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merge into: Egalware/EgtExecutor:3dm_import
Branches Tags
Egalware/EgtExecutor:master Egalware/EgtExecutor:ModelessDialog Egalware/EgtExecutor:Trimming Egalware/EgtExecutor:Nst_SurfFr Egalware/EgtExecutor:NewRuled Egalware/EgtExecutor:MoreBezier Egalware/EgtExecutor:SetSmoothAng Egalware/EgtExecutor:Surf_Simp_Zmap Egalware/EgtExecutor:VmillAdditivo Egalware/EgtExecutor:Zmap Egalware/EgtExecutor:CmdCreateSurfBezier Egalware/EgtExecutor:RMF Egalware/EgtExecutor:ExtDimension_angular Egalware/EgtExecutor:develop Egalware/EgtExecutor:3dm_import Egalware/EgtExecutor:Bezier_trim&mesh Egalware/EgtExecutor:ThreeJS
Egalware/EgtExecutor:2.7c4 Egalware/EgtExecutor:AutoSave_2024/03/08 Egalware/EgtExecutor:AutoSave_2024/02/02 Egalware/EgtExecutor:AutoSave_2024/10/01
...
pull from: Egalware/EgtExecutor:CmdCreateSurfBezier
Branches Tags
Egalware/EgtExecutor:master Egalware/EgtExecutor:ModelessDialog Egalware/EgtExecutor:Trimming Egalware/EgtExecutor:Nst_SurfFr Egalware/EgtExecutor:NewRuled Egalware/EgtExecutor:MoreBezier Egalware/EgtExecutor:SetSmoothAng Egalware/EgtExecutor:Surf_Simp_Zmap Egalware/EgtExecutor:VmillAdditivo Egalware/EgtExecutor:Zmap Egalware/EgtExecutor:CmdCreateSurfBezier Egalware/EgtExecutor:RMF Egalware/EgtExecutor:ExtDimension_angular Egalware/EgtExecutor:develop Egalware/EgtExecutor:3dm_import Egalware/EgtExecutor:Bezier_trim&mesh Egalware/EgtExecutor:ThreeJS
Egalware/EgtExecutor:2.7c4 Egalware/EgtExecutor:AutoSave_2024/03/08 Egalware/EgtExecutor:AutoSave_2024/02/02 Egalware/EgtExecutor:AutoSave_2024/10/01

101 Commits
3dm_import ... CmdCreateSurfBezier

Author SHA1 Message Date
Daniele Bariletti 73db521008 Merge branch 'master' into CmdCreateSurfBezier 2024-03-21 15:07:08 +01:00
Daniele Bariletti 82d1465ecd EgtExecutor : 
- modificata la funzione per richiedere gli edge di una Bezier.
 2024-03-21 15:01:35 +01:00
Dario Sassi 047bff2f11 EgtExecutor : 
- aggiunta funzione exe e lua CreateAngularDimensionEx.
 2024-03-14 20:02:39 +01:00
Dario Sassi 611c08bb4c EgtExecutor : 
- aggiunta funzione Exe e Lua SurfTmMoveFacet.
 2024-03-13 09:24:16 +01:00
Dario Sassi c69036ef2c EgtExecutor 2.6c2 : 
- aggiunte funzioni Exe e Lua SurfTmSetShowEdges e VolZmapSetShowEdges.
 2024-03-10 10:25:36 +01:00
Daniele Bariletti b0c1ba14e8 Merge branch 'master' into CmdCreateSurfBezier 2024-03-08 16:37:46 +01:00
Dario Sassi 66a232a6a0 EgtExecutor 2.6c1 : 
- ricompilazione con cambio versione.
 2024-03-05 08:56:19 +01:00
Daniele Bariletti 89e8b02316 EgtExecutor : 
- spostato il filtro delle intersezioni line-SurfBz in GeomKernel.
 2024-02-28 10:31:54 +01:00
Daniele Bariletti d1cb3d7de7 Merge branch 'master' into CmdCreateSurfBezier 2024-02-28 09:33:06 +01:00
Dario Sassi 6c640b902f EgtExecuter : 
- aggiunta funzione Exe/Lua CreateSurfTmTransSwept.
 2024-02-27 18:18:52 +01:00
Daniele Bariletti 49d2600cc7 EgtExecutor : 
- correzione del merge.
 2024-02-27 17:30:38 +01:00
Daniele Bariletti ce92c8f6c9 Merge branch 'master' into CmdCreateSurfBezier 2024-02-27 17:06:46 +01:00
Daniele Bariletti 303b7d8f0e EgtExecutor : 
- aggiunta della funzione per disegnare i triangoli nello spazio parametrico di una superifcie Bezier
- aggiunto il calcolo dei punti di polo nelle funzioni che creano superfici di Bezier.
 2024-02-27 16:36:08 +01:00
Dario Sassi 308e50549d EgtExecutor : 
- aggiunta funzione Exe e Lua CurveSurfTmInters
- filtri su intersezioni portati in GeomKernel.
 2024-02-26 15:09:35 +01:00
Daniele Bariletti 5f2c538ab8 EgtExecutor : 
- correzione della chiamata di conversione da bezier a trimesh in caso di con bezier nulla.
 2024-02-21 15:37:35 +01:00
SaraP 8e85070df1 EgtExecutor : 
- modifiche a  AdjustLayerForSideAngle per gestire la creazione della regione anche nel caso di raccordi in tangenza.
 2024-02-20 15:53:59 +01:00
Daniele Bariletti 95ec7a83ef EgtExecutor : 
- aggiunta funzione per tagliare una superficie bezier con un piano.
 2024-02-20 12:30:43 +01:00
Dario Sassi ed1ba0543b EgtExecutor 2.6b4 : 
- aggiunta funzioni Exe e Lua Set/GetViewOrizzOffsStep
- aggiunte funzioni Lua EgtGetView e EgtGetGenericView.
 2024-02-19 14:52:24 +01:00
Dario Sassi 26544984ad EgtExecutor 2.6b3 : 
- adattamenti per modifiche a funzioni Collision Detection.
 2024-02-16 08:46:02 +01:00
Daniele Bariletti e82c7417b6 Merge branch 'Dist-Inters_Bezier' into CmdCreateSurfBezier 2024-02-14 14:43:33 +01:00
Daniele Bariletti a3fa91244d EgtExecutor : 
- aggiunta la funzione per creare una sfera come superficie bezier.
 2024-02-14 14:42:16 +01:00
Dario Sassi e06dd65888 EgtExecutor 2.6b2 : 
- a ApproxCurve e ProjectCurveOnSurfTm aggiunto parametro dMaxSegmLen.
 2024-02-13 14:35:43 +01:00
Daniele Bariletti abbc5415ab Merge branch 'master' into Dist-Inters_Bezier 2024-02-12 13:00:08 +01:00
Daniele Bariletti 603cb083cc EgtExecutor : 
- aggiunte le funzioni per l'intersezione tra linea e sup. Bezier.
 2024-02-12 12:59:43 +01:00
Dario Sassi d9cfc375a9 Merge branch 'master' of https://gitlab.steamware.net/egaltech/EgtExecutor 2024-02-05 19:58:31 +01:00
Dario Sassi cce5e6ae76 EgtExecutor 2.6b1 : 
- modifiche a ExePocketing per accettare percorso piano e chiuso oltre che regione piana.
 2024-02-05 19:56:31 +01:00
Daniele Bariletti 407ca752ab Merge branch 'ExtDimension_angular' 2024-02-05 15:55:46 +01:00
Daniele Bariletti 41c50a776e Merge branch 'master' into ExtDimension_angular 2024-02-05 15:44:46 +01:00
SaraP f28da6d9e3 EgtExecutor 2.6a4 : 
- aggiunte funzioni Exe e Lua SurfFrOffsetAdv per calcolare offset di una flat region creando una nuova superficie senza modificare quella di partenza.
 2024-01-29 14:44:06 +01:00
Dario Sassi c5b2121bd5 EgtExecutor 2.6a3 : 
- modifiche per Voronoi non più direttamente accessibile.
 2024-01-29 09:30:19 +01:00
Dario Sassi 03785dcca3 EgtExecutor 2.6a2 : 
- aggiunta ExeGetKeyAssLeftDays per avere il numero di giorni mancanti al termine dell'assistenza.
 2024-01-25 18:20:31 +01:00
Dario Sassi b4eccf1f18 EgtExecutor : 
- aggiunta funzione Exe e Lua LineCurveInters.
 2024-01-17 13:22:34 +01:00
Dario Sassi c169329660 EgtExecutor : 
- aggiunta funzione Exe e Lua ChangeMachGroupName.
 2024-01-16 19:42:12 +01:00
Dario Sassi 94d76d3a68 EgtExecutor 2.6a1 : 
- ricompilazione con cambio versione.
 2024-01-16 15:14:05 +01:00
SaraP 511e74a4d9 EgtExecutor 2.5l7 : 
- nelle funzioni Exe e Lua di OffsetCurveAdv e CreateSurfFatCurve aggiunto parametro opzionale di tolleranza lineare per gli offset.
 2024-01-10 10:11:14 +01:00
Dario Sassi 24616b55b9 EgtExecutor 2.5l6 : 
- aggiunta funzione ExeSetGridGeoAdv.
 2024-01-09 18:30:50 +01:00
Dario Sassi 1a961a19af EgtExecutor 2.5l5 : 
- aggiunta funzione Exe e Lua CAvToolPosBox
- agli import aggiunto log.
 2024-01-02 15:58:34 +01:00
Dario Sassi 80a9b3a7bb EgtExecutor 2.5l4 : 
- si scrive il log con le operazioni sui file di progetto (nuovo, apri, salva).
 2023-12-29 13:04:57 +01:00
Dario Sassi b7bdbb41a7 EgtExecutor : 
- aggiunta funzione lua EgtSurfTmFacetElevationInClosedSurfTm.
 2023-12-18 09:30:27 +01:00
Dario Sassi 6fed5204ca EgtExecutor : 
- funzione ExeDuploCountInRaw rinominata ExeDuploInRawCount
- aggiunta funzione lua EgtDuploInRawCount
- aggiunte funzioni Exe e Lua DuploWithoutRawList.
 2023-12-14 20:25:24 +01:00
Dario Sassi 318529688d EgtExecutor 2.5l3 : 
- aggiunta funzione Exe e Lua IsGhostPart
- aggiunta versione preliminare della funzione ExeDuploCountInRaw
- correzione su alcuni valori di ritorno di funzioni relative a MachMgr nel caso non ci sia il CurrMachMgr.
 2023-12-14 12:00:30 +01:00
Dario Sassi d7711c3ec6 EgtExecutor : 
- piccola miglioria a SurfTmGetEdges.
 2023-12-11 14:58:40 +01:00
Dario Sassi 589a58e8db EgtExecutor 2.5l2 : 
- aggiunta funzione Exe e Lua SurfTmGetEdges.
 2023-12-11 10:24:34 +01:00
Dario Sassi 7a0e3ad388 EgtExecutor 2.5l1 : 
- ricompilazione con cambio versione.
 2023-12-01 16:49:54 +01:00
SaraP 55f695da98 EgtExecutor : 
- piccola correzione nella gestione vettori di LuaSetInfo.
 2023-11-30 16:00:24 +01:00
Riccardo Elitropi cac3224ff8 EgtExecutor : 
- spostate le funzioni EgtPocketing e EgtGetSurfFrZigZagInfill in un documento a parte (EXE_GdbGetPocketing.cpp)
- aggiornati i parametri della funzione GetSurfFrZigZagInfill.
 2023-11-29 12:00:25 +01:00
Dario Sassi 13bfd1a9ac Merge remote-tracking branch 'origin/master' 2023-11-28 10:58:52 +01:00
Dario Sassi b522f4cea2 EgtExecutor : 
- a funzione ExeSurfTmFacetElevationInBBox aggiunto parametro bAcceptOutFacet (anche a corrispondente funzione lua come opzionale)
 2023-11-28 10:57:40 +01:00
Riccardo Elitropi 7f2a8377bf EgtExecutor : 
- modifica alla funzione EgtGetSurfFrZigZagInfill
- modificati i valori di ritorno per LuaPocketing.
 2023-11-27 12:39:50 +01:00
Dario Sassi 68af08cf32 EgtExecutor : 
- ExeCurveGetVoronoi e ExeCurveGetFatCurve spostate in Modify Curve
- aggiunta funzione ExeCurveGetMedialAxis usata da funzione Lua EgtCurveMedialAxisAdv.
 2023-11-24 15:38:24 +01:00
Dario Sassi c200868c89 EgtExecutor : 
- piccole sistemazioni post Vroni.
 2023-11-24 12:52:56 +01:00
SaraP 688fc7ff89 EgtExecutor 2.5k6 : 
- aggiunte funzioni Exe e Lua CurveGetVoronoi e CurveGetFatCurve.
 2023-11-23 13:02:04 +01:00
Dario Sassi b82d9fa522 EgtExecutor 2.5k5 : 
- aggiunta funzione ExeSetOnTerminateProcess per installare funzione di callback chiamata prima di terminare il processo con comando lua EgtCloseExe.
 2023-11-23 10:49:13 +01:00
Dario Sassi 2a077e9102 EgtExecutor : 
- in ExeProjectCurveOnSurfTm ai Vettori risultato aggiunta info Ind (indice di collegamento con gli estremi della curva risultato).
 2023-11-22 20:26:51 +01:00
Riccardo Elitropi 7b3f8a02f9 EgtExecutor 2.5k4 : 
- aggiunta funzione Exe e Lua Pocketing.
 2023-11-20 11:57:28 +01:00
Dario Sassi de3cdb8a7f EgtExecutor : 
- correzione alla funzione ExeSurfTmFacetElevationInBBox per il caso sia dato da un vertice.
 2023-11-17 18:42:55 +01:00
Dario Sassi 16b8763c64 EgtExecutor : 
- corretto commento.
 2023-11-16 19:29:32 +01:00
Dario Sassi 5c4f32a6e8 EgtExecutor : 
- aggiunta funzione Exe/Lua SurfTmFacetElevationInBBox.
 2023-11-16 18:57:18 +01:00
Dario Sassi 15633ec6d7 EgtExecutor : 
- modifiche per spostamento import/export da dll Exchange a dll Exch3dm.
 2023-11-14 18:58:01 +01:00
SaraP e2c401cc4a EgtExecutor 2.5k3 : 
- in CreateSurfFrFatCurve aggiunto parametro opzionale per distinguere squadratura cambi di direzione da squadratura estremi.
 2023-11-14 15:08:04 +01:00
Dario Sassi 4f97c95a8d EgtExecutor : 
- piccolo ritocco a scrittura funzione lua in log.
 2023-11-14 09:36:59 +01:00
Daniele Bariletti 8723dab473 Merge branch 'master' of https://gitlab.steamware.net/egaltech/EgtExecutor 2023-11-13 17:13:04 +01:00
Daniele Bariletti af798840a5 EgtExecutor : 
- correzione nella gestione dei layer nell'Import3dm.
 2023-11-13 17:12:52 +01:00
Dario Sassi 51b388db06 EgtExecutor : 
- piccole migliorie a Exe/Lua CreateSurfBezierLeaves.
 2023-11-13 08:49:49 +01:00
Daniele Bariletti 246aa6e3ed EgtExecutor : 
- rimosso l'argomento dScaleFactor da Import3dm.
 2023-11-08 10:58:28 +01:00
Daniele Bariletti 26111453ee EgtExecutor 2.5k2 : 
- cambio versione.
 2023-11-08 08:49:06 +01:00
Daniele Bariletti 8dd2972a4b Merge branch '3dm_import+trim&mesh' 2023-11-08 08:48:41 +01:00
Dario Sassi ef75a2f912 EgtExecutor 2.5k1 : 
- ricompilazione con cambio versione.
 2023-11-03 17:24:07 +01:00
Dario Sassi 3d564e1be7 EgtExecutor 2.5j6 : 
- aggiunte funzioni Exe/Lua GetClEntAxesVal e GetAllCurrAxesName
- modificate funzioni Exe/Lua FindToolInCurrSetup e GetClEntFlag.
 2023-10-28 18:16:31 +02:00
Daniele Bariletti 91e3e1d370 EgtExecutor 2.5j5 : 
- correzioni e aggiornamento dal master.
 2023-10-25 09:58:28 +02:00
Dario Sassi bd1861ade0 EgtExecutor : 
- sistemazione indentazione.
 2023-10-24 14:43:13 +02:00
Dario Sassi 01c2b26a1e EgtExecutor : 
- aggiornata ExeGetFileType per gestire estensione 3dm (file Rhino OpenNurbs).
 2023-10-24 13:10:40 +02:00
SaraP 641566cd42 EgtExecutor : 
- piccola correzione agli esportatori.
 2023-10-24 11:31:45 +02:00
Daniele Bariletti 8c9544595d EgtExecutor 2.5j5 : 
- aggiornamento versione.
 2023-10-23 16:00:21 +02:00
Daniele Bariletti 84993c293a EgtExecutor : 
- correzione minore.
 2023-10-23 15:09:14 +02:00
Daniele Bariletti af2c3d0e7b EgtExecutor : 
- formattazione del testo.
 2023-10-23 15:01:41 +02:00
Daniele Bariletti f69116ea09 EgtExecutor : 
- aggiunta dell'Export 3dm.
 2023-10-23 14:32:57 +02:00
Daniele Bariletti 29a643e640 EgtExecutor : 
- aggiunta la possibilità di mostrare la curva di trim sullo spazio
parametrico per una superficie di bezier.
 2023-10-23 10:29:02 +02:00
Dario Sassi c0d456b6fb EgtExecutor 2.5j4 : 
- aggiunta funzione lua EgtReplaceString.
 2023-10-22 15:56:23 +02:00
SaraP 4d038461a1 EgtExecutor 2.5j3 : 
- corretta gestione filtro in Export3MF.
 2023-10-20 12:16:54 +02:00
SaraP 55184afcb5 EgtExecutor : 
- corretto errore in CurveCurveInters nel caso di curva inesistente.
 2023-10-17 14:39:26 +02:00
Daniele Bariletti 854d93eaec EgtExecutor : 
- correzione minore a export 3dm.
 2023-10-17 11:21:51 +02:00
Dario Sassi 8e11114e4f EgtExecutor 2.5j2 : 
- modifica none EgtSurfTmSubtractProjectedFacesOnFace.
 2023-10-11 08:31:56 +02:00
Riccardo Elitropi 06c5d68d8b EgtExecutor : 
- rimozione parametro da ExeSurfTmSubtractProjectedFacesOnFace.
 2023-10-10 13:36:28 +02:00
Dario Sassi 5ec4ed439f EgtExecutor 2.5j1 : 
- riallineamento
- sistemazioni per chiave di rete esposta su Internet.
 2023-10-09 13:07:33 +02:00
Riccardo Elitropi 206f3bdf61 EgtExecutor 2.5j1 : 
- aggiunta funzione Exe e Lua SubtractProjectedFacesOnStmFace
- aggiunta di un parametro opzionale per Exe e Lua GetSilhouette.
 2023-10-04 12:19:48 +02:00
Daniele Bariletti 8602b78f21 EgtExecutor : 
- aggiunte funzioni per l'Export 3dm.
 2023-10-02 09:33:44 +02:00
Daniele Bariletti 626e24e150 EgtExecutor : 
- aggiunta del 3dm Export.
 2023-09-21 17:05:04 +02:00
Dario Sassi 2b65121551 EgtExecutor 2.5i5 : 
- ricompilazione a 64bit con Enable Enhanced Instruction Set = Not Set.
 2023-09-21 15:24:31 +02:00
Daniele Bariletti 6b3ab7e9b0 EgtExecutor : 
- introdotto l'uso della grafica di default per gli ExtDim
importati da 3dm.
 2023-09-21 14:41:51 +02:00
Daniele Bariletti 9e725f3feb EgtExecutor : 
- correzione minore.
 2023-09-18 11:47:19 +02:00
Daniele Bariletti d7db0a2d45 Merge branch 'master' into ExtDimension_angular 2023-09-18 11:46:26 +02:00
Dario Sassi 2794f35805 EgtExecutor : 
- aggiunte funzioni Exe e Lua CreateSurfTmTriangle e CreateSurfTmRectangle
- in Copy, CopyGlob, Relocate e RelocateGlob RefId ora accetta anche valori simbolici (layer corrente, ..).
 2023-09-18 08:14:36 +02:00
Dario Sassi 1259955522 EgtExecutor 2.5i1 : 
- aggiunta funzione Exe e Lua ProjectCurveOnSurfTm.
 2023-09-11 10:44:47 +02:00
Daniele Bariletti 7eb557ad32 Merge branch 'Bezier_trim&mesh' into 3dm_import 2023-09-05 09:07:04 +02:00
Daniele Bariletti e989b88dd4 Merge remote-tracking branch 'origin/HEAD' into Bezier_trim&mesh 2023-06-21 09:36:55 +02:00
Daniele Bariletti 4b58f4f522 EgtExecutor : 
- aggiunta funzione per il trim delle superfici di Bezier
- aggiunta funzione per vedere la divione di in celle di una superficie
di Bezier durante la costruzione della trimesh (per debug).
 2023-06-21 09:36:41 +02:00
Daniele Bariletti fb388799ea EgtExecutor : 
- modifica minore alle quote angolari.
 2023-04-19 17:21:53 +02:00
Daniele Bariletti f6915d80fa EgtExecutor : 
- modifica minore alle quote angolari.
 2023-04-14 10:06:08 +02:00
Daniele Bariletti d412ce65cd EgtExecutor : 
- aggiustamenti alle quote angolari.
 2023-04-14 09:46:03 +02:00
Daniele Bariletti 61824a24ab Merge remote-tracking branch 'origin/master' into ExtDimension_angular 2023-04-12 10:43:11 +02:00
46 changed files with 4145 additions and 1340 deletions
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DllExch3dm.cpp
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//----------------------------------------------------------------------------
// EgalTech 2023-2023
//----------------------------------------------------------------------------
// File : DllExch3dm.cpp Data : 14.11.23 Versione : 2.5k2
// Contenuto : Funzioni di gestione della libreria opzionale EgtExch3dme.
//
//
//
// Modifiche : 14.11.23 DS Creazione modulo.
//
//
//
//----------------------------------------------------------------------------
//--------------------------- Include ----------------------------------------
#include "stdafx.h"
#include "EXE.h"
#include "DllExch3dm.h"
#include "/EgtDev/Include/EE3DllMain.h"
#define NOMINMAX
#include <windows.h>
using namespace std ;
//-----------------------------------------------------------------------------
// Nome della libreria
#if defined( _WIN64) && defined( _DEBUG)
static const wchar_t* EE3_NAME = L"EgtExch3dmD64.dll" ;
#elif defined( _WIN64)
static const wchar_t* EE3_NAME = L"EgtExch3dmR64.dll" ;
#elif defined( _WIN32) && defined( _DEBUG)
static const wchar_t* EE3_NAME = L"EgtExch3dmD32.dll" ;
#else
static const wchar_t* EE3_NAME = L"EgtExch3dmR32.dll" ;
#endif
// Nome delle funzioni caricate
static const char* EE3_SETEE3LOGGER = "SetEE3Logger" ;
static const char* EE3_GETEE3VERSION = "GetEE3Version" ;
static const char* EE3_SETEE3KEY = "SetEE3Key" ;
static const char* EE3_SETEE3NETHWKEY = "SetEE3NetHwKey" ;
static const char* EE3_CREATEIMPORT3DM = "CreateImport3dm" ;
static const char* EE3_CREATEEXPORT3DM = "CreateExport3dm" ;
//-----------------------------------------------------------------------------
HMODULE s_hEE3 = nullptr ;
//-----------------------------------------------------------------------------
bool
LoadExch3dmDll( ILogger* pLogger, const string& sKey, bool bNetHwKey)
{
// verifico la chiave
if ( ! TestKeyForEE3( sKey, 0, pLogger)) {
FreeExch3dmDll() ;
return false ;
}
// se già caricata
if ( s_hEE3 != nullptr)
return true ;
// carico la libreria EgtExch3dm
s_hEE3 = LoadLibrary( EE3_NAME) ;
if ( s_hEE3 == nullptr)
return false ;
// imposto logger
MySetEE3Logger( pLogger) ;
// imposto i codici della chiave
MySetEE3Key( sKey) ;
// imposto eventuale chiave di rete
MySetEE3NetHwKey( bNetHwKey) ;
return true ;
}
//-----------------------------------------------------------------------------
bool
FreeExch3dmDll( void)
{
// se non è già caricata
if ( s_hEE3 == nullptr)
return true ;
// libero la libreria EgtExch3dm
FreeLibrary( s_hEE3) ;
s_hEE3 = nullptr ;
return true ;
}
//-----------------------------------------------------------------------------
bool
IsLoadedExch3dmDll( void)
{
return ( s_hEE3 != nullptr) ;
}
//-----------------------------------------------------------------------------
void
MySetEE3Logger( ILogger* pLogger)
{
// verifico caricamento libreria EgtExch3dm
if ( s_hEE3 == nullptr)
return ;
// recupero funzione che imposta il logger
typedef void (* PF_SetEE3Logger) ( ILogger* pLogger) ;
PF_SetEE3Logger pFun = (PF_SetEE3Logger)GetProcAddress( s_hEE3, EE3_SETEE3LOGGER) ;
if ( pFun == nullptr)
return ;
pFun( pLogger) ;
}
//-----------------------------------------------------------------------------
const char*
MyGetEE3Version( void)
{
// verifico caricamento libreria EgtExch3dm
if ( s_hEE3 == nullptr)
return "" ;
// recupero funzione che restituisce la versione della libreria
typedef const char* (* PF_GetEE3Version) ( void) ;
PF_GetEE3Version pFun = (PF_GetEE3Version)GetProcAddress( s_hEE3, EE3_GETEE3VERSION) ;
if ( pFun == nullptr)
return "" ;
return pFun() ;
}
//-----------------------------------------------------------------------------
void
MySetEE3Key( const string& sKey)
{
// verifico caricamento libreria EgtExch3dm
if ( s_hEE3 == nullptr)
return ;
// recupero funzione che imposta i codici di protezione
typedef void (* PF_SetEE3Key) ( const string& sKey) ;
PF_SetEE3Key pFun = (PF_SetEE3Key)GetProcAddress( s_hEE3, EE3_SETEE3KEY) ;
if ( pFun == nullptr)
return ;
pFun( sKey) ;
}
//-----------------------------------------------------------------------------
void
MySetEE3NetHwKey( bool bNetHwKey)
{
// verifico caricamento libreria EgtExch3dm
if ( s_hEE3 == nullptr)
return ;
// recupero funzione che imposta il flag per chiave di rete
typedef void (* PF_SetEE3NetHwKey) ( bool bNetHwKey) ;
PF_SetEE3NetHwKey pFun = (PF_SetEE3NetHwKey)GetProcAddress( s_hEE3, EE3_SETEE3NETHWKEY) ;
if ( pFun == nullptr)
return ;
pFun( bNetHwKey) ;
}
//-----------------------------------------------------------------------------
IImport3dm*
MyCreateImport3dm( void)
{
// verifico caricamento libreria EgtExch3dm
if ( s_hEE3 == nullptr)
return nullptr ;
// recupero funzione creazione oggetto
typedef IImport3dm* (* PF_CreateImport3dm) ( void) ;
PF_CreateImport3dm pFun = (PF_CreateImport3dm)GetProcAddress( s_hEE3, EE3_CREATEIMPORT3DM) ;
if ( pFun == nullptr)
return nullptr ;
return pFun() ;
}
//-----------------------------------------------------------------------------
IExport3dm*
MyCreateExport3dm( void)
{
// verifico caricamento libreria EgtExch3dm
if ( s_hEE3 == nullptr)
return nullptr ;
// recupero funzione creazione oggetto
typedef IExport3dm* (* PF_CreateExport3dm) ( void) ;
PF_CreateExport3dm pFun = (PF_CreateExport3dm)GetProcAddress( s_hEE3, EE3_CREATEEXPORT3DM) ;
if ( pFun == nullptr)
return nullptr ;
return pFun() ;
}
DllExch3dm.h
+31
View File
@@ -0,0 +1,31 @@
//----------------------------------------------------------------------------
// EgalTech 2023-2023
//----------------------------------------------------------------------------
// File : DllExch3dm.h Data : 14.11.23 Versione : 2.5k3
// Contenuto : Dichiarazioni funzioni per libreria opzionale EgtExchange.
//
//
//
// Modifiche : 14.11.23 DS Creazione modulo.
//
//
//----------------------------------------------------------------------------
#pragma once
#include <string>
class ILogger ;
class IImport3dm ;
class IExport3dm ;
//----------------------------------------------------------------------------
bool LoadExch3dmDll( ILogger* pLogger, const std::string& sKey, bool bNetHwKey) ;
bool FreeExch3dmDll( void) ;
bool IsLoadedExch3dmDll( void) ;
void MySetEE3Logger( ILogger* pLogger) ;
void MySetEE3Key( const std::string& sKey) ;
void MySetEE3NetHwKey( bool bNetHwKey) ;
const char* MyGetEE3Version( void) ;
IImport3dm* MyCreateImport3dm( void) ;
IExport3dm* MyCreateExport3dm( void) ;
DllExchange.cpp
+4 -18
View File
@@ -10,6 +10,8 @@
// 03.07.18 DS Aggiunto ImportPnt.
// 15.09.19 DS Aggiunto ExportSvg.
// 14.12.20 DS Aggiunto ImportBtlx.
// 23.10.23 DB Aggiunto Export3dm.
// 07.11.23 DB Aggiunto Import3dm.
