public override string ConvertApiLineSpecific(string line, FuncAndArgs funcAndArgs)
{
//SWIFT_API ModelRunner * CloneModel(ModelRunner * src);
//SWIFT_API ModelRunner * CreateNewFromNetworkInfo(NodeInfo * nodes, int numNodes, LinkInfo * links, int numLinks);
// And as an output we want for instance (if using opaque pointers).
// // [[Rcpp::export]]
// XPtr<OpaquePointer> RcppCloneModel(XPtr<OpaquePointer> src)
// {
// return XPtr<OpaquePointer>(new OpaquePointer(CloneModel(src->Get())));
// }
var sb = new StringBuilder();
if (!createWrapFuncSignature(sb, funcAndArgs))
{
return(line);
}
if (DeclarationOnly)
{
sb.Append(StatementSep);
return(sb.ToString());
}
else
{
string result = "";
result = createWrappingFunctionBody(line, funcAndArgs, sb, ApiCallArgument);
return(result);
}
}
protected static string[] GetFuncArguments(FuncAndArgs funcAndArgs)
{
string functionArguments = funcAndArgs.Arguments;
string[] args = StringHelper.SplitOnComma(functionArguments);
return(args);
}
public string ApiSignatureToBasicRoxygenString(FuncAndArgs funcAndArgs)
{
StringBuilder sb = new StringBuilder();
CreateWrapFuncRoxydoc(sb, funcAndArgs, false);
return(sb.ToString());
}
public string ApiSignatureToRoxygenString(FuncAndArgs funcAndArgs, bool paramDocs = true)
{
StringBuilder sb = new StringBuilder();
CreateWrapFuncRoxydoc(sb, funcAndArgs, paramDocs);
return(sb.ToString());
}
public override string ConvertApiLineSpecific(string line, FuncAndArgs funcAndArgs)
{
//SWIFT_API MODEL_SIMULATION_PTR CloneModel(MODEL_SIMULATION_PTR src);
//SWIFT_API char** CheckSimulationErrors(MODEL_SIMULATION_PTR simulation, int* size);
// And as an output we want for instance (if using opaque pointers).
//
// OpaquePointer* CloneModel_cpp(OpaquePointer* src)
// {
// return new OpaquePointer(CloneModel(src->Get()));
// }
// std::vector<std::string> CheckSimulationErrors(OpaquePointer simulation);
// {
// int size;
// char** names = CheckSimulationErrors(simulation->Get(), &size);
// return toVectorCleanup(names, size);
// }
var sb = new StringBuilder();
if (!createWrapFuncSignature(sb, funcAndArgs))
{
return(line);
}
if (DeclarationOnly)
{
sb.Append(StatementSep);
return(sb.ToString());
}
else
{
string result = "";
result = createWrappingFunctionBody(line, funcAndArgs, sb, ApiCallArgument);
return(result);
}
}
/// <summary> Adds the arguments of a function in the generated code </summary>
///
/// <param name="sb"> The sb.</param>
/// <param name="funcAndArgs"> The function and arguments.</param>
/// <param name="argFunc"> a function that generates the parameter name and type in the target language, based on the TypeAndName info from the source language</param>
/// <param name="transientArgs"> (Optional) The transient arguments.</param>
///
/// <returns> True if it succeeds, false if it fails.</returns>
protected bool AddFunctionArgs(StringBuilder sb, FuncAndArgs funcAndArgs, Action <StringBuilder, TypeAndName> argFunc, Dictionary <string, TransientArgumentConversion> transientArgs = null, bool openParenthesis = true)
{
if (openParenthesis) // Kludge for e.g. matlab calllib('mylib','mufunc',
{
sb.Append(ArgListOpenDelimiter);
}
string[] args = GetFuncArguments(funcAndArgs);
if (args.Length > 0)
{
int start = 0, end = args.Length - 1;
if (!StringHelper.appendArgs(sb, argFunc, transientArgs, args, start, end))
{
return(false);
}
if (end > start)
{
sb.Append(", ");
}
string arg = args[args.Length - 1];
if (!StringHelper.AddArgument(sb, argFunc, transientArgs, arg))
{
return(false);
}
}
sb.Append(ArgListCloseDelimiter);
return(true);
}
protected override void AddInFunctionDocString(StringBuilder sb, FuncAndArgs funcAndArgs)
