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merge into: Egalware/EgtExecutor:3dm_import
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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:Zmap
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

130 Commits
3dm_import .. Zmap

Author SHA1 Message Date
Riccardo Elitropi 1c8a405478 EgtExecutor : 
- codice di test per Zmap.
 2024-04-22 08:05:53 +02:00
Dario Sassi 66a72c92b2 EgtExecutor : 
- nelle funzioni Lua EgtGetCalcTipFromPositions, EgtGetCalcToolDirFromAngles e EgtGetCalcAuxDirFromAngles ammessi sino a 6 assi rotanti (per robot).
 2024-04-17 06:55:09 +02:00
Daniele Bariletti 8c0b0a97b8 EgtExecutor : 
- corretto bug.
 2024-04-15 12:35:17 +02:00
Daniele Bariletti f444c189d4 EgtExecutor : 
- aggiunto anche alla funzione LUA dell' AdvancedImport il parametro nFlag.
 2024-04-15 12:21:07 +02:00
Dario Sassi 4f79e4baf9 EgtExecutor 2.6d4 : 
- aggiunta di alcune funzioni lua per i Quaternion.
 2024-04-14 18:18:13 +02:00
Dario Sassi e66cfb74c0 EgtExecutor : 
- eliminate funzioni Exe e Lua CreateSurfTmBySurfBezier perchè doppioni di ApproxSurface a cui è stato aggiunto il parametro dTriaMinSide.
 2024-04-13 17:20:57 +02:00
Daniele Bariletti 2d2954f983 EgtExecutor : 
- cambio versione.
 2024-04-12 10:34:47 +02:00
Daniele Bariletti bea2a9f938 EgtExecutor : 
- aggiunti i default per la chiamata della SurfTmByBezier.
 2024-04-12 10:32:23 +02:00
Daniele Bariletti bcc44a5592 EgtExecutor : 
- modificata l'importazione layer da file 3dm.
 2024-04-12 10:31:55 +02:00
Daniele Bariletti e587f23dad EgtExecutor : 
- aggiunti parametri per ottenere la trimesh di una Bezier con precisione richiesta.
 2024-04-11 17:39:20 +02:00
Dario Sassi f4542dd7db Merge branch 'master' of https://gitlab.steamware.net/egaltech/EgtExecutor 2024-04-11 00:19:37 +02:00
Dario Sassi 1f66473764 EgtExecutor : 
- aggiunto parametro Flag in AdvancedImport.
 2024-04-11 00:18:34 +02:00
Daniele Bariletti b98e4ea359 EgtExecutor : 
- errato commit precedente.
 2024-04-10 18:34:16 +02:00
Daniele Bariletti 504e1d5472 EgtExecutor : 
- modifica della funzione per l'estrazione dei loop aperti di una superficie di Bezier.
 2024-04-10 18:08:54 +02:00
Dario Sassi f8bc7083a9 EgtExecutor 2.6d2 : 
- estensione gestione chiave di rete per meglio identificare l'eventuale problema
- migliorie a proiezione di curva su superficie
- ricompilazione per modifiche a EgtLock.
 2024-04-09 14:49:24 +02:00
Dario Sassi c4b4a12b9a EgtExecutor : 
- aggiunta funzione Exe/Lua ProjectCurveOnSurfTmExt.
 2024-04-08 09:42:02 +02:00
Dario Sassi 9473e5813d EgtExecutor : 
aggiunta la funzione Lua EgtDirectoryDialog per la scelta di un direttorio.
 2024-04-05 19:24:04 +02:00
Dario Sassi fd9e53711b EgtExecutor : 
- modifiche a Exe e Lua CreateSurfTmSwept.
 2024-04-05 16:56:41 +02:00
Dario Sassi 6c153c3db4 Merge commit '824e6e3ba1ff03936d2150d5660a8e1ff27b24e6' 2024-04-04 14:49:51 +02:00
Dario Sassi 841c0f6cfc EgtExecutor : 
- aggiunta funzione Exe/Lua GetClEntAxesMask.
