Merge remote-tracking branch 'origin/master' into develop

master
QMK Bot 2023-09-28 20:48:55 +00:00
commit a268437f17
3 changed files with 198 additions and 127 deletions

View File

@ -9,8 +9,69 @@ from milc import cli
from qmk.constants import QMK_FIRMWARE
from qmk.commands import _find_make, get_make_parallel_args
from qmk.keyboard import resolve_keyboard
from qmk.search import search_keymap_targets
from qmk.search import search_keymap_targets, search_make_targets
def mass_compile_targets(targets, clean, dry_run, no_temp, parallel, env):
if len(targets) == 0:
return
make_cmd = _find_make()
builddir = Path(QMK_FIRMWARE) / '.build'
makefile = builddir / 'parallel_kb_builds.mk'
if dry_run:
cli.log.info('Compilation targets:')
for target in sorted(targets):
cli.log.info(f"{{fg_cyan}}qmk compile -kb {target[0]} -km {target[1]}{{fg_reset}}")
else:
if clean:
cli.run([make_cmd, 'clean'], capture_output=False, stdin=DEVNULL)
builddir.mkdir(parents=True, exist_ok=True)
with open(makefile, "w") as f:
for target in sorted(targets):
keyboard_name = target[0]
keymap_name = target[1]
keyboard_safe = keyboard_name.replace('/', '_')
build_log = f"{QMK_FIRMWARE}/.build/build.log.{os.getpid()}.{keyboard_safe}.{keymap_name}"
failed_log = f"{QMK_FIRMWARE}/.build/failed.log.{os.getpid()}.{keyboard_safe}.{keymap_name}"
# yapf: disable
f.write(
f"""\
all: {keyboard_safe}_{keymap_name}_binary
{keyboard_safe}_{keymap_name}_binary:
@rm -f "{build_log}" || true
@echo "Compiling QMK Firmware for target: '{keyboard_name}:{keymap_name}'..." >>"{build_log}"
+@$(MAKE) -C "{QMK_FIRMWARE}" -f "{QMK_FIRMWARE}/builddefs/build_keyboard.mk" KEYBOARD="{keyboard_name}" KEYMAP="{keymap_name}" COLOR=true SILENT=false {' '.join(env)} \\
>>"{build_log}" 2>&1 \\
|| cp "{build_log}" "{failed_log}"
@{{ grep '\[ERRORS\]' "{build_log}" >/dev/null 2>&1 && printf "Build %-64s \e[1;31m[ERRORS]\e[0m\\n" "{keyboard_name}:{keymap_name}" ; }} \\
|| {{ grep '\[WARNINGS\]' "{build_log}" >/dev/null 2>&1 && printf "Build %-64s \e[1;33m[WARNINGS]\e[0m\\n" "{keyboard_name}:{keymap_name}" ; }} \\
|| printf "Build %-64s \e[1;32m[OK]\e[0m\\n" "{keyboard_name}:{keymap_name}"
@rm -f "{build_log}" || true
"""# noqa
)
# yapf: enable
if no_temp:
# yapf: disable
f.write(
f"""\
@rm -rf "{QMK_FIRMWARE}/.build/{keyboard_safe}_{keymap_name}.elf" 2>/dev/null || true
@rm -rf "{QMK_FIRMWARE}/.build/{keyboard_safe}_{keymap_name}.map" 2>/dev/null || true
@rm -rf "{QMK_FIRMWARE}/.build/obj_{keyboard_safe}_{keymap_name}" || true
"""# noqa
)
# yapf: enable
f.write('\n')
cli.run([make_cmd, *get_make_parallel_args(parallel), '-f', makefile.as_posix(), 'all'], capture_output=False, stdin=DEVNULL)
# Check for failures
failures = [f for f in builddir.glob(f'failed.log.{os.getpid()}.*')]
if len(failures) > 0:
return False
@cli.argument('builds', nargs='*', arg_only=True, help="List of builds in form <keyboard>:<keymap> to compile in parallel. Specifying this overrides all other target search options.")
