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Clean up qmk generate-autocorrect-data #19710

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Jan 30, 2023
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6 changes: 3 additions & 3 deletions docs/feature_autocorrect.md
Original file line number Diff line number Diff line change
Expand Up @@ -86,7 +86,7 @@ The `qmk generate-autocorrect-data` commands can make an effort to check for ent
## Overriding Autocorrect
Occasionally you might actually want to type a typo (for instance, while editing autocorrection_dict.txt) without being autocorrected. There are a couple of ways to do this:
Occasionally you might actually want to type a typo (for instance, while editing autocorrect_dict.txt) without being autocorrected. There are a couple of ways to do this:
1. Begin typing the typo.
2. Before typing the last letter, press and release the Ctrl or Alt key.
Expand Down Expand Up @@ -238,13 +238,13 @@ bool apply_autocorrect(uint8_t backspaces, const char *str) {

## Appendix: Trie binary data format :id=appendix

This section details how the trie is serialized to byte data in autocorrection_data. You don’t need to care about this to use this autocorrection implementation. But it is documented for the record in case anyone is interested in modifying the implementation, or just curious how it works.
This section details how the trie is serialized to byte data in autocorrect_data. You don’t need to care about this to use this autocorrection implementation. But it is documented for the record in case anyone is interested in modifying the implementation, or just curious how it works.

What I did here is fairly arbitrary, but it is simple to decode and gets the job done.

### Encoding :id=encoding

All autocorrection data is stored in a single flat array autocorrection_data. Each trie node is associated with a byte offset into this array, where data for that node is encoded, beginning with root at offset 0. There are three kinds of nodes. The highest two bits of the first byte of the node indicate what kind:
All autocorrection data is stored in a single flat array autocorrect_data. Each trie node is associated with a byte offset into this array, where data for that node is encoded, beginning with root at offset 0. There are three kinds of nodes. The highest two bits of the first byte of the node indicate what kind:

* 00 ⇒ chain node: a trie node with a single child.
* 01 ⇒ branching node: a trie node with multiple children.
Expand Down
82 changes: 39 additions & 43 deletions lib/python/qmk/cli/generate/autocorrect_data.py
Original file line number Diff line number Diff line change
Expand Up @@ -33,9 +33,11 @@

from milc import cli

import qmk.path
from qmk.commands import dump_lines
from qmk.constants import GPL2_HEADER_C_LIKE, GENERATED_HEADER_C_LIKE
from qmk.keyboard import keyboard_completer, keyboard_folder
from qmk.keymap import keymap_completer, locate_keymap
from qmk.path import normpath

KC_A = 4
KC_SPC = 0x2c
Expand Down Expand Up @@ -63,9 +65,10 @@ def parse_file(file_name: str) -> List[Tuple[str, str]]:
try:
from english_words import english_words_lower_alpha_set as correct_words
except ImportError:
cli.echo('Autocorrection will falsely trigger when a typo is a substring of a correctly spelled word.')
cli.echo('To check for this, install the english_words package and rerun this script:')
cli.echo(' {fg_cyan}python3 -m pip install english_words')
if not cli.args.quiet:
cli.echo('Autocorrection will falsely trigger when a typo is a substring of a correctly spelled word.')
cli.echo('To check for this, install the english_words package and rerun this script:')
cli.echo(' {fg_cyan}python3 -m pip install english_words')
# Use a minimal word list as a fallback.
correct_words = ('information', 'available', 'international', 'language', 'loosest', 'reference', 'wealthier', 'entertainment', 'association', 'provides', 'technology', 'statehood')

Expand Down Expand Up @@ -232,58 +235,51 @@ def encode_link(link: Dict[str, Any]) -> List[int]:
return [byte_offset & 255, byte_offset >> 8]


def write_generated_code(autocorrections: List[Tuple[str, str]], data: List[int], file_name: str) -> None:
"""Writes autocorrection data as generated C code to `file_name`.
Args:
autocorrections: List of (typo, correction) tuples.
data: List of ints in 0-255, the serialized trie.
file_name: String, path of the output C file.
"""
assert all(0 <= b <= 255 for b in data)

def typo_len(e: Tuple[str, str]) -> int:
return len(e[0])
def typo_len(e: Tuple[str, str]) -> int:
return len(e[0])

min_typo = min(autocorrections, key=typo_len)[0]
max_typo = max(autocorrections, key=typo_len)[0]
generated_code = ''.join([
'// Generated code.\n\n', f'// Autocorrection dictionary ({len(autocorrections)} entries):\n', ''.join(sorted(f'// {typo:<{len(max_typo)}} -> {correction}\n' for typo, correction in autocorrections)),
f'\n#define AUTOCORRECT_MIN_LENGTH {len(min_typo)} // "{min_typo}"\n', f'#define AUTOCORRECT_MAX_LENGTH {len(max_typo)} // "{max_typo}"\n\n', f'#define DICTIONARY_SIZE {len(data)}\n\n',
textwrap.fill('static const uint8_t autocorrect_data[DICTIONARY_SIZE] PROGMEM = {%s};' % (', '.join(map(str, data))), width=120, subsequent_indent=' '), '\n\n'
])

with open(file_name, 'wt') as f:
f.write(generated_code)
def to_hex(b: int) -> str:
return f'0x{b:02X}'


