#!/usr/bin/env python3 # SPDX-License-Identifier: GPL-2.0-or-later # Copyright (C) 2019, Google Inc. # # Author: Laurent Pinchart # # Generate control definitions from YAML import argparse from functools import reduce import operator import string import sys import yaml import os class ControlEnum(object): def __init__(self, data): self.__data = data @property def description(self): """The enum description""" return self.__data.get('description') @property def name(self): """The enum name""" return self.__data.get('name') @property def value(self): """The enum value""" return self.__data.get('value') class Control(object): def __init__(self, name, data, vendor): self.__name = name self.__data = data self.__enum_values = None self.__size = None self.__vendor = vendor enum_values = data.get('enum') if enum_values is not None: self.__enum_values = [ControlEnum(enum) for enum in enum_values] size = self.__data.get('size') if size is not None: if len(size) == 0: raise RuntimeError(f'Control `{self.__name}` size must have at least one dimension') # Compute the total number of elements in the array. If any of the # array dimension is a string, the array is variable-sized. num_elems = 1 for dim in size: if type(dim) is str: num_elems = 0 break dim = int(dim) if dim <= 0: raise RuntimeError(f'Control `{self.__name}` size must have positive values only') num_elems *= dim self.__size = num_elems @property def description(self): """The control description""" return self.__data.get('description') @property def enum_values(self): """The enum values, if the control is an enumeration""" if self.__enum_values is None: return for enum in self.__enum_values: yield enum @property def is_enum(self): """Is the control an enumeration""" return self.__enum_values is not None @property def vendor(self): """The vendor string, or None""" return self.__vendor @property def name(self): """The control name (CamelCase)""" return self.__name @property def type(self): typ = self.__data.get('type') size = self.__data.get('size') if typ == 'string': return 'std::string' if self.__size is None: return typ if self.__size: return f"Span" else: return f"Span" def snake_case(s): return ''.join([c.isupper() and ('_' + c) or c for c in s]).strip('_') def format_description(description): description = description.strip('\n').split('\n') description[0] = '\\brief ' + description[0] return '\n'.join([(line and ' * ' or ' *') + line for line in description]) def generate_cpp(controls): enum_doc_start_template = string.Template('''/** * \\enum ${name}Enum * \\brief Supported ${name} values''') enum_doc_value_template = string.Template(''' * \\var ${value} ${description}''') doc_template = string.Template('''/** * \\var ${name} ${description} */''') def_template = string.Template('extern const Control<${type}> ${name}(${id_name}, "${name}");') enum_values_doc = string.Template('''/** * \\var ${name}Values * \\brief List of all $name supported values */''') enum_values_start = string.Template('''extern const std::array ${name}Values = {''') enum_values_values = string.Template('''\tstatic_cast(${name}),''') name_value_map_doc = string.Template('''/** * \\var ${name}NameValueMap * \\brief Map of all $name supported value names (in std::string format) to value */''') name_value_map_start = string.Template('''extern const std::map ${name}NameValueMap = {''') name_value_values = string.Template('''\t{ "${name}", ${name} },''') ctrls_doc = {} ctrls_def = {} ctrls_map = [] for ctrl in controls: id_name = snake_case(ctrl.name).upper() vendor = ctrl.vendor if vendor not in ctrls_doc: ctrls_doc[vendor] = [] ctrls_def[vendor] = [] info = { 'name': ctrl.name, 'type': ctrl.type, 'description': format_description(ctrl.description), 'id_name': id_name, } target_doc = ctrls_doc[vendor] target_def = ctrls_def[vendor] if ctrl.is_enum: enum_doc = [] enum_doc.append(enum_doc_start_template.substitute(info)) num_entries = 0 for enum in ctrl.enum_values: value_info = { 'name': ctrl.name, 'value': enum.name, 'description': format_description(enum.description), } enum_doc.append(enum_doc_value_template.substitute(value_info)) num_entries += 1 enum_doc = '\n *\n'.join(enum_doc) enum_doc += '\n */' target_doc.append(enum_doc) values_info = { 'name': info['name'], 'type': ctrl.type, 'size': num_entries, } target_doc.append(enum_values_doc.substitute(values_info)) target_def.append(enum_values_start.substitute(values_info)) for enum in ctrl.enum_values: value_info = { 'name': enum.name } target_def.append(enum_values_values.substitute(value_info)) target_def.append("};") target_doc.append(name_value_map_doc.substitute(values_info)) target_def.append(name_value_map_start.substitute(values_info)) for enum in ctrl.enum_values: value_info = { 