# Copyright 2008 Develer S.r.l. (http://www.develer.com/)
# All rights reserved.
#
-# $Id:$
+# $Id$
#
# Author: Lorenzo Berni <duplo@develer.com>
#
import fnmatch
import glob
import re
-import collections
+import shutil
+# Use custom copytree function
+import copytree
+import pickle
import const
+from plugins import codelite
+import DefineException
def isBertosDir(directory):
return os.path.exists(directory + "/VERSION")
def bertosVersion(directory):
return open(directory + "/VERSION").readline().strip()
-def createBertosProject(directory):
+def createBertosProject(project_info):
+ directory = project_info.info("PROJECT_PATH")
+ sources_dir = project_info.info("SOURCES_PATH")
if not os.path.isdir(directory):
os.mkdir(directory)
- open(directory + "/project.bertos", "w")
+ f = open(directory + "/project.bertos", "w")
+ f.write(pickle.dumps(project_info))
+ f.close()
+ # Destination source dir
+ srcdir = directory + "/bertos"
+ shutil.rmtree(srcdir, True)
+ copytree.copytree(sources_dir + "/bertos", srcdir, ignore_list=const.IGNORE_LIST)
+ # Destination makefile
+ makefile = directory + "/Makefile"
+ if os.path.exists(makefile):
+ os.remove(makefile)
+ makefile = open("mktemplates/Makefile").read()
+ makefile = makefileGenerator(project_info, makefile)
+ open(directory + "/Makefile", "w").write(makefile)
+ # Destination project dir
+ prjdir = directory + "/" + os.path.basename(directory)
+ shutil.rmtree(prjdir, True)
+ os.mkdir(prjdir)
+ # Destination hw files
+ hwdir = prjdir + "/hw"
+ shutil.rmtree(hwdir, True)
+ os.mkdir(hwdir)
+ # Copy all the hw files
+ for module, information in project_info.info("MODULES").items():
+ for hwfile in information["hw"]:
+ string = open(sources_dir + "/" + hwfile, "r").read()
+ open(hwdir + "/" + os.path.basename(hwfile), "w").write(string)
+ # Destination configurations files
+ cfgdir = prjdir + "/cfg"
+ shutil.rmtree(cfgdir, True)
+ os.mkdir(cfgdir)
+ # Set to 1 the autoenabled for enabled modules
+ for module, information in project_info.info("MODULES").items():
+ if information["enabled"] and "configuration" in information and information["configuration"] != "":
+ configurations = project_info.info("CONFIGURATIONS")
+ configuration = configurations[information["configuration"]]
+ for start, parameter in configuration["paramlist"]:
+ if "type" in configuration[parameter] and configuration[parameter]["type"] == "autoenabled":
+ configuration[parameter]["value"] = "1"
+ project_info.setInfo("CONFIGURATIONS", configurations)
+ # Copy all the configuration files
+ for configuration, information in project_info.info("CONFIGURATIONS").items():
+ string = open(sources_dir + "/" + configuration, "r").read()
+ for start, parameter in information["paramlist"]:
+ infos = information[parameter]
+ value = infos["value"]
+ if "unsigned" in infos["informations"] and infos["informations"]["unsigned"]:
+ value += "U"
+ if "long" in infos["informations"] and infos["informations"]["long"]:
+ value += "L"
+ string = sub(string, parameter, value)
+ f = open(cfgdir + "/" + os.path.basename(configuration), "w")
+ f.write(string)
+ f.close()
+ # Destinatio mk file
+ makefile = open("mktemplates/template.mk", "r").read()
+ makefile = mkGenerator(project_info, makefile)
+ open(prjdir + "/" + os.path.basename(prjdir) + ".mk", "w").write(makefile)
+ # Destination main.c file
+ main = open("srctemplates/main.c", "r").read()
+ open(prjdir + "/main.c", "w").write(main)
+ # Codelite project files
+ if "codelite" in project_info.info("OUTPUT"):
+ codelite.createProject(project_info)
+
+def mkGenerator(project_info, makefile):
+ """
+ Generates the mk file for the current project.
