682 lines
18 KiB
C++
682 lines
18 KiB
C++
/*
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* This program source code file is part of KiCad, a free EDA CAD application.
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*
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* Copyright (C) 2014 Cirilo Bernardo
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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* or you may search the http://www.gnu.org website for the version 2 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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/*
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* This program creates an outline for a horizontal or vertically
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* oriented axial or radial leaded cylinder with dimensions based
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* on the user's input.
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*/
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#include <iostream>
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#include <fstream>
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#include <string>
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#include <sstream>
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#include <cmath>
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#include <cstdio>
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#include <list>
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#include <utility>
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#include <clocale>
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using namespace std;
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void make_vcyl( bool inch, bool axial, double dia, double length,
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double z, double wireDia );
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void make_hcyl( bool inch, bool axial, double dia, double length,
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double z, double wireDia );
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void writeAxialCyl( FILE* fp, bool inch, double dia, double length, double wireDia, double pitch );
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void writeRadialCyl( FILE* fp, bool inch, double dia, double length, double wireDia,
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double pitch, double lead );
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int main( int argc, char **argv )
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{
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// IDF implicitly requires the C locale
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setlocale( LC_ALL, "C" );
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if( argc == 1 )
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{
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cout << "idfcyl: This program generates an outline for a cylindrical component.\n";
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cout << " The cylinder may be horizontal or vertical.\n";
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cout << " A horizontal cylinder may have wires at one or both ends.\n";
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cout << " A vertical cylinder may have at most one wire which may be\n";
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cout << " placed on the left or right side.\n\n";
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cout << "Input:\n";
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cout << " Unit: mm, in (millimeters or inches)\n";
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cout << " Orientation: V (vertical)\n";
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cout << " Lead type: X, R (axial, radial)\n";
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cout << " Diameter of body\n";
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cout << " Length of body\n";
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cout << " Board offset\n";
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cout << " * Wire diameter\n";
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cout << " * Pitch\n";
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cout << " ** Wire side: L, R (left, right)\n";
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cout << " *** Lead length\n";
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cout << " File name (must end in *.idf)\n\n";
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cout << " NOTES:\n";
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cout << " * only required for horizontal orientation or\n";
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cout << " vertical orientation with axial leads\n\n";
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cout << " ** only required for vertical orientation with axial leads\n\n";
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cout << " *** only required for horizontal orientation with radial leads\n\n";
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}
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char orientation = '\0';
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bool inch = false; // default mm
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double dia = 0.0;
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double length = 0.0;
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double extraZ = 0.0;
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double wireDia = 0.0;
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bool axial = false;
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stringstream tstr;
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string line;
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line.clear();
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while( line.compare( "mm" ) && line.compare( "in" ) )
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{
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cout << "* Units (mm,in): ";
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line.clear();
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std::getline( cin, line );
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}
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if( line.compare( "mm" ) )
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inch = true;
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line.clear();
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while( line.compare( "H" ) && line.compare( "h" )
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&& line.compare( "V" ) && line.compare( "v" ) )
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{
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cout << "* Orientation (H,V): ";
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line.clear();
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std::getline( cin, line );
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}
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if( line.compare( "H" ) && line.compare( "h" ) )
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orientation = 'v';
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else
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orientation = 'h';
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bool ok = false;
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while( !ok )
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{
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cout << "* Axial or Radial (X,R): ";