@ -33,67 +94,9 @@ from qmk.search import search_keymap_targets
def mass_compile(cli):
"""Compile QMK Firmware against all keyboards.
"""
make_cmd = _find_make()
if cli.args.clean:
cli.run([make_cmd, 'clean'], capture_output=False, stdin=DEVNULL)
builddir = Path(QMK_FIRMWARE) / '.build'
makefile = builddir / 'parallel_kb_builds.mk'
if len(cli.args.builds) > 0:
targets = list(sorted(set([(resolve_keyboard(e[0]), e[1]) for e in [b.split(':') for b in cli.args.builds]])))
targets = search_make_targets(cli.args.builds, cli.args.filter)
else:
targets = search_keymap_targets(cli.args.keymap, cli.args.filter)
if len(targets) == 0:
return
if cli.args.dry_run:
cli.log.info('Compilation targets:')
for target in sorted(targets):
cli.log.info(f"{{fg_cyan}}qmk compile -kb {target[0]} -km {target[1]}{{fg_reset}}")
else:
builddir.mkdir(parents=True, exist_ok=True)
with open(makefile, "w") as f:
for target in sorted(targets):
keyboard_name = target[0]
keymap_name = target[1]
keyboard_safe = keyboard_name.replace('/', '_')
build_log = f"{QMK_FIRMWARE}/.build/build.log.{os.getpid()}.{keyboard_safe}.{keymap_name}"
failed_log = f"{QMK_FIRMWARE}/.build/failed.log.{os.getpid()}.{keyboard_safe}.{keymap_name}"
# yapf: disable
f.write(
f"""\
all: {keyboard_safe}_{keymap_name}_binary
{keyboard_safe}_{keymap_name}_binary:
@rm -f "{build_log}" || true
@echo "Compiling QMK Firmware for target: '{keyboard_name}:{keymap_name}'..." >>"{build_log}"
+@$(MAKE) -C "{QMK_FIRMWARE}" -f "{QMK_FIRMWARE}/builddefs/build_keyboard.mk" KEYBOARD="{keyboard_name}" KEYMAP="{keymap_name}" COLOR=true SILENT=false {' '.join(cli.args.env)} \\
>>"{build_log}" 2>&1 \\
|| cp "{build_log}" "{failed_log}"
@{{ grep '\[ERRORS\]' "{build_log}" >/dev/null 2>&1 && printf "Build %-64s \e[1;31m[ERRORS]\e[0m\\n" "{keyboard_name}:{keymap_name}" ; }} \\
|| {{ grep '\[WARNINGS\]' "{build_log}" >/dev/null 2>&1 && printf "Build %-64s \e[1;33m[WARNINGS]\e[0m\\n" "{keyboard_name}:{keymap_name}" ; }} \\
|| printf "Build %-64s \e[1;32m[OK]\e[0m\\n" "{keyboard_name}:{keymap_name}"
@rm -f "{build_log}" || true
"""# noqa
)
# yapf: enable
if cli.args.no_temp:
# yapf: disable
f.write(
f"""\
@rm -rf "{QMK_FIRMWARE}/.build/{keyboard_safe}_{keymap_name}.elf" 2>/dev/null || true
@rm -rf "{QMK_FIRMWARE}/.build/{keyboard_safe}_{keymap_name}.map" 2>/dev/null || true
@rm -rf "{QMK_FIRMWARE}/.build/obj_{keyboard_safe}_{keymap_name}" || true
"""# noqa
)
# yapf: enable
f.write('\n')
cli.run([make_cmd, *get_make_parallel_args(cli.args.parallel), '-f', makefile.as_posix(), 'all'], capture_output=False, stdin=DEVNULL)
# Check for failures
failures = [f for f in builddir.glob(f'failed.log.{os.getpid()}.*')]
if len(failures) > 0:
return False
return mass_compile_targets(targets, cli.args.clean, cli.args.dry_run, cli.args.no_temp, cli.args.parallel, cli.args.env)

View File

@ -1,6 +1,7 @@
"""Functions that help us work with keyboards.
