# HG changeset patch # User bgo-osimis # Date 1550174322 -3600 # Node ID f58fe38c8c04de00f41f375a265d670a914282fb # Parent 38997ceb9bc634e54e4ce1bbf6e084eb1aa22f9a Ongoing work on codegen: ts and cpp enum and struct writing seem to be OK. No file write yet diff -r 38997ceb9bc6 -r f58fe38c8c04 Resources/CodeGeneration/stonegentool.py --- a/Resources/CodeGeneration/stonegentool.py Wed Feb 13 20:42:26 2019 +0100 +++ b/Resources/CodeGeneration/stonegentool.py Thu Feb 14 20:58:42 2019 +0100 @@ -2,7 +2,8 @@ import re import sys from typing import Dict, List, Set - +from io import StringIO +import time """ 1 2 3 4 5 6 7 @@ -12,36 +13,42 @@ import json import re -"""A set of utilities to perform JSON operation""" class JsonHelpers: + """A set of utilities to perform JSON operations""" + @staticmethod def removeCommentsFromJsonContent(string): """ - remove comments from a JSON file + Remove comments from a JSON file - Comments are not allowed in JSON but, i.e., Orthanc configuration files contains C++ like comments that we need to remove before python can parse the file - """ - string = re.sub(re.compile("/\*.*?\*/", re.DOTALL), "", - string) # remove all occurance streamed comments (/*COMMENT */) from string - string = re.sub(re.compile("//.*?\n"), "", - string) # remove all occurance singleline comments (//COMMENT\n ) from string + Comments are not allowed in JSON but, i.e., Orthanc configuration files + contains C++ like comments that we need to remove before python can + parse the file + """ + # remove all occurence streamed comments (/*COMMENT */) from string + string = re.sub(re.compile("/\*.*?\*/", re.DOTALL), "", string) + + # remove all occurence singleline comments (//COMMENT\n ) from string + string = re.sub(re.compile("//.*?\n"), "", string) + return string @staticmethod def loadJsonWithComments(path): """ - reads a JSON file that may contain C++ like comments - """ - with open(path, 'r') as fp: + Reads a JSON file that may contain C++ like comments + """ + with open(path, "r") as fp: fileContent = fp.read() fileContent = JsonHelpers.removeCommentsFromJsonContent(fileContent) return json.loads(fileContent) -def LoadSchema(filePath : str): +def LoadSchema(filePath: str): return JsonHelpers.loadJsonWithComments(filePath) + # class Type: # def __init__(self, canonicalTypeName:str, kind:str): # allowedTypeKinds = ["primitive","enum","struct","collection"] @@ -58,75 +65,85 @@ # def getDependentTypes(self) -> List[Type]: # return self.dependentTypes -def GetCppTypeNameFromCanonical(canonicalTypeName : str) -> str: - # C++: prefix map vector and string with std::map, std::vector and + +def GetCppTypeNameFromCanonical(canonicalTypeName: str) -> str: + # C++: prefix map vector and string with std::map, std::vector and # std::string # replace int32 by int32_t # replace float32 by float # replace float64 by double - retVal : str = canonicalTypeName.replace("map","std::map") - retVal : str = canonicalTypeName.replace("vector","std::vector") - retVal : str = canonicalTypeName.replace("int32","int32_t") - retVal : str = canonicalTypeName.replace("float32","float") - retVal : str = canonicalTypeName.replace("float64","double") + retVal = canonicalTypeName + retVal: str = retVal.replace("map", "std::map") + retVal: str = retVal.replace("vector", "std::vector") + retVal: str = retVal.replace("int32", "int32_t") + retVal: str = retVal.replace("float32", "float") + retVal: str = retVal.replace("float64", "double") return retVal -def GetTypeScriptTypeNameFromCanonical(canonicalTypeName : str) -> str: +def GetTypeScriptTypeNameFromCanonical(canonicalTypeName: str) -> str: # TS: replace vector with Array and map with Map # string remains string # replace int32 by number # replace float32 