int main(int argc, char* argv[])
{
plbInit(&argc, &argv);
global::directories().setOutputDir("./");
global::IOpolicy().activateParallelIO(false);
string stlFileName, outFileName;
T shiftX, shiftY, shiftZ;
try {
global::argv(1).read(stlFileName);
global::argv(2).read(shiftX);
global::argv(3).read(shiftY);
global::argv(4).read(shiftZ);
global::argv(5).read(outFileName);
}
catch (PlbIOException& exception) {
pcout << "Wrong parameters; the syntax is: "
<< (std::string)global::argv(0) << " inputSTL.stl shiftX shiftY shiftZ outputSTL.stl" << std::endl;
pcout << "If for example, you want your STL to be shifted by (0.1,0.1,0.1) you should write" << std::endl;
pcout << (std::string)global::argv(0) << " inputSTL.stl 0.1 0.1 0.1 outputSTL.stl" << std::endl;
exit(-1);
}
TriangleSet<T>* triangleSet = 0;
try {
triangleSet = new TriangleSet<T>(stlFileName, DBL);
}
catch (PlbIOException& exception) {
pcout << "Error, could not read STL file " << stlFileName
<< ": " << exception.what() << std::endl;
return -1;
}
triangleSet->translate(Array<T,3>(shiftX,shiftY,shiftZ));
triangleSet->writeBinarySTL(outFileName);
return 0;
}
int main(int argc, char* argv[])
{
plbInit(&argc, &argv);
global::directories().setOutputDir("./");
global::IOpolicy().activateParallelIO(false);
if (argc != 9) {
pcout << "Wrong parameters; the syntax is:" << std::endl
<< (std::string)global::argv(0)
<< "[FLT | DBL | LDBL | INF] inputSTL.stl cut-plane-point-x cut-plane-point-y cut-plane-point-z" << std::endl
<< "cut-plane-normal-x cut-plane-normal-y cut-plane-normal-z" << std::endl;
exit(-1);
}
std::string precisionStr;
std::string inStlFileName;
Plane<T> cutPlane;
try {
global::argv(1).read(precisionStr);
global::argv(2).read(inStlFileName);
global::argv(3).read(cutPlane.point[0]);
global::argv(4).read(cutPlane.point[1]);
global::argv(5).read(cutPlane.point[2]);
global::argv(6).read(cutPlane.normal[0]);
global::argv(7).read(cutPlane.normal[1]);
global::argv(8).read(cutPlane.normal[2]);
}
catch (PlbIOException& exception) {
pcout << "Wrong parameters." << std::endl;
exit(-1);
}
Precision precision;
if (precisionStr == "FLT") {
precision = FLT;
} else if (precisionStr == "DBL") {
precision = DBL;
} else if (precisionStr == "LDBL") {
precision = LDBL;
} else if (precisionStr == "INF") {
precision = INF;
} else {
pcout << "Wrong precision command-line argument." << std::endl;
exit(-1);
}
TriangleSet<T>* set = 0;
try {
set = new TriangleSet<T>(inStlFileName, precision);
}
catch (PlbIOException& exception) {
pcout << "ERROR, could not read STL file " << inStlFileName
<< ": " << exception.what() << std::endl;
exit(-1);
}
// Cut the geometry in two parts.
TriangleSet<T> normalNegativePart;
int rv = 0;
rv = set->cutWithPlane(cutPlane, normalNegativePart);
if (rv != 1) {
pcout << "Problem with the surface cutting." << std::endl;
exit(1);
}
normalNegativePart.writeBinarySTL("normalNegativePart.stl");
TriangleSet<T> normalPositivePart;
cutPlane.normal = -cutPlane.normal;
rv = 0;
rv = set->cutWithPlane(cutPlane, normalPositivePart);
if (rv != 1) {
pcout << "Problem with the surface cutting." << std::endl;
exit(1);
}
normalPositivePart.writeBinarySTL("normalPositivePart.stl");
delete set;
return 0;
}