"""
from array import array
from functools import lru_cache
from math import ceil
from pathlib import Path
import os
@ -144,6 +145,7 @@ def list_keyboards(resolve_defaults=True):
return sorted(set(found))
@lru_cache(maxsize=None)
def resolve_keyboard(keyboard):
cur_dir = Path('keyboards')
rules = parse_rules_mk_file(cur_dir / keyboard / 'rules.mk')

View File

@ -1,10 +1,12 @@
"""Functions for searching through QMK keyboards and keymaps.
"""
import contextlib
import functools
import fnmatch
import logging
import multiprocessing
import re
from typing import List, Tuple
from dotty_dict import dotty
from milc import cli
@ -31,95 +33,159 @@ def ignore_logging():
def _all_keymaps(keyboard):
"""Returns a list of tuples of (keyboard, keymap) for all keymaps for the given keyboard.
"""
with ignore_logging():
return (keyboard, qmk.keymap.list_keymaps(keyboard))
keyboard = qmk.keyboard.resolve_keyboard(keyboard)
return [(keyboard, keymap) for keymap in qmk.keymap.list_keymaps(keyboard)]
def _keymap_exists(keyboard, keymap):
"""Returns the keyboard name if the keyboard+keymap combination exists, otherwise None.
"""
with ignore_logging():
return keyboard if qmk.keymap.locate_keymap(keyboard, keymap) is not None else None
def _load_keymap_info(keyboard, keymap):
def _load_keymap_info(kb_km):
"""Returns a tuple of (keyboard, keymap, info.json) for the given keyboard/keymap combination.
"""
with ignore_logging():
return (keyboard, keymap, keymap_json(keyboard, keymap))
return (kb_km[0], kb_km[1], keymap_json(kb_km[0], kb_km[1]))
def search_keymap_targets(keymap='default', filters=[], print_vals=[]):
targets = []
def expand_make_targets(targets: List[str]) -> List[Tuple[str, str]]:
"""Expand a list of make targets into a list of (keyboard, keymap) tuples.
with multiprocessing.Pool() as pool:
cli.log.info(f'Retrieving list of keyboards with keymap "{keymap}"...')
target_list = []
Caters for 'all' in either keyboard or keymap, or both.
"""
split_targets = []
for target in targets:
split_target = target.split(':')
if len(split_target) != 2:
cli.log.error(f"Invalid build target: {target}")
return []
split_targets.append((split_target[0], split_target[1]))
return expand_keymap_targets(split_targets)
def _expand_keymap_target(keyboard: str, keymap: str, all_keyboards: List[str] = None) -> List[Tuple[str, str]]:
"""Expand a keyboard input and keymap input into a list of (keyboard, keymap) tuples.
Caters for 'all' in either keyboard or keymap, or both.
"""
if all_keyboards is None:
all_keyboards = qmk.keyboard.list_keyboards()
if keyboard == 'all':
with multiprocessing.Pool() as pool:
if keymap == 'all':
cli.log.info('Retrieving list of all keyboards and keymaps...')
targets = []
for kb in pool.imap_unordered(_all_keymaps, all_keyboards):
targets.extend(kb)
return targets
else:
cli.log.info(f'Retrieving list of keyboards with keymap "{keymap}"...')
keyboard_filter = functools.partial(_keymap_exists, keymap=keymap)
return [(kb, keymap) for kb in filter(lambda e: e is not None, pool.imap_unordered(keyboard_filter, all_keyboards))]
else:
if keymap == 'all':
kb_to_kms = pool.map(_all_keymaps, qmk.keyboard.list_keyboards())
for targets in kb_to_kms:
keyboard = targets[0]
keymaps = targets[1]
target_list.extend([(keyboard, keymap) for keymap in keymaps])
keyboard = qmk.keyboard.resolve_keyboard(keyboard)
cli.log.info(f'Retrieving list of keymaps for keyboard "{keyboard}"...')
