRAG_LATENCY = 'drag_latency'
# This following gesture is for pressure calibration.
PRESSURE_CALIBRATION = 'pressure_calibration'
# The gaps in MM required between fingertips for these tests
FINGER_CROSSING_GAP_MM = 1
FAT_FINGER_AND_STATIONARY_FINGER_GAP_MM = 1
# This denotes the list of the numbers of fingers for physical click tests.
# It corresponds to ONE/TWO/THREE/FOUR/FIVE_FINGER_PHYSICAL_CLICK defined above.
fingers_physical_click = [1, 2, 3, 4, 5]
# Define the complete list
gesture_names_complete = {
DEV.TOUCHPAD: [
NOISE_LINE,
NOISE_STATIONARY,
ONE_FINGER_TRACKING,
ONE_FINGER_TO_EDGE,
TWO_FINGER_TRACKING,
FINGER_CROSSING,
ONE_FINGER_SWIPE,
ONE_FINGER_TRACKING_FROM_CENTER,
TWO_FINGER_SWIPE,
PINCH_TO_ZOOM,
ONE_FINGER_TAP,
TWO_FINGER_TAP,
ONE_FINGER_PHYSICAL_CLICK,
TWO_FINGER_PHYSICAL_CLICK,
THREE_FINGER_PHYSICAL_CLICK,
FOUR_FINGER_PHYSICAL_CLICK,
FIVE_FINGER_PHYSICAL_CLICK,
STATIONARY_FINGER_NOT_AFFECTED_BY_2ND_FINGER_TAPS,
FAT_FINGER_MOVE_WITH_RESTING_FINGER,
DRAG_EDGE_THUMB,
TWO_CLOSE_FINGERS_TRACKING,
RESTING_FINGER_PLUS_2ND_FINGER_MOVE,
TWO_FAT_FINGERS_TRACKING,
FIRST_FINGER_TRACKING_AND_SECOND_FINGER_TAPS,
DRUMROLL,
RAPID_TAPS,
DRAG_LATENCY,
],
DEV.TOUCHSCREEN: [
NOISE_LINE,
NOISE_STATIONARY,
ONE_FINGER_TRACKING,
ONE_FINGER_TO_EDGE,
TWO_FINGER_TRACKING,
FINGER_CROSSING,
ONE_FINGER_SWIPE,
ONE_FINGER_TRACKING_FROM_CENTER,
TWO_FINGER_SWIPE,
PINCH_TO_ZOOM,
ONE_FINGER_TAP,
TWO_FINGER_TAP,
STATIONARY_FINGER_NOT_AFFECTED_BY_2ND_FINGER_TAPS,
FAT_FINGER_MOVE_WITH_RESTING_FINGER,
DRAG_EDGE_THUMB,
TWO_CLOSE_FINGERS_TRACKING,
RESTING_FINGER_PLUS_2ND_FINGER_MOVE,
TWO_FAT_FINGERS_TRACKING,
FIRST_FINGER_TRACKING_AND_SECOND_FINGER_TAPS,
DRUMROLL,
RAPID_TAPS,
DRAG_LATENCY,
],
}
# Define what gestures the robot can perform.
# This also defines the order for the robot to perform the gestures.
# Basically, two-fingers gestures follow one-finger gestures.
robot_capability_list = [
NOISE_LINE,
NOISE_STATIONARY,
ONE_FINGER_TRACKING,
ONE_FINGER_TO_EDGE,
ONE_FINGER_SWIPE,
ONE_FINGER_TRACKING_FROM_CENTER,
ONE_FINGER_TAP,
RAPID_TAPS,
TWO_FINGER_TRACKING,
TWO_CLOSE_FINGERS_TRACKING,
TWO_FINGER_SWIPE,
TWO_FINGER_TAP,
STATIONARY_FINGER_NOT_AFFECTED_BY_2ND_FINGER_TAPS,
FIRST_FINGER_TRACKING_AND_SECOND_FINGER_TAPS,
RESTING_FINGER_PLUS_2ND_FINGER_MOVE,