 2024-04-03 08:12:19 +02:00
Dario Sassi 3990934446 EgtExecutor 2.6d1 : 
- aggiunta funzione Exe e Lua GetAllAxesName.
 2024-04-02 15:38:40 +02:00
Dario Sassi 399556a9a6 EgtExecutor 2.6c3 : 
- cambio versione.
 2024-03-27 16:43:26 +01:00
Daniele Bariletti 69f2c3d029 Merge branch 'CmdCreateSurfBezier' 2024-03-27 11:06:29 +01:00
Dario Sassi f1f23a3cf4 EgtExecutor : 
- aggiunte funzioni Exe e Lua TestBoxSurface, TestRectPrismoidSurface, TestCylSurface, TestConeSurface, TestSpheSurface, TestSurfaceSurface.
 2024-03-25 09:05:21 +01:00
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
Riccardo Elitropi 824e6e3ba1 EgtExecutor : 
- correzione codice.
 2024-03-18 13:21:21 +01:00
Riccardo Elitropi 88fa7ef54c EgtExecutor : 
- rimozione codici di test.
- modifiche parametri LuaCreateSurfTmSwept.
 2024-03-15 13:18:48 +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
Riccardo Elitropi 82633bf725 EgtExecutor : 
- migliorie al codice.
 2024-03-11 13:21:29 +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
Riccardo Elitropi a27dfd2b54 EgtExecutor : 
- Codice di test per RMF aggiornato.
 2024-03-07 10:52:39 +01:00
Riccardo Elitropi 2a106c4263 EgtExecutor : 
- Codice di test per RMF.
 2024-03-06 16:28:48 +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
51 changed files with 5289 additions and 1512 deletions
Expand all files Collapse all files
DllExch3dm.cpp
+181
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@@ -0,0 +1,181 @@
//----------------------------------------------------------------------------
// 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
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@@ -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 -36
View File
@@ -10,8 +10,8 @@
// 03.07.18 DS Aggiunto ImportPnt.
// 15.09.19 DS Aggiunto ExportSvg.
// 14.12.20 DS Aggiunto ImportBtlx.
// 23.06.23 DB Aggiunto Import3dm.
// 21.09.23 DB Aggiunto Export3dm.
// 23.10.23 DB Aggiunto Export3dm.
// 07.11.23 DB Aggiunto Import3dm.
//
//----------------------------------------------------------------------------
@@ -51,11 +51,9 @@ 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" ;
static const char* EEX_CREATEEXPORT3DM = "CreateExport3dm" ;
static const char* EEX_CREATEEXPORTSVG = "CreateExportSvg" ;
static const char* EEX_SETTHREEJSLIBDIR = "SetThreeJSLibDir" ;
static const char* EEX_CREATEEXPORTTHREEJS = "CreateExportThreeJS" ;
@@ -74,7 +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
@@ -94,7 +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
@@ -320,21 +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)
@@ -380,21 +363,6 @@ MyCreateExport3MF( void)
return pFun() ;
}
//-----------------------------------------------------------------------------
IExport3dm*
MyCreateExport3dm( void)
{
// verifico caricamento libreria EgtExchange
if ( s_hEEx == nullptr)
return nullptr ;
// recupero funzione creazione oggetto
typedef IExport3dm* (* PF_CreateExport3dm) ( void) ;
PF_CreateExport3dm pFun = (PF_CreateExport3dm)GetProcAddress( s_hEEx, EEX_CREATEEXPORT3DM) ;
if ( pFun == nullptr)
return nullptr ;
return pFun() ;
}
//-----------------------------------------------------------------------------
IExportSvg*
MyCreateExportSvg( void)
DllExchange.h
-4
View File
@@ -25,11 +25,9 @@ class IImportDxf ;
class IImportPnt ;
class IImportStl ;
class IImport3MF ;
class IImport3dm ;
class IExportDxf ;
class IExportStl ;
class IExport3MF ;
class IExport3dm ;
class IExportThreeJS ;
class IExportSvg ;