//
//----------------------------------------------------------------------------
@@ -49,7 +51,6 @@ static const char* EEX_CREATEIMPORTDXF = "CreateImportDxf" ;
static const char* EEX_CREATEIMPORTPNT = "CreateImportPnt" ;
static const char* EEX_CREATEIMPORTSTL = "CreateImportStl" ;
static const char* EEX_CREATEIMPORT3MF = "CreateImport3MF" ;
static const char* EEX_CREATEIMPORT3DM = "CreateImport3dm" ;
static const char* EEX_CREATEEXPORTDXF = "CreateExportDxf" ;
static const char* EEX_CREATEEXPORTSTL = "CreateExportStl" ;
static const char* EEX_CREATEEXPORT3MF = "CreateExport3MF" ;
@@ -71,7 +72,7 @@ LoadExchangeDll( ILogger* pLogger, const string& sKey, bool bNetHwKey)
FreeExchangeDll() ;
return false ;
}
// se già caricata
// se già caricata
if ( s_hEEx != nullptr)
return true ;
// carico la libreria EgtExchange
@@ -91,7 +92,7 @@ LoadExchangeDll( ILogger* pLogger, const string& sKey, bool bNetHwKey)
bool
FreeExchangeDll( void)
{
// se non è già caricata
// se non è già caricata
if ( s_hEEx == nullptr)
return true ;
// libero la libreria EgtExchange
@@ -317,21 +318,6 @@ MyCreateImport3MF( void)
return pFun() ;
}
//-----------------------------------------------------------------------------
IImport3dm*
MyCreateImport3dm( void)
{
// verifico caricamento libreria EgtExchange
if ( s_hEEx == nullptr)
return nullptr ;
// recupero funzione creazione oggetto
typedef IImport3dm* (* PF_CreateImport3dm) ( void) ;
PF_CreateImport3dm pFun = (PF_CreateImport3dm)GetProcAddress( s_hEEx, EEX_CREATEIMPORT3DM) ;
if ( pFun == nullptr)
return nullptr ;
return pFun() ;
}
//-----------------------------------------------------------------------------
IExportDxf*
MyCreateExportDxf( void)
DllExchange.h
-2
View File
@@ -25,7 +25,6 @@ class IImportDxf ;
class IImportPnt ;
class IImportStl ;
class IImport3MF ;
class IImport3dm ;
class IExportDxf ;
class IExportStl ;
class IExport3MF ;
@@ -51,7 +50,6 @@ IImportDxf* MyCreateImportDxf( void) ;
IImportPnt* MyCreateImportPnt( void) ;
IImportStl* MyCreateImportStl( void) ;
IImport3MF* MyCreateImport3MF( void) ;
IImport3dm* MyCreateImport3dm( void) ;
IExportDxf* MyCreateExportDxf( void) ;
IExportStl* MyCreateExportStl( void) ;
IExport3MF* MyCreateExport3MF( void) ;
EXE_CAvTool.cpp
+23
View File
@@ -22,6 +22,7 @@
#include "/EgtDev/Include/EXeConst.h"
#include "/EgtDev/Include/EGkCurve.h"
#include "/EgtDev/Include/EGkCurveComposite.h"
#include "/EgtDev/Include/EGkStmStandard.h"
#include "/EgtDev/Include/EGkCAvToolSurfTm.h"
#include "/EgtDev/Include/EgtNumUtils.h"
#include "/EgtDev/Include/EgtPointerOwner.h"
@@ -98,6 +99,28 @@ ExeCAvGetToolOutline( int nDestGrpId, bool bApprox)
return nId ;
}
//----------------------------------------------------------------------------
double
ExeCAvToolPosBox( const Point3d& ptP, const Vector3d& vtAx, const BBox3d& b3Box, const Vector3d& vtMove)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// creo la superficie TriMesh
PtrOwner<ISurfTriMesh> pStm( GetSurfTriMeshBox( b3Box.GetDimX(), b3Box.GetDimY(), b3Box.GetDimZ())) ;
if ( IsNull( pStm))
return -1 ;
pStm->Translate( b3Box.GetMin() - ORIG) ;
// verifico oggetto per evitare collisioni
if ( IsNull( s_pCAvTlStm))
return -1 ;
// imposto dati
s_pCAvTlStm->SetSurfTm( *pStm) ;
double dMove ;
if ( ! s_pCAvTlStm->TestPosition( ptP, vtAx, vtMove, dMove))
return -1 ;
return dMove ;
}
//----------------------------------------------------------------------------
double
ExeCAvToolPosStm( const Point3d& ptP, const Vector3d& vtAx, int nSurfTmId, const Vector3d& vtMove, int nRefType)
EXE_CDeObjSolid.cpp
+19 -15
View File
@@ -49,7 +49,7 @@ MyCDeBoxClosedSurfTm( const Frame3d& frBox, const Vector3d& vtDiag, int nSurfTmI
// porto in locale alla superficie il riferimento del box (il vettore è già in questo stesso riferimento)
Frame3d frBoxL = GetFrameLocal( pGeomDB, frBox, nRefType, frSurf) ;
// verifico la collisione
return ( CDeBoxClosedSurfTm( frBoxL, vtDiag, dSafeDist, *pStm) ? 1 : 0) ;
return ( CDeBoxClosedSurfTm( frBoxL, vtDiag, *pStm, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -69,7 +69,7 @@ MyCDeBoxVolZmap( const Frame3d& frBox, const Vector3d& vtDiag, int nZmapId, doub
// porto in locale il riferimento (il vettore è già in locale a questo stesso riferimento)
Frame3d frBoxL = GetFrameLocal( pGeomDB, frBox, nRefType, frLoc) ;
// verifico la collisione
return ( pVZM->AvoidBox( frBoxL, vtDiag, dSafeDist, false) ? 0 : 1) ;
return ( pVZM->CDeBox( frBoxL, vtDiag, dSafeDist, false) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -118,7 +118,7 @@ MyCDeRectPrismoidClosedSurfTm( const Frame3d& frPrismoid, double dBaseLenX, doub
// porto in locale alla superficie il riferimento del prismoide rettangolare
Frame3d frPrismoidL = GetFrameLocal( pGeomDB, frPrismoid, nRefType, frSurf) ;
// verifico la collisione
return ( CDeRectPrismoidClosedSurfTm( frPrismoidL, dBaseLenX, dBaseLenY, dTopLenX, dTopLenY, dHeight, dSafeDist, *pStm) ? 1 : 0) ;
return ( CDeRectPrismoidClosedSurfTm( frPrismoidL, dBaseLenX, dBaseLenY, dTopLenX, dTopLenY, dHeight, *pStm, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -140,7 +140,7 @@ MyCDeRectPrismoidVolZmap( const Frame3d& frPrismoid, double dBaseLenX, double dB
// porto in locale il riferimento (il vettore è già in locale a questo stesso riferimento)
Frame3d frPrismoidL = GetFrameLocal( pGeomDB, frPrismoid, nRefType, frLoc) ;
// verifico la collisione
return ( pVZM->AvoidRectPrismoid( frPrismoidL, dBaseLenX, dBaseLenY, dTopLenX, dTopLenY, dHeight, dSafeDist, false) ? 0 : 1) ;
return ( pVZM->CDeRectPrismoid( frPrismoidL, dBaseLenX, dBaseLenY, dTopLenX, dTopLenY, dHeight, dSafeDist, false) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -193,7 +193,7 @@ MyCDeCylClosedSurfTm( const Frame3d& frCyl, double dR, double dH, int nSurfTmId,
// porto in locale alla superficie il riferimento del cilindro
Frame3d frCylL = GetFrameLocal( pGeomDB, frCyl, nRefType, frSurf) ;
// verifico la collisione
return ( CDeCylClosedSurfTm( frCylL, dR, dH, dSafeDist, *pStm) ? 1 : 0) ;
return ( CDeCylClosedSurfTm( frCylL, dR, dH, *pStm, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -213,7 +213,7 @@ MyCDeCylVolZmap( const Frame3d& frCyl, double dR, double dH, int nZmapId, double
// porto in locale il riferimento
Frame3d frCylL = GetFrameLocal( pGeomDB, frCyl, nRefType, frLoc) ;
// verifico la collisione
return ( pVZM->AvoidCylinder( frCylL, dR, dH, dSafeDist, false) ? 0 : 1) ;
return ( pVZM->CDeCylinder( frCylL, dR, dH, dSafeDist, false) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -261,7 +261,7 @@ MyCDeConeClosedSurfTm( const Frame3d& frCone, double dR1, double dR2, double dH,
// porto in locale alla superficie il riferimento del cilindro
Frame3d frConeL = GetFrameLocal( pGeomDB, frCone, nRefType, frSurf) ;
// verifico la collisione
return ( CDeConeFrustumClosedSurfTm( frConeL, dR1, dR2, dH, dSafeDist, *pStm) ? 1 : 0) ;
return ( CDeConeFrustumClosedSurfTm( frConeL, dR1, dR2, dH, *pStm, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -281,7 +281,7 @@ MyCDeConeVolZmap( const Frame3d& frCone, double dR1, double dR2, double dH, int
// porto in locale il riferimento
Frame3d frConeL = GetFrameLocal( pGeomDB, frCone, nRefType, frLoc) ;
// verifico la collisione
return ( pVZM->AvoidConeFrustum( frConeL, dR1, dR2, dH, dSafeDist, false) ? 0 : 1) ;
return ( pVZM->CDeConeFrustum( frConeL, dR1, dR2, dH, dSafeDist, false) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -330,7 +330,7 @@ MyCDeSpheClosedSurfTm( const Point3d& ptCen, double dR, int nSurfTmId, double dS
// porto in locale alla superficie il centro della sfera
Point3d ptCenL = GetPointLocal( pGeomDB, ptCen, nRefType, frSurf) ;
// verifico la collisione
return ( CDeSpheClosedSurfTm( ptCenL, dR, dSafeDist, *pStm) ? 1 : 0) ;
return ( CDeSpheClosedSurfTm( ptCenL, dR, *pStm, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -350,7 +350,7 @@ MyCDeSpheVolZmap( const Point3d& ptCen, double dRad, int nZmapId, double dSafeDi
// porto in locale il centro della sfera
Point3d ptCenL = GetPointLocal( pGeomDB, ptCen, nRefType, frLoc) ;
// verifico la collisione
return ( pVZM->AvoidSphere( ptCenL, dRad, dSafeDist, false) ? 0 : 1) ;
return ( pVZM->CDeSphere( ptCenL, dRad, dSafeDist, false) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -420,7 +420,7 @@ MyCDeClosedSurfTmVolZmap( int nSurfTmId, int nZmapId, double dSafeDist)
if ( pVZM == nullptr)
return -1 ;
// verifico la collisione
return ( pVZM->AvoidSurfTm( *pStm, dSafeDist, false) ? 0 : 1) ;
return ( pVZM->CDeSurfTm( *pStm, dSafeDist, false) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
@@ -429,10 +429,14 @@ ExeCDeSolidSolid( int nSolid1Id, int nSolid2Id, double dSafeDist)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
int nRes = -1 ;
if ( pGeomDB != nullptr && pGeomDB->GetGeoType( nSolid1Id) == SRF_TRIMESH && pGeomDB->GetGeoType( nSolid2Id) == SRF_TRIMESH)
nRes = MyCDeClosedSurfTmClosedSurfTm( nSolid1Id, nSolid2Id, dSafeDist) ;
else if ( pGeomDB != nullptr && pGeomDB->GetGeoType( nSolid1Id) == SRF_TRIMESH && pGeomDB->GetGeoType( nSolid2Id) == VOL_ZMAP)
nRes = MyCDeClosedSurfTmVolZmap( nSolid1Id, nSolid2Id, dSafeDist) ;
if ( pGeomDB != nullptr) {
if ( pGeomDB->GetGeoType( nSolid1Id) == SRF_TRIMESH && pGeomDB->GetGeoType( nSolid2Id) == SRF_TRIMESH)
nRes = MyCDeClosedSurfTmClosedSurfTm( nSolid1Id, nSolid2Id, dSafeDist) ;
else if ( pGeomDB->GetGeoType( nSolid1Id) == SRF_TRIMESH && pGeomDB->GetGeoType( nSolid2Id) == VOL_ZMAP)
nRes = MyCDeClosedSurfTmVolZmap( nSolid1Id, nSolid2Id, dSafeDist) ;
else if ( pGeomDB->GetGeoType( nSolid1Id) == VOL_ZMAP && pGeomDB->GetGeoType( nSolid2Id) == SRF_TRIMESH)
nRes = MyCDeClosedSurfTmVolZmap( nSolid2Id, nSolid1Id, dSafeDist) ;
}
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtCDeSolidSolid({" + IdToString( nSolid1Id) + "," +
EXE_Exchange.cpp
+112 -26
View File
@@ -17,6 +17,7 @@
#include "EXE_Macro.h"
#include "AuxTools.h"
#include "DllExchange.h"
#include "DllExch3dm.h"
#include "/EgtDev/Include/EXeExecutor.h"
#include "/EgtDev/Include/EXeConst.h"
#include "/EgtDev/Include/EXeCmdLogOff.h"
@@ -28,12 +29,13 @@
#include "/EgtDev/Include/EExImportPnt.h"
#include "/EgtDev/Include/EExImportBtl.h"
#include "/EgtDev/Include/EExImportBtlx.h"
#include "/EgtDev/Include/EExImport3dm.h"
#include "/EgtDev/Include/EExExportDxf.h"
#include "/EgtDev/Include/EExExportStl.h"
#include "/EgtDev/Include/EExExport3MF.h"
#include "/EgtDev/Include/EExExportSvg.h"
#include "/EgtDev/Include/EExExportThreeJS.h"
#include "/EgtDev/Include/EE3Import3dm.h"
#include "/EgtDev/Include/EE3Export3dm.h"
#include "/EgtDev/Include/EGnStringUtils.h"
#include "/EgtDev/Include/EGnFileUtils.h"
#include "/EgtDev/Include/EgtStringConverter.h"
@@ -71,6 +73,8 @@ ExeGetFileType( const string& sFilePath)
return FT_STL ;
else if ( sFileExt == "3MF")
return FT_3MF ;
else if ( sFileExt == "3DM")
return FT_3DM ;
else if ( sFileExt == "OBJ")
return FT_OBJ ;
else if ( sFileExt == "CNC" || sFileExt == "XPI" || sFileExt == "MPF" || sFileExt == "ISO" || sFileExt == "EIA")
@@ -148,6 +152,11 @@ ExeImportBtl( const string& sFilePath, int nFlag)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
if ( ! IsNull( pImpBtl)) {
string sLog = "Import File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
@@ -176,6 +185,11 @@ ExeImportBtlx( const string& sFilePath, int nFlag)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
if ( ! IsNull( pImpBtlx)) {
string sLog = "Import File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
@@ -206,6 +220,11 @@ ExeImportCnc( const string& sFilePath, int nFlag)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
if ( ! IsNull( pImpCnc)) {
string sLog = "Import File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
@@ -233,6 +252,11 @@ ExeImportCsf( const string& sFilePath)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
if ( ! IsNull( pImpCsf)) {
string sLog = "Import File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
@@ -263,6 +287,11 @@ ExeImportDxf( const string& sFilePath, double dScaleFactor)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
if ( ! IsNull( pImpDxf)) {
string sLog = "Import File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
@@ -293,6 +322,11 @@ ExeImportPnt( const string& sFilePath, int nFlag)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
if ( ! IsNull( pImpPnt)) {
string sLog = "Import File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
@@ -308,10 +342,10 @@ ExeImportStl( const string& sFilePath, double dScaleFactor)
// aggiungo un gruppo pezzo e un gruppo layer
int nPartId = pGseCtx->m_pGeomDB->AddGroup( GDB_ID_NULL, GDB_ID_ROOT, Frame3d()) ;
int nLayerId = pGseCtx->m_pGeomDB->AddGroup( GDB_ID_NULL, nPartId, Frame3d()) ;
// preparo l'importatore
// preparo l'importatore
PtrOwner<IImportStl> pImpStl( MyCreateImportStl()) ;
bOk = bOk && ! IsNull( pImpStl) ;
// eseguo l'importazione
// eseguo l'importazione
bOk = bOk && pImpStl->Import( sFilePath, pGseCtx->m_pGeomDB, nLayerId, dScaleFactor) ;
// aggiorno stato file corrente
if ( pGseCtx->m_sFilePath.empty())
@@ -324,6 +358,11 @@ ExeImportStl( const string& sFilePath, double dScaleFactor)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
if ( ! IsNull( pImpStl)) {
string sLog = "Import File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
@@ -336,13 +375,13 @@ ExeImport3MF( const string& sFilePath)
VERIFY_CTX_GEOMDB( pGseCtx, false)
bool bOk = true ;
// importo il file 3MF
// aggiungo un gruppo pezzo e un gruppo layer
// aggiungo un gruppo pezzo e un gruppo layer
int nPartId = pGseCtx->m_pGeomDB->AddGroup( GDB_ID_NULL, GDB_ID_ROOT, Frame3d()) ;
int nLayerId = pGseCtx->m_pGeomDB->AddGroup( GDB_ID_NULL, nPartId, Frame3d()) ;
// preparo l'importatore
// preparo l'importatore
PtrOwner<IImport3MF> pImp3MF( MyCreateImport3MF()) ;
bOk = bOk && ! IsNull( pImp3MF) ;
// eseguo l'importazione
// eseguo l'importazione
bOk = bOk && pImp3MF->Import( sFilePath, pGseCtx->m_pGeomDB, nLayerId) ;
// aggiorno stato file corrente
if ( pGseCtx->m_sFilePath.empty())
@@ -354,37 +393,54 @@ ExeImport3MF( const string& sFilePath)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
if ( ! IsNull( pImp3MF)) {
string sLog = "Import File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
//-----------------------------------------------------------------------------
bool
ExeImport3dm( const string& sFilePath, double dScaleFactor)
ExeImport3dm( const string& sFilePath)
{
GseContext* pGseCtx = GetCurrGseContext() ;
VERIFY_CTX_GEOMDB( pGseCtx, false)
bool bOk = true ;
// importo il file 3dm
// aggiungo un gruppo pezzo e un gruppo layer
// aggiungo un gruppo pezzo e un gruppo layer
int nPartId = pGseCtx->m_pGeomDB->AddGroup( GDB_ID_NULL, GDB_ID_ROOT, Frame3d()) ;
int nLayerId = pGseCtx->m_pGeomDB->AddGroup( GDB_ID_NULL, nPartId, Frame3d()) ;
// preparo l'importatore
// preparo l'importatore
PtrOwner<IImport3dm> pImp3dm( MyCreateImport3dm()) ;
bOk = bOk && ! IsNull( pImp3dm) ;
// eseguo l'importazione
bOk = bOk && pImp3dm->Import( sFilePath, pGseCtx->m_pGeomDB, nLayerId, dScaleFactor) ;
// eseguo l'importazione
const DimensionStyle& DimSt = pGseCtx->m_dsCurr ;
double dExtLine = DimSt.dExtLineLen ;
double dArrLen = DimSt.dArrowLen ;
double dTextDist = DimSt.dTextDist ;
bool bLenIsMM = ( DimSt.nLenIsMM == 2 ? ExeUiUnitsAreMM() : ( DimSt.nLenIsMM != 0 )) ;
int nDecDig = DimSt.nDecDigit ;
string sFont = DimSt.sFont ;
double dTextHeight = DimSt.dTextHeight ;
bOk = bOk && pImp3dm->Import( sFilePath, pGseCtx->m_pGeomDB, nPartId,
dTextHeight, dExtLine, dArrLen, dTextDist, bLenIsMM, nDecDig, sFont) ;
// aggiorno stato file corrente
if ( pGseCtx->m_sFilePath.empty())
pGseCtx->m_sFilePath = sFilePath ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtImport3dm('" + StringToLuaString( sFilePath) + "'," +
ToString( dScaleFactor) + ")" +
string sLua = "EgtImport3dm('" + StringToLuaString( sFilePath) + "')" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
if ( ! IsNull( pImp3dm)) {
string sLog = "Import File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
@@ -492,6 +548,11 @@ ExeAdvancedImport( const string& sFilePath, double dToler)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
{
string sLog = "Advanced Import File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
@@ -504,11 +565,11 @@ ExeExportDxf( int nId, const string& sFilePath, int nFlag, int nFilter)
VERIFY_GEOMDB( pGeomDB, false)
bool bOk = true ;
// esporto il file DXF
// preparo l'esportatore
// preparo l'esportatore
PtrOwner<IExportDxf> pExpDxf( MyCreateExportDxf()) ;
bOk = bOk && ! IsNull( pExpDxf) ;
// eseguo l'esportazione
pExpDxf->SetOptions( nFilter, nFlag) ;
bOk = bOk && pExpDxf->SetOptions( nFilter, nFlag) ;
bOk = bOk && pExpDxf->Export( pGeomDB, nId, sFilePath) ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
@@ -530,11 +591,11 @@ ExeExportStl( int nId, const string& sFilePath, int nFilter)
VERIFY_GEOMDB( pGeomDB, false)
bool bOk = true ;
// esporto il file STL
// preparo l'esportatore
// preparo l'esportatore
PtrOwner<IExportStl> pExpStl( MyCreateExportStl()) ;
bOk = bOk && ! IsNull( pExpStl) ;
// eseguo l'esportazione
pExpStl->SetOptions( nFilter) ;
bOk = bOk && pExpStl->SetOptions( nFilter) ;
bOk = bOk && pExpStl->Export( pGeomDB, nId, sFilePath) ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
@@ -554,12 +615,12 @@ ExeExport3MF( int nId, const string& sFilePath, int nFilter)
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
bool bOk = true ;
// esporto il file STL
// preparo l'esportatore
// esporto il file 3MF
// preparo l'esportatore
PtrOwner<IExport3MF> pExp3MF( MyCreateExport3MF()) ;
bOk = bOk && ! IsNull( pExp3MF) ;
// eseguo l'esportazione
pExp3MF->SetOptions( nFilter) ;
// eseguo l'esportazione
bOk = bOk && pExp3MF->SetOptions( nFilter) ;
bOk = bOk && pExp3MF->Export( pGeomDB, nId, sFilePath) ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
@@ -572,6 +633,31 @@ ExeExport3MF( int nId, const string& sFilePath, int nFilter)
return bOk ;
}
//-----------------------------------------------------------------------------
bool
ExeExport3dm( int nId, const string& sFilePath, int nFilter)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
bool bOk = true ;
// esporto il file 3dm
// preparo l'esportatore
PtrOwner<IExport3dm> pExp3dm( MyCreateExport3dm()) ;
bOk = bOk && ! IsNull( pExp3dm) ;
// eseguo l'esportazione
bOk = bOk && pExp3dm->SetOptions( nFilter) ;
bOk = bOk && pExp3dm->Export( pGeomDB, nId, sFilePath) ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtExport3dm(" + ToString( nId) + ",'" +
StringToLuaString( sFilePath) + "')" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
//-----------------------------------------------------------------------------
bool
ExeExportSvg( int nId, const string& sFilePath, int nFilter)
@@ -579,12 +665,12 @@ ExeExportSvg( int nId, const string& sFilePath, int nFilter)
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
bool bOk = true ;
// esporto il file SVG
// preparo l'esportatore
// esporto il file SVG
// preparo l'esportatore
PtrOwner<IExportSvg> pExpSvg( MyCreateExportSvg()) ;
bOk = bOk && ! IsNull( pExpSvg) ;
// eseguo l'esportazione
pExpSvg->SetOptions( nFilter) ;
// eseguo l'esportazione
bOk = bOk && pExpSvg->SetOptions( nFilter) ;
bOk = bOk && pExpSvg->Export( pGeomDB, nId, sFilePath) ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
EXE_GdbCreate.cpp
+132 -179
View File
@@ -131,7 +131,7 @@ ExeCreateGeoVector( int nParentId, const Vector3d& vtV, const Point3d& ptB, int
Point3d ptBL = GetPointLocal( pGeomDB, ptB, nRefType, frLoc) ;
// creo il vettore
PtrOwner<IGeoVector3d> pGeoVct( CreateGeoVector3d()) ;
bOk = bOk && !IsNull( pGeoVct) ;
bOk = bOk && ! IsNull( pGeoVct) ;
// setto il vettore (con il punto base)
bOk = bOk && pGeoVct->Set( vtVL, ptBL) ;
// inserisco il vettore nel DB
@@ -480,7 +480,7 @@ MyCreateRadialDimension( int nParentId, int nCrvId, const Point3d& ptDim,
Point3d ptCenL = pArc->GetCenter() ;
ptCenL.LocToLoc( frArc, frLoc) ;
Vector3d vtNL = pArc->GetNormVersor() ;
vtNL.LocToLoc( frArc, frLoc) ;
vtNL.LocToLoc( frArc, frLoc) ;
// porto ptDimL sulla circonferenza cui appartiene l'arco
Vector3d vtDir = ptDimL - ptCenL ;
if ( ! vtDir.Normalize())
@@ -543,7 +543,7 @@ MyCreateDiametralDimension( int nParentId, int nCrvId, const Point3d& ptDim,
Point3d ptCenL = pArc->GetCenter() ;
ptCenL.LocToLoc( frArc, frLoc) ;
Vector3d vtNL = pArc->GetNormVersor() ;
vtNL.LocToLoc( frArc, frLoc) ;
vtNL.LocToLoc( frArc, frLoc) ;
// porto ptDimL sulla circonferenza
Vector3d vtDir = ptDimL - ptCenL ;
if ( ! vtDir.Normalize())
@@ -583,7 +583,7 @@ ExeCreateDiametralDimension( int nParentId, int nCrvId, const Point3d& ptDim,
//-------------------------------------------------------------------------------
static int
MyCreateAngularDimension( int nParentId, const Point3d& ptP1, const Point3d& ptP0, const Point3d& ptP2,
MyCreateAngularDimension( int nParentId, const Point3d& ptV, const Point3d& ptP1, const Point3d& ptP2,
const Point3d& ptDim, const string& sText, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
@@ -594,7 +594,7 @@ MyCreateAngularDimension( int nParentId, const Point3d& ptP1, const Point3d& ptP
if ( ! pGeomDB->GetGroupGlobFrame( nParentId, frLoc))
return GDB_ID_NULL ;
// porto in locale i punti e assegno i versori
Point3d ptP0L = GetPointLocal( pGeomDB, ptP0, nRefType, frLoc) ;
Point3d ptVL = GetPointLocal( pGeomDB, ptV, nRefType, frLoc) ;
Point3d ptP1L = GetPointLocal( pGeomDB, ptP1, nRefType, frLoc) ;
Point3d ptP2L = GetPointLocal( pGeomDB, ptP2, nRefType, frLoc) ;
Point3d ptDimL = GetPointLocal( pGeomDB, ptDim, nRefType, frLoc) ;
@@ -603,7 +603,7 @@ MyCreateAngularDimension( int nParentId, const Point3d& ptP1, const Point3d& ptP
PtrOwner<IExtDimension> pDim( CreateExtDimension()) ;
if ( IsNull( pDim) ||
! MySetDimensionStyle( pDim ) ||
! pDim->SetAngular( ptP1L, ptP0L, ptP2L, ptDimL, vtNL, sText))
! pDim->SetAngular( ptVL, ptP1L, ptP2L, ptDimL, vtNL, sText))
return GDB_ID_NULL ;
// inserisco la quota nel DB
return pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pDim)) ;
@@ -611,16 +611,16 @@ MyCreateAngularDimension( int nParentId, const Point3d& ptP1, const Point3d& ptP
//-------------------------------------------------------------------------------
int
ExeCreateAngularDimension( int nParentId, const Point3d& ptP1, const Point3d& ptP0, const Point3d& ptP2,
ExeCreateAngularDimension( int nParentId, const Point3d& ptV, const Point3d& ptP1, const Point3d& ptP2,
const Point3d& ptDim, const string& sText, int nRefType)
{
// eseguo
int nId = MyCreateAngularDimension( nParentId, ptP1, ptP0, ptP2, ptDim, sText, nRefType) ;
int nId = MyCreateAngularDimension( nParentId, ptV, ptP1, ptP2, ptDim, sText, nRefType) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtAngularDimension(" + IdToString( nParentId) + ",{" +
ToString( ptP0) + "},{" +
ToString( ptV) + "},{" +
ToString( ptP1) + "},{" +
ToString( ptP2) + "},{" +
ToString( ptDim) + "},'" +
@@ -633,6 +633,62 @@ ExeCreateAngularDimension( int nParentId, const Point3d& ptP1, const Point3d& pt
return nId ;
}
//-------------------------------------------------------------------------------
static int
MyCreateAngularDimensionEx( int nParentId, const Point3d& ptV1, const Point3d& ptP1,
const Point3d& ptV2,const Point3d& ptP2, const Point3d& ptDim,
const string& sText, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nParentId = AdjustId( nParentId) ;
// recupero il riferimento locale
Frame3d frLoc ;
if ( ! pGeomDB->GetGroupGlobFrame( nParentId, frLoc))
return GDB_ID_NULL ;
// porto in locale i punti e assegno i versori
Point3d ptV1L = GetPointLocal( pGeomDB, ptV1, nRefType, frLoc) ;
Point3d ptP1L = GetPointLocal( pGeomDB, ptP1, nRefType, frLoc) ;
Point3d ptV2L = GetPointLocal( pGeomDB, ptV2, nRefType, frLoc) ;
Point3d ptP2L = GetPointLocal( pGeomDB, ptP2, nRefType, frLoc) ;
Point3d ptDimL = GetPointLocal( pGeomDB, ptDim, nRefType, frLoc) ;
Vector3d vtNL = GetVectorLocal( pGeomDB, Z_AX, nRefType, frLoc) ;
// creo la quota
PtrOwner<IExtDimension> pDim( CreateExtDimension()) ;
if ( IsNull( pDim) ||
! MySetDimensionStyle( pDim ) ||
! pDim->SetAngularEx( ptV1L, ptP1L, ptV2L, ptP2L, ptDimL, vtNL, sText))
return GDB_ID_NULL ;
// inserisco la quota nel DB
return pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pDim)) ;
}
//-------------------------------------------------------------------------------
int
ExeCreateAngularDimensionEx( int nParentId, const Point3d& ptV1, const Point3d& ptP1,
const Point3d& ptV2, const Point3d& ptP2, const Point3d& ptDim,
const string& sText, int nRefType)
{
// eseguo
int nId = MyCreateAngularDimensionEx( nParentId, ptV1, ptP1, ptV2, ptP2, ptDim, sText, nRefType) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtAngularDimensionEx(" + IdToString( nParentId) + ",{" +
ToString( ptV1) + "},{" +
ToString( ptP1) + "},{" +
ToString( ptV2) + "},{" +
ToString( ptP2) + "},{" +
ToString( ptDim) + "},'" +
StringToLuaString( sText) + "'," +
RefTypeToString( nRefType) + ")" +
" -- Id=" + ToString( nId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo del oggetto
return nId ;
}
//-------------------------------------------------------------------------------
static int
MyCreateAngularDimensionFromLines( int nParentId, INTVECTOR vLineIds, const Point3d& ptDim,
@@ -645,27 +701,24 @@ MyCreateAngularDimensionFromLines( int nParentId, INTVECTOR vLineIds, const Poin
Frame3d frLoc ;
if ( ! pGeomDB->GetGroupGlobFrame( nParentId, frLoc))
return GDB_ID_NULL ;
//recupero le linee
// recupero le linee
ICurveLine* pCrv1 = GetCurveLine( pGeomDB->GetGeoObj( vLineIds[0])) ;
ICurveLine* pCrv2 = GetCurveLine( pGeomDB->GetGeoObj( vLineIds[1])) ;
if ( pCrv1 == nullptr || pCrv2 == nullptr)
return GDB_ID_NULL ;
PtrOwner<ICurveLine> pL1( pCrv1->Clone()) ;
PtrOwner<ICurveLine> pL2( pCrv2->Clone()) ;
if ( IsNull( pL1 ) || ! pL1->IsValid() || IsNull( pL2) || ! pL2->IsValid())
if ( IsNull( pL1 ) || ! pL1->IsValid() || IsNull( pL2) || ! pL2->IsValid())
return GDB_ID_NULL ;
//porto tutto nel frLoc
// porto tutto nel frLoc
Frame3d frL1, frL2 ;
if ( ! pGeomDB->GetGlobFrame( vLineIds[0], frL1) || ! pGeomDB->GetGlobFrame( vLineIds[1], frL2))
return GDB_ID_NULL ;
pL1->LocToLoc( frL1, frLoc) ;
pL2->LocToLoc( frL2, frLoc) ;
// recupero il punto lo porto nel riferimento locale
Point3d ptDimL = GetPointLocal( pGeomDB, ptDim, nRefType, frLoc) ;
Vector3d vtNL = GetVectorLocal( pGeomDB, Z_AX, nRefType, frLoc) ;
//recupero i punti e le direzioni
// recupero i punti e le direzioni
Point3d ptP1L, ptP2L, ptP3L, ptP4L ;
Vector3d vtL1, vtL2 ;
pL1->GetStartPoint( ptP1L) ;
@@ -674,15 +727,12 @@ MyCreateAngularDimensionFromLines( int nParentId, INTVECTOR vLineIds, const Poin