by number # replace float64 by number - retVal : str = canonicalTypeName.replace("map","Map") - retVal : str = canonicalTypeName.replace("vector","Array") - retVal : str = canonicalTypeName.replace("int32","number") - retVal : str = canonicalTypeName.replace("float32","number") - retVal : str = canonicalTypeName.replace("float64","number") - retVal : str = canonicalTypeName.replace("bool","boolean") + retVal = canonicalTypeName + retVal: str = retVal.replace("map", "Map") + retVal: str = retVal.replace("vector", "Array") + retVal: str = retVal.replace("int32", "number") + retVal: str = retVal.replace("float32", "number") + retVal: str = retVal.replace("float64", "number") + retVal: str = retVal.replace("bool", "boolean") return retVal + # class Schema: # def __init__(self, root_prefix : str, defined_types : List[Type]): # self.rootName : str = root_prefix # self.definedTypes : str = defined_types -def CheckTypeSchema(definedType : Dict) -> None: - allowedDefinedTypeKinds = ["enum","struct"] - if not 'name' in definedType: - raise Exception("type lacks the 'name' key") - name = definedType['name'] - if not 'kind' in definedType: - raise Exception(f"type {name} lacks the 'kind' key") - kind = definedType['kind'] - if not (kind in allowedDefinedTypeKinds): - raise Exception(f"type {name} : kind {kind} is not allowed. " + - f"It must be one of {allowedDefinedTypeKinds}") - - if not 'fields' in definedType: - raise Exception("type {name} lacks the 'fields' key") + +def CheckTypeSchema(definedType: Dict) -> None: + allowedDefinedTypeKinds = ["enum", "struct"] + if not "name" in definedType: + raise Exception("type lacks the 'name' key") + name = definedType["name"] + if not "kind" in definedType: + raise Exception(f"type {name} lacks the 'kind' key") + kind = definedType["kind"] + if not (kind in allowedDefinedTypeKinds): + raise Exception( + f"type {name} : kind {kind} is not allowed. " + + f"It must be one of {allowedDefinedTypeKinds}" + ) + + if not "fields" in definedType: + raise Exception("type {name} lacks the 'fields' key") - # generic check on all kinds of types - fields = definedType['fields'] - for field in fields: - fieldName = field['name'] - if not 'name' in field: - raise Exception("field in type {name} lacks the 'name' key") - - # fields in struct must have types - if kind == 'struct': + # generic check on all kinds of types + fields = definedType["fields"] for field in fields: - fieldName = field['name'] - if not 'type' in field: - raise Exception(f"field {fieldName} in type {name} " - + "lacks the 'type' key") + fieldName = field["name"] + if not "name" in field: + raise Exception("field in type {name} lacks the 'name' key") -def CheckSchemaSchema(schema : Dict) -> None: - if not 'root_name' in schema: - raise Exception("schema lacks the 'root_name' key") - if not 'types' in schema: - raise Exception("schema lacks the 'types' key") - for definedType in schema['types']: - CheckTypeSchema(definedType) + # fields in struct must have types + if kind == "struct": + for field in fields: + fieldName = field["name"] + if not "type" in field: + raise Exception( + f"field {fieldName} in type {name} " + "lacks the 'type' key" + ) + + +def CheckSchemaSchema(schema: Dict) -> None: + if not "root_name" in schema: + raise Exception("schema lacks the 'root_name' key") + if not "types" in schema: + raise Exception("schema lacks the 'types' key") + for definedType in schema["types"]: + CheckTypeSchema(definedType) + # def CreateAndCacheTypeObject(allTypes : Dict[str,Type], typeDict : Dict) -> None: # """This does not set the dependentTypes field""" @@ -137,28 +154,32 @@ # typeObject = Type(typeName, typeDict['kind']) # allTypes[typeName] = typeObject -def EatToken(sentence : str) -> (str,str): - """splits "A,B,C" into "A" and "B,C" where A, B and C are type names + +def EatToken(sentence: str) -> (str, str): + """splits "A,B,C" into "A" and "B,C" where A, B and C are type names (including templates) like "int32", "TotoTutu", or "map>,map>" """ - if sentence.count('<') != sentence.count('>'): - raise Exception(f"Error in the partial template type list {sentence}." - + " The number of < and > do not match!") + if sentence.count("<") != sentence.count(">"): + raise Exception( + f"Error in the partial template type list {sentence}." + + " The number of < and > do not match!" + ) - # the template level we're currently in - templateLevel = 0 - for i in range(len(sentence)): - if (sentence[i] == ",") and (templateLevel == 0): - return (sentence[0:i],sentence[i+1:]) - elif (sentence[i] == "<"): - templateLevel += 1 - elif (sentence[i] == ">"): - templateLevel -= 1 - return (sentence,"") + # the template level we're currently in + templateLevel = 0 + for i in range(len(sentence)): + if (sentence[i] == ",") and (templateLevel == 0): + return (sentence[0:i], sentence[i + 1 :]) + elif sentence[i] == "<": + templateLevel += 1 + elif sentence[i] == ">": + templateLevel -= 1 + return (sentence, "") -def SplitListOfTypes(typeName : str) -> List[str]: - """Splits something like + +def SplitListOfTypes(typeName: str) -> List[str]: + """Splits something like vector,int32,map> in: - vector @@ -167,36 +188,38 @@ This is not possible with a regex so """ - stillStuffToEat : bool = True - tokenList = [] - restOfString = typeName - while stillStuffToEat: - firstToken,restOfString = EatToken(restOfString) - tokenList.append(firstToken) - if restOfString == "": - stillStuffToEat = False - return tokenList + stillStuffToEat: bool = True + tokenList = [] + restOfString = typeName + while stillStuffToEat: + firstToken, restOfString = EatToken(restOfString) + tokenList.append(firstToken) + if restOfString == "": + stillStuffToEat = False + return tokenList -templateRegex = \ - re.compile(r"([a-zA-Z0-9_]*[a-zA-Z0-9_]*)<([a-zA-Z0-9_,:<>]+)>") + +templateRegex = re.compile(r"([a-zA-Z0-9_]*[a-zA-Z0-9_]*)<([a-zA-Z0-9_,:<>]+)>") -def ParseTemplateType(typeName) -> (bool,str,List[str]): - """ If the type is a template like "SOMETHING>>", then + +def ParseTemplateType(typeName) -> (bool, str, List[str]): + """ If the type is a template like "SOMETHING>>", then it returns (true,"SOMETHING","SOME>") otherwise it returns (false,"","")""" - - # let's remove all whitespace from the type - # split without argument uses any whitespace string as separator - # (space, tab, newline, return or formfeed) - typeName = "".join(typeName.split()) - matches = templateRegex.match(typeName) - if matches == None: - return (False,"","") - else: - # we need to split with the commas that are outside of the defined types - # simply splitting at commas won't work - listOfDependentTypes = SplitListOfTypes(matches.group(2)) - return (True,matches.group(1),listOfDependentTypes) + + # let's remove all whitespace from the type + # split without argument uses any whitespace string as separator + # (space, tab, newline, return or formfeed) + typeName = "".join(typeName.split()) + matches = templateRegex.match(typeName) + if matches == None: + return (False, "", "") + else: + # we need to split with the commas that are outside of the defined types + # simply splitting at commas won't work + listOfDependentTypes = SplitListOfTypes(matches.group(2)) + return (True, matches.group(1), listOfDependentTypes) + # def GetPrimitiveType(typeName : str) -> Type: # if typeName in allTypes: @@ -211,161 +234,222 @@ # allTypes[typeName] = typeObject # return typeObject + def ProcessTypeTree( - ancestors : List[str] - , genOrderQueue : List[str] - , structTypes : Dict[str,Dict], typeName : str) -> None: - if typeName in ancestors: - raise Exception(f"Cyclic dependency chain found: the last of {ancestors} " - + f"depends on {typeName} that is already in the list.") - - if not (typeName in genOrderQueue): - # if we reach this point, it means the type is NOT a struct or an enum. - # it is another (non directly user-defined) type that we must parse and - # create. Let's do it! - (isTemplate,_,dependentTypeNames) = ParseTemplateType(typeName) - if isTemplate: - for dependentTypeName in dependentTypeNames: - # childAncestors = ancestors.copy() NO TEMPLATE ANCESTOR!!! - # childAncestors.append(typeName) - ProcessTypeTree(ancestors, genOrderQueue, - structTypes, dependentTypeName) - else: - if typeName in structTypes: - ProcessStructType_DepthFirstRecursive(genOrderQueue, structTypes, - structTypes[typeName]) + ancestors: List[str], + genOrderQueue: List[str], + structTypes: Dict[str, Dict], + typeName: str, +) -> None: + if typeName in ancestors: + raise Exception( + f"Cyclic dependency chain found: the last of {ancestors} " + + f"depends on {typeName} that is already in the list." + ) + + if not (typeName in genOrderQueue): + # if we reach this point, it means the type is NOT a struct or an enum. + # it is another (non directly user-defined) type that we must parse and + # create. Let's do it! + (isTemplate, _, dependentTypeNames) = ParseTemplateType(typeName) + if isTemplate: + for dependentTypeName in dependentTypeNames: + # childAncestors = ancestors.copy() NO TEMPLATE ANCESTOR!!! + # childAncestors.append(typeName) + ProcessTypeTree( + ancestors, genOrderQueue, structTypes, dependentTypeName + ) + else: + if typeName in structTypes: + ProcessStructType_DepthFirstRecursive( + genOrderQueue, structTypes, structTypes[typeName] + ) + def ProcessStructType_DepthFirstRecursive( - genOrderQueue : List[str], structTypes : Dict[str,Dict] - , typeDict : Dict) -> None: - # let's generate the code according to the - typeName : str = typeDict['name'] - if typeDict['kind'] != 'struct': - raise Exception(f"Unexpected kind '{typeDict['kind']}' for " + - "type '{typeName}'") - typeFields : List[Dict] = typeDict['fields'] + genOrderQueue: List[str], structTypes: Dict[str, Dict], typeDict: Dict +) -> None: + # let's generate the code according to the + typeName: str = typeDict["name"] + if typeDict["kind"] != "struct": + raise Exception( + f"Unexpected kind '{typeDict['kind']}' for " + "type '{typeName}'" + ) + typeFields: List[Dict] = typeDict["fields"] for typeField in typeFields: - ancestors = [typeName] - ProcessTypeTree(ancestors, genOrderQueue - , structTypes, typeField['type']) + ancestors = [typeName] + ProcessTypeTree(ancestors, genOrderQueue, structTypes, typeField["type"]) # now we're pretty sure our dependencies have been processed, - # we can start marking our code for generation - genOrderQueue.add(typeName) - -def ProcessEnumerationType(definedType) -> (str,str): - print(f"About to process enumeration: {definedType['name']}") - tsText : str = """import blah + # we can start marking our code for generation (it might already have + # been done if someone referenced us earlier) + if not typeName in genOrderQueue: + genOrderQueue.append(typeName) - enum PROUT - { - value1 - value2 - }""" +def ProcessEnumerationType( + outputStreams: Dict[str, StringIO], typeDict) -> None: + print(f"About to process struct: {typeDict['name']}") + tsText : io.StringIO = StringIO() + cppText : io.StringIO = StringIO() + + tsText.write("enum %s\n" % typeDict['name']) + tsText.write("{\n") - cppText : str = """import blah + cppText.write("enum %s\n" % typeDict['name']) + cppText.write("{\n") + + for i in