+ """
+ mk_data = {}
+ mk_data["$pname"] = os.path.basename(project_info.info("PROJECT_PATH"))
+ mk_data["$cpuflag"] = project_info.info("CPU_INFOS")["CPU_FLAG_NAME"]
+ mk_data["$cpuname"] = project_info.info("CPU_INFOS")["CORE_CPU"]
+ mk_data["$cpuclockfreq"] = project_info.info("SELECTED_FREQ")
+ mk_data["$cflags"] = " ".join(project_info.info("CPU_INFOS")["C_FLAGS"])
+ mk_data["$ldflags"] = " ".join(project_info.info("CPU_INFOS")["LD_FLAGS"])
+ mk_data["$cppflags"] = " ".join(project_info.info("CPU_INFOS")["CPP_FLAGS"])
+ mk_data["$cppaflags"] = " ".join(project_info.info("CPU_INFOS")["CPPA_FLAGS"])
+ mk_data["$cxxflags"] = " ".join(project_info.info("CPU_INFOS")["CXX_FLAGS"])
+ mk_data["$asflags"] = " ".join(project_info.info("CPU_INFOS")["AS_FLAGS"])
+ mk_data["$arflags"] = " ".join(project_info.info("CPU_INFOS")["AR_FLAGS"])
+ mk_data["$csrc"], mk_data["$pcsrc"], mk_data["$cppasrc"], mk_data["$cxxsrc"], mk_data["$asrc"], mk_data["$constants"] = csrcGenerator(project_info)
+ mk_data["$prefix"] = replaceSeparators(project_info.info("TOOLCHAIN")["path"].split("gcc")[0])
+ mk_data["$suffix"] = replaceSeparators(project_info.info("TOOLCHAIN")["path"].split("gcc")[1])
+ mk_data["$main"] = os.path.basename(project_info.info("PROJECT_PATH")) + "/main.c"
+ for key in mk_data:
+ while makefile.find(key) != -1:
+ makefile = makefile.replace(key, mk_data[key])
+ return makefile
+
+def makefileGenerator(project_info, makefile):
+ """
+ Generate the Makefile for the current project.
+ """
+ # TODO write a general function that works for both the mk file and the Makefile
+ while makefile.find("project_name") != -1:
+ makefile = makefile.replace("project_name", os.path.basename(project_info.info("PROJECT_PATH")))
+ return makefile
+
+def csrcGenerator(project_info):
+ modules = project_info.info("MODULES")
+ files = project_info.info("FILES")
+ if "harvard" in project_info.info("CPU_INFOS")["CPU_TAGS"]:
+ harvard = True
+ else:
+ harvard = False
+ # file to be included in CSRC variable
+ csrc = []
+ # file to be included in PCSRC variable
+ pcsrc = []
+ # files to be included in CPPASRC variable
+ cppasrc = []
+ # files to be included in CXXSRC variable
+ cxxsrc = []
+ # files to be included in ASRC variable
+ asrc = []
+ # constants to be included at the beginning of the makefile
+ constants = {}
+ for module, information in modules.items():
+ module_files = set([])
+ dependency_files = set([])
+ # assembly sources
+ asm_files = set([])
+ hwdir = os.path.basename(project_info.info("PROJECT_PATH")) + "/hw"
+ if information["enabled"]:
+ if "constants" in information:
+ constants.update(information["constants"])
+ cfiles, sfiles = findModuleFiles(module, project_info)
+ module_files |= set(cfiles)
+ asm_files |= set(sfiles)
+ for file in information["hw"]:
+ if file.endswith(".c"):
+ module_files |= set([hwdir + "/" + os.path.basename(file)])
+ for file_dependency in information["depends"]:
+ if file_dependency in files:
+ dependencyCFiles, dependencySFiles = findModuleFiles(file_dependency, project_info)
+ dependency_files |= set(dependencyCFiles)
+ asm_files |= set(dependencySFiles)
+ for file in module_files:
+ if not harvard or information.get("harvard", "both") == "both":
+ csrc.append(file)
+ if harvard and "harvard" in information:
+ pcsrc.append(file)
+ for file in dependency_files:
+ csrc.append(file)
+ for file in project_info.info("CPU_INFOS")["C_SRC"]:
+ csrc.append(file)
+ for file in project_info.info("CPU_INFOS")["PC_SRC"]:
+ pcsrc.append(file)
+ for file in asm_files:
+ cppasrc.append(file)
+ for file in project_info.info("CPU_INFOS")["CPPA_SRC"]:
+ cppasrc.append(file)
+ for file in project_info.info("CPU_INFOS")["CXX_SRC"]:
+ cxxsrc.append(file)
+ for file in project_info.info("CPU_INFOS")["ASRC"]:
+ asrc.append(file)
+ csrc = " \\\n\t".join(csrc) + " \\"
+ pcsrc = " \\\n\t".join(pcsrc) + " \\"
+ cppasrc = " \\\n\t".join(cppasrc) + " \\"
+ cxxsrc = " \\\n\t".join(cxxsrc) + " \\"
+ asrc = " \\\n\t".join(asrc) + " \\"
+ constants = "\n".join([os.path.basename(project_info.info("PROJECT_PATH")) + "_" + key + " = " + str(value) for key, value in constants.items()])