pL2->GetEndPoint( ptP4L) ;
pL1->GetStartDir( vtL1) ;
pL2->GetStartDir( vtL2) ;
// controllo se le rette sono coincidenti o parallele
if ( AreSameOrOppositeVectorApprox( vtL1, vtL2))
return GDB_ID_NULL ;
// verifico se le rette si intersecano già
Point3d ptP0L ;
Point3d ptCenL ;
IntersCurveCurve pInters( *pL1, *pL2) ;
IntCrvCrvInfo Info ;
int nNumeroInters = pInters.GetIntersCount() ;
// se non ho intersezioni estendo
if ( nNumeroInters == 0) {
@@ -691,54 +741,54 @@ MyCreateAngularDimensionFromLines( int nParentId, INTVECTOR vLineIds, const Poin
pL2->ExtendStartByLen( dLen) ;
pL1->ExtendEndByLen( dLen) ;
pL2->ExtendEndByLen( dLen) ;
//faccio intersezione
// faccio intersezione
IntersCurveCurve pIntersExt( *pL1, *pL2) ;
nNumeroInters = pIntersExt.GetIntersCount() ;
// le linee estese non si intersecano, quindi vuol dire che sono quasi parallele e lontanissime
if ( nNumeroInters == 0 )
return GDB_ID_NULL ;
else {
IntCrvCrvInfo Info ;
pIntersExt.GetIntCrvCrvInfo( 0, Info) ;
// controllo che non siano coincidenti
if ( Info.bOverlap)
return false ;
else
ptP0L = Info.IciA->ptI ;
ptCenL = Info.IciA->ptI ;
}
// seleziono i punti necessari
// se ptDimL è più vicino a ptP0L rispetto agli estremi esterni delle linee, allora tengo gli estremi interni
double dP1P0 = ( ptP1L - ptP0L ).Len() ;
double dP2P0 = ( ptP2L - ptP0L ).Len() ;
double dDimP0 = ( ptDimL - ptP0L ).Len() ;
if ( ( dDimP0 < dP1P0 || dDimP0 < dP2P0))
// se uno dei due punti è più vicino a ptP0L rispetto a ptDimL, allora tengo il punto più vicino a ptDimL
// se ptDimL è più vicino a ptCenL rispetto agli estremi esterni delle linee, allora tengo gli estremi interni
double dP1Cen = ( ptP1L - ptCenL).Len() ;
double dP2Cen = ( ptP2L - ptCenL).Len() ;
double dDimCen = ( ptDimL - ptCenL).Len() ;
if ( ( dDimCen < dP1Cen || dDimCen < dP2Cen))
// se uno dei due punti è più vicino a ptCenL rispetto a ptDimL, allora tengo il punto più vicino a ptDimL
ptP1L = ( ( ptDimL - ptP1L ).Len() < ( ptDimL - ptP2L ).Len() ? ptP1L : ptP2L) ;
else
ptP1L = ( dP1P0 < dP2P0 ? ptP2L : ptP1L ) ;
ptP1L = ( dP1Cen < dP2Cen ? ptP2L : ptP1L ) ;
// rifaccio anche per l'altro lato
double dP3P0 = ( ptP3L - ptP0L).Len() ;
double dP4P0 = ( ptP4L - ptP0L).Len() ;
if ( dDimP0 < dP3P0 || dDimP0 < dP4P0 )
ptP3L = ( ( ptDimL - ptP3L).Len() < ( ptDimL - ptP4L).Len() ? ptP3L : ptP4L ) ;
double dP3Cen = ( ptP3L - ptCenL).Len() ;
double dP4Cen = ( ptP4L - ptCenL).Len() ;
if ( dDimCen < dP3Cen || dDimCen < dP4Cen)
ptP3L = ( ( ptDimL - ptP3L).Len() < ( ptDimL - ptP4L).Len() ? ptP3L : ptP4L) ;
else
ptP3L = ( dP3P0 < dP4P0 ? ptP4L : ptP3L) ;
ptP3L = ( dP3Cen < dP4Cen ? ptP4L : ptP3L) ;
}
// se ho già intesezioni devo capire in quale quadrante si trova ptDim
else {
// recupero l'intersezione
IntCrvCrvInfo Info ;
pInters.GetIntCrvCrvInfo( 0, Info) ;
// controllo che non siano coincidenti
if ( Info.bOverlap)
return false ;
// se non coincidono restituisco l'intersezione
else
ptP0L = Info.IciA->ptI ; // se non coincidono restituisco l'intersezione
// se le due linee hanno un estremo in comune, estendo le linee quel lato
if ( ( AreSamePointApprox( ptP0L, ptP1L) || AreSamePointApprox( ptP0L, ptP2L)) &&
( AreSamePointApprox( ptP0L, ptP3L) || AreSamePointApprox( ptP0L, ptP4L))) {
if ( AreSamePointApprox( ptP0L, ptP1L)) {
ptCenL = Info.IciA->ptI ;
// se le due linee hanno un estremo in comune, estendo le linee da quel lato
if ( ( AreSamePointApprox( ptCenL, ptP1L) || AreSamePointApprox( ptCenL, ptP2L)) &&
( AreSamePointApprox( ptCenL, ptP3L) || AreSamePointApprox( ptCenL, ptP4L))) {
if ( AreSamePointApprox( ptCenL, ptP1L)) {
pL1->ExtendStartByLen(Dist( ptP1L, ptP2L) / 2) ;
pL1->GetStartPoint( ptP1L) ;
}
@@ -746,8 +796,8 @@ MyCreateAngularDimensionFromLines( int nParentId, INTVECTOR vLineIds, const Poin
pL1->ExtendEndByLen(Dist( ptP1L, ptP2L) / 2) ;
pL1->GetEndPoint( ptP2L) ;
}
if ( AreSamePointApprox( ptP0L, ptP3L) ) {
pL2->ExtendStartByLen(Dist( ptP3L, ptP4L) / 2);
if ( AreSamePointApprox( ptCenL, ptP3L)) {
pL2->ExtendStartByLen( Dist( ptP3L, ptP4L) / 2);
pL2->GetStartPoint( ptP3L) ;
}
else {
@@ -755,36 +805,42 @@ MyCreateAngularDimensionFromLines( int nParentId, INTVECTOR vLineIds, const Poin
pL2->GetEndPoint( ptP4L) ;
}
}
// seleziono i punti necessari
// proietto pdDim su vtLine1 e su vtLine2
Point3d ptDim1, ptDim2 ;
DistPointCurve distPL1( ptDimL, *pL1, true) ;
DistPointCurve distPL2( ptDimL, *pL2, true) ;
int nFlag1, nFlag2 ;
if ( ! distPL1.GetMinDistPoint( 0, ptDim1, nFlag1) || ! distPL2.GetMinDistPoint( 0, ptDim2, nFlag2) )
if ( ! distPL1.GetMinDistPoint( 0, ptDim1, nFlag1) || ! distPL2.GetMinDistPoint( 0, ptDim2, nFlag2) )
return false ;
if ( abs(( ptDim1 - ptP1L).Len() + ( ptP0L - ptDim1).Len() - ( ptP0L - ptP1L).Len()) < EPS_SMALL ||
abs(( ptDim1 - ptP1L).Len() + ( ptP0L - ptP1L ).Len() - ( ptDim1 - ptP0L).Len()) < EPS_SMALL)
// ptDim è dal lato di ptP1L, quindi tengo ptP1L
if ( abs(( ptDim1 - ptP1L).Len() + ( ptCenL - ptDim1).Len() - ( ptCenL - ptP1L).Len()) < EPS_SMALL ||
abs(( ptDim1 - ptP1L).Len() + ( ptCenL - ptP1L ).Len() - ( ptDim1 - ptCenL).Len()) < EPS_SMALL)
// ptDim è dal lato di ptP1L, quindi tengo ptP1L
;
else
// ptDim è dal lato di ptP2L
ptP1L = ptP2L ;
if ( abs(( ptDim2 - ptP3L).Len() + ( ptP0L - ptDim2).Len() - ( ptP0L - ptP3L).Len()) < EPS_SMALL ||
abs(( ptDim2 - ptP3L).Len() + ( ptP0L - ptP3L).Len() - ( ptDim2 - ptP0L).Len()) < EPS_SMALL)
// ptDim è dal lato di ptP1L, quindi tengo ptP3L
;
if ( abs(( ptDim2 - ptP3L).Len() + ( ptCenL - ptDim2).Len() - ( ptCenL - ptP3L).Len()) < EPS_SMALL ||
abs(( ptDim2 - ptP3L).Len() + ( ptCenL - ptP3L).Len() - ( ptDim2 - ptCenL).Len()) < EPS_SMALL)
// ptDim è dal lato di ptP1L
;
else
// ptDim è dal lato di ptP2L
ptP3L = ptP4L ;
}
// recupero la normale al piano dell'angolo da quotare
Frame3d frArc;
frArc.Set(ptCenL, ptP1L, ptP3L);
Vector3d vtNL = frArc.VersZ() ;
if ( vtNL * Z_AX < - EPS_SMALL) {
frArc.Set(ptCenL, ptP3L, ptP1L);
vtNL = frArc.VersZ() ;
}
// creo la quota
PtrOwner<IExtDimension> pDim( CreateExtDimension()) ;
if ( IsNull( pDim ) ||
! MySetDimensionStyle( pDim ) ||
! pDim->SetAngular( ptP1L, ptP0L, ptP3L, ptDimL, vtNL, sText))
! pDim->SetAngular( ptP1L, ptCenL, ptP3L, ptDimL, vtNL, sText))
return GDB_ID_NULL ;
// inserisco la quota nel DB
return pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pDim)) ;
@@ -825,50 +881,36 @@ MyCreateAngularDimensionFromArc( int nParentId, int nCrvId, const Point3d& ptDim
Frame3d frLoc ;
if ( ! pGeomDB->GetGroupGlobFrame( nParentId, frLoc))
return GDB_ID_NULL ;
// recupero l'arco e il suo frame
ICurveArc* pCurve = GetCurveArc( pGeomDB->GetGeoObj( nCrvId)) ;
if ( pCurve == nullptr)
ICurveArc* pArc = GetCurveArc( pGeomDB->GetGeoObj( nCrvId)) ;
if ( pArc == nullptr)
return GDB_ID_NULL ;
Frame3d frArc;
Frame3d frArc ;
if ( ! pGeomDB->GetGlobFrame( nCrvId, frArc))
return GDB_ID_NULL ;
PtrOwner<ICurveArc> pCrv( pCurve->Clone()) ;
if ( IsNull( pCrv ) || ! pCrv->IsValid())
return GDB_ID_NULL ;
// porto tutto nel frLoc
pCrv->LocToLoc( frArc, frLoc ) ;
// recupero i punti e la normale e li porto nel frame locale
Point3d ptDimL = GetPointLocal( pGeomDB, ptDim, nRefType, frLoc) ;
Vector3d vtNL = GetVectorLocal( pGeomDB, Z_AX, nRefType, frLoc) ;
//recupero i punti e i versori
Point3d ptP0L, ptP1L, ptP2L ;
pCrv->GetStartPoint( ptP1L) ;
pCrv->GetEndPoint( ptP2L) ;
pCrv->GetCenterPoint( ptP0L) ;
Vector3d vtNL = pArc->GetNormVersor() ;
vtNL.LocToLoc( frArc, frLoc) ;
Point3d ptCenL, ptP1L, ptP2L ;
pArc->GetStartPoint( ptP1L) ;
ptP1L.LocToLoc( frArc, frLoc) ;
pArc->GetEndPoint( ptP2L) ;
ptP2L.LocToLoc( frArc, frLoc) ;
pArc->GetCenterPoint( ptCenL) ;
ptCenL.LocToLoc( frArc, frLoc) ;
// porto ptDimL nell'area di influenza dell'arco
Point3d ptDimNew ;
double dDist = ( ptDimL - ptP0L).Len() ;
Point3d ptMid ;
pCrv->GetMidPoint( ptMid) ;
Vector3d vtDir = ( ptMid - ptP0L) ;
vtDir.Normalize() ;
ptDimNew = ptP0L + dDist * vtDir ;
// proietto il punto sul piano XY della griglia
Frame3d frGrid = pGeomDB->GetGridFrame() ;
if ( ! frGrid.IsValid())
return GDB_ID_NULL ;
Point3d ptOrig = frGrid.Orig() ;
ptDimNew -= ( ptDimNew - ptOrig) * vtNL * vtNL;
pArc->GetMidPoint( ptMid) ;
Vector3d vtDir = ( ptMid - ptCenL) ;
if ( ! vtDir.Normalize())
return GDB_ID_NULL ;
ptDimL = ptCenL + Dist( ptDimL, ptCenL) * vtDir ;
// creo la quota
PtrOwner<IExtDimension> pDim( CreateExtDimension()) ;
if ( IsNull( pDim ) ||
! MySetDimensionStyle( pDim) ||
! pDim->SetAngular( ptP1L, ptP0L, ptP2L, ptDimNew, vtNL, sText))
! pDim->SetAngular( ptP1L, ptCenL, ptP2L, ptDimL, vtNL, sText))
return GDB_ID_NULL ;
// inserisco la quota nel DB
return pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pDim)) ;
@@ -894,93 +936,4 @@ ExeCreateAngularDimensionFromArc( int nParentId, int nCrvId, const Point3d& ptDi
}
// restituisco l'identificativo del oggetto
return nId ;
}
//-------------------------------------------------------------------------------
static int
MyCreateAngularDimensionFromCircle( int nParentId, int nCrvId, const Point3d& ptP1, const Point3d& ptP2, const Point3d& ptDim,
const string& sText, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nParentId = AdjustId( nParentId ) ;
// recupero il riferimento locale
Frame3d frLoc ;
if ( ! pGeomDB->GetGroupGlobFrame( nParentId, frLoc))
return GDB_ID_NULL ;
// recupero il cerchio e il suo frame
ICurveArc* pCurve = GetCurveArc( pGeomDB->GetGeoObj( nCrvId)) ;
if ( pCurve == nullptr)
return GDB_ID_NULL ;
Frame3d frCrv;
if ( ! pGeomDB->GetGlobFrame( nCrvId, frCrv))
return GDB_ID_NULL ;
PtrOwner<ICurveArc> pCrv( pCurve->Clone()) ;
if ( IsNull( pCrv ) || ! pCrv->IsValid())
return GDB_ID_NULL ;
// porto tutto nel frLoc
pCrv->LocToLoc( frCrv, frLoc ) ;
Point3d ptP1L = GetPointLocal( pGeomDB, ptP1, nRefType, frLoc) ;
Point3d ptP2L = GetPointLocal( pGeomDB, ptP2, nRefType, frLoc) ;
Point3d ptDimL = GetPointLocal( pGeomDB, ptDim, nRefType, frLoc) ;
Vector3d vtNL = GetVectorLocal( pGeomDB, Z_AX, nRefType, frLoc) ;
// recupero il centro
Point3d ptP0L ;
pCrv->GetCenterPoint( ptP0L) ;
// verifico che i punti P1 e P2 siano sul cerchio, sennò prendo i più vicini
if ( ! pCrv->IsPointOn(ptP1L)) {
DistPointCurve distPC( ptP1L, *pCrv) ;
int nFlag ;
distPC.GetMinDistPoint(0,ptP1L,nFlag);
}
if ( ! pCrv->IsPointOn(ptP2L)) {
DistPointCurve distPC(ptP2L, *pCrv) ;
int nFlag ;
distPC.GetMinDistPoint(0, ptP2L, nFlag);
}
// proietto il punto sul piano XY della griglia
Frame3d frGrid = pGeomDB->GetGridFrame() ;
if ( ! frGrid.IsValid())
return GDB_ID_NULL ;
Point3d ptOrig = frGrid.Orig() ;
ptDimL -= ( ptDimL - ptOrig) * vtNL * vtNL;
// creo la quota
PtrOwner<IExtDimension> pDim( CreateExtDimension()) ;
if ( IsNull( pDim) ||
! MySetDimensionStyle( pDim) ||
! pDim->SetAngular( ptP1L, ptP0L, ptP2L, ptDimL, vtNL, sText))
return GDB_ID_NULL ;
// inserisco la quota nel DB
return pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pDim)) ;
}
//-------------------------------------------------------------------------------
int
ExeCreateAngularDimensionFromCircle( int nParentId, int nCrvId, const Point3d& ptP1, const Point3d& ptP2, const Point3d& ptDim,
const string& sText, int nRefType)
{
// eseguo
int nId = MyCreateAngularDimensionFromCircle( nParentId, nCrvId, ptP1, ptP2, ptDim, sText, nRefType) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtAngularDimensionFromCircle(" + IdToString( nParentId) + "," +
IdToString( nCrvId) + ",{" +
ToString( ptP1) + "},'" +
ToString( ptP2) + "},'" +
ToString( ptDim) + "},'" +
StringToLuaString( sText) + "'," +
RefTypeToString( nRefType) + ")" +
" -- Id=" + ToString( nId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo del oggetto
return nId ;
}
}
EXE_GdbCreateCurve.cpp
+2 -5
View File
@@ -362,16 +362,13 @@ CreateLineTgTwoCurves( IGeomDB* pGeomDB, int nParentId,
if ( pCrv2 == nullptr)
return nullptr ;
// porto la seconda curva nel riferimento della prima
PtrOwner<ICurve> pCrv2Loc( pCrv2->Clone()) ;
if ( IsNull( pCrv2Loc))
return nullptr ;
pCrv2Loc->LocToLoc( frCrv2, frCrv1) ;
CurveLocal Crv2Loc( pGeomDB, nIdF, frCrv1) ;
// porto il punto vicino al finale nel riferimento della prima curva
Point3d ptN2loc( ptFin) ;
ptN2loc.LocToLoc( frDest, frCrv1) ;
// calcolo la retta tangente alle due curve
PtrOwner<ICurveLine> pCrvLine ;
pCrvLine.Set( GetLineTgTwoCurves( *pCrv1, ptN1loc, *pCrv2Loc, ptN2loc)) ;
pCrvLine.Set( GetLineTgTwoCurves( *pCrv1, ptN1loc, *Crv2Loc, ptN2loc)) ;
if ( IsNull( pCrvLine))
return nullptr ;
// porto la linea nel riferimento del gruppo destinazione
EXE_GdbCreateSurf.cpp
+306 -6
View File
@@ -32,6 +32,8 @@
#include "/EgtDev/Include/EGkGeoPoint3d.h"
#include "/EgtDev/Include/EGkCurveLocal.h"
#include "/EgtDev/Include/EgtPointerOwner.h"
#include "/EgtDev/Include/EGkExtText.h"
#include "/EgtDev/Include/EGkSbzStandard.h"
using namespace std ;
@@ -56,8 +58,7 @@ ExeCreateSurfFrRectangle( int nParentId, const Point3d& ptIni, const Point3d& pt
if ( ( frEnt.VersZ() * vtZL) < 0)
frEnt.PseudoMirror( frEnt.Orig(), frEnt.VersZ()) ;
// ricavo le dimensioni della base
Point3d ptCrossI = ptCrossL ;
ptCrossI.ToLoc( frEnt) ;
Point3d ptCrossI = GetToLoc( ptCrossL, frEnt) ;
double dWidth = ptCrossI.x ;
double dLen = ptCrossI.y ;
// creo il rettangolo nel suo riferimento intrinseco
@@ -223,7 +224,7 @@ ExeCreateSurfFrDisk( int nParentId, const Point3d& ptOrig, double dRad, int nRef
//-------------------------------------------------------------------------------
int
ExeCreateSurfFrFatCurve( int nParentId, int nCrvId, double dRad, bool bSquared)
ExeCreateSurfFrFatCurve( int nParentId, int nCrvId, double dRad, bool bSquaredEnds, bool bSquaredMids, double dLinTol)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
@@ -246,7 +247,7 @@ ExeCreateSurfFrFatCurve( int nParentId, int nCrvId, double dRad, bool bSquared)
// eseguo la trasformazione (viene eseguita solo se i riferimenti sono diversi
pCopCrv->LocToLoc( frCrv, frLoc) ;
// creo la regione
PtrOwner<ISurfFlatRegion> pSfr( GetSurfFlatRegionFromFatCurve( Release( pCopCrv), dRad, bSquared, bSquared)) ;
PtrOwner<ISurfFlatRegion> pSfr( GetSurfFlatRegionFromFatCurve( Release( pCopCrv), dRad, bSquaredEnds, bSquaredMids, dLinTol)) ;
bOk = bOk && ! IsNull( pSfr) ;
// inserisco la superficie nel DB
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pSfr)) : GDB_ID_NULL) ;
@@ -256,7 +257,8 @@ ExeCreateSurfFrFatCurve( int nParentId, int nCrvId, double dRad, bool bSquared)
string sLua = "EgtSurfFrFatCurve(" + IdToString( nParentId) + "," +
ToString( nCrvId) + "," +
ToString( dRad) + "," +
ToString( bSquared) + ")" +
ToString( bSquaredEnds) + "," +
ToString( bSquaredMids) + ")" +
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
@@ -863,6 +865,97 @@ ExeCreateSurfTmSphere( int nParentId, const Point3d& ptOrig,
return nNewId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateSurfTmTriangle( int nParentId, const Point3d& ptP1, const Point3d& ptP2, const Point3d& ptP3, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nParentId = AdjustId( nParentId) ;
// recupero il riferimento locale
Frame3d frLoc ;
bool bOk = pGeomDB->GetGroupGlobFrame( nParentId, frLoc) ;
// porto in locale i punti
Point3d ptP1L = GetPointLocal( pGeomDB, ptP1, nRefType, frLoc) ;
Point3d ptP2L = GetPointLocal( pGeomDB, ptP2, nRefType, frLoc) ;
Point3d ptP3L = GetPointLocal( pGeomDB, ptP3, nRefType, frLoc) ;
// creo la superficie trimesh
PtrOwner<ISurfTriMesh> pStm( CreateSurfTriMesh()) ;
bOk = bOk && ! IsNull( pStm) ;
// assegno il triangolo
if ( bOk) {
pStm->Init( 3, 1, 1) ;
int vV[3]{ pStm->AddVertex( ptP1L),
pStm->AddVertex( ptP2L),
pStm->AddVertex( ptP3L)} ;
bOk = ( pStm->AddTriangle( vV) != SVT_NULL) && pStm->AdjustTopology() ;
}
// inserisco la superficie nel DB
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pStm)) : GDB_ID_NULL) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmTriangle(" + IdToString( nParentId) + ",{" +
ToString( ptP1) + "},{" +
ToString( ptP2) + "},{" +
ToString( ptP3) + "}," +
RefTypeToString( nRefType) + ")" +
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
return nNewId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateSurfTmRectangle( int nParentId, const Point3d& ptO, const Point3d& ptL, const Point3d& ptT, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nParentId = AdjustId( nParentId) ;
// recupero il riferimento locale
Frame3d frLoc ;
bool bOk = pGeomDB->GetGroupGlobFrame( nParentId, frLoc) ;
// porto in locale i punti
Point3d ptOL = GetPointLocal( pGeomDB, ptO, nRefType, frLoc) ;
Point3d ptLL = GetPointLocal( pGeomDB, ptL, nRefType, frLoc) ;
Point3d ptTL = GetPointLocal( pGeomDB, ptT, nRefType, frLoc) ;
// modifico il punto trasversale per metterlo perpendicolare al lato Lungo
ptTL -= ParallCompo( ptTL - ptOL, ptLL - ptOL) ;
// calcolo il quarto punto
Point3d ptVL = ptTL + ( ptLL - ptOL) ;
// creo la superficie trimesh
PtrOwner<ISurfTriMesh> pStm( CreateSurfTriMesh()) ;
bOk = bOk && ! IsNull( pStm) ;
// assegno il triangolo
if ( bOk) {
pStm->Init( 4, 2, 1) ;
int vV[4]{ pStm->AddVertex( ptOL),
pStm->AddVertex( ptLL),
pStm->AddVertex( ptTL),
pStm->AddVertex( ptVL)} ;
int vV1[3]{ vV[0], vV[1], vV[2] } ;
int vV2[3]{ vV[2], vV[1], vV[3] } ;
bOk = ( pStm->AddTriangle( vV1) != SVT_NULL) && ( pStm->AddTriangle( vV2) != SVT_NULL) && pStm->AdjustTopology() ;
}
// inserisco la superficie nel DB
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pStm)) : GDB_ID_NULL) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmRectangle(" + IdToString( nParentId) + ",{" +
ToString( ptO) + "},{" +
ToString( ptL) + "},{" +
ToString( ptT) + "}," +
RefTypeToString( nRefType) + ")" +
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
return nNewId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateSurfTmByFlatContour( int nParentId, int nCrvId, double dLinTol)
@@ -1195,6 +1288,43 @@ ExeCreateSurfTmSwept( int nParentId, int nSectId, int nGuideId, bool bCapEnds, d
return nNewId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateSurfTmTransSwept( int nParentId, int nSectId, int nGuideId, bool bCapEnds, double dLinTol)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nParentId = AdjustId( nParentId) ;
bool bOk = true ;
// recupero il riferimento locale
Frame3d frLoc ;
bOk = bOk && pGeomDB->GetGroupGlobFrame( nParentId, frLoc) ;
// recupero la sezione in locale
CurveLocal CrvSect( pGeomDB, nSectId, frLoc) ;
bOk = bOk && ( CrvSect.Get() != nullptr) ;
// recupero la guida in locale
CurveLocal CrvGuide( pGeomDB, nGuideId, frLoc) ;
bOk = bOk && ( CrvGuide.Get() != nullptr) ;
// creo la superficie trimesh
ISurfTriMesh* pSTM = nullptr ;
pSTM = ( bOk ? GetSurfTriMeshTransSwept( CrvSect, CrvGuide, bCapEnds, dLinTol) : nullptr) ;
// inserisco la superficie trimesh nel DB
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, pSTM) : GDB_ID_NULL) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmTransSwept(" + IdToString( nParentId) + "," +
ToString( nSectId) + "," +
ToString( nGuideId) + "," +
( bCapEnds ? "true" : "false") + "," +
ToString( dLinTol) + ")" +
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
return nNewId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateSurfTmRuled( int nParentId, int nPtOrCrvId1, int nPtOrCrvId2, int nType, double dLinTol)
@@ -1445,7 +1575,7 @@ ExeCreateSurfTmBySurfBezier( int nParentId, int nSbezId)
PtrOwner<ISurfTriMesh> pStm( pAuxSurf != nullptr ? pAuxSurf->Clone() : nullptr) ;
bOk = bOk && ! IsNull( pStm) ;
// la porto nel riferimento destinazione
pStm->LocToLoc( frSou, frLoc) ;
bOk = bOk && pStm->LocToLoc( frSou, frLoc) ;
// inserisco la superficie trimesh nel DB
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pStm)) : GDB_ID_NULL) ;
ExeSetModified() ;
@@ -1547,6 +1677,8 @@ ExeCreateSurfBezier( int nParentId, int nDegU, int nDegV, int nSpanU, int nSpanV
if ( ! pSurfBez->SetControlPoint( i, ptCtrl))
bOk = false ;
}
// calcolo eventuali poli
pSurfBez->CalcPoles() ;
// se superficie nulla (ovvero ridotta a punto), errore
bOk = bOk && ! pSurfBez->IsAPoint() ;
// inserisco la superficie nel DB
@@ -1599,6 +1731,8 @@ ExeCreateSurfBezierRational( int nParentId, int nDegU, int nDegV, int nSpanU, in
if ( ! pSurfBez->SetControlPoint( i, ptCtrl, vPntW[i].second))
bOk = false ;
}
// calcolo eventuali poli
pSurfBez->CalcPoles() ;
// se superficie nulla (ovvero ridotta a punto), errore
bOk = bOk && ! pSurfBez->IsAPoint() ;
// inserisco la superficie nel DB
@@ -1623,3 +1757,169 @@ ExeCreateSurfBezierRational( int nParentId, int nDegU, int nDegV, int nSpanU, in
// restituisco l'identificativo della nuova entità
return nId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateSurfBezierLeaves( int nParentId, int nSurfBzId, int nTextHeight, bool bShowTrim, int* pnCount)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nParentId = AdjustId( nParentId) ;
// recupero la superficie
const ISurfBezier* pSurfBez = GetSurfBezier( pGeomDB->GetGeoObj( nSurfBzId)) ;
if ( pSurfBez == nullptr)
return GDB_ID_NULL ;
// disegno le foglie
vector<tuple<int,Point3d,Point3d>> vLeaves ;
pSurfBez->GetLeaves( vLeaves) ;
double dFactor = 1 ;
int nFirstId = GDB_ID_NULL ;
int nCount = 0 ;
for ( int k = 0 ; k < (int)vLeaves.size() ; ++ k) {
Point3d ptBL = get<1>( vLeaves[k]) * dFactor ;
Point3d ptTR = get<2>( vLeaves[k]) * dFactor ;
Point3d ptBR( ptTR.x, ptBL.y) ;
Point3d ptTL( ptBL.x, ptTR.y) ;
PolyLine PL ;
PL.AddUPoint( 0, ptBL) ;
PL.AddUPoint( 1, ptBR) ;
PL.AddUPoint( 2, ptTR) ;
PL.AddUPoint( 3, ptTL) ;
PL.Close() ;
// creo la curva e la inserisco nel GDB
PtrOwner<ICurveComposite> pCrvCompo( CreateCurveComposite()) ;
if ( IsNull( pCrvCompo) || ! pCrvCompo->FromPolyLine( PL) || ! pCrvCompo->SetExtrusion( Z_AX))
return GDB_ID_NULL ;
// inserisco la curva composita nel DB
int nCrvId = pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pCrvCompo)) ;
if ( nCrvId == GDB_ID_NULL)
return GDB_ID_NULL ;
++ nCount ;
if ( nFirstId == GDB_ID_NULL)
nFirstId = nCrvId ;
// creo il testo e lo riempio
string sText = ToString( get<0>( vLeaves[k])) ;
Point3d ptCenter( ( ptBL + ptTR) / 2) ;
PtrOwner<IExtText> pTXT( CreateExtText()) ;
if ( IsNull( pTXT) || ! pTXT->Set( ptCenter, Z_AX, X_AX, sText, "", false, nTextHeight))
return GDB_ID_NULL ;
// inserisco il testo nel DB
int nTxtId = pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pTXT)) ;
if ( nTxtId == GDB_ID_NULL)
return GDB_ID_NULL ;
++ nCount ;
}
// se richiesto disegno la regione di trim
const ISurfFlatRegion* pSfr = pSurfBez->GetTrimRegion() ;
if ( bShowTrim && pSfr != nullptr) {
PtrOwner<ISurfFlatRegion> pTrimReg( pSfr->Clone()) ;
if ( ! IsNull( pTrimReg)) {
int nTrimId = pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pTrimReg)) ;
if ( nTrimId == GDB_ID_NULL)
return GDB_ID_NULL ;
++ nCount ;
}
}
// restituisco i risultati
if ( pnCount != nullptr)
*pnCount = nCount ;
return nFirstId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateSurfBezierTria2D( int nParentId, int nSurfBzId, int nTextHeight, bool bShowTrim, int* pnCount)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nParentId = AdjustId( nParentId) ;
// recupero la superficie
const ISurfBezier* pSurfBez = GetSurfBezier( pGeomDB->GetGeoObj( nSurfBzId)) ;
if ( pSurfBez == nullptr)
return GDB_ID_NULL ;
// disegno i triangoli
vector<tuple<int,Point3d,Point3d,Point3d>> vTria2D ;
pSurfBez->GetTriangles2D( vTria2D) ;
int nFirstId = GDB_ID_NULL ;
int nCount = 0 ;
bool bOk = true ;
for ( int k = 0 ; k < (int)vTria2D.size() ; ++ k) {
PtrOwner<ISurfTriMesh> pStm( CreateSurfTriMesh()) ;
bOk = bOk && ! IsNull( pStm) ;
Point3d ptP1L = get<1>(vTria2D[k]) ;
Point3d ptP2L = get<2>(vTria2D[k]) ;
Point3d ptP3L = get<3>(vTria2D[k]) ;
// assegno il triangolo
if ( bOk) {
pStm->Init( 3, 1, 1) ;
int vV[3]{ pStm->AddVertex( ptP1L),
pStm->AddVertex( ptP2L),
pStm->AddVertex( ptP3L)} ;
bOk = ( pStm->AddTriangle( vV) != SVT_NULL) && pStm->AdjustTopology() ;
}
// inserisco la superficie nel DB
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pStm)) : GDB_ID_NULL) ;
if ( nNewId == GDB_ID_NULL)
return GDB_ID_NULL ;
if ( nFirstId == GDB_ID_NULL)
nFirstId = nNewId ;
++ nCount ;
// creo il testo e lo riempio
string sText = ToString( get<0>( vTria2D[k])) ;
Point3d ptCenter( ( ptP1L + ptP2L + ptP3L) / 3) ;
PtrOwner<IExtText> pTXT( CreateExtText()) ;
if ( IsNull( pTXT) || ! pTXT->Set( ptCenter, Z_AX, X_AX, sText, "", false, nTextHeight))
return GDB_ID_NULL ;
// inserisco il testo nel DB
int nTxtId = pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pTXT)) ;
if ( nTxtId == GDB_ID_NULL)
return GDB_ID_NULL ;
++ nCount ;
}
// se richiesto disegno la regione di trim
const ISurfFlatRegion* pSfr = pSurfBez->GetTrimRegion() ;
if ( bShowTrim && pSfr != nullptr) {
PtrOwner<ISurfFlatRegion> pTrimReg( pSfr->Clone()) ;
if ( ! IsNull( pTrimReg)) {
int nTrimId = pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pTrimReg)) ;
if ( nTrimId == GDB_ID_NULL)
return GDB_ID_NULL ;
++ nCount ;
}
}
// restituisco i risultati
if ( pnCount != nullptr)
*pnCount = nCount ;
return nFirstId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateBezierSphere( int nParentId, const Point3d& ptCenter, double dR, int nRefType) {
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nParentId = AdjustId( nParentId) ;
bool bOk = true ;
// recupero il riferimento di immersione della superficie
Frame3d frLoc ;
bOk = bOk && pGeomDB->GetGroupGlobFrame( nParentId, frLoc) ;
// reucpero il punto in locale
Point3d ptCenterLoc = GetPointLocal( pGeomDB, ptCenter, nRefType, frLoc) ;
// Creo la superficie
PtrOwner<ISurfBezier> pSurfBez( CreateBezierSphere( ptCenterLoc, dR)) ;
pSurfBez->CalcPoles() ;
int nId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pSurfBez)) : GDB_ID_NULL) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtCreateBezierSphere(" + IdToString( nParentId) + "," +
ToString( ptCenter) + "," +
ToString( dR) + "," +
RefTypeToString( nRefType) + ")" +
" -- Id=" + ToString( nId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// resituisco l'identificativo dell'entità creata
return nId ;
}
EXE_GdbGetCurve.cpp
+1
View File
@@ -23,6 +23,7 @@
#include "/EgtDev/Include/EGkCurveArc.h"
#include "/EgtDev/Include/EGkCurveBezier.h"
#include "/EgtDev/Include/EGkCurveComposite.h"
#include "/EgtDev/Include/EGkCurveAux.h"
#include "/EgtDev/Include/EGkDistPointCurve.h"
#include "/EgtDev/Include/EGkIntersCurves.h"
#include "/EgtDev/Include/EGkSurfFlatRegion.h"
EXE_GdbGetPocketing.cpp
+161
View File
@@ -0,0 +1,161 @@
//----------------------------------------------------------------------------
// EgalTech 2023-2024
//----------------------------------------------------------------------------
// File : Exe_GdbGetPocketing.cpp Data : 02.02.24 Versione : 2.6b1
// Contenuto : Funzioni di interrogazione di regioni piane del DBG per EXE.