FINGER_CROSSING,
PINCH_TO_ZOOM,
DRUMROLL,
TWO_FAT_FINGERS_TRACKING,
FAT_FINGER_MOVE_WITH_RESTING_FINGER,
ONE_FINGER_PHYSICAL_CLICK,
TWO_FINGER_PHYSICAL_CLICK,
THREE_FINGER_PHYSICAL_CLICK,
FOUR_FINGER_PHYSICAL_CLICK,
]
NO_FINGER = None
TINY_FINGER = 0
NORMAL_FINGER = 1
LARGE_FINGER = 2
FAT_FINGER = 3
ALL_FINGERTIP_SIZES = [TINY_FINGER, NORMAL_FINGER, LARGE_FINGER, FAT_FINGER]
FINGERTIP_DIAMETER_MM = {TINY_FINGER: 8, NORMAL_FINGER: 10,
LARGE_FINGER: 12, FAT_FINGER: 14}
custom_tips_required = {
DRAG_LATENCY: [NO_FINGER, NO_FINGER, FAT_FINGER, NO_FINGER],
ONE_FINGER_PHYSICAL_CLICK: [NORMAL_FINGER, NO_FINGER, NO_FINGER, NO_FINGER],
TWO_FINGER_PHYSICAL_CLICK: [NO_FINGER, NORMAL_FINGER, NO_FINGER,
NORMAL_FINGER],
THREE_FINGER_PHYSICAL_CLICK: [NO_FINGER, NORMAL_FINGER, NORMAL_FINGER,
NORMAL_FINGER],
TWO_FAT_FINGERS_TRACKING: [FAT_FINGER, FAT_FINGER, FAT_FINGER, FAT_FINGER],
FAT_FINGER_MOVE_WITH_RESTING_FINGER: [NORMAL_FINGER, NO_FINGER,
FAT_FINGER, NO_FINGER],
FINGER_CROSSING: [NORMAL_FINGER, NO_FINGER, NORMAL_FINGER, NO_FINGER],
NOISE_LINE: [NO_FINGER, NORMAL_FINGER, NO_FINGER, NO_FINGER],
NOISE_STATIONARY: [NORMAL_FINGER, NO_FINGER, NO_FINGER, NO_FINGER],
NOISE_STATIONARY_EXTENDED: [NORMAL_FINGER, NO_FINGER, NO_FINGER, NO_FINGER],
}
default_tips_required = [NORMAL_FINGER, NORMAL_FINGER,
NORMAL_FINGER, NORMAL_FINGER]
finger_tips_required = defaultdict(lambda:default_tips_required,
custom_tips_required)
def get_gesture_names_for_robot(device):
"""Get the gesture names that a robot can do for a specified device."""
return [gesture for gesture in robot_capability_list
if gesture in gesture_names_complete[device]]
# Define the list of one-finger and two-finger gestures to test using the robot.
gesture_names_robot = {
DEV.TOUCHPAD: get_gesture_names_for_robot(DEV.TOUCHPAD),
DEV.TOUCHSCREEN: get_gesture_names_for_robot(DEV.TOUCHSCREEN),
}
gesture_names_quickstep = [DRAG_LATENCY]
# Define the list of gestures that require a function generator to run
gesture_names_fngenerator_required = [NOISE_LINE, NOISE_STATIONARY,
NOISE_STATIONARY_EXTENDED]
# Define the list of gestures to test in NOISE mode.
gesture_names_noise_extended = [NOISE_STATIONARY_EXTENDED]
# Define the gesture for pressure calibration
gesture_names_calibration = [PRESSURE_CALIBRATION,]