+ return csrc, pcsrc, cppasrc, cxxsrc, asrc, constants
+
+def findModuleFiles(module, project_info):
+ # Find the files related to the selected module
+ cfiles = []
+ sfiles = []
+ # .c files related to the module and the cpu architecture
+ for filename, path in findDefinitions(module + ".c", project_info) + \
+ findDefinitions(module + "_" + project_info.info("CPU_INFOS")["TOOLCHAIN"] + ".c", project_info):
+ path = path.replace(project_info.info("SOURCES_PATH") + os.sep, "")
+ path = replaceSeparators(path)
+ cfiles.append(path + "/" + filename)
+ # .s files related to the module and the cpu architecture
+ for filename, path in findDefinitions(module + ".s", project_info) + \
+ findDefinitions(module + "_" + project_info.info("CPU_INFOS")["TOOLCHAIN"] + ".s", project_info) + \
+ findDefinitions(module + ".S", project_info) + \
+ findDefinitions(module + "_" + project_info.info("CPU_INFOS")["TOOLCHAIN"] + ".S", project_info):
+ path = path.replace(project_info.info("SOURCES_PATH") + os.sep, "")
+ path = replaceSeparators(path)
+ sfiles.append(path + "/" + filename)
+ # .c and .s files related to the module and the cpu tags
+ for tag in project_info.info("CPU_INFOS")["CPU_TAGS"]:
+ for filename, path in findDefinitions(module + "_" + tag + ".c", project_info):
+ path = path.replace(project_info.info("SOURCES_PATH") + os.sep, "")
+ if os.sep != "/":
+ path = replaceSeparators(path)
+ cfiles.append(path + "/" + filename)
+ for filename, path in findDefinitions(module + "_" + tag + ".s", project_info) + \
+ findDefinitions(module + "_" + tag + ".S", project_info):
+ path = path.replace(project_info.info("SOURCES_PATH") + os.sep, "")
+ path = replaceSeparators(path)
+ sfiles.append(path + "/" + filename)
+ return cfiles, sfiles
+
+def replaceSeparators(path):
+ """
+ Replace the separators in the given path with unix standard separator.
+ """
+ if os.sep != "/":
+ while path.find(os.sep) != -1:
+ path = path.replace(os.sep, "/")
+ return path
def getSystemPath():
path = os.environ["PATH"]
path = path.split(":")
return path
-def findToolchains(pathList):
+def findToolchains(path_list):
toolchains = []
- for element in pathList:
+ for element in path_list:
for toolchain in glob.glob(element+ "/" + const.GCC_NAME):
- if not os.path.islink(toolchain):
- toolchains.append(toolchain)
+ toolchains.append(toolchain)
return list(set(toolchains))
def getToolchainInfo(output):
- info = collections.defaultdict(unicode)
+ info = {}
expr = re.compile("Target: .*")
target = expr.findall(output)
if len(target) == 1:
info["thread"] = thread[0].split("Thread model: ")[1]
return info
-def findDefinitions(ftype, path):
- L = os.walk(path)
+def loadSourceTree(project):
+ fileList = [f for f in os.walk(project.info("SOURCES_PATH"))]
+ project.setInfo("FILE_LIST", fileList)
+
+def findDefinitions(ftype, project):
+ L = project.info("FILE_LIST")
+ definitions = []
for element in L:
for filename in element[2]:
if fnmatch.fnmatch(filename, ftype):
- yield (filename, element[0])
+ definitions.append((filename, element[0]))
+ return definitions
-def loadCpuInfos(path):
+def loadCpuInfos(project):
cpuInfos = []
- for definition in findDefinitions(const.CPU_DEFINITION, path):
+ for definition in findDefinitions(const.CPU_DEFINITION, project):
cpuInfos.append(getInfos(definition))
return cpuInfos
+def getTagSet(cpu_info):
+ tag_set = set([])
+ for cpu in cpu_info:
+ tag_set |= set([cpu["CPU_NAME"]])
+ tag_set |= set(cpu["CPU_TAGS"])
+ tag_set |= set([cpu["CORE_CPU"]])
+ tag_set |= set([cpu["TOOLCHAIN"]])
+ return tag_set
+
+
def getInfos(definition):
D = {}
D.update(const.CPU_DEF)
D["DEFINITION_PATH"] = definition[1] + "/" + definition[0]
del D["include"]
return D
+
+def getCommentList(string):
+ comment_list = re.findall(r"/\*{2}\s*([^*]*\*(?:[^/*][^*]*\*+)*)/", string)
+ comment_list = [re.findall(r"^\s*\* *(.*?)$", comment, re.MULTILINE) for comment in comment_list]
+ return comment_list
+
+def loadModuleDefinition(first_comment):
+ to_be_parsed = False
+ module_definition = {}
+ for num, line in enumerate(first_comment):
+ index = line.find("$WIZ$")