class IExcExecutor ;
@@ -52,11 +50,9 @@ IImportDxf* MyCreateImportDxf( void) ;
IImportPnt* MyCreateImportPnt( void) ;
IImportStl* MyCreateImportStl( void) ;
IImport3MF* MyCreateImport3MF( void) ;
IImport3dm* MyCreateImport3dm( void) ;
IExportDxf* MyCreateExportDxf( void) ;
IExportStl* MyCreateExportStl( void) ;
IExport3MF* MyCreateExport3MF( void) ;
IExport3dm* MyCreateExport3dm( void) ;
bool MySetThreeJSLibDir( const std::string& sThreeJSLibDir) ;
IExportThreeJS* MyCreateExportThreeJS( void) ;
IExportSvg* MyCreateExportSvg( 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
+21 -17
View File
@@ -1,9 +1,9 @@
//----------------------------------------------------------------------------
// EgalTech 2020-2020
//----------------------------------------------------------------------------
// File : EXE_CDeObjClosedSurfTm.cpp Data : 09.01.20 Versione : 2.2a2
// File : EXE_CDeObjSolid.cpp Data : 09.01.20 Versione : 2.2a2
// Contenuto : Funzioni per verificare collisioni tra
// Objects e Closed SurftriMesh.
// Objects e Solidi (Closed SurftriMesh e Zmap).
//
//
// Modifiche : 09.01.20 DS Creazione modulo.
@@ -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
+85 -34
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"
@@ -28,13 +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/EExExport3dm.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"
@@ -72,6 +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")
@@ -149,6 +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 ;
}
@@ -177,6 +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 ;
}
@@ -207,6 +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 ;
}
@@ -234,6 +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 ;
}
@@ -264,6 +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 ;
}
@@ -294,6 +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 ;
}
@@ -309,10 +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())
@@ -325,6 +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 ;
}
@@ -337,13 +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())
@@ -355,25 +393,29 @@ 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
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
//// aggiungo un gruppo pezzo e un gruppo layer
// int nPartId = pGseCtx->m_pGeomDB->AddGroup( GDB_ID_NULL, GDB_ID_ROOT, Frame3d()) ;
// preparo l'importatore
PtrOwner<IImport3dm> pImp3dm( MyCreateImport3dm()) ;
bOk = bOk && ! IsNull( pImp3dm) ;
// eseguo l'importazione
// eseguo l'importazione
const DimensionStyle& DimSt = pGseCtx->m_dsCurr ;
double dExtLine = DimSt.dExtLineLen ;
double dArrLen = DimSt.dArrowLen ;
@@ -382,7 +424,7 @@ ExeImport3dm( const string& sFilePath, double dScaleFactor)
int nDecDig = DimSt.nDecDigit ;
string sFont = DimSt.sFont ;
double dTextHeight = DimSt.dTextHeight ;
bOk = bOk && pImp3dm->Import( sFilePath, pGseCtx->m_pGeomDB, nLayerId, dScaleFactor,
bOk = bOk && pImp3dm->Import( sFilePath, pGseCtx->m_pGeomDB, GDB_ID_ROOT,
dTextHeight, dExtLine, dArrLen, dTextDist, bLenIsMM, nDecDig, sFont) ;
// aggiorno stato file corrente
if ( pGseCtx->m_sFilePath.empty())
@@ -390,11 +432,15 @@ ExeImport3dm( const string& sFilePath, double dScaleFactor)
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 ;
}
@@ -424,7 +470,7 @@ ExeAdvancedImportIsEnabled( void)
//-----------------------------------------------------------------------------
bool
ExeAdvancedImport( const string& sFilePath, double dToler)
