Mercurial > hg > orthanc-python
view CodeAnalysis/GenerateOrthancSDK.py @ 200:3757a7b9e6f1
fix build on macOS
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Tue, 02 Jul 2024 19:16:45 +0200 |
parents | 0c5da632f34d |
children | 65ad095c25d8 |
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#!/usr/bin/env python3 ## ## Python plugin for Orthanc ## Copyright (C) 2020-2023 Osimis S.A., Belgium ## Copyright (C) 2024-2024 Orthanc Team SRL, Belgium ## Copyright (C) 2021-2024 Sebastien Jodogne, ICTEAM UCLouvain, Belgium ## ## This program is free software: you can redistribute it and/or ## modify it under the terms of the GNU Affero General Public License ## as published by the Free Software Foundation, either version 3 of ## the License, or (at your option) any later version. ## ## This program is distributed in the hope that it will be useful, but ## WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ## Affero General Public License for more details. ## ## You should have received a copy of the GNU Affero General Public License ## along with this program. If not, see <http://www.gnu.org/licenses/>. ## import argparse import json import os import sys import pystache ROOT = os.path.dirname(os.path.realpath(sys.argv[0])) ## ## Parse the command-line arguments ## parser = argparse.ArgumentParser(description = 'Generate Python code to wrap the Orthanc SDK.') parser.add_argument('--model', default = os.path.join(os.path.dirname(__file__), '../Resources/Orthanc/Sdk-1.10.0/CodeModel.json'), help = 'Input code model, as generated by the orthanc-java project') parser.add_argument('--classes', default = os.path.join(os.path.dirname(__file__), '../Resources/Orthanc/Sdk-1.10.0/ClassDocumentation.json'), help = 'Input description of classes, as defined in the orthanc-java project') parser.add_argument('--target', default = os.path.join(os.path.dirname(__file__), '../Sources/Autogenerated'), help = 'Target folder') args = parser.parse_args() ## ## Configuration of the custom primitives that are manually ## implemented (not autogenerated) ## TARGET = os.path.realpath(args.target) with open(os.path.join(ROOT, 'CustomMethods.json'), 'r') as f: CUSTOM_METHODS = json.loads(f.read()) with open(os.path.join(ROOT, 'CustomFunctions.json'), 'r') as f: CUSTOM_FUNCTIONS = json.loads(f.read()) partials = {} with open(os.path.join(ROOT, 'FunctionBody.mustache'), 'r') as f: partials['function_body'] = f.read() with open(os.path.join(ROOT, 'FunctionDocumentation.mustache'), 'r') as f: partials['function_documentation'] = f.read() renderer = pystache.Renderer( escape = lambda u: u, # No escaping partials = partials, ) with open(args.model, 'r') as f: model = json.loads(f.read()) with open(args.classes, 'r') as f: classes_description = json.loads(f.read()) def ToUpperCase(name): s = '' for i in range(len(name)): if name[i].isupper(): if len(s) == 0: s += name[i] elif name[i - 1].islower(): s += '_' + name[i] elif (i + 1 < len(name) and name[i - 1].islower() and name[i + 1].isupper()): s += '_' + name[i] else: s += name[i] else: s += name[i].upper() return s def ToLowerCase(name): s = '' for i in range(len(name)): if (name[i].isupper() and len(s) != 0): s += '_' s += name[i].lower() return s def GetShortName(name): if not name.startswith('OrthancPlugin'): raise Exception() else: return name[len('OrthancPlugin'):] ORTHANC_TO_PYTHON_NUMERIC_TYPES = { # https://docs.python.org/3/c-api/arg.html#numbers # https://en.wikipedia.org/wiki/C_data_types 'uint8_t' : { 'type' : 'unsigned char', 'format' : 'b', }, 'int32_t' : { 'type' : 'long int', 'format' : 'l', }, 'uint16_t' : { 'type' : 'unsigned short', 'format' : 'H', }, 'uint32_t' : { 'type' : 'unsigned long', 'format' : 'k', }, 'uint64_t' : { 'type' : 'unsigned long long', 'format' : 'K', }, 'float' : { 'type' : 'float', 'format' : 'f', } } def DocumentFunction(f): documentation = {} description = f['documentation'].get('description', []) if len(description) > 0: documentation['short_description'] = description[0].split('.') [0] documentation['description'] = map(lambda x: { 'text' : x }, description) args_declaration = [] args_documentation = [] for a in f['args']: arg_name = ToLowerCase(a['sdk_name']) if a['sdk_type'] == 'const char *': arg_type = 'str' elif a['sdk_type'] == 'float': arg_type = 'float' elif a['sdk_type'] in [ 'const_void_pointer_with_size', 'const void *' ]: arg_type = 'bytes' elif