114 lines
3.1 KiB
C++
114 lines
3.1 KiB
C++
#include <wx/wx.h>
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#include <cstdio>
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#include "board.h"
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#include "pcb_track.h"
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#include <pcbexpr_evaluator.h>
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#include <io_mgr.h>
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#include <plugins/kicad/pcb_plugin.h>
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#include <unordered_set>
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#include <core/profile.h>
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bool testEvalExpr( const std::string expr, LIBEVAL::VALUE expectedResult, bool expectError = false,
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BOARD_ITEM* itemA = nullptr, BOARD_ITEM* itemB = nullptr )
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{
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PCBEXPR_COMPILER compiler( new PCB_UNIT_RESOLVER() );
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PCBEXPR_UCODE ucode;
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bool ok = true;
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PCBEXPR_CONTEXT context, preflightContext;
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context.SetItems( itemA, itemB );
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bool error = !compiler.Compile( expr, &ucode, &preflightContext );
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if( error )
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{
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if ( expectError )
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{
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ok = true;
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return ok;
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}
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else
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{
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ok = false;
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}
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}
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LIBEVAL::VALUE result;
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if( ok )
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{
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result = *ucode.Run( &context );
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ok = (result.EqualTo( &expectedResult) );
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}
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return ok;
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}
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int main( int argc, char *argv[] )
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{
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PROPERTY_MANAGER& propMgr = PROPERTY_MANAGER::Instance();
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propMgr.Rebuild();
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using VAL = LIBEVAL::VALUE;
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/* testEvalExpr( "10mm + 20 mm", VAL(30e6) );
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testEvalExpr( "3*(7+8)", VAL(3*(7+8)) );
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testEvalExpr( "3*7+8", VAL(3*7+8) );
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testEvalExpr( "(3*7)+8", VAL(3*7+8) );
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testEvalExpr( "10mm + 20)", VAL(0), true );
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*/
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BOARD brd;
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NETINFO_LIST& netInfo = brd.GetNetInfo();
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NETCLASSPTR netclass1( new NETCLASS("HV") );
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NETCLASSPTR netclass2( new NETCLASS("otherClass" ) );
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auto net1info = new NETINFO_ITEM( &brd, "net1", 1);
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auto net2info = new NETINFO_ITEM( &brd, "net2", 2);
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net1info->SetClass( netclass1 );
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net2info->SetClass( netclass2 );
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PCB_TRACK trackA( &brd );
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PCB_TRACK trackB( &brd );
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trackA.SetNet( net1info );
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trackB.SetNet( net2info );
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trackB.SetLayer( F_Cu );
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trackA.SetWidth( Mils2iu( 10 ) );
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trackB.SetWidth( Mils2iu( 20 ) );
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testEvalExpr( "A.fromTo('U1', 'U3') && A.NetClass == 'DDR3_A' ", VAL(0), false, &trackA, &trackB );
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return 0;
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// testEvalExpr( "A.onlayer('F.Cu') || A.onlayer('B.Cu')", VAL( 1.0 ), false, &trackA, &trackB );
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testEvalExpr( "A.type == 'Pad' && B.type == 'Pad' && (A.existsOnLayer('F.Cu'))", VAL( 0.0 ), false, &trackA, &trackB );
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return 0;
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testEvalExpr( "A.Width > B.Width", VAL( 0.0 ), false, &trackA, &trackB );
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testEvalExpr( "A.Width + B.Width", VAL( Mils2iu(10) + Mils2iu(20) ), false, &trackA, &trackB );
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testEvalExpr( "A.Netclass", VAL( (const char*) trackA.GetNetClassName().c_str() ), false, &trackA, &trackB );
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testEvalExpr( "(A.Netclass == 'HV') && (B.netclass == 'otherClass') && (B.netclass != 'F.Cu')", VAL( 1.0 ), false, &trackA, &trackB );
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testEvalExpr( "A.Netclass + 1.0", VAL( 1.0 ), false, &trackA, &trackB );
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testEvalExpr( "A.type == 'Track' && B.type == 'Track' && A.layer == 'F.Cu'", VAL( 0.0 ), false, &trackA, &trackB );
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testEvalExpr( "(A.type == 'Track') && (B.type == 'Track') && (A.layer == 'F.Cu')", VAL( 0.0 ), false, &trackA, &trackB );
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return 0;
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}
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