ExeAdvancedImport( const string& sFilePath, double dToler, int nFlag)
{
GseContext* pGseCtx = GetCurrGseContext() ;
VERIFY_CTX_GEOMDB( pGseCtx, false)
@@ -458,7 +504,7 @@ ExeAdvancedImport( const string& sFilePath, double dToler)
#endif
string sCmdLine = "\"" + sExec + "\" \"" + sFilePath + "\" \"" + sFileOut + "\" \"" +
ToString( dToler, 3) + "\" \"" + ToString( ExeGetDebugLevel()) + "\" \"" +
ExeGetKey() + "\" \"" + ExeGetLockId() + "\"" ;
ExeGetKey() + "\" \"" + ExeGetLockId() + "\" \"" + ToString( nFlag) + "\"" ;
STARTUPINFO si ;
PROCESS_INFORMATION pi ;
ZeroMemory( &si, sizeof( si)) ;
@@ -502,6 +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 ;
}
@@ -514,11 +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()) {
@@ -540,11 +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()) {
@@ -565,11 +616,11 @@ ExeExport3MF( int nId, const string& sFilePath, int nFilter)
VERIFY_GEOMDB( pGeomDB, false)
bool bOk = true ;
// esporto il file 3MF
// preparo l'esportatore
// 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()) {
@@ -590,17 +641,17 @@ ExeExport3dm( int nId, const string& sFilePath, int nFilter)
VERIFY_GEOMDB( pGeomDB, false)
bool bOk = true ;
// esporto il file 3dm
// preparo l'esportatore
// 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) ;
// 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) ;
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco il risultato
@@ -614,12 +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
+372 -81
View File
@@ -1,4 +1,4 @@
//----------------------------------------------------------------------------
//----------------------------------------------------------------------------
// EgalTech 2014-2015
//----------------------------------------------------------------------------
// File : EXE_GdbCreateSurf.cpp Data : 04.05.15 Versione : 1.6e1
@@ -31,7 +31,10 @@
#include "/EgtDev/Include/EGkStringUtils3d.h"
#include "/EgtDev/Include/EGkGeoPoint3d.h"
#include "/EgtDev/Include/EGkCurveLocal.h"
#include "/EgtDev/Include/EGkSurfLocal.h"
#include "/EgtDev/Include/EgtPointerOwner.h"
#include "/EgtDev/Include/EGkExtText.h"
#include "/EgtDev/Include/EGkSbzStandard.h"
using namespace std ;
@@ -56,8 +59,7 @@ 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
@@ -80,7 +82,7 @@ ExeCreateSurfFrRectangle( int nParentId, const Point3d& ptIni, const Point3d& pt
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -131,7 +133,7 @@ ExeCreateSurfFrRectangle3P( int nParentId, const Point3d& ptIni,
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -180,7 +182,7 @@ ExeCreateSurfFrStadium( int nParentId, const Point3d& ptIni, const Point3d& ptCr
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -197,7 +199,7 @@ ExeCreateSurfFrDisk( int nParentId, const Point3d& ptOrig, double dRad, int nRef
// porto in locale il punto e calcolo la normale in locale
Point3d ptOrigL = GetPointLocal( pGeomDB, ptOrig, nRefType, frLoc) ;
Vector3d vtNL = GetVectorLocal( pGeomDB, Z_AX, nRefType, frLoc) ;
// calcolo riferimento per l'entità
// calcolo riferimento per l'entità
Frame3d frEnt ;
bOk = bOk && frEnt.Set( ptOrigL, vtNL) ;
// creo il disco nel suo riferimento intrinseco
@@ -217,13 +219,13 @@ ExeCreateSurfFrDisk( int nParentId, const Point3d& ptOrig, double dRad, int nRef
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
//-------------------------------------------------------------------------------
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 +248,7 @@ 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) ;