//
//
//
// Modifiche : 29.11.23 RE Creazione modulo.
//
//
//----------------------------------------------------------------------------
//--------------------------- Include ----------------------------------------
#include "stdafx.h"
#include "EXE.h"
#include "EXE_Macro.h"
#include "/EgtDev/Include/EXeExecutor.h"
#include "/EgtDev/Include/EGkSfrCreate.h"
#include "/EgtDev/Include/EGkCalcPocketing.h"
using namespace std ;
//----------------------------------------------------------------------------
bool
ExePocketing( const int nId, double dRad, double dStep, double dAngle, int nType, bool bSmooth, int nDestGrpId,
int& nFirstId, int& nCrvCount)
{
// database geometrico
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false) ;
// recupero la FlatRegion da svuotare
PtrOwner<ISurfFlatRegion> pMySfr ;
const ISurfFlatRegion* pSfr = GetSurfFlatRegion( pGeomDB->GetGeoObj( nId)) ;
if ( pSfr == nullptr) {
// verifico se è una curva chiusa e piana che permette di definire una regione
const ICurve* pCrv = GetCurve( pGeomDB->GetGeoObj( nId)) ;
Plane3d plPlane ;
if ( pCrv == nullptr || ! pCrv->IsFlat( plPlane, true, 10 * EPS_SMALL))
return false ;
SurfFlatRegionByContours SfrCntr ;
SfrCntr.AddCurve( pCrv->Clone()) ;
pMySfr.Set( SfrCntr.GetSurf()) ;
if ( IsNull( pMySfr))
return false ;
pSfr = pMySfr ;
}
// recupero il suo frame
Frame3d frSfr ;
if ( ! pGeomDB->GetGlobFrame( nId, frSfr))
return false ;
// recupero il riferimento del gruppo di destinazione
Frame3d frDest ;
if ( ! pGeomDB->GetGroupGlobFrame( nDestGrpId, frDest))
return false ;
// eseguo Pocketing
ICRVCOMPOPOVECTOR vCrvCompoRes ;
bool bOk = CalcPocketing( pSfr, dRad, dStep, dAngle, nType, bSmooth, vCrvCompoRes) ;
nFirstId = GDB_ID_NULL ;
nCrvCount = int( vCrvCompoRes.size()) ;
if ( bOk && nCrvCount > 0) {
// scorro le curve di Pocketing ottenute
for ( int nI = 0 ; nI < nCrvCount ; ++ nI) {
vCrvCompoRes[nI]->LocToLoc( frSfr, frDest) ;
// inserisco la curva nel DB Geometrico
int nCurrId = pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( vCrvCompoRes[nI])) ;
if ( nCurrId == GDB_ID_NULL)
return false ;
if ( nI == 0)
nFirstId = nCurrId ;
}
ExeSetModified() ;
}
if ( IsCmdLog()) {
string sLua = "EgtPocketing(" + ToString( nId) + "," +
ToString( dRad) + "," +
ToString( dStep) + "," +
ToString( dAngle) + "," +
ToString( nType) + "," +
ToString( bSmooth) + "," +
ToString( nDestGrpId) + ")" +
" FirstId=" + ToString( nFirstId) + " CurveCount=" + ToString( nCrvCount) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
return bOk ;
}
//----------------------------------------------------------------------------
int
ExeSurfFrGetZigZagInfill( int nId, int nDestGrpId, double dStep, double dAng, bool bSmooth, bool bRemoveOverlapLink,
int* pnCount)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
// recupero la superficie FlatRegion
ISurfFlatRegion* pOrigSrf = GetSurfFlatRegion( pGeomDB->GetGeoObj( nId)) ;
if ( pOrigSrf == nullptr)
return GDB_ID_NULL ;
PtrOwner<ISurfFlatRegion> pSfr( pOrigSrf->Clone()) ;
bool bOk = ( ! IsNull( pSfr)) ;
// recupero il riferimento della superficie
Frame3d frSurf ;
bOk = bOk && pGeomDB->GetGlobFrame( nId, frSurf) ;
// recupero il riferimento di destinazione
Frame3d frDest ;
bOk = bOk && pGeomDB->GetGroupGlobFrame( nDestGrpId, frDest) ;
// creo il riferimento per il calcolo del percorso a zigzag
Vector3d vtN ;
if ( bOk)
vtN = pSfr->GetNormVersor() ;
bOk = bOk && vtN.ToGlob( frSurf) ;
Frame3d frRef ;
bOk = bOk && frRef.Set( ORIG, vtN) ;
bOk = bOk && frRef.Rotate( ORIG, vtN, dAng) ;
// calcolo il percorso a zigzag
bOk = bOk && pSfr->LocToLoc( frSurf, frRef) ;
ICRVCOMPOPOVECTOR vpCrvs ;
bOk = bOk && CalcZigZagInfill( pSfr, dStep, bSmooth, bRemoveOverlapLink, vpCrvs) ;
// inserisco le curve risultanti nel DB
int nFirstId = GDB_ID_NULL ;
int nCount = 0 ;
for ( int i = 0 ; bOk && i < ( int) vpCrvs.size() ; i ++) {
// porto la curva nel riferimento di destinazione
bOk = bOk && vpCrvs[i]->LocToLoc( frRef, frDest) ;
// la inserisco nel DB geometrico
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( vpCrvs[i])) : GDB_ID_NULL) ;
bOk = bOk && ( nNewId != GDB_ID_NULL) ;
// aggiorno contatori
if ( bOk && nFirstId == GDB_ID_NULL)
nFirstId = nNewId ;
if ( bOk)
++ nCount ;
}
ExeSetModified() ;
// restituisco risultati
if ( pnCount != nullptr)
*pnCount = nCount ;
if ( IsCmdLog()) {
string sLua = "EgtGetSurfFrZigZagInfill(" + ToString( nId) + "," +
ToString( dStep) + "," +
ToString( dAng) + "," +
ToString( bSmooth) + "," +
ToString( bRemoveOverlapLink) + "," +
" -- Ok=" + ToString( bOk) + " FirstId=" + ToString( nFirstId) + " CurveCount=" + ToString( nCount) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
return nFirstId ;
}
EXE_GdbGetSurf.cpp
+161 -79
View File
@@ -21,6 +21,7 @@
#include "/EgtDev/Include/EXeExecutor.h"
#include "/EgtDev/Include/EXeConst.h"
#include "/EgtDev/Include/EGkGeoPoint3d.h"
#include "/EgtDev/Include/EGkCurveLine.h"
#include "/EgtDev/Include/EGkCurveBezier.h"
#include "/EgtDev/Include/EGkCurveComposite.h"
#include "/EgtDev/Include/EGkCurveLocal.h"
@@ -29,6 +30,11 @@
#include "/EgtDev/Include/EGkSurfTriMesh.h"
#include "/EgtDev/Include/EGkSurfBezier.h"
#include "/EgtDev/Include/EGkDistPointSurfTm.h"
#include "/EgtDev/Include/EGkIntersCurves.h"
#include "/EgtDev/Include/EGkIntersLineBox.h"
#include "/EgtDev/Include/EGkIntersLineSurfTm.h"
#include "/EgtDev/Include/EGkCalcPocketing.h"
#include "/EgtDev/Include/EGkPolygonElevation.h"
#include "/EgtDev/Include/EGkSurfLocal.h"
#include "/EgtDev/Include/EGkStringUtils3d.h"
@@ -305,67 +311,6 @@ ExeExtractSurfFrChunkLoops( int nId, int nChunk, int nDestGrpId, int* pnCount)
return nFirstId ;
}
//----------------------------------------------------------------------------
int
ExeSurfFrGetZigZagInfill( int nId, int nDestGrpId, double dStep, double dAng, bool bStepCorrection, bool bInvert, int* pnCount)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
// recupero la superficie FlatRegion
ISurfFlatRegion * pOrigSrf = GetSurfFlatRegion( pGeomDB->GetGeoObj( nId)) ;
if ( pOrigSrf == nullptr)
return GDB_ID_NULL ;
PtrOwner<ISurfFlatRegion> pSfr( pOrigSrf->Clone()) ;
bool bOk = ( ! IsNull( pSfr)) ;
// recupero il riferimento della superficie
Frame3d frSurf ;
bOk = bOk && pGeomDB->GetGlobFrame( nId, frSurf) ;
// recupero il riferimento di destinazione
Frame3d frDest ;
bOk = bOk && pGeomDB->GetGroupGlobFrame( nDestGrpId, frDest) ;
// creo il riferimento per il calcolo del percorso a zigzag
Vector3d vtN ;
if ( bOk)
vtN = pSfr->GetNormVersor() ;
bOk = bOk && vtN.ToGlob( frSurf) ;
Frame3d frRef ;
bOk = bOk && frRef.Set( ORIG, vtN) ;
bOk = bOk && frRef.Rotate( ORIG, vtN, dAng) ;
// calcolo il percorso a zigzag
bOk = bOk && pSfr->LocToLoc( frSurf, frRef) ;
ICRVCOMPOPOVECTOR vpCrvs ;
bOk = bOk && pSfr->GetZigZagInfill( dStep, bStepCorrection, bInvert, vpCrvs) ;
// inserisco le curve risultanti nel DB
int nFirstId = GDB_ID_NULL ;
int nCount = 0 ;
for ( int i = 0 ; bOk && i < ( int) vpCrvs.size() ; i ++) {
// porto la curva nel riferimento di destinazione
bOk = bOk && vpCrvs[i]->LocToLoc( frRef, frDest) ;
// la inserisco nel DB geometrico
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( vpCrvs[i])) : GDB_ID_NULL) ;
bOk = bOk && ( nNewId != GDB_ID_NULL) ;
// copio il materiale
if ( ! pGeomDB->CopyMaterial( nId, nNewId))
return GDB_ID_NULL ;
// aggiorno contatori
if ( bOk && nFirstId == GDB_ID_NULL)
nFirstId = nNewId ;
if ( bOk)
++ nCount ;
}
ExeSetModified() ;
// restituisco risultati
if ( pnCount != nullptr)
*pnCount = nCount ;
return nFirstId ;
}
//----------------------------------------------------------------------------
int
ExeSurfTmVertexCount( int nId)
@@ -587,6 +532,83 @@ ExeSurfTmFacetMinAreaRectangle( int nId, int nFacet, int nRefId, Frame3d& frRect
return TransformFrame( pGeomDB, nId, nRefId, frRect) ;
}
//----------------------------------------------------------------------------
bool
ExeSurfTmFacetElevationInBBox( int nId, int nFacet, const BBox3d& b3Box, bool bAcceptOutFacet, int nRefId, double& dElev)
{
// La faccia deve essere tutta contenuta nel Box
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero la superficie trimesh e il suo riferimento
const ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nId)) ;
if ( pStm == nullptr)
return false ;
Frame3d frStm ;
if ( ! pGeomDB->GetGlobFrame( nId, frStm))
return false ;
// verifico il box e ne recupero il riferimento
if ( b3Box.IsEmpty())
return false ;
Frame3d frBox ;
if ( nRefId == GDB_ID_ROOT)
frBox = GLOB_FRM ;
else if ( nRefId == GDB_ID_GRID)
frBox = pGeomDB->GetGridFrame() ;
else {
// nRefId può essere un gruppo o una entità
if ( ! pGeomDB->GetGroupGlobFrame( nRefId, frBox) &&
! pGeomDB->GetGlobFrame( nRefId, frBox))
return false ;
}
// recupero il contorno esterno della faccia e lo porto nel riferimento del box
POLYLINEVECTOR vPL ;
pStm->GetFacetLoops( nFacet, vPL) ;
if ( vPL.empty())
return false ;
vPL[0].LocToLoc( frStm, frBox) ;
// ne derivo il poligono
Polygon3d pgFacet ;
if ( ! pgFacet.FromPolyLine( vPL[0]))
return false ;
// calcolo l'elevazione
return PolygonElevationInBBox( pgFacet, b3Box, bAcceptOutFacet, dElev) ;
}
//----------------------------------------------------------------------------
bool
ExeSurfTmFacetElevationInClosedSurfTm( int nFacetStmId, int nFacet, int nClosedStmId, bool bAcceptOutFacet, double& dElev)
{
// La faccia deve essere tutta contenuta nel Box
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero la superficie trimesh della faccia e il suo riferimento
const ISurfTriMesh* pFacStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nFacetStmId)) ;
if ( pFacStm == nullptr)
return false ;
Frame3d frFacStm ;
if ( ! pGeomDB->GetGlobFrame( nFacetStmId, frFacStm))
return false ;
// recupero la superficie trimesh chiusa (volume)
const ISurfTriMesh* pCldStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nClosedStmId)) ;
if ( pCldStm == nullptr)
return false ;
Frame3d frCldStm ;
if ( ! pGeomDB->GetGlobFrame( nClosedStmId, frCldStm))
return false ;
// recupero il contorno esterno della faccia e lo porto nel riferimento della superficie chiusa
POLYLINEVECTOR vPL ;
pFacStm->GetFacetLoops( nFacet, vPL) ;
if ( vPL.empty())
return false ;
vPL[0].LocToLoc( frFacStm, frCldStm) ;
// ne derivo il poligono
Polygon3d pgFacet ;
if ( ! pgFacet.FromPolyLine( vPL[0]))
return false ;
// calcolo l'elevazione
return PolygonElevationInClosedSurfTm( pgFacet, *pCldStm, bAcceptOutFacet, dElev) ;
}
//----------------------------------------------------------------------------
bool
ExeSurfTmFacetOppositeSide( int nId, int nFacet, const Vector3d& vtDir, int nRefId,
@@ -834,7 +856,8 @@ ExeExtractSurfTmLoops( int nId, int nDestGrpId, int* pnCount)
//----------------------------------------------------------------------------
int
ExeGetSurfTmSilhouette( int nId, const Vector3d& vtDir, double dToler, int nDestGrpId, int nRefType, int* pnCount)
ExeGetSurfTmSilhouette( int nId, const Vector3d& vtDir, double dToler, int nDestGrpId, int nRefType,
int* pnCount, bool bAllTria)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
@@ -851,7 +874,7 @@ ExeGetSurfTmSilhouette( int nId, const Vector3d& vtDir, double dToler, int nDest
Vector3d vtDirL = GetVectorLocal( pGeomDB, vtDir, nRefType, frSurf) ;
// recupero i loop come polilinee
POLYLINEVECTOR vPL ;
bOk = bOk && pStm->GetSilhouette( vtDirL, dToler, vPL) ;
bOk = bOk && pStm->GetSilhouette( vtDirL, dToler, vPL, bAllTria) ;
// dalle polilinee creo le curve e le inserisco nel DB
int nFirstId = GDB_ID_NULL ;
int nCount = 0 ;
@@ -879,7 +902,8 @@ ExeGetSurfTmSilhouette( int nId, const Vector3d& vtDir, double dToler, int nDest
string sLua = "EgtGetSurfTmSilhouette(" + ToString( nId) + ",{" +
ToString( vtDir) + "}," +
ToString( nDestGrpId) + "," +
RefTypeToString( nRefType) + ")" +
RefTypeToString( nRefType) + "," +
ToString( bAllTria) + ")" +
" -- Id1=" + ToString( nFirstId) + ",Nbr=" + ToString( nCount) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
@@ -1030,7 +1054,7 @@ ExeSurfTmGetFacetBBoxGlob( int nId, int nFacet, int nFlag, BBox3d& b3Box)
return false ;
// recupero il riferimento globale del gruppo cui appartiene
Frame3d frGlob ;
if ( nId != GDB_ID_ROOT && ! pGeomDB->GetGroupGlobFrame( pGeomDB->GetParentId( nId), frGlob))
if ( ! pGeomDB->GetGlobFrame( nId, frGlob))
return false ;
// recupero il bounding box della faccia dell'oggetto in globale
return pStm->GetFacetBBox( nFacet, frGlob, b3Box, nFlag) ;
@@ -1048,7 +1072,7 @@ ExeSurfTmGetFacetBBoxRef( int nId, int nFacet, int nFlag, const Frame3d& frRef,
return false ;
// recupero il riferimento globale del gruppo cui appartiene
Frame3d frGlob ;
if ( nId != GDB_ID_ROOT && ! pGeomDB->GetGroupGlobFrame( pGeomDB->GetParentId( nId), frGlob))
if ( ! pGeomDB->GetGlobFrame( nId, frGlob))
return false ;
// porto il riferimento di espressione in quello della superficie
Frame3d frGlobL = frGlob ;
@@ -1057,6 +1081,63 @@ ExeSurfTmGetFacetBBoxRef( int nId, int nFacet, int nFlag, const Frame3d& frRef,
return pStm->GetFacetBBox( nFacet, frGlobL, b3Box, nFlag) ;
}
//----------------------------------------------------------------------------
int
ExeSurfTmGetEdges( int nId, int nDestGrpId, bool bSmoothAng, int* pnCount)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
// recupero la superficie TriMesh
const ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nId)) ;
bool bOk = ( pStm != nullptr) ;
// recupero il riferimento globale del gruppo cui appartiene
Frame3d frSurf ;
bOk = bOk && pGeomDB->GetGlobFrame( nId, frSurf) ;
// recupero il riferimento di destinazione
Frame3d frDest ;
bOk = bOk && pGeomDB->GetGroupGlobFrame( nDestGrpId, frDest) ;
// ne determino gli spigoli
ICURVEPOVECTOR vpCurve ;
bOk = bOk && pStm->GetEdges( vpCurve) ;
// inserisco gli spigoli come curve nel DB
int nFirstId = GDB_ID_NULL ;
int nCount = 0 ;
for ( int i = 0 ; i < int( vpCurve.size()) ; ++ i) {
// se richiesto, verifico l'angolo tra le facce adiacenti (0=allineate)
if ( bSmoothAng) {
double dAngInt = vpCurve[i]->GetTempParam() ;
if ( abs( dAngInt) < pStm->GetSmoothAngle())
continue ;
}
// lo porto nel riferimento destinazione
bOk = bOk && vpCurve[i]->LocToLoc( frSurf, frDest) ;
// lo inserisco nel DB geometrico
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( vpCurve[i])) : GDB_ID_NULL) ;
bOk = bOk && ( nNewId != GDB_ID_NULL) ;
// copio il materiale
bOk = bOk && pGeomDB->CopyMaterial( nId, nNewId) ;
// aggiorno contatori
if ( bOk && nFirstId == GDB_ID_NULL)
nFirstId = nNewId ;
if ( bOk)
++ nCount ;
}
if ( ! bOk)
nCount = -1 ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmGetEdges(" + ToString( nId) + ",{" +
ToString( nDestGrpId) + ")" +
" -- Id1=" + ToString( nFirstId) + ",Nbr=" + ToString( nCount) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultati
if ( pnCount != nullptr)
*pnCount = nCount ;
return nFirstId ;
}
//----------------------------------------------------------------------------
bool
ExeSurfBezierGetPoint( int nSurfId, double dU, double dV, int nRefId, Point3d& ptP)
@@ -1381,25 +1462,26 @@ ExeExtractSurfBezierLoops( int nId, int nDestGrpId, int* pnCount)
// richiedo i contorni della superficie e li inserisco nel DB
int nFirstId = GDB_ID_NULL ;
int nCount = 0 ;
int nL = 0 ;
PtrOwner<ICurve> pCrv( bOk ? pSbz->GetLoop( nL) : nullptr) ;
while ( ! IsNull( pCrv)) {
// porto la curva nel riferimento destinazione
bOk = bOk && pCrv->LocToLoc( frSurf, frDest) ;
// la inserisco nel DB geometrico
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( pCrv)) : GDB_ID_NULL) ;
ICRVCOMPOPOVECTOR vCC ;
pSbz->GetLoops( vCC , true) ;
for ( int i = 0 ; i < int( vCC.size()) ; ++i) {
if ( IsNull( vCC[i]) || ! vCC[i]->IsValid())
continue ;
// porto la curva nel riferimento destinazione
bOk = bOk && vCC[i]->LocToLoc(frSurf, frDest) ;
// la inserisco nel DB geometrico
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( vCC[i])) : GDB_ID_NULL) ;
bOk = bOk && ( nNewId != GDB_ID_NULL) ;
// copio il materiale
if ( ! pGeomDB->CopyMaterial( nId, nNewId))
// copio il materiale
if ( ! pGeomDB->CopyMaterial( nId, nNewId))
return GDB_ID_NULL ;
// aggiorno contatori
// aggiorno contatori
if ( bOk && nFirstId == GDB_ID_NULL)
nFirstId = nNewId ;
if ( bOk)
++ nCount ;
// passo alla prossima curva
pCrv.Set( bOk ? pSbz->GetLoop( ++nL) : nullptr) ;
}
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
@@ -1412,4 +1494,4 @@ ExeExtractSurfBezierLoops( int nId, int nDestGrpId, int* pnCount)
if ( pnCount != nullptr)
*pnCount = nCount ;
return nFirstId ;
}
}
EXE_GdbGetVol.cpp
+2 -2
View File
@@ -250,8 +250,8 @@ ExeVolZmapGetEdges( int nId, int nDestGrpId, int* pnCount)
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtGetSurfTmSilhouette(" + ToString( nId) + ",{" +
ToString( nDestGrpId) + ")" +
string sLua = "EgtVolZmapGetEdges(" + ToString( nId) + ",{" +
ToString( nDestGrpId) + ")" +
" -- Id1=" + ToString( nFirstId) + ",Nbr=" + ToString( nCount) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
EXE_GdbModifyCurve.cpp
+260 -11
View File
@@ -31,15 +31,20 @@
#include "/EgtDev/Include/EGkOffsetCurve.h"
#include "/EgtDev/Include/EGkMedialAxis.h"
#include "/EgtDev/Include/EGkChainCurves.h"
#include "/EgtDev/Include/EGkProjectCurveSurfTm.h"
#include "/EgtDev/Include/EGkSurfFlatRegion.h"
#include "/EgtDev/Include/EGkExtTExt.h"
#include "/EgtDev/Include/EGkGdbIterator.h"
#include "/EgtDev/Include/EGkStringUtils3d.h"
#include "/EgtDev/Include/EGkIntervals.h"
#include "/EgtDev/Include/EGkPolygon3d.h"
#include "/EgtDev/Include/EGkGeoVector3d.h"
#include "/EgtDev/Include/EgtPointerOwner.h"
#include "/EgtDev/Include/EGkCalcPocketing.h"
#include <EgtDev/Include/EGkSfrCreate.h>
#include <functional>
using namespace std ;
//----------------------------------------------------------------------------
@@ -97,14 +102,14 @@ ExeOffsetCurve( int nId, double dDist, int nType)
//----------------------------------------------------------------------------
int
ExeOffsetCurveAdv( int nId, double dDist, int nType, int* pnCount)
ExeOffsetCurveAdv( int nId, double dDist, int nType, int* pnCount, double dLinTol)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
// recupero la curva
const ICurve* pCurve = GetCurve( pGeomDB->GetGeoObj( nId)) ;
// eseguo l'offset
OffsetCurve OffsCrv ;
OffsetCurve OffsCrv( dLinTol) ;
bool bOk = OffsCrv.Make( pCurve, dDist, nType) ;
// salvo le curve di offset
int nRefId = nId ;
@@ -181,7 +186,7 @@ ExeCurveMedialAxis( int nId)
//-------------------------------------------------------------------------------
bool
ExeApproxCurve( int nId, int nApprType, double dLinTol)
ExeApproxCurve( int nId, int nApprType, double dLinTol, double dMaxSegmLen)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
@@ -195,7 +200,8 @@ ExeApproxCurve( int nId, int nApprType, double dLinTol)
nApprType == APP_LEFT_LINES || nApprType == APP_LEFT_CONVEX_LINES ||
nApprType == APP_RIGHT_LINES || nApprType == APP_RIGHT_CONVEX_LINES) {
PolyLine PL ;
bOk = bOk && pCurve->ApproxWithLines( dLinTol, ANG_TOL_MAX_DEG, nApprType, PL) && pCC->FromPolyLine( PL) ;
bOk = bOk && pCurve->ApproxWithLines( dLinTol, ANG_TOL_MAX_DEG, nApprType, PL) &&
PL.AdjustForMaxSegmentLen( dMaxSegmLen) && pCC->FromPolyLine( PL) ;
// eliminazione di small Z
bOk = bOk && pCC->RemoveSmallDefects( 0.5 * dLinTol, ANG_TOL_STD_DEG) ;
}
@@ -2135,7 +2141,7 @@ bool
ExeMergeCurvesInCurveCompo( int nId, double dLinTol, bool bStartEnd)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
VERIFY_GEOMDB( pGeomDB, false)
// recupero la curva composita
ICurveComposite* pCompo = GetCurveComposite( pGeomDB->GetGeoObj( nId)) ;
bool bOk = ( pCompo != nullptr) ;
@@ -2158,7 +2164,7 @@ bool
ExeRemoveCurveCompoUndercutOnY( int nId, double dLinTol)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
VERIFY_GEOMDB( pGeomDB, false)
// recupero la curva composita
ICurveComposite* pCompo = GetCurveComposite( pGeomDB->GetGeoObj( nId)) ;
bool bOk = ( pCompo != nullptr) ;
@@ -2180,7 +2186,7 @@ static bool
MyChainCurvesInGroup( int nGroupId, const Point3d& ptNear, bool bAllowInvert, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
VERIFY_GEOMDB( pGeomDB, false)
nGroupId = AdjustId( nGroupId) ;
// recupero il riferimento del gruppo
Frame3d frGrp ;
@@ -2233,11 +2239,11 @@ MyChainCurvesInGroup( int nGroupId, const Point3d& ptNear, bool bAllowInvert, in
bool
ExeChainCurvesInGroup( int nGroupId, const Point3d& ptNear, int nRefType)
{
bool bOk = MyChainCurvesInGroup(nGroupId, ptNear, true, nRefType) ;
bool bOk = MyChainCurvesInGroup( nGroupId, ptNear, true, nRefType) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtChainCurvesInGroup(" + ToString( nGroupId) + "," +
string sLua = "EgtChainCurvesInGroup(" + ToString( nGroupId) + ",{" +
ToString( ptNear) + "}," +
RefTypeToString( nRefType) + ")" +
" -- Ok=" + ToString( bOk) ;
@@ -2250,11 +2256,11 @@ ExeChainCurvesInGroup( int nGroupId, const Point3d& ptNear, int nRefType)
bool
ExeReorderCurvesInGroup( int nGroupId, const Point3d& ptNear, int nRefType)
{
bool bOk = MyChainCurvesInGroup(nGroupId, ptNear, false, nRefType) ;
bool bOk = MyChainCurvesInGroup( nGroupId, ptNear, false, nRefType) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtReorderCurvesInGroup(" + ToString( nGroupId) + "," +
string sLua = "EgtReorderCurvesInGroup(" + ToString( nGroupId) + ",{" +
ToString( ptNear) + "}," +
RefTypeToString( nRefType) + ")" +
" -- Ok=" + ToString( bOk) ;
@@ -2262,3 +2268,246 @@ ExeReorderCurvesInGroup( int nGroupId, const Point3d& ptNear, int nRefType)
}
return bOk ;
}
//-------------------------------------------------------------------------------
static bool
MyProjectCurveOnSurfTm( int nCurveId, int nSurfTmId, const Vector3d& vtDir, int nDestGrpId,
double dLinTol, double dMaxSegmLen, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero la curva e il suo riferimento
const ICurve* pCrv = GetCurve( pGeomDB->GetGeoObj( nCurveId)) ;
if ( pCrv == nullptr)
return false ;
Frame3d frCrv ;
if ( ! pGeomDB->GetGlobFrame( nCurveId, frCrv))
return false ;
// recupero la superficie trimesh e il suo riferimento
const ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nSurfTmId)) ;
if ( pStm == nullptr)
return false ;
Frame3d frStm ;
if ( ! pGeomDB->GetGlobFrame( nSurfTmId, frStm))
return false ;
// recupero il riferimento del gruppo di destinazione
nDestGrpId = AdjustId( nDestGrpId) ;
Frame3d frDest ;
if ( ! pGeomDB->GetGroupGlobFrame( nDestGrpId, frDest))
return false ;
// porto la curva e il vettore nel riferimento della superficie
CurveLocal CrvLoc( pCrv, frCrv, frStm) ;
if ( CrvLoc.Get() == nullptr)
return false ;
Vector3d vtDirL = GetVectorLocal( pGeomDB, vtDir, nRefType, frCrv) ;
vtDirL.LocToLoc( frCrv, frStm) ;
// eseguo la proiezione
PNT5AXVECTOR vPt5ax ;
if ( ! ProjectCurveOnSurfTm( *CrvLoc.Get(), *pStm, vtDirL, dLinTol, dMaxSegmLen, vPt5ax))
return false ;
// inserisco la composita nel gruppo destinazione
PtrOwner<ICurveComposite> pCompo ;
for ( const auto& Pt5ax : vPt5ax) {
if ( IsNull( pCompo)) {
pCompo.Set( CreateCurveComposite()) ;
if ( IsNull( pCompo))
return false ;
pCompo->AddPoint( GetLocToLoc( Pt5ax.ptP, frStm, frDest)) ;
}
else
pCompo->AddLine( GetLocToLoc( Pt5ax.ptP, frStm, frDest)) ;
}
int nCompoId = pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( pCompo)) ;
if ( nCompoId == GDB_ID_NULL)
return false ;
// aggiungo i versori nel gruppo destinazione
int nInd = 0 ;
for ( const auto& Pt5ax : vPt5ax) {
PtrOwner<IGeoVector3d> pGeoVct( CreateGeoVector3d()) ;
if ( IsNull( pGeoVct))
return false ;
pGeoVct->Set( 10 * GetLocToLoc( Pt5ax.vtDir, frStm, frDest), GetLocToLoc( Pt5ax.ptP, frStm, frDest)) ;
int nNewId = pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( pGeoVct)) ;
if ( nNewId == GDB_ID_NULL)
return false ;
pGeomDB->SetInfo( nNewId, "Ind", nInd ++) ;
pGeomDB->SetInfo( nNewId, "Par", Pt5ax.dPar) ;
pGeomDB->SetInfo( nNewId, "Flag", Pt5ax.nFlag) ;
}
return true ;
}
//-------------------------------------------------------------------------------
bool
ExeProjectCurveOnSurfTm( int nCurveId, int nSurfTmId, const Vector3d& vtDir, int nDestGrpId,
double dLinTol, double dMaxSegmLen, int nRefType)
{
bool bOk = MyProjectCurveOnSurfTm( nCurveId, nSurfTmId, vtDir, nDestGrpId, dLinTol, dMaxSegmLen, nRefType) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtProjectCurveOnSurfTm(" + ToString( nCurveId) + "," +
ToString( nSurfTmId) + ",{" +
ToString( vtDir) + "}," +
ToString( nDestGrpId) + "," +
ToString( dLinTol) + "," +
ToString( dMaxSegmLen) + "," +
RefTypeToString( nRefType) + ")" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
return bOk ;
}
//----------------------------------------------------------------------------
int
ExeCurveGetVoronoi( int nId, int nDestGrpId, int nBound, int* pnCount)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
// recupero la curva
const ICurve* pCrv = GetCurve( pGeomDB->GetGeoObj( nId)) ;
if ( pCrv == nullptr)
return GDB_ID_NULL ;
// recupero il riferimento della curva
Frame3d frCrv ;
if ( ! pGeomDB->GetGlobFrame( nId, frCrv))
return GDB_ID_NULL ;
// recupero il riferimento di destinazione
Frame3d frDest ;
if ( ! pGeomDB->GetGroupGlobFrame( nDestGrpId, frDest))
return GDB_ID_NULL ;
// Calcolo diagramma di Voronoi
ICURVEPOVECTOR vCrv ;
CalcCurveVoronoiDiagram( *pCrv, vCrv, nBound) ;
// inserisco i risultati nel DB geometrico
int nFirstId = GDB_ID_NULL ;
int nCount = 0 ;
for ( int i = 0 ; i < int( vCrv.size()) ; i++) {
vCrv[i]->LocToLoc( frCrv, frDest) ;
int nId = pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( vCrv[i])) ;
if ( nId != GDB_ID_NULL) {
nCount ++ ;
if ( nFirstId == GDB_ID_NULL)
nFirstId = nId ;
}
}
ExeSetModified() ;
if ( IsCmdLog()) {
string sLua = "EgtCurveGetVoronoi(" + ToString( nId) + "," +
ToString( nDestGrpId) + ")" +
" FirstId=" + ToString( nFirstId) + " nCurveCount=" + ToString( nCount) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultati
if ( pnCount != nullptr)
*pnCount = nCount ;
return nFirstId ;
}
//----------------------------------------------------------------------------
int
ExeCurveGetMedialAxis( int nId, int nDestGrpId, int nSide, int* pnCount)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
// recupero la curva
const ICurve* pCrv = GetCurve( pGeomDB->GetGeoObj( nId)) ;
if ( pCrv == nullptr)
return GDB_ID_NULL ;
// recupero il riferimento della curva
Frame3d frCrv ;
if ( ! pGeomDB->GetGlobFrame( nId, frCrv))
return GDB_ID_NULL ;
// recupero il riferimento di destinazione
Frame3d frDest ;
if ( ! pGeomDB->GetGroupGlobFrame( nDestGrpId, frDest))
return GDB_ID_NULL ;
// Calcolo il Medial Axis
ICURVEPOVECTOR vCrv ;
CalcCurveMedialAxis( *pCrv, vCrv, nSide) ;
// inserisco i risultati nel DB geometrico
int nFirstId = GDB_ID_NULL ;
int nCount = 0 ;
for ( int i = 0 ; i < int( vCrv.size()) ; i++) {
vCrv[i]->LocToLoc( frCrv, frDest) ;
int nId = pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( vCrv[i])) ;
if ( nId != GDB_ID_NULL) {