{
if (GeneratePyDocstringDoc)
{
CreateWrapFuncPyDoc(sb, funcAndArgs);
}
}
public override string ConvertApiLineSpecific(string line, FuncAndArgs funcAndArgs)
{
// SWIFT_API CONSTRAINT_PARAMETERIZER_PTR CreateMuskingumConstraint(HYPERCUBE_PTR hypercubeParameterizer, double deltaT, const char* paramNameK, const char* paramNameX, MODEL_SIMULATION_PTR simulation);
//private delegate IntPtr CreateMuskingumConstraint_csdelegate(IntPtr parameterizer, double deltaT, string paramNameK, string paramNameX, IntPtr simulation);
//public INativeParameterizer CreateMuskingumConstraint(INativeParameterizer parameterizer, double deltaT, string paramNameK, string paramNameX, IModelSimulation simulation)
//{
// if (parameterizer == null) throw new ArgumentNullException("parameterizer");
// IntPtr p = MsDotnetNativeApi.NativeSwiftLib.GetFunction<CreateMuskingumConstraint_csdelegate>("CreateMuskingumConstraint")
// (parameterizer.GetHandle(), deltaT, paramNameK, paramNameX, (simulation == null ? IntPtr.Zero : simulation.GetHandle()));
// return createParamaterizerWrapper(p);
//}
var sb = new StringBuilder();
if (!createWrapFuncSignature(sb, funcAndArgs))
{
return(line);
}
if (DeclarationOnly)
{
sb.Append(StatementSep);
return(sb.ToString());
}
else
{
string result = "";
result = createWrappingFunctionBody(line, funcAndArgs, sb, ApiCallArgument);
return(result);
}
}
private bool createWrapFuncSignature(StringBuilder sb, FuncAndArgs funcAndArgs)
{
if (AddRcppExport)
{
sb.Append(UniformIndentation + "// [[Rcpp::export]]" + NewLineString);
}
return(createWrappingFunctionSignature(sb, funcAndArgs, ApiArgToRcpp, FunctionNamePostfix));
}
protected bool createCsharpWrappingFunctionSignature(StringBuilder sb, FuncAndArgs funcAndArgs, Action <StringBuilder, TypeAndName> argumentConverterFunction, string functionNamePostfix)
{
string funcDef = funcAndArgs.Function + functionNamePostfix;
if (!StringHelper.ParseTypeAndName(sb, funcDef, ReturnApiArgToCsharpDelegateArg))
{
return(false);
}
return(AddFunctionArgs(sb, funcAndArgs, argumentConverterFunction));
}
private bool createDelegateDeclaration(StringBuilder sb, FuncAndArgs funcAndArgs)
{
sb.Append(UniformIndentation);
sb.Append("private delegate ");
// we have to use a custom call below, not the parent, because of char* needing different treatment... KLUDGE
bool result = createCsharpWrappingFunctionSignature(sb, funcAndArgs, ApiArgToCsharpDelegateArg, DelegateFunctionNamePostfix);
sb.Append(StatementSep);
sb.Append(NewLineString);
return(result);
}
private bool createWrapFuncSignature(StringBuilder sb, FuncAndArgs funcAndArgs)
{
var funcDecl = GetTypeAndName(funcAndArgs.Function);
string funcDef = funcDecl.VarName + FunctionNamePostfix + " <- function";
sb.Append(funcDef);
bool r = AddFunctionArgs(sb, funcAndArgs, ApiArgToRfunctionArgument);
sb.Append(' ');
return(r);
}
public override string ConvertApiLineSpecific(string line, FuncAndArgs funcAndArgs)
{
StringBuilder sb = new StringBuilder();
//private delegate IntPtr CreateMuskingumConstraint_csdelegate(IntPtr parameterizer, double deltaT, string paramNameK, string paramNameX, IntPtr simulation);
if (!createDelegateDeclaration(sb, funcAndArgs))
{
return(line);
}
return(sb.ToString());
}
protected bool createWrappingFunctionSignature(StringBuilder sb, FuncAndArgs funcAndArgs, Action <StringBuilder, TypeAndName> argumentConverterFunction, string functionNamePostfix)
{
string funcDef = funcAndArgs.Function + functionNamePostfix;
sb.Append(UniformIndentation);// indentation in " public void Blah();"
if (!StringHelper.ParseTypeAndName(sb, funcDef, argumentConverterFunction))