+ if index != -1:
+ to_be_parsed = True
+ try:
+ exec line[index + len("$WIZ$ "):] in {}, module_definition
+ except:
+ raise ParseError(num, line[index:])
+ elif line.find("\\brief") != -1:
+ module_definition["module_description"] = line[line.find("\\brief") + len("\\brief "):]
+ module_dict = {}
+ if "module_name" in module_definition:
+ module_name = module_definition[const.MODULE_DEFINITION["module_name"]]
+ del module_definition[const.MODULE_DEFINITION["module_name"]]
+ module_dict[module_name] = {}
+ if const.MODULE_DEFINITION["module_depends"] in module_definition:
+ depends = module_definition[const.MODULE_DEFINITION["module_depends"]]
+ del module_definition[const.MODULE_DEFINITION["module_depends"]]
+ if type(depends) == str:
+ depends = (depends,)
+ module_dict[module_name]["depends"] = depends
+ else:
+ module_dict[module_name]["depends"] = ()
+ if const.MODULE_DEFINITION["module_configuration"] in module_definition:
+ module_dict[module_name]["configuration"] = module_definition[const.MODULE_DEFINITION["module_configuration"]]
+ del module_definition[const.MODULE_DEFINITION["module_configuration"]]
+ else:
+ module_dict[module_name]["configuration"] = ""
+ if "module_description" in module_definition:
+ module_dict[module_name]["description"] = module_definition["module_description"]
+ del module_definition["module_description"]
+ if const.MODULE_DEFINITION["module_harvard"] in module_definition:
+ harvard = module_definition[const.MODULE_DEFINITION["module_harvard"]]
+ if harvard == "both" or harvard == "pgm_memory":
+ module_dict[module_name]["harvard"] = harvard
+ del module_definition[const.MODULE_DEFINITION["module_harvard"]]
+ if const.MODULE_DEFINITION["module_hw"] in module_definition:
+ hw = module_definition[const.MODULE_DEFINITION["module_hw"]]
+ del module_definition[const.MODULE_DEFINITION["module_hw"]]
+ if type(hw) == str:
+ hw = (hw, )
+ module_dict[module_name]["hw"] = hw
+ else:
+ module_dict[module_name]["hw"] = ()
+ if const.MODULE_DEFINITION["module_supports"] in module_definition:
+ supports = module_definition[const.MODULE_DEFINITION["module_supports"]]
+ del module_definition[const.MODULE_DEFINITION["module_supports"]]
+ module_dict[module_name]["supports"] = supports
+ module_dict[module_name]["constants"] = module_definition
+ module_dict[module_name]["enabled"] = False
+ return to_be_parsed, module_dict
+
+def isSupported(project, module=None, property_id=None):
+ if not module and property_id:
+ item = project.info("CONFIGURATIONS")[property_id[0]][property_id[1]]["informations"]
+ else:
+ item = project.info("MODULES")[module]
+ tag_dict = project.info("ALL_CPU_TAGS")
+ if "supports" in item:
+ support_string = item["supports"]
+ supported = {}
+ try:
+ exec "supported = " + support_string in tag_dict, supported
+ except:
+ raise SupportedException(support_string)
+ return supported["supported"]
+ else:
+ return True
+
+def loadDefineLists(comment_list):
+ define_list = {}
+ for comment in comment_list:
+ for num, line in enumerate(comment):
+ index = line.find("$WIZ$")
+ if index != -1:
+ try:
+ exec line[index + len("$WIZ$ "):] in {}, define_list
+ except:
+ raise ParseError(num, line[index:])
+ for key, value in define_list.items():
+ if type(value) == str:
+ define_list[key] = (value,)
+ return define_list
+
+def getDescriptionInformations(comment):
+ """
+ Take the doxygen comment and strip the wizard informations, returning the tuple
+ (comment, wizard_information)
+ """
+ brief = ""
+ description = ""
+ information = {}
+ for num, line in enumerate(comment):
+ index = line.find("$WIZ$")
+ if index != -1:
+ if len(brief) == 0:
+ brief += line[:index].strip()
+ else:
+ description += " " + line[:index]
+ try:
+ exec line[index + len("$WIZ$ "):] in {}, information
+ except:
+ raise ParseError(num, line[index:])
+ else:
+ if len(brief) == 0:
+ brief += line.strip()
+ else:
+ description += " " + line
+ description = description.strip()
+ return brief.strip(), description.strip(), information
+
+def getDefinitionBlocks(text):
+ """
+ Take a text and return a list of tuple (description, name-value).
