private static SpindleSpeed parse_apt_spinlespeed(string line)
{
SpindleSpeed spindlespeed = new SpindleSpeed();
switch (dt_flag)
{
case d_type.mastercam: //apt line from mastercam
string[] substrings = line.Split(',');
spindlespeed.Spindlespeed = Convert.ToDouble(substrings[1].Replace(" ", string.Empty));
spindlespeed.Direction = substrings[2].Replace(" ", string.Empty);
spindlespeed.Unit = substrings[0].Replace(" ", string.Empty);
break;
case d_type.ptc_creo: //apt line from ptc creo
break;
case d_type.siemens_nx: //apt line from siemens nx
break;
default:
break;
}
return(spindlespeed);
}
private static void apt_to_stepnc(MetaData metadata, string outname)
{
double multiplier = 1;
STEPNCLib.AptStepMaker stnc = new STEPNCLib.AptStepMaker();
STEPNCLib.Feature feature = new STEPNCLib.Feature();
STEPNCLib.Process process = new STEPNCLib.Process();
stnc.NewProjectWithCCandWP(metadata.PartNo.partno(), 1, "Main Workplan");//make new project
//feature.OpenNewWorkpiece("mastercam");
process.BlockRawpiece("mastercam block", 0, 0, 0, 70, 100, 50);
//if (metadata.Units == "IN" || metadata.Units == "Inches")
// stnc.Inches();
//else
// stnc.Millimeters();
stnc.Millimeters();
if (metadata.Multax.multax() == "ON")
{
stnc.MultaxOn();
}
stnc.CamModeOn();
stnc.MultaxOn();
stnc.SetModeMill();
CutterTool[] tools = new CutterTool[metadata.CutterTools.Keys.Count];
metadata.CutterTools.Values.CopyTo(tools, 0);
for (int i = 0; i < tools.Length; i++)//define all tools
{
stnc.DefineTool(tools[i].Tparams.Diameter * multiplier, tools[i].Tparams.Diameter / 2 * multiplier, 10.0 * multiplier, 10.0 * multiplier, 1.0 * multiplier, 0.0, 45.0 * multiplier);
}
//stnc.Millimeters();
foreach (MachineGroup machineGroup in metadata.MachineGroups)
{
stnc.NestWorkplan("Machine Group-" + machineGroup.ID.ToString());
foreach (ToolpathGroup toolpahtGroup in machineGroup.Operations)
{
stnc.LoadTool(toolpahtGroup.Tool);//load tool associated with the current operation
stnc.Workingstep("WS-" + toolpahtGroup.ID.ToString());
foreach (APT mchData in toolpahtGroup.MachiningData)
{
if (mchData is Rapid)
{
stnc.Rapid();
}
if (mchData is GoTo)
{
GoTo temp = mchData as GoTo;
stnc.GoToXYZ("point", temp.X * multiplier, temp.Y * multiplier, temp.Z * multiplier);
//Console.WriteLine("{0},{1},{2}",temp.X,temp.Y,temp.Z);
}
if (mchData is Circle)
{
Circle temp = mchData as Circle;
//Console.WriteLine("{0},{1},{2},{3},{4},{5},{6},{7}", temp.X, temp.Y, temp.Z, temp.Cx, temp.Cy, temp.Cz, temp.Radius, temp.Direction);
stnc.ArcXYPlane("arc", temp.X * multiplier, temp.Y * multiplier, temp.Z * multiplier, temp.Cx * multiplier, temp.Cy * multiplier, temp.Cz * multiplier, temp.Radius * multiplier, temp.Direction);
}
if (mchData is Feedrate)
{
Feedrate temp = mchData as Feedrate;
stnc.Feedrate(temp.Fedrat);
}
if (mchData is SpindleSpeed)
{
SpindleSpeed temp = mchData as SpindleSpeed;
stnc.SpindleSpeed(temp.Spindlespeed);
}
if (mchData is Coolant)
{
Coolant temp = mchData as Coolant;
if (temp.Activation)
{
stnc.CoolantOn();
}
else
{
stnc.CoolantOff();
}
}
}
}
stnc.EndWorkplan();
}
//stnc.SaveFastAsModules(outname);
stnc.SaveAsP21(outname);
//stnc.SaveAsModules(outname);
return;
}