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merge into: Egalware/Include:VmillAdditivo
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Egalware/Include:master Egalware/Include:Nst_SurfFr Egalware/Include:Preview Egalware/Include:Trimming Egalware/Include:NewRuled Egalware/Include:FasterVMill5Axis_Bez3x1 Egalware/Include:FasterBezier Egalware/Include:MoreBezier Egalware/Include:Shell&Parts Egalware/Include:SetSmoothAngle Egalware/Include:Surf_Simp_Zmap Egalware/Include:VmillAdditivo Egalware/Include:Zmap Egalware/Include:CmdCreateSurfBezier Egalware/Include:RMF Egalware/Include:Cube Egalware/Include:Dijkstra Egalware/Include:develop Egalware/Include:Bezier_trim&mesh Egalware/Include:ExtDimension_Angular Egalware/Include:ThreeJS Egalware/Include:SaraP Egalware/Include:TempForVmill Egalware/Include:LorenzoM
Egalware/Include:AutoSave_2024/02/02 Egalware/Include:AutoSave_2024/03/08 Egalware/Include:AutoSave_2024/10/01
..
pull from: Egalware/Include:MoreBezier
Branches Tags
Egalware/Include:master Egalware/Include:Nst_SurfFr Egalware/Include:Preview Egalware/Include:Trimming Egalware/Include:NewRuled Egalware/Include:FasterVMill5Axis_Bez3x1 Egalware/Include:FasterBezier Egalware/Include:MoreBezier Egalware/Include:Shell&Parts Egalware/Include:SetSmoothAngle Egalware/Include:Surf_Simp_Zmap Egalware/Include:VmillAdditivo Egalware/Include:Zmap Egalware/Include:CmdCreateSurfBezier Egalware/Include:RMF Egalware/Include:Cube Egalware/Include:Dijkstra Egalware/Include:develop Egalware/Include:Bezier_trim&mesh Egalware/Include:ExtDimension_Angular Egalware/Include:ThreeJS Egalware/Include:SaraP Egalware/Include:TempForVmill Egalware/Include:LorenzoM
Egalware/Include:AutoSave_2024/02/02 Egalware/Include:AutoSave_2024/03/08 Egalware/Include:AutoSave_2024/10/01

119 Commits
VmillAdditivo .. MoreBezier

Author SHA1 Message Date
Daniele Bariletti b385f19273 Merge remote-tracking branch 'origin/master' into MoreBezier 2024-10-04 15:22:43 +02:00
Daniele Bariletti 5525970ea1 EgtExecutor : 
- aggiunto un parametro alla ExeCreateSurfBzSwept.
 2024-10-04 15:22:18 +02:00
Dario Sassi 0deab361c2 Include : 
- aggiornamento prototipi
-  aggiornamento mensile codici protezione librerie.
 2024-10-01 15:21:48 +02:00
Dario Sassi f4d5bb773e Include : 
- aggiornamento prototipi.
 2024-09-23 13:01:39 +02:00
Dario Sassi f9f1e61a52 Include : 
- aggiunte costanti per nuovi tipi di svuotature CONFORMAL.
 2024-09-20 14:19:21 +02:00
SaraP 3c02ee2dc0 Include : 
- aggiunti e modificati prototipi.
 2024-09-19 16:29:04 +02:00
Riccardo Elitropi d3528e3660 Include : 
- aggiunte costanti per CalcPocketing.
- aggiunta funzione di salvataggio su file.
 2024-09-19 09:03:49 +02:00
Daniele Bariletti 0399218643 Include : 
- aggiunta la funzione lua per SurfBzSwept
- aggiunta la funzione IsLine per CrvBez
- aggiunta la funzione InterpolatePointSetWithBezier
- aggiunte la SweptInPlane e Swept3d ( questa da implementare)
- modificata la CreateBySetOfCurves.
 2024-09-17 17:31:14 +02:00
Dario Sassi 83cfdfc50e Include : 
- aggiornamento mensile codici protezione librerie.
 2024-09-05 17:39:08 +02:00
Daniele Bariletti fe30d8316d Merge branch 'MoreBezier' 2024-09-05 15:04:26 +02:00
Daniele Bariletti 9b3ee95672 Include : 
- modifca agli argomenti della CalcRegionPolyLines.
 2024-09-05 12:10:28 +02:00
Daniele Bariletti 67e90e56dd Merge branch 'master' into MoreBezier 2024-09-04 15:52:58 +02:00
Daniele Bariletti 41671e933f Merge branch 'MoreBezier' 2024-09-04 15:52:05 +02:00
Daniele Bariletti d5b6c5c278 Include : 
- aggiunto un argomento alla CalcRegionPolyLines
- aggiunta la funzione CreateSurfBzByRegion Extrusion.
 2024-09-04 15:51:32 +02:00
Riccardo Elitropi a9b5a7285f Include : 
- In CalcPocketing aggiunto parametro Conformal One Way.
 2024-09-02 09:19:10 +02:00
Daniele Bariletti e07eaed52b Merge branch 'MoreBezier' 2024-08-30 16:16:51 +02:00
Dario Sassi 398a083be6 Include : 
- estese funzioni inline per leggere e scrivere variabili lua globali (ora anche tabelle complesse).
 2024-08-30 10:10:51 +02:00
Daniele Bariletti 843f69c529 Merge branch 'master' into MoreBezier 2024-08-29 09:25:44 +02:00
Daniele Bariletti 415493927e Include : 
- integrazione del codice per calcolo di una region.
 2024-08-29 08:52:51 +02:00
Daniele Bariletti d87a1037e6 Include : 
- modifica di parametri per la gestione dell'errore per le bezier.
 2024-08-26 16:48:53 +02:00
Dario Sassi 9891ab1d29 Merge remote-tracking branch 'origin/master' 2024-08-23 09:20:47 +02:00
Daniele Bariletti 32b9ee9f24 Include : 
- aggiunte e modificate funzioni per l'approssimazione delle curve di bezier.
 2024-08-22 16:01:30 +02:00
Riccardo Elitropi 6944705676 Include : 
- aggiornamento prototipo CalcPocketing.
 2024-08-22 12:53:04 +02:00
Dario Sassi 00f5e38f61 Include : 
- aggiornamento prototipi e costanti (per Mark).
 2024-08-22 09:09:18 +02:00
Dario Sassi 020dca78bd Include : 
- aggiornamento prototipi.
 2024-08-21 14:39:39 +02:00
Riccardo Elitropi 65b3fe80d1 Include : 
- in CalcPocketing, aggiunto parametro temporaneo di Smusso.
 2024-08-06 15:07:06 +02:00
Dario Sassi c57e44db02 Include : 
- unificazione funzioni AreSamePoint***
- aggiornamento mensile codici protezione librerie.
 2024-08-06 14:41:25 +02:00
Daniele Bariletti 30a394960c Merge branch 'MoreBezier' 2024-08-05 10:08:10 +02:00
Daniele Bariletti 50df61a97a Merge branch 'master' into MoreBezier 2024-08-05 08:47:10 +02:00
Dario Sassi 992b4d1562 Include : 
- aggiunta costante per parte iniziale del nome delle superfici che costituiscono l'utensile vero e proprio (per migliorare calcolo ingombri in link tra lavorazioni).
 2024-07-31 20:24:29 +02:00
Riccardo Elitropi 74c9c8d04e Include : 
- aggiunto parametro SURFROU_SUB_CONFORMAL_ZIGZAG.
 2024-07-30 18:37:40 +02:00
Daniele Bariletti e51df31d13 Include : 
- aggiunta di una funzione per la distanza tra punti.
 2024-07-30 16:25:17 +02:00
Riccardo Elitropi dd0a2818ee Include : 
- aggiunto parametro POCKET_CONFORMAL_ZIGZAG per CalcPocketing.
 2024-07-30 13:59:51 +02:00
Daniele Bariletti d6e6531d92 Include : 
- aggiunta di un enum per il calcolo della planarità di una superficie di Bezier.
 2024-07-25 16:25:43 +02:00
Riccardo Elitropi 5919ebd8ec Include : 
- aggiornamento prototipi.
 2024-07-25 12:28:43 +02:00
Daniele Bariletti f0968a8d40 Include : 
- aggiunte le skinned con le bezier.
 2024-07-19 13:14:53 +02:00
Riccardo Elitropi ba10a0cd58 EgtInclude : 
- aggiunte costanti in CalcPocketing.
 2024-07-19 10:21:00 +02:00
Dario Sassi f81bb32e20 Include : 
- aggiornamento prototipi (aggiunta classe Distanza Punto Regione).
 2024-07-18 20:16:07 +02:00
Daniele Bariletti 7d0a641b6d Merge branch 'master' into MoreBezier 2024-07-17 16:22:56 +02:00
SaraP d026cc2db7 Include : 
- aggiunto nuovo parametro per lavorazione WaterJet.
 2024-07-17 14:22:23 +02:00
Daniele Bariletti b691854993 Include : 
- aggiornamento prototipi.
 2024-07-16 17:10:30 +02:00
Daniele Bariletti fe25f6e009 Include : 
- aggiornamento prototipi.
 2024-07-16 11:23:35 +02:00
Daniele Bariletti 1c088f9e50 Merge branch 'MoreBezier' 2024-07-15 17:30:42 +02:00
Daniele Bariletti 88bbc2580b Merge branch 'master' into MoreBezier 2024-07-15 17:08:12 +02:00
SaraP 2468e5c1c5 Include: 
- aggiunto prototipo.
 2024-07-15 10:25:16 +02:00
Riccardo Elitropi af000e7c37 EgtInclude : 
- modifica parametri per funzione CalcPocketing.
 2024-07-12 17:35:15 +02:00
Daniele Bariletti 9464b52c0b Merge branch 'master' into MoreBezier 2024-07-12 12:09:29 +02:00
Dario Sassi 6534f7bc32 Include : 
- modifica estetica.
 2024-07-12 08:46:27 +02:00
Riccardo Elitropi 5ba17dda50 Include : 
- aggiornamento prototipi.
 2024-07-10 12:32:43 +02:00
Daniele Bariletti 64e225c11c Merge branch 'master' into MoreBezier 2024-07-10 08:53:51 +02:00
Dario Sassi 26869b633d Include : 
- aggiornamento prototipi.
 2024-07-09 16:49:17 +02:00
Daniele Bariletti fef9dd4ae5 Include : 
- aggiornamento modalità per le superfici rigate con le bezier.
 2024-07-09 15:53:36 +02:00
SaraP 1c6d7ed4ff Include : 
- aggiunti prototipi.
 2024-07-09 10:25:09 +02:00
SaraP dec545da2e Include : 
- aggiunto prototipo.
 2024-07-05 15:08:41 +02:00
Daniele Bariletti c4241bfb88 Merge branch 'master' into MoreBezier 2024-07-03 10:34:31 +02:00
Dario Sassi 77b84fdd17 Include : 
- aggiornamento prototipi.
 2024-07-01 12:45:27 +02:00
Dario Sassi 9a8be81fd6 Include : 
- aggiornamento mensile codici protezione librerie.
 2024-07-01 10:45:50 +02:00
Dario Sassi e148024db1 Include : 
- aggiornamento prototipi.
 2024-06-29 18:42:26 +02:00
Dario Sassi 4ede19d2ee Include : 
- a Vector3d aggiunta funzione inline GetRotate.
 2024-06-27 12:53:17 +02:00
Dario Sassi b4ee9e2b42 Include : 
- aggiornamento prototipi.
 2024-06-26 17:38:10 +02:00
Dario Sassi 5644f837ed Include : 
- aggiornamento prototipi.
 2024-06-26 08:41:10 +02:00
Dario Sassi d731ea7164 Merge branch 'master' of https://gitlab.steamware.net/egaltech/include 2024-06-25 19:13:08 +02:00
Riccardo Elitropi ca4eb9f166 Include : 
- modifica prototipo funzione CalcPocketing.
 2024-06-25 13:27:38 +02:00
Dario Sassi 29bc318eaa Merge remote-tracking branch 'origin/Shell&Parts' 2024-06-24 16:28:29 +02:00
Daniele Bariletti fda893f8e2 Merge branch 'master' into MoreBezier 2024-06-19 10:11:07 +02:00
Dario Sassi 675c09e36b Include : 
- aggiornamento prototipi.
 2024-06-18 07:33:33 +02:00
Dario Sassi e5873f66ce Include : 
- aggiornamento prototipi.
 2024-06-17 07:10:50 +02:00
Riccardo Elitropi d2880b5167 Include : 
- aggiunta funzioni in GeoObjSave.
 2024-06-14 16:49:09 +02:00
Dario Sassi a933bea836 Include : 
- aggiornamento prototipi.
 2024-06-13 07:58:47 +02:00
Dario Sassi 9dbb6fac60 Include : 
- aggiornamento prototipi.
 2024-06-11 09:32:30 +02:00
Dario Sassi d3c44f2241 Include : 
- negli oggetti HashGridsNd vietati costruttore di copia e assegnazione con copia di default.
 2024-06-07 19:04:05 +02:00
Daniele Bariletti e6f0be1896 Merge branch 'master' into MoreBezier 2024-06-06 09:23:23 +02:00
Dario Sassi 5d2497bc9c Include : 
- aggiornamento costanti di lavorazione.
 2024-06-05 17:15:47 +02:00
Daniele Bariletti b4c5b74e8a Merge branch 'master' into MoreBezier 2024-06-04 09:58:20 +02:00
Dario Sassi 38b0309079 Include : 
- aggiornamento parametri.
 2024-06-03 09:09:30 +02:00
Dario Sassi 60f71c0601 Include : 
- aggiornamento prototipi
- aggiornamento codice mensile di protezione librerie.
 2024-06-03 08:08:36 +02:00
Daniele Bariletti b3f6bd148a Include : 
- corretto un enum.
 2024-05-30 16:51:58 +02:00
Dario Sassi 3ded442847 Include : 
- aggiornamento prototipi.
 2024-05-30 15:20:45 +02:00
Dario Sassi 756f13e6d7 Include : 
- rese pubbliche costanti di tipo per calcolo svuotature.
 2024-05-30 08:45:10 +02:00
Dario Sassi 127fbb4be6 Include : 
- aggiornamento prototipi.
 2024-05-29 18:55:46 +02:00
Daniele Bariletti f72ee830ff Include : 
- aggiunte le funzioni per creare una rigata ( ruled ) come superficie Bezier.
- aggiunto l'enum per i tipi di rigata.
 2024-05-28 16:21:26 +02:00
Riccardo Elitropi c40a9a64c0 Include : 
- Aggiornamento prototipi.
 2024-05-28 11:02:53 +02:00
Riccardo Elitropi 196e037ace Include : 
- modifica classe DistPointSurfTm
 2024-05-27 09:23:54 +02:00
Dario Sassi a6ccda3670 Include : 
- aggiornamento prototipi.
 2024-05-27 07:52:13 +02:00
Dario Sassi a19e0e63a5 Include : 
- aggiunte costanti per sgrossatura superfici.
 2024-05-24 19:00:33 +02:00
Daniele Bariletti fa91c10973 Include : 
- cambiato il nome ad una funzione.
