#!/usr/bin/env python3 # ScintillaAPIFacer.py - regenerate the ScintillaTypes.h, and ScintillaMessages.h # from the Scintilla.iface interface definition file. # Implemented 2019 by Neil Hodgson neilh@scintilla.org # Requires Python 3.6 or later import pathlib import Face import FileGenerator import HFacer namespace = "Scintilla::" typeAliases = { # Convert iface types to C++ types # bool and void are OK as is "cells": "const char *", "colour": "Colour", "colouralpha": "ColourAlpha", "findtext": "void *", "findtextfull": "void *", "formatrange": "void *", "formatrangefull": "void *", "int": "int", "keymod": "int", "line": "Line", "pointer": "void *", "position": "Position", "string": "const char *", "stringresult": "char *", "textrange": "void *", "textrangefull": "void *", } basicTypes = [ "bool", "char *", "Colour", "ColourAlpha", "const char *", "int", "intptr_t", "Line", "Position", "void", "void *", ] deadValues = [ "INDIC_CONTAINER", "INDIC_IME", "INDIC_IME_MAX", "INDIC_MAX", ] def ActualTypeName(type, identifier=None): if type in typeAliases: return typeAliases[type] else: return type def IsEnumeration(s): if s in ["Position", "Line", "Colour", "ColourAlpha"]: return False return s[:1].isupper() def JoinTypeAndIdentifier(type, identifier): # Add a space to separate type from identifier unless type is pointer if type.endswith("*"): return type + identifier else: return type + " " + identifier def ParametersArgsCallname(v): parameters = "" args = "" callName = "Call" param1TypeBase = v["Param1Type"] param1Name = v["Param1Name"] param1Type = ActualTypeName(param1TypeBase, param1Name) param1Arg = "" if param1Type: castName = param1Name if param1Type.endswith("*"): castName = "reinterpret_cast(" + param1Name + ")" elif param1Type not in basicTypes: castName = "static_cast(" + param1Name + ")" if IsEnumeration(param1TypeBase): param1Type = namespace + param1Type param1Arg = JoinTypeAndIdentifier(param1Type, param1Name) parameters = param1Arg args = castName param2TypeBase = v["Param2Type"] param2Name = v["Param2Name"] param2Type = ActualTypeName(param2TypeBase, param2Name) param2Arg = "" if param2Type: castName = param2Name if param2Type.endswith("*"): if param2Type == "const char *": callName = "CallString" else: callName = "CallPointer" elif param2Type not in basicTypes: castName = "static_cast(" + param2Name + ")" if IsEnumeration(param2TypeBase): param2Type = namespace + param2Type param2Arg = JoinTypeAndIdentifier(param2Type, param2Name) if param1Arg: parameters = parameters + ", " parameters = parameters + param2Arg if not args: args = args + "0" if args: args = args + ", " args = args + castName if args: args = ", " + args return (parameters, args, callName) def ParametersExceptLast(parameters): if "," in parameters: return parameters[:parameters.rfind(",")] else: return "" def HMessages(f): out = ["enum class Message {"] for name in f.order: v = f.features[name] if v["Category"] != "Deprecated": if v["FeatureType"] in ["fun", "get", "set"]: out.append("\t" + name + " = " + v["Value"] + ",") out.append("};") return out def HEnumerations(f): out = [] for name in f.order: v = f.features[name] if v["Category"] != "Deprecated": # Only want non-deprecated enumerations and lexers are not part of Scintilla API if v["FeatureType"] in ["enu"] and name != "Lexer": out.append("") prefixes = v["Value"].split() #out.append("enum class " + name + " {" + " // " + ",".join(prefixes)) out.append("enum class " + name + " {") for valueName in f.order: prefixMatched = "" for p in prefixes: if valueName.startswith(p) and valueName not in deadValues: prefixMatched = p if prefixMatched: vEnum = f.features[valueName] valueNameNoPrefix = "" if valueName in f.aliases: valueNameNoPrefix = f.aliases[valueName] else: valueNameNoPrefix = valueName[len(prefixMatched):] if not valueNameNoPrefix: # Removed whole name valueNameNoPrefix = valueName if valueNameNoPrefix.startswith("SC_"): valueNameNoPrefix = valueNameNoPrefix[len("SC_"):] pascalName = Face.PascalCase(valueNameNoPrefix) out.append("\t" + pascalName + " = " + vEnum["Value"] + ",") out.append("};") out.append("") out.append("enum class Notification {") for name in f.order: v = f.features[name] if v["Category"] != "Deprecated": if v["FeatureType"] in ["evt"]: out.append("\t" + name + " = " + v["Value"] + ",") out.append("};") return out def HConstants(f): # Constants not in an eumeration out = [] allEnumPrefixes = [ "SCE_", # Lexical styles "SCI_", # Message number allocation "SCEN_", # Notifications sent with WM_COMMAND ] for _n, v in f.features.items(): if v["Category"] != "Deprecated": # Only want non-deprecated enumerations and lexers are not part of Scintilla API if v["FeatureType"] in ["enu"]: allEnumPrefixes.extend(v["Value"].split()) for name in f.order: v = f.features[name] if v["Category"] != "Deprecated": # Only want non-deprecated enumerations and lexers are not part of Scintilla API if v["FeatureType"] in ["val"]: hasPrefix = False for prefix in allEnumPrefixes: if name.startswith(prefix): hasPrefix = True if not hasPrefix: if name.startswith("SC_"): name = name[3:] type = "int" if name == "INVALID_POSITION": type = "Position" out.append("constexpr " + type + " " + Face.PascalCase(name) + " = " + v["Value"] + ";") return out def HMethods(f): out = [] for name in f.order: v = f.features[name] if v["Category"] != "Deprecated": if v["FeatureType"] in ["fun", "get", "set"]: if v["FeatureType"] == "get" and name.startswith("Get"): name = name[len("Get"):] retType = ActualTypeName(v["ReturnType"]) if IsEnumeration(retType): retType = namespace + retType parameters, args, callName = ParametersArgsCallname(v) out.append("\t" + JoinTypeAndIdentifier(retType, name) + "(" + parameters + ");") # Extra method for stringresult that returns std::string if v["Param2Type"] == "stringresult": out.append("\t" + JoinTypeAndIdentifier("std::string", name) + \ "(" + ParametersExceptLast(parameters) + ");") return out def CXXMethods(f): out = [] for name in f.order: v = f.features[name] if v["Category"] != "Deprecated": if v["FeatureType"] in ["fun", "get", "set"]: msgName = "Message::" + name if v["FeatureType"] == "get" and name.startswith("Get"): name = name[len("Get"):] retType = ActualTypeName(v["ReturnType"]) parameters, args, callName = ParametersArgsCallname(v) returnIfNeeded = "return " if retType != "void" else "" out.append(JoinTypeAndIdentifier(retType, "ScintillaCall::" + name) + "(" + parameters + ")" + " {") retCast = "" retCastEnd = "" if retType not in basicTypes or retType in ["int", "Colour", "ColourAlpha"]: if IsEnumeration(retType): retType = namespace + retType retCast = "static_cast<" + retType + ">(" retCastEnd = ")" elif retType in ["void *"]: retCast = "reinterpret_cast<" + retType + ">(" retCastEnd = ")" out.append("\t" + returnIfNeeded + retCast + callName + "(" + msgName + args + ")" + retCastEnd + ";") out.append("}") out.append("") # Extra method for stringresult that returns std::string if v["Param2Type"] == "stringresult": paramList = ParametersExceptLast(parameters) argList = ParametersExceptLast(args) out.append(JoinTypeAndIdentifier("std::string", "ScintillaCall::" + name) + \ "(" + paramList + ") {") out.append("\treturn CallReturnString(" + msgName + argList + ");") out.append("}") out.append("") return out def RegenerateAll(root): HFacer.RegenerateAll(root, False) f = Face.Face() include = root / "include" f.ReadFromFile(include / "Scintilla.iface") FileGenerator.Regenerate(include / "ScintillaMessages.h", "//", HMessages(f)) FileGenerator.Regenerate(include / "ScintillaTypes.h", "//", HEnumerations(f), HConstants(f)) FileGenerator.Regenerate(include / "ScintillaCall.h", "//", HMethods(f)) FileGenerator.Regenerate(root / "call" / "ScintillaCall.cxx", "//", CXXMethods(f)) if __name__ == "__main__": RegenerateAll(pathlib.Path(__file__).resolve().parent.parent)