mirror of
https://github.com/qmk/qmk_firmware.git
synced 2024-12-21 00:53:23 +00:00
1cd336dde4
Overall changes =============== * Updated to work with QMK master. * The `$` and `^` symbols on the number row were swapped on both the base and the ADORE layers. * The bracket tap-dance keys can now be used to input Japanese brackets, `「` and `」` with a third tap. * The second column of the top row on the right side will act as a "Social" application selector on the `AppSel` layer. * The third key on the same column will select a password manager. * The `GUI` key will now launch `rofi` when triple-tapped. Miscellaneous ============= * The `👶` symbol can be entered with UCIS. * The `👪` symbol can be entered with UCIS. Tools ===== * `tools/hid-commands` can now find the `Mstdn`, not just `Slack`, as the "Slack"/chat app. * `tools/hid-commands` can now find the Plex web app as a music/media player. * `tools/hid-commands` now understands the "Social" application selector. It raises the `Mstdn` and `Tweetdeck` windows, but keeps focus on the previous window. * `tools/hid-commands` now understands the "Social2" application selector, which raises `Signal` and `Viber`, but keeps focus on the previous window. * `tools/hid-commands` is now able to select a password manager (KeePass*). * `tools/hid-commands` can now run `rofi` when receiving an `appsel_helper` command (triggered by a triple-tapped `GUI` key). Signed-off-by: Gergely Nagy <algernon@madhouse-project.org>
345 lines
12 KiB
Python
Executable File
345 lines
12 KiB
Python
Executable File
#! /usr/bin/env python3
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import json
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import os
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import sys
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import re
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import argparse
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import time
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from math import floor
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from os.path import dirname
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from subprocess import Popen, PIPE, STDOUT
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from blessings import Terminal
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class Heatmap(object):
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coords = [
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[
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# Row 0
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[ 4, 0], [ 4, 2], [ 2, 0], [ 1, 0], [ 2, 2], [ 3, 0], [ 3, 2],
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[ 3, 4], [ 3, 6], [ 2, 4], [ 1, 2], [ 2, 6], [ 4, 4], [ 4, 6],
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],
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[
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# Row 1
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[ 8, 0], [ 8, 2], [ 6, 0], [ 5, 0], [ 6, 2], [ 7, 0], [ 7, 2],
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[ 7, 4], [ 7, 6], [ 6, 4], [ 5, 2], [ 6, 6], [ 8, 4], [ 8, 6],
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],
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[
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# Row 2
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[12, 0], [12, 2], [10, 0], [ 9, 0], [10, 2], [11, 0], [ ],
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[ ], [11, 2], [10, 4], [ 9, 2], [10, 6], [12, 4], [12, 6],
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],
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[
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# Row 3
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[17, 0], [17, 2], [15, 0], [14, 0], [15, 2], [16, 0], [13, 0],
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[13, 2], [16, 2], [15, 4], [14, 2], [15, 6], [17, 4], [17, 6],
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],
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[
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# Row 4
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[20, 0], [20, 2], [19, 0], [18, 0], [19, 2], [], [], [], [],
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[19, 4], [18, 2], [19, 6], [20, 4], [20, 6], [], [], [], []
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],
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[
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# Row 5
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[ ], [23, 0], [22, 2], [22, 0], [22, 4], [21, 0], [21, 2],
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[24, 0], [24, 2], [25, 0], [25, 4], [25, 2], [26, 0], [ ],
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],
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]
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def set_attr_at(self, block, n, attr, fn, val):
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blk = self.heatmap[block][n]
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if attr in blk:
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blk[attr] = fn(blk[attr], val)
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else:
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blk[attr] = fn(None, val)
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def coord(self, col, row):
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return self.coords[row][col]
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@staticmethod
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def set_attr(orig, new):
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return new
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def set_bg(self, coords, color):
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(block, n) = coords
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self.set_attr_at(block, n, "c", self.set_attr, color)
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#self.set_attr_at(block, n, "g", self.set_attr, False)
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def set_tap_info(self, coords, count, cap):
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(block, n) = coords
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def _set_tap_info(o, _count, _cap):
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ns = 4 - o.count ("\n")
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return o + "\n" * ns + "%.02f%%" % (float(_count) / float(_cap) * 100)
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if not cap:
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cap = 1
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self.heatmap[block][n + 1] = _set_tap_info (self.heatmap[block][n + 1], count, cap)
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@staticmethod
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def heatmap_color (v):
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colors = [ [0.3, 0.3, 1], [0.3, 1, 0.3], [1, 1, 0.3], [1, 0.3, 0.3]]
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fb = 0
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if v <= 0:
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idx1, idx2 = 0, 0
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elif v >= 1:
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idx1, idx2 = len(colors) - 1, len(colors) - 1
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else:
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val = v * (len(colors) - 1)
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idx1 = int(floor(val))
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idx2 = idx1 + 1
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fb = val - float(idx1)
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r = (colors[idx2][0] - colors[idx1][0]) * fb + colors[idx1][0]
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g = (colors[idx2][1] - colors[idx1][1]) * fb + colors[idx1][1]
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b = (colors[idx2][2] - colors[idx1][2]) * fb + colors[idx1][2]
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r, g, b = [x * 255 for x in (r, g, b)]
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return "#%02x%02x%02x" % (int(r), int(g), int(b))
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def __init__(self, layout):
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self.log = {}
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self.total = 0
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self.max_cnt = 0
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self.layout = layout