{
return(false);
}
bool b = AddFunctionArgs(sb, funcAndArgs, argumentConverterFunction);
sb.Append(NewLineString);
return(b);
}
private bool createWrapFuncSignature(StringBuilder sb, FuncAndArgs funcAndArgs)
{
// From:
// SWIFT_API MODEL_SIMULATION_PTR SubsetModel(MODEL_SIMULATION_PTR simulation, const char* elementName, bool selectNetworkAboveElement, bool includeElementInSelection, bool invertSelection, char** terminationElements, int terminationElementsLength);
// To:
//def swift_subset_model(simulation, elementName, selectNetworkAboveElement, includeElementInSelection, invertSelection, terminationElements, terminationElementsLength):
var funcDecl = GetTypeAndName(funcAndArgs.Function);
string funcDef = "def " + funcDecl.VarName + FunctionNamePostfix;
sb.Append(funcDef);
bool r = AddFunctionArgs(sb, funcAndArgs, ApiArgToRfunctionArgument);
sb.Append(":");
return(r);
}
private bool createWrapFuncSignature(StringBuilder sb, FuncAndArgs funcAndArgs)
{
var funcDecl = GetTypeAndName(funcAndArgs.Function);
bool returnsVal = FunctionReturnsValue(funcDecl);
string funcDef = string.Format("function {0} = ", returnsVal ? FunctionOutputName : "[]");
// SWIFT_API OBJECTIVE_EVALUATOR_WILA_PTR CreateSingleObservationObjectiveEvaluatorWila(MODEL_SIMULATION_PTR simulation, const char* obsVarId, double* observations, TS_GEOMETRY_PTR obsGeom, const char* statisticId);
// function f = CreateSingleObservationObjectiveEvaluatorWila_m(simulation, obsVarId, observations, obsGeom, statisticId)
funcDef += funcDecl.VarName + FunctionNamePostfix; // function f = CreateSingleObservationObjectiveEvaluatorWila_m
sb.Append(funcDef);
bool r = AddFunctionArgs(sb, funcAndArgs, ApiArgToMatlabfunctionArgument);
sb.Append(' ');
return(r);
}
public override string ConvertApiLineSpecific(string line, FuncAndArgs funcAndArgs)
{
var sb = new StringBuilder();
// // TODO the @ things
//@convert_strings
//@check_exceptions
if (!createWrapFuncSignature(sb, funcAndArgs))
{
return(line);
}
string result = "";
result = createWrappingFunctionBody(line, funcAndArgs, sb, ApiCallArgument);
return(result);
}
protected bool CreateApiFunctionCall(StringBuilder sb, FuncAndArgs funcAndArgs, Action <StringBuilder, TypeAndName> argFunc, Dictionary <string, TransientArgumentConversion> transientArgs, TypeAndName funcDef, bool returnsVal)
{
sb.Append(UniformIndentation);
sb.Append(Indentation);
if (returnsVal)
{
AppendReturnedValueDeclaration(sb);
}
CreateApiFunctionCallFunction(sb, funcDef);
if (!AddFunctionArgs(sb, funcAndArgs, argFunc, transientArgs, ApiCallOpenParenthesis))
{
return(false);
}
sb.Append(StatementSep);
sb.Append(NewLineString);
return(true);
}
protected string createWrappingFunctionBody(string line, FuncAndArgs funcAndArgs, StringBuilder sb, Action <StringBuilder, TypeAndName> argFunc)
{
string result;
sb.Append(BodyLineOpenFunctionDelimiter);
AddInFunctionDocString(sb, funcAndArgs);
bool ok = createWrapFuncBody(sb, funcAndArgs, argFunc);
sb.Append(BodyLineCloseFunctionDelimiter);
if (!ok)
{
result = line;
}
else
{
result = sb.ToString();
}
return(result);
}
/*
*
* SWIFT_API OBJECTIVE_EVALUATOR_PTR CreateObjectiveCalculator(MODEL_SIMULATION_PTR modelInstance, char* obsVarId, double * observations,
* int arrayLength, MarshaledDateTime start, char* statisticId);
*
* CreateObjectiveCalculator_R <- function(modelInstance, obsVarId, observations, arrayLength, start, statisticId) {
* .Call('swift_CreateObjectiveCalculator_R', PACKAGE = 'swift', modelInstance, obsVarId, observations, arrayLength, start, statisticId)
* }
*
* And we want to generate something like:
*