 2024-05-24 12:12:19 +02:00
Dario Sassi ad970a39f5 Include : 
- aggiornamento costanti per lavorazione 5 assi.
 2024-05-23 11:47:28 +02:00
Dario Sassi 3d7308fbd3 Merge remote-tracking branch 'origin/master' 2024-05-23 11:37:49 +02:00
Daniele Bariletti 85e69405f1 Merge branch 'master' into MoreBezier 2024-05-23 09:59:12 +02:00
Daniele Bariletti f4bb934999 Include : 
- piccola correzione.
 2024-05-23 09:58:05 +02:00
Daniele Bariletti 129bff73f0 Include : 
- cambiato nome alla funzione per mostrare i punti di controllo di una curva di Bezier.
 2024-05-23 09:40:24 +02:00
Daniele Bariletti 43eb33cf34 Merge remote-tracking branch 'origin/SetSmoothAngle' 2024-05-23 09:32:48 +02:00
Daniele Bariletti 5b6d056eb9 Include : 
- aggiunta la funzione SetSmoothAngle per superfici Trimesh.
 2024-05-22 17:19:32 +02:00
Daniele Bariletti 88a4a91835 Include : 
- aggiunta la funzione per ridurre di grado una curva Bezier.
 2024-05-22 12:15:35 +02:00
Daniele Bariletti a78f73f1f1 Include : 
- aggiunta la funzione per creare una surf bezier da rivoluzione ( revolve)
 2024-05-22 10:38:41 +02:00
Dario Sassi 90d548b69d Include : 
- aggiunta DistPointline.
 2024-05-22 08:17:30 +02:00
Daniele Bariletti 37768dc318 Merge branch 'master' into MoreBezier 2024-05-21 15:49:47 +02:00
Daniele Bariletti 82e86fcdee Include : 
- aggiunta la funzione di screwing con superfci di Bezier.
 2024-05-21 15:40:05 +02:00
Dario Sassi 728d677ad6 Merge remote-tracking branch 'origin/Surf_Simp_Zmap' 2024-05-20 09:03:20 +02:00
Riccardo Elitropi 360c3c1ab1 Include : 
- aggiunti prototipi.
 2024-05-15 11:03:33 +02:00
Dario Sassi 062512cd2e Include : 
- aggiunto include per DistLineLine.
 2024-05-13 15:14:12 +02:00
Daniele Bariletti bdd2f34184 Include : 
- aggiunte le funzioni per Bezier da FlatContour, da Region, da Extrusion e da Screwing.
 2024-05-13 10:32:02 +02:00
Daniele Bariletti 987a84181d Include : 
- spostata la funzione CalcRegionPolyLines.
 2024-05-13 10:29:48 +02:00
Daniele Bariletti 9617f36230 Include : 
- gestione del grado e della razionalità delle curve convertite in Bezier.
 2024-05-13 10:28:20 +02:00
Daniele Bariletti 14fe1a913a Include : 
- aggiunte le funziondi di SurfBez da estrusione e da FlatContour.
 2024-05-09 15:11:59 +02:00
Dario Sassi 9d7207e898 Include : 
- aggiornamento prototipi
- aggiunta funzione LuaSetParam per BOOLVECTOR.
 2024-05-09 11:19:57 +02:00
Daniele Bariletti f1ce998815 Include : 
- aggiunta funzione MakeRational per le curve di Bezier
- aggiunta funzione di conversione da ICurve a curva di Bezier semplice o composta.
 2024-05-08 17:50:46 +02:00
Daniele Bariletti 58ce7bc753 Include : 
- aggiunte le funzioni per proiettare curve su una superficie di Bezier.
 2024-05-08 16:02:20 +02:00
Dario Sassi 7d922116ed Include : 
- aggiornamento prototipi
- aggiunta funzione LuaSetParam per VCT3DVECTOR.
 2024-05-08 15:52:21 +02:00
Daniele Bariletti c3d3c1e0bc Merge branch 'master' into MoreBezier 2024-05-08 08:52:35 +02:00
Daniele Bariletti c45d88829a Include : 
- ArcToBezier ha come default la conversione da spirale a bezier di terzo grado 3.
 2024-05-07 17:39:36 +02:00
Daniele Bariletti ad87ee5da8 Include : 
- aggiunte le chiamate per le funzioni di creazioni di superfici Bezier da curve.
 2024-05-07 17:38:32 +02:00
Daniele Bariletti 079e9e027a Include : 
- aggiunte le funzioni per proiettare curve su una superficie di Bezier.
 2024-05-07 14:51:49 +02:00
Daniele Bariletti 88fa15f216 Merge branch 'master' into MoreBezier 2024-05-07 10:32:35 +02:00
Daniele Bariletti 8efa4243b0 Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2024-05-07 10:04:06 +02:00
Daniele Bariletti 7c3a4e4ef8 Include : 
- aggiunte le funzioni di conversione di curve in Bezier.
 2024-05-07 09:52:23 +02:00
Dario Sassi a5ae1f617a Include : 
- aggiornamento prototipi.
 2024-05-02 09:31:12 +02:00
Dario Sassi fbbefba01e Include : 
- aggiornamento mensile codici protezione librerie.
 2024-04-30 16:56:08 +02:00
Daniele Bariletti ece9282f17 Merge branch 'master' into MoreBezier 2024-04-30 15:21:37 +02:00
39 changed files with 947 additions and 97 deletions
Expand all files Collapse all files
EGkCAvSilhouetteSurfTm.h
+39
View File
@@ -0,0 +1,39 @@
//----------------------------------------------------------------------------
// EgalTech 2024-2024
//----------------------------------------------------------------------------
// File : EGkCAvSilhouetteSurfTm.h Data : 08.06.24 Versione : 2.6f2
// Contenuto : Dichiarazione della funzione calcolo silhouette.
//
//
//
// Modifiche : 08.06.24 DS Creazione modulo.
//
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkSurfTriMesh.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//-----------------------------------------------------------------------------
EGK_EXPORT bool CAvSilhouetteSurfTm( const ISurfTriMesh& Stm, const Plane3d& plPlane, double dTol, POLYLINEVECTOR& vPL) ;
//-----------------------------------------------------------------------------
class __declspec( novtable) ICAvParSilhouettesSurfTm
{
public :
virtual ~ICAvParSilhouettesSurfTm( void) {}
virtual bool SetData( const CISURFTMPVECTOR& vpStm, const Frame3d& frPlanes, double dTol) = 0 ;
virtual bool GetSilhouette( double dLevel, POLYLINEVECTOR& vPL) = 0 ;
} ;
//-----------------------------------------------------------------------------
EGK_EXPORT ICAvParSilhouettesSurfTm* CreateCAvParSilhouettesSurfTm( void) ;
EGkCAvToolSurfTm.h
+6 -2
View File
@@ -23,6 +23,8 @@
#define EGK_EXPORT __declspec( dllimport)
#endif
class ICurveComposite ;
//-----------------------------------------------------------------------------
class __declspec( novtable) ICAvToolSurfTm {
public :
@@ -36,8 +38,10 @@ class __declspec( novtable) ICAvToolSurfTm {
virtual double GetToolRadius( void) const = 0 ;
virtual double GetToolHeight( void) const = 0 ;
virtual const ICurveComposite& GetToolOutline( bool bApprox = false) const = 0 ;
virtual bool TestPosition( const Point3d& ptT, const Vector3d& vtDir, const Vector3d& vtMove, double& dTotDist) = 0 ;
virtual bool TestPath( PNTULIST& lPntM, const Vector3d& vtDir, const Vector3d& vtMove, double dLinTol) = 0 ;
virtual bool TestPosition( const Point3d& ptT, const Vector3d& vtDir, const Vector3d& vtMove,
double& dTotDist, Vector3d* pvtTriaN = nullptr) const = 0 ;
virtual bool TestSeries( PNTUVECTOR& vPntM, const Vector3d& vtDir, const Vector3d& vtMove, double dProgCoeff = 1) = 0 ;
virtual bool TestPath( PNTULIST& lPntM, const Vector3d& vtDir, const Vector3d& vtMove, double dLinTol, double dProgCoeff = 1) = 0 ;
} ;
//-----------------------------------------------------------------------------
EGkCalcPocketing.h
+23 -2
View File
@@ -25,7 +25,28 @@
#endif
//-----------------------------------------------------------------------------
EGK_EXPORT bool CalcPocketing( const ISurfFlatRegion* pSfr, double dRad, double dStep, double dAngle, int nType,
bool bSmooth, ICRVCOMPOPOVECTOR& vCrv) ;
EGK_EXPORT bool CalcPocketing( const ISurfFlatRegion* pSfr, double dRad, double dRadOffs, double dStep,
double dAngle, int nType, bool bSmooth, bool bInvert, bool bAvoidOpt,
bool bAllowZigZagOneWayBorders, const Point3d& ptEndPrec, const ISurfFlatRegion* pSfrLimit,
ICRVCOMPOPOVECTOR& vCrv) ;
EGK_EXPORT bool CalcZigZagInfill( const ISurfFlatRegion* pSfr, double dStep, bool bSmooth, bool bRemoveOverlapLink,
ICRVCOMPOPOVECTOR& vCrvCompoRes) ;
//-----------------------------------------------------------------------------
enum { POCKET_ZIGZAG = 0,
POCKET_ONEWAY = 1,
POCKET_SPIRALIN = 2,
POCKET_SPIRALOUT = 3,
POCKET_CONFORMAL_ZIGZAG = 4,
POCKET_CONFORMAL_ONEWAY = 5} ;
enum { TEMP_PROP_SMOOTH = -2,
TEMP_PROP_INVALID = -1,
TEMP_PROP_CLOSE_EDGE = 0,
TEMP_PROP_OPEN_EDGE = 1,
TEMP_PROP_OUT_START = 2,
TEMP_PROP_SINGLE_CURVE = 3,
TEMP_PROP_OPT_TRAPEZOID = 4,
TEMP_PROP_BORDER_CURVE = 5,
TEMP_PROP_CURVE_ACTIVE = 6,
TEMP_PROP_CURVE_INACTIVE = 7} ;
EGkCurveAux.h
+55 -3
View File
@@ -15,6 +15,8 @@
#include "/EgtDev/Include/EGkCurveComposite.h"
class ICurveBezier ;
class ICurveLine ;
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
@@ -44,9 +46,53 @@ struct CNurbsData
// N.B. : in caso la curva sia razionale i punti di controllo sono in forma NON OMOGENEA [ x, y, z, w] ( dove la forma OMOGENEA è [ w*x, w*y, w*z, w])
// tutte le operazioni richiedono la forma OMOGENEA, finite le quali posso riportarmi alla forma NON OMOGENEA
//----------------------------------------------------------------------------
//! Trasforma una linea in una nuova curva di Bezier semplice
EGK_EXPORT ICurve* CurveToBezierCurve( const ICurve* pCrv, int nDeg = 3, bool bMakeRatOrNot = true) ;
//----------------------------------------------------------------------------
//! Trasforma una linea in una nuova curva di Bezier semplice
EGK_EXPORT ICurveBezier* LineToBezierCurve( const ICurveLine* pLine, int nDeg = 3, bool bMakeRatOrNot = true) ;
//----------------------------------------------------------------------------
//! Trasforma un arco in una nuova curva di Bezier semplice o composta
EGK_EXPORT ICurve* ArcToBezierCurve( const ICurve* pArc) ;
EGK_EXPORT ICurve* ArcToBezierCurve( const ICurve* pArc, int nDeg = 3, bool bMakeRatOrNot = true) ;
//----------------------------------------------------------------------------
//! Trasforma una curva compo in una nuova curva di Bezier semplice o composta
EGK_EXPORT ICurve* CompositeToBezierCurve( const ICurveComposite* pCrvCompo, int nDeg = 3, bool bMakeRatOrNot = true) ;
//----------------------------------------------------------------------------
//! Trasforma una curva bezier in una nuova curva di Bezier semplice o composta della razionalità e grado desiderato ( minimo 3)
EGK_EXPORT ICurve* EditBezierCurve( const ICurveBezier* pCrvBezier, int nDeg = 3, bool bMakeRatOrNot = true, double dTol = 10 * EPS_SMALL) ;
//----------------------------------------------------------------------------
//! Approssima una bezier con una serie di bezier cubiche
EGK_EXPORT ICurve* ApproxBezierWithCubics( const ICurveBezier* pCrvBezier, double dTol) ;
//----------------------------------------------------------------------------
//! Approssima una bezier con una serie di bezier cubiche
EGK_EXPORT ICurveBezier* ApproxArcCurveBezierWithSingleCubic( const ICurveBezier* pCrvBezier, const Point3d& ptCen) ;
//----------------------------------------------------------------------------
//! Campiona una serie di punti dalla curva e li approssima con una o più curve di bezier
EGK_EXPORT ICurve* ApproxCurveWithBezier( const ICurve*, double dTol) ;
//----------------------------------------------------------------------------
//! Interpola un set di punti e li approssima con una o più curve di bezier cubiche
EGK_EXPORT ICurve* InterpolatePointSetWithBezier( const PNTVECTOR& vPnt, double dTol) ;
//----------------------------------------------------------------------------
//! Aumento il grado della curva di Bezier
EGK_EXPORT ICurveBezier* BezierIncreaseDegree( const ICurveBezier* pCrvBezier) ;
//----------------------------------------------------------------------------
//! Riduco il grado della curva di Bezier
EGK_EXPORT ICurveBezier* BezierDecreaseDegree( const ICurveBezier* pCrvBezier, double dTol) ;
//----------------------------------------------------------------------------
//! Misura l'errore di approsimazione tra la curva originale e quella modificata
EGK_EXPORT bool CalcBezierApproxError( const ICurveBezier* pCrvOri, const ICurveBezier* pCrvNew, double& dErr, int nPoints = 20) ;
//----------------------------------------------------------------------------
//! Trasforma una curva in una nuova curva semplice o composta senza archi (solo linee o curve di Bezier)
@@ -80,21 +126,27 @@ EGK_EXPORT ICurve* ProjectCurveOnPlane( const ICurve& crCrv, const Plane3d& plPl
EGK_EXPORT bool AdjustCurveSlope( ICurveComposite* pCrv, double dNini, double dNfin) ;
//----------------------------------------------------------------------------
//! Calcolo del diagramma di Voronoi della curva, nei TempParam dei risultati la distanza
//! Calcolo del diagramma di Voronoi della curva/e, nei TempParam dei risultati la distanza
//! Per nBound tenere valore di default.