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def update_log(self, coords):
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(c, r) = coords
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if not (c, r) in self.log:
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self.log[(c, r)] = 0
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self.log[(c, r)] = self.log[(c, r)] + 1
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self.total = self.total + 1
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if self.max_cnt < self.log[(c, r)]:
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self.max_cnt = self.log[(c, r)]
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def get_heatmap(self):
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with open("%s/heatmap-layout.%s.json" % (dirname(sys.argv[0]), self.layout), "r") as f:
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self.heatmap = json.load (f)
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## Reset colors
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for row in self.coords:
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for coord in row:
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if coord != []:
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self.set_bg (coord, "#d9dae0")
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for (c, r) in self.log:
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coords = self.coord(c, r)
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b, n = coords
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cap = self.max_cnt
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if cap == 0:
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cap = 1
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v = float(self.log[(c, r)]) / cap
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self.set_bg (coords, self.heatmap_color (v))
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self.set_tap_info (coords, self.log[(c, r)], self.total)
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return self.heatmap
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def get_stats(self):
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usage = [
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# left hand
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[0, 0, 0, 0, 0],
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# right hand
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[0, 0, 0, 0, 0]
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]
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finger_map = [0, 0, 1, 2, 3, 3, 3, 1, 1, 1, 2, 3, 4, 4]
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for (c, r) in self.log:
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if r == 5: # thumb cluster
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if c <= 6: # left side
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usage[0][4] = usage[0][4] + self.log[(c, r)]
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else:
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usage[1][0] = usage[1][0] + self.log[(c, r)]
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elif r == 4 and (c == 4 or c == 9): # bottom row thumb keys
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if c <= 6: # left side
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usage[0][4] = usage[0][4] + self.log[(c, r)]
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else:
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usage[1][0] = usage[1][0] + self.log[(c, r)]
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else:
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fc = c
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hand = 0
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if fc >= 7:
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hand = 1
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fm = finger_map[fc]
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usage[hand][fm] = usage[hand][fm] + self.log[(c, r)]
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hand_usage = [0, 0]
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for f in usage[0]:
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hand_usage[0] = hand_usage[0] + f
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for f in usage[1]:
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hand_usage[1] = hand_usage[1] + f
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total = self.total
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if total == 0:
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total = 1
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stats = {
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"total-keys": total,
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"hands": {
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"left": {
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"usage": round(float(hand_usage[0]) / total * 100, 2),
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"fingers": {
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"pinky": 0,
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"ring": 0,
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"middle": 0,
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"index": 0,
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"thumb": 0,
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}
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},
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"right": {
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"usage": round(float(hand_usage[1]) / total * 100, 2),
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"fingers": {
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"thumb": 0,
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"index": 0,
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"middle": 0,
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"ring": 0,
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"pinky": 0,
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}
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},
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}
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}
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hmap = ['left', 'right']
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fmap = ['pinky', 'ring', 'middle', 'index', 'thumb',
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'thumb', 'index', 'middle', 'ring', 'pinky']
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for hand_idx in range(len(usage)):
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hand = usage[hand_idx]
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for finger_idx in range(len(hand)):
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stats['hands'][hmap[hand_idx]]['fingers'][fmap[finger_idx + hand_idx * 5]] = round(float(hand[finger_idx]) / total * 100, 2)
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return stats
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def dump_all(out_dir, heatmaps):
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stats = {}
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t = Terminal()
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t.clear()
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sys.stdout.write("\x1b[2J\x1b[H")
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print ('{t.underline}{outdir}{t.normal}\n'.format(t=t, outdir=out_dir))
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keys = list(heatmaps.keys())
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keys.sort()
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for layer in keys:
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if len(heatmaps[layer].log) == 0:
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continue
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with open ("%s/%s.json" % (out_dir, layer), "w") as f:
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json.dump(heatmaps[layer].get_heatmap(), f)
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stats[layer] = heatmaps[layer].get_stats()
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left = stats[layer]['hands']['left']
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right = stats[layer]['hands']['right']
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print ('{t.bold}{layer}{t.normal} ({total:,} taps):'.format(t=t, layer=layer,
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total=int(stats[layer]['total-keys'] / 2)))