+ """
+ block = []
+ block_tmp = re.finditer(r"/\*{2}\s*([^*]*\*(?:[^/*][^*]*\*+)*)/\s*#define\s+((?:[^/]*?/?)+)\s*?(?:/{2,3}[^<].*?)?$", text, re.MULTILINE)
+ for match in block_tmp:
+ # Only the first element is needed
+ comment = match.group(1)
+ define = match.group(2)
+ start = match.start()
+ block.append(([re.findall(r"^\s*\* *(.*?)$", line, re.MULTILINE)[0] for line in comment.splitlines()], define, start))
+ for match in re.finditer(r"/{3}\s*([^<].*?)\s*#define\s+((?:[^/]*?/?)+)\s*?(?:/{2,3}[^<].*?)?$", text, re.MULTILINE):
+ comment = match.group(1)
+ define = match.group(2)
+ start = match.start()
+ block.append(([comment], define, start))
+ for match in re.finditer(r"#define\s*(.*?)\s*/{3}<\s*(.+?)\s*?(?:/{2,3}[^<].*?)?$", text, re.MULTILINE):
+ comment = match.group(2)
+ define = match.group(1)
+ start = match.start()
+ block.append(([comment], define, start))
+ return block
+
+def loadModuleData(project):
+ module_info_dict = {}
+ list_info_dict = {}
+ configuration_info_dict = {}
+ file_dict = {}
+ for filename, path in findDefinitions("*.h", project) + findDefinitions("*.c", project) + findDefinitions("*.s", project) + findDefinitions("*.S", project):
+ comment_list = getCommentList(open(path + "/" + filename, "r").read())
+ if len(comment_list) > 0:
+ module_info = {}
+ configuration_info = {}
+ try:
+ to_be_parsed, module_dict = loadModuleDefinition(comment_list[0])
+ except ParseError, err:
+ raise DefineException.ModuleDefineException(path, err.line_number, err.line)
+ for module, information in module_dict.items():
+ if "depends" not in information:
+ information["depends"] = ()
+ information["depends"] += (filename.split(".")[0],)
+ information["category"] = os.path.basename(path)
+ if "configuration" in information and len(information["configuration"]):
+ configuration = module_dict[module]["configuration"]
+ try:
+ configuration_info[configuration] = loadConfigurationInfos(project.info("SOURCES_PATH") + "/" + configuration)
+ except ParseError, err:
+ raise DefineException.ConfigurationDefineException(project.info("SOURCES_PATH") + "/" + configuration, err.line_number, err.line)
+ module_info_dict.update(module_dict)
+ configuration_info_dict.update(configuration_info)
+ if to_be_parsed:
+ try:
+ list_dict = loadDefineLists(comment_list[1:])
+ list_info_dict.update(list_dict)
+ except ParseError, err:
+ raise DefineException.EnumDefineException(path, err.line_number, err.line)
+ for filename, path in findDefinitions("*_" + project.info("CPU_INFOS")["TOOLCHAIN"] + ".h", project):
+ comment_list = getCommentList(open(path + "/" + filename, "r").read())
+ list_info_dict.update(loadDefineLists(comment_list))
+ for tag in project.info("CPU_INFOS")["CPU_TAGS"]:
+ for filename, path in findDefinitions("*_" + tag + ".h", project):
+ comment_list = getCommentList(open(path + "/" + filename, "r").read())
+ list_info_dict.update(loadDefineLists(comment_list))
+ project.setInfo("MODULES", module_info_dict)
+ project.setInfo("LISTS", list_info_dict)
+ project.setInfo("CONFIGURATIONS", configuration_info_dict)
+ project.setInfo("FILES", file_dict)
+
+def formatParamNameValue(text):
+ """
+ Take the given string and return a tuple with the name of the parameter in the first position
+ and the value in the second.