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line.clear();
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std::getline( cin, line );
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if( !line.compare( "x" ) || !line.compare( "X" ) )
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{
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axial = true;
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ok = true;
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}
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else if( !line.compare( "r" ) || !line.compare( "R" ) )
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{
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axial = false;
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ok = true;
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}
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}
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// cylinder dimensions
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ok = false;
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while( !ok )
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{
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cout << "* Diameter: ";
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line.clear();
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std::getline( cin, line );
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tstr.clear();
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tstr.str( line );
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tstr >> dia;
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if( !tstr.fail() && dia > 0.0 )
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ok = true;
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}
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ok = false;
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while( !ok )
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{
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cout << "* Length: ";
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line.clear();
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std::getline( cin, line );
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tstr.clear();
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tstr.str( line );
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tstr >> length;
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if( !tstr.fail() && length > 0.0 )
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ok = true;
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}
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ok = false;
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while( !ok )
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{
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cout << "* Board offset: ";
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line.clear();
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std::getline( cin, line );
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tstr.clear();
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tstr.str( line );
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tstr >> extraZ;
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if( !tstr.fail() && extraZ >= 0.0 )
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ok = true;
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}
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ok = false;
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while( ( axial || orientation == 'h' ) && !ok )
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{
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cout << "* Wire diameter: ";
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line.clear();
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std::getline( cin, line );
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tstr.clear();
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tstr.str( line );
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tstr >> wireDia;
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if( !tstr.fail() && wireDia > 0.0 )
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{
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if( wireDia < dia )
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ok = true;
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else
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cout << "* WARNING: wire diameter must be < cylinder diameter\n";
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}
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}
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switch( orientation )
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{
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case 'v':
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make_vcyl( inch, axial, dia, length, extraZ, wireDia );
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break;
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case 'h':
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make_hcyl( inch, axial, dia, length, extraZ, wireDia );
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break;
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default:
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break;
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}
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setlocale( LC_ALL, "" );
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return 0;
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}
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void make_vcyl( bool inch, bool axial, double dia, double length,
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double z, double wireDia )
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{
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bool ok = false;
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bool left = false;
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stringstream tstr;
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string line;
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double pitch = 0.0;
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while( axial && !ok )
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{
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cout << "* Pitch: ";
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line.clear();
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std::getline( cin, line );
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tstr.clear();
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tstr.str( line );
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tstr >> pitch;
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if( !tstr.fail() && pitch > 0.0 )
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{
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if( (pitch - wireDia) <= (dia / 2.0) )
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{
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cout << "* WARNING: Pitch must be > dia/2 + wireDia\n";
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}
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else
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{
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ok = true;
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}
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}
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}
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ok = false;