a['sdk_type'] == 'enumeration': arg_type = GetShortName(a['sdk_enumeration']) elif a['sdk_type'] == 'const_object': arg_type = GetShortName(a['sdk_class']) elif a['sdk_type'] in [ 'int32_t', 'uint32_t', 'uint8_t', 'uint16_t', 'uint64_t' ]: arg_type = 'int' elif a['sdk_type'] == 'Callable': arg_type = a['callable_type'] else: raise Exception('Argument type not implemented: %s' % a['sdk_type']) args_declaration.append('%s: %s' % (arg_name, arg_type)) args_documentation.append({ 'name' : arg_name, 'type' : arg_type, 'text' : f['documentation']['args'] [a['sdk_name']], }) documentation['args_declaration'] = ', '.join(args_declaration) documentation['args'] = args_documentation documentation['has_args'] = len(args_documentation) > 0 documentation['has_return'] = True if f['return_sdk_type'] == 'enumeration': if f['return_sdk_enumeration'] == 'OrthancPluginErrorCode': documentation['has_return'] = False documentation['return_type'] = 'None' else: documentation['return_type'] = GetShortName(f['return_sdk_enumeration']) elif f['return_sdk_type'] == 'object': documentation['return_type'] = GetShortName(f['return_sdk_class']) elif f['return_sdk_type'] == 'void': documentation['has_return'] = False documentation['return_type'] = 'None' elif f['return_sdk_type'] == 'OrthancPluginMemoryBuffer *': documentation['return_type'] = 'bytes' elif f['return_sdk_type'] in [ 'char *', 'const char *' ]: documentation['return_type'] = 'str' elif f['return_sdk_type'] in [ 'int32_t', 'uint32_t', 'uint16_t', 'int64_t' ]: documentation['return_type'] = 'int' else: raise Exception('Return type not implemented: %s' % f['return_sdk_type']) if documentation['has_return']: documentation['return_text'] = f['documentation']['return'] return documentation def FormatFunction(f): answer = { 'c_function' : f['c_function'], 'short_name' : GetShortName(f['c_function']), 'has_args' : len(f['args']) > 0, 'count_args' : len(f['args']), } tuple_format = '' tuple_target = [] call_args = [] args = [] for arg in f['args']: # https://docs.python.org/3/c-api/arg.html if arg['sdk_type'] in [ 'const void *', 'const_void_pointer_with_size' ]: args.append({ 'name' : arg['name'], 'python_type' : 'Py_buffer', 'release' : 'PyBuffer_Release(&%s);' % arg['name'], }) tuple_format += 's*' elif arg['sdk_type'] == 'const char *': args.append({ 'name' : arg['name'], 'python_type' : 'const char*', 'initialization' : ' = NULL', }) tuple_format += 's' elif arg['sdk_type'] == 'enumeration': args.append({ 'name' : arg['name'], 'python_type' : 'long int', 'initialization' : ' = 0', }) tuple_format += 'l' elif arg['sdk_type'] == 'const_object': args.append({ 'name' : arg['name'], 'python_type' : 'PyObject*', 'initialization' : ' = NULL', 'check_object_type' : arg['sdk_class'], }) tuple_format += 'O' elif arg['sdk_type'] in ORTHANC_TO_PYTHON_NUMERIC_TYPES: t = ORTHANC_TO_PYTHON_NUMERIC_TYPES[arg['sdk_type']] args.append({ 'name' : arg['name'], 'python_type' : t['type'], 'initialization' : ' = 0', }) tuple_format += t['format'] elif arg['sdk_type'] == 'Callable': # This is only used to generate the documentation file "orthanc.pyi" args.append({ 'name' : arg['name'], }) tuple_format += 'O' else: print('Ignoring function with unsupported argument type: %s(), type = %s' % (f['c_function'], arg['sdk_type'])) return None tuple_target.append('&' + arg['name']) if arg['sdk_type'] == 'const void *': call_args.append(arg['name'] + '.buf') elif arg['sdk_type'] == 'const_void_pointer_with_size': call_args.append(arg['name'] + '.buf') call_args.append(arg['name'] + '.len') elif arg['sdk_type'] == 'enumeration': call_args.append('static_cast<%s>(%s)' % (arg['sdk_enumeration'], arg['name'])) elif arg['sdk_type'] == 'const_object': call_args.append('%s == Py_None ? NULL : reinterpret_cast<sdk_%s_Object*>(%s)->object_' % ( arg['name'], arg['sdk_class'], arg['name'])) else: call_args.append(arg['name']) answer['args'] = args if f['return_sdk_type'] == 'void': answer['return_void'] = True elif f['return_sdk_type'] in [ 'int32_t', 'uint32_t', 'int64_t' ]: answer['return_long'] = True elif f['return_sdk_type'] == 'OrthancPluginMemoryBuffer *': answer['return_bytes'] = True elif f['return_sdk_type'] == 'enumeration': if f['return_sdk_enumeration'] == 'OrthancPluginErrorCode': answer['return_error'] = True else: answer['return_enumeration'] = f['return_sdk_enumeration'] elif f['return_sdk_type'] == 'char *': answer['return_dynamic_string'] = True elif f['return_sdk_type'] == 'const char *': answer['return_static_string'] = True elif f['return_sdk_type'] == 'object': answer['return_object'] = f['return_sdk_class'] else: print('Ignoring function with unsupported return type: %s(), type = %s' % (f['c_function'], f['return_sdk_type'])) return None answer['tuple_format'] = ', '.join([ '"' + tuple_format + '"' ] + tuple_target) if 'documentation' in f: answer['documentation'] = DocumentFunction(f) if len(call_args) > 0: answer['call_args'] = ', ' + ', '.join(call_args) return answer globalFunctions = [] customFunctions = [] for f in model['global_functions']: g = FormatFunction(f) if g != None: globalFunctions.append(g) for f in CUSTOM_FUNCTIONS: f['documentation'] = DocumentFunction(f) customFunctions.append(f) enumerations = [] with open(os.path.join(ROOT, 'Enumeration.mustache'), 'r') as f: ENUMERATION_TEMPLATE = f.read() for e in model['enumerations']: values = [] for value in e['values']: values.append({ 'key' : ToUpperCase(value['key']), 'value' : value['value'], 'documentation' : value['documentation'], }) enumerations.append({ 'name' : e['name'], 'short_name' : GetShortName(e['name']), 'path' : 'sdk_%s.impl.h' % e['name'], 'values' : values, 'documentation' : e['documentation'], }) path = 'sdk_%s.impl.h' % e['name'] with open(os.path.join(TARGET, path), 'w') as f: f.write(pystache.render(ENUMERATION_TEMPLATE, { 'name' : e['name'], 'short_name' : GetShortName(e['name']), 'values' : values, })) classes = [] for c in model['classes']: methods = [] for m in c['methods']: g = FormatFunction(m) if g != None: g['self'] = ', self->object_' methods.append(g) custom_methods = [] if c['name'] in CUSTOM_METHODS: for custom_method in CUSTOM_METHODS[c['name']]: custom_method['self'] = True # Indicates that this is a method custom_method['documentation'] = DocumentFunction(custom_method) custom_methods.append(custom_method) classes.append({ 'description' : classes_description[c['name']], 'class_name' : c['name'], 'short_name' : GetShortName(c['name']), 'methods' : methods, 'custom_methods' : sorted(custom_methods, key = lambda x: x['short_name']), }) if 'destructor' in c: classes[-1]['destructor'] = c['destructor'] with open(os.path.join(ROOT, 'Class.mustache'), 'r') as f: with open(os.path.join(ROOT, 'ClassMethods.mustache'), 'r') as g: classDefinition = f.read() classMethods = g.read() for c in classes: with open(os.path.join(TARGET, 'sdk_%s.impl.h' % c['class_name']), 'w') as h: h.write(renderer.render(classDefinition, c)) with open(os.path.join(TARGET, 'sdk_%s.methods.h' % c['class_name']), 'w') as h: h.write(renderer.render(classMethods, c)) sortedClasses = sorted(classes, key = lambda x: x['class_name']) sortedEnumerations = sorted(enumerations, key = lambda x: x['name']) sortedGlobalFunctions = sorted(globalFunctions, key = lambda x: x['c_function']) sortedCustomFunctions = sorted(customFunctions, key = lambda x: x['short_name']) with open(os.path.join(ROOT, 'GlobalFunctions.mustache'), 'r') as f: with open(os.path.join(TARGET, 'sdk_GlobalFunctions.impl.h'), 'w') as h: h.write(renderer.render(f.read(), { 'global_functions' : sortedGlobalFunctions, 'custom_functions' : sortedCustomFunctions, })) with open(os.path.join(ROOT, 'sdk.cpp.mustache'), 'r') as f: with open(os.path.join(TARGET, 'sdk.cpp'), 'w') as h: h.write(renderer.render(f.read(), { 'classes' : sortedClasses, 'enumerations' : sortedEnumerations, 'global_functions' : sortedGlobalFunctions, 'custom_functions' : sortedCustomFunctions, })) with open(os.path.join(ROOT, 'sdk.h.mustache'), 'r') as f: with open(os.path.join(TARGET, 'sdk.h'), 'w') as h: h.write(renderer.render(f.read(), { 'classes' : sortedClasses, })) with open(os.path.join(ROOT, 'PythonDocumentation.mustache'), 'r') as f: with open(os.path.join(TARGET, 'orthanc.pyi'), 'w') as h: h.write(renderer.render(f.read(), { 'classes' : sortedClasses, 'enumerations' : sortedEnumerations, 'global_functions' : sortedGlobalFunctions, 'custom_functions' : sortedCustomFunctions, })) countMethods = 0 for c in sortedClasses: countMethods += len(c['methods']) print('\nNumber of wrapped global functions: %d' % len(sortedGlobalFunctions + sortedCustomFunctions)) print('Number of wrapped methods: %d\n' % countMethods) print('Total number of wrapped global functions or methods: %d\n' % (len(sortedGlobalFunctions + sortedCustomFunctions) + countMethods))