EGK_EXPORT bool CalcCurveVoronoiDiagram( const ICurve& crvC, ICURVEPOVECTOR& vCrvs, int nBound = 3) ;
EGK_EXPORT bool CalcCurvesVoronoiDiagram( const CICURVEPVECTOR& vCrvC, ICURVEPOVECTOR& vCrvs, int nBound = 3) ;
//----------------------------------------------------------------------------
//! Calcolo del Medial Axis della curva (sottoinsieme del diagramma di Voronoi), nei TempParam dei risultati la distanza
//! Calcolo del Medial Axis della curva/e (sottoinsieme del diagramma di Voronoi), nei TempParam dei risultati la distanza
const int WMAT_BOTHSIDES = 0 ;
const int WMAT_LEFT = 1 ;
const int WMAT_RIGHT = 2 ;
EGK_EXPORT bool CalcCurveMedialAxis( const ICurve& crvC, ICURVEPOVECTOR& vCrvs, int nSide) ;
EGK_EXPORT bool CalcCurvesMedialAxis( const CICURVEPVECTOR& vCrvC, ICURVEPOVECTOR& vCrvs, int nSide) ;
//----------------------------------------------------------------------------
//! Calcola l'offset completo di una curva
EGK_EXPORT bool CalcCurveFatCurve( const ICurve& crvC, ICURVEPOVECTOR& vCrvs, double dRadius, bool bSquareEnds, bool bSquareMids) ;
//----------------------------------------------------------------------------
//! Calcola, nel caso di curve chiuse, il valore limite di offset ( in valore assoluto) che fa sparire la curva
EGK_EXPORT bool CalcCurveLimitOffset( const ICurve& crvC, double& dOffs) ;
//----------------------------------------------------------------------------
//! Resetta l'oggetto voronoi associato alla curva liberandone la memoria
EGK_EXPORT void ResetCurveVoronoi( const ICurve& crvC) ;
EGkCurveBezier.h
+7
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@@ -16,6 +16,7 @@
#include "/EgtDev/Include/EGkCurve.h"
class ICurveArc ;
class ICurveLine ;
//----------------------------------------------------------------------------
class __declspec( novtable) ICurveBezier : public ICurve
@@ -27,7 +28,9 @@ class __declspec( novtable) ICurveBezier : public ICurve
virtual bool Init( int nDeg, bool bIsRational) = 0 ;
virtual bool SetControlPoint( int nInd, const Point3d& ptCtrl) = 0 ;
virtual bool SetControlPoint( int nInd, const Point3d& ptCtrl, double dW) = 0 ;
virtual bool SetControlWeight( int nInd, double dW) = 0 ;
virtual bool FromArc( const ICurveArc& crArc) = 0 ;
virtual bool FromLine( const ICurveLine& crLine) = 0 ;
virtual int GetDegree( void) const = 0 ;
virtual bool IsRational( void) const = 0 ;
virtual bool IsAPoint( void) const = 0 ;
@@ -35,6 +38,10 @@ class __declspec( novtable) ICurveBezier : public ICurve
virtual double GetControlWeight( int nInd, bool* pbOk = NULL) const = 0 ;
virtual bool GetControlPolygonLength( double& dLen) const = 0 ;
virtual int GetSingularParam( double& dPar) const = 0 ;
virtual bool MakeRational( void) = 0 ;
virtual bool MakeRationalStandardForm( void) = 0 ;
virtual bool MakeNonRational( double dTol) = 0 ;
virtual bool IsALine( void) const = 0 ;
} ;
//-----------------------------------------------------------------------------
EGkDistLineLine.h
+60
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@@ -0,0 +1,60 @@
//----------------------------------------------------------------------------
// EgalTech 2020-2024
//----------------------------------------------------------------------------
// File : EGkDistLineLine.h Data : 10.05.24 Versione : 2.6e31
// Contenuto : Dichiarazione della classe distanza fra elementi lineari.
//
//
//
// Modifiche : 06.11.20 LM Creazione modulo.
// 10.05.24 DS Portata in Include.
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkPoint3d.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//----------------------------------------------------------------------------
class DistLineLine
{
public :
EGK_EXPORT DistLineLine( const Point3d& ptSt1, const Point3d& ptEn1,
const Point3d& ptSt2, const Point3d& ptEn2,
bool bIsSegment1 = true, bool bIsSegment2 = true) ;
EGK_EXPORT DistLineLine( const Point3d& ptSt1, const Vector3d& vtD1, double dLen1,
const Point3d& ptSt2, const Vector3d& vtD2, double dLen2,
bool bIsSegment1 = true, bool bIsSegment2 = true) ;
public :
EGK_EXPORT bool GetSqDist( double& dSqDist) const ;
EGK_EXPORT bool GetDist( double& dDist) const ;
EGK_EXPORT bool IsEpsilon( double dTol) const
{ double dSqDist ; return ( GetSqDist( dSqDist) && ( dSqDist < SQ_EPS_ZERO || dSqDist < dTol * dTol)) ; }
EGK_EXPORT bool IsSmall( void) const
{ return IsEpsilon( EPS_SMALL) ; }
EGK_EXPORT bool IsZero( void) const
{ return IsEpsilon( EPS_ZERO) ; }
EGK_EXPORT bool GetMinDistPoints( Point3d& ptMinDist1, Point3d& ptMinDist2) const ;
EGK_EXPORT bool GetPositionsAtMinDistPoints( double& dPos1, double& dPos2) const ;
private :
void Calculate( const Point3d& ptSt1, const Vector3d& vtD1, double dLen1,
const Point3d& ptSt2, const Vector3d& vtD2, double dLen2,
bool bIsSegment1, bool bIsSegment2) ;
private:
double m_dSqDist ;
mutable double m_dDist ;
double m_dPos1 ;
double m_dPos2 ;
Point3d m_ptMinDist1 ;
Point3d m_ptMinDist2 ;
} ;
EGkDistPointCurve.h
+2 -3
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@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2013-2014
// EgalTech 2013-2024
//----------------------------------------------------------------------------
// File : EGkDistPointCurve.h Data : 02.01.14 Versione : 1.5a1
// File : EGkDistPointCurve.h Data : 20.05.24 Versione : 2.6e5
// Contenuto : Dichiarazione della classe distanza punto da Curva.
//
//
@@ -68,7 +68,6 @@ class DistPointCurve
EGK_EXPORT bool GetMinDistInfo( int nInd, MinDistPCInfo& aInfo) const ;
private :
DistPointCurve( void) ;
void LineCalculate( const Point3d& ptP, const ICurve& Curve, bool bIsSegment) ;
void ArcCalculate( const Point3d& ptP, const ICurve& Curve) ;
void CrvBezierCalculate( const Point3d& ptP, const ICurve& Curve) ;
EGkDistPointLine.h
+65
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@@ -0,0 +1,65 @@
//----------------------------------------------------------------------------
// EgalTech 2013-2024
//----------------------------------------------------------------------------
// File : EGkDistPointLine.h Data : 20.05.24 Versione : 2.6e5
// Contenuto : Dichiarazione della classe distanza punto da linea/segmento.
//
//
//
// Modifiche : 30.12.12 DS Creazione modulo.
// 20.05.24 DS Pubblicato in Include.
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkPoint3d.h"
#include "/EgtDev/Include/EGkCurveLine.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//-----------------------------------------------------------------------------
class DistPointLine
{
friend class DistPointCurve ;
public :
EGK_EXPORT DistPointLine( const Point3d& ptP,
const ICurveLine& crvLine, bool bIsSegment = true) ;
EGK_EXPORT DistPointLine( const Point3d& ptP,
const Point3d& ptIni, const Point3d& ptFin, bool bIsSegment = true) ;
EGK_EXPORT DistPointLine( const Point3d& ptP,
const Point3d& ptIni, const Vector3d& vtDir, double dLen, bool bIsSegment = true) ;
public :
EGK_EXPORT bool GetSqDist( double& dSqDist) const ;
EGK_EXPORT bool GetDist( double& dDist) const ;
EGK_EXPORT bool IsEpsilon( double dTol) const
{ double dSqDist ; return ( GetSqDist( dSqDist) && ( dSqDist < SQ_EPS_ZERO || dSqDist < dTol * dTol)) ; }
EGK_EXPORT bool IsSmall( void) const
{ return IsEpsilon( EPS_SMALL) ; }
EGK_EXPORT bool IsZero( void) const
{ return IsEpsilon( EPS_ZERO) ; }
EGK_EXPORT int GetNbrMinDist( void) const
{ return (( m_dSqDist < 0) ? 0 : 1) ; }
EGK_EXPORT bool GetMinDistPoint( Point3d& ptMinDist) const ;
EGK_EXPORT bool GetParamAtMinDistPoint( double& dParam) const ;
private :
void Calculate( const Point3d& ptP,
const Point3d& ptIni, const Vector3d& vtDir, double dLen, bool bIsSegment) ;
private :
double m_dSqDist ;
mutable double m_dDist ;
double m_dParam ;
Point3d m_ptMinDist ;
} ;
EGkDistPointSurfFr.h
+72
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@@ -0,0 +1,72 @@
//----------------------------------------------------------------------------
// EgalTech 2024-2024
//----------------------------------------------------------------------------
// File : EGkDistPointSurfFr.h Data : 18.07.24 Versione : 2.6g5
// Contenuto : Dichiarazione della classe distanza Punto da FlatRegion.
//
//
//
// Modifiche : 18.07.24 DS Creazione modulo.
//
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkSurfFlatRegion.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//----------------------------------------------------------------------------
// Calcola la distanza tra punto e Flat Region.
// Risultati :
// - distanza
// - punto sulla superficie a minima distanza
// - indici del chunk e del loop e parametro del punto di frontiera a minima distanza
// - indicazione se il punto passato è sul bordo (PRS_ON), interno (PRS_IN) o esterno (PRS_OUT) alla regione.
// Note :
// - nel caso di più punti di frontiera vicini, ne viene calcolato solo uno
// - se il punto non giace nel piano della Regione
//----------------------------------------------------------------------------
//----------------------------------------------------------------------------
enum PrSide { PRS_IN = -1, PRS_ON = 0, PRS_OUT = +1} ;
// Corrispondono a MDS_LEFT, MDS_ON e MDS_RIGHT per giacitura punto rispetto a curva.
//----------------------------------------------------------------------------
class DistPointSurfFr
{
public :
EGK_EXPORT DistPointSurfFr( const Point3d& ptP, const ISurfFlatRegion& frSurf) ;
public :
EGK_EXPORT bool GetDist( double& dDist) const ;
EGK_EXPORT bool GetDistOnRegionPlane( double& dDist) const ;
EGK_EXPORT bool GetPointAtMinDist( Point3d& ptMinDistPoint) const ;
EGK_EXPORT bool GetParamAtMinDist( int& nMinChunk, int& nMinLoop, double& dMinPar) const ;
EGK_EXPORT bool GetSideAtMinDist( int& nSide) const ;
private :
void Calculate( const Point3d& ptP, const ISurfFlatRegion& frSurf) ;
private :
double m_dDist ;
double m_dDistOnPlane ;
int m_nMinChunk ;
int m_nMinLoop ;
double m_dMinPar ;
Point3d m_ptMinDistPoint ;
int m_nSide ;
} ;
//----------------------------------------------------------------------------
// Verifica velocizzata
EGK_EXPORT bool IsPointInsideSurfFr( const Point3d& ptP, const ISurfFlatRegion* pSfr, double dMinDist, bool& bInside, int& nChunk) ;
inline bool IsPointInsideSurfFr( const Point3d& ptP, const ISurfFlatRegion* pSfr, double dMinDist, bool& bInside)
{ int nChunk ; return IsPointInsideSurfFr( ptP, pSfr, dMinDist, bInside, nChunk) ;}
EGkDistPointSurfTm.h
+6 -2
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@@ -29,7 +29,8 @@
// - distanza
// - punto sulla superficie a minima distanza
// - indice del triangolo su cui giace il punto
// - indicazione se il punto di riferimento è dalla parte interna o esterna della superficie.
// - indicazione se il punto di riferimento è dalla parte interna o esterna della superficie ( se chiusa ).