'name': enum.name } target_def.append(name_value_values.substitute(value_info)) target_def.append("};") target_doc.append(doc_template.substitute(info)) target_def.append(def_template.substitute(info)) vendor_ns = vendor + '::' if vendor != "libcamera" else '' ctrls_map.append('\t{ ' + vendor_ns + id_name + ', &' + vendor_ns + ctrl.name + ' },') vendor_ctrl_doc_sub = [] vendor_ctrl_template = string.Template(''' /** * \\brief Namespace for ${vendor} controls */ namespace ${vendor} { ${vendor_controls_str} } /* namespace ${vendor} */''') for vendor in [v for v in ctrls_doc.keys() if v not in ['libcamera']]: vendor_ctrl_doc_sub.append(vendor_ctrl_template.substitute({'vendor': vendor, 'vendor_controls_str': '\n\n'.join(ctrls_doc[vendor])})) # SPDX-License-Identifier: GPL-2.0-only # Copyright 2019 Google Inc. EAPI=6 PYTHON_COMPAT=( python3_{7..10} ) inherit git-r3 meson python-any-r1 ': '\n'.join(ctrls_map), 'vendor_controls_doc': '\n'.join(vendor_ctrl_doc_sub), 'vendor_controls_def': '\n'.join(vendor_ctrl_def_sub), } def generate_h(controls, mode, ranges): enum_template_start = string.Template('''enum ${name}Enum {''') enum_value_template = string.Template('''\t${name} = ${value},''') enum_values_template = string.Template('''extern const std::array ${name}Values;''') name_value_map_template = string.Template('''extern const std::map ${name}NameValueMap;''') template = string.Template('''extern const Control<${type}> ${name};''') ctrls = {} ids = {} id_value = {} for ctrl in controls: id_name = snake_case(ctrl.name).upper() vendor = ctrl.vendor if vendor not in ctrls: if vendor not in ranges.keys(): raise RuntimeError(f'Control id range is not defined for vendor {vendor}') id_value[vendor] = ranges[vendor] + 1 ids[vendor] = [] ctrls[vendor] = [] target_ids = ids[vendor] target_ids.append('\t' + id_name + ' = ' + str(id_value[vendor]) + ',') info = { 'name': ctrl.name, 'type': ctrl.type, } target_ctrls = ctrls[vendor] if ctrl.is_enum: target_ctrls.append(enum_template_start.substitute(info)) num_entries = 0 for enum in ctrl.enum_values: value_info = { 'name': enum.name, 'value': enum.value, } target_ctrls.append(enum_value_template.substitute(value_info)) num_entries += 1 target_ctrls.append("};") values_info = { 'name': info['name'], 'type': ctrl.type, 'size': num_entries, } target_ctrls.append(enum_values_template.substitute(values_info)) target_ctrls.append(name_value_map_template.substitute(values_info)) target_ctrls.append(template.substitute(info)) id_value[vendor] += 1 vendor_template = string.Template(''' namespace ${vendor} { #define LIBCAMERA_HAS_${vendor_def}_VENDOR_${mode} enum { ${vendor_enums} }; ${vendor_controls} } /* namespace ${vendor} */ ''') vendor_sub = [] for vendor in [v for v in ctrls.keys() if v != 'libcamera']: vendor_sub.append(vendor_template.substitute({'mode': mode.upper(), 'vendor': vendor, 'vendor_def': vendor.upper(), 'vendor_enums': '\n'.join(ids[vendor]), 'vendor_controls': '\n'.join(ctrls[vendor])})) return { 'ids': '\n'.join(ids['libcamera']), 'controls': '\n'.join(ctrls['libcamera']), 'vendor_controls': '\n'.join(vendor_sub) } def fill_template(template, data): template = open(template, 'rb').read() template = template.decode('utf-8') template = string.Template(template) return template.substitute(data) def main(argv): # Parse command line arguments parser = argparse.ArgumentParser() parser.add_argument('--mode', '-m', type=str, required=True, choices=['controls', 'properties'], help='Mode of operation') parser.add_argument('--output', '-o', metavar='file', type=str, help='Output file name. Defaults to standard output if not specified.') parser.add_argument('--ranges', '-r', type=str, required=True, help='Control id range reservation file.') parser.add_argument('--template', '-t', dest='template', type=str, required=True, help='Template file name.') parser.add_argument('input', type=str, nargs='+', help='Input file name.') args = parser.parse_args(argv[1:]) ranges = {} with open(args.ranges, 'rb') as f: data = open(args.ranges, 'rb').read() ranges = yaml.safe_load(data)['ranges'] controls = [] for input in args.input: with open(input, 'rb') as f: data = f.read() vendor = yaml.safe_load(data)['vendor'] ctrls = yaml.safe_load(data)['controls'] controls = controls + [Control(*ctrl.popitem(), vendor) for ctrl in ctrls] if args.template.endswith('.cpp.in'): data = generate_cpp(controls) elif args.template.endswith('.h.in'): data = generate_h(controls, args.mode, ranges) else: raise RuntimeError('Unknown template type') data = fill_template(args.template, data) if args.output: output = open(args.output, 'wb') output.write(data.encode('utf-8')) output.close() else: sys.stdout.write(data) return 0 if __name__ == '__main__': sys.exit(main(sys.argv))