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- #!/usr/bin/env python3
- #
- # schema.py
- #
- # Used by signature.py via common-dependencies.py to generate a schema file during the PlatformIO build.
- # This script can also be run standalone from within the Marlin repo to generate all schema files.
- #
- import re,json
- from pathlib import Path
- def extend_dict(d:dict, k:tuple):
- if len(k) >= 1 and k[0] not in d:
- d[k[0]] = {}
- if len(k) >= 2 and k[1] not in d[k[0]]:
- d[k[0]][k[1]] = {}
- if len(k) >= 3 and k[2] not in d[k[0]][k[1]]:
- d[k[0]][k[1]][k[2]] = {}
- grouping_patterns = [
- re.compile(r'^([XYZIJKUVW]|[XYZ]2|Z[34]|E[0-7])$'),
- re.compile(r'^AXIS\d$'),
- re.compile(r'^(MIN|MAX)$'),
- re.compile(r'^[0-8]$'),
- re.compile(r'^HOTEND[0-7]$'),
- re.compile(r'^(HOTENDS|BED|PROBE|COOLER)$'),
- re.compile(r'^[XYZIJKUVW]M(IN|AX)$')
- ]
- # If the indexed part of the option name matches a pattern
- # then add it to the dictionary.
- def find_grouping(gdict, filekey, sectkey, optkey, pindex):
- optparts = optkey.split('_')
- if 1 < len(optparts) > pindex:
- for patt in grouping_patterns:
- if patt.match(optparts[pindex]):
- subkey = optparts[pindex]
- modkey = '_'.join(optparts)
- optparts[pindex] = '*'
- wildkey = '_'.join(optparts)
- kkey = f'{filekey}|{sectkey}|{wildkey}'
- if kkey not in gdict: gdict[kkey] = []
- gdict[kkey].append((subkey, modkey))
- # Build a list of potential groups. Only those with multiple items will be grouped.
- def group_options(schema):
- for pindex in range(10, -1, -1):
- found_groups = {}
- for filekey, f in schema.items():
- for sectkey, s in f.items():
- for optkey in s:
- find_grouping(found_groups, filekey, sectkey, optkey, pindex)
- fkeys = [ k for k in found_groups.keys() ]
- for kkey in fkeys:
- items = found_groups[kkey]
- if len(items) > 1:
- f, s, w = kkey.split('|')
- extend_dict(schema, (f, s, w)) # Add wildcard group to schema
- for subkey, optkey in items: # Add all items to wildcard group
- schema[f][s][w][subkey] = schema[f][s][optkey] # Move non-wildcard item to wildcard group
- del schema[f][s][optkey]
- del found_groups[kkey]
- # Extract all board names from boards.h
- def load_boards():
- bpath = Path("Marlin/src/core/boards.h")
- if bpath.is_file():
- with bpath.open() as bfile:
- boards = []
- for line in bfile:
- if line.startswith("#define BOARD_"):
- bname = line.split()[1]
- if bname != "BOARD_UNKNOWN": boards.append(bname)
- return "['" + "','".join(boards) + "']"
- return ''
- #
- # Extract a schema from the current configuration files
- #
- def extract():
- # Load board names from boards.h
- boards = load_boards()
- # Parsing states
- class Parse:
- NORMAL = 0 # No condition yet
- BLOCK_COMMENT = 1 # Looking for the end of the block comment
- EOL_COMMENT = 2 # EOL comment started, maybe add the next comment?
- GET_SENSORS = 3 # Gathering temperature sensor options
- ERROR = 9 # Syntax error
- # List of files to process, with shorthand
- filekey = { 'Configuration.h':'basic', 'Configuration_adv.h':'advanced' }
- # A JSON object to store the data
- sch_out = { 'basic':{}, 'advanced':{} }
- # Regex for #define NAME [VALUE] [COMMENT] with sanitized line
- defgrep = re.compile(r'^(//)?\s*(#define)\s+([A-Za-z0-9_]+)\s*(.*?)\s*(//.+)?$')
- # Defines to ignore
- ignore = ('CONFIGURATION_H_VERSION', 'CONFIGURATION_ADV_H_VERSION', 'CONFIG_EXAMPLES_DIR', 'CONFIG_EXPORT')
- # Start with unknown state
- state = Parse.NORMAL
- # Serial ID
- sid = 0
- # Loop through files and parse them line by line
- for fn, fk in filekey.items():
- with Path("Marlin", fn).open() as fileobj:
- section = 'none' # Current Settings section
- line_number = 0 # Counter for the line number of the file
- conditions = [] # Create a condition stack for the current file
- comment_buff = [] # A temporary buffer for comments
- options_json = '' # A buffer for the most recent options JSON found
- eol_options = False # The options came from end of line, so only apply once
- join_line = False # A flag that the line should be joined with the previous one
- line = '' # A line buffer to handle \ continuation
- last_added_ref = None # Reference to the last added item
- # Loop through the lines in the file
- for the_line in fileobj.readlines():
- line_number += 1
- # Clean the line for easier parsing
- the_line = the_line.strip()
- if join_line: # A previous line is being made longer
- line += (' ' if line else '') + the_line
- else: # Otherwise, start the line anew
- line, line_start = the_line, line_number
- # If the resulting line ends with a \, don't process now.