nCount ++ ;
if ( nFirstId == GDB_ID_NULL)
nFirstId = nId ;
}
}
ExeSetModified() ;
if ( IsCmdLog()) {
string sLua = "EgtCurveMedialAxisAdv(" + ToString( nId) + "," +
ToString( nSide) + "," +
ToString( nDestGrpId) + ")" +
" FirstId=" + ToString( nFirstId) + " nCurveCount=" + ToString( nCount) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultati
if ( pnCount != nullptr)
*pnCount = nCount ;
return nFirstId ;
}
//----------------------------------------------------------------------------
int
ExeCurveGetFatCurve( int nId, int nDestGrpId, double dRad, bool bSquareEnds, bool bSquareMids, int* pnCount)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
// recupero la curva
const ICurve* pCrv = GetCurve( pGeomDB->GetGeoObj( nId)) ;
if ( pCrv == nullptr)
return GDB_ID_NULL ;
// recupero il riferimento della curva
Frame3d frCrv ;
if ( ! pGeomDB->GetGlobFrame( nId, frCrv))
return GDB_ID_NULL ;
// recupero il riferimento di destinazione
Frame3d frDest ;
if ( ! pGeomDB->GetGroupGlobFrame( nDestGrpId, frDest))
return GDB_ID_NULL ;
// Calcolo la curva ingrossata
ICURVEPOVECTOR vCrv ;
CalcCurveFatCurve( *pCrv, vCrv, dRad, bSquareEnds, bSquareMids) ;
// inserisco i risultati nel DB geometrico
int nFirstId = GDB_ID_NULL ;
int nCount = 0 ;
for ( int i = 0 ; i < int( vCrv.size()) ; i++) {
vCrv[i]->LocToLoc( frCrv, frDest) ;
int nId = pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, Release( vCrv[i])) ;
if ( nId != GDB_ID_NULL) {
nCount ++ ;
if ( nFirstId == GDB_ID_NULL)
nFirstId = nId ;
}
}
ExeSetModified() ;
if ( IsCmdLog()) {
string sLua = "EgtCurveGetFatCurve(" + ToString( nId) + "," +
ToString( nDestGrpId) + ")" +
" FirstId=" + ToString( nFirstId) + " nCurveCount=" + ToString( nCount) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultati
if ( pnCount != nullptr)
*pnCount = nCount ;
return nFirstId ;
}
EXE_GdbModifySurf.cpp
+271 -34
View File
@@ -29,8 +29,10 @@
#include "/EgtDev/Include/EGkStmFromTriangleSoup.h"
#include "/EgtDev/Include/EGkCAvSimpleSurfFrMove.h"
#include "/EgtDev/Include/EGkStringUtils3d.h"
#include "/EgtDev/Include/EGkSubtractProjectedFacesOnStmFace.h"
#include "/EgtDev/Include/EgtPointerOwner.h"
using namespace std ;
//----------------------------------------------------------------------------
@@ -75,7 +77,7 @@ MyExplodeSurfTriMesh( int nId, int& nCount)
return GDB_ID_NULL ;
// recupero il numero di componenti connesse
int nParts = pStm->GetPartCount() ;
// se ci sono più parti, separo queste
// se ci sono più parti, separo queste
if ( nParts > 1) {
int nFirstId = GDB_ID_NULL ;
nCount = 0 ;
@@ -102,7 +104,7 @@ MyExplodeSurfTriMesh( int nId, int& nCount)
}
// recupero il numero di facce
int nFacets = pStm->GetFacetCount() ;
// se ci sono più facce, separo queste
// se ci sono più facce, separo queste
if ( nFacets > 1) {
// copio tutte le facce
int nFirstId = GDB_ID_NULL ;
@@ -128,7 +130,7 @@ MyExplodeSurfTriMesh( int nId, int& nCount)
// restituisco risultati
return nFirstId ;
}
// non devo fare alcunché
// non devo fare alcunché
nCount = 1 ;
return nId ;
}
@@ -145,7 +147,7 @@ MyExplodeSurfFlatRegion( int nId, int& nCount)
return GDB_ID_NULL ;
// recupero il numero di componenti connessi (chunk)
int nChunk = pSfr->GetChunkCount() ;
// se c'è un solo componente, non devo fare alcunché
// se c'è un solo componente, non devo fare alcunché
if ( nChunk == 1) {
nCount = 1 ;
return nId ;
@@ -294,7 +296,7 @@ ExeSurfFrSubtract( int nId1, int nId2)
bOk = bOk && ( pSfr2L != nullptr) ;
// eseguo la sottrazione della seconda superficie dalla prima
bOk = bOk && pSfr1->Subtract( *pSfr2L) ;
// se il risultato è vuoto, cancello la FlatRegion
// se il risultato è vuoto, cancello la FlatRegion
if ( bOk && ! pSfr1->IsValid())
pGeomDB->Erase( nId1) ;
ExeSetModified() ;
@@ -326,7 +328,7 @@ ExeSurfFrIntersect( int nId1, int nId2)
bOk = bOk && ( pSfr2L != nullptr) ;
// eseguo l'intersezione tra le due superfici
bOk = bOk && pSfr1->Intersect( *pSfr2L) ;
// se il risultato è vuoto, cancello la FlatRegion
// se il risultato è vuoto, cancello la FlatRegion
if ( bOk && ! pSfr1->IsValid())
pGeomDB->Erase( nId1) ;
ExeSetModified() ;
@@ -351,7 +353,7 @@ ExeSurfFrOffset( int nId, double dDist, int nType)
bool bOk = ( pSfr != nullptr) ;
// eseguo l'offset
bOk = bOk && pSfr->Offset( dDist, nType) ;
// se il risultato è vuoto, cancello la FlatRegion
// se il risultato è vuoto, cancello la FlatRegion
if ( bOk && ! pSfr->IsValid())
pGeomDB->Erase( nId) ;
ExeSetModified() ;
@@ -366,6 +368,32 @@ ExeSurfFrOffset( int nId, double dDist, int nType)
return bOk ;
}
//----------------------------------------------------------------------------
bool
ExeSurfFrOffsetAdv( int nId, double dDist, int nType, int& nNewId)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
// recupero la superficie FlatRegion
ISurfFlatRegion* pSfr = GetSurfFlatRegion( pGeomDB->GetGeoObj( nId)) ;
if ( pSfr == nullptr)
return false ;
// eseguo l'offset
PtrOwner<ISurfFlatRegion> pSfrOffs( pSfr->CreateOffsetSurf( dDist, nType)) ;
if ( IsNull( pSfrOffs))
return false ;
// salvo la superficie di offset
nNewId = GDB_ID_NULL ;
if ( pSfr->GetChunkCount() > 0) {
// inserisco nel DB geometrico
nNewId = pGeomDB->InsertGeoObj( GDB_ID_NULL, nId, GDB_AFTER, Release( pSfrOffs)) ;
// copio gli attributi
pGeomDB->CopyAttributes( nId, nNewId) ;
ExeSetModified() ;
}
return true ;
}
//----------------------------------------------------------------------------
bool
ExeSurfFrMoveSimpleNoCollision( int nId1, int nId2, const Vector3d& vtDir, double& dLen, int nRefType)
@@ -415,11 +443,11 @@ bool
ExeSurfTmMoveVertex( int nId, int nVert, const Point3d& ptNewVert, int nRefType, bool bUpdate)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
VERIFY_GEOMDB( pGeomDB, false)
// recupero la superficie
ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nId)) ;
bool bOk = ( pStm != nullptr) ;
// recupero il riferimento in cui è immersa la superficie
// recupero il riferimento in cui è immersa la superficie
Frame3d frStm ;
bOk = bOk && pGeomDB->GetGlobFrame( nId, frStm) ;
// eseguo la modifica
@@ -447,6 +475,50 @@ ExeSurfTmMoveVertex( int nId, int nVert, const Point3d& ptNewVert, int nRefType,
return bOk ;
}
//-------------------------------------------------------------------------------
bool
ExeSurfTmMoveFacet( int nId, int nFacet, const Vector3d& vtMove, int nRefType, bool bUpdate)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero la superficie
ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nId)) ;
bool bOk = ( pStm != nullptr) ;
// recupero il riferimento in cui è immersa la superficie
Frame3d frStm ;
bOk = bOk && pGeomDB->GetGlobFrame( nId, frStm) ;
// porto in locale il movimento
Vector3d vtMoveL = GetVectorLocal( pGeomDB, vtMove, nRefType, frStm) ;
// recupero tutti i vertici della faccia
INTVECTOR vVert ;
bOk = bOk && pStm->GetAllVertInFacet( nFacet, vVert) ;
// sposto tutti i vertici della faccia della quantità desiderata
if ( bOk) {
for ( const auto nVert : vVert) {
// recupero la posizione originale del vertice
Point3d ptV ;
if ( pStm->GetVertex( nVert, ptV))
pStm->MoveVertex( nVert, ptV + vtMoveL) ;
}
}
// se richiesto, semplificazione della trimesh
if ( bUpdate)
bOk = bOk && pStm->DoCompacting() ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmMoveFacet(" + IdToString( nId) + "," +
ToString( nFacet) + ",{" +
ToString( vtMove) + "}," +
RefTypeToString( nRefType) + "," +
( bUpdate ? "true" : "false") + ")" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultato
return bOk ;
}
//-------------------------------------------------------------------------------
static int
MySurfTmToTriangles( int nId, int& nCount)
@@ -459,7 +531,7 @@ MySurfTmToTriangles( int nId, int& nCount)
return GDB_ID_NULL ;
// recupero il numero di triangoli
int nTria = pStm->GetTriangleCount() ;
// se ci sono più triangoli, li separo
// se ci sono più triangoli, li separo
if ( nTria > 1) {
// copio tutti triangoli
int nFirstId = GDB_ID_NULL ;
@@ -485,7 +557,7 @@ MySurfTmToTriangles( int nId, int& nCount)
// restituisco risultati
return nFirstId ;
}
// non devo fare alcunché
// non devo fare alcunché
nCount = 1 ;
return nId ;
}
@@ -620,6 +692,41 @@ ExeCutSurfTmPlane( int nId, const Point3d& ptOn, const Vector3d& vtN, bool bSave
return bOk ;
}
//-------------------------------------------------------------------------------
bool
ExeCutSurfBzPlane( int nId, const Point3d& ptOn, const Vector3d& vtN, bool bSaveOnEq, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero la superficie TriMesh
ISurfBezier* pSbz = GetSurfBezier( pGeomDB->GetGeoObj( nId)) ;
bool bOk = ( pSbz != nullptr) ;
// recupero il riferimento locale
Frame3d frLoc ;
bOk = bOk && pGeomDB->GetGlobFrame( nId, frLoc) ;
// porto in locale il punto e la normale del piano
Point3d ptOnL = GetPointLocal( pGeomDB, ptOn, nRefType, frLoc) ;
Vector3d vtNL = GetVectorLocal( pGeomDB, vtN, nRefType, frLoc) ;
// calcolo il piano di taglio
Plane3d plPlane ;
bOk = bOk && plPlane.Set( ptOnL, vtNL) ;
// eseguo il taglio
bOk = bOk && pSbz->Cut( plPlane, bSaveOnEq) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtCutSurfBzPlane(" + IdToString( nId) + ",{" +
ToString( ptOn) + "},{" +
ToString( vtN) + "}," +
( bSaveOnEq ? "true" : "false") + "," +
RefTypeToString( nRefType) + ")" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultato
return bOk ;
}
//-------------------------------------------------------------------------------
bool
ExeCutSurfTmClosedCurve( int nSurfId, int nCurveId, bool bSaveOnEq)
@@ -700,7 +807,7 @@ ExeSurfTmSubtract( int nId1, int nId2, bool bTwoColors)
bOk = bOk && ( pStm2L != nullptr) ;
// eseguo la sottrazione tra le due superfici
bOk = bOk && pStm1->Subtract( *pStm2L) ;
// se il risultato è vuoto, cancello la superficie
// se il risultato vuoto, cancello la superficie
if ( bOk && ! pStm1->IsValid()) {
pGeomDB->Erase( nId1) ;
pStm1 = nullptr ;
@@ -737,7 +844,7 @@ ExeSurfTmIntersect( int nId1, int nId2, bool bTwoColors)
bOk = bOk && ( pStm2L != nullptr) ;
// eseguo l'intersezione tra le due superfici
bOk = bOk && pStm1->Intersect( *pStm2L) ;
// se il risultato è vuoto, cancello la superficie
// se il risultato vuoto, cancello la superficie
if ( bOk && ! pStm1->IsValid()) {
pGeomDB->Erase( nId1) ;
pStm1 = nullptr ;
@@ -756,27 +863,6 @@ ExeSurfTmIntersect( int nId1, int nId2, bool bTwoColors)
return bOk ;
}
//----------------------------------------------------------------------------
bool
ExeSurfTmResetTwoColors( int nId)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero la superficie TriMesh
ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nId)) ;
bool bOk = ( pStm != nullptr) ;
// reset dei flag sui triangoli per i due colori
bOk = bOk && pStm->ResetTFlags() ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmResetTwoColors(" + ToString( nId) + ")" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
return bOk ;
}
//----------------------------------------------------------------------------
static ISurfTriMesh*
MyCreateSubSurfTm( const ISurfTriMesh* pStm, const INTVECTOR& vTria, const INTVECTOR& vTria2)
@@ -924,3 +1010,154 @@ ExeSurfTmCut( int nId, int nCutterId, bool bInVsOut, bool bSaveOnEq)
}
return bOk ;
}
//----------------------------------------------------------------------------
bool
ExeSurfTmSubtractProjectedFacesOnFace( int nSurfId, int nFaceInd, int nDestGrpId,
INTVECTOR vSurfsId, bool bOCFlag,
bool& bExistProjection, int& nNewId, int& nNewFaceNbr)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero la superficie TriMesh su cui proiettare
ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nSurfId)) ;
if ( pStm == nullptr)
return false ;
// recupero il riferimento della superficie
Frame3d frSurf ;
if ( ! pGeomDB->GetGlobFrame( nSurfId, frSurf))
return false ;
// recupero il riferimento del gruppo di destinazione
Frame3d frDest ;
if ( ! pGeomDB->GetGroupGlobFrame( nDestGrpId, frDest))
return false ;
// costruzione vettori di superfici e indici delle facce per proiezione
ISURFTMPOVECTOR vpStmOthers ;
vector<SurfLocal> vSurfCLoc ;
// recupero le altre superfici e le porto nel sistema di riferimento della prima
for ( int i = 0 ; i < int( vSurfsId.size()) ; ++ i) {
if ( pGeomDB->GetGeoType( vSurfsId[i]) != SRF_TRIMESH)
return false ;
vSurfCLoc.emplace_back( pGeomDB, vSurfsId[i], frSurf) ;
const ISurfTriMesh* pStmCurr = GetSurfTriMesh( vSurfCLoc.back().Get()) ;
vpStmOthers.emplace_back( pStmCurr->Clone()) ;
}
// eseguo la proiezione
ISurfTriMesh* pStmRes = nullptr ;
bool bOk = SubtractProjectedFacesOnStmFace( *pStm, nFaceInd, vpStmOthers, bOCFlag,
bExistProjection, pStmRes, nNewFaceNbr) ;
if ( ! bOk) {
delete( pStmRes) ;
pStmRes = nullptr ;
}
nNewId = GDB_ID_NULL ;
if ( bOk && pStmRes != nullptr) {
// porto nel sistema di riferimento destinazione
pStmRes->LocToLoc( frSurf, frDest) ;
// la inserisco nel DB geometrico
nNewId = pGeomDB->AddGeoObj( GDB_ID_NULL, nDestGrpId, pStmRes) ;
if ( nNewId == GDB_ID_NULL)
return false ;
ExeSetModified() ;
}
if ( IsCmdLog()) {
string sLua = "EgtSubtractProjectedFacesOnStmFace(" + ToString( nSurfId) + "," +
ToString( nFaceInd) + "," +
ToString( nDestGrpId) + "," +
ToString( vSurfsId) + "," +
ToString( bOCFlag) + ")" +
" -- Ok=" + ToString( bOk) + " Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
return bOk ;
}
//----------------------------------------------------------------------------
bool
ExeSurfTmResetTwoColors( int nId)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero la superficie TriMesh
ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nId)) ;
bool bOk = ( pStm != nullptr) ;
// reset dei flag sui triangoli per i due colori
bOk = bOk && pStm->ResetTFlags() ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmResetTwoColors(" + ToString( nId) + ")" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
return bOk ;
}
//----------------------------------------------------------------------------
bool
ExeSurfTmSetShowEdges( int nId, bool bShow)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero la superficie trimesh
ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nId)) ;
bool bOk = ( pStm != nullptr) ;
// imposto lo stato di visualizzazione degli spigoli vivi
if ( bOk)
pStm->SetShowEdges( bShow) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmSetShowEdges(" + ToString( nId) + "," +
ToString( bShow) + ")" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
return bOk ;
}
//----------------------------------------------------------------------------
static bool
MySurfBzTrim( int nId, int nTrimmerId)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero la superficie Bezier da trimmare
ISurfBezier* pSrfBz = GetSurfBezier( pGeomDB->GetGeoObj( nId)) ;
if ( pSrfBz == nullptr)
return false ;
// recupero il riferimento della superficie
Frame3d frSurf ;
if ( ! pGeomDB->GetGlobFrame( nId, frSurf))
return false ;
// recupero la superficie TriMesh divisore in locale alla prima
SurfLocal SurfCLoc( pGeomDB, nTrimmerId, frSurf) ;
//const ISurfTriMesh* pStmCLoc = GetSurfTriMesh( SurfCLoc) ;
const ISurfFlatRegion* pSrfFr = GetSurfFlatRegion( SurfCLoc) ;
if ( pSrfFr == nullptr)
return false ;
PtrOwner<ISurfFlatRegion> pSrfFrCopy( pSrfFr->Clone()) ;
if ( ! pSrfFr->GetNormVersor().IsZplus())
pSrfFrCopy->Invert() ;
// eseguo il taglio
return pSrfBz->SetTrimRegion( *pSrfFrCopy) ;
}
//----------------------------------------------------------------------------
bool
ExeSurfBzTrim( int nId, int nCutterId)
{
bool bOk = MySurfBzTrim( nId, nCutterId) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmCut(" + ToString( nId) + "," +
ToString( nCutterId) + "," +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
return bOk ;
}
EXE_GdbModifyVol.cpp
+25 -3
View File
@@ -104,10 +104,9 @@ ExeVolZmapChangeResolution( int nId, int nNewRes)
VERIFY_GEOMDB( pGeomDB, false)
// recupero lo Zmap
IVolZmap* pVZM = GetVolZmap( pGeomDB->GetGeoObj( nId)) ;
if ( pVZM == nullptr)
return false ;
bool bOk = ( pVZM != nullptr) ;
// cambio la risoluzione (rapporto Voxel/Dexel, valori ammessi 1 e 2)
bool bOk = pVZM->ChangeResolution( nNewRes) ;
bOk = bOk && pVZM->ChangeResolution( nNewRes) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
@@ -120,6 +119,29 @@ ExeVolZmapChangeResolution( int nId, int nNewRes)
return bOk ;
}
//----------------------------------------------------------------------------
bool
ExeVolZmapSetShowEdges( int nId, bool bShow)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// recupero lo Zmap
IVolZmap* pVZM = GetVolZmap( pGeomDB->GetGeoObj( nId)) ;
bool bOk = ( pVZM != nullptr) ;
// imposto lo stato di visualizzazione degli spigoli vivi
if ( bOk)
pVZM->SetShowEdges( bShow) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtVolZmapSetShowEdges(" + ToString( nId) + "," +
ToString( bShow) + ")" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
return bOk ;
}
//-------------------------------------------------------------------------------
bool
ExeRemoveVolZmapPart( int nId, int nPart)
EXE_GdbObjects.cpp
+13 -8
View File
@@ -15,6 +15,7 @@
#include "stdafx.h"
#include "EXE.h"
#include "EXE_Macro.h"
#include "GeoTools.h"
#include "AuxTools.h"
#include "/EgtDev/Include/EXeExecutor.h"
#include "/EgtDev/Include/EGkStringUtils3d.h"
@@ -254,6 +255,7 @@ ExeCopy( int nSouId, int nRefId, int nSonBeforeAfter)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nRefId = AdjustId( nRefId) ;
// eseguo la copia
int nNewId = pGeomDB->Copy( nSouId, GDB_ID_NULL, nRefId, nSonBeforeAfter) ;
pGeomDB->RemoveInfo( nNewId, GDB_SI_LIST) ;
@@ -264,11 +266,11 @@ ExeCopy( int nSouId, int nRefId, int nSonBeforeAfter)
string sLua ;
if ( nSonBeforeAfter == GDB_LAST_SON)
sLua = "EgtCopy(" + ToString( nSouId) + "," +
ToString( nRefId) + ")" +
IdToString( nRefId) + ")" +
" -- Id=" + ToString( nNewId) ;
else
sLua = "EgtCopy(" + ToString( nSouId) + "," +
ToString( nRefId) + "," +
IdToString( nRefId) + "," +
InsToString( nSonBeforeAfter) + ")" +
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
@@ -283,6 +285,7 @@ ExeCopyGlob( int nSouId, int nRefId, int nSonBeforeAfter)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nRefId = AdjustId( nRefId) ;
// eseguo la copia mantenendo la posizione in globale
int nNewId = pGeomDB->CopyGlob( nSouId, GDB_ID_NULL, nRefId, nSonBeforeAfter) ;
pGeomDB->RemoveInfo( nNewId, GDB_SI_LIST) ;
@@ -293,11 +296,11 @@ ExeCopyGlob( int nSouId, int nRefId, int nSonBeforeAfter)
string sLua ;
if ( nSonBeforeAfter == GDB_LAST_SON)
sLua = "EgtCopyGlob(" + ToString( nSouId) + "," +
ToString( nRefId) + ")" +
IdToString( nRefId) + ")" +
" -- Id=" + ToString( nNewId) ;
else
sLua = "EgtCopyGlob(" + ToString( nSouId) + "," +
ToString( nRefId) + "," +
IdToString( nRefId) + "," +
InsToString( nSonBeforeAfter) + ")" +
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
@@ -312,6 +315,7 @@ ExeRelocate( int nSouId, int nRefId, int nSonBeforeAfter)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
nRefId = AdjustId( nRefId) ;
// eseguo la rilocazione
bool bOk = pGeomDB->Relocate( nSouId, nRefId, nSonBeforeAfter) ;
ExeSetModified() ;
@@ -320,11 +324,11 @@ ExeRelocate( int nSouId, int nRefId, int nSonBeforeAfter)
string sLua ;
if ( nSonBeforeAfter == GDB_LAST_SON)
sLua = "EgtRelocate(" + ToString( nSouId) + "," +
ToString( nRefId) + ")" +
IdToString( nRefId) + ")" +
" -- Ok=" + ToString( bOk) ;
else
sLua = "EgtRelocate(" + ToString( nSouId) + "," +
ToString( nRefId) + "," +
IdToString( nRefId) + "," +
InsToString( nSonBeforeAfter) + ")" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
@@ -339,6 +343,7 @@ ExeRelocateGlob( int nSouId, int nRefId, int nSonBeforeAfter)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
nRefId = AdjustId( nRefId) ;
// eseguo la rilocazione mantenendo la posizione in globale
bool bOk = pGeomDB->RelocateGlob( nSouId, nRefId, nSonBeforeAfter) ;
ExeSetModified() ;
@@ -347,11 +352,11 @@ ExeRelocateGlob( int nSouId, int nRefId, int nSonBeforeAfter)
string sLua ;
if ( nSonBeforeAfter == GDB_LAST_SON)
sLua = "EgtRelocateGlob(" + ToString( nSouId) + "," +
ToString( nRefId) + ")" +
IdToString( nRefId) + ")" +
" -- Ok=" + ToString( bOk) ;
else
sLua = "EgtRelocateGlob(" + ToString( nSouId) + "," +
ToString( nRefId) + "," +
IdToString( nRefId) + "," +
InsToString( nSonBeforeAfter) + ")" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
EXE_GdbPartLayers.cpp
+150 -14
View File
@@ -344,6 +344,26 @@ ExeGetPrevLayer( int nId, bool bOnlyVisible)
return ExeVerifyOrPrev( pGeomDB, nLayerId, bOnlyVisible) ;
}
//-------------------------------------------------------------------------------
bool
ExeIsGhostPart( int nGhostId)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// verifico sia il segnaposto di un pezzo (Ghost)
if ( pGeomDB->GetGdbType( nGhostId) == GDB_TY_GROUP &&
pGeomDB->GetParentId( nGhostId) == GDB_ID_ROOT &&
ExeIsSystemObj( pGeomDB, nGhostId) &&
pGeomDB->ExistsInfo( nGhostId, GDB_SI_SOURCE)) {
int nPartId = GDB_ID_NULL ;
pGeomDB->GetInfo( nGhostId, GDB_SI_SOURCE, nPartId) ;
int nRawId = pGeomDB->GetParentId( nPartId) ;
if ( ExeIsRawPart( nRawId))
return true ;
}
return false ;
}
//-------------------------------------------------------------------------------
int
ExeGetFirstGhostPart( void)
@@ -677,6 +697,32 @@ IsPartForDuplo( IGeomDB* pGeomDB, int nPartId)
return false ;
}
//-----------------------------------------------------------------------------
static bool
IsDuplo( IGeomDB* pGeomDB, int nDupId, bool& bInDuploGroup)
{
// verifica collegamento a DB geometrico
if ( pGeomDB == nullptr)
return false ;
// Recupero il gruppo base dei duplicati
int nDuploBaseId = GetDuploBase( pGeomDB) ;
if ( nDuploBaseId == GDB_ID_NULL)
return false ;
// Verifico sia un duplicato (gruppo sotto quello dei duplicati con riferimento a originale)
int nBaseId ;
if ( pGeomDB->GetGdbType( nDupId) == GDB_TY_GROUP && pGeomDB->ExistsInfo( nDupId, GDB_SI_DUPSOU)) {
if ( pGeomDB->GetParentId( nDupId) == nDuploBaseId) {
bInDuploGroup = true ;
return true ;
}
else if ( pGeomDB->GetInfo( nDupId, GDB_SI_BASE, nBaseId) && pGeomDB->GetParentId( nBaseId) == nDuploBaseId) {
bInDuploGroup = false ;
return true ;
}
}
return false ;
}
//-----------------------------------------------------------------------------
int
ExeDuploNew( int nSouId)
@@ -729,7 +775,8 @@ ExeDuploCount( int nSouId, int& nCount)
// Conto i reali duplo
nCount = 0 ;
for ( int i = 0 ; i < int( vnRef.size()) ; ++ i) {
if ( ExeIsDuplo( vnRef[i]))
bool bInDuploGroup ;
if ( IsDuplo( pGeomDB, vnRef[i], bInDuploGroup))
++ nCount ;
}
return true ;
@@ -754,6 +801,105 @@ ExeDuploList( int nSouId, INTVECTOR& vnRef)
return true ;
}
//-----------------------------------------------------------------------------
bool
ExeDuploInRawCount( int nSouId, int& nCount)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// Verifico sia un pezzo
if ( ! IsPartForDuplo( pGeomDB, nSouId))
return false ;
// Recupero info del sorgente
INTVECTOR vnRef ;
pGeomDB->GetInfo( nSouId, GDB_SI_DUPLIST, vnRef) ;
// Conto i reali duplo che sono riferiti o che stanno in un grezzo
nCount = 0 ;
for ( int i = 0 ; i < int( vnRef.size()) ; ++ i) {
// verifico sia un duplo
int nDupId = vnRef[i] ;
bool bInDuploGroup ;
if ( ! IsDuplo( pGeomDB, nDupId, bInDuploGroup))
continue ;
// se nel gruppo dei duplo
if ( bInDuploGroup) {
// verifico sia incluso in un grezzo di un gruppo di lavoro
INTVECTOR vnRef ;
if ( ! pGeomDB->GetInfo( nDupId, GDB_SI_LIST, vnRef))
continue ;
for ( auto& nId : vnRef) {
// verifico esista
if ( ! pGeomDB->ExistsObj( nId))
continue ;
// verifico sia in un grezzo (previsto solo in uno come massimo)
int nMachGrpId = pGeomDB->GetParentId( pGeomDB->GetParentId( pGeomDB->GetParentId( nId))) ;
string sMachGrpName ;
if ( ExeGetMachGroupName( nMachGrpId, sMachGrpName)) {
++ nCount ;
break ;
}
}
}
// se in altro gruppo
else {
// verifico se incluso nel grezzo del gruppo di lavoro corrente (previsto solo in un gruppo)
if ( ExeIsRawPart( pGeomDB->GetParentId( nDupId)))
++ nCount ;
}
}
return true ;
}
//-----------------------------------------------------------------------------
bool
ExeDuploWithoutRawList( INTVECTOR& vnDup)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// Reset del risultato
vnDup.clear() ;
// Recupero gruppo dei duplo
int nDuploBaseId = GetDuploBase( pGeomDB) ;
if ( nDuploBaseId == GDB_ID_NULL)
return true ;
// Ciclo sui duplo
for ( int nDuploId = pGeomDB->GetFirstGroupInGroup( nDuploBaseId) ;
nDuploId != GDB_ID_NULL ;
nDuploId = pGeomDB->GetNextGroup( nDuploId)) {
// se marcatore
if ( pGeomDB->ExistsInfo( nDuploId, GDB_SI_SOURCE)) {
int nPartId = GDB_ID_NULL ;
pGeomDB->GetInfo( nDuploId, GDB_SI_SOURCE, nPartId) ;
int nMachGrpId = pGeomDB->GetParentId( pGeomDB->GetParentId( pGeomDB->GetParentId( nPartId))) ;
string sMachGrpName ;
if ( pGeomDB->ExistsInfo( nPartId, GDB_SI_DUPSOU) && ExeGetMachGroupName( nMachGrpId, sMachGrpName))
continue ;
}
// se vero duplo
else if ( pGeomDB->ExistsInfo( nDuploId, GDB_SI_DUPSOU) && pGeomDB->ExistsInfo( nDuploId, GDB_SI_LIST)) {
// verifico sia incluso in un grezzo di un gruppo di lavoro
bool bFound = false ;
INTVECTOR vnRef ;
pGeomDB->GetInfo( nDuploId, GDB_SI_LIST, vnRef) ;
for ( auto& nId : vnRef) {
// verifico sia in un grezzo (previsto solo in uno come massimo)
int nMachGrpId = pGeomDB->GetParentId( pGeomDB->GetParentId( pGeomDB->GetParentId( nId))) ;
string sMachGrpName ;
if ( ExeGetMachGroupName( nMachGrpId, sMachGrpName)) {
bFound = true ;
break ;
}
}
if ( bFound)
continue ;
}
// inserisco nella lista dei duplo senza grezzo
vnDup.emplace_back( nDuploId) ;
}
return true ;
}
//-----------------------------------------------------------------------------
bool
ExeDuploSetModified( int nSouId)
@@ -955,19 +1101,9 @@ ExeIsDuplo( int nDupId)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
// Recupero il gruppo base dei duplicati
int nDuploBaseId = GetDuploBase( pGeomDB) ;
if ( nDuploBaseId == GDB_ID_NULL)
return false ;
// Verifico sia un duplicato (gruppo sotto quello dei duplicati con riferimento a originale)
int nBaseId ;
if ( pGeomDB->GetGdbType( nDupId) == GDB_TY_GROUP &&
( pGeomDB->GetParentId( nDupId) == nDuploBaseId ||
( pGeomDB->GetInfo( nDupId, GDB_SI_BASE, nBaseId) && pGeomDB->GetParentId( nBaseId) == nDuploBaseId)) &&
pGeomDB->ExistsInfo( nDupId, GDB_SI_DUPSOU))
return true ;
else
return false ;
// Verifico sia un duplicato
bool bPartVsGhost ;
return IsDuplo( pGeomDB, nDupId, bPartVsGhost) ;
}
//-----------------------------------------------------------------------------
EXE_General.cpp
+61 -11
View File
@@ -1,13 +1,14 @@
//----------------------------------------------------------------------------
// EgalTech 2014-2015
// EgalTech 2014-2023
//----------------------------------------------------------------------------
// File : EXE_General.cpp Data : 01.09.14 Versione : 1.5i1
// File : EXE_General.cpp Data : 14.11.23 Versione : 2.5k2
// Contenuto : Funzioni generali per EXE.