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print (('{t.underline} | ' + \
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'left ({l[usage]:6.2f}%) | ' + \
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'right ({r[usage]:6.2f}%) |{t.normal}').format(t=t, l=left, r=right))
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print ((' {t.bright_magenta}pinky{t.white} | {left[pinky]:6.2f}% | {right[pinky]:6.2f}% |\n' + \
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' {t.bright_cyan}ring{t.white} | {left[ring]:6.2f}% | {right[ring]:6.2f}% |\n' + \
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' {t.bright_blue}middle{t.white} | {left[middle]:6.2f}% | {right[middle]:6.2f}% |\n' + \
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' {t.bright_green}index{t.white} | {left[index]:6.2f}% | {right[index]:6.2f}% |\n' + \
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' {t.bright_red}thumb{t.white} | {left[thumb]:6.2f}% | {right[thumb]:6.2f}% |\n' + \
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'').format(left=left['fingers'], right=right['fingers'], t=t))
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def process_line(line, heatmaps, opts, stamped_log = None):
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m = re.search ('KL: col=(\d+), row=(\d+), pressed=(\d+), layer=(.*)', line)
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if not m:
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return False
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if stamped_log is not None:
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if line.startswith("KL:"):
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print ("%10.10f %s" % (time.time(), line),
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file = stamped_log, end = '')
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else:
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print (line,
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file = stamped_log, end = '')
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stamped_log.flush()
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(c, r, l) = (int(m.group (2)), int(m.group (1)), m.group (4))
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if (c, r) not in opts.allowed_keys:
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return False
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heatmaps[l].update_log ((c, r))
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return True
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def setup_allowed_keys(opts):
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if len(opts.only_key):
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incmap={}
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for v in opts.only_key:
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m = re.search ('(\d+),(\d+)', v)
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if not m:
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continue
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(c, r) = (int(m.group(1)), int(m.group(2)))
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incmap[(c, r)] = True
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else:
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incmap={}
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for r in range(0, 6):
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for c in range(0, 14):
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incmap[(c, r)] = True
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for v in opts.ignore_key:
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m = re.search ('(\d+),(\d+)', v)
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if not m:
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continue
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(c, r) = (int(m.group(1)), int(m.group(2)))
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del(incmap[(c, r)])
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return incmap
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def main(opts):
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heatmaps = {"Dvorak": Heatmap("Dvorak"),
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"ADORE": Heatmap("ADORE")
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}
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cnt = 0
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out_dir = opts.outdir
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if not os.path.exists(out_dir):
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os.makedirs(out_dir)
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opts.allowed_keys = setup_allowed_keys(opts)
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if not opts.one_shot:
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try:
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with open("%s/stamped-log" % out_dir, "r") as f:
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while True:
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line = f.readline()
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if not line:
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break
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if not process_line(line, heatmaps, opts):
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continue
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except:
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pass
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stamped_log = open ("%s/stamped-log" % (out_dir), "a+")
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else:
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stamped_log = None
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while True:
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line = sys.stdin.readline()
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if not line:
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break
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if not process_line(line, heatmaps, opts, stamped_log):
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continue
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cnt = cnt + 1
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if opts.dump_interval != -1 and cnt >= opts.dump_interval and not opts.one_shot:
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cnt = 0
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dump_all(out_dir, heatmaps)
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dump_all (out_dir, heatmaps)
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if __name__ == "__main__":
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parser = argparse.ArgumentParser (description = "keylog to heatmap processor")
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parser.add_argument ('outdir', action = 'store',
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help = 'Output directory')
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parser.add_argument ('--dump-interval', dest = 'dump_interval', action = 'store', type = int,
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default = 100, help = 'Dump stats and heatmap at every Nth event, -1 for dumping at EOF only')
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parser.add_argument ('--ignore-key', dest = 'ignore_key', action = 'append', type = str,
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default = [], help = 'Ignore the key at position (x, y)')
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parser.add_argument ('--only-key', dest = 'only_key', action = 'append', type = str,
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default = [], help = 'Only include key at position (x, y)')
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parser.add_argument ('--one-shot', dest = 'one_shot', action = 'store_true',
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help = 'Do not load previous data, and do not update it, either.')
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args = parser.parse_args()
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if len(args.ignore_key) and len(args.only_key):
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print ("--ignore-key and --only-key are mutually exclusive, please only use one of them!",
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file = sys.stderr)
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sys.exit(1)
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main(args)
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