@cli.argument('filename', default='autocorrect_dict.txt', help='The autocorrection database file')
@cli.argument('filename', type=normpath, help='The autocorrection database file')
@cli.argument('-kb', '--keyboard', type=keyboard_folder, completer=keyboard_completer, help='The keyboard to build a firmware for. Ignored when a configurator export is supplied.')
@cli.argument('-km', '--keymap', completer=keymap_completer, help='The keymap to build a firmware for. Ignored when a configurator export is supplied.')
@cli.argument('-o', '--output', arg_only=True, type=qmk.path.normpath, help='File to write to')
@cli.argument('-o', '--output', arg_only=True, type=normpath, help='File to write to')
@cli.argument('-q', '--quiet', arg_only=True, action='store_true', help="Quiet mode, only output error messages")
@cli.subcommand('Generate the autocorrection data file from a dictionary file.')
def generate_autocorrect_data(cli):
autocorrections = parse_file(cli.args.filename)
trie = make_trie(autocorrections)
data = serialize_trie(autocorrections, trie)
# Environment processing
if cli.args.output == '-':
cli.args.output = None

if cli.args.output:
cli.args.output.parent.mkdir(parents=True, exist_ok=True)
cli.log.info('Creating autocorrect database at {fg_cyan}%s', cli.args.output)
write_generated_code(autocorrections, data, cli.args.output)
current_keyboard = cli.args.keyboard or cli.config.user.keyboard or cli.config.generate_autocorrect_data.keyboard
current_keymap = cli.args.keymap or cli.config.user.keymap or cli.config.generate_autocorrect_data.keymap

if current_keyboard and current_keymap:
cli.args.output = locate_keymap(current_keyboard, current_keymap).parent / 'autocorrect_data.h'

else:
current_keyboard = cli.args.keyboard or cli.config.user.keyboard or cli.config.generate_autocorrect_data.keyboard
current_keymap = cli.args.keymap or cli.config.user.keymap or cli.config.generate_autocorrect_data.keymap
assert all(0 <= b <= 255 for b in data)

if current_keyboard and current_keymap:
filename = locate_keymap(current_keyboard, current_keymap).parent / 'autocorrect_data.h'
cli.log.info('Creating autocorrect database at {fg_cyan}%s', filename)
write_generated_code(autocorrections, data, filename)
min_typo = min(autocorrections, key=typo_len)[0]
max_typo = max(autocorrections, key=typo_len)[0]

else:
write_generated_code(autocorrections, data, 'autocorrect_data.h')
# Build the autocorrect_data.h file.
autocorrect_data_h_lines = [GPL2_HEADER_C_LIKE, GENERATED_HEADER_C_LIKE, '#pragma once', '']

cli.log.info('Processed %d autocorrection entries to table with %d bytes.', len(autocorrections), len(data))
autocorrect_data_h_lines.append(f'// Autocorrection dictionary ({len(autocorrections)} entries):')
for typo, correction in autocorrections:
autocorrect_data_h_lines.append(f'// {typo:<{len(max_typo)}} -> {correction}')

autocorrect_data_h_lines.append('')
autocorrect_data_h_lines.append(f'#define AUTOCORRECT_MIN_LENGTH {len(min_typo)} // "{min_typo}"')
autocorrect_data_h_lines.append(f'#define AUTOCORRECT_MAX_LENGTH {len(max_typo)} // "{max_typo}"')
autocorrect_data_h_lines.append(f'#define DICTIONARY_SIZE {len(data)}')
autocorrect_data_h_lines.append('')
autocorrect_data_h_lines.append('static const uint8_t autocorrect_data[DICTIONARY_SIZE] PROGMEM = {')
autocorrect_data_h_lines.append(textwrap.fill(' %s' % (', '.join(map(to_hex, data))), width=100, subsequent_indent=' '))
autocorrect_data_h_lines.append('};')

# Show the results
dump_lines(cli.args.output, autocorrect_data_h_lines, cli.args.quiet)