//
//
//
// Modifiche : 01.09.14 DS Creazione modulo.
// 28.11.19 DS Aggiunto caricamento opzionale del Nesting.
// 28.11.19 DS Aggiunto caricamento opzionale di Nesting.
// 14.11.23 DS Aggiunto caricamento opzionale di Exchange 3dm.
//
//----------------------------------------------------------------------------
@@ -17,6 +18,7 @@
#include "LUA_Base.h"
#include "DllGraphics.h"
#include "DllExchange.h"
#include "DllExch3dm.h"
#include "DllMachKernel.h"
#include "DllNesting.h"
#include "/EgtDev/Include/EXeExecutor.h"
@@ -50,11 +52,13 @@ static string s_sKey ;
static int s_nKeyType = KEY_LOCK_TYPE_ANY ;
static bool s_bNetHwKey = false ;
static int s_nKeyExpDays = 0 ;
static int s_nKeyAssExpDays = 0 ;
static int s_nKeyOptExpDays = 0 ;
static string s_sNestKey ;
static string s_sLockId ;
static string s_sIniFile ;
static bool s_bEnableUI = true ;
static pfOnTerminateProcess s_pFunOnTerminateProcess = nullptr ;
static pfProcEvents s_pFunProcEvents = nullptr ;
static pfOutText s_pFunOutText = nullptr ;
static HWND s_hMainWnd = nullptr ;
@@ -70,6 +74,7 @@ ExeInit( int nDebug, const string& sLogFile, const string& sLogMsg)
if ( s_pGenLog != nullptr)
delete s_pGenLog ;
// cancello riferimenti a funzioni installate
s_pFunOnTerminateProcess = nullptr ;
s_pFunProcEvents = nullptr ;
s_pFunOutText = nullptr ;
s_bEnableUI = true ;
@@ -112,6 +117,10 @@ ExeInit( int nDebug, const string& sLogFile, const string& sLogMsg)
if ( LoadExchangeDll( s_pGenLog, s_sKey, s_bNetHwKey))
LOG_INFO( s_pGenLog, MyGetEExVersion())
// carico libreria exchange 3dm opzionale
if ( LoadExch3dmDll( s_pGenLog, s_sKey, s_bNetHwKey))
LOG_INFO( s_pGenLog, MyGetEE3Version())
// carico libreria di lavorazione opzionale
if ( LoadMachKernelDll( s_pGenLog, s_sKey, s_bNetHwKey))
LOG_INFO( s_pGenLog, MyGetEMkVersion())
@@ -168,9 +177,11 @@ ExeExit( void)
// libero le librerie opzionali
FreeMachKernelDll() ;
FreeExchangeDll() ;
FreeExch3dmDll() ;
FreeGraphicsDll() ;
// cancello riferimenti a funzioni installate
s_pFunOnTerminateProcess = nullptr ;
s_pFunProcEvents = nullptr ;
s_pFunOutText = nullptr ;
s_bEnableUI = true ;
@@ -197,6 +208,30 @@ ExeExit( void)
return true ;
}
//-----------------------------------------------------------------------------
bool
ExeSetOnTerminateProcess( pfOnTerminateProcess pFun)
{
s_pFunOnTerminateProcess = pFun ;
return ( pFun != nullptr) ;
}
//-----------------------------------------------------------------------------
bool
ExeOnTerminateProcess( int nExitCode)
{
// lancio eventuale callback
bool bTerminate = true ;
if ( s_pFunOnTerminateProcess != nullptr)
bTerminate = s_pFunOnTerminateProcess( nExitCode) ;
// se confermata chiusura, libero eventuale chiave di rete
if ( bTerminate && s_bNetHwKey)
CloseNetHwKey() ;
return bTerminate ;
}
//-----------------------------------------------------------------------------
int
ExeGetDebugLevel( void)
@@ -278,9 +313,12 @@ ExeSetLockId( const string& sLockId)
bOk = ( s_nKeyType != KEY_LOCK_TYPE_HW) ;
break ;
case KEY_LOCK_TYPE_HW :
ExeSetNetHwKey( bNetKey, nUserId) ;
bOk = true ;
break ;
{ string sAddrPort ;
GetLockIdStringNetData( sLockId, sAddrPort) ;
ExeSetNetHwKey( bNetKey, nUserId, sAddrPort) ;
bOk = true ;
break ;
}
}
if ( bOk)
s_sLockId = sLockId ;
@@ -300,11 +338,11 @@ ExeGetLockId( void)
//-----------------------------------------------------------------------------
bool
ExeSetNetHwKey( bool bNetHwKey, int nUserId)
ExeSetNetHwKey( bool bNetHwKey, int nUserId, const string& sAddrPort)
{
s_bNetHwKey = bNetHwKey ;
SetEGnNetHwKey( s_bNetHwKey) ;
return SetNetHwKey( s_bNetHwKey, nUserId) ;
return SetNetHwKey( s_bNetHwKey, nUserId, sAddrPort) ;
}
//-----------------------------------------------------------------------------
@@ -435,6 +473,10 @@ ExeGetVersionInfo( string& sVer, const char* szNewLine)
sVer += szNewLine ;
sVer += MyGetEExVersion() ;
}
if ( IsLoadedExch3dmDll()) {
sVer += szNewLine ;
sVer += MyGetEE3Version() ;
}
if ( IsLoadedMachKernelDll()) {
sVer += szNewLine ;
sVer += MyGetEMkVersion() ;
@@ -478,7 +520,7 @@ bool
ExeGetKeyLevel( int nProd, int nVer, int nLev, int& nKLev)
{
// verifico la chiave e il livello
int nRet = GetKeyLevel( s_sKey, nProd, nVer, nLev, nKLev, s_nKeyExpDays) ;
int nRet = GetKeyLevelEx( s_sKey, nProd, nVer, nLev, nKLev, s_nKeyExpDays, s_nKeyAssExpDays) ;
SetEGnKeyLevel( nRet, nKLev, s_nKeyExpDays) ;
if ( nRet != KEY_OK) {
string sErr = "Error on Key (EGKL/" + ToString( nRet) + ")" ;
@@ -486,7 +528,6 @@ ExeGetKeyLevel( int nProd, int nVer, int nLev, int& nKLev)
nKLev = - nRet ;
return false ;
}
return true ;
}
@@ -510,7 +551,6 @@ ExeGetKeyOptions( int nProd, int nVer, int nLev, unsigned int& nOpt2)
LOG_ERROR( s_pGenLog, sErr.c_str()) ;
return true ;
}
return true ;
}
@@ -524,6 +564,16 @@ ExeGetKeyLeftDays( int& nLeftDays)
return true ;
}
//-----------------------------------------------------------------------------
bool
ExeGetKeyAssLeftDays( int& nAssLeftDays)
{
if ( s_nKeyAssExpDays == 0)
return false ;
nAssLeftDays = s_nKeyAssExpDays - GetCurrDay() ;
return true ;
}
//-----------------------------------------------------------------------------
bool
ExeGetKeyOptLeftDays( int& nOptLeftDays)
EXE_GeoInters.cpp
+825 -648
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File diff suppressed because it is too large Load Diff
EXE_GeomDB.cpp
+12
View File
@@ -277,6 +277,8 @@ ExeNewFile( void)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
LOG_INFO( GetLogger(), "New File") ;
// restituisco il risultato
return bOk ;
}
@@ -316,6 +318,11 @@ ExeOpenFile( const string& sFilePath)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
{
string sLog = "Open File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
@@ -447,6 +454,11 @@ ExeSaveFile( const string& sFilePath, int nFlag)
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// scrivo il log
{
string sLog = "Saved File " + sFilePath ;
LOG_INFO( GetLogger(), sLog.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
EXE_MachMgr.cpp
+59 -9
View File
@@ -284,6 +284,26 @@ ExeRemoveMachGroup( int nMGroupId)
return bOk ;
}
//-----------------------------------------------------------------------------
bool
ExeChangeMachGroupName( int nId, const string& sNewName)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// cambia il nome della macchinata
bool bOk = pMachMgr->ChangeMachGroupName( nId, sNewName) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtChangeMachGroupName(" + ToString( nId) + ",'" +
sNewName + "')" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco il risultato
return bOk ;
}
//-----------------------------------------------------------------------------
bool
ExeGetMachGroupName( int nId, string& sName)
@@ -311,8 +331,8 @@ int
ExeGetMachGroupId( const string& sName)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// recupero l'indice della macchinata
VERIFY_MACHMGR( pMachMgr, GDB_ID_NULL)
// recupero l'identificativo della macchinata
return pMachMgr->GetMachGroupId( sName) ;
}
@@ -373,16 +393,16 @@ ExeAddPhase( void)
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, 0)
// aggiungo una nuova fase di lavorazione alla macchinata corrente
int nId = pMachMgr->AddPhase() ;
int nInd = pMachMgr->AddPhase() ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtAddPhase()"
" -- Id=" + ToString( nId) ;
" -- Ind=" + ToString( nInd) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco il risultato
return nId ;
return nInd ;
}
//-----------------------------------------------------------------------------
@@ -471,7 +491,7 @@ bool
ExeIsRawPart( int nRawId)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, GDB_ID_NULL)
VERIFY_MACHMGR( pMachMgr, false)
// verifico se è un grezzo della macchinata corrente
return pMachMgr->IsRawPart( nRawId) ;
}
@@ -1585,6 +1605,16 @@ ExeFindToolInCurrSetup( const string& sTool)
return pMachMgr->FindToolInCurrSetup( sTool) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetToolSetupPosInCurrSetup( const string& sTool, string& sTcPos)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// eseguo la verifica
return pMachMgr->GetToolSetupPosInCurrSetup( sTool, sTcPos) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetToolsInCurrSetupPos( const string& sTcPos, STRVECTOR& vsTools)
@@ -2866,12 +2896,12 @@ ExeGetClEntMove( int nEntId, int& nMove)
//-----------------------------------------------------------------------------
bool
ExeGetClEntFlag( int nEntId, int& nFlag)
ExeGetClEntFlag( int nEntId, int& nFlag, int& nFlag2)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// recupero il flag
return pMachMgr->GetClEntFlag( nEntId, nFlag) ;
// recupero i flag
return pMachMgr->GetClEntFlag( nEntId, nFlag, nFlag2) ;
}
//-----------------------------------------------------------------------------
@@ -2884,6 +2914,16 @@ ExeGetClEntIndex( int nEntId, int& nIndex)
return pMachMgr->GetClEntIndex( nEntId, nIndex) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetClEntAxesVal( int nEntId, DBLVECTOR& vAxes)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// recupero il valore degli assi
return pMachMgr->GetClEntAxesVal( nEntId, vAxes) ;
}
//-----------------------------------------------------------------------------
// Simulazione
//-----------------------------------------------------------------------------
@@ -3162,6 +3202,16 @@ ExeSetCalcTool( const string& sTool, const string& sHead, int nExit)
return pMachMgr->SetCalcTool( sTool, sHead, nExit) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetAllCurrAxesName( STRVECTOR& vAxName)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// recupero gli assi correnti derivanti dalla scelta di tavola e utensile
return pMachMgr->GetAllCurrAxesName( vAxName) ;
}
//----------------------------------------------------------------------------
bool
ExeSetRotAxisBlock( const string& sAxis, double dVal)
EXE_NstCreateFlatParts.cpp
+77 -9
View File
@@ -1613,6 +1613,50 @@ ExeCalcFlatPartUpRegion( int nPartId, bool bCalc)
return true ;
}
//----------------------------------------------------------------------------
static bool
IgnoreOutlineFillet( IGeomDB* pGeomDB, int nCrvId, int nLayId)
{
// verifico se la curva nCrvId è un raccordo che deve essere ignorato, ovvero se si tratta di un arco non inclinato, in tangenza
// e consecutivo ad almeno un lato inclinato
// verifico se arco
if ( pGeomDB->GetGeoType( nCrvId) == CRV_ARC) {
// verifico se non inclinato
double dSideAng = 0, dSideAng2 = 0 ;
pGeomDB->GetInfo( nCrvId, NST_KEY_SIDEANG, dSideAng) ;
pGeomDB->GetInfo( nCrvId, NST_KEY_SIDEANG2, dSideAng2) ;
if ( abs( dSideAng) < EPS_ANG_SMALL && abs( dSideAng2) < EPS_ANG_SMALL) {
// verifico se in tangenza con curve consecutive
double dPrevAng = ANG_RIGHT, dNextAng = ANG_RIGHT ;
pGeomDB->GetInfo( nCrvId, MCH_KEY_PREVANG, dPrevAng) ;
pGeomDB->GetInfo( nCrvId, MCH_KEY_NEXTANG, dNextAng) ;
if ( abs( dPrevAng) < EPS_ANG_SMALL && abs( dNextAng) < EPS_ANG_SMALL) {
// verifico se è inclinata almeno una tra la curva precedente e quella successiva
int nPrevId = pGeomDB->GetPrev( nCrvId) ;
if ( nPrevId == GDB_ID_NULL)
nPrevId = pGeomDB->GetLastInGroup( nLayId) ;
if ( nPrevId == GDB_ID_NULL)
return false ;
double dSideAng, dSideAng2 ;
if ( ( pGeomDB->GetInfo( nPrevId, NST_KEY_SIDEANG, dSideAng) && abs( dSideAng) > EPS_ANG_SMALL) ||
( pGeomDB->GetInfo( nPrevId, NST_KEY_SIDEANG2, dSideAng2) && abs( dSideAng2) > EPS_ANG_SMALL))
return true ;
int nNextId = pGeomDB->GetNext( nCrvId) ;
if ( nNextId == GDB_ID_NULL)
nNextId = pGeomDB->GetFirstInGroup( nLayId) ;
if ( nNextId == GDB_ID_NULL)
return false ;
if ( ( pGeomDB->GetInfo( nNextId, NST_KEY_SIDEANG, dSideAng) && abs( dSideAng) > EPS_ANG_SMALL) ||
( pGeomDB->GetInfo( nNextId, NST_KEY_SIDEANG2, dSideAng2) && abs( dSideAng2) > EPS_ANG_SMALL))
return true ;
}
}
}
return false ;
}
//----------------------------------------------------------------------------
static bool
AdjustLayerForSideAngle( IGeomDB* pGeomDB, int nLayOrigId, const string& sLayOrig, int nLayReg, double dH)
@@ -1683,7 +1727,8 @@ AdjustLayerForSideAngle( IGeomDB* pGeomDB, int nLayOrigId, const string& sLayOri
ICurve* pCrv = GetCurve( pGeomDB->GetGeoObj( nNewId)) ;
if ( pCrv == nullptr)
return false ;
pCrv->SimpleOffset( dCalcOffset) ;
if ( ! pCrv->SimpleOffset( dCalcOffset))
pGeomDB->Erase( nNewId) ;
}
else if ( pGeomDB->GetInfo( nCrvId, NST_KEY_SIDEANG2, dSideAng2) && abs( dSideAng2) > EPS_ANG_SMALL) {
double dOffset2 = 0 ;
@@ -1696,8 +1741,12 @@ AdjustLayerForSideAngle( IGeomDB* pGeomDB, int nLayOrigId, const string& sLayOri
ICurve* pCrv = GetCurve( pGeomDB->GetGeoObj( nNewId)) ;
if ( pCrv == nullptr)
return false ;
pCrv->SimpleOffset( dCalcOffset) ;
if ( ! pCrv->SimpleOffset( dCalcOffset))
pGeomDB->Erase( nNewId) ;
}
// verifico se raccordo da ignorare per poter calcolare la regione
else if ( IgnoreOutlineFillet( pGeomDB, nCrvId, nLayId))
pGeomDB->Erase( nNewId) ;
}
// aggiusto tra loro le curve offsettate (allungandole e/o accorciandole)
if ( ! AdjustLayerCurves( pGeomDB, nTmpLayId))
@@ -1720,7 +1769,7 @@ AdjustLayerForSideAngle( IGeomDB* pGeomDB, int nLayOrigId, const string& sLayOri
if ( nNewId == GDB_ID_NULL)
return false ;
// determino ed eseguo offset
double dSideAng ;
double dSideAng, dSideAng2 ;
if ( pGeomDB->GetInfo( nCrvId, NST_KEY_SIDEANG, dSideAng) && abs( dSideAng) > EPS_ANG_SMALL) {
double dOffset = 0 ;
pGeomDB->GetInfo( nCrvId, NST_KEY_OFFSET, dOffset) ;
@@ -1728,8 +1777,22 @@ AdjustLayerForSideAngle( IGeomDB* pGeomDB, int nLayOrigId, const string& sLayOri
ICurve* pCrv = GetCurve( pGeomDB->GetGeoObj( nNewId)) ;
if ( pCrv == nullptr)
return false ;
pCrv->SimpleOffset( dCalcOffset) ;
if ( ! pCrv->SimpleOffset( dCalcOffset))
pGeomDB->Erase( nNewId) ;
}
else if ( pGeomDB->GetInfo( nCrvId, NST_KEY_SIDEANG2, dSideAng2) && abs( dSideAng2) > EPS_ANG_SMALL) {
double dOffset2 = 0 ;
pGeomDB->GetInfo( nCrvId, NST_KEY_OFFSET2, dOffset2) ;
double dCalcOffset = dOffset2 ;
ICurve* pCrv = GetCurve( pGeomDB->GetGeoObj( nNewId)) ;
if ( pCrv == nullptr)
return false ;
if ( ! pCrv->SimpleOffset( dCalcOffset))
pGeomDB->Erase( nNewId) ;
}
// verifico se raccordo da ignorare per poter calcolare la regione
else if ( IgnoreOutlineFillet( pGeomDB, nCrvId, nLayId))
pGeomDB->Erase( nNewId) ;
}
// aggiusto tra loro le curve offsettate (allungandole e/o accorciandole)
if ( ! AdjustLayerCurves( pGeomDB, nTmpLay2Id))
@@ -1769,10 +1832,13 @@ AdjustLayerForSideAngle( IGeomDB* pGeomDB, int nLayOrigId, const string& sLayOri
//if ( dStartProD > EPS_SMALL)
// pCrv->ExtendStartByLen( dStartProD) ;
double dStartProMin = min( dStartProD, dStartProU) ;
if ( dStartProMin < - EPS_SMALL)
if ( dStartProMin < - EPS_SMALL) {
pCrv->TrimStartAtLen( - dStartProMin) ;
if ( abs( dStartProD - dStartProU) > EPS_SMALL)
pGeomDB->SetInfo( nCrvId, MCH_KEY_START_WHISKEXT, abs( dStartProD - dStartProU)) ;
if ( abs( dStartProD - dStartProU) > EPS_SMALL)
pGeomDB->SetInfo( nCrvId, MCH_KEY_START_WHISKEXT, abs( dStartProD - dStartProU)) ;
}
else
pGeomDB->SetInfo( nCrvId, MCH_KEY_START_WHISKEXT, max( dStartProD, dStartProU)) ;
}
else {
if ( dStartProD < - EPS_SMALL)
@@ -1799,9 +1865,11 @@ AdjustLayerForSideAngle( IGeomDB* pGeomDB, int nLayOrigId, const string& sLayOri
double dLen ;
pCrv->GetLength( dLen) ;
pCrv->TrimEndAtLen( dLen + dEndProMin) ;
if ( abs( dEndProD - dEndProU) > EPS_SMALL)
pGeomDB->SetInfo( nCrvId, MCH_KEY_END_WHISKEXT, abs( dEndProD - dEndProU)) ;
}
if ( abs( dEndProD - dEndProU) > EPS_SMALL)
pGeomDB->SetInfo( nCrvId, MCH_KEY_END_WHISKEXT, abs( dEndProD - dEndProU)) ;
else
pGeomDB->SetInfo( nCrvId, MCH_KEY_END_WHISKEXT, max( dEndProD, dEndProU)) ;
}
else {
if ( dEndProD < - EPS_SMALL) {
EXE_Scene.cpp
+35
View File
@@ -183,10 +183,23 @@ ExeSetGridGeo( double dSnapStep, int nMinLineSstep, int nMajLineSstep, int nExtS
{
IEGrScene* pScene = GetCurrScene() ;
VERIFY_SCENE( pScene, false)
// imposto i parametri geometrici di griglia
return pScene->SetGridGeo( dSnapStep, nMinLineSstep, nMajLineSstep, nExtSstep) ;
}
//-----------------------------------------------------------------------------
bool
ExeSetGridGeoAdv( double dSnapStep, int nMinLineSstep, int nMajLineSstep,
double dXmin, double dXmax, double dYmin, double dYmax)
{
IEGrScene* pScene = GetCurrScene() ;
VERIFY_SCENE( pScene, false)
// imposto i parametri geometrici di griglia
return pScene->SetGridGeoAdv( dSnapStep, nMinLineSstep, nMajLineSstep, dXmin, dXmax, dYmin, dYmax) ;
}
//-----------------------------------------------------------------------------
bool
ExeSetGridColor( Color colMin, Color colMaj)
@@ -627,6 +640,15 @@ ExeZoomWin( int nPrevX, int nPrevY, int nCurrX, int nCurrY, bool bRedraw)
return true ;
}
//-----------------------------------------------------------------------------
bool
ExeSetViewOrizzOffsStep( int nDirOffsStep)
{
IEGrScene* pScene = GetCurrScene() ;
VERIFY_SCENE( pScene, false)
return pScene->SetCameraDirOrizzOffset( nDirOffsStep) ;
}
//-----------------------------------------------------------------------------
bool
ExeSetView( int nDir, bool bRedraw)
@@ -696,6 +718,19 @@ ExeRotateView( int nPrevX, int nPrevY, int nCurrX, int nCurrY, bool bRedraw)
return true ;
}
//-----------------------------------------------------------------------------
bool
ExeGetViewOrizzOffsStep( int* pnDirOffsStep)
{
IEGrScene* pScene = GetCurrScene() ;
VERIFY_SCENE( pScene, false)
// recupero offset direzione di vista
if ( pnDirOffsStep == nullptr)
return false ;
*pnDirOffsStep = pScene->GetCameraDirOrizzOffset() ;
return true ;
}
//-----------------------------------------------------------------------------
bool
ExeGetView( int* pnDir)
EgtExecutor.rc
BIN
View File
Binary file not shown.