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while( axial && !ok )
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{
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cout << "* Pin side (L,R): ";
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line.clear();
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std::getline( cin, line );
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if( !line.compare( "l" ) || !line.compare( "L" ) )
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{
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left = true;
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ok = true;
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}
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else if( !line.compare( "r" ) || !line.compare( "R" ) )
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ok = true;
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}
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line.clear();
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while( line.empty() || line.find( ".idf" ) == string::npos )
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{
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cout << "* File name (*.idf): ";
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line.clear();
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std::getline( cin, line );
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}
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FILE* fp = fopen( line.c_str(), "w" );
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if( !fp )
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{
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cerr << "Could not open output file: " << line << "\n";
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return;
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}
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fprintf( fp, "# cylindrical outline, vertical, " );
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if( !axial )
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fprintf( fp, "radial leads\n" );
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else
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fprintf( fp, "axial lead on %s\n", left ? "left" : "right" );
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fprintf( fp, "# file: \"%s\"\n", line.c_str() );
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if( inch )
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{
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fprintf( fp, "# dia: %d THOU\n", (int) (dia * 1000) );
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fprintf( fp, "# length: %d THOU\n", (int) (length * 1000) );
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fprintf( fp, "# board offset: %d THOU\n", (int) (z * 1000) );
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if( axial )
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{
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fprintf( fp, "# wire dia: %d THOU\n", (int) (wireDia * 1000) );
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fprintf( fp, "# pitch: %d THOU\n", (int) (pitch * 1000) );
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}
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}
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else
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{
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fprintf( fp, "# dia: %.3f mm\n", dia );
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fprintf( fp, "# length: %.3f mm\n", length );
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fprintf( fp, "# board offset: %.3f mm\n", z );
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if( axial )
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{
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fprintf( fp, "# wire dia: %.3f mm\n", wireDia );
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fprintf( fp, "# pitch: %.3f mm\n", pitch );
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}
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}
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fprintf( fp, ".ELECTRICAL\n" );
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if( !axial )
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{
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fprintf( fp, "\"CYLV_%s_RAD\" \"D%.3f_H%.3f_Z%.3f\" ", inch ? "IN" : "MM",
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dia, length, z );
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}
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else
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{
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fprintf( fp, "\"CYLV_%s_AX%s\" \"D%.3f_H%.3f_Z%.3f_WD%.3f_P%.3f\" ", inch ? "IN" : "MM",
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left ? "L" : "R", dia, length, z, wireDia, pitch );
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}
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if( inch )
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fprintf( fp, "THOU %d\n", (int) ((length + z) * 1000) );
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else
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fprintf( fp, "MM %.3f\n", length + z );
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if( !axial )
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{
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fprintf( fp, "0 0 0 0\n" );
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if( inch )
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fprintf( fp, "0 %d 0 360\n", (int) (dia * 500) );
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else
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fprintf( fp, "0 %.3f 0 360\n", dia / 2.0 );
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fprintf( fp, ".END_ELECTRICAL\n" );
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fclose( fp );
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return;
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}
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double px[4], py[4];
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// points are:
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// [0] = upper point on cylinder perimeter
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// [1] = lower point on cylinder perimeter
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// [2] = point beneath wire center
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// [3] = point above wire center
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if( inch )
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{
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dia *= 1000.0;
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pitch *= 1000.0;
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wireDia *= 1000.0;
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}
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double ang = asin( wireDia / dia );
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px[0] = dia * cos( ang ) / 2.0 - pitch / 2.0;
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px[1] = px[0];
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px[2] = pitch / 2.0;
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px[3] = px[2];
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py[0] = wireDia / 2.0;
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py[1] = -py[0];
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py[2] = py[1];