return _all_keymaps(keyboard)
else:
target_list = [(kb, keymap) for kb in filter(lambda kb: kb is not None, pool.starmap(_keymap_exists, [(kb, keymap) for kb in qmk.keyboard.list_keyboards()]))]
return [(qmk.keyboard.resolve_keyboard(keyboard), keymap)]
if len(filters) == 0:
targets = [(kb, km, {}) for kb, km in target_list]
else:
cli.log.info('Parsing data for all matching keyboard/keymap combinations...')
valid_keymaps = [(e[0], e[1], dotty(e[2])) for e in pool.starmap(_load_keymap_info, target_list)]
function_re = re.compile(r'^(?P<function>[a-zA-Z]+)\((?P<key>[a-zA-Z0-9_\.]+)(,\s*(?P<value>[^#]+))?\)$')
equals_re = re.compile(r'^(?P<key>[a-zA-Z0-9_\.]+)\s*=\s*(?P<value>[^#]+)$')
def expand_keymap_targets(targets: List[Tuple[str, str]]) -> List[Tuple[str, str]]:
"""Expand a list of (keyboard, keymap) tuples inclusive of 'all', into a list of explicit (keyboard, keymap) tuples.
"""
overall_targets = []
all_keyboards = qmk.keyboard.list_keyboards()
for target in targets:
overall_targets.extend(_expand_keymap_target(target[0], target[1], all_keyboards))
return list(sorted(set(overall_targets)))
for filter_expr in filters:
function_match = function_re.match(filter_expr)
equals_match = equals_re.match(filter_expr)
if function_match is not None:
func_name = function_match.group('function').lower()
key = function_match.group('key')
value = function_match.group('value')
def _filter_keymap_targets(target_list: List[Tuple[str, str]], filters: List[str] = [], print_vals: List[str] = []) -> List[Tuple[str, str, List[Tuple[str, str]]]]:
"""Filter a list of (keyboard, keymap) tuples based on the supplied filters.
if value is not None:
if func_name == 'length':
valid_keymaps = filter(lambda e, key=key, value=value: key in e[2] and len(e[2].get(key)) == int(value), valid_keymaps)
elif func_name == 'contains':
valid_keymaps = filter(lambda e, key=key, value=value: key in e[2] and value in e[2].get(key), valid_keymaps)
else:
cli.log.warning(f'Unrecognized filter expression: {function_match.group(0)}')
continue
Optionally includes the values of the queried info.json keys.
"""
if len(filters) == 0 and len(print_vals) == 0:
targets = [(kb, km, {}) for kb, km in target_list]
else:
cli.log.info('Parsing data for all matching keyboard/keymap combinations...')
with multiprocessing.Pool() as pool:
valid_keymaps = [(e[0], e[1], dotty(e[2])) for e in pool.imap_unordered(_load_keymap_info, target_list)]
cli.log.info(f'Filtering on condition: {{fg_green}}{func_name}{{fg_reset}}({{fg_cyan}}{key}{{fg_reset}}, {{fg_cyan}}{value}{{fg_reset}})...')