EgtExecutor.vcxproj
+5 -1
View File
@@ -200,7 +200,7 @@ copy $(TargetPath) \EgtProg\Dll32</Command>
<OpenMPSupport>false</OpenMPSupport>
<EnableFiberSafeOptimizations>false</EnableFiberSafeOptimizations>
<EnableParallelCodeGeneration>true</EnableParallelCodeGeneration>
<EnableEnhancedInstructionSet>AdvancedVectorExtensions2</EnableEnhancedInstructionSet>
<EnableEnhancedInstructionSet>NotSet</EnableEnhancedInstructionSet>
<LanguageStandard>stdcpp17</LanguageStandard>
<AdditionalOptions>-Wno-tautological-undefined-compare</AdditionalOptions>
</ClCompile>
@@ -228,6 +228,7 @@ copy $(TargetPath) \EgtProg\Dll64</Command>
<ClInclude Include="..\Include\EXeConst.h" />
<ClInclude Include="..\Include\EXeDllMain.h" />
<ClInclude Include="..\Include\EXeExecutor.h" />
<ClInclude Include="DllExch3dm.h" />
<ClInclude Include="DllMain.h" />
<ClInclude Include="DllNesting.h" />
<ClInclude Include="EXE.h" />
@@ -248,6 +249,7 @@ copy $(TargetPath) \EgtProg\Dll64</Command>
<ClInclude Include="stdafx.h" />
</ItemGroup>
<ItemGroup>
<ClCompile Include="DllExch3dm.cpp" />
<ClCompile Include="DllNesting.cpp" />
<ClCompile Include="EXE_BeamMgr.cpp" />
<ClCompile Include="EXE_CAvTool.cpp" />
@@ -255,6 +257,7 @@ copy $(TargetPath) \EgtProg\Dll64</Command>
<ClCompile Include="EXE_GdbCreateVol.cpp" />
<ClCompile Include="EXE_GdbGet.cpp" />
<ClCompile Include="EXE_GdbGetCurve.cpp" />
<ClCompile Include="EXE_GdbGetPocketing.cpp" />
<ClCompile Include="EXE_GdbGetSurf.cpp" />
<ClCompile Include="EXE_GdbGetVol.cpp" />
<ClCompile Include="EXE_GdbModifyVol.cpp" />
@@ -305,6 +308,7 @@ copy $(TargetPath) \EgtProg\Dll64</Command>
<ClCompile Include="LUA_CDeObjSolid.cpp" />
<ClCompile Include="LUA_GdbGet.cpp" />
<ClCompile Include="LUA_GdbGetCurve.cpp" />
<ClCompile Include="LUA_GdbGetPocketing.cpp" />
<ClCompile Include="LUA_GdbGetSurf.cpp" />
<ClCompile Include="LUA_GdbGetVol.cpp" />
<ClCompile Include="LUA_GeoDist.cpp" />
EgtExecutor.vcxproj.filters
+12
View File
@@ -108,6 +108,9 @@
<ClInclude Include="DllNesting.h">
<Filter>File di intestazione</Filter>
</ClInclude>
<ClInclude Include="DllExch3dm.h">
<Filter>File di intestazione</Filter>
</ClInclude>
</ItemGroup>
<ItemGroup>
<ClCompile Include="LUA_Exchange.cpp">
@@ -389,6 +392,15 @@
<ClCompile Include="EXE_Mutex.cpp">
<Filter>File di origine\EXE</Filter>
</ClCompile>
<ClCompile Include="DllExch3dm.cpp">
<Filter>File di origine\Optional Dll</Filter>
</ClCompile>
<ClCompile Include="EXE_GdbGetPocketing.cpp">
<Filter>File di origine\EXE</Filter>
</ClCompile>
<ClCompile Include="LUA_GdbGetPocketing.cpp">
<Filter>File di origine\LUA</Filter>
</ClCompile>
</ItemGroup>
<ItemGroup>
<ResourceCompile Include="EgtExecutor.rc">
LUA.h
+4 -1
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@@ -54,6 +54,9 @@ bool LuaInstallGdbModifyVol( LuaMgr& luaMgr) ;
//-------------------------- GdbGet ------------------------------------------
bool LuaInstallGdbGet( LuaMgr& luaMgr) ;
//-------------------------- GdbGetPocketing ---------------------------------
bool LuaInstallGdbGetPocketing( LuaMgr& luaMgr) ;
//-------------------------- GdbGetCurve -------------------------------------
bool LuaInstallGdbGetCurve( LuaMgr& luaMgr) ;
@@ -62,7 +65,7 @@ bool LuaInstallGdbGetSurf( LuaMgr& luaMgr) ;
//-------------------------- GdbGetVol ---------------------------------------
bool LuaInstallGdbGetVol( LuaMgr& luaMgr) ;
//-------------------------- GdbPartLayer ------------------------------------
bool LuaInstallGdbPartLayer( LuaMgr& luaMgr) ;
LUA_Base.cpp
+4
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@@ -78,6 +78,10 @@ LuaInstallEgtFunctions( LuaMgr& LuaMgr)
LOG_ERROR( GetLogger(), "Error in LuaInstallGdbGet (LuaInstallEgtFunctions)")
return false ;
}
if ( ! LuaInstallGdbGetPocketing( LuaMgr)) {
LOG_ERROR( GetLogger(), "Error in LuaInstallGdbGetPocketing (LuaInstallEgtFunctions)")
return false ;
}
if ( ! LuaInstallGdbGetCurve( LuaMgr)) {
LOG_ERROR( GetLogger(), "Error in LuaInstallGdbGetCurve (LuaInstallEgtFunctions)")
return false ;
LUA_CAvTool.cpp
+22
View File
@@ -118,6 +118,27 @@ LuaCAvGetToolOutline( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCAvToolPosBox( lua_State* L)
{
// 4 parametri : ptP, vtAx, b3Box, vtMove
Point3d ptP ;
LuaCheckParam( L, 1, ptP)
Vector3d vtAx ;
LuaCheckParam( L, 2, vtAx)
BBox3d b3Box ;
LuaCheckParam( L, 3, b3Box)
Vector3d vtMove ;
LuaCheckParam( L, 4, vtMove)
LuaClearStack( L) ;
// determino il movimento da dare all'utensile per evitare la collisione con il parallelepipedo
double dMove = ExeCAvToolPosBox( ptP, vtAx, b3Box, vtMove) ;
// restituisco il risultato
LuaSetParam( L, dMove) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCAvToolPosStm( lua_State* L)
@@ -176,6 +197,7 @@ LuaInstallCAvTool( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtCAvSetSawTool", LuaCAvSetSawTool) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCAvSetGenTool", LuaCAvSetGenTool) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCAvGetToolOutline", LuaCAvGetToolOutline) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCAvToolPosBox", LuaCAvToolPosBox) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCAvToolPosStm", LuaCAvToolPosStm) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCAvToolPathStm", LuaCAvToolPathStm) ;
return bOk ;
LUA_Exchange.cpp
+23 -5
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@@ -173,14 +173,12 @@ LuaImport3MF( lua_State* L)
static int
LuaImport3dm( lua_State* L)
{
// 1 o 2 parametri : path del file da importare [, Fattore di scala]
// 1 parametro : path del file da importare
string sFilePath ;
LuaCheckParam( L, 1, sFilePath)
double dScaleFactor = 1.0 ;
LuaGetParam( L, 2, dScaleFactor) ;
LuaClearStack( L) ;
// apro il file
bool bOk = ExeImport3dm( sFilePath, dScaleFactor) ;
bool bOk = ExeImport3dm( sFilePath) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
@@ -256,7 +254,26 @@ LuaExport3MF( lua_State* L)
LuaGetParam( L, 3, nFilter) ;
LuaClearStack( L) ;
// creo il file
bool bOk = ExeExport3MF( nGroupId, sFilePath) ;
bool bOk = ExeExport3MF( nGroupId, sFilePath, nFilter) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaExport3dm( lua_State* L)
{
// 2 o 3 parametri : GroupId e path del file da esportare [, Filter]
int nGroupId ;
LuaCheckParam( L, 1, nGroupId)
string sFilePath ;
LuaCheckParam( L, 2, sFilePath)
int nFilter = EEXFLT_DEFAULT ;
LuaGetParam( L, 3, nFilter) ;
LuaClearStack( L) ;
// creo il file
bool bOk = ExeExport3dm( nGroupId, sFilePath, nFilter) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
@@ -319,6 +336,7 @@ LuaInstallExchange( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtExportDxf", LuaExportDxf) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtExportStl", LuaExportStl) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtExport3MF", LuaExport3MF) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtExport3dm", LuaExport3dm) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtExportSvg", LuaExportSvg) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtExportThreeJS", LuaExportThreeJS) ;
return bOk ;
LUA_GdbCreate.cpp
+39 -37
View File
@@ -400,13 +400,13 @@ LuaCreateDiametralDimension( lua_State* L )
static int
LuaCreateAngularDimension(lua_State* L)
{
// 6 o 7 parametri : ParentId, ptP1, ptP0, ptP2, ptDim, Text [, nRefType]
// 6 o 7 parametri : ParentId, ptV, ptP1, ptP2, ptDim, Text [, nRefType]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
Point3d ptV ;
LuaCheckParam( L, 2, ptV) ;
Point3d ptP1 ;
LuaCheckParam( L, 2, ptP1) ;
Point3d ptP0 ;
LuaCheckParam( L, 3, ptP0) ;
LuaCheckParam( L, 3, ptP1) ;
Point3d ptP2 ;
LuaCheckParam( L, 4, ptP2) ;
Point3d ptDim ;
@@ -417,7 +417,39 @@ LuaCreateAngularDimension(lua_State* L)
LuaGetParam( L, 7, nRefType) ;
LuaClearStack( L) ;
// creo la quota angolare
int nId = ExeCreateAngularDimension( nParentId, ptP1, ptP0, ptP2, ptDim, sText, nRefType) ;
int nId = ExeCreateAngularDimension( nParentId, ptV, ptP1, ptP2, ptDim, sText, nRefType) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateAngularDimensionEx(lua_State* L)
{
// 7 o 8 parametri : ParentId, ptV1, ptP1, ptV2, ptP2, ptDim, Text [, nRefType]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
Point3d ptV1 ;
LuaCheckParam( L, 2, ptV1) ;
Point3d ptP1 ;
LuaCheckParam( L, 3, ptP1) ;
Point3d ptV2 ;
LuaCheckParam( L, 4, ptV2) ;
Point3d ptP2 ;
LuaCheckParam( L, 5, ptP2) ;
Point3d ptDim ;
LuaCheckParam( L, 6, ptDim) ;
string sText ;
LuaCheckParam( L, 7, sText) ;
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 8, nRefType) ;
LuaClearStack( L) ;
// creo la quota angolare
int nId = ExeCreateAngularDimensionEx( nParentId, ptV1, ptP1, ptV2, ptP2, ptDim, sText, nRefType) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
@@ -478,36 +510,6 @@ LuaCreateAngularDimensionFromArc( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateAngularDimensionFromCircle( lua_State* L)
{
// 6 o 7 parametri : nParentId, nCrvId, ptP1, ptP2, ptDim, Text [, nRefType]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
int nCrvId ;
LuaCheckParam( L, 2, nCrvId) ;
Point3d ptP1 ;
LuaCheckParam( L, 3, ptP1) ;
Point3d ptP2 ;
LuaCheckParam( L, 4, ptP2) ;
Point3d ptDim ;
LuaCheckParam( L, 5, ptDim) ;
string sText ;
LuaCheckParam( L, 6, sText) ;
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 7, nRefType) ;
LuaClearStack( L) ;
// creo la quota allineata
int nId = ExeCreateAngularDimensionFromCircle( nParentId, nCrvId, ptP1, ptP2, ptDim, sText, nRefType) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
bool
LuaInstallGdbCreate( LuaMgr& luaMgr)
@@ -527,9 +529,9 @@ LuaInstallGdbCreate( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtAlignedDimension", LuaCreateAlignedDimension) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtRadialDimension", LuaCreateRadialDimension) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtDiametralDimension", LuaCreateDiametralDimension) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtAngularDimension", LuaCreateAngularDimension);
bOk = bOk && luaMgr.RegisterFunction( "EgtAngularDimension", LuaCreateAngularDimension) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtAngularDimensionEx", LuaCreateAngularDimensionEx) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtAngularDimensionFromLines", LuaCreateAngularDimensionFromLines) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtAngularDimensionFromArc", LuaCreateAngularDimensionFromArc) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtAngularDimensionFromCircle", LuaCreateAngularDimensionFromCircle) ;
return bOk ;
}
LUA_GdbCreateSurf.cpp
+183 -3
View File
@@ -147,7 +147,7 @@ LuaCreateSurfFlatRegion( lua_State* L)
static int
LuaCreateSurfFrFatCurve( lua_State* L)
{
// 4 parametri : ParentId, nCrvId, dRad, bSquared
// 4 o 5 o 6 parametri : ParentId, nCrvId, dRad, bSquared [, bSquaredMids] [, dLinTol]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
int nCrvId ;
@@ -156,9 +156,13 @@ LuaCreateSurfFrFatCurve( lua_State* L)
LuaCheckParam( L, 3, dRad)
bool bSquared ;
LuaCheckParam( L, 4, bSquared)
bool bSquaredMids = bSquared ;
LuaGetParam( L, 5, bSquaredMids) ;
double dLinTol = 10 * EPS_SMALL ;
LuaGetParam( L, 6, dLinTol) ;
LuaClearStack( L) ;
// creo una regione piana
int nId = ExeCreateSurfFrFatCurve( nParentId, nCrvId, dRad, bSquared) ;
int nId = ExeCreateSurfFrFatCurve( nParentId, nCrvId, dRad, bSquared, bSquaredMids, dLinTol) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
@@ -385,7 +389,7 @@ LuaCreateSurfTmSphere( lua_State* L)
else
LuaGetParam( L, 4, nRefType) ;
LuaClearStack( L) ;
// creo STM cilindro
// creo STM sfera
int nId = ExeCreateSurfTmSphere( nParentId, ptOrig, dRad, dLinTol, nRefType) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
@@ -395,6 +399,58 @@ LuaCreateSurfTmSphere( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateSurfTmTriangle( lua_State* L)
{
// 4 o 5 parametri : ParentId, PtP1, PtP2, PtP3 [, nRefType]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
Point3d PtP1 ;
LuaCheckParam( L, 2, PtP1)
Point3d PtP2 ;
LuaCheckParam( L, 3, PtP2)
Point3d PtP3 ;
LuaCheckParam( L, 4, PtP3)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
LuaClearStack( L) ;
// creo STM triangolo
int nId = ExeCreateSurfTmTriangle( nParentId, PtP1, PtP2, PtP3, nRefType) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateSurfTmRectangle( lua_State* L)
{
// 4 o 5 parametri : ParentId, PtO, PtL, PtT [, nRefType]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
Point3d ptO ;
LuaCheckParam( L, 2, ptO)
Point3d ptL ;
LuaCheckParam( L, 3, ptL)
Point3d ptT ;
LuaCheckParam( L, 4, ptT)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
LuaClearStack( L) ;
// creo STM rettangolo
int nId = ExeCreateSurfTmRectangle( nParentId, ptO, ptL, ptT, nRefType) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateSurfTmByFlatContour( lua_State* L)
@@ -626,6 +682,32 @@ LuaCreateSurfTmSwept( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateSurfTmTransSwept( lua_State* L)
{
// 4 o 5 parametri : ParentId, SectId, GuideId, bCapEnds [, dTol]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
int nSectId ;
LuaCheckParam( L, 2, nSectId)
int nGuideId ;
LuaCheckParam( L, 3, nGuideId)
bool bCapEnds ;
LuaCheckParam( L, 4, bCapEnds)
double dLinTol = LIN_TOL_SRF ;
LuaGetParam( L, 5, dLinTol) ;
LuaClearStack( L) ;
// creo STM swept di traslazione
int nId = ExeCreateSurfTmTransSwept( nParentId, nSectId, nGuideId, bCapEnds, dLinTol) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateSurfTmRuled( lua_State* L)
@@ -816,6 +898,98 @@ LuaCreateSurfBezierRational( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateSurfBezierLeaves( lua_State* L)
{
// 2, 3 o 4 parametri : ParentId, nId [, nTextHeight] [, bShowTrim]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
int nSurfBzId ;
LuaCheckParam( L, 2, nSurfBzId)
int nTextHeight = 50 ;
bool bShowTrim = false ;
if ( LuaGetParam( L, 3, nTextHeight))
LuaGetParam( L, 4, bShowTrim) ;
else
LuaGetParam( L, 3, bShowTrim) ;
LuaClearStack( L) ;
// creo la superficie
int nCount = 0 ;
int nId = ExeCreateSurfBezierLeaves( nParentId, nSurfBzId, nTextHeight, bShowTrim, &nCount) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL) {
LuaSetParam( L, nId) ;
LuaSetParam( L, nCount) ;
}
else {
LuaSetParam( L) ;
LuaSetParam( L) ;
}
return 2 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateSurfBezierTria2D( lua_State* L)
{
// 2, 3 o 4 parametri : ParentId, nId [, nTextHeight] [, bShowTrim]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
int nSurfBzId ;
LuaCheckParam( L, 2, nSurfBzId)
int nTextHeight = 50 ;
bool bShowTrim = false ;
if ( LuaGetParam( L, 3, nTextHeight))
LuaGetParam( L, 4, bShowTrim) ;
else
LuaGetParam( L, 3, bShowTrim) ;
LuaClearStack( L) ;
// creo la superficie
int nCount = 0 ;
int nId = ExeCreateSurfBezierTria2D( nParentId, nSurfBzId, nTextHeight, bShowTrim, &nCount) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL) {
LuaSetParam( L, nId) ;
LuaSetParam( L, nCount) ;
}
else {
LuaSetParam( L) ;
LuaSetParam( L) ;
}
return 2 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateBezierSphere( lua_State* L)
{
// 3 o 4 parametri : ParentId, ptCenter, dRad [, nRefType]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
Point3d ptCenter ;
LuaCheckParam( L, 2, ptCenter)
double dRad ;
LuaCheckParam( L, 3, dRad)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 4, nRefType) ;
// creo la superficie
int nCount = 0 ;
int nId = ExeCreateBezierSphere( nParentId, ptCenter, dRad, nRefType) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL) {
LuaSetParam( L, nId) ;
LuaSetParam( L, nCount) ;
}
else {
LuaSetParam( L) ;
LuaSetParam( L) ;
}
return 2 ;
}
//-------------------------------------------------------------------------------
bool
LuaInstallGdbCreateSurf( LuaMgr& luaMgr)
@@ -835,6 +1009,8 @@ LuaInstallGdbCreateSurf( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmCylinder", LuaCreateSurfTmCylinder) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmCone", LuaCreateSurfTmCone) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmSphere", LuaCreateSurfTmSphere) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmTriangle", LuaCreateSurfTmTriangle) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmRectangle", LuaCreateSurfTmRectangle) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmByFlatContour", LuaCreateSurfTmByFlatContour) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmByRegion", LuaCreateSurfTmByRegion) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmByExtrusion", LuaCreateSurfTmByExtrusion) ;
@@ -843,6 +1019,7 @@ LuaInstallGdbCreateSurf( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmByScrewing", LuaCreateSurfTmByScrewing) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmRectSwept", LuaCreateSurfTmRectSwept) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmSwept", LuaCreateSurfTmSwept) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmTransSwept", LuaCreateSurfTmTransSwept) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmRuled", LuaCreateSurfTmRuled) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmByTriangles", LuaCreateSurfTmByTriangles) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmBySewing", LuaCreateSurfTmBySewing) ;
@@ -850,5 +1027,8 @@ LuaInstallGdbCreateSurf( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmByVolZmap", LuaCreateSurfTmByVolZmap) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfBezier", LuaCreateSurfBezier) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfBezierRat", LuaCreateSurfBezierRational) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfBezierLeaves", LuaCreateSurfBezierLeaves) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfBezierTria2D", LuaCreateSurfBezierTria2D) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCreateBezierSphere", LuaCreateBezierSphere) ;
return bOk ;
}
LUA_GdbGetPocketing.cpp
+90
View File
@@ -0,0 +1,90 @@
//----------------------------------------------------------------------------
// EgalTech 2023-2023
//----------------------------------------------------------------------------
// File : LUA_GdbGetPocketing.cpp Data : 28.11.23 Versione : 2.5k6
// Contenuto : Funzioni di creazione percorsi di svuotatura o infill per LUA.
//
//
//
// Modifiche : 29.11.23 RE Creazione modulo.
//
//
//----------------------------------------------------------------------------
//--------------------------- Include ----------------------------------------
#include "stdafx.h"
#include "LUA.h"
#include "/EgtDev/Include/EXeExecutor.h"
using namespace std ;
//----------------------------------------------------------------------------
static int
LuaPocketing( lua_State* L) {
// 7 parametri : nId, dRad, dStep, dAngle, nType, bSmooth, nDestGrpId
int nId ;
LuaCheckParam( L, 1, nId) ;
double dRad ;
LuaCheckParam( L, 2, dRad) ;
double dStep ;
LuaCheckParam( L, 3, dStep) ;
double dAngle ;
LuaCheckParam( L, 4, dAngle) ;
int nType ;
LuaCheckParam( L, 5, nType) ;
bool bSmooth ;
LuaCheckParam( L, 6, bSmooth) ;
int nDestGrpId ;
LuaCheckParam( L, 7, nDestGrpId) ;
LuaClearStack( L) ;
// calcolo delle curve elementari di svuotatura
int nFirstId = GDB_ID_NULL ;
int nCrvCount = 0 ;
bool bOk = ExePocketing( nId, dRad, dStep, dAngle, nType, bSmooth, nDestGrpId, nFirstId, nCrvCount) ;
if ( ! bOk)
LuaSetParam( L) ;
else
LuaSetParam( L, nFirstId) ;
LuaSetParam( L, nCrvCount) ;
return 2 ;
}
//----------------------------------------------------------------------------
static int
LuaSurfFrGetZigZagInfill( lua_State* L)
{
// 6 parametri : nId, nDestGrpId, dSideStep, dAng, bSmooth, bRemoveOverlapLink
int nId ;
LuaCheckParam( L, 1, nId)
int nDestGrpId ;
LuaCheckParam( L, 2, nDestGrpId)
double dStep ;
LuaCheckParam( L, 3, dStep)
double dAng ;
LuaCheckParam( L, 4, dAng) ;
bool bSmooth ;
LuaCheckParam( L, 5, bSmooth) ;
bool bRemoveOverlapLink ;
LuaCheckParam( L, 6, bRemoveOverlapLink) ;
LuaClearStack( L) ;
// recupero i contorni della superficie
int nCount = 0 ;
int nNewId = ExeSurfFrGetZigZagInfill( nId, nDestGrpId, dStep, dAng, bSmooth, bRemoveOverlapLink, &nCount) ;
// restituisco il risultato
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L, nCount) ;
return 2 ;
}
//-------------------------------------------------------------------------------
bool
LuaInstallGdbGetPocketing( LuaMgr& luaMgr)
{
bool bOk = ( &luaMgr != nullptr) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtPocketing", LuaPocketing) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetSurfFrZigZagInfill", LuaSurfFrGetZigZagInfill) ;
return bOk ;
}
LUA_GdbGetSurf.cpp
+89 -35
View File
@@ -237,37 +237,6 @@ LuaSurfFrRotateSimpleNoCollision( lua_State* L)
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaSurfFrGetZigZagInfill( lua_State* L)
{
// 6 parametri : nId, nDestGrpId, dSideStep, dAng, bAllowStepCorrection, bInvert
int nId ;
LuaCheckParam( L, 1, nId)
int nDestGrpId ;
LuaCheckParam( L, 2, nDestGrpId)
double dStep ;
LuaCheckParam( L, 3, dStep)
double dAng ;
LuaCheckParam( L, 4, dAng) ;
bool bStepCorrection ;
LuaCheckParam( L, 5, bStepCorrection)
bool bInvert ;
LuaCheckParam( L, 6, bInvert)
LuaClearStack( L) ;
// recupero i contorni della superficie
int nCount = 0 ;
int nNewId = ExeSurfFrGetZigZagInfill( nId, nDestGrpId, dStep, dAng, bStepCorrection, bInvert, &nCount) ;
// restituisco il risultato
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L, nCount) ;
return 2 ;
}
//----------------------------------------------------------------------------
static int
LuaSurfTmVertexCount( lua_State* L)
@@ -625,6 +594,58 @@ LuaSurfTmFacetMinAreaRectangle( lua_State* L)
}
}
//----------------------------------------------------------------------------
static int
LuaSurfTmFacetElevationInBBox( lua_State* L)
{
// 3 o 4 o 5 parametri : Id, nFacet, b3Box [, bAcceptOutFacet] [, nRefId]
int nId ;
LuaCheckParam( L, 1, nId)
int nFacet ;
LuaCheckParam( L, 2, nFacet)
BBox3d b3Box ;
LuaCheckParam( L, 3, b3Box)
bool bAcceptOutFacet = false ;
int nRefId = nId ;
if ( ! LuaGetParam( L, 4, nRefId)) {
LuaGetParam( L, 4, bAcceptOutFacet) ;
LuaGetParam( L, 5, nRefId) ;
}
LuaClearStack( L) ;
// calcolo elevazione
double dElev ;
bool bOk = ExeSurfTmFacetElevationInBBox( nId, nFacet, b3Box, bAcceptOutFacet, nRefId, dElev) ;
if ( bOk)
LuaSetParam( L, dElev) ;
else
LuaSetParam( L) ;
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaSurfTmFacetElevationInClosedSurfTm( lua_State* L)
{
// 3 o 4 parametri : nFacetStmId, nFacet, nClosedStmId [, bAcceptOutFacet]
int nFacetStmId ;
LuaCheckParam( L, 1, nFacetStmId)
int nFacet ;
LuaCheckParam( L, 2, nFacet)
int nClosedStmId ;
LuaCheckParam( L, 3, nClosedStmId)
bool bAcceptOutFacet = false ;
LuaGetParam( L, 4, bAcceptOutFacet) ;
LuaClearStack( L) ;
// calcolo elevazione
double dElev ;
bool bOk = ExeSurfTmFacetElevationInClosedSurfTm( nFacetStmId, nFacet, nClosedStmId, bAcceptOutFacet, dElev) ;
if ( bOk)
LuaSetParam( L, dElev) ;
else
LuaSetParam( L) ;
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaSurfTmFacetOppositeSide( lua_State* L)
@@ -723,7 +744,7 @@ LuaExtractSurfTmLoops( lua_State* L)
static int
LuaGetSurfTmSilhouette( lua_State* L)
{
// 4 o 5 parametri : nId, vtDir, dToler, nDestGrpId [, nRefType]
// 4 o 5 o 6 parametri : nId, vtDir, dToler, nDestGrpId [, nRefType [, bAllTria]]
int nId ;
LuaCheckParam( L, 1, nId)
Vector3d vtDir ;
@@ -733,11 +754,15 @@ LuaGetSurfTmSilhouette( lua_State* L)
int nDestGrpId ;
LuaCheckParam( L, 4, nDestGrpId)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
bool bAllTria = false ;
if ( LuaGetParam( L, 5, nRefType))
LuaGetParam( L, 6, bAllTria) ;
else
LuaGetParam( L, 5, bAllTria) ;
LuaClearStack( L) ;
// recupero i contorni della superficie
int nCount = 0 ;
int nNewId = ExeGetSurfTmSilhouette( nId, vtDir, dToler, nDestGrpId, nRefType, &nCount) ;
int nNewId = ExeGetSurfTmSilhouette( nId, vtDir, dToler, nDestGrpId, nRefType, &nCount, bAllTria) ;
// restituisco il risultato
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
@@ -793,6 +818,33 @@ LuaCopySurfTmFacet( lua_State* L)
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaSurfTmGetEdges( lua_State* L)
{
// 2 o 3 parametri : nId, nDestGrpId [, bSmoothAng]
int nId ;
LuaCheckParam( L, 1, nId)
int nDestGrpId ;
LuaCheckParam( L, 2, nDestGrpId)
bool bSmoothAng = true ;
LuaGetParam( L, 3, bSmoothAng) ;
LuaClearStack( L) ;
// calcolo gli spigoli della superficie
int nCount ;
int nFirstId = ExeSurfTmGetEdges( nId, nDestGrpId, bSmoothAng, &nCount) ;
// restituisco il risultato
if ( nFirstId != GDB_ID_NULL || nCount != -1) {
LuaSetParam( L, nFirstId) ;
LuaSetParam( L, nCount) ;
}
else {
LuaSetParam( L) ;
LuaSetParam( L) ;
}
return 2 ;
}
//----------------------------------------------------------------------------
static int
LuaSurfBezierGetPoint( lua_State* L)
@@ -1044,7 +1096,6 @@ LuaInstallGdbGetSurf( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtExtractSurfFrChunkLoops", LuaExtractSurfFrChunkLoops) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfFrMoveSimpleNoCollision", LuaSurfFrMoveSimpleNoCollision) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfFrRotateSimpleNoCollision", LuaSurfFrRotateSimpleNoCollision) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetSurfFrZigZagInfill", LuaSurfFrGetZigZagInfill) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmVertexCount", LuaSurfTmVertexCount) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmFacetCount", LuaSurfTmFacetCount) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmPartCount", LuaSurfTmPartCount) ;
@@ -1061,12 +1112,15 @@ LuaInstallGdbGetSurf( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmFacetCenter", LuaSurfTmFacetCenter) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmFacetNormVersor", LuaSurfTmFacetNormVersor) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmFacetMinAreaRectangle", LuaSurfTmFacetMinAreaRectangle) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmFacetElevationInBBox", LuaSurfTmFacetElevationInBBox) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmFacetElevationInClosedSurfTm", LuaSurfTmFacetElevationInClosedSurfTm) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmFacetOppositeSide", LuaSurfTmFacetOppositeSide) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmFacetsContact", LuaSurfTmFacetsContact) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtExtractSurfTmLoops", LuaExtractSurfTmLoops) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetSurfTmSilhouette", LuaGetSurfTmSilhouette) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtExtractSurfTmFacetLoops", LuaExtractSurfTmFacetLoops) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCopySurfTmFacet", LuaCopySurfTmFacet) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmGetEdges", LuaSurfTmGetEdges) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfBezierGetPoint", LuaSurfBezierGetPoint) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfBezierGetPointD1", LuaSurfBezierGetPointD1) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfBezierGetPointNrmD1", LuaSurfBezierGetPointNrmD1) ;
LUA_GdbGetVol.cpp
+2 -1
View File
@@ -211,6 +211,7 @@ LuaVolZmapGetDepth( lua_State* L)
}
return 2 ;
}
//----------------------------------------------------------------------------
static int
LuaVolZmapGetEdges( lua_State* L)
@@ -221,7 +222,7 @@ LuaVolZmapGetEdges( lua_State* L)
int nDestGrpId ;
LuaCheckParam( L, 2, nDestGrpId)
LuaClearStack( L) ;
// eseguo calcolo profondità dal punto lungo la direzione
// calcolo gli spigoli del solido
int nCount ;
int nFirstId = ExeVolZmapGetEdges( nId, nDestGrpId, &nCount) ;
// restituisco il risultato
LUA_GdbModifyCurve.cpp
+116 -5
View File
@@ -19,6 +19,7 @@
#include "/EgtDev/Include/EXeConst.h"
#include "/EgtDev/Include/EGkCurve.h"
#include "/EgtDev/Include/EGkLuaAux.h"
#include "/EgtDev/Include/EGkCalcPocketing.h"
using namespace std ;
@@ -59,17 +60,19 @@ LuaOffsetCurve( lua_State* L)
static int
LuaOffsetCurveAdv( lua_State* L)
{
// 2 o 3 parametri : Id, dDist [, nType]
// 2 o 3 o 4 parametri : Id, dDist [, nType] [, dLinTol]
int nId ;
LuaCheckParam( L, 1, nId)
double dDist ;
LuaCheckParam( L, 2, dDist)
int nType = ICurve::OFF_FILLET ;
LuaGetParam( L, 3, nType) ;
double dLinTol = 10 * EPS_SMALL ;
LuaGetParam( L, 4, dLinTol) ;
LuaClearStack( L) ;
// offset della curva
int nCount ;
int nNewId = ExeOffsetCurveAdv( nId, dDist, nType, &nCount) ;
int nNewId = ExeOffsetCurveAdv( nId, dDist, nType, &nCount, dLinTol) ;
if ( nCount >= 0) {
LuaSetParam( L, nNewId) ;
LuaSetParam( L, nCount) ;
@@ -102,16 +105,18 @@ LuaCurveMedialAxis( lua_State* L)
static int
LuaApproxCurve( lua_State* L)
{
// 2 o 3 parametri : Id, nApprType [, dLinTol]
// 2 o 3 o 4 parametri : Id, nApprType [, dLinTol [, dMaxSegmLen]]
int nId ;
LuaCheckParam( L, 1, nId)
int nApprType ;
LuaCheckParam( L, 2, nApprType)
double dLinTol = 0.01 ;
LuaGetParam( L, 3, dLinTol) ;
double dMaxSegmLen = INFINITO ;
if ( LuaGetParam( L, 3, dLinTol))
LuaGetParam( L, 4, dMaxSegmLen) ;
LuaClearStack( L) ;
// approssimazione della curva con rette
bool bOk = ExeApproxCurve( nId, nApprType, dLinTol) ;
bool bOk = ExeApproxCurve( nId, nApprType, dLinTol, dMaxSegmLen) ;
LuaSetParam( L, bOk) ;
return 1 ;
}
@@ -944,6 +949,108 @@ LuaReorderCurvesInGroup( lua_State* L)
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaProjectCurveOnSurfTm( lua_State* L)
{
// 4, 5, 6 o 7 parametri : nCurveId, nSurfTmId, vtDir, nDestGrpId [, dLinTol [, dMaxSegmLen] [, nRefType]]
int nCurveId ;
LuaCheckParam( L, 1, nCurveId)
int nSurfTmId ;
LuaCheckParam( L, 2, nSurfTmId)
Vector3d vtDir ;
LuaCheckParam( L, 3, vtDir)
int nDestGrpId ;
LuaCheckParam( L, 4, nDestGrpId)
double dLinTol = 0.01 ;
double dMaxSegmLen = INFINITO ;
int nRefType = RTY_DEFAULT ;
if ( LuaGetParam( L, 5, dLinTol) &&
LuaGetParam( L, 6, dMaxSegmLen))
LuaGetParam( L, 7, nRefType) ;
LuaClearStack( L) ;
// proietto la curva su una trimesh secondo la direzione data
bool bOk = ExeProjectCurveOnSurfTm( nCurveId, nSurfTmId, vtDir, nDestGrpId, dLinTol, dMaxSegmLen, nRefType) ;
LuaSetParam( L, bOk) ;
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaCurveGetVoronoi( lua_State* L)
{
// 2 o 3 parametri : Id, nDestGrpId [, nBound]
int nId ;
LuaCheckParam( L, 1, nId)
int nDestGrpId ;
LuaCheckParam( L, 2, nDestGrpId)
int nBound = 3 ; // VORONOI_STD_BOUND
LuaGetParam( L, 3, nBound) ;
LuaClearStack( L) ;
// eseguo
int nCount = 0 ;
int nNewId = ExeCurveGetVoronoi( nId, nDestGrpId, nBound, &nCount) ;
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L, nCount) ;
return 2 ;
}
//----------------------------------------------------------------------------
static int
LuaCurveMedialAxisAdv( lua_State* L)
{
// 2 o 3 parametri : Id, nDestGrpId [, nSide]
int nId ;
LuaCheckParam( L, 1, nId)
int nDestGrpId ;
LuaCheckParam( L, 2, nDestGrpId)
int nSide = 1 ; // WMAT_LEFT
LuaGetParam( L, 3, nSide) ;
LuaClearStack( L) ;
// eseguo
int nCount = 0 ;
int nNewId = ExeCurveGetMedialAxis( nId, nDestGrpId, nSide, &nCount) ;
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L, nCount) ;
return 2 ;
}
//----------------------------------------------------------------------------
static int
LuaCurveGetFatCurve( lua_State* L)
{
// 4 o 5 parametri : Id, nDestGrpId, dRad, bSquare [, bSquareMids]
int nId ;
LuaCheckParam( L, 1, nId)
int nDestGrpId ;
LuaCheckParam( L, 2, nDestGrpId)
double dRad ;
LuaCheckParam( L, 3, dRad)
bool bSquareEnds ;
LuaCheckParam( L, 4, bSquareEnds)
bool bSquareMids = bSquareEnds ;
LuaGetParam( L, 5, bSquareMids) ;
LuaClearStack( L) ;
// eseguo
int nCount = 0 ;
int nNewId = ExeCurveGetFatCurve( nId, nDestGrpId, dRad, bSquareEnds, bSquareMids, &nCount) ;
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L, nCount) ;
return 2 ;
}
//-------------------------------------------------------------------------------
bool
LuaInstallGdbModifyCurve( LuaMgr& luaMgr)
@@ -999,5 +1106,9 @@ LuaInstallGdbModifyCurve( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtRemoveCurveCompoUndercutOnY", LuaRemoveCurveCompoUndercutOnY) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtChainCurvesInGroup", LuaChainCurvesInGroup) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtReorderCurvesInGroup", LuaReorderCurvesInGroup) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtProjectCurveOnSurfTm", LuaProjectCurveOnSurfTm) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCurveGetVoronoi", LuaCurveGetVoronoi) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCurveMedialAxisAdv", LuaCurveMedialAxisAdv) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCurveGetFatCurve", LuaCurveGetFatCurve) ;