@@ -256,11 +258,12 @@ 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()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -316,7 +319,7 @@ MyCreateSurfFlatRegion( int nParentId, const INTVECTOR& vCrvIds, int* pnCount)
// recupero la prossima superficie
pSfr = SfrCntr.GetSurf() ;
}
// restituisco l'identificativo della prima nuova entità
// restituisco l'identificativo della prima nuova entità
if ( pnCount != nullptr)
*pnCount = nCount ;
return nFirstId ;
@@ -339,7 +342,7 @@ ExeCreateSurfFlatRegion( int nParentId, const INTVECTOR& vCrvIds, int* pnCount)
" -- Id=" + ToString( nFirstId) + ",Nbr=" + ToString( nCount) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nFirstId ;
}
@@ -388,7 +391,7 @@ ExeCreateSurfTmPlaneInBBox( int nParentId, const Point3d& ptP, const Vector3d& v
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -449,7 +452,7 @@ MyCreateSewPolygon( ISurfTriMesh* pStm, const Polygon3d& Polyg)
// verifico esistenza superficie
if ( pStm == nullptr)
return false ;
// se poligono vuoto, non devo fare alcunché
// se poligono vuoto, non devo fare alcunché
if ( Polyg.GetSideCount() == 0)
return true ;
// creo la superficie trimesh del poligono
@@ -579,7 +582,7 @@ ExeCreateSurfTmConvexHullInBBox( int nParentId, int nId, const BBox3d& b3Box, in
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -627,7 +630,7 @@ ExeCreateSurfTmBBox( int nParentId, const BBox3d& b3Box, bool bRegular, int nRef
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -682,7 +685,7 @@ ExeCreateSurfTmBox( int nParentId, const Point3d& ptIni, const Point3d& ptCross,
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -739,7 +742,7 @@ ExeCreateSurfTmPyramid( int nParentId, const Point3d& ptIni, const Point3d& ptCr
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -781,7 +784,7 @@ ExeCreateSurfTmCylinder( int nParentId, const Point3d& ptOrig, const Vector3d& v
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -823,7 +826,7 @@ ExeCreateSurfTmCone( int nParentId, const Point3d& ptOrig, const Vector3d& vtN,
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -859,7 +862,98 @@ ExeCreateSurfTmSphere( int nParentId, const Point3d& ptOrig,
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
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 ;
}
@@ -890,7 +984,7 @@ ExeCreateSurfTmByFlatContour( int nParentId, int nCrvId, double dLinTol)
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -936,7 +1030,7 @@ ExeCreateSurfTmByRegion( int nParentId, const INTVECTOR& vCrvIds, double dLinTol
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -991,7 +1085,7 @@ ExeCreateSurfTmByExtrusion( int nParentId, const INTVECTOR& vCrvIds, const Vecto
" -- Id=" + ToString( nFirstId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nFirstId ;
}
@@ -1035,7 +1129,7 @@ ExeCreateSurfTmByRegionExtrusion( int nParentId, const INTVECTOR& vCrvIds, const
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -1075,7 +1169,7 @@ ExeCreateSurfTmByRevolve( int nParentId, int nCrvId,
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -1117,13 +1211,14 @@ ExeCreateSurfTmByScrewing( int nParentId, int nCrvId,
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateSurfTmRectSwept( int nParentId, double dDimH, double dDimV, double dBevelH, double dBevelV, int nGuideId, int nCapType, double dLinTol)
ExeCreateSurfTmRectSwept( int nParentId, double dDimH, double dDimV, double dBevelH, double dBevelV,