range(len(typeDict['fields'])): + field = typeDict['fields'][i] + name = field['name'] + + tsText.write(" %s" % name) + if i < len(typeDict['fields'])-1: + tsText.write(",") + tsText.write("\n") - enum PROUT - { - value1 - value2 - }""" + cppText.write(" %s" % name) + if i < len(typeDict['fields'])-1: + cppText.write(",") + cppText.write("\n") + + tsText.write("};\n\n") + cppText.write("};\n\n") - return (tsText,cppText) + outputStreams['ts'].write(tsText.getvalue()) + outputStreams['cpp'].write(cppText.getvalue()) + -def ProcessStructType(typeDict) -> (str,str): - print(f"About to process enumeration: {definedType['name']}") - tsText : str = """import blah +def ProcessStructType( + outputStreams: Dict[str, StringIO], typeDict) -> None: + print(f"About to process struct: {typeDict['name']}") + tsText : io.StringIO = StringIO() + cppText : io.StringIO = StringIO() + + tsText.write("class %s\n" % typeDict['name']) + tsText.write("{\n") - class PROUT - { - public value1 : Type1 - public value2 : Type2 - }""" - - cppText : str = """import blah + cppText.write("struct %s\n" % typeDict['name']) + cppText.write("{\n") - class PROUT - { - public: - Type1: value1 - Type2: value2 - }""" + for i in range(len(typeDict['fields'])): + field = typeDict['fields'][i] + name = field['name'] + tsType = GetTypeScriptTypeNameFromCanonical(field['type']) + tsText.write(" public %s %s;\n" % (tsType, name)) + cppType = GetCppTypeNameFromCanonical(field['type']) + cppText.write(" %s %s;\n" % (cppType, name)) + + tsText.write("};\n\n") + cppText.write("};\n\n") - return (tsText,cppText) + outputStreams['ts'].write(tsText.getvalue()) + outputStreams['cpp'].write(cppText.getvalue()) - +def WritePreambles(outputStreams: Dict[str, StringIO]) -> None: + outputStreams["cpp"].write("""// autogenerated by stonegentool on %s +#include +#include +#include +#include +""" % time.ctime()) -def ProcessSchema(schema : dict) -> None: - CheckSchemaSchema(schema) - rootName : str = schema['root_name'] - definedTypes : list = schema['types'] + outputStreams["ts"].write("""// autogenerated by stonegentool on %s +""" % time.ctime()) + +def ProcessSchema(schema: dict) -> (str, Dict[str, StringIO]): + CheckSchemaSchema(schema) + rootName: str = schema["root_name"] + definedTypes: list = schema["types"] - print(f"Processing schema. rootName = f{rootName}") - # this will be filled with the generation queue. That is, the type - # names in the order where they must be defined. - genOrderQueue : Set = set() + print(f"Processing schema. rootName = f{rootName}") + # this will be filled with the generation queue. That is, the type + # names in the order where they must be defined. + genOrderQueue: List = [] - # the struct names are mapped to their JSON dictionary - structTypes : Dict[str,Dict] = {} + # the struct names are mapped to their JSON dictionary + structTypes: Dict[str, Dict] = {} - # the order here is the generation order - for definedType in definedTypes: - if definedType['kind'] == 'enum': - ProcessEnumerationType(definedType) + outputStreams = {} + outputStreams["cpp"] = StringIO() + outputStreams["ts"] = StringIO() + + WritePreambles(outputStreams) + + # the order here is the generation order + for definedType in definedTypes: + if definedType["kind"] == "enum": + ProcessEnumerationType(outputStreams, definedType) - for definedType in definedTypes: - if definedType['kind'] == 'struct': - structTypes[definedType['name']] = definedType + for definedType in definedTypes: + if definedType["kind"] == "struct": + structTypes[definedType["name"]] = definedType - # the order here is NOT the generation order: the types - # will be processed according to their dependency graph - for definedType in definedTypes: - if definedType['kind'] == 