* CreateObjectiveCalculator_R_wrap <- function(modelInstance, obsVarId, observations, arrayLength, start, statisticId) {
* modelInstance_xptr <- getSwiftXptr(modelInstance)
* xptr <- CreateObjectiveCalculator_R(modelInstance_xptr, obsVarId, observations, arrayLength, start, statisticId)
* return(mkSwiftObjRef(xptr))
* }
*
* SWIFT_API_FUNCNAME_R_wrap <- function(modelInstance, obsVarId, observations, arrayLength, start, statisticId) {
* modelInstance_xptr <- getSwiftXptr(modelInstance)
* xptr <- SWIFT_API_FUNCNAME_R(modelInstance_xptr, obsVarId, observations, arrayLength, start, statisticId)
* return(mkSwiftObjRef(xptr))
* }
*
* }
*
*/
public override string ConvertApiLineSpecific(string line, FuncAndArgs funcAndArgs)
{
var sb = new StringBuilder();
if (GenerateRoxygenDoc)
{
if (!CreateWrapFuncRoxydoc(sb, funcAndArgs))
{
return(line);
}
}
if (!createWrapFuncSignature(sb, funcAndArgs))
{
return(line);
}
string result = "";
result = createWrappingFunctionBody(line, funcAndArgs, sb, ApiCallArgument);
return(result);
}
protected bool createWrapFuncBody(StringBuilder sb, FuncAndArgs funcAndArgs, Action <StringBuilder, TypeAndName> argFunc)
{
// We need to cater for cases where we need to create a transient variable then clean it, e.g.
// char** c = transform((CharacterVector)cvec);
// apiCall(c)
// cleanup(c)
var tConv = FindTransientVariables(sb, funcAndArgs);
var funcDef = GetTypeAndName(funcAndArgs.Function);
bool returnsVal = FunctionReturnsValue(funcDef);
CreateBodyCreateTransientVar(sb, tConv);
bool ok = CreateApiFunctionCall(sb, funcAndArgs, argFunc, tConv, funcDef, returnsVal);
if (!ok)
{
return(false);
}
CreateBodyCleanTransientVar(sb, tConv);
CreateBodyReturnValue(sb, funcDef, returnsVal);
return(true);
}
public bool CreateWrapFuncInlineDoc(StringBuilder sb, FuncAndArgs funcAndArgs, bool paramDocs = true)
{
//Aim for:
//% Create a SWIFT catchment with a specified hydrologic model.
//% Usage:
//% f = CREATECATCHMENT(nodeIds, nodeNames, linkIds, linkNames, linkFromNode, linkToNode, runoffModelName, areasKm2)
//% This function is intended mostly for testing, not for usual modelling code.
//% INPUT nodeIds[1xN string] Node unique identifiers
//% INPUT nodeNames[1xN string] Node display names
//% INPUT linkIds[1xN string] Links unique identifiers
//% INPUT linkNames[1xN string] Links display names
//% INPUT linkFromNode[1xN string] Identifier of the links' upstream node
//% INPUT linkToNode[1xN string] Identifier of the links' downstream node
//% INPUT runoffModelName[string] A valid, known SWIFT model name(e.g. 'GR5H')
//% INPUT areasKm2[1xN double] The areas in square kilometres
//% OUTPUT[libpointer] A SWIFT simulation object(i.e.a model runner)
var funcDecl = GetTypeAndName(funcAndArgs.Function);
string funcName = funcDecl.VarName + FunctionNamePostfix;
AddInlineDoccoLine(sb, " " + funcName);
AddInlineDoccoLine(sb);
AddInlineDoccoLine(sb, " " + funcName + " Wrapper function for " + funcDecl.VarName);
AddInlineDoccoLine(sb);
if (paramDocs)
{
var funcArgs = GetFuncArguments(funcAndArgs);
for (int i = 0; i < funcArgs.Length; i++)
{
var v = GetTypeAndName(funcArgs[i]);
AddInlineDoccoLine(sb, " " + MatlabInputParameterTag + " " + v.VarName + " R type equivalent for C++ type " + v.TypeName);
}
}
//if (RoxyExportFunctions)
// AddInlineDoccoLine(sb, " " + RoxygenExportTag);
return(true);
}
public bool CreateWrapFuncPyDoc(StringBuilder sb, FuncAndArgs funcAndArgs, bool paramDocs = true)
{
/*
* """
* :param ptr series: Pointer to ENSEMBLE_FORECAST_TIME_SERIES_PTR
* :param int item_idx: Item index
* :param ndarray values: 2-dimensional array of values,
* 1st dimension is lead time, second is ensemble member.