// - indicazione se il punto di riferimento è a destra o sinistra della superficie ( se aperta )
//----------------------------------------------------------------------------
class DistPointSurfTm
{
@@ -47,7 +48,9 @@ class DistPointSurfTm
EGK_EXPORT bool GetMinDistPoint( Point3d& ptMinDistPoint) const ;
EGK_EXPORT bool GetMinDistTriaIndex( int& nMinDistTriaIndex) const ;
EGK_EXPORT bool IsPointInside( void) const
{ return m_bIsInside ; }
{ return ( m_bIsInside && m_bIsSurfClosed) ; }
EGK_EXPORT bool IsPointOnLeftSide( void) const
{ return m_bIsInside ;}
private :
void Calculate( const Point3d& ptP, const ISurfTriMesh& tmSurf) ;
@@ -57,6 +60,7 @@ class DistPointSurfTm
Point3d m_ptMinDistPoint ;
int m_nMinDistTriaIndex ;
bool m_bIsInside ;
bool m_bIsSurfClosed ;
} ;
//----------------------------------------------------------------------------
EGkFrame3d.h
+12 -1
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@@ -116,11 +116,22 @@ operator/( const Frame3d& frRef, const Frame3d& frDest)
return frNew ;
}
//----------------------------------------------------------------------------
//! Restituisce il frame inverso di quello passato
//----------------------------------------------------------------------------
inline const Frame3d
GetInvert( const Frame3d& frRef)
{
Frame3d frNew = GLOB_FRM ;
frNew.ToLoc( frRef) ;
return frNew ;
}
//----------------------------------------------------------------------------
//! Restituisce una copia in locale del frame passato
//----------------------------------------------------------------------------
inline const Frame3d
GetToLoc ( const Frame3d& frRef, const Frame3d& frDest)
GetToLoc( const Frame3d& frRef, const Frame3d& frDest)
{
Frame3d frNew = frRef ;
frNew.ToLoc( frDest) ;
EGkGdbConst.h
+2 -1
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@@ -58,7 +58,8 @@ enum GdbStatus { GDB_ST_OFF = 0,
//----------------- Costanti marcatura oggetti del DB geometrico ---------------
enum GdbMark { GDB_MK_OFF = 0,
GDB_MK_ON = 1} ;
GDB_MK_ON = 1,
GDB_MK_ON_2 = 2} ;
//----------------- Costante per numero proprietà temporanee -------------------
const int GDB_NUM_TEMP_PROP = 2 ;
EGkGdbFunct.h
+1 -1
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@@ -80,7 +80,7 @@ CalcMark( int nObjMark, int nParentMark)
if ( nObjMark == GDB_MK_OFF && nParentMark == GDB_MK_OFF)
return GDB_MK_OFF ;
return GDB_MK_ON ;
return ( nParentMark != GDB_MK_OFF ? nParentMark : nObjMark) ;
}
// ovviamente la marcatura si combina con lo stato, nel senso che un oggetto
// non visibile non viene nemmeno marcato
EGkGdbIterator.h
+1 -1
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@@ -104,7 +104,7 @@ class __declspec( novtable) IGdbIterator
virtual bool RevertStatus( void) = 0 ;
virtual bool GetStatus( int& nStat) const = 0 ;
virtual bool GetCalcStatus( int& nStat) const = 0 ;
virtual bool SetMark( void) = 0 ;
virtual bool SetMark( int nMark = GDB_MK_ON) = 0 ;
virtual bool ResetMark( void) = 0 ;
virtual bool GetMark( int& nMark) const = 0 ;
virtual bool GetCalcMark( int& nMark) const = 0 ;
EGkGeoObjSave.h
+171 -2
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@@ -21,7 +21,7 @@
bool
SaveGeoObj( IGeoObj* pGObj, const std::string& sFile, int nFlag = GDB_SV_BIN)
{
// verifico validità oggetto
// verifico validità oggetto
if ( pGObj == nullptr || ! pGObj->IsValid())
return false ;
// creo GeomDB temporaneo
@@ -47,7 +47,7 @@ bool
SaveGeoObj( std::vector<IGeoObj*> vpGObj, const std::string& sFile, int nFlag = GDB_SV_BIN)
{
for ( int i = 0 ; i < int( vpGObj.size()); ++i) {
// verifico validità oggetto
// verifico validità oggetto
if ( vpGObj[i] == nullptr || ! vpGObj[i]->IsValid() )
return false ;
}
@@ -74,5 +74,174 @@ SaveGeoObj( std::vector<IGeoObj*> vpGObj, const std::string& sFile, int nFlag =
for ( int i = 0 ; i < int( vIds.size()); ++i)
bOk = ( pGeomDB->RemoveGeoObjAndErase( vIds[i]) != nullptr ) && bOk ;
return bOk ;
}
//----------------------------------------------------------------------------
bool
SaveGeoObj( std::vector<std::vector<IGeoObj*>> vvpGObj, std::vector<Color> vCol,
const std::string& sFile, int nFlag = GDB_SV_BIN)
{
// verifico validità oggetti
for ( int i = 0 ; i < int( vvpGObj.size()) ; ++ i) {
for ( int j = 0 ; j < int( vvpGObj[i].size()) ; ++ j) {
if ( vvpGObj[i][j] == nullptr || ! vvpGObj[i][j]->IsValid())
return false ;
}
}
if ( int( vCol.size()) <= int( vvpGObj.size())) {
for ( int i = int( vCol.size()) ; i < int( vvpGObj.size()) ; ++ i)
vCol.push_back( BLACK) ;
}
else
return false ;
// creo GeomDB temporaneo
PtrOwner<IGeomDB> pGeomDB( CreateGeomDB()) ;
if ( IsNull( pGeomDB))
return false ;
INTVECTOR vIds ;
int nLayId = 0 ;
// creo il part
int nPartId = pGeomDB->AddGroup( GDB_ID_NULL, GDB_ID_ROOT, Frame3d()) ;
// per ogni elemento i-esimo, creo un layer
for ( int i = 0 ; i < int( vvpGObj.size()) ; ++i) {
// creo il layer
nLayId = pGeomDB->AddGroup( GDB_ID_NULL, nPartId, Frame3d()) ;
pGeomDB->SetMaterial( nLayId, vCol[i]) ;
for ( int j = 0 ; j < int( vvpGObj.size()) ; ++ j) {
// inserisco gli oggetti corrispondenti
int nId = pGeomDB->AddGeoObj( GDB_ID_NULL, nLayId, vvpGObj[i][j]) ;
vIds.push_back( nId) ;
if ( nId == GDB_ID_NULL)
return false ;
}
}
// eseguo il salvataggio
bool bOk = pGeomDB->Save( vIds, sFile, nFlag) ;
// rimuovo l'oggetto dal GeomDB
for ( int i = 0 ; i < int( vIds.size()) ; ++i)
bOk = ( pGeomDB->RemoveGeoObjAndErase( vIds[i]) != nullptr) && bOk ;
return bOk ;
}
//----------------------------------------------------------------------------
bool
SaveCurveCompo( ICRVCOMPOPOVECTOR& vCompo, bool bUniform, const std::string& sFile, int nFlag = GDB_SV_BIN)
{
// controllo validità delle curve
std::vector<IGeoObj*> vpGObj ;
for ( int i = 0 ; i < int( vCompo.size()) ; ++ i) {
if ( vCompo[i] == nullptr || ! vCompo[i]->IsValid())
return false ;
vpGObj.emplace_back( static_cast<IGeoObj*>( vCompo[i]->Clone())) ;
}
// creo GeomDB temporaneo
PtrOwner<IGeomDB> pGeomDB( CreateGeomDB()) ;
if ( IsNull( pGeomDB))
return false ;
INTVECTOR vIds ;
// se curve con colore uniforme
if ( bUniform)
return SaveGeoObj( vpGObj, sFile, nFlag) ;
// altrimenti scorro le sottocurve e le coloro in base alle temp prop
int nPartId = pGeomDB->AddGroup( GDB_ID_NULL, GDB_ID_ROOT, Frame3d()) ;
int nLayId = 0 ;
for ( int i = 0 ; i < int( vCompo.size()) ; ++i) {
// inserisco l'oggetto nel GeomDB (sotto pezzo/layer)
nLayId = pGeomDB->AddGroup( GDB_ID_NULL, nPartId, Frame3d()) ;
for ( int u = 0 ; u < vCompo[i]->GetCurveCount() ; ++ u) {
const ICurve* pCrv = vCompo[i]->GetCurve( u) ;
if ( pCrv == nullptr)
return false ;
int nId = pGeomDB->AddGeoObj( GDB_ID_NULL, nLayId, pCrv->Clone()) ;
pGeomDB->SetMaterial( nId, ( pCrv->GetTempProp( 0) == 1 ? RED :
( pCrv->GetTempProp( 0)) == 0 ? BLUE : WHITE)) ;
vIds.push_back( nId) ;
if ( nId == GDB_ID_NULL)
return false ;
}
}
// eseguo il salvataggio
bool bOk = pGeomDB->Save( vIds, sFile, nFlag) ;
// rimuovo l'oggetto dal GeomDB
for ( int i = 0 ; i < int( vIds.size()); ++i)
bOk = ( pGeomDB->RemoveGeoObjAndErase( vIds[i]) != nullptr) && bOk ;
return bOk ;
}
bool SaveVoronoi( const ICRVCOMPOPOVECTOR& vCrvsCompo, const ICURVEPOVECTOR& vBisectors,
bool bUniform, const std::string& sFile, int nFlag = GDB_SV_BIN)
{
// controllo validità delle curve
std::vector<IGeoObj*> vpGObj_crv ;
for ( int i = 0 ; i < int( vCrvsCompo.size()) ; ++ i) {
if ( vCrvsCompo[i] == nullptr || ! vCrvsCompo[i]->IsValid())
return false ;
vpGObj_crv.emplace_back( static_cast<IGeoObj*>( vCrvsCompo[i]->Clone())) ;
}
std::vector<IGeoObj*> vpGObj_bisect ;
for ( int i = 0 ; i < int( vBisectors.size()) ; ++ i) {
if ( vBisectors[i] == nullptr || ! vBisectors[i]->IsValid())
return false ;
vpGObj_bisect.emplace_back( static_cast<IGeoObj*>( vBisectors[i]->Clone())) ;
}
// creo GeomDB temporaneo
PtrOwner<IGeomDB> pGeomDB( CreateGeomDB()) ;
if ( IsNull( pGeomDB))
return false ;
INTVECTOR vIds ;
// salvo le curve
int nPartId = pGeomDB->AddGroup( GDB_ID_NULL, GDB_ID_ROOT, Frame3d()) ;
int nLayId = pGeomDB->AddGroup( GDB_ID_NULL, nPartId, Frame3d()) ;
pGeomDB->SetName( nLayId, "Curves") ;
for ( int i = 0 ; i < int( vpGObj_crv.size()) ; ++i) {
// inserisco l'oggetto nel GeomDB
int nId = pGeomDB->AddGeoObj( GDB_ID_NULL, nLayId, vpGObj_crv[i]->Clone()) ;
if ( nId == GDB_ID_NULL)
return false ;
vIds.push_back( nId) ;
pGeomDB->SetMaterial( nId, LIME) ;
}
// salvo i bisettori
nLayId = pGeomDB->AddGroup( GDB_ID_NULL, nPartId, Frame3d()) ;
pGeomDB->SetName( nLayId, "Bisectors") ;
for ( int i = 0 ; i < int( vpGObj_bisect.size()) ; ++i) {
// inserisco l'oggetto nel GeomDB
int nId = pGeomDB->AddGeoObj( GDB_ID_NULL, nLayId, vpGObj_bisect[i]->Clone()) ;
if ( nId == GDB_ID_NULL)
return false ;
vIds.push_back( nId) ;
if ( bUniform)
pGeomDB->SetMaterial( nId, RED) ;
else {
if ( vBisectors[i]->GetTempParam( 0) < EPS_SMALL ||
vBisectors[i]->GetTempParam( 1) < EPS_SMALL)
pGeomDB->SetMaterial( nId, ORANGE) ;
else
pGeomDB->SetMaterial( nId, RED) ;
}
pGeomDB->SetInfo( nId, "START_PARAM", vBisectors[i]->GetTempParam( 0)) ;
pGeomDB->SetInfo( nId, "END_PARAM", vBisectors[i]->GetTempParam( 1)) ;
}
// eseguo il salvataggio
bool bOk = pGeomDB->Save( vIds, sFile, nFlag) ;
// rimuovo l'oggetto dal GeomDB
for ( int i = 0 ; i < int( vIds.size()); ++i)
bOk = ( pGeomDB->RemoveGeoObjAndErase( vIds[i]) != nullptr) && bOk ;
return bOk ;
}
EGkGeomDB.h
+1 -1
View File
@@ -134,7 +134,7 @@ class __declspec( novtable) IGeomDB
virtual bool RevertStatus( int nId) = 0 ;
virtual bool GetStatus( int nId, int& nStat) const = 0 ;
virtual bool GetCalcStatus( int nId, int& nStat) const = 0 ;
virtual bool SetMark( int nId) = 0 ;
virtual bool SetMark( int nId, int nMark = GDB_MK_ON) = 0 ;
virtual bool ResetMark( int nId) = 0 ;
virtual bool GetMark( int nId, int& nMark) const = 0 ;
virtual bool GetCalcMark( int nId, int& nMark) const = 0 ;
EGkHashGrids1d.h
+3 -3
View File
@@ -56,11 +56,11 @@ private :
typedef std::list<ObjData> ObjList ;
typedef std::vector<ObjData*> PtrObjVector ;
typedef std::unordered_map<int,ObjData*> IntPObjUmap ;
typedef std::list<HashGrid1d*> GridList ;
private :
typedef std::list<HashGrid1d*> GridList ; // Tipo per lista di hash grid
private :
HashGrids1d( const HashGrids1d&) = delete ;
HashGrids1d& operator=( const HashGrids1d&) = delete ;
void addGrid( ObjData& obj) ;
void addList( ObjData& obj) ;
EGkHashGrids2d.h
+3 -3
View File
@@ -56,11 +56,11 @@ class HashGrids2d
typedef std::list<ObjData> ObjList ;
typedef std::vector<ObjData*> PtrObjVector ;
typedef std::unordered_map<int,ObjData*> IntPObjUmap ;
typedef std::list<HashGrid2d*> GridList ;
private :
typedef std::list<HashGrid2d*> GridList ; // Tipo per lista di hash grid
private :
HashGrids2d( const HashGrids2d&) = delete ;
HashGrids2d& operator=( const HashGrids2d&) = delete ;
void addGrid( ObjData& obj) ;
void addList( ObjData& obj) ;
EGkHashGrids3d.h
+3 -3
View File
@@ -56,11 +56,11 @@ class HashGrids3d
typedef std::list<ObjData> ObjList ;
typedef std::vector<ObjData*> PtrObjVector ;
typedef std::unordered_map<int,ObjData*> IntPObjUmap ;
typedef std::list<HashGrid3d*> GridList ;
private :
typedef std::list<HashGrid3d*> GridList ; // Tipo per lista di hash grid
private :
HashGrids3d( const HashGrids3d&) = delete ;
HashGrids3d& operator=( const HashGrids3d&) = delete ;
void addGrid( ObjData& obj) ;
void addList( ObjData& obj) ;
EGkLuaAux.h
+29 -1
View File
@@ -1,13 +1,14 @@
//----------------------------------------------------------------------------
// EgalTech 2015-2024
//----------------------------------------------------------------------------
// File : EGkLuaAux.h Data : 14.04.24 Versione : 2.6d4
// File : EGkLuaAux.h Data : 08.05.24 Versione : 2.6e2
// Contenuto : Funzioni per gestione parametri geometrici con LUA.
//
//
//
// Modifiche : 21.03.15 DS Creazione modulo.
// 14.04.24 DS Aggiunta gestione Quaternion.
// 08.05.24 DS Aggiunta LuaSetParam per VCT3DVECTOR.
//
//----------------------------------------------------------------------------
@@ -276,6 +277,33 @@ LuaSetParam( lua_State* L, const Vector3d& vtPar)
return true ;
}
//-------------------------------------------------------------------------------
inline bool
LuaSetParam( lua_State* L, const VCT3DVECTOR& vPar)
{
try {
// recupero dimensione vettore
int nDim = int( vPar.size()) ;
// creo tavola principale
lua_createtable( L, nDim, 0) ;
// creo e inserisco tavola per ogni componente
for ( int i = 1 ; i <= nDim ; ++ i) {
// creo tavola componente
lua_createtable( L, 3, 0) ;
for ( int j = 1 ; j <= 3 ; ++ j) {
lua_pushnumber( L, vPar[i-1].v[j-1]) ;
lua_rawseti( L, -2, j) ;
}
// la metto nel vettore
lua_rawseti( L, -2, i) ;
}
}
catch( ...) {
return false ;
}
return true ;
}
//----------------------------------------------------------------------------
inline bool
LuaSetParam( lua_State* L, const Point3d& ptPar)
EGkPoint3d.h
+30 -3
View File
@@ -323,7 +323,16 @@ DirDist( const Point3d& ptP1, const Point3d& ptP2, Vector3d& vtDir, double& dDis
inline bool
AreSamePointEpsilon( const Point3d& ptP1, const Point3d& ptP2, double dToler)
{
return ( SqDist( ptP1, ptP2) < ( dToler * dToler)) ;
double dX = ptP1.x - ptP2.x ;
if ( abs( dX) > dToler)
return false ;
double dY = ptP1.y - ptP2.y ;
if ( abs( dY) > dToler)
return false ;
double dZ = ptP1.z - ptP2.z ;
if ( abs( dZ) > dToler)
return false ;
return ( ( dX * dX + dY * dY + dZ * dZ) < ( dToler * dToler)) ;
}
//----------------------------------------------------------------------------
@@ -341,7 +350,16 @@ AreSamePointXYEpsilon( const Point3d& ptP1, const Point3d& ptP2, double dToler)
inline bool
AreSamePointApprox( const Point3d& ptP1, const Point3d& ptP2)
{
return ( SqDist( ptP1, ptP2) < SQ_EPS_SMALL) ;
double dX = ptP1.x - ptP2.x ;
if ( abs( dX) > EPS_SMALL)
return false ;
double dY = ptP1.y - ptP2.y ;
if ( abs( dY) > EPS_SMALL)
return false ;
double dZ = ptP1.z - ptP2.z ;
if ( abs( dZ) > EPS_SMALL)
return false ;
return ( ( dX * dX + dY * dY + dZ * dZ) < SQ_EPS_SMALL) ;
}
//----------------------------------------------------------------------------
@@ -359,7 +377,16 @@ AreSamePointXYApprox( const Point3d& ptP1, const Point3d& ptP2)
inline bool
AreSamePointExact( const Point3d& ptP1, const Point3d& ptP2)
{
return ( SqDist( ptP1, ptP2) < SQ_EPS_ZERO) ;
double dX = ptP1.x - ptP2.x ;
if ( abs( dX) > EPS_ZERO)
return false ;
double dY = ptP1.y - ptP2.y ;
if ( abs( dY) > EPS_ZERO)
return false ;
double dZ = ptP1.z - ptP2.z ;
if ( abs( dZ) > EPS_ZERO)
return false ;
return ( ( dX * dX + dY * dY + dZ * dZ) < SQ_EPS_ZERO) ;
}
//----------------------------------------------------------------------------
EGkProjectCurveSurfBez.h
+37
View File
@@ -0,0 +1,37 @@
//----------------------------------------------------------------------------
// EgalTech 2024-2024
//----------------------------------------------------------------------------
// File : EGkProjectCurveSurfTm.h Data : 07.05.24 Versione : 2.6e3
// Contenuto : Dichiarazione funzioni proiezione curve su superficie Bezier.