# Define the relative segment weights of a validator.
# For example, LinearityMiddleValidator : LinearityBothEndsValidator = 7 : 3
segment_weights = {VAL.BEGIN: 0.15,
VAL.MIDDLE: 0.7,
VAL.END: 0.15,
VAL.BOTH_ENDS: 0.15 + 0.15,
VAL.WHOLE: 0.15 + 0.7 + 0.15,
}
# Define the validator score weights
weight_rare = 1
weight_common = 2
weight_critical = 3
validator_weights = {'CountPacketsValidator': weight_common,
'CountTrackingIDNormalFingerValidator': weight_critical,
'CountTrackingIDFatFingerValidator': weight_rare,
'DragLatencyValidator': weight_critical,
'DrumrollValidator': weight_rare,
'LinearityNormalFingerValidator': weight_common,
'LinearityFatFingerValidator': weight_rare,
'MtbSanityValidator': weight_critical,
'NoGapValidator': weight_common,
'NoReversedMotionValidator': weight_common,
'PhysicalClickValidator': weight_critical,
'PinchValidator': weight_common,
'RangeValidator': weight_common,
'ReportRateValidator': weight_common,
'HysteresisValidator': weight_common,
'StationaryFingerValidator': weight_common,
'StationaryTapValidator': weight_common,
}
# Define the gesture list that the user needs to perform in the test suite.
def get_gesture_dict():
"""Define the dictionary for all gestures."""
gesture_dict = {
NOISE_STATIONARY:
Gesture(
name=NOISE_STATIONARY,
variations=((GV.LOW_FREQUENCY, GV.MED_FREQUENCY, GV.HIGH_FREQUENCY),
(GV.HALF_AMPLITUDE, GV.MAX_AMPLITUDE),
(GV.SQUARE_WAVE,),
(GV.TL, GV.TR, GV.BL, GV.BR, GV.TS, GV.BS, GV.LS, GV.RS,
GV.CENTER),
),
prompt='Hold one finger on the {3} of the touch surface with a '
'{0} {1} {2} in noise.',
subprompt={
GV.TL: ('top left corner',),
GV.TR: ('top right corner',),
GV.BL: ('bottom left corner',),
GV.BR: ('bottom right corner',),
GV.TS: ('top edge',),
GV.BS: ('bottom side',),
GV.LS: ('left hand side',),
GV.RS: ('right hand side',),
GV.CENTER: ('center',),
GV.LOW_FREQUENCY: ('5kHz',),
GV.MED_FREQUENCY: ('500kHz',),
GV.HIGH_FREQUENCY: ('1MHz',),
GV.HALF_AMPLITUDE: ('10Vpp',),
GV.MAX_AMPLITUDE: ('20Vpp',),
GV.SQUARE_WAVE: ('square wave',),
},
validators=(
DiscardInitialSecondsValidator(
CountTrackingIDNormalFingerValidator('== 1')),
DiscardInitialSecondsValidator(
StationaryTapValidator(stationary_tap_criteria, slot=0)),
),
),
NOISE_LINE:
Gesture(
name=NOISE_LINE,
variations=((GV.LOW_FREQUENCY, GV.MED_FREQUENCY, GV.HIGH_FREQUENCY),
(GV.HALF_AMPLITUDE, GV.MAX_AMPLITUDE),
(GV.SQUARE_WAVE,),
(GV.BLTR,),
(GV.NORMAL,),
),
prompt='Draw a straight line from {3} with a {0} {1} {2} in noise.',
subprompt={
GV.LOW_FREQUENCY: ('5kHz',),
GV.MED_FREQUENCY: ('500kHz',),
GV.HIGH_FREQUENCY: ('1MHz',),
GV.HALF_AMPLITUDE: ('10Vpp',),
GV.MAX_AMPLITUDE: ('20Vpp',),
GV.SQUARE_WAVE: ('square wave',),
GV.NORMAL: ('',),
GV.BLTR: ('bottom left to top right',),
},
validators=(
DiscardInitialSecondsValidator(
CountTrackingIDNormalFingerValidator('== 1')),
DiscardInitialSecondsValidator(
LinearityNormalFingerValidator(linearity_criteria, finger=0,
segments=VAL.MIDDLE)),
DiscardInitialSecondsValidator(
NoGapValidator(no_gap_criteria, slot=0)),
DiscardInitialSecondsValidator(
NoReversedMotionValidator(no_reversed_motion_criteria,
slots=0, segments=VAL.MIDDLE)),
DiscardInitialSecondsValidator(
NoReversedMotionValidator(no_reversed_motion_criteria,
slots=0, segments=VAL.BOTH_ENDS)),
DiscardInitialSecondsValidator(