function_re = re.compile(r'^(?P<function>[a-zA-Z]+)\((?P<key>[a-zA-Z0-9_\.]+)(,\s*(?P<value>[^#]+))?\)$')
equals_re = re.compile(r'^(?P<key>[a-zA-Z0-9_\.]+)\s*=\s*(?P<value>[^#]+)$')
for filter_expr in filters:
function_match = function_re.match(filter_expr)
equals_match = equals_re.match(filter_expr)
if function_match is not None:
func_name = function_match.group('function').lower()
key = function_match.group('key')
value = function_match.group('value')
if value is not None:
if func_name == 'length':
valid_keymaps = filter(lambda e, key=key, value=value: key in e[2] and len(e[2].get(key)) == int(value), valid_keymaps)
elif func_name == 'contains':
valid_keymaps = filter(lambda e, key=key, value=value: key in e[2] and value in e[2].get(key), valid_keymaps)
else:
if func_name == 'exists':
valid_keymaps = filter(lambda e, key=key: key in e[2], valid_keymaps)
elif func_name == 'absent':
valid_keymaps = filter(lambda e, key=key: key not in e[2], valid_keymaps)
else:
cli.log.warning(f'Unrecognized filter expression: {function_match.group(0)}')
continue
cli.log.warning(f'Unrecognized filter expression: {function_match.group(0)}')
continue
cli.log.info(f'Filtering on condition: {{fg_green}}{func_name}{{fg_reset}}({{fg_cyan}}{key}{{fg_reset}})...')
elif equals_match is not None:
key = equals_match.group('key')
value = equals_match.group('value')
cli.log.info(f'Filtering on condition: {{fg_cyan}}{key}{{fg_reset}} == {{fg_cyan}}{value}{{fg_reset}}...')
def _make_filter(k, v):
expr = fnmatch.translate(v)
rule = re.compile(f'^{expr}$', re.IGNORECASE)
def f(e):
lhs = e[2].get(k)
lhs = str(False if lhs is None else lhs)
return rule.search(lhs) is not None
return f
valid_keymaps = filter(_make_filter(key, value), valid_keymaps)
cli.log.info(f'Filtering on condition: {{fg_green}}{func_name}{{fg_reset}}({{fg_cyan}}{key}{{fg_reset}}, {{fg_cyan}}{value}{{fg_reset}})...')
else:
cli.log.warning(f'Unrecognized filter expression: {filter_expr}')
continue
if func_name == 'exists':
valid_keymaps = filter(lambda e, key=key: key in e[2], valid_keymaps)
elif func_name == 'absent':
valid_keymaps = filter(lambda e, key=key: key not in e[2], valid_keymaps)
else:
cli.log.warning(f'Unrecognized filter expression: {function_match.group(0)}')
continue
cli.log.info(f'Filtering on condition: {{fg_green}}{func_name}{{fg_reset}}({{fg_cyan}}{key}{{fg_reset}})...')
elif equals_match is not None:
key = equals_match.group('key')
value = equals_match.group('value')
cli.log.info(f'Filtering on condition: {{fg_cyan}}{key}{{fg_reset}} == {{fg_cyan}}{value}{{fg_reset}}...')
def _make_filter(k, v):
expr = fnmatch.translate(v)
rule = re.compile(f'^{expr}$', re.IGNORECASE)
def f(e):
lhs = e[2].get(k)
lhs = str(False if lhs is None else lhs)
return rule.search(lhs) is not None
return f
valid_keymaps = filter(_make_filter(key, value), valid_keymaps)
else:
cli.log.warning(f'Unrecognized filter expression: {filter_expr}')
continue
targets = [(e[0], e[1], [(p, e[2].get(p)) for p in print_vals]) for e in valid_keymaps]
return targets
def search_keymap_targets(keymap='default', filters: List[str] = [], print_vals: List[str] = []) -> List[Tuple[str, str, List[Tuple[str, str]]]]:
"""Search for build targets matching the supplied criteria.
"""
return list(sorted(_filter_keymap_targets(expand_keymap_targets([('all', keymap)]), filters, print_vals), key=lambda e: (e[0], e[1])))
def search_make_targets(targets: List[str], filters: List[str] = [], print_vals: List[str] = []) -> List[Tuple[str, str, List[Tuple[str, str]]]]:
"""Search for build targets matching the supplied criteria.
"""
return list(sorted(_filter_keymap_targets(expand_make_targets(targets), filters, print_vals), key=lambda e: (e[0], e[1])))