//
//
//
// Modifiche : 07.05.24 DB Creazione modulo.
//
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkGeoPoint3d.h"
#include "/EgtDev/Include/EGkCurve.h"
#include "/EgtDev/Include/EGkSurfBezier.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//----------------------------------------------------------------------------
// Proiezione di una curva su una superficie TriMesh lungo la direzione data.
EGK_EXPORT bool ProjectCurveOnSurfBez( const ICurve& crCrv, const ISurfBezier& surfBez, const Vector3d& vtDir,
double dLinTol, double dMaxSegmLen, PNT5AXVECTOR& vPt5ax) ;
EGK_EXPORT bool ProjectCurveOnSurfBez( const ICurve& crCrv, const ISurfBezier& surfBez, const IGeoPoint3d& gpRef,
double dLinTol, double dMaxSegmLen, PNT5AXVECTOR& vPt5ax) ;
EGK_EXPORT bool ProjectCurveOnSurfBez( const ICurve& crCrv, const ISurfBezier& surfBez, const ICurve& crRef,
double dLinTol, double dMaxSegmLen, PNT5AXVECTOR& vPt5ax) ;
EGK_EXPORT bool ProjectCurveOnSurfBez( const ICurve& crCrv, const ISurfBezier& surfBez, const ISurfTriMesh& tmRef,
double dLinTol, double dMaxSegmLen, PNT5AXVECTOR& vPt5ax) ;
EGkSbzFromCurves.h
+49
View File
@@ -0,0 +1,49 @@
//----------------------------------------------------------------------------
// EgalTech 2024-2024
//----------------------------------------------------------------------------
// File : EGkSbzFromCurves.h Data : 07.05.24 Versione : 2.6d2
// Contenuto : Prototipi funzioni di creazione TriMesh a partire da curve.
//
//
//
// Modifiche : 07.05.24 DB Creazione modulo.
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkCurve.h"
#include "/EgtDev/Include/EGkSurfFlatRegion.h"
#include "/EgtDev/Include/EGkSurfTriMesh.h"
#include "/EgtDev/Include/EGkSurfBezier.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
////----------------------------------------------------------------------------
//enum RS_CAP { RSCAP_NONE = 0, RSCAP_FLAT = 1, RSCAP_ROUND = 2, RSCAP_BEVEL = 3} ;
//----------------------------------------------------------------------------
EGK_EXPORT ISurfBezier* GetSurfBezierByFlatContour( const ICurve* pCurve, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierByRegion( const CICURVEPVECTOR& vpCurve, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierByExtrusion( const ICurve* pCurve, const Vector3d& vtExtr,
bool bCapEnds, double dLinTol = 10 * EPS_SMALL) ;
//EGK_EXPORT ISurfBezier* GetSurfBezierByRegionExtrusion( const CICURVEPVECTOR& vpCurve, const Vector3d& vtExtr,
// double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierByRevolve( const ICurve* pCurve, const Point3d& ptAx,
const Vector3d& vtAx, bool bCapEnds, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierByScrewing( const ICurve* pCurve, const Point3d& ptAx, const Vector3d& vtAx,
double dAngRotDeg, double dMove, bool bCapEnds, double dLinTol = 10 * EPS_SMALL) ;
//EGK_EXPORT ISurfBezier* GetSurfBezierRectSwept( double dDimH, double dDimV, double dBevelH, double dBevelV,
// const ICurve* pGuide, int nCapType, double dLinTol = 10 * EPS_SMALL) ;
//EGK_EXPORT ISurfBezier* GetSurfBezierTransSwept( const ICurve* pSect, const ICurve* pGuide, bool bCapEnds, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierRuled( const Point3d& ptP, const ICurve* pCurve, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierRuled( const ICurve* pCurve1, const ICurve* pCurve2, int nType, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierSkinned( const CICURVEPVECTOR& vCrv, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierSweptInPlane( const ICurve* pSect, const ICurve* pGuide, const Vector3d& vtNorm, bool bCapEnds, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierSwept3d( const ICurve* pSect, const ICurve* pGuide, const Vector3d& vtNorm, bool bCapEnds, double dLinTol = 10 * EPS_SMALL) ;
EGkSbzStandard.h
+1 -1
View File
@@ -24,4 +24,4 @@
#endif
//----------------------------------------------------------------------------
EGK_EXPORT ISurfBezier* CreateBezierSphere( const Point3d& ptCenter, double dR) ;
EGK_EXPORT ISurfBezier* GetSurfBezierSphere( const Point3d& ptCenter, double dR) ;
EGkSfrCreate.h
+2
View File
@@ -35,6 +35,8 @@ EGK_EXPORT ISurfFlatRegion* GetSurfFlatRegionFromFatCurve( ICurve* pCrv, double
EGK_EXPORT ISurfFlatRegion* GetSurfFlatRegionFromTriangle( const Triangle3d& Tria) ;
EGK_EXPORT ISurfFlatRegion* GetSurfFlatRegionFromPolyLine( const PolyLine& ContourPolyLine) ;
EGK_EXPORT ISurfFlatRegion* GetSurfFlatRegionFromPolyLineVector( const POLYLINEVECTOR& vContoursPolyLineVec) ;
EGK_EXPORT bool CalcRegionPolyLines( const POLYLINEVECTOR& vPL, Vector3d& vtN, INTMATRIX& vnPLIndMat, BOOLVECTOR& vbInvert) ; // la funzione restituisce una matrice con la struttura dei chunk e un vettore che indica se invertire le polyline
//----------------------------------------------------------------------------
class SurfFlatRegionByContours
EGkSurfBezier.h
+17 -1
View File
@@ -28,7 +28,16 @@ class __declspec( novtable) ISurfBezier : public ISurf
public :
enum Side { FROM_MINUS = -1, // da valori inferiori del parametro
FROM_PLUS = 1} ; // da valori superiori del parametro
public : // IGeoObj
public :
enum RuledType { RLT_B_ISOPAR = 0, // con parametrizzazione simile tra le due curve
RLT_B_MINDIST = 1, // con distanza minima tra le due curve, usando start e end delle curve presenti
RLT_B_MINDIST_PLUS = 2, // con distanza minima tra le due curve, aggiungendo punti lungo le curve dove necessario
RLT_B_LENPAR = 3} ; // aggiungo punti alla curve in modo da matchare meglio le sottocurve, inoltre parametrizzo le curve in base alla lunghezza e non al numero di curve
enum Is_Planar { NOT_CALCULATED = -1,
NOT_PLANAR_SURF = 0 ,
PLANAR_SURF = 1};
public : // IGeoObj
ISurfBezier* Clone( void) const override = 0 ;
public :
virtual bool CopyFrom( const IGeoObj* pGObjSrc) = 0 ;
@@ -73,6 +82,13 @@ class __declspec( novtable) ISurfBezier : public ISurf
virtual bool IncreaseUV( Point3d& ptUV, Vector3d vtH , Point3d* ptUVCopy, bool bModifyOrig) const = 0 ;
virtual bool GetLoops( ICRVCOMPOPOVECTOR& vCC, bool bLineOrBezier, int nEdge = -1) const = 0 ;
virtual bool IsPlanar( void) const = 0 ;
virtual bool CreateByFlatContour( const PolyLine& PL) = 0 ;
virtual bool CreateByRegion( const POLYLINEVECTOR& vPL) = 0 ;
virtual bool CreateByExtrusion( const ICurve* pCrv, const Vector3d& vtExtr, bool bDeg3OrDeg2 = false) = 0 ;
virtual bool CreateByScrewing( const ICurve* pCurve, const Point3d& ptAx, const Vector3d& vtAx, double dAngRotDeg, double dMove) = 0 ;
virtual bool CreateByPointCurve( const Point3d& pt, const ICurve* pCurve) = 0 ;
virtual bool CreateByTwoCurves( const ICurve* pCurve1, const ICurve* pCurve2, int nType) = 0 ;
virtual bool CreateBySetOfCurves( const ICURVEPOVECTOR& vCrvBez, bool bReduceToDeg3 = true) = 0 ;
} ;
//-----------------------------------------------------------------------------
EGkSurfFlatRegion.h
+23 -11
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2015-2015
// EgalTech 2015-2024
//----------------------------------------------------------------------------
// File : EGkSurfFlatRegion.h Data : 05.08.15 Versione : 1.6h2
// File : EGkSurfFlatRegion.h Data : 18.07.24 Versione : 2.6g5
// Contenuto : Dichiarazione della interfaccia ISurfFlatRegion.
//
//
@@ -27,7 +27,7 @@ class __declspec( novtable) ISurfFlatRegion : public ISurf
ISurfFlatRegion* Clone( void) const override = 0 ;
public :
virtual bool CopyFrom( const IGeoObj* pGObjSrc) = 0 ;
virtual bool Clear( void) ;
virtual bool Clear( void) = 0 ;
virtual bool AddExtLoop( const ICurve& cCrv) = 0 ;
virtual bool AddExtLoop( ICurve* pCrv) = 0 ;
virtual bool AddIntLoop( const ICurve& cCrv) = 0 ;
@@ -40,18 +40,30 @@ class __declspec( novtable) ISurfFlatRegion : public ISurf
virtual bool GetGrossArea( double& dArea) const = 0 ;
virtual const Point3d& GetPlanePoint( void) const = 0 ;
virtual const Vector3d& GetNormVersor( void) const = 0 ;
virtual bool CalcVoronoiDiagram( ICURVEPOVECTOR& vCrvs, int nBound = 3) const = 0 ;
virtual void ResetVoronoiObject( void) const = 0 ;
virtual bool GetMaxOffset( double& dOffs) const = 0 ;
virtual bool CalcMedialAxis( ICURVEPOVECTOR& vCrvs, int nSide = 1) const = 0 ;
virtual const ISurfTriMesh* GetAuxSurf( void) const = 0 ;
virtual bool GetCurveClassification( const ICurve& Crv, double dLenMin, CRVCVECTOR& ccClass) const = 0 ;
virtual int GetChunkCount( void) const = 0 ;
virtual ISurfFlatRegion* CloneChunk( int nChunk) const = 0 ;
virtual bool EraseChunk(int nChunk) = 0 ;
virtual bool GetChunkCentroid( int nChunk, Point3d& ptCen) const = 0 ;
virtual bool GetChunkArea( int nChunk, double& dArea) const = 0 ;
virtual bool GetChunkPerimeter( int nChunk, double& dLen) const = 0 ;
virtual int GetChunkSimpleClassification( int nChunk, const ISurfFlatRegion& Other, int nOthChunk) const ; // compare only outsides
virtual bool GetChunkMaxOffset( int nChunk, double& dOffs) const = 0 ;
virtual int GetLoopCount( int nChunk) const = 0 ;
virtual int GetLoopCurveCount( int nChunk, int nLoop) const = 0 ;
virtual ICurve* GetLoop( int nChunk, int nLoop) const = 0 ; // nChunk 0-based, nLoop 0-based (1°esterno, successivi interni)
virtual bool ApproxLoopWithLines( int nChunk, int nLoop, double dLinTol, double dAngTolDeg, int nType, PolyLine& PL) const = 0 ;
virtual const ISurfTriMesh* GetAuxSurf( void) const = 0 ;
virtual ISurfFlatRegion* CloneChunk( int nChunk) const = 0 ;
virtual bool GetChunkCentroid( int nChunk, Point3d& ptCen) const ;
virtual bool GetCurveClassification( const ICurve& Crv, double dLenMin, CRVCVECTOR& ccClass) const = 0 ;
virtual int GetChunkSimpleClassification( int nChunk, const ISurfFlatRegion& Other, int nOthChunk) const ; // compare only outsides
virtual bool CalcVoronoiDiagram( ICURVEPOVECTOR& vCrvs, int nBound = 3) const = 0 ;
virtual bool CalcMedialAxis( ICURVEPOVECTOR& vCrvs, int nSide = 1) const = 0 ;
virtual void ResetVoronoiObject( void) const = 0 ;
virtual bool SetCurveTempProp( int nChunk, int nLoop, int nCrv, int nProp, int nPropInd = 0) = 0 ;
virtual bool GetCurveTempProp( int nChunk, int nLoop, int nCrv, int& nProp, int nPropInd = 0) const = 0 ;
virtual bool ResetAllCurveTempProps( void) = 0 ;
virtual bool SetCurveTempParam( int nChunk, int nLoop, int nCrv, double dParam, int nParamInd = 0) = 0 ;
virtual bool GetCurveTempParam( int nChunk, int nLoop, int nCrv, double& dParam, int nParamInd = 0) const = 0 ;
virtual bool ResetAllCurveTempParams( void) = 0 ;
} ;
//-----------------------------------------------------------------------------
EGkSurfTriMesh.h
+10 -1
View File
@@ -50,7 +50,7 @@ class __declspec( novtable) ISurfTriMesh : public ISurf
virtual bool RemoveTriangle( int nId) = 0 ;
virtual bool AdjustTopology( void) = 0 ;
virtual bool CreateByFlatContour( const PolyLine& PL) = 0 ;
virtual bool CreateByRegion( const POLYLINEVECTOR& vPL) = 0 ;
virtual bool CreateByRegion( const POLYLINEVECTOR& vPL, const INTMATRIX& vnPLIndMat) = 0 ;