ReportRateValidator(report_rate_criteria)),
),
),
NOISE_STATIONARY_EXTENDED:
Gesture(
name=NOISE_STATIONARY_EXTENDED,
variations=(tuple(GV.EXTENDED_FREQUENCIES),
(GV.MAX_AMPLITUDE,),
(GV.SQUARE_WAVE,),
(GV.CENTER,),
),
prompt='Hold one finger on the {3} of the touch surface with a '
'{0} {1} {2} in noise.',
subprompt=dict({
GV.CENTER: ('center',),
GV.MAX_AMPLITUDE: ('20Vpp',),
GV.SQUARE_WAVE: ('square wave',),
}.items() +
{freq: (freq,) for freq in GV.EXTENDED_FREQUENCIES}.items()),
validators=(
DiscardInitialSecondsValidator(
CountTrackingIDNormalFingerValidator('== 1')),
DiscardInitialSecondsValidator(
StationaryTapValidator(stationary_tap_criteria, slot=0)),
),
),
ONE_FINGER_TRACKING:
Gesture(
name=ONE_FINGER_TRACKING,
variations=((GV.LR, GV.RL, GV.TB, GV.BT, GV.BLTR, GV.TRBL),
(GV.SLOW, GV.NORMAL),
),
prompt='Take {2} to draw a straight, {0} line {1} using a ruler.',
subprompt={
GV.LR: ('horizontal', 'from left to right',),
GV.RL: ('horizontal', 'from right to left',),
GV.TB: ('vertical', 'from top to bottom',),
GV.BT: ('vertical', 'from bottom to top',),
GV.BLTR: ('diagonal', 'from bottom left to top right',),
GV.TRBL: ('diagonal', 'from top right to bottom left',),
GV.SLOW: ('3 seconds',),
GV.NORMAL: ('1 second',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 1'),
LinearityNormalFingerValidator(linearity_criteria, finger=0,
segments=VAL.MIDDLE),
NoGapValidator(no_gap_criteria, slot=0),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=0,
segments=VAL.MIDDLE),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=0,
segments=VAL.BOTH_ENDS),
ReportRateValidator(report_rate_criteria),
),
),
ONE_FINGER_TO_EDGE:
Gesture(
name=ONE_FINGER_TO_EDGE,
variations=((GV.CL, GV.CR, GV.CT, GV.CB),
(GV.SLOW,),
),
prompt='Take {2} to draw a striaght {0} line {1}.',
subprompt={
GV.CL: ('horizontal', 'from the center off left edge',),
GV.CR: ('horizontal', 'from the center off right edge',),
GV.CT: ('vertical', 'from the center off top edge',),
GV.CB: ('vertical', 'from the center off bottom edge',),
GV.SLOW: ('2 seconds',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 1'),
LinearityNormalFingerValidator(linearity_criteria, finger=0,
segments=VAL.MIDDLE),
NoGapValidator(no_gap_criteria, slot=0),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=0),
RangeValidator(range_criteria),
ReportRateValidator(report_rate_criteria),
),
),
TWO_FINGER_TRACKING:
Gesture(
name=TWO_FINGER_TRACKING,
variations=((GV.LR, GV.RL, GV.TB, GV.BT, GV.BLTR, GV.TRBL),
(GV.SLOW, GV.NORMAL),
),
prompt='Take {2} to draw a {0} line {1} using a ruler '
'with TWO fingers at the same time.',
subprompt={
GV.LR: ('horizontal', 'from left to right',),
GV.RL: ('horizontal', 'from right to left',),
GV.TB: ('vertical', 'from top to bottom',),
GV.BT: ('vertical', 'from bottom to top',),
GV.BLTR: ('diagonal', 'from bottom left to top right',),
GV.TRBL: ('diagonal', 'from top right to bottom left',),
GV.SLOW: ('3 seconds',),
GV.NORMAL: ('1 second',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 2'),
LinearityNormalFingerValidator(linearity_criteria, finger=0,
segments=VAL.MIDDLE),
LinearityNormalFingerValidator(linearity_criteria, finger=1,
segments=VAL.MIDDLE),
NoGapValidator(no_gap_criteria, slot=0),
NoGapValidator(no_gap_criteria, slot=1),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=0),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=1),