* :param datetime start: Start datetime for ``values``
* :param str freq: Frequency for ``values`` 'D' or 'H'.
* """
*/
var funcDecl = GetTypeAndName(funcAndArgs.Function);
string funcName = funcDecl.VarName + FunctionNamePostfix;
AddPyDocstringStart(sb);
AddPyDocLine(sb, funcName);
AddPyDocLine(sb);
AddPyDocLine(sb, funcName + " Wrapper function for " + funcDecl.VarName);
AddPyDocLine(sb);
if (paramDocs)
{
var funcArgs = GetFuncArguments(funcAndArgs);
for (int i = 0; i < funcArgs.Length; i++)
{
var v = GetTypeAndName(funcArgs[i]);
AddPyDocLine(sb, PyDocstringParameterTag + " " + v.VarName + " Python type equivalent for C++ type " + v.TypeName);
}
}
if (PyDocExportFunctions)
{
AddPyDocLine(sb, PyDocstringExportTag);
}
AddPyDocstringEnd(sb);
return(true);
}
public bool CreateWrapFuncRoxydoc(StringBuilder sb, FuncAndArgs funcAndArgs, bool paramDocs = true)
{
var funcDecl = GetTypeAndName(funcAndArgs.Function);
string funcName = funcDecl.VarName + FunctionNamePostfix;
AddRoxyLine(sb, " " + funcName);
AddRoxyLine(sb);
AddRoxyLine(sb, " " + funcName + " Wrapper function for " + funcDecl.VarName);
AddRoxyLine(sb);
if (paramDocs)
{
var funcArgs = GetFuncArguments(funcAndArgs);
for (int i = 0; i < funcArgs.Length; i++)
{
var v = GetTypeAndName(funcArgs[i]);
AddRoxyLine(sb, " " + RoxygenParameterTag + " " + v.VarName + " R type equivalent for C++ type " + v.TypeName);
}
}
if (RoxyExportFunctions)
{
AddRoxyLine(sb, " " + RoxygenExportTag);
}
return(true);
}
public FuncAndArgs(FuncAndArgs src)
{
Function = src.Function;
Arguments = src.Arguments;
Unexpected = src.Unexpected;
}
public static string[] GetFunctionArguments(string funDef)
{
FuncAndArgs funcAndArgs = GetFuncDeclAndArgs(funDef);
return(SplitOnComma(funcAndArgs.Arguments));
}
public static TypeAndName GetFunctionTypeAndName(string funDef)
{
FuncAndArgs funcAndArgs = GetFuncDeclAndArgs(funDef);
return(GetVariableDeclaration(funcAndArgs.Function));
}
/// <summary> Placeholder to add things such as Python docstrings.</summary>
///
/// <param name="sb"> The sb.</param>
/// <param name="funcAndArgs"> The function and arguments.</param>
protected virtual void AddInFunctionDocString(StringBuilder sb, FuncAndArgs funcAndArgs)
{
// nothing here.
}
public abstract string ConvertApiLineSpecific(string line, FuncAndArgs funcAndArgs);
protected Dictionary <string, TransientArgumentConversion> FindTransientVariables(StringBuilder sb, FuncAndArgs funcAndArgs)
{
string functionArguments = funcAndArgs.Arguments;
return(FindTransientVariables(functionArguments));
}