int nGuideId, int nCapType, double dLinTol)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
@@ -1154,13 +1249,75 @@ ExeCreateSurfTmRectSwept( int nParentId, double dDimH, double dDimV, double dBev
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateSurfTmSwept( int nParentId, int nSectId, int nGuideId, bool bCapEnds, double dLinTol)
ExeCreateSurfTmSwept( int nParentId, int nSectId, int nGuideId, const Vector3d& vtAx,
bool bCapEnds, double dLinTol, int nRefType)
{
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 guida in locale
CurveLocal CrvGuide( pGeomDB, nGuideId, frLoc) ;
bOk = bOk && ( CrvGuide.Get() != nullptr) ;
// porto in locale vettore asse
Vector3d vtAxL = GetVectorLocal( pGeomDB, vtAx, nRefType, frLoc) ;
// inizializzazione superficie e suo Id
ISurfTriMesh* pSTM = nullptr ;
int nNewId = GDB_ID_NULL ;
// recupero il tipo di entità della sezione
int nSecType = pGeomDB->GetGeoType( nSectId) ;
// controllo se la sezione è definita da una curva
if ( ( nSecType & GEO_CURVE) != 0) {
// recupero la sezione in locale
CurveLocal CrvSect( pGeomDB, nSectId, frLoc) ;
bOk = bOk && ( CrvSect.Get() != nullptr) ;
// calcolo la Swept
pSTM = ( bOk ? GetSurfTriMeshSwept( CrvSect, CrvGuide, vtAxL, bCapEnds, dLinTol) : nullptr) ;
// inserisco la superficie trimesh nel DB
nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, pSTM) : GDB_ID_NULL) ;
}
// controllo se la sezione è definita da una regione piana
else if ( nSecType == SRF_FLATRGN) {
// recupero la regione sezion in locale
SurfLocal SrfSect( pGeomDB, nSectId, frLoc) ;
const ISurfFlatRegion* pSFrSect = GetSurfFlatRegion( SrfSect.Get()) ;
bOk = bOk && ( pSFrSect != nullptr) ;
// calcolo la Swept
pSTM = ( bOk ? GetSurfTriMeshSwept( pSFrSect, CrvGuide, vtAxL, bCapEnds, dLinTol) : nullptr) ;
// inserisco la superficie trimesh nel DB
nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, pSTM) : GDB_ID_NULL) ;
}
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmSwept(" + IdToString( nParentId) + "," +
ToString( nSectId) + "," +
ToString( nGuideId) + ",{" +
ToString( vtAx) + "}," +
( bCapEnds ? "true" : "false") + "," +
ToString( dLinTol) + "," +
RefTypeToString( nRefType) + ")" +
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
return nNewId ;
}
//-------------------------------------------------------------------------------
int
ExeCreateSurfTmTransSwept( int nParentId, int nSectId, int nGuideId, bool bCapEnds, double dLinTol)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
@@ -1177,21 +1334,21 @@ ExeCreateSurfTmSwept( int nParentId, int nSectId, int nGuideId, bool bCapEnds, d
bOk = bOk && ( CrvGuide.Get() != nullptr) ;
// creo la superficie trimesh
ISurfTriMesh* pSTM = nullptr ;
pSTM = ( bOk ? GetSurfTriMeshSwept( CrvSect, CrvGuide, bCapEnds, dLinTol) : 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 = "EgtSurfTmSwept(" + IdToString( nParentId) + "," +
ToString( nSectId) + "," +
ToString( nGuideId) + "," +
( bCapEnds ? "true" : "false") + "," +
ToString( dLinTol) + ")" +
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
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -1208,7 +1365,7 @@ ExeCreateSurfTmRuled( int nParentId, int nPtOrCrvId1, int nPtOrCrvId2, int nType
bOk = bOk && pGeomDB->GetGroupGlobFrame( nParentId, frLoc) ;
// creo la superficie trimesh
ISurfTriMesh* pSTM = nullptr ;
// se la prima entità è un punto e la seconda una curva
// se la prima entità è un punto e la seconda una curva
if ( pGeomDB->GetGeoType( nPtOrCrvId1) == GEO_PNT3D &&