ReportRateValidator(report_rate_criteria),
),
),
FINGER_CROSSING:
Gesture(
# also covers stationary_finger_not_affected_by_2nd_moving_finger
name=FINGER_CROSSING,
variations=((GV.LR, GV.RL, GV.TB, GV.BT, GV.BLTR, GV.TRBL),
(GV.SLOW, GV.NORMAL),
),
prompt='Place one stationary finger near the center of the '
'touch surface, then take {2} to draw a straight line '
'{0} {1} with a second finger',
subprompt={
GV.LR: ('from left to right', 'above the stationary finger'),
GV.RL: ('from right to left', 'below the stationary finger'),
GV.TB: ('from top to bottom',
'on the right to the stationary finger'),
GV.BT: ('from bottom to top',
'on the left to the stationary finger'),
GV.BLTR: ('from the bottom left to the top right',
'above the stationary finger',),
GV.TRBL: ('from the top right to the bottom left',
'below the stationary finger'),
GV.SLOW: ('3 seconds',),
GV.NORMAL: ('1 second',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 2'),
NoGapValidator(no_gap_criteria, slot=1),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=1),
ReportRateValidator(report_rate_criteria, finger=1),
StationaryFingerValidator(stationary_finger_criteria, slot=0),
),
),
ONE_FINGER_SWIPE:
Gesture(
name=ONE_FINGER_SWIPE,
variations=(GV.BLTR, GV.TRBL),
prompt='Use ONE finger to quickly swipe {0}.',
subprompt={
GV.BLTR: ('from the bottom left to the top right',),
GV.TRBL: ('from the top right to the bottom left',),
},
validators=(
CountPacketsValidator(count_packets_criteria, slot=0),
CountTrackingIDNormalFingerValidator('== 1'),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=0),
ReportRateValidator(report_rate_criteria),
),
),
TWO_FINGER_SWIPE:
Gesture(
name=TWO_FINGER_SWIPE,
variations=(GV.TB, GV.BT),
prompt='Use TWO fingers to quickly swipe {0}.',
subprompt={
GV.TB: ('from top to bottom',),
GV.BT: ('from bottom to top',),
},
validators=(
CountPacketsValidator(count_packets_criteria, slot=0),
CountPacketsValidator(count_packets_criteria, slot=1),
CountTrackingIDNormalFingerValidator('== 2'),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=0),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=1),
ReportRateValidator(report_rate_criteria),
),
),
PINCH_TO_ZOOM:
Gesture(
name=PINCH_TO_ZOOM,
variations=(GV.ZOOM_IN, GV.ZOOM_OUT),
prompt='Using two fingers, preform a "{0}" pinch by bringing'
'your fingers {1}.',
subprompt={
GV.ZOOM_IN: ('zoom in', 'farther apart'),
GV.ZOOM_OUT: ('zoom out', 'closer together'),
},
validators=(
CountTrackingIDNormalFingerValidator('== 2'),
PinchValidator(pinch_criteria),
ReportRateValidator(report_rate_criteria),
),
),
ONE_FINGER_TAP:
Gesture(
name=ONE_FINGER_TAP,
variations=(GV.TL, GV.TR, GV.BL, GV.BR, GV.TS, GV.BS, GV.LS, GV.RS,
GV.CENTER),
prompt='Use one finger to tap on the {0} of the touch surface.',
subprompt={
GV.TL: ('top left corner',),
GV.TR: ('top right corner',),
GV.BL: ('bottom left corner',),
GV.BR: ('bottom right corner',),
GV.TS: ('top edge',),
GV.BS: ('bottom side',),
GV.LS: ('left hand side',),
GV.RS: ('right hand side',),
GV.CENTER: ('center',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 1'),
StationaryTapValidator(stationary_tap_criteria, slot=0),
),
),
TWO_FINGER_TAP:
Gesture(
name=TWO_FINGER_TAP,
variations=(GV.HORIZONTAL, GV.VERTICAL, GV.DIAGONAL),