virtual bool CreateByExtrusion( const PolyLine& PL, const Vector3d& vtExtr) = 0 ;
virtual bool CreateByPointCurve( const Point3d& ptP, const PolyLine& PL) = 0 ;
virtual bool CreateByTwoCurves( const PolyLine& PL1, const PolyLine& PL2, int nRuledType) = 0 ;
@@ -89,6 +89,7 @@ class __declspec( novtable) ISurfTriMesh : public ISurf
virtual ISurfTriMesh* CloneTriangle( int nTria) const = 0 ;
virtual bool GetLoops( POLYLINEVECTOR& vPL) const = 0 ;
virtual bool GetSilhouette( const Vector3d& vtDir, double dTol, POLYLINEVECTOR& vPL, bool bAllTria = false) const = 0 ;
virtual bool GetSilhouette( const Plane3d& plPlane, double dTol, POLYLINEVECTOR& vPL, bool bAllTria = false) const = 0 ;
virtual int GetFacetCount( void) const = 0 ;
virtual int GetFacetSize( void) const = 0 ;
virtual int GetFacetFromTria( int nT) const = 0 ;
@@ -123,9 +124,17 @@ class __declspec( novtable) ISurfTriMesh : public ISurf
virtual bool Repair( double dMaxEdgeLen = MAX_EDGE_LEN_STD) = 0 ;
virtual bool GetAllTriaOverlapBox( const BBox3d& b3Box, INTVECTOR& vT) const = 0 ;
virtual const BBox3d& GetAllTriaBox( void) const = 0 ;
virtual int GetShellCount( void) const = 0 ;
virtual bool GetShellArea( int nShell, double& dArea) const = 0 ;
virtual bool RemoveShell( int nShell) = 0 ;
virtual ISurfTriMesh* CloneShell( int nShell) const = 0 ;
virtual int GetPartCount( void) const = 0 ;
virtual bool GetPartArea( int nPart, double& dArea) const = 0 ;
virtual bool GetPartVolume( int nPart, double& dVolume) const = 0 ;
virtual bool RemovePart( int nPart) = 0 ;
virtual ISurfTriMesh* ClonePart( int nPart) const = 0 ;
virtual bool SetTFlag( int nId, int nTFlag) = 0 ;
virtual bool GetTFlag( int nId, int& nFlag) const = 0 ;
virtual int GetMaxTFlag( void) const = 0 ;
virtual bool ResetTFlags( void) = 0 ;
} ;
EGkVector3d.h
+11
View File
@@ -441,6 +441,17 @@ AreOrthoExact( const Vector3d& vtV1, const Vector3d& vtV2)
return ( abs( vtV1 * vtV2) < COS_ORTO_ANG_ZERO) ;
}
//----------------------------------------------------------------------------
//! Restituisce una copia ruotata del vettore passato
//----------------------------------------------------------------------------
inline const Vector3d
GetRotate( const Vector3d& vtV, const Vector3d& vtAx, double dAngDeg)
{
Vector3d vtW = vtV ;
vtW.Rotate( vtAx, dAngDeg) ;
return vtW ;
}
//----------------------------------------------------------------------------
//! Restituisce una copia in locale del vettore passato
//----------------------------------------------------------------------------
EGkVolZmap.h
+2
View File
@@ -88,6 +88,8 @@ class __declspec( novtable) IVolZmap : public IGeoObj
virtual IVolZmap* ClonePart( int nPart) const = 0 ;
virtual bool RemovePart( int nPart) = 0 ;
virtual int GetPartMinDistFromPoint( const Point3d& ptP) const = 0 ;
virtual bool AddSurfTm( const ISurfTriMesh* pStm) = 0 ;
virtual bool MakeUniform( double dToler) = 0 ;
} ;
//-----------------------------------------------------------------------------
EGnLuaAux.h
+89 -17
View File
@@ -229,7 +229,11 @@ LuaGetTabFieldParam( lua_State* L, int nInd, const char* szField, T& Val)
{
if ( ! lua_istable( L, nInd))
return false ;
lua_getfield( L, nInd, szField) ;
int nField ;
if ( FromString( szField, nField))
lua_rawgeti( L, nInd, nField) ;
else
lua_getfield( L, nInd, szField) ;
bool bOk = LuaGetParam( L, -1, Val) ;
lua_pop( L, 1) ;
return bOk ;
@@ -323,6 +327,24 @@ LuaSetParam( lua_State* L, const std::string& sPar)
return true ;
}
//----------------------------------------------------------------------------
inline bool
LuaSetParam( lua_State* L, const BOOLVECTOR& vPar)
{
try {
int nSize = int( vPar.size()) ;
lua_createtable( L, nSize, 0) ;
for ( int i = 1 ; i <= nSize ; ++ i) {
lua_pushboolean( L, ( vPar[i-1] ? 1 : 0)) ;
lua_rawseti( L, -2, i) ;
}
}
catch( ...) {
return false ;
}
return true ;
}
//----------------------------------------------------------------------------
inline bool
LuaSetParam( lua_State* L, const INTVECTOR& vPar)
@@ -444,7 +466,11 @@ LuaSetTabFieldParam( lua_State* L, int nInd, const char* szField)
if ( ! LuaSetParam( L))
return false ;
int nPos = ( nInd > 0 ? nInd : nInd - 1) ;
lua_setfield( L, nPos, szField) ;
int nField ;
if ( FromString( szField, nField))
lua_rawseti( L, nPos, nField) ;
else
lua_setfield( L, nPos, szField) ;
return true ;
}
@@ -465,7 +491,11 @@ LuaSetTabFieldParam( lua_State* L, int nInd, const char* szField, const T& Val)
if ( ! LuaSetParam( L, Val))
return false ;
int nPos = ( nInd > 0 ? nInd : nInd - 1) ;
lua_setfield( L, nPos, szField) ;
int nField ;
if ( FromString( szField, nField))
lua_rawseti( L, nPos, nField) ;
else
lua_setfield( L, nPos, szField) ;
return true ;
}
@@ -493,11 +523,21 @@ LuaGetGlobVar( lua_State* L, const std::string& sVar, T& Val)
}
// altrimenti campo di tabella
else {
std::string sTab, sField ;
SplitFirst( sVar, ".", sTab, sField) ;
lua_getglobal( L, sTab.c_str()) ;
bool bOk = LuaGetTabFieldParam( L, -1, sField.c_str(), Val) ;
lua_pop( L, 1) ;
STRVECTOR vsTokens ;
Tokenize( sVar, ".", vsTokens) ;
int nTokenCnt = int( vsTokens.size()) ;
if ( nTokenCnt < 2)
return false ;
lua_getglobal( L, vsTokens[0].c_str()) ;
for ( int nInd = 1 ; nInd <= nTokenCnt - 2 ; ++ nInd) {
int nField ;
if ( FromString( vsTokens[nInd], nField))
lua_rawgeti( L, -1, nField) ;
else
lua_getfield( L, -1, vsTokens[nInd].c_str()) ;
}
bool bOk = LuaGetTabFieldParam( L, -1, vsTokens[nTokenCnt-1].c_str(), Val) ;
lua_pop( L, nTokenCnt - 1) ;
return bOk ;
}
}
@@ -518,11 +558,27 @@ LuaSetGlobVar( lua_State* L, const std::string& sVar, const T& Val)
}
// altrimenti campo di tabella
else {
std::string sTab, sField ;
SplitFirst( sVar, ".", sTab, sField) ;
lua_getglobal( L, sTab.c_str()) ;
bool bOk = LuaSetTabFieldParam( L, -1, sField.c_str(), Val) ;
lua_pop( L, 1) ;
STRVECTOR vsTokens ;
Tokenize( sVar, ".", vsTokens) ;
int nTokenCnt = int( vsTokens.size()) ;
if ( nTokenCnt < 2)
return false ;
lua_getglobal( L, vsTokens[0].c_str()) ;
for ( int nInd = 1 ; nInd <= nTokenCnt - 2 ; ++ nInd) {
int nField ;
bool bNumber = FromString( vsTokens[nInd], nField) ;
if ( ( bNumber ? lua_rawgeti( L, -1, nField) : lua_getfield( L, -1, vsTokens[nInd].c_str())) != LUA_TTABLE) {
lua_pop( L, 1) ;
lua_newtable( L) ;
lua_pushvalue( L, -1) ;
if ( bNumber)
lua_rawseti( L, -3, nField) ;
else
lua_setfield( L, -3, vsTokens[nInd].c_str()) ;
}
}
bool bOk = LuaSetTabFieldParam( L, -1, vsTokens[nTokenCnt-1].c_str(), Val) ;
lua_pop( L, nTokenCnt - 1) ;
return bOk ;
}
}
@@ -542,10 +598,26 @@ LuaResetGlobVar( lua_State* L, const std::string& sVar)
}
// altrimenti campo di tabella
else {
std::string sTab, sField ;
SplitFirst( sVar, ".", sTab, sField) ;
lua_getglobal( L, sTab.c_str()) ;
bool bOk = LuaSetTabFieldParam( L, -1, sField.c_str()) ;
STRVECTOR vsTokens ;
Tokenize( sVar, ".", vsTokens) ;
int nTokenCnt = int( vsTokens.size()) ;
if ( nTokenCnt < 2)
return false ;
lua_getglobal( L, vsTokens[0].c_str()) ;
for ( int nInd = 1 ; nInd <= nTokenCnt - 2 ; ++ nInd) {
int nField ;
bool bNumber = FromString( vsTokens[nInd], nField) ;
if ( ( bNumber ? lua_rawgeti( L, -1, nField) : lua_getfield( L, -1, vsTokens[nInd].c_str())) != LUA_TTABLE) {
lua_pop( L, 1) ;
lua_newtable( L) ;
lua_pushvalue( L, -1) ;
if ( bNumber)
lua_rawseti( L, -3, nField) ;
else
lua_setfield( L, -3, vsTokens[nInd].c_str()) ;
}
}
bool bOk = LuaSetTabFieldParam( L, -1, vsTokens[nTokenCnt-1].c_str()) ;
lua_pop( L, 1) ;
return bOk ;
}
EGrScene.h
+1
View File
@@ -90,6 +90,7 @@ class IEGrScene
virtual bool SetExtension( const BBox3d& b3Ext) = 0 ;
virtual bool UpdateExtension( void) = 0 ;
virtual bool SetMark( Color colMark) = 0 ;
virtual bool SetMark2( Color colMark) = 0 ;
virtual bool SetSelSurf( Color colSelSurf) = 0 ;
virtual bool SetLineWidth( int nW) = 0 ;
// Grid
EInAPI.h
+9 -3
View File
@@ -413,7 +413,7 @@ EIN_EXPORT BOOL __stdcall EgtSetStatus( int nId, int nStat) ;
EIN_EXPORT BOOL __stdcall EgtRevertStatus( int nId) ;
EIN_EXPORT BOOL __stdcall EgtGetStatus( int nId, int* pnStat) ;
EIN_EXPORT BOOL __stdcall EgtGetCalcStatus( int nId, int* pnStat) ;
EIN_EXPORT BOOL __stdcall EgtSetMark( int nId) ;
EIN_EXPORT BOOL __stdcall EgtSetMark( int nId, int nMark) ;
EIN_EXPORT BOOL __stdcall EgtResetMark( int nId) ;
EIN_EXPORT BOOL __stdcall EgtGetMark( int nId, BOOL* pnMark) ;
EIN_EXPORT BOOL __stdcall EgtGetCalcMark( int nId, BOOL* pnMark) ;
@@ -551,6 +551,7 @@ EIN_EXPORT BOOL __stdcall EgtCutSurfTmClosedCurve( int nSurfId, int nCurveId, BO
EIN_EXPORT BOOL __stdcall EgtSurfTmAdd( int nId1, int nId2, BOOL bTwoColors) ;
EIN_EXPORT BOOL __stdcall EgtSurfTmSubtract( int nId1, int nId2, BOOL bTwoColors) ;
EIN_EXPORT BOOL __stdcall EgtSurfTmIntersect( int nId1, int nId2, BOOL bTwoColors) ;
EIN_EXPORT BOOL __stdcall EgtSurfTmSetFaceColor( int nId, int nFacet, int nColor) ;
EIN_EXPORT BOOL __stdcall EgtSurfTmResetTwoColors( int nId) ;
EIN_EXPORT int __stdcall EgtSurfTmSplit( int nId, int nSplitterId, int* pnCount) ;
EIN_EXPORT BOOL __stdcall EgtSurfTmCut( int nId, int nCutterId, BOOL bInVsOut, BOOL bSaveOnEq) ;
@@ -574,6 +575,9 @@ EIN_EXPORT BOOL __stdcall EgtCurveParamAtLength( int nId, double dLen, double* p
EIN_EXPORT BOOL __stdcall EgtCurveLengthAtPoint( int nId, const double ptOn[3], double dExtend, double* pdLen) ;
EIN_EXPORT BOOL __stdcall EgtCurveIsClosed( int nId) ;
EIN_EXPORT BOOL __stdcall EgtCurveIsFlat( int nId, BOOL bUseExtrusion, double dToler, double vtN[3], double* pdDist) ;
EIN_EXPORT BOOL __stdcall EgtCurveIsACircle( int nId, double dToler, double ptC[3], double vtN[3], double* pdRad, BOOL* pbCCW) ;
EIN_EXPORT BOOL __stdcall EgtCurveIsARectangle( int nId, double dToler, double ptP[3], double vtL1[3], double vtL2[3]) ;
EIN_EXPORT BOOL __stdcall EgtCurveIsATrapezoid( int nId, double dToler, double ptP[3], double vtB1[3], double vtL1[3], double vtB2[3]) ;
EIN_EXPORT BOOL __stdcall EgtCurveAreaXY( int nId, double* pdArea) ;
EIN_EXPORT BOOL __stdcall EgtCurveArea( int nId, double vtN[3], double* pdDist, double* pdArea) ;
EIN_EXPORT BOOL __stdcall EgtCurveNearestExtremityToPoint( int nId, const double ptP[3], BOOL* pbStart) ;
@@ -598,6 +602,7 @@ EIN_EXPORT BOOL __stdcall EgtSurfFrNormVersor( int nId, int nRefId, double vtNor
EIN_EXPORT BOOL __stdcall EgtSurfFrGrossArea( int nId, double* pdArea) ;
EIN_EXPORT int __stdcall EgtSurfFrChunkCount( int nId) ;
EIN_EXPORT int __stdcall EgtSurfFrChunkSimpleClassify( int nId1, int nChunk1, int nId2, int nChunk2, double dToler) ;
EIN_EXPORT BOOL __stdcall EgtSurfFrChunkCenter( int nId, int nChunk, int nRefId, double ptCen[3], double vtNorm[3]) ;
EIN_EXPORT int __stdcall EgtExtractSurfFrChunkLoops( int nId, int nChunk, int nDestGrpId, int* pnCount) ;
EIN_EXPORT int __stdcall EgtSurfTmPartCount( int nId) ;
EIN_EXPORT int __stdcall EgtSurfTmFacetCount( int nId) ;
@@ -927,7 +932,8 @@ EIN_EXPORT BOOL __stdcall EgtApplyMachining( BOOL bRecalc) ;
EIN_EXPORT BOOL __stdcall EgtUpdateMachining( void) ;