'struct': - ProcessStructType_DepthFirstRecursive(genOrderQueue,structTypes, - definedType) + # the order here is NOT the generation order: the types + # will be processed according to their dependency graph + for definedType in definedTypes: + if definedType["kind"] == "struct": + ProcessStructType_DepthFirstRecursive( + genOrderQueue, structTypes, definedType + ) - for i in range(len(genOrderQueue)) - typeName = genOrderQueue[i] - typeDict = structTypes[typeName] - ProcessStructType(typeDict) + for i in range(len(genOrderQueue)): + typeName = genOrderQueue[i] + typeDict = structTypes[typeName] + ProcessStructType(outputStreams, typeDict) + + return (rootName, outputStreams) + + +if __name__ == "__main__": + import argparse -if __name__ == '__main__': - import argparse - parser = argparse.ArgumentParser( - usage = """stonegentool.py [-h] [-o OUT_DIR] [-v] input_schemas + parser = argparse.ArgumentParser( + usage="""stonegentool.py [-h] [-o OUT_DIR] [-v] input_schemas EXAMPLE: python command_gen.py -o "generated_files/" """ - + """ "mainSchema.json,App Specific Commands.json" """) - parser.add_argument("input_schema", type=str, - help = "path to the schema file") - parser.add_argument("-o", "--out_dir", type=str, default=".", - help = """path of the directory where the files + + """ "mainSchema.json,App Specific Commands.json" """ + ) + parser.add_argument("input_schema", type=str, help="path to the schema file") + parser.add_argument( + "-o", + "--out_dir", + type=str, + default=".", + help="""path of the directory where the files will be generated. Default is current - working folder""") - parser.add_argument("-v", "--verbosity", action="count", default=0, - help = """increase output verbosity (0 == errors + working folder""", + ) + parser.add_argument( + "-v", + "--verbosity", + action="count", + default=0, + help="""increase output verbosity (0 == errors only, 1 == some verbosity, 2 == nerd - mode""") + mode""", + ) - args = parser.parse_args() - inputSchemaFilename = args.input_schema - outDir = args.out_dir + args = parser.parse_args() + inputSchemaFilename = args.input_schema + outDir = args.out_dir - print("input schema = " + str(inputSchemaFilename)) - print("out dir = " + str(outDir)) + print("input schema = " + str(inputSchemaFilename)) + print("out dir = " + str(outDir)) - ProcessSchema(LoadSchema(inputSchemaFilename)) - + (rootName, outputStreams) = ProcessSchema(LoadSchema(inputSchemaFilename)) + WriteStreamsToFiles(rootName, outputStreams) ################### ## ATTIC ## ################### -# this works +# this works if False: - obj = json.loads("""{ + obj = json.loads( + """{ "firstName": "Alice", "lastName": "Hall", "age": 35 - }""") - print(obj) + }""" + ) + print(obj) + diff -r 38997ceb9bc6 -r f58fe38c8c04 Resources/CodeGeneration/stonegentool_test.py --- a/Resources/CodeGeneration/stonegentool_test.py Wed Feb 13 20:42:26 2019 +0100 +++ b/Resources/CodeGeneration/stonegentool_test.py Thu Feb 14 20:58:42 2019 +0100 @@ -89,11 +89,18 @@ def test_GenOrderQueue(self): fn = os.path.join(os.path.dirname(__file__), 'test', 'test1.jsonc') obj = LoadSchema(fn) - genOrderQueue,structTypes = ProcessSchema(obj) - print(f"genOrderQueue = {genOrderQueue}") - print("") + genOrderQueue, outputStreams = ProcessSchema(obj) + self.assertEqual(3,len(genOrderQueue)) + self.assertEqual("A",genOrderQueue[0]) + self.assertEqual("B",genOrderQueue[0]) + self.assertEqual("C",genOrderQueue[0]) + #print(f"genOrderQueue = {genOrderQueue}") + #print("") def test_GenerateTypeScriptEnumeration(self): + fn = os.path.join(os.path.dirname(__file__), 'test', 'test1.jsonc') + obj = LoadSchema(fn) + (rootName,outputStreams) = ProcessSchema(obj) pass def test_GenerateCppEnumeration(self):