prompt='Use two fingers aligned {0} to tap the center of the '
'touch surface.',
subprompt={
GV.HORIZONTAL: ('horizontally',),
GV.VERTICAL: ('vertically',),
GV.DIAGONAL: ('diagonally',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 2'),
StationaryTapValidator(stationary_tap_criteria, slot=0),
StationaryTapValidator(stationary_tap_criteria, slot=1),
),
),
ONE_FINGER_PHYSICAL_CLICK:
Gesture(
name=ONE_FINGER_PHYSICAL_CLICK,
variations=(GV.CENTER, GV.BL, GV.BS, GV.BR),
prompt='Use one finger to physically click the {0} of the '
'touch surface.',
subprompt={
GV.CENTER: ('center',),
GV.BL: ('bottom left corner',),
GV.BS: ('bottom side',),
GV.BR: ('bottom right corner',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 1'),
PhysicalClickValidator('== 1', fingers=1),
StationaryTapValidator(stationary_tap_criteria, slot=0),
),
),
TWO_FINGER_PHYSICAL_CLICK:
Gesture(
name=TWO_FINGER_PHYSICAL_CLICK,
variations=None,
prompt='Use two fingers physically click the center of the '
'touch surface.',
subprompt=None,
validators=(
CountTrackingIDNormalFingerValidator('== 2'),
PhysicalClickValidator('== 1', fingers=2),
StationaryTapValidator(stationary_tap_criteria, slot=0),
StationaryTapValidator(stationary_tap_criteria, slot=1),
),
),
THREE_FINGER_PHYSICAL_CLICK:
Gesture(
name=THREE_FINGER_PHYSICAL_CLICK,
variations=None,
prompt='Use three fingers to physically click '
'the center of the touch surface.',
subprompt=None,
validators=(
CountTrackingIDNormalFingerValidator('== 3'),
PhysicalClickValidator('== 1', fingers=3),
),
),
FOUR_FINGER_PHYSICAL_CLICK:
Gesture(
name=FOUR_FINGER_PHYSICAL_CLICK,
variations=None,
prompt='Use four fingers to physically click '
'the center of the touch surface.',
subprompt=None,
validators=(
CountTrackingIDNormalFingerValidator('== 4'),
PhysicalClickValidator('== 1', fingers=4),
),
),
FIVE_FINGER_PHYSICAL_CLICK:
Gesture(
name=FIVE_FINGER_PHYSICAL_CLICK,
variations=None,
prompt='Use five fingers to physically click '
'the center of the touch surface.',
subprompt=None,
validators=(
CountTrackingIDNormalFingerValidator('== 5'),
PhysicalClickValidator('== 1', fingers=5),
),
),
STATIONARY_FINGER_NOT_AFFECTED_BY_2ND_FINGER_TAPS:
Gesture(
name=STATIONARY_FINGER_NOT_AFFECTED_BY_2ND_FINGER_TAPS,
variations=(GV.AROUND,),
prompt='Place your one stationary finger in the middle of the '
'touch surface, and use a second finger to tap '
'all around it many times (50)',
subprompt=None,
validators=(
CountTrackingIDNormalFingerValidator('>= 25'),
StationaryFingerValidator(stationary_finger_criteria, slot=0),
),
),
FAT_FINGER_MOVE_WITH_RESTING_FINGER:
Gesture(
name=FAT_FINGER_MOVE_WITH_RESTING_FINGER,
variations=(GV.LR, GV.RL, GV.TB, GV.BT),
prompt='With a stationary finger on the {0} of the touch surface, '
'draw a straight line with a FAT finger {1} {2} it.',
subprompt={
GV.LR: ('center', 'from left to right', 'below'),
GV.RL: ('bottom edge', 'from right to left', 'above'),
GV.TB: ('center', 'from top to bottom', 'on the right to'),
GV.BT: ('center', 'from bottom to top', 'on the left to'),
},
validators=(
CountTrackingIDFatFingerValidator('== 2'),
LinearityFatFingerValidator(relaxed_linearity_criteria,
finger=1, segments=VAL.MIDDLE),
NoGapValidator(no_gap_criteria, slot=1),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=1),