- # Strip the end off. The next line will be joined with it.
- join_line = line.endswith("\\")
- if join_line:
- line = line[:-1].strip()
- continue
- else:
- line_end = line_number
- defmatch = defgrep.match(line)
- # Special handling for EOL comments after a #define.
- # At this point the #define is already digested and inserted,
- # so we have to extend it
- if state == Parse.EOL_COMMENT:
- # If the line is not a comment, we're done with the EOL comment
- if not defmatch and the_line.startswith('//'):
- comment_buff.append(the_line[2:].strip())
- else:
- last_added_ref['comment'] = ' '.join(comment_buff)
- comment_buff = []
- state = Parse.NORMAL
- def use_comment(c, opt, sec, bufref):
- if c.startswith(':'): # If the comment starts with : then it has magic JSON
- d = c[1:].strip() # Strip the leading :
- cbr = c.rindex('}') if d.startswith('{') else c.rindex(']') if d.startswith('[') else 0
- if cbr:
- opt, cmt = c[1:cbr+1].strip(), c[cbr+1:].strip()
- if cmt != '': bufref.append(cmt)
- else:
- opt = c[1:].strip()
- elif c.startswith('@section'): # Start a new section
- sec = c[8:].strip()
- elif not c.startswith('========'):
- bufref.append(c)
- return opt, sec
- # In a block comment, capture lines up to the end of the comment.
- # Assume nothing follows the comment closure.
- if state in (Parse.BLOCK_COMMENT, Parse.GET_SENSORS):
- endpos = line.find('*/')
- if endpos < 0:
- cline = line
- else:
- cline, line = line[:endpos].strip(), line[endpos+2:].strip()
- # Temperature sensors are done
- if state == Parse.GET_SENSORS:
- options_json = f'[ {options_json[:-2]} ]'
- state = Parse.NORMAL
- # Strip the leading '*' from block comments
- if cline.startswith('*'): cline = cline[1:].strip()
- # Collect temperature sensors
- if state == Parse.GET_SENSORS:
- sens = re.match(r'^(-?\d+)\s*:\s*(.+)$', cline)
- if sens:
- s2 = sens[2].replace("'","''")
- options_json += f"{sens[1]}:'{s2}', "
- elif state == Parse.BLOCK_COMMENT:
- # Look for temperature sensors
- if cline == "Temperature sensors available:":
- state, cline = Parse.GET_SENSORS, "Temperature Sensors"
- options_json, section = use_comment(cline, options_json, section, comment_buff)
- # For the normal state we're looking for any non-blank line
- elif state == Parse.NORMAL:
- # Skip a commented define when evaluating comment opening
- st = 2 if re.match(r'^//\s*#define', line) else 0
- cpos1 = line.find('/*') # Start a block comment on the line?
- cpos2 = line.find('//', st) # Start an end of line comment on the line?
- # Only the first comment starter gets evaluated
- cpos = -1
- if cpos1 != -1 and (cpos1 < cpos2 or cpos2 == -1):
- cpos = cpos1
- comment_buff = []
- state = Parse.BLOCK_COMMENT
- eol_options = False
- elif cpos2 != -1 and (cpos2 < cpos1 or cpos1 == -1):
- cpos = cpos2
- # Comment after a define may be continued on the following lines
- if defmatch != None and cpos > 10:
- state = Parse.EOL_COMMENT
- comment_buff = []
- # Process the start of a new comment
- if cpos != -1:
- cline, line = line[cpos+2:].strip(), line[:cpos].strip()
- if state == Parse.BLOCK_COMMENT:
- # Strip leading '*' from block comments
- if cline.startswith('*'): cline = cline[1:].strip()
- else:
- # Expire end-of-line options after first use
- if cline.startswith(':'): eol_options = True
- # Buffer a non-empty comment start
- if cline != '':
- options_json, section = use_comment(cline, options_json, section, comment_buff)
- # If the line has nothing before the comment, go to the next line
- if line == '':
- options_json = ''
- continue
- # Parenthesize the given expression if needed
- def atomize(s):
- if s == '' \
- or re.match(r'^[A-Za-z0-9_]*(\([^)]+\))?$', s) \
- or re.match(r'^[A-Za-z0-9_]+ == \d+?$', s):
- return s
- return f'({s})'
- #
- # The conditions stack is an array containing condition-arrays.
- # Each condition-array lists the conditions for the current block.
- # IF/N/DEF adds a new condition-array to the stack.
- # ELSE/ELIF/ENDIF pop the condition-array.
- # ELSE/ELIF negate the last item in the popped condition-array.
- # ELIF adds a new condition to the end of the array.
- # ELSE/ELIF re-push the condition-array.