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py[3] = py[0];
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char li = '0';
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double fullAng = 360.0;
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if( left )
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{
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li = '1';
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fullAng = -360.0;
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for( int i = 0; i < 4; ++i ) px[i] = -px[i];
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}
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if( inch )
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{
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fprintf( fp, "%c %d %d 0\n", li, (int) px[0], (int) py[0] );
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fprintf( fp, "%c %d %d %.3f\n", li, (int) px[1], (int) py[1],
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fullAng * ( 1 - ang / M_PI ) );
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fprintf( fp, "%c %d %d 0\n", li, (int) px[2], (int) py[2] );
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fprintf( fp, "%c %d %d %s\n", li, (int) px[3], (int) py[3],
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left ? "-180" : "180" );
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fprintf( fp, "%c %d %d 0\n", li, (int) px[0], (int) py[0] );
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}
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else
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{
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fprintf( fp, "%c %.3f %.3f 0\n", li, px[0], py[0] );
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fprintf( fp, "%c %.3f %.3f %.3f\n", li, px[1], py[1], fullAng * ( 1 - ang / M_PI ) );
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fprintf( fp, "%c %.3f %.3f 0\n", li, px[2], py[2] );
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fprintf( fp, "%c %.3f %.3f %s\n", li, px[3], py[3],
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left ? "-180" : "180" );
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fprintf( fp, "%c %.3f %.3f 0\n", li, px[0], py[0] );
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}
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fprintf( fp, ".END_ELECTRICAL\n" );
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fclose( fp );
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return;
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}
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void make_hcyl( bool inch, bool axial, double dia, double length,
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double z, double wireDia )
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{
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stringstream tstr;
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string line;
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double pitch = 0.0;
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double lead = 0.0; // lead length for radial leads
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bool ok = false;
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while( !ok )
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{
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if( axial )
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cout << "* Axial pitch: ";
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else
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cout << "* Radial pitch: ";
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line.clear();
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std::getline( cin, line );
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tstr.clear();
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tstr.str( line );
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tstr >> pitch;
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if( !tstr.fail() && pitch > 0.0 )
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{
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if( axial )
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{
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if( (pitch - wireDia) <= length )
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{
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cout << "* WARNING: Axial pitch must be > length + wireDia\n";
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}
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else
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{
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ok = true;
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}
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}
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else
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{
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if( (pitch + wireDia) >= dia )
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{
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cout << "* WARNING: Radial pitch must be < dia - wireDia\n";
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}
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else if( pitch <= wireDia )
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{
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cout << "* WARNING: Radial pitch must be > wireDia\n";
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}
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else
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{
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ok = true;
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}
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}
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}
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}
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ok = false;
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while( !axial && !ok )
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{
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cout << "* Lead length: ";
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line.clear();
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std::getline( cin, line );
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tstr.clear();
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tstr.str( line );
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tstr >> lead;
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if( !tstr.fail() && lead > 0.0 )
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{
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if( lead < wireDia )
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cout << "* WARNING: lead length must be >= wireDia\n";
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else
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ok = true;
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}
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}
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line.clear();
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while( line.empty() || line.find( ".idf" ) == string::npos )
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{
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cout << "* File name (*.idf): ";
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line.clear();
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std::getline( cin, line );
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}