EIN_EXPORT BOOL __stdcall EgtPreparePreviewMachiningTool( void) ;
EIN_EXPORT BOOL __stdcall EgtRemovePreviewMachiningTool( void) ;
EIN_EXPORT int __stdcall EgtPreviewMachiningTool( int nEntId, int nFlag) ;
EIN_EXPORT int __stdcall EgtGetPreviewMachiningToolStepCount( void) ;
EIN_EXPORT int __stdcall EgtPreviewMachiningTool( int nEntId, int nStep) ;
EIN_EXPORT BOOL __stdcall EgtGetMachiningParamBool( int nType, BOOL* pbVal) ;
EIN_EXPORT BOOL __stdcall EgtGetMachiningParamInt( int nType, int* pnVal) ;
EIN_EXPORT BOOL __stdcall EgtGetMachiningParamDouble( int nType, double* pdVal) ;
@@ -992,7 +998,7 @@ EIN_EXPORT BOOL __stdcall EgtInitScene( HWND hWnd, int nDriver, BOOL b2Buff, int
EIN_EXPORT BOOL __stdcall EgtGetSceneInfo( wchar_t*& wsInfo) ;
EIN_EXPORT BOOL __stdcall EgtSetBackground( const int nTopCol[4], const int nBottomCol[4], BOOL bRedraw) ;
EIN_EXPORT BOOL __stdcall EgtSetLineAttribs( int nWidth) ;
EIN_EXPORT BOOL __stdcall EgtSetMarkAttribs( const int MarkCol[4]) ;
EIN_EXPORT BOOL __stdcall EgtSetMarkAttribs( const int MarkCol[4], const int Mark2Col[4]) ;
EIN_EXPORT BOOL __stdcall EgtSetSelSurfAttribs( const int SelSurfCol[4]) ;
EIN_EXPORT BOOL __stdcall EgtSetGeoLineAttribs( const int GlCol[4]) ;
EIN_EXPORT BOOL __stdcall EgtSetGeoTriaAttribs( const int GtCol[4]) ;
EMkMachMgr.h
+2 -1
View File
@@ -259,7 +259,8 @@ class __declspec( novtable) IMachMgr
virtual bool MachiningUpdate( bool bPostApply = true) = 0 ;
virtual bool PreparePreviewMachiningTool( void) const = 0 ;
virtual bool RemovePreviewMachiningTool( void) const = 0 ;
virtual int PreviewMachiningTool( int nEntId, int nFlag) const = 0 ;
virtual int GetPreviewMachiningToolStepCount( void) const = 0 ;
virtual int PreviewMachiningTool( int nEntId, int nStep) const = 0 ;
virtual bool GetMachiningParam( int nType, bool& bVal) const = 0 ;
virtual bool GetMachiningParam( int nType, int& nVal) const = 0 ;
virtual bool GetMachiningParam( int nType, double& dVal) const = 0 ;
EMkMachiningConst.h
+25 -6
View File
@@ -66,7 +66,7 @@ enum MachiningType {
MT_SURFROUGHING = OPER_SURFROUGHING,
MT_SURFFINISHING = OPER_SURFFINISHING,
MT_WATERJETTING = OPER_WATERJETTING,
MT_5AXMACHINING = OPER_5AXMACHINING
MT_FIVEAXISMILLING = OPER_FIVEAXISMILLING
} ;
//----------------------------------------------------------------------------
@@ -156,6 +156,7 @@ enum MpaType { MPA_NONE = 0,
MPA_STEPLAST = ( MPA_DOU + 51), // per tagli con lama
MPA_EPICYCLESRAD = ( MPA_DOU + 52), // per svuotature con epicicli
MPA_EPICYCLESDIST = ( MPA_DOU + 53), // per svuotature con epicicli
MPA_SUBSTEP = ( MPA_DOU + 54), // per sgrossature superfici
MPA_NAME = ( MPA_STR + 0),
MPA_TOOL = ( MPA_STR + 1),
MPA_DEPTH_STR = ( MPA_STR + 2),
@@ -324,7 +325,9 @@ enum { SAWFIN_LL_STD = 0,
enum { POCKET_SUB_ZIGZAG = 0,
POCKET_SUB_ONEWAY = 1,
POCKET_SUB_SPIRALIN = 2,
POCKET_SUB_SPIRALOUT = 3} ;
POCKET_SUB_SPIRALOUT = 3,
POCKET_SUB_CONFORMAL_ZIGZAG = 4,
POCKET_SUB_CONFORMAL_ONEWAY = 5} ;
// Tipo di attacco
enum { POCKET_LI_NONE = 0,
POCKET_LI_GLIDE = 1,
@@ -363,6 +366,24 @@ enum { MORTISE_PLUNGE_STEP = 0,
MORTISE_PLUNGE_START_END = 3,
MORTISE_PLUNGE_START_TO_END = 4} ;
//----------------------------------------------------------------------------
// Parametri per sgrossatura superfici
// Sottotipo di lavorazione
enum { SURFROU_SUB_ZIGZAG = 0,
SURFROU_SUB_ONEWAY = 1,
SURFROU_SUB_SPIRALIN = 2,
SURFROU_SUB_SPIRALOUT = 3,
SURFROU_SUB_CONFORMAL_ZIGZAG = 4,
SURFROU_SUB_CONFORMAL_ONEWAY = 5} ;
// Tipo di attacco
enum { SURFROU_LI_NONE = 0,
SURFROU_LI_GLIDE = 1,
SURFROU_LI_ZIGZAG = 2,
SURFROU_LI_HELIX = 3} ;
// Tipo di uscita
enum { SURFROU_LO_NONE = 0,
SURFROU_LO_GLIDE = 1} ;
//----------------------------------------------------------------------------
// Parametri per finitura superfici
// Sottotipo di lavorazione
@@ -374,9 +395,6 @@ enum { SURFFIN_SUB_ZIGZAG = 0,
enum { SURFFIN_LI_NONE = 0,
SURFFIN_LI_LINEAR = 1,
SURFFIN_LI_TANGENT = 2} ;
// Tipo di link
enum { SURFFIN_LL_STD = 0,
SURFFIN_LL_CENT = 1} ;
// Tipo di uscita
enum { SURFFIN_LO_NONE = 0,
SURFFIN_LO_LINEAR = 1,
@@ -395,7 +413,8 @@ enum { WJET_EC_NONE = 0,
WJET_EC_LOOP = 2} ;
// Comportamento su angolo interno
enum { WJET_IC_NONE = 0,
WJET_IC_SLOW = 1} ;
WJET_IC_SLOW = 1,
WJET_IC_SLOW_FULL = 2} ;
// Tipo di attacco
enum { WJET_LI_NONE = 0,
WJET_LI_LINEAR = 1,
EMkOperationConst.h
+18 -18
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2015-2023
// EgalTech 2015-2024
//----------------------------------------------------------------------------
// File : EmkOperationConst.h Data : 06.09.23 Versione : 2.5i1
// File : EmkOperationConst.h Data : 22.05.24 Versione : 2.6e5
// Contenuto : Costanti delle operazioni.
//
//
@@ -19,21 +19,21 @@
#pragma once
//------------------------ Costanti per tipo Operazioni -----------------------
enum OperType { OPER_NULL = 0, // nulla
OPER_DISP = 0x000100, // disposizione
OPER_DRILLING = 0x000200, // foratura
OPER_SAWING = 0x000400, // taglio di lama
OPER_MILLING = 0x000800, // fresatura
OPER_POCKETING = 0x001000, // svuotatura
OPER_MORTISING = 0x002000, // mortasatura
OPER_SAWROUGHING = 0x004000, // sgrossatura con lama
OPER_SAWFINISHING = 0x008000, // finitura con lama
OPER_GENMACHINING = 0x010000, // lavorazione generica
OPER_CHISELING = 0x020000, // scalpellatura
OPER_SURFROUGHING = 0x040000, // sgrossatura superficie
OPER_SURFFINISHING = 0x080000, // finitura superficie
OPER_WATERJETTING = 0x100000, // taglio water jet
OPER_5AXMACHINING = 0x200000} ; // lavorazione 5 assi
enum OperType { OPER_NULL = 0, // nulla
OPER_DISP = 0x000100, // disposizione
OPER_DRILLING = 0x000200, // foratura
OPER_SAWING = 0x000400, // taglio di lama
OPER_MILLING = 0x000800, // fresatura
OPER_POCKETING = 0x001000, // svuotatura
OPER_MORTISING = 0x002000, // mortasatura
OPER_SAWROUGHING = 0x004000, // sgrossatura con lama
OPER_SAWFINISHING = 0x008000, // finitura con lama
OPER_GENMACHINING = 0x010000, // lavorazione generica
OPER_CHISELING = 0x020000, // scalpellatura
OPER_SURFROUGHING = 0x040000, // sgrossatura superficie
OPER_SURFFINISHING = 0x080000, // finitura superficie
OPER_WATERJETTING = 0x100000, // taglio water jet
OPER_FIVEAXISMILLING = 0x200000} ; // lavorazione 5 assi
// Controllo tipo valido
bool inline IsValidDispositionType( int nType)
{
@@ -53,5 +53,5 @@ bool inline IsValidMachiningType( int nType)
nType == OPER_SURFROUGHING ||
nType == OPER_SURFFINISHING ||
nType == OPER_WATERJETTING ||
nType == OPER_5AXMACHINING) ;
nType == OPER_FIVEAXISMILLING) ;
}
EMkToolConst.h
+4
View File
@@ -122,3 +122,7 @@ const std::string TTH_BASE = "B" ; // posizione base portau
const std::string TTH_LEN = "H" ; // lunghezza portautensile da naso mandrino
const std::string TTH_DIAM = "D" ; // diametro massimo portautensile
const std::string TTH_STEM_DIAM = "D_STEM" ; // diametro massimo gambo utensile
//----------------------------------------------------------------------------
// Costanti per nomi di parti di utensile
const std::string TNA_TOOL_START = "Tool_" ; // inizio nome delle geometrie che costituiscono il vero utensile
EXeExecutor.h
+55 -5
View File
@@ -323,6 +323,8 @@ EXE_EXPORT int ExeCreatePolygonFromSide( int nParentId, int nNumSides, const Po
const Point3d& ptFin, int nRefType) ;
EXE_EXPORT int ExeCreateCirclesAlongCurve( int nParentId, int nCrvId, double dOffset, double dOverlap,
double dStartAdd, double dEndAdd, double dDiam, int* pnCount) ;
EXE_EXPORT int ExeCreateCurveBezierForm( int nParentId, int nCrvId, int nDeg) ;
// GeomDB Create Surf
EXE_EXPORT int ExeCreateSurfFlatRegion( int nParentId, const INTVECTOR& vCrvIds, int* pnCount) ;
EXE_EXPORT int ExeCreateSurfFrFatCurve( int nParentId, int nCrvId, double dRad, bool bSquaredEnds, bool bSquaredMids, double dLinTol) ;
@@ -372,6 +374,23 @@ EXE_EXPORT int ExeCreateSurfBezierRational( int nParentId, int nDegU, int nDegV
EXE_EXPORT int ExeCreateSurfBezierLeaves( int nParentId, int nSurfBzId, int nTextHeight = 50, bool bShowTrim = false, int* pnCount = nullptr) ;
EXE_EXPORT int ExeCreateBezierSphere( int nParentId, const Point3d& ptCenter, double dR, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBezierTria2D( int nParentId, int nSurfBzId, int nTextHeight, bool bShowTrim, int* pnCount) ;
EXE_EXPORT int ExeCreateSurfBzByFlatContour( int nParentId, int nCrvId, double dLinTol) ;
EXE_EXPORT int ExeCreateSurfBzByRegion( int nParentId, const INTVECTOR& vCrvId, double dLinTol) ;
EXE_EXPORT int ExeCreateSurfBzByExtrusion( int nParentId, int nCrvId, const Vector3d& vtExtr, bool bCapEnds,
double dLinTol, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBzByRegionExtrusion( int nParentId, const INTVECTOR& vCrvIds, const Vector3d& vtExtr, bool bCapEnds,
double dLinTol, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBzByScrewing( int nParentId, int nCrvId,
const Point3d& ptAx, const Vector3d& vtAx,
double dAngRotDeg, double dMove, bool bCapEnds, double dLinTol, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBzByRevolve( int nParentId, int nCrvId,
const Point3d& ptAx, const Vector3d& vtAx,
bool bCapEnds, double dLinTol, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBzByPointCurve( int nParentId, int nCrvId, const Point3d& ptAx, bool bCapEnds, double dLinTol, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBzRuled( int nParentId, int nCrvId1, int nCrvId2, int nRuledType, bool bCapEnds, double dLinTol) ;
EXE_EXPORT int ExeCreateSurfBzSkinned( int nParentId, const INTVECTOR& nCrvId1, bool bCapEnds, double dLinTol) ;
EXE_EXPORT int ExeCreateSurfBzSwept( int nParentId, int nSectId, int nGuideId, const Vector3d& vtAx,
bool bCapEnds, double dLinTol, int nRefType) ;
// GeomDB Create Volume
EXE_EXPORT int ExeCreateVolZmap( int nParentId, const Point3d& ptIni, double dDimX,
@@ -380,6 +399,8 @@ EXE_EXPORT int ExeCreateVolZmapEmpty( int nParentId, const Point3d& ptIni, doub
double dDimY, double dDimZ, double dPrec, bool bTriDex, int nRefType) ;
EXE_EXPORT int ExeCreateVolZmapByRegionExtrusion( int nParentId, int nSfrId, double dDimZ, double dPrec, bool bTriDex) ;
EXE_EXPORT int ExeCreateVolZmapFromSurfTm( int nParentId, int nStmId, double dPrec, bool bTriDex) ;
EXE_EXPORT bool ExeUpdateVolZmapByAddingSurfTm( int nVolZmapId, int nStmId) ;
EXE_EXPORT bool ExeUniformVolZmap( int nVolZmapId, double dToler) ;
// GeomDB PartLayer
EXE_EXPORT bool ExeIsPart( int nPartId) ;
@@ -470,7 +491,7 @@ EXE_EXPORT bool ExeSetStatus( const INTVECTOR& vIds, int nStat) ;
EXE_EXPORT bool ExeRevertStatus( int nId) ;
EXE_EXPORT bool ExeGetStatus( int nId, int* pnStat) ;
EXE_EXPORT bool ExeGetCalcStatus( int nId, int* pnStat) ;
EXE_EXPORT bool ExeSetMark( int nId) ;
EXE_EXPORT bool ExeSetMark( int nId, int nMark = 1) ;
EXE_EXPORT bool ExeResetMark( int nId) ;
EXE_EXPORT bool ExeGetMark( int nId, int* pnMark) ;
EXE_EXPORT bool ExeGetCalcMark( int nId, int* pnMark) ;
@@ -601,15 +622,25 @@ EXE_EXPORT bool ExeModifyCurveCompoCurveToLine( int nId, int nCrv) ;