- #
- cparts = line.split()
- iselif, iselse = cparts[0] == '#elif', cparts[0] == '#else'
- if iselif or iselse or cparts[0] == '#endif':
- if len(conditions) == 0:
- raise Exception(f'no #if block at line {line_number}')
- # Pop the last condition-array from the stack
- prev = conditions.pop()
- if iselif or iselse:
- prev[-1] = '!' + prev[-1] # Invert the last condition
- if iselif: prev.append(atomize(line[5:].strip()))
- conditions.append(prev)
- elif cparts[0] == '#if':
- conditions.append([ atomize(line[3:].strip()) ])
- elif cparts[0] == '#ifdef':
- conditions.append([ f'defined({line[6:].strip()})' ])
- elif cparts[0] == '#ifndef':
- conditions.append([ f'!defined({line[7:].strip()})' ])
- # Handle a complete #define line
- elif defmatch != None:
- # Get the match groups into vars
- enabled, define_name, val = defmatch[1] == None, defmatch[3], defmatch[4]
- # Increment the serial ID
- sid += 1
- # Create a new dictionary for the current #define
- define_info = {
- 'section': section,
- 'name': define_name,
- 'enabled': enabled,
- 'line': line_start,
- 'sid': sid
- }
- # Type is based on the value
- if val == '':
- value_type = 'switch'
- elif re.match(r'^(true|false)$', val):
- value_type = 'bool'
- val = val == 'true'
- elif re.match(r'^[-+]?\s*\d+$', val):
- value_type = 'int'
- val = int(val)
- elif re.match(r'[-+]?\s*(\d+\.|\d*\.\d+)([eE][-+]?\d+)?[fF]?', val):
- value_type = 'float'
- val = float(val.replace('f',''))
- else:
- value_type = 'string' if val[0] == '"' \
- else 'char' if val[0] == "'" \
- else 'state' if re.match(r'^(LOW|HIGH)$', val) \
- else 'enum' if re.match(r'^[A-Za-z0-9_]{3,}$', val) \
- else 'int[]' if re.match(r'^{(\s*[-+]?\s*\d+\s*(,\s*)?)+}$', val) \
- else 'float[]' if re.match(r'^{(\s*[-+]?\s*(\d+\.|\d*\.\d+)([eE][-+]?\d+)?[fF]?\s*(,\s*)?)+}$', val) \
- else 'array' if val[0] == '{' \
- else ''
- if val != '': define_info['value'] = val
- if value_type != '': define_info['type'] = value_type
- # Join up accumulated conditions with &&
- if conditions: define_info['requires'] = ' && '.join(sum(conditions, []))
- # If the comment_buff is not empty, add the comment to the info
- if comment_buff:
- full_comment = '\n'.join(comment_buff)
- # An EOL comment will be added later
- # The handling could go here instead of above
- if state == Parse.EOL_COMMENT:
- define_info['comment'] = ''
- else:
- define_info['comment'] = full_comment
- comment_buff = []
- # If the comment specifies units, add that to the info
- units = re.match(r'^\(([^)]+)\)', full_comment)
- if units:
- units = units[1]
- if units == 's' or units == 'sec': units = 'seconds'
- define_info['units'] = units
- # Set the options for the current #define
- if define_name == "MOTHERBOARD" and boards != '':
- define_info['options'] = boards
- elif options_json != '':
- define_info['options'] = options_json
- if eol_options: options_json = ''
- # Create section dict if it doesn't exist yet
- if section not in sch_out[fk]: sch_out[fk][section] = {}
- # If define has already been seen...
- if define_name in sch_out[fk][section]:
- info = sch_out[fk][section][define_name]
- if isinstance(info, dict): info = [ info ] # Convert a single dict into a list
- info.append(define_info) # Add to the list
- else:
- # Add the define dict with name as key
- sch_out[fk][section][define_name] = define_info
- if state == Parse.EOL_COMMENT:
- last_added_ref = define_info
- return sch_out
- def dump_json(schema:dict, jpath:Path):
- with jpath.open('w') as jfile:
- json.dump(schema, jfile, ensure_ascii=False, indent=2)
- def dump_yaml(schema:dict, ypath:Path):
- import yaml
- with ypath.open('w') as yfile:
- yaml.dump(schema, yfile, default_flow_style=False, width=120, indent=2)
- def main():
- try:
- schema = extract()
- except Exception as exc:
- print("Error: " + str(exc))
- schema = None
- if schema:
- # Get the first command line argument
- import sys
- if len(sys.argv) > 1:
- arg = sys.argv[1]
- else:
- arg = 'some'
- # JSON schema
- if arg in ['some', 'json', 'jsons']:
- print("Generating JSON ...")
- dump_json(schema, Path('schema.json'))
- # JSON schema (wildcard names)
- if arg in ['group', 'jsons']:
- group_options(schema)
- dump_json(schema, Path('schema_grouped.json'))
- # YAML
- if arg in ['some', 'yml', 'yaml']:
- try:
- import yaml
- except ImportError:
- print("Installing YAML module ...")
- import subprocess
- try:
- subprocess.run(['python3', '-m', 'pip', 'install', 'pyyaml'])
- import yaml
- except:
- print("Failed to install YAML module")
- return
- print("Generating YML ...")
- dump_yaml(schema, Path('schema.yml'))
- if __name__ == '__main__':
- main()
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