ReportRateValidator(report_rate_criteria, finger=1),
StationaryFingerValidator(stationary_finger_criteria, slot=0),
),
),
DRAG_EDGE_THUMB:
Gesture(
name=DRAG_EDGE_THUMB,
variations=(GV.LR, GV.RL, GV.TB, GV.BT),
prompt='Drag the edge of your thumb {0} in a straight line '
'across the touch surface',
subprompt={
GV.LR: ('horizontally from left to right',),
GV.RL: ('horizontally from right to left',),
GV.TB: ('vertically from top to bottom',),
GV.BT: ('vertically from bottom to top',),
},
validators=(
CountTrackingIDFatFingerValidator('== 1'),
LinearityFatFingerValidator(relaxed_linearity_criteria,
finger=0, segments=VAL.MIDDLE),
NoGapValidator(no_gap_criteria, slot=0),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=0),
ReportRateValidator(report_rate_criteria),
),
),
TWO_CLOSE_FINGERS_TRACKING:
Gesture(
name=TWO_CLOSE_FINGERS_TRACKING,
variations=(GV.LR, GV.TB, GV.TLBR),
prompt='With two fingers close together (lightly touching each '
'other) in a two finger scrolling gesture, draw a {0} '
'line {1}.',
subprompt={
GV.LR: ('horizontal', 'from left to right',),
GV.TB: ('vertical', 'from top to bottom',),
GV.TLBR: ('diagonal', 'from the top left to the bottom right',),
},
validators=(
CountTrackingIDFatFingerValidator('== 2'),
LinearityFatFingerValidator(relaxed_linearity_criteria,
finger=0, segments=VAL.MIDDLE),
LinearityFatFingerValidator(relaxed_linearity_criteria,
finger=1, segments=VAL.MIDDLE),
NoGapValidator(no_gap_criteria, slot=0),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=0),
ReportRateValidator(report_rate_criteria),
),
),
RESTING_FINGER_PLUS_2ND_FINGER_MOVE:
Gesture(
name=RESTING_FINGER_PLUS_2ND_FINGER_MOVE,
variations=((GV.TLBR, GV.BRTL),
(GV.SLOW,),
),
prompt='With a stationary finger in the bottom left corner, take '
'{1} to draw a straight line {0} with a second finger.',
subprompt={
GV.TLBR: ('from the top left to the bottom right',),
GV.BRTL: ('from the bottom right to the top left',),
GV.SLOW: ('3 seconds',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 2'),
LinearityFatFingerValidator(relaxed_linearity_criteria,
finger=1, segments=VAL.MIDDLE),
NoGapValidator(no_gap_criteria, slot=1),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=1),
ReportRateValidator(report_rate_criteria, finger=1),
StationaryFingerValidator(stationary_finger_criteria, slot=0),
),
),
TWO_FAT_FINGERS_TRACKING:
Gesture(
name=TWO_FAT_FINGERS_TRACKING,
variations=(GV.LR, GV.RL),
prompt='Use two FAT fingers separated by about 1cm to draw '
'a straight line {0}.',
subprompt={
GV.LR: ('from left to right',),
GV.RL: ('from right to left',),
},
validators=(
CountTrackingIDFatFingerValidator('== 2'),
LinearityFatFingerValidator(relaxed_linearity_criteria,
finger=0, segments=VAL.MIDDLE),
LinearityFatFingerValidator(relaxed_linearity_criteria,
finger=1, segments=VAL.MIDDLE),
NoGapValidator(no_gap_criteria, slot=0),
NoGapValidator(no_gap_criteria, slot=1),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=0),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=1),
ReportRateValidator(report_rate_criteria),
),
),
FIRST_FINGER_TRACKING_AND_SECOND_FINGER_TAPS:
Gesture(
name=FIRST_FINGER_TRACKING_AND_SECOND_FINGER_TAPS,
variations=(GV.TLBR, GV.BRTL),
prompt='While drawing a straight line {0} slowly (~3 seconds), '
'tap the bottom left corner with a second finger '