EXE_EXPORT int ExeExplodeCurveCompo( int nId, int* pnCount) ;
EXE_EXPORT bool ExeMergeCurvesInCurveCompo( int nId, double dLinTol, bool bStartEnd) ;
EXE_EXPORT bool ExeRemoveCurveCompoUndercutOnY( int nId, double dLinTol) ;
EXE_EXPORT bool ExeCurveCompoSetTempProp( int nId, int nCrv, int nProp, int nPropInd = 0) ;
EXE_EXPORT bool ExeCurveCompoSetTempParam( int nId, int nCrv, double dParam, int nParamInd = 0) ;
EXE_EXPORT bool ExeChainCurvesInGroup( int nGroupId, const Point3d& ptNear, int nRefType) ;
EXE_EXPORT bool ExeReorderCurvesInGroup( int nGroupId, const Point3d& ptNear, int nRefType) ;
EXE_EXPORT bool ExeProjectCurveOnSurfTm( int nCurveId, int nSurfTmId, const Vector3d& vtDir, int nDestGrpId,
double dLinTol, double dMaxSegmLen, int nRefType) ;
EXE_EXPORT bool ExeProjectCurveOnSurfTmExt( int nCurveId, int nSurfTmId, int nGuideId, int nDestGrpId,
double dLinTol, double dMaxSegmLen, bool bDirFromGuide) ;
EXE_EXPORT int ExeCurveGetVoronoi( int nId, int nDestGrpId, int nBound, int* pnCount) ;
EXE_EXPORT int ExeCurveGetMedialAxis( int nId, int nDestGrpId, int nSide, int* pnCount) ;
EXE_EXPORT bool ExeProjectCurveOnSurfBz( int nCurveId, int nSurfBzId, const Vector3d& vtDir, int nDestGrpId,
double dLinTol, double dMaxSegmLen, int nRefType) ;
EXE_EXPORT bool ExeProjectCurveOnSurfBzExt( int nCurveId, int nSurfBzId, int nGuideId, int nDestGrpId,
double dLinTol, double dMaxSegmLen, bool bDirFromGuide) ;
EXE_EXPORT int ExeCurveGetVoronoi( const INTVECTOR& vIds, int nDestGrpId, int nBound, int* pnCount) ;
EXE_EXPORT int ExeCurveGetMedialAxis( const INTVECTOR& vIds, int nDestGrpId, int nSide, int* pnCount) ;
EXE_EXPORT int ExeCurveGetFatCurve( int nId, int nDestGrpId, double dRad, bool bSquareEnds, bool bSquareMids, int* pnCount) ;
EXE_EXPORT bool ExeCurveBezierIncreaseDegree( int nCrvId) ;
EXE_EXPORT bool ExeCurveBezierDecreaseDegree( int nCrvId, double dTol = 100) ;
EXE_EXPORT bool ExeCurveBezierApproxToNonRat( int nCrvId, double dTol = 10 * EPS_SMALL) ;
EXE_EXPORT bool ExeCurveBezierApproxWithCubicBeziers( int nCrvId, double dTol = 10 * EPS_SMALL) ;
// GeomDb Surf Modify
EXE_EXPORT bool ExeInvertSurface( const INTVECTOR& vIds) ;
@@ -620,6 +651,7 @@ EXE_EXPORT bool ExeSurfFrSubtract( int nId1, int nId2) ;
EXE_EXPORT bool ExeSurfFrIntersect( int nId1, int nId2) ;
EXE_EXPORT bool ExeSurfFrOffset( int nId, double dDist, int nType) ;
EXE_EXPORT bool ExeSurfFrOffsetAdv( int nId, double dDist, int nType, int& nNewId) ;
EXE_EXPORT bool ExeSurfFrEraseChunk( int nId, int nChunk) ;
EXE_EXPORT bool ExeSurfFrMoveSimpleNoCollision( int nId1, int nId2, const Vector3d& vtDir, double& dLen, int nRefType) ;
EXE_EXPORT bool ExeSurfFrRotateSimpleNoCollision( int nId1, int nId2, const Point3d& ptCen, double& dAngDeg, int nRefType) ;
EXE_EXPORT bool ExeSurfTmMoveVertex( int nId, int nVert, const Point3d& ptNewVert, int nRefType, bool bUpdate) ;
@@ -639,9 +671,13 @@ EXE_EXPORT bool ExeSurfTmCut( int nId, int nCutterId, bool bInVsOut, bool bSaveO
EXE_EXPORT bool ExeSurfTmSubtractProjectedFacesOnFace( int nSurfId, int nFaceInd, int nDestGrpId,
INTVECTOR vSurfsId, bool bOCFlag,
bool& bExistProjection, int& nNewId, int& nNewFaceNbr) ;
EXE_EXPORT bool ExeSurfTmSetFaceColor( int nId, int nFacet, int nColor) ;
EXE_EXPORT bool ExeSurfTmGetTriaColor( int nId, int nTria, int& nColor) ;
EXE_EXPORT bool ExeSurfTmResetTwoColors( int nId) ;
EXE_EXPORT bool ExeSurfTmSetShowEdges( int nId, bool bShow) ;
EXE_EXPORT bool ExeSurfTmGetShowEdges( int nId, bool& bShow) ;
EXE_EXPORT bool ExeSurfBzTrim( int nId, int nCutterId) ;
EXE_EXPORT bool ExeSurfTmSetSmoothAng( int nId, double dAngDeg) ;
// GeomDb Volume Modify
EXE_EXPORT int ExeExplodeVolume( int nId, int* pnCount) ;
@@ -683,6 +719,7 @@ EXE_EXPORT int ExeSurfFrGetZigZagInfill( int nId, int nDestGrpId, double dStep,
// GeomDb Curve Get
EXE_EXPORT bool ExeCurveDomain( int nId, double* pdStart, double* pdEnd) ;
EXE_EXPORT bool ExeCurveLength( int nId, double* pdLen) ;
EXE_EXPORT bool ExeCurveLengthAtParam( int nId, double dPar, double* pdLen) ;
EXE_EXPORT bool ExeCurveParamAtLength( int nId, double dLen, double* pdPar) ;
EXE_EXPORT bool ExeCurveParamAtPoint( int nId, const Point3d& pt, double dTol, int nRefType, double* pdPar) ;
EXE_EXPORT bool ExeCurveLengthAtPoint( int nId, const Point3d& ptOn, double dExtend, double* pdLen) ;
@@ -709,6 +746,9 @@ EXE_EXPORT bool ExeCurveCompoCenter( int nId, int nSimpCrv, int nRefId, Point3d&
EXE_EXPORT bool ExeCurveCompoRadius( int nId, int nSimpCrv, double& dRad) ;
EXE_EXPORT bool ExeCurveCompoAngCenter( int nId, int nSimpCrv, double& dAngCen) ;
EXE_EXPORT bool ExeCurveCompoNormVersor( int nId, int nSimpCrv, int nRefId, Vector3d& vtNorm) ;
EXE_EXPORT bool ExeCurveCompoGetTempProp( int nId, INTVECTOR& vProp, int nPropInd) ;
EXE_EXPORT bool ExeCurveCompoGetTempParam( int nId, DBLVECTOR& vParam, int nParamInd) ;
EXE_EXPORT int ExeShowCurveBezierControlPoints( int nCrvId, int nDestGrpId, int* pnCount) ;
// GeomDb Surf Get
EXE_EXPORT bool ExeSurfArea( int nId, double& dArea) ;
@@ -716,9 +756,11 @@ EXE_EXPORT bool ExeSurfIsClosed( int nId) ;
EXE_EXPORT bool ExeSurfVolume( int nId, double& dVol) ;
EXE_EXPORT bool ExeSurfFrNormVersor( int nId, int nRefId, Vector3d& vtNorm) ;
EXE_EXPORT bool ExeSurfFrGrossArea( int nId, double& dArea) ;
EXE_EXPORT bool ExeSurfFrChunkMaxOffset( int nId, int nChunk, double& dMaxOffset) ;
EXE_EXPORT bool ExeSurfFrTestExternal( int nId1, int nId2, double dMinDist) ;
EXE_EXPORT int ExeSurfFrChunkCount( int nId) ;
EXE_EXPORT int ExeSurfFrChunkSimpleClassify( int nId1, int nChunk1, int nId2, int nChunk2, double dToler = 0) ;
EXE_EXPORT bool ExeSurfFrChunkCenter( int nId, int nChunk, int nRefId, Point3d& ptCen, Vector3d& vtN) ;
EXE_EXPORT int ExeExtractSurfFrChunkLoops( int nId, int nChunk, int nDestGrpId, int* pnCount) ;
EXE_EXPORT int ExeSurfFrGetZigZagInfill( int nId, int nDestGrpId, double dStep, double dAng, bool bSmooth, int* pnCount) ;
EXE_EXPORT int ExeSurfTmVertexCount( int nId) ;
@@ -726,6 +768,7 @@ EXE_EXPORT int ExeSurfTmFacetCount( int nId) ;
EXE_EXPORT int ExeSurfTmPartCount( int nId) ;
EXE_EXPORT bool ExeSurfTmGetVertex( int nId, int nVert, int nRefId, Point3d& ptVert) ;
EXE_EXPORT bool ExeSurfTmGetNearestVertex( int nId, const Point3d& ptNear, int nRefId, int& nVert, Point3d& ptVert) ;
EXE_EXPORT bool ExeSurfTmTriangleNormVersor( int nId, int nTria, int nRefId, Vector3d& vtNorm) ;
EXE_EXPORT int ExeSurfTmFacetFromTria( int nId, int nT) ;
EXE_EXPORT bool ExeSurfTmFacetAdjacencies( int nId, int nFacet, INTMATRIX& vAdj) ;
EXE_EXPORT bool ExeSurfTmFacetNearestEndPoint( int nId, int nFacet, const Point3d& ptNear, int nRefId,
@@ -744,12 +787,16 @@ EXE_EXPORT bool ExeSurfTmFacetOppositeSideEx( int nId, int nFacet, const Vector3
EXE_EXPORT bool ExeSurfTmFacetsContact( int nId, int nF1, int nF2, int nRefId, bool& bAdjac, Point3d& ptP1, Point3d& ptP2, double& dAng) ;
EXE_EXPORT int ExeExtractSurfTmLoops( int nId, int nDestGrpId, int* pnCount) ;
EXE_EXPORT int ExeGetSurfTmSilhouette( int nId, const Vector3d& vtDir, double dToler, int nDestGrpId, int nRefType, int* pnCount, bool bAllTria = false) ;
EXE_EXPORT int ExeGetSurfTmParSilhouettes( const INTVECTOR& vIds, const Point3d& ptOn, const Vector3d& vtN, const DBLVECTOR& vdDist,
double dToler, int nDestGrpId, int nRefType, int* pnCount) ;
EXE_EXPORT int ExeExtractSurfTmFacetLoops( int nId, int nFacet, int nDestGrpId, int* pnCount) ;
EXE_EXPORT int ExeCopySurfTmFacet( int nId, int nFacet, int nDestGrpId) ;
EXE_EXPORT bool ExeSurfTmGetAllVertInFacet( int nId, int nFacet, INTVECTOR& vVert) ;
EXE_EXPORT bool ExeSurfTmGetFacetBBox( int nId, int nFacet, int nFlag, BBox3d& b3Box) ;
EXE_EXPORT bool ExeSurfTmGetFacetBBoxGlob( int nId, int nFacet, int nFlag, BBox3d& b3Box) ;
EXE_EXPORT bool ExeSurfTmGetFacetBBoxRef( int nId, int nFacet, int nFlag, const Frame3d& frRef, BBox3d& b3Box) ;
EXE_EXPORT bool ExeSurfTmGetFacetOutlineInfo( int nId, int nFacet, int nRefId,
int& nStatus, BOOLVECTOR& vbOpen, INTVECTOR& vnAdj, DBLVECTOR& vdLen, VCT3DVECTOR& vvtNorm, DBLVECTOR& vdElev) ;
EXE_EXPORT int ExeSurfTmGetEdges( int nId, int nDestGrpId, bool bSmoothAng, int* pnCount) ;
EXE_EXPORT bool ExeSurfBezierGetPoint( int nSurfId, double dU, double dV, int nRefId, Point3d& ptP) ;
EXE_EXPORT bool ExeSurfBezierGetPointD1( int nSurfId, double dU, double dV, int nUsd, int nVsd, int nRefId,
@@ -762,6 +809,7 @@ EXE_EXPORT bool ExeSurfBezierGetInfo( int nSurfId, int& nDegU, int& nDegV, int&
EXE_EXPORT int ExeSurfBezierGetControlCurveU( int nSurfId, int nIndV, int nDestGrpId) ;
EXE_EXPORT int ExeSurfBezierGetControlCurveV( int nSurfId, int nIndU, int nDestGrpId) ;
EXE_EXPORT int ExeExtractSurfBezierLoops( int nId, int nDestGrpId, int* pnCount) ;
EXE_EXPORT int ExeShowSurfBezierControlPoints( int nSrfId, int nDestGrpId, int* pnCount) ;
// GeomDb Volume Get
EXE_EXPORT bool ExeVolZmapVolume( int nId, double& dVol) ;
@@ -1062,6 +1110,7 @@ EXE_EXPORT bool ExeTdbGetCurrToolValInNotes( int nType, const std::string& sKey,
EXE_EXPORT bool ExeTdbGetCurrToolMaxDepth( double& dMaxDepth) ;
EXE_EXPORT bool ExeTdbGetCurrToolThDiam( double& dThDiam) ;
EXE_EXPORT bool ExeTdbGetCurrToolThLength( double& dThLen) ;
EXE_EXPORT bool ExeTdbCurrToolIsStandardDraw( bool& bStandard) ;
EXE_EXPORT int ExeTdbCurrToolDraw( int nGenCtx, int nToolCtx) ;
EXE_EXPORT bool ExeTdbReload( void) ;
EXE_EXPORT bool ExeTdbSave( void) ;
@@ -1160,7 +1209,8 @@ EXE_EXPORT bool ExeApplyMachining( bool bRecalc, bool bPostApply = true) ;
EXE_EXPORT bool ExeUpdateMachining( bool bPostApply = true) ;
EXE_EXPORT bool ExePreparePreviewMachiningTool( void) ;
EXE_EXPORT bool ExeRemovePreviewMachiningTool( void) ;
EXE_EXPORT int ExePreviewMachiningTool( int nEntId, int nFlag) ;
EXE_EXPORT int ExeGetPreviewMachiningToolStepCount( void) ;
EXE_EXPORT int ExePreviewMachiningTool( int nEntId, int nStep) ;
EXE_EXPORT bool ExeGetMachiningParam( int nType, bool& bVal) ;
EXE_EXPORT bool ExeGetMachiningParam( int nType, int& nVal) ;
EXE_EXPORT bool ExeGetMachiningParam( int nType, double& dVal) ;
@@ -1255,7 +1305,7 @@ EXE_EXPORT bool ExeGetSceneInfo( std::string& sInfo) ;
EXE_EXPORT bool ExeSetBackground( Color TopCol, Color BottomCol, bool bRedraw) ;
EXE_EXPORT bool ExeGetBackground( Color& TopCol, Color& BottomCol) ;
EXE_EXPORT bool ExeSetLineAttribs( int nWidth) ;
EXE_EXPORT bool ExeSetMarkAttribs( Color MarkCol) ;
EXE_EXPORT bool ExeSetMarkAttribs( Color MarkCol, Color Mark2Col) ;
EXE_EXPORT bool ExeSetSelSurfAttribs( Color SelSurfCol) ;
EXE_EXPORT bool ExeSetGeoLineAttribs( Color GlCol) ;
EXE_EXPORT bool ExeSetGeoTriaAttribs( Color GtCol) ;
EgtKeyCodes.h
+1 -1
View File
@@ -25,7 +25,7 @@
//----------------------------------------------------------------------------
const int KEY_BASELIB_PROD = 207 ;
const int KEY_BASELIB_VER = 2604 ;
const int KEY_BASELIB_VER = 2610 ;
const int KEY_BASELIB_LEV = 1 ;
//----------------------------------------------------------------------------