+ """
+ block = re.findall("\s*([^\s]+)\s*(.+?)\s*$", text, re.MULTILINE)
+ return block[0]
+
+def loadConfigurationInfos(path):
+ """
+ Return the module configurations found in the given file as a dict with the
+ parameter name as key and a dict containig the fields above as value:
+ "value": the value of the parameter
+ "description": the description of the parameter
+ "informations": a dict containig optional informations:
+ "type": "int" | "boolean" | "enum"
+ "min": the minimum value for integer parameters
+ "max": the maximum value for integer parameters
+ "long": boolean indicating if the num is a long
+ "unsigned": boolean indicating if the num is an unsigned
+ "value_list": the name of the enum for enum parameters
+ """
+ configuration_infos = {}
+ configuration_infos["paramlist"] = []
+ for comment, define, start in getDefinitionBlocks(open(path, "r").read()):
+ name, value = formatParamNameValue(define)
+ brief, description, informations = getDescriptionInformations(comment)
+ configuration_infos["paramlist"].append((start, name))
+ configuration_infos[name] = {}
+ configuration_infos[name]["value"] = value
+ configuration_infos[name]["informations"] = informations
+ if not "type" in configuration_infos[name]["informations"]:
+ configuration_infos[name]["informations"]["type"] = findParameterType(configuration_infos[name])
+ if ("type" in configuration_infos[name]["informations"] and
+ configuration_infos[name]["informations"]["type"] == "int" and
+ configuration_infos[name]["value"].find("L") != -1):
+ configuration_infos[name]["informations"]["long"] = True
+ configuration_infos[name]["value"] = configuration_infos[name]["value"].replace("L", "")
+ if ("type" in configuration_infos[name]["informations"] and
+ configuration_infos[name]["informations"]["type"] == "int" and
+ configuration_infos[name]["value"].find("U") != -1):
+ configuration_infos[name]["informations"]["unsigned"] = True
+ configuration_infos[name]["value"] = configuration_infos[name]["value"].replace("U", "")
+ configuration_infos[name]["description"] = description
+ configuration_infos[name]["brief"] = brief
+ return configuration_infos
+
+def findParameterType(parameter):
+ if "value_list" in parameter["informations"]:
+ return "enum"
+ if "min" in parameter["informations"] or "max" in parameter["informations"] or re.match(r"^\d+U?L?$", parameter["value"]) != None:
+ return "int"
+
+def sub(string, parameter, value):
+ """
+ Substitute the given value at the given parameter define in the given string
+ """
+ return re.sub(r"(?P<define>#define\s+" + parameter + r"\s+)([^\s]+)", r"\g<define>" + value, string)
+
+def isInt(informations):
+ """
+ Return True if the value is a simple int.
+ """
+ if ("long" not in informatios or not informations["long"]) and ("unsigned" not in informations or informations["unsigned"]):
+ return True
+ else:
+ return False
+
+def isLong(informations):
+ """
+ Return True if the value is a long.
+ """
+ if "long" in informations and informations["long"] and "unsigned" not in informations:
+ return True
+ else:
+ return False
+
+def isUnsigned(informations):
+ """
+ Return True if the value is an unsigned.
+ """
+ if "unsigned" in informations and informations["unsigned"] and "long" not in informations:
+ return True
+ else:
+ return False
+
+def isUnsignedLong(informations):
+ """
+ Return True if the value is an unsigned long.
+ """
+ if "unsigned" in informations and "long" in informations and informations["unsigned"] and informations["long"]:
+ return True
+ else:
+ return False
+
+class ParseError(Exception):
+ def __init__(self, line_number, line):
+ Exception.__init__(self)
+ self.line_number = line_number
+ self.line = line
+
+class SupportedException(Exception):
+ def __init__(self, support_string):
+ Exception.__init__(self)
+ self.support_string = support_string
\ No newline at end of file