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FILE* fp = fopen( line.c_str(), "w" );
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if( !fp )
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{
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cerr << "Could not open output file: " << line << "\n";
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return;
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}
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fprintf( fp, "# cylindrical outline, horiz., " );
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fprintf( fp, "%s pins\n", axial ? "axial" : "radial" );
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fprintf( fp, "# file: \"%s\"\n", line.c_str() );
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if( inch )
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{
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fprintf( fp, "# dia: %d THOU\n", (int) (dia * 1000) );
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fprintf( fp, "# length: %d THOU\n", (int) (length * 1000) );
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fprintf( fp, "# extra height: %d THOU\n", (int) (z * 1000) );
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fprintf( fp, "# wire dia: %d THOU\n", (int) (wireDia * 1000) );
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fprintf( fp, "# pitch: %d THOU\n", (int) (pitch * 1000) );
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if( !axial )
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fprintf( fp, "# lead: %d THOU\n", (int) (lead * 1000) );
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}
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else
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{
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fprintf( fp, "# dia: %.3f mm\n", dia );
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fprintf( fp, "# length: %.3f mm\n", length );
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fprintf( fp, "# extra height: %.3f mm\n", z );
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fprintf( fp, "# wire dia: %.3f mm\n", wireDia );
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fprintf( fp, "# pitch: %.3f mm\n", pitch );
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if( !axial )
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fprintf( fp, "# lead: %.3f mm\n", lead );
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}
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fprintf( fp, ".ELECTRICAL\n" );
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if( axial )
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{
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fprintf( fp, "\"CYLH_%s_AXI\" \"D%.3f_H%.3f_Z%.3f_WD%.3f_P%.3f\" ",
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inch ? "IN" : "MM", dia, length, z, wireDia, pitch );
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}
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else
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{
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|
fprintf( fp, "\"CYLH_%s_RAD\" \"D%.3f_H%.3f_Z%.3f_WD%.3f_P%.3f_L%.3f\" ",
|
|
inch ? "IN" : "MM", dia, length, z, wireDia, pitch, lead );
|
|
}
|
|
|
|
if( inch )
|
|
{
|
|
fprintf( fp, "THOU %d\n", (int) ((dia + z) * 1000) );
|
|
dia *= 1000.0;
|
|
length *= 1000.0;
|
|
wireDia *= 1000.0;
|
|
pitch *= 1000.0;
|
|
if( !axial )
|
|
lead *= 1000.0;
|
|
}
|
|
else
|
|
{
|
|
fprintf( fp, "MM %.3f\n", dia + z );
|
|
}
|
|
|
|
if( axial )
|
|
writeAxialCyl( fp, inch, dia, length, wireDia, pitch );
|
|
else
|
|
writeRadialCyl( fp, inch, dia, length, wireDia, pitch, lead );
|
|
|
|
fprintf( fp, ".END_ELECTRICAL\n" );
|
|
fclose( fp );
|
|
return;
|
|
return;
|
|
}
|
|
|
|
void writeAxialCyl( FILE* fp, bool inch, double dia, double length,
|
|
double wireDia, double pitch )
|
|
{
|
|
double x1, y1;
|
|
double x2, y2;
|
|
|
|
x1 = -length / 2.0;
|
|
x2 = -pitch / 2.0;
|
|
y1 = dia / 2.0;
|
|
y2 = wireDia / 2.0;
|
|
|
|
if( inch )
|
|
{
|
|
fprintf( fp, "0 %d %d 0\n", (int) x1, (int) y1 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) x1, (int) y2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) x2, (int) y2 );
|
|
fprintf( fp, "0 %d %d 180\n", (int) x2, (int) -y2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) x1, (int) -y2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) x1, (int) -y1 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) -x1, (int) -y1 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) -x1, (int) -y2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) -x2, (int) -y2 );
|
|
fprintf( fp, "0 %d %d 180\n", (int) -x2, (int) y2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) -x1, (int) y2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) -x1, (int) y1 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) x1, (int) y1 );
|
|
}
|
|
else
|
|
{
|
|
fprintf( fp, "0 %.3f %.3f 0\n", x1, y1 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", x1, y2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", x2, y2 );
|
|
fprintf( fp, "0 %.3f %.3f 180\n", x2, -y2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", x1, -y2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", x1, -y1 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", -x1, -y1 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", -x1, -y2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", -x2, -y2 );
|
|
fprintf( fp, "0 %.3f %.3f 180\n", -x2, y2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", -x1, y2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", -x1, y1 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", x1, y1 );
|
|
}
|
|
|
|
return;
|
|
}
|
|
|
|
void writeRadialCyl( FILE* fp, bool inch, double dia, double length,
|
|
double wireDia, double pitch, double lead )
|
|
{
|
|
double x1, y1;
|
|
double x2, y2;
|
|
double x3;
|
|
|
|
// center is between the mounting holes
|
|
// which are on a horizontal line
|
|
y1 = lead + length;
|
|
y2 = lead;
|
|
x1 = dia / 2.0;
|
|
x2 = ( pitch + wireDia ) /2.0;
|
|
x3 = x2 - wireDia;
|
|
|
|
if( inch )
|
|
{
|
|
fprintf( fp, "0 %d %d 0\n", (int) -x1, (int) y1 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) -x1, (int) y2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) -x2, (int) y2 );
|
|
fprintf( fp, "0 %d 0 0\n", (int) -x2 );
|
|
fprintf( fp, "0 %d 0 180\n", (int) -x3 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) -x3, (int) y2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) x3, (int) y2 );
|
|
fprintf( fp, "0 %d 0 0\n", (int) x3 );
|
|
fprintf( fp, "0 %d 0 180\n", (int) x2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) x2, (int) y2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) x1, (int) y2 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) x1, (int) y1 );
|
|
fprintf( fp, "0 %d %d 0\n", (int) -x1, (int) y1 );
|
|
}
|
|
else
|
|
{
|
|
fprintf( fp, "0 %.3f %.3f 0\n", -x1, y1 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", -x1, y2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", -x2, y2 );
|
|
fprintf( fp, "0 %.3f 0 0\n", -x2 );
|
|
fprintf( fp, "0 %.3f 0 180\n", -x3 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", -x3, y2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", x3, y2 );
|
|
fprintf( fp, "0 %.3f 0 0\n", x3 );
|
|
fprintf( fp, "0 %.3f 0 180\n", x2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", x2, y2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", x1, y2 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", x1, y1 );
|
|
fprintf( fp, "0 %.3f %.3f 0\n", -x1, y1 );
|
|
}
|
|
|
|
return;
|
|
}
|