( pGeomDB->GetGeoType( nPtOrCrvId2) & GEO_CURVE) != 0) {
// recupero il punto in locale
@@ -1224,7 +1381,7 @@ ExeCreateSurfTmRuled( int nParentId, int nPtOrCrvId1, int nPtOrCrvId2, int nType
// calcolo la superficie
pSTM = ( bOk ? GetSurfTriMeshRuled( ptP, CrvLoc, dLinTol) : nullptr) ;
}
// se la prima entità è una curva e la seconda un punto
// se la prima entità è una curva e la seconda un punto
else if ( ( pGeomDB->GetGeoType( nPtOrCrvId1) & GEO_CURVE) != 0 &&
pGeomDB->GetGeoType( nPtOrCrvId2) == GEO_PNT3D) {
// recupero la curva in locale
@@ -1268,7 +1425,7 @@ ExeCreateSurfTmRuled( int nParentId, int nPtOrCrvId1, int nPtOrCrvId2, int nType
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nNewId ;
}
@@ -1379,7 +1536,7 @@ ExeCreateSurfTmBySewing( int nParentId, const INTVECTOR& vIds, bool bErase)
bOk = bOk && pGeomDB->GetGlobFrame( nId, frStmS) ;
// lo esprimo rispetto a quello della prima superficie
frStmS.ToLoc( frLoc) ;
// se è la prima, copio
// se è la prima, copio
if ( bFirst) {
bOk = bOk && pStm->CopyFrom( pStmS) ;
bOk = bOk && pStm->ToGlob( frStmS) ;
@@ -1424,42 +1581,6 @@ ExeCreateSurfTmBySewing( int nParentId, const INTVECTOR& vIds, bool bErase)
return nNewId ;
}
//----------------------------------------------------------------------------
int
ExeCreateSurfTmBySurfBezier( int nParentId, int nSbezId)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nParentId = AdjustId( nParentId) ;
// recupero la superficie di Bezier
const ISurfBezier* pSbez = GetSurfBezier( pGeomDB->GetGeoObj( nSbezId)) ;
bool bOk = ( pSbez != nullptr) ;
// recupero il riferimento della superficie sorgente
Frame3d frSou ;
bOk = bOk && pGeomDB->GetGlobFrame( nSbezId, frSou) ;
// recupero il riferimento locale
Frame3d frLoc ;
bOk = bOk && pGeomDB->GetGroupGlobFrame( nParentId, frLoc) ;
// copio la superficie ausiliaria della Bezier
const ISurfTriMesh* pAuxSurf = ( bOk ? pSbez->GetAuxSurf() : nullptr) ;
PtrOwner<ISurfTriMesh> pStm( pAuxSurf != nullptr ? pAuxSurf->Clone() : nullptr) ;
bOk = bOk && ! IsNull( pStm) ;
// la porto nel riferimento destinazione
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() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtSurfTmBySurfBezier(" + IdToString( nParentId) + "," +
IdToString( nSbezId) + ")" +
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco il risultato
return nNewId ;
}
//----------------------------------------------------------------------------
int
ExeCreateSurfTmByVolZmap( int nParentId, int nZmapId, int nPart)
@@ -1547,6 +1668,8 @@ 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
@@ -1568,7 +1691,7 @@ ExeCreateSurfBezier( int nParentId, int nDegU, int nDegV, int nSpanU, int nSpanV
" -- Id=" + ToString( nId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// restituisco l'identificativo della nuova entità
return nId ;
}
@@ -1599,6 +1722,8 @@ 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
@@ -1620,6 +1745,172 @@ ExeCreateSurfBezierRational( int nParentId, int nDegU, int nDegV, int nSpanU, in
" -- Id=" + ToString( nId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
// 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'entit creata
return nId ;
}
EXE_GdbCreateVol.cpp
+93 -8
View File
@@ -53,7 +53,50 @@ ExeCreateVolZmap( int nParentId, const Point3d& ptIni, double dDimX, double dDim
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtVolZmapBox(" + IdToString( nParentId) + ",{" +
string sLua = "EgtVolZmapEmpty(" + IdToString( nParentId) + ",{" +
