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gtsam/wrap/StaticMethod.cpp

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/* ----------------------------------------------------------------------------
* GTSAM Copyright 2010, Georgia Tech Research Corporation,
* Atlanta, Georgia 30332-0415
* All Rights Reserved
* Authors: Frank Dellaert, et al. (see THANKS for the full author list)
* See LICENSE for the license information
* -------------------------------------------------------------------------- */
/**
* @file StaticMethod.ccp
* @author Frank Dellaert
* @author Andrew Melim
* @author Richard Roberts
**/
#include <iostream>
#include <fstream>
#include <boost/foreach.hpp>
#include <boost/lexical_cast.hpp>
#include "StaticMethod.h"
#include "utilities.h"
using namespace std;
using namespace wrap;
/* ************************************************************************* */
void StaticMethod::addOverload(bool verbose, const std::string& name,
const ArgumentList& args, const ReturnValue& retVal) {
this->verbose = verbose;
this->name = name;
this->argLists.push_back(args);
this->returnVals.push_back(retVal);
}
/* ************************************************************************* */
void StaticMethod::proxy_wrapper_fragments(FileWriter& proxyFile,
FileWriter& wrapperFile, const string& cppClassName,
const std::string& matlabQualName, const std::string& matlabUniqueName,
const string& wrapperName, const TypeAttributesTable& typeAttributes,
vector<string>& functionNames) const {
string upperName = name;
upperName[0] = std::toupper(upperName[0], std::locale());
proxyFile.oss << " function varargout = " << upperName << "(varargin)\n";
//Comments for documentation
string up_name = boost::to_upper_copy(name);
proxyFile.oss << " % " << up_name << " usage:";
unsigned int argLCount = 0;
BOOST_FOREACH(ArgumentList argList, argLists) {
proxyFile.oss << " " << name << "(";
unsigned int i = 0;
BOOST_FOREACH(const Argument& arg, argList) {
if (i != argList.size() - 1)
proxyFile.oss << arg.type << " " << arg.name << ", ";
else
proxyFile.oss << arg.type << " " << arg.name;
i++;
}
if (argLCount != argLists.size() - 1)
proxyFile.oss << "), ";
else
proxyFile.oss << ") : returns "
<< returnVals[0].return_type(false, returnVals[0].pair) << endl;
argLCount++;
}
proxyFile.oss << " % "
<< "Doxygen can be found at http://research.cc.gatech.edu/borg/sites/edu.borg/html/index.html"
<< endl;
proxyFile.oss << " % " << "" << endl;
proxyFile.oss << " % " << "Usage" << endl;
BOOST_FOREACH(ArgumentList argList, argLists) {
proxyFile.oss << " % " << up_name << "(";
unsigned int i = 0;
BOOST_FOREACH(const Argument& arg, argList) {
if (i != argList.size() - 1)
proxyFile.oss << arg.type << " " << arg.name << ", ";
else
proxyFile.oss << arg.type << " " << arg.name;
i++;
}
proxyFile.oss << ")" << endl;
}
for (size_t overload = 0; overload < argLists.size(); ++overload) {
const ArgumentList& args = argLists[overload];
const ReturnValue& returnVal = returnVals[overload];
size_t nrArgs = args.size();
const int id = (int) functionNames.size();
// Output proxy matlab code
// check for number of arguments...
proxyFile.oss << " " << (overload == 0 ? "" : "else")
<< "if length(varargin) == " << nrArgs;
if (nrArgs > 0)
proxyFile.oss << " && ";
// ...and their types
bool first = true;
for (size_t i = 0; i < nrArgs; i++) {
if (!first)
proxyFile.oss << " && ";
proxyFile.oss << "isa(varargin{" << i + 1 << "},'"
<< args[i].matlabClass(".") << "')";
first = false;
}
proxyFile.oss << "\n";
// output call to C++ wrapper
string output;
if (returnVal.isPair)
output = "[ varargout{1} varargout{2} ] = ";
else if (returnVal.category1 == ReturnValue::VOID)
output = "";
else
output = "varargout{1} = ";
proxyFile.oss << " " << output << wrapperName << "(" << id
<< ", varargin{:});\n";
// Output C++ wrapper code
const string wrapFunctionName = wrapper_fragment(wrapperFile, cppClassName,
matlabUniqueName, (int) overload, id, typeAttributes);
// Add to function list
functionNames.push_back(wrapFunctionName);
}
proxyFile.oss << " else\n";
proxyFile.oss
<< " error('Arguments do not match any overload of function "
<< matlabQualName << "." << upperName << "');" << endl;
proxyFile.oss << " end\n";
proxyFile.oss << " end\n";
}
/* ************************************************************************* */
string StaticMethod::wrapper_fragment(FileWriter& file,
const string& cppClassName, const string& matlabUniqueName, int overload,
int id, const TypeAttributesTable& typeAttributes) const {
// generate code
const string wrapFunctionName = matlabUniqueName + "_" + name + "_"
+ boost::lexical_cast<string>(id);
const ArgumentList& args = argLists[overload];
const ReturnValue& returnVal = returnVals[overload];
// call
file.oss << "void " << wrapFunctionName
<< "(int nargout, mxArray *out[], int nargin, const mxArray *in[])\n";
// start
file.oss << "{\n";
returnVal.wrapTypeUnwrap(file);
file.oss << " typedef boost::shared_ptr<" << cppClassName << "> Shared;"
<< endl;
// check arguments
// NOTE: for static functions, there is no object passed
file.oss << " checkArguments(\"" << matlabUniqueName << "." << name
<< "\",nargout,nargin," << args.size() << ");\n";
// unwrap arguments, see Argument.cpp
args.matlab_unwrap(file, 0); // We start at 0 because there is no self object
// call method with default type and wrap result
if (returnVal.type1 != "void")
returnVal.wrap_result(cppClassName + "::" + name + "(" + args.names() + ")",
file, typeAttributes);
else
file.oss << cppClassName + "::" + name + "(" + args.names() + ");\n";
// finish
file.oss << "}\n";
return wrapFunctionName;
}
/* ************************************************************************* */
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