return bOk ;
}
LUA_GdbModifySurf.cpp
+158 -16
View File
@@ -23,7 +23,6 @@
using namespace std ;
//----------------------------------------------------------------------------
static int
LuaInvertSurf( lua_State* L)
@@ -141,6 +140,29 @@ LuaSurfFrOffset( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaSurfFrOffsetAdv( lua_State* L)
{
// 3 parametri : Id, dDist, nType
int nId ;
LuaCheckParam( L, 1, nId)
double dDist ;
LuaCheckParam( L, 2, dDist)
int nType = ICurve::OFF_FILLET ;
LuaGetParam( L, 3, nType) ;
LuaClearStack( L) ;
// eseguo l'offset della regione
int nNewId = GDB_ID_NULL ;
bool bOk = ExeSurfFrOffsetAdv( nId, dDist, nType, nNewId) ;
if ( bOk)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaSurfTmMoveVertex( lua_State* L)
@@ -165,6 +187,30 @@ LuaSurfTmMoveVertex( lua_State* L)
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaSurfTmMoveFacet( lua_State* L)
{
// 3 o 4 o 5 parametri : nId, nFacet, vtMove [, nRefId] [, bUpdate]
int nId ;
LuaCheckParam( L, 1, nId)
int nFacet ;
LuaCheckParam( L, 2, nFacet)
Vector3d vtMove ;
LuaCheckParam( L, 3, vtMove)
int nRefType = RTY_DEFAULT ;
bool bUpdate = true ;
if ( LuaGetParam( L, 4, nRefType))
LuaGetParam( L, 5, bUpdate) ;
else
LuaGetParam( L, 4, bUpdate) ;
LuaClearStack( L) ;
// sposto la faccia di indice dato della trimesh
bool bOk = ExeSurfTmMoveFacet( nId, nFacet, vtMove, nRefType, bUpdate) ;
LuaSetParam( L, bOk) ;
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaSurfTmToTriangles( lua_State* L)
@@ -260,6 +306,29 @@ LuaCutSurfTmPlane( lua_State* L)
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaCutSurfBzPlane( lua_State* L)
{
// 4 o 5 parametri : Id, ptOn, vtN, bSaveOnEq [, nRefType]
int nId ;
LuaCheckParam( L, 1, nId)
Point3d ptOn ;
LuaCheckParam( L, 2, ptOn)
Vector3d vtN ;
LuaCheckParam( L, 3, vtN)
bool bSaveOnEq ;
LuaGetParam( L, 4, bSaveOnEq) ;
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
LuaClearStack( L) ;
// taglio la superficie con ilpiano
bool bOk = ExeCutSurfBzPlane( nId, ptOn, vtN, bSaveOnEq, nRefType) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaCutSurfTmClosedCurve( lua_State* L)
@@ -333,20 +402,6 @@ LuaSurfTmIntersect( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaSurfTmResetTwoColors( lua_State* L)
{
// 1 parametro : Id
int nId ;
LuaCheckParam( L, 1, nId)
LuaClearStack( L) ;
// eseguo reset TFlag per annullare due colori
bool bOk = ExeSurfTmResetTwoColors( nId) ;
LuaSetParam( L, bOk) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaSurfTmSplit( lua_State* L)
@@ -388,6 +443,87 @@ LuaSurfTmCut( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaSurfTmSubtractProjectedFacesOnFace( lua_State* L)
{
// 3 o 4 o 5 parametri : nSurfId, nFaceInd, nDestGrpId [, vSurfsId] [, bOCFlag]
int nSurfId ;
LuaCheckParam( L, 1, nSurfId) ;
int nFaceInd ;
LuaCheckParam( L, 2, nFaceInd) ;
int nDestGrpId ;
LuaCheckParam( L, 3, nDestGrpId) ;
INTVECTOR vSurfsId ;
bool bOCFlag = true ;
if ( LuaGetParam( L, 4, vSurfsId))
LuaGetParam( L, 5, bOCFlag) ;
else
LuaGetParam( L, 4, bOCFlag) ;
LuaClearStack( L) ;
// sottraggo alla faccia scelta la proiezione delle altre TriMesh
int nNewId = GDB_ID_NULL;
bool bExistProjection = false ;
int nNewFaceNbr = 0 ;
bool bOk = ExeSurfTmSubtractProjectedFacesOnFace( nSurfId, nFaceInd, nDestGrpId, vSurfsId,
bOCFlag, bExistProjection, nNewId, nNewFaceNbr) ;
LuaSetParam( L, bOk) ;
LuaSetParam( L, bExistProjection) ;
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L, nNewFaceNbr) ;
return 4 ;
}
//-------------------------------------------------------------------------------
static int
LuaSurfTmResetTwoColors( lua_State* L)
{
// 1 parametro : Id
int nId ;
LuaCheckParam( L, 1, nId)
LuaClearStack( L) ;
// eseguo reset TFlag per annullare due colori
bool bOk = ExeSurfTmResetTwoColors( nId) ;
LuaSetParam( L, bOk) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaSurfTmSetShowEdges( lua_State* L)
{
// 2 parametri : Id, bShow
int nId ;
LuaCheckParam( L, 1, nId)
bool bShow ;
LuaCheckParam( L, 2, bShow) ;
LuaClearStack( L) ;
// imposto flag visualizzazione spigoli vivi
bool bOk = ExeSurfTmSetShowEdges( nId, bShow) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaSurfBzTrim( lua_State* L)
{
// 2 parametri : nId, nCutterId
int nId ;
LuaCheckParam( L, 1, nId)
int nCutterId ;
LuaCheckParam( L, 2, nCutterId)
LuaClearStack( L) ;
// taglio la prima superficie in base alla seconda
bool bOk = ExeSurfBzTrim( nId, nCutterId) ;
LuaSetParam( L, bOk) ;
return 1 ;
}
//-------------------------------------------------------------------------------
bool
LuaInstallGdbModifySurf( LuaMgr& luaMgr)
@@ -400,18 +536,24 @@ LuaInstallGdbModifySurf( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfFrSubtract", LuaSurfFrSubtract) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfFrIntersect", LuaSurfFrIntersect) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfFrOffset", LuaSurfFrOffset) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfFrOffsetAdv", LuaSurfFrOffsetAdv) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmMoveVertex", LuaSurfTmMoveVertex) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmMoveFacet", LuaSurfTmMoveFacet) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmToTriangles", LuaSurfTmToTriangles) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmRemoveFacet", LuaSurfTmRemoveFacet) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmSwapFacets", LuaSurfTmSwapFacets) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmRemovePart", LuaSurfTmRemovePart) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCutSurfTmPlane", LuaCutSurfTmPlane) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCutSurfBzPlane", LuaCutSurfBzPlane) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCutSurfTmClosedCurve", LuaCutSurfTmClosedCurve) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmAdd", LuaSurfTmAdd) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmSubtract", LuaSurfTmSubtract) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmIntersect", LuaSurfTmIntersect) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmResetTwoColors", LuaSurfTmResetTwoColors) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmSplit", LuaSurfTmSplit) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmCut", LuaSurfTmCut) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmSubtractProjectedFacesOnFace", LuaSurfTmSubtractProjectedFacesOnFace) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmResetTwoColors", LuaSurfTmResetTwoColors) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmSetShowEdges", LuaSurfTmSetShowEdges) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfBzTrim", LuaSurfBzTrim) ;
return bOk ;
}
LUA_GdbModifyVol.cpp
+18
View File
@@ -56,6 +56,23 @@ LuaVolZmapChangeResolution( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaVolZmapSetShowEdges( lua_State* L)
{
// 2 parametri : Id, bShow
int nId ;
LuaCheckParam( L, 1, nId)
bool bShow ;
LuaCheckParam( L, 2, bShow) ;
LuaClearStack( L) ;
// imposto flag visualizzazione spigoli vivi
bool bOk = ExeVolZmapSetShowEdges( nId, bShow) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaRemoveVolZmapPart( lua_State* L)
@@ -350,6 +367,7 @@ LuaInstallGdbModifyVol( LuaMgr& luaMgr)
bool bOk = ( &luaMgr != nullptr) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtExplodeVolume", LuaExplodeVolume) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtVolZmapChangeResolution", LuaVolZmapChangeResolution) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtVolZmapSetShowEdges", LuaVolZmapSetShowEdges) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtRemoveVolZmapPart", LuaRemoveVolZmapPart) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtVolZmapSetStdTool", LuaVolZmapSetStdTool) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtVolZmapSetAdvTool", LuaVolZmapSetAdvTool) ;
LUA_GdbObjAttribs.cpp
+3 -13
View File
@@ -519,10 +519,8 @@ LuaSetInfo( lua_State* L)
} break ;
case LUA_TTABLE :
{ Frame3d frVal ;
BBox3d b3Val ;
Vector3d vtVal ; // va bene anche per Point3d
INTVECTOR vnVal ;
DBLVECTOR vdVal ;
BBox3d b3Val ;
DBLVECTOR vdVal ; // va bene anche per Vector3d, Point3d, vnVal
STRVECTOR vsVal ;
if ( LuaGetParam( L, 3, frVal)) {
LuaClearStack( L) ;
@@ -531,15 +529,7 @@ LuaSetInfo( lua_State* L)
else if ( LuaGetParam( L, 3, b3Val)) {
LuaClearStack( L) ;
bOk = ExeSetInfo( nId, sKey, b3Val) ;
}
else if ( LuaGetParam( L, 3, vtVal)) {
LuaClearStack( L) ;
bOk = ExeSetInfo( nId, sKey, vtVal) ;
}
else if ( LuaGetParam( L, 3, vnVal)) {
LuaClearStack( L) ;
bOk = ExeSetInfo( nId, sKey, vnVal) ;
}
}
else if ( LuaGetParam( L, 3, vdVal)) {
LuaClearStack( L) ;
bOk = ExeSetInfo( nId, sKey, vdVal) ;
LUA_GdbPartLayers.cpp
+54
View File
@@ -277,6 +277,21 @@ LuaGetPrevLayer( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaIsGhostPart( lua_State* L)
{
// 1 parametro : nGhostId
int nGhostId ;
LuaCheckParam( L, 1, nGhostId)
LuaClearStack( L) ;
// verifico sia un segnaposto di pezzo messo in grezzo
bool bOk = ExeIsGhostPart( nGhostId) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetFirstGhostPart( lua_State* L)
@@ -454,6 +469,42 @@ LuaDuploList( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaDuploInRawCount( lua_State* L)
{
// 1 parametro : nSouId
int nSouId ;
LuaCheckParam( L, 1, nSouId)
LuaClearStack( L) ;
// recupero il numero di duplicati che sono riferiti da grezzi nei vari gruppi di lavoro del progetto
int nCount ;
bool bOk = ExeDuploInRawCount( nSouId, nCount) ;
// restituisco il risultato
if ( bOk)
LuaSetParam( L, nCount) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaDuploWithoutRawList( lua_State* L)
{
// nessun parametro
LuaClearStack( L) ;
// recupero l'elenco dei duplicati
INTVECTOR vnDup ;
bool bOk = ExeDuploWithoutRawList( vnDup) ;
// restituisco il risultato
if ( bOk)
LuaSetParam( L, vnDup) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaDuploSetModified( lua_State* L)
@@ -605,6 +656,7 @@ LuaInstallGdbPartLayer( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtGetNextLayer", LuaGetNextLayer) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetLastLayer", LuaGetLastLayer) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetPrevLayer", LuaGetPrevLayer) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtIsGhostPart", LuaIsGhostPart) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetFirstGhostPart", LuaGetFirstGhostPart) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetNextGhostPart", LuaGetNextGhostPart) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtEraseEmptyParts", LuaEraseEmptyParts) ;
@@ -616,6 +668,8 @@ LuaInstallGdbPartLayer( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtDuploNew", LuaDuploNew) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtDuploCount", LuaDuploCount) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtDuploList", LuaDuploList) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtDuploInRawCount", LuaDuploInRawCount) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtDuploWithoutRawList", LuaDuploWithoutRawList) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtDuploSetModified", LuaDuploSetModified) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtDuploGetModified", LuaDuploGetModified) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtDuploSetLocked", LuaDuploSetLocked) ;
LUA_General.cpp
+28 -7
View File
@@ -178,11 +178,11 @@ LuaSplitStringPlus( lua_State* L)
// 2 parametri : sVal, sHea
string sVal ;
string sHea ;
bool bFound = LuaGetParam( L, 1, sVal) ;
LuaCheckParam( L, 2, sHea)
bool bOk = LuaGetParam( L, 1, sVal) &&
LuaGetParam( L, 2, sHea) ;
LuaClearStack( L) ;
// se ricevuta stringa, la divido in parti conservandone le intestazioni
if ( bFound) {
// se ricevute stringhe, divido la prima in parti con intestazioni della seconda (che conservo)
if ( bOk) {
STRVECTOR vsVal ;
TokenizePlus( sVal, sHea, vsVal) ;
// ritorno il risultato
@@ -194,6 +194,25 @@ LuaSplitStringPlus( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaReplaceString( lua_State* L)
{
// 3 parametri : sVal, sOld, sNew
string sVal ;
LuaCheckParam( L, 1, sVal)
string sOld ;
LuaCheckParam( L, 2, sOld)
string sNew ;
LuaCheckParam( L, 3, sNew)
LuaClearStack( L) ;
// eseguo sostituzione nella stringa della sequenza indicata dal secondo parametro con quella del terzo
int nRes = ReplaceString( sVal, sOld, sNew) ;
// restituisco il risultato
LuaSetParam( L, sVal) ;
LuaSetParam( L, nRes) ;
return 2 ;
}
//-------------------------------------------------------------------------------
static int
LuaSetVal( lua_State* L)
@@ -1015,9 +1034,10 @@ LuaCloseExe( lua_State* L)
LuaGetParam( L, 1, nExitCode) ;
LuaClearStack( L) ;
// eseguo chiusura forzata
bool bOk = ( TerminateProcess( GetCurrentProcess(), abs( nExitCode)) != FALSE) ;
// restituisco il risultato (in realtà il programma si è già concluso)
LuaSetParam( L, bOk) ;
if ( ExeOnTerminateProcess( nExitCode))
TerminateProcess( GetCurrentProcess(), abs( nExitCode)) ;
// restituisco il risultato (se arrivo qui vuol dire che non è consnetito terminare l'esecuzione)
LuaSetParam( L, false) ;
return 1 ;
}
@@ -1245,6 +1265,7 @@ LuaInstallGeneral( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtNumToString", LuaNumToString) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSplitString", LuaSplitString) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSplitStringPlus", LuaSplitStringPlus) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtReplaceString", LuaReplaceString) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSetVal", LuaSetVal) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetVal", LuaGetVal) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetUUID", LuaGetUUID) ;
LUA_GeoInters.cpp
+228 -129
View File
@@ -20,6 +20,41 @@
using namespace std ;
//----------------------------------------------------------------------------
static int
LuaLineCurveInters( lua_State* L)
{
// 3 o 4 parametri : ptP, vtDir, Id, [, nRefId]
Point3d ptP ;
LuaCheckParam( L, 1, ptP)
Vector3d vtDir ;
LuaCheckParam( L, 2, vtDir)
int nId ;
LuaCheckParam( L, 3, nId)
int nRefType = nId ;
LuaGetParam( L, 4, nRefType) ;
LuaClearStack( L) ;
// recupero i punti di intersezione tra linea e curva
INTDBLVECTOR vInters ;
if ( ExeLineCurveInters( ptP, vtDir, nId, nRefType, vInters)) {
LuaSetParam( L, true) ;
INTVECTOR vType( vInters.size()) ;
DBLVECTOR vPar( vInters.size()) ;
for ( size_t i = 0 ; i < vInters.size() ; ++ i) {
vType[i] = vInters[i].first ;
vPar[i] = vInters[i].second ;
}
LuaSetParam( L, vType) ;
LuaSetParam( L, vPar) ;
}
else {
LuaSetParam( L) ;
LuaSetParam( L) ;
LuaSetParam( L) ;
}
return 3 ;
}
//----------------------------------------------------------------------------
static int
LuaLineBoxInters( lua_State* L)
@@ -53,38 +88,6 @@ LuaLineBoxInters( lua_State* L)
return 3 ;
}
//----------------------------------------------------------------------------
static int
LuaPlaneBoxInters( lua_State* L)
{
// 4 o 5 parametri : ptOn, vtN, b3Box, nDestGrpId [, nRefType]
Point3d ptOn ;
LuaCheckParam( L, 1, ptOn)
Vector3d vtN ;
LuaCheckParam( L, 2, vtN)
BBox3d b3Box ;
LuaCheckParam( L, 3, b3Box)
int nDestGrpId ;
LuaCheckParam( L, 4, nDestGrpId) ;
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
LuaClearStack( L) ;
// eseguo l'intersezione
int nPntCount = 0 ;
int nCrvCount = 0 ;
int nSrfCount = 0 ;
int nNewId = ExePlaneBoxInters( ptOn, vtN, b3Box, nDestGrpId, nRefType, &nPntCount, &nCrvCount, &nSrfCount) ;
// restituisco il risultato
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L, nPntCount) ;
LuaSetParam( L, nCrvCount) ;
LuaSetParam( L, nSrfCount) ;
return 4 ;
}
//----------------------------------------------------------------------------
static int
LuaLineSurfTmInters( lua_State* L)
@@ -120,6 +123,136 @@ LuaLineSurfTmInters( lua_State* L)
return 3 ;
}
//----------------------------------------------------------------------------
static int
LuaLineSurfBzInters( lua_State* L)
{
// 3 o 4 parametri : ptP, vtDir, Id, [, nRefId]
Point3d ptP ;
LuaCheckParam( L, 1, ptP)
Vector3d vtDir ;
LuaCheckParam( L, 2, vtDir)
int nId ;
LuaCheckParam( L, 3, nId)
int nRefType = nId ;
LuaGetParam( L, 4, nRefType) ;
LuaClearStack( L) ;
// recupero i punti di intersezione tra linea e superficie trimesh
INTDBLVECTOR vInters ;
if ( ExeLineSurfBzInters( ptP, vtDir, nId, nRefType, vInters)) {
LuaSetParam( L, true) ;
INTVECTOR vType( vInters.size()) ;
DBLVECTOR vPar( vInters.size()) ;
for ( size_t i = 0 ; i < vInters.size() ; ++ i) {
vType[i] = vInters[i].first ;
vPar[i] = vInters[i].second ;
}
LuaSetParam( L, vType) ;
LuaSetParam( L, vPar) ;
}
else {
LuaSetParam( L) ;
LuaSetParam( L) ;
LuaSetParam( L) ;
}
return 3 ;
}
//----------------------------------------------------------------------------
static int
LuaLineVolZmapInters( lua_State* L)
{
// 3 o 4 parametri : ptP, vtDir, Id, [, nRefId]
Point3d ptP ;
LuaCheckParam( L, 1, ptP)
Vector3d vtDir ;
LuaCheckParam( L, 2, vtDir)
int nId ;
LuaCheckParam( L, 3, nId)
int nRefType = nId ;
LuaGetParam( L, 4, nRefType) ;
LuaClearStack( L) ;
// eseguo calcolo intersezione
INTDBLVECTOR vInters ;
if ( ExeLineVolZmapInters( ptP, vtDir, nId, nRefType, vInters)) {
LuaSetParam( L, true) ;
INTVECTOR vType( vInters.size()) ;
DBLVECTOR vPar( vInters.size()) ;
for ( size_t i = 0 ; i < vInters.size() ; ++ i) {
vType[i] = vInters[i].first ;
vPar[i] = vInters[i].second ;
}
LuaSetParam( L, vType) ;
LuaSetParam( L, vPar) ;
}
else {
LuaSetParam( L) ;
LuaSetParam( L) ;
LuaSetParam( L) ;
}
return 3 ;
}
//----------------------------------------------------------------------------
static int
LuaPlaneCurveInters( lua_State* L)
{
// 4 o 5 parametri : ptOn, vtN, nId, nDestGrpId [, nRefType]
Point3d ptOn ;
LuaCheckParam( L, 1, ptOn)
Vector3d vtN ;
LuaCheckParam( L, 2, vtN)
int nId ;
LuaCheckParam( L, 3, nId)
int nDestGrpId ;
LuaCheckParam( L, 4, nDestGrpId) ;
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
LuaClearStack( L) ;
// eseguo l'intersezione
int nCount = 0 ;
int nNewId = ExePlaneCurveInters( ptOn, vtN, nId, nDestGrpId, nRefType, &nCount) ;
// restituisco il risultato
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L, nCount) ;
return 2 ;
}
//----------------------------------------------------------------------------
static int
LuaPlaneBoxInters( lua_State* L)
{
// 4 o 5 parametri : ptOn, vtN, b3Box, nDestGrpId [, nRefType]
Point3d ptOn ;
LuaCheckParam( L, 1, ptOn)
Vector3d vtN ;
LuaCheckParam( L, 2, vtN)
BBox3d b3Box ;
LuaCheckParam( L, 3, b3Box)
int nDestGrpId ;
LuaCheckParam( L, 4, nDestGrpId) ;
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
LuaClearStack( L) ;
// eseguo l'intersezione
int nPntCount = 0 ;
int nCrvCount = 0 ;
int nSrfCount = 0 ;
int nNewId = ExePlaneBoxInters( ptOn, vtN, b3Box, nDestGrpId, nRefType, &nPntCount, &nCrvCount, &nSrfCount) ;
// restituisco il risultato
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L, nPntCount) ;
LuaSetParam( L, nCrvCount) ;
LuaSetParam( L, nSrfCount) ;
return 4 ;
}
//----------------------------------------------------------------------------
static int
LuaPlaneSurfTmInters( lua_State* L)
@@ -188,59 +321,32 @@ LuaParPlanesSurfTmInters( lua_State* L)
//----------------------------------------------------------------------------
static int
LuaSurfTmSurfTmInters( lua_State* L)
LuaPlaneVolZmapInters( lua_State* L)
{
// 3 o 4 parametri : Id1, nId2, nDestGrpId [, dToler]
int nId1 ;
LuaCheckParam( L, 1, nId1)
int nId2 ;
LuaCheckParam( L, 2, nId2)
int nDestGrpId ;
LuaCheckParam( L, 3, nDestGrpId) ;
double dToler = 20 * EPS_SMALL ;
LuaGetParam( L, 4, dToler) ;
LuaClearStack( L) ;
// eseguo l'intersezione
int nPntCount = 0 ;
int nCrvCount = 0 ;
int nSrfCount = 0 ;
int nNewId = ExeSurfTmSurfTmInters( nId1, nId2, nDestGrpId, dToler, &nPntCount, &nCrvCount, &nSrfCount) ;
// restituisco il risultato
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L, nPntCount) ;
LuaSetParam( L, nCrvCount) ;
LuaSetParam( L, nSrfCount) ;
return 4 ;
}
//----------------------------------------------------------------------------
static int
LuaPlaneCurveInters( lua_State* L)
{
// 4 o 5 parametri : ptOn, vtN, nId, nDestGrpId [, nRefType]
Point3d ptOn ;
LuaCheckParam( L, 1, ptOn)
// 4 o 5 parametri : ptP, vtN, nId, nDestGrpId [, nRefType]
Point3d ptP ;
LuaCheckParam( L, 1, ptP)
Vector3d vtN ;
LuaCheckParam( L, 2, vtN)
int nId ;
LuaCheckParam( L, 3, nId)
int nDestGrpId ;
LuaCheckParam( L, 4, nDestGrpId) ;
LuaCheckParam( L, 4, nDestGrpId)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
LuaClearStack( L) ;
// eseguo l'intersezione
int nCount = 0 ;
int nNewId = ExePlaneCurveInters( ptOn, vtN, nId, nDestGrpId, nRefType, &nCount) ;
// eseguo calcolo intersezione
int nCount ;
int nFirstId = ExePlaneVolZmapInters( ptP, vtN, nId, nDestGrpId, nRefType, &nCount) ;
// restituisco il risultato
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
if ( nFirstId != GDB_ID_NULL) {
LuaSetParam( L, nFirstId) ;
LuaSetParam( L, nCount) ;
}
else {
LuaSetParam( L) ;
LuaSetParam( L, nCount) ;
LuaSetParam( L) ;
}
return 2 ;
}
@@ -272,68 +378,58 @@ LuaCurveCurveInters( lua_State* L)
//----------------------------------------------------------------------------
static int
LuaLineVolZmapInters( lua_State* L)
LuaCurveSurfTmInters( lua_State* L)
{
// 3 o 4 parametri : ptP, vtDir, Id, [, nRefId]
Point3d ptP ;
LuaCheckParam( L, 1, ptP)
Vector3d vtDir ;
LuaCheckParam( L, 2, vtDir)
int nId ;
LuaCheckParam( L, 3, nId)
int nRefType = nId ;
LuaGetParam( L, 4, nRefType) ;
// 3 parametri : nCrvId, nStmId, nDestGrpId
int nCrvId ;
LuaCheckParam( L, 1, nCrvId)
int nStmId ;
LuaCheckParam( L, 2, nStmId)
int nDestGrpId ;
LuaCheckParam( L, 3, nDestGrpId) ;
LuaClearStack( L) ;
// eseguo calcolo intersezione
INTDBLVECTOR vInters ;
if ( ExeLineVolZmapInters( ptP, vtDir, nId, nRefType, vInters)) {
LuaSetParam( L, true) ;
INTVECTOR vType( vInters.size()) ;
DBLVECTOR vPar( vInters.size()) ;
for ( size_t i = 0 ; i < vInters.size() ; ++ i) {
vType[i] = vInters[i].first ;
vPar[i] = vInters[i].second ;
}
LuaSetParam( L, vType) ;
LuaSetParam( L, vPar) ;
}
else {
// eseguo l'intersezione
int nPntCount = 0 ;
int nCrvCount = 0 ;
int nNewId = ExeCurveSurfTmInters( nCrvId, nStmId, nDestGrpId, &nPntCount, &nCrvCount) ;
// restituisco il risultato
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L) ;
LuaSetParam( L) ;
}
LuaSetParam( L, nPntCount) ;
LuaSetParam( L, nCrvCount) ;
return 3 ;
}
//----------------------------------------------------------------------------
static int
LuaPlaneVolZmapInters( lua_State* L)
LuaSurfTmSurfTmInters( lua_State* L)
{
// 4 o 5 parametri : ptP, vtN, nId, nDestGrpId [, nRefType]
Point3d ptP ;
LuaCheckParam( L, 1, ptP)
Vector3d vtN ;
LuaCheckParam( L, 2, vtN)
int nId ;
LuaCheckParam( L, 3, nId)
// 3 o 4 parametri : Id1, nId2, nDestGrpId [, dToler]
int nId1 ;
LuaCheckParam( L, 1, nId1)
int nId2 ;
LuaCheckParam( L, 2, nId2)
int nDestGrpId ;
LuaCheckParam( L, 4, nDestGrpId)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
LuaCheckParam( L, 3, nDestGrpId) ;
double dToler = 20 * EPS_SMALL ;
LuaGetParam( L, 4, dToler) ;
LuaClearStack( L) ;
// eseguo calcolo intersezione
int nCount ;
int nFirstId = ExePlaneVolZmapInters( ptP, vtN, nId, nDestGrpId, nRefType, &nCount) ;
// eseguo l'intersezione
int nPntCount = 0 ;
int nCrvCount = 0 ;
int nSrfCount = 0 ;
int nNewId = ExeSurfTmSurfTmInters( nId1, nId2, nDestGrpId, dToler, &nPntCount, &nCrvCount, &nSrfCount) ;
// restituisco il risultato
if ( nFirstId != GDB_ID_NULL) {
LuaSetParam( L, nFirstId) ;
LuaSetParam( L, nCount) ;
}
else {
if ( nNewId != GDB_ID_NULL)
LuaSetParam( L, nNewId) ;
else
LuaSetParam( L) ;
LuaSetParam( L) ;
}
return 2 ;
LuaSetParam( L, nPntCount) ;
LuaSetParam( L, nCrvCount) ;
LuaSetParam( L, nSrfCount) ;
return 4 ;
}
//-------------------------------------------------------------------------------
@@ -341,15 +437,18 @@ bool
LuaInstallGeoInters( LuaMgr& luaMgr)
{
bool bOk = ( &luaMgr != nullptr) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtLineCurveInters", LuaLineCurveInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtLineBoxInters", LuaLineBoxInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtPlaneBoxInters", LuaPlaneBoxInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtLineSurfTmInters", LuaLineSurfTmInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtLineSurfBzInters", LuaLineSurfBzInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtLineVolZmapInters", LuaLineVolZmapInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtPlaneCurveInters", LuaPlaneCurveInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtPlaneBoxInters", LuaPlaneBoxInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtPlaneSurfTmInters", LuaPlaneSurfTmInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtParPlanesSurfTmInters", LuaParPlanesSurfTmInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmSurfTmInters", LuaSurfTmSurfTmInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtPlaneCurveInters", LuaPlaneCurveInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCurveCurveInters", LuaCurveCurveInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtLineVolZmapInters", LuaLineVolZmapInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtPlaneVolZmapInters", LuaPlaneVolZmapInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCurveCurveInters", LuaCurveCurveInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCurveSurfTmInters", LuaCurveSurfTmInters) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmSurfTmInters", LuaSurfTmSurfTmInters) ;
return bOk ;
}
}
LUA_MachMgr.cpp
+71 -8
View File
@@ -262,6 +262,24 @@ LuaRemoveMachGroup( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaChangeMachGroupName( lua_State* L)
{
// 2 parametri : identificativo del gruppo, nuovo nome
int nMGroupInd ;
LuaCheckParam( L, 1, nMGroupInd)
string sNewName ;
LuaCheckParam( L, 2, sNewName)
LuaClearStack( L) ;
// cambio il nome della macchinata
string sName ;
bool bOk = ExeChangeMachGroupName( nMGroupInd, sNewName) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetMachGroupName( lua_State* L)
@@ -1734,10 +1752,12 @@ LuaFindToolInCurrSetup( lua_State* L)
string sTool ;
LuaGetParam( L, 1, sTool) ;
LuaClearStack( L) ;
// verifico l'attrezzaggio della macchinata corrente
bool bOk = ExeFindToolInCurrSetup( sTool) ;
// verifico attrezzaggio utensile e ne recupero l'eventuale posizione
string sTcPos ;
bool bOk = ExeGetToolSetupPosInCurrSetup( sTool, sTcPos) ;
LuaSetParam( L, bOk) ;
return 1 ;
LuaSetParam( L, sTcPos) ;
return 2 ;
}
//-----------------------------------------------------------------------------
@@ -2977,14 +2997,18 @@ LuaGetClEntFlag( lua_State* L)
LuaGetParam( L, 1, nEntId) ;
LuaClearStack( L) ;
// recupero il flag
int nFlag ;
bool bOk = ExeGetClEntFlag( nEntId, nFlag) ;
int nFlag, nFlag2 ;
bool bOk = ExeGetClEntFlag( nEntId, nFlag, nFlag2) ;
// restituisco il risultato
if ( bOk)
if ( bOk) {
LuaSetParam( L, nFlag) ;
else
LuaSetParam( L, nFlag2) ;
}
else {
LuaSetParam( L) ;
return 1 ;
LuaSetParam( L) ;
}
return 2 ;
}
//-----------------------------------------------------------------------------
@@ -3006,6 +3030,25 @@ LuaGetClEntIndex( lua_State* L)
return 1 ;
}
//-----------------------------------------------------------------------------
static int
LuaGetClEntAxesVal( lua_State* L)
{
// 1 parametro : nEntId
int nEntId ;
LuaGetParam( L, 1, nEntId) ;
LuaClearStack( L) ;
// recupero il valore degli assi
DBLVECTOR vAxes ;
bool bOk = ExeGetClEntAxesVal( nEntId, vAxes) ;
// restituisco il risultato
if ( bOk)
LuaSetParam( L, vAxes) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
// Simulation
//-------------------------------------------------------------------------------
@@ -3292,6 +3335,23 @@ LuaSetCalcTool( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetAllCurrAxesName( lua_State* L)
{
// nessun parametro
LuaClearStack( L) ;
// imposto l'utensile corrente per il calcolo
STRVECTOR vAxName ;
bool bOk = ExeGetAllCurrAxesName( vAxName) ;
// restituisco il risultato
if ( bOk)
LuaSetParam( L, vAxName) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaSetRotAxisBlock( lua_State* L)
@@ -4005,6 +4065,7 @@ LuaInstallMachMgr( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtAddMachGroup", LuaAddMachGroup) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCopyMachGroup", LuaCopyMachGroup) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtRemoveMachGroup", LuaRemoveMachGroup) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtChangeMachGroupName", LuaChangeMachGroupName) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetMachGroupName", LuaGetMachGroupName) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetMachGroupMachineName", LuaGetMachGroupMachineName) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetMachGroupId", LuaGetMachGroupId) ;
@@ -4161,6 +4222,7 @@ LuaInstallMachMgr( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtGetClEntMove", LuaGetClEntMove) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetClEntFlag", LuaGetClEntFlag) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetClEntIndex", LuaGetClEntIndex) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetClEntAxesVal", LuaGetClEntAxesVal) ;
// Simulation
bOk = bOk && luaMgr.RegisterFunction( "EgtSimInit", LuaSimInit) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSimStart", LuaSimStart) ;
@@ -4194,6 +4256,7 @@ LuaInstallMachMgr( LuaMgr& luaMgr)
// Machine Calc
bOk = bOk && luaMgr.RegisterFunction( "EgtSetCalcTable", LuaSetCalcTable) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSetCalcTool", LuaSetCalcTool) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetAllCurrAxesName", LuaGetAllCurrAxesName) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSetRotAxisBlock", LuaSetRotAxisBlock) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetRotAxisBlocked", LuaGetRotAxisBlocked) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetCalcTool", LuaGetCalcTool) ;
LUA_Scene.cpp
+73
View File
@@ -175,6 +175,21 @@ LuaZoomObject( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaSetViewOrizzOffsStep( lua_State* L)
{
// 1 parametro : nDirOffsStep
int nDirOffsStep ;
LuaCheckParam( L, 1, nDirOffsStep)
LuaClearStack( L) ;
// imposto offset angolare orizzontale a step di 90° per direzione di vista
bool bOk = ExeSetViewOrizzOffsStep( nDirOffsStep) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaSetView( lua_State* L)
@@ -228,6 +243,60 @@ LuaSetViewCenter( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetViewOrizzOffsStep( lua_State* L)
{
// nessun parametro
LuaClearStack( L) ;
// recupero offset angolare orizzontale a step di 90° per direzione di vista
int nDirOffsStep ;
bool bOk = ExeGetViewOrizzOffsStep( &nDirOffsStep) ;
// restituisco il risultato
if ( bOk)
LuaSetParam( L, nDirOffsStep) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetView( lua_State* L)
{
// nessun parametro
LuaClearStack( L) ;
// recupero direzione di vista
int nViewDir ;
bool bOk = ExeGetView( &nViewDir) ;
// restituisco il risultato
if ( bOk)
LuaSetParam( L, nViewDir) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetGenericView( lua_State* L)
{
// nessun parametro
LuaClearStack( L) ;
// recupero angoli della direzione di vista
double dAngVertDeg ;
double dAngHorizDeg ;
bool bOk = ExeGetGenericView( &dAngVertDeg, &dAngHorizDeg) ;
// restituisco il risultato
if ( bOk) {
LuaSetParam( L, dAngVertDeg) ;
LuaSetParam( L, dAngHorizDeg) ;
}
else
LuaSetParam( L) ;
return 2 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetImage( lua_State* L)
@@ -267,9 +336,13 @@ LuaInstallScene( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtZoomRadius", LuaZoomRadius) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtZoom", LuaZoom) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtZoomObject", LuaZoomObject) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSetViewOrizzOffsStep", LuaSetViewOrizzOffsStep) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSetView", LuaSetView) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSetGenericView", LuaSetGenericView) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSetViewCenter", LuaSetViewCenter) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetViewOrizzOffsStep", LuaGetViewOrizzOffsStep) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetView", LuaGetView) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetGenericView", LuaGetGenericView) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetImage", LuaGetImage) ;
return bOk ;
}