'gently 3 times.',
subprompt={
GV.TLBR: ('from top left to bottom right',),
GV.BRTL: ('from bottom right to top left',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 4'),
LinearityFatFingerValidator(relaxed_linearity_criteria,
finger=0, segments=VAL.MIDDLE),
NoGapValidator(no_gap_criteria, slot=0),
NoReversedMotionValidator(no_reversed_motion_criteria, slots=0),
ReportRateValidator(report_rate_criteria),
),
),
DRUMROLL:
Gesture(
name=DRUMROLL,
variations=(GV.FAST, ),
prompt='Use the index and middle finger of one hand to make a '
'"drum roll" {0} by alternately tapping each finger '
'for 5 seconds.',
subprompt={
GV.FAST: ('as fast as possible',),
},
validators=(
CountTrackingIDNormalFingerValidator('>= 5'),
DrumrollValidator(drumroll_criteria),
),
timeout = 2000,
),
RAPID_TAPS:
Gesture(
name=RAPID_TAPS,
variations=(GV.TL, GV.BR, GV.CENTER),
prompt='Tap the {0} of the touch surface 20 times quickly',
subprompt={
GV.TL: ('top left corner',),
GV.TS: ('top edge',),
GV.TR: ('top right corner',),
GV.LS: ('left edge',),
GV.CENTER: ('center',),
GV.RS: ('right edge',),
GV.BL: ('bottom left corner',),
GV.BS: ('bottom edge',),
GV.BR: ('bottom right corner',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 20'),
),
timeout = 2000,
),
ONE_FINGER_TRACKING_FROM_CENTER:
Gesture(
name=ONE_FINGER_TRACKING_FROM_CENTER,
variations=((GV.CR, GV.CT, GV.CUL, GV.CLL),
(GV.SLOW, GV.NORMAL),
),
prompt='Place a stationary finger on the center of the touch '
'surface for about 1 second, and then take {2} to draw a '
'{0} line {1}.',
subprompt={
GV.CR: ('horizontal', 'to the right',),
GV.CT: ('vertical', 'to the top',),
GV.CUL: ('diagonal', 'to the upper left',),
GV.CLL: ('diagonal', 'to the lower left',),
GV.SLOW: ('2 seconds',),
GV.NORMAL: ('1 second',),
},
validators=(
HysteresisValidator(hysteresis_criteria, finger=0),
),
),
DRAG_LATENCY:
Gesture(
name=DRAG_LATENCY,
variations=None,
prompt='Run one finger back and forth across the pad making sure '
'to break the laser completely on each pass. Make at least '
'twenty passes.',
subprompt=None,
validators=(
CountTrackingIDNormalFingerValidator('== 1'),
DragLatencyValidator(drag_latency_criteria),
),
),
PRESSURE_CALIBRATION:
Gesture(
name=PRESSURE_CALIBRATION,
variations=(GV.SIZE0, GV.SIZE1, GV.SIZE2, GV.SIZE3, GV.SIZE4,
GV.SIZE5, GV.SIZE6, ),
prompt='Draw circles continuously for 5 seconds '
'using the metal finger of size {0}.',
subprompt={
GV.SIZE0: ('0 (the smallest size)',),
GV.SIZE1: ('1',),
GV.SIZE2: ('2',),
GV.SIZE3: ('3',),
GV.SIZE4: ('4',),
GV.SIZE5: ('5',),
GV.SIZE6: ('6 (the largest size)',),
},
validators=(
CountTrackingIDNormalFingerValidator('== 1'),
),
),
}
return gesture_dict
class FileName:
"""A dummy class to hold the attributes in a test file name."""
pass
filename = FileName()
filename.sep = '-'
filename.ext = 'dat'
class Gesture:
"""A class defines the structure of Gesture."""
# define the default timeout (in milli-seconds) when performing a gesture.
# A gesture is considered done when finger is lifted for this time interval.
TIMEOUT = int(1000/80*10)
def __init__(self, name=None, variations=None, prompt=None, subprompt=None,
validators=None, timeout=TIMEOUT):
self.name = name
self.variations = variations
self.prompt = prompt
self.subprompt = subprompt
self.validators = validators
self.timeout = timeout