ToString( ptIni) + "}," +
ToString( dDimX) + "," +
ToString( dDimY) + "," +
ToString( dDimZ) + "," +
ToString( dPrec) + "," +
( bTriDex ? "true" : "false") + "," +
RefTypeToString( nRefType) + ")" +
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
return nNewId ;
}
//-------------------------------------------------------------------------------
int ExeCreateVolZmapEmpty( int nParentId, const Point3d& ptIni, double dDimX, double dDimY, double dDimZ,
double dPrec, bool bTriDex, 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 ptIniL = GetPointLocal( pGeomDB, ptIni, nRefType, frLoc) ;
Point3d ptOnXL = GetPointLocal( pGeomDB, ptIni + X_AX, nRefType, frLoc) ;
Point3d ptOnYL = GetPointLocal( pGeomDB, ptIni + Y_AX, nRefType, frLoc) ;
// ne ricavo un riferimento intrinseco
Frame3d frBox ;
bOk = bOk && frBox.Set( ptIniL, ptOnXL, ptOnYL) ;
// creo lo Zmap nel suo riferimento intrinseco
PtrOwner<IVolZmap> pVZM( CreateVolZmap()) ;
bOk = bOk && ! IsNull( pVZM) ;
bOk = bOk && pVZM->CreateEmptyMap( ORIG, dDimX, dDimY, dDimZ, dPrec, bTriDex) ;
// lo porto nel riferimento locale
bOk = bOk && pVZM->ToGlob( frBox) ;
// inserisco lo Zmap nel DB
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pVZM)) : GDB_ID_NULL) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtVolZmapEmpty(" + IdToString( nParentId) + ",{" +
ToString( ptIni) + "}," +
ToString( dDimX) + "," +
ToString( dDimY) + "," +
@@ -118,8 +161,8 @@ ExeCreateVolZmapFromSurfTm( int nParentId, int nStmId, double dPrec, bool bTriDe
const ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nStmId)) ;
bool bOk = ( pStm != nullptr) ;
// recupero il riferimento della trimesh
Frame3d frStm ;
bOk = bOk && pGeomDB->GetGlobFrame( nStmId, frStm) ;
//Frame3d frStm ;
//bOk = bOk && pGeomDB->GetGlobFrame( nStmId, frStm) ;
// recupero il riferimento del gruppo di destinazione
Frame3d frDest ;
bOk = bOk && pGeomDB->GetGroupGlobFrame( nParentId, frDest) ;
@@ -128,19 +171,61 @@ ExeCreateVolZmapFromSurfTm( int nParentId, int nStmId, double dPrec, bool bTriDe
bOk = bOk && ! IsNull( pVZM) ;
bOk = bOk && pVZM->CreateFromTriMesh( *pStm, dPrec, bTriDex) ;
// lo porto nel riferimento di destinazione
bOk = bOk && pVZM->LocToLoc( frStm, frDest) ;
//bOk = bOk && pVZM->LocToLoc( frStm, frDest) ;
// inserisco lo Zmap nel DB
int nNewId = ( bOk ? pGeomDB->AddGeoObj( GDB_ID_NULL, nParentId, Release( pVZM)) : GDB_ID_NULL) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtVolZmapFromTriMesh(" + IdToString( nParentId) + "," +
ToString( nStmId) + "," +
ToString( dPrec) + "," +
( bTriDex ? "true" : "false") + ")" +
string sLua = "UpdateVolZmapByAddingSurfTm(" + IdToString( nParentId) + "," +
IdToString( nStmId) + "," +
ToString( nStmId) + "," +
ToString( dPrec) + "," +
( bTriDex ? "true" : "false") + ")" +
" -- Id=" + ToString( nNewId) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
return nNewId ;
}
//-------------------------------------------------------------------------------
bool
ExeUpdateVolZmapByAddingSurfTm( int nParentId, int nZmapId, int nStmId)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, GDB_ID_NULL)
nParentId = AdjustId( nParentId) ;
// recupero lo Zmap
IVolZmap* pVolZmap = GetVolZmap( pGeomDB->GetGeoObj( nZmapId)) ;
bool bOk = pVolZmap != nullptr ;
// recupero il riferimento dello Zmap
Frame3d frZmap ;
bOk = bOk && pGeomDB->GetGlobFrame( nZmapId, frZmap) ;
// recupero la trimesh
PtrOwner<ISurfTriMesh> pStm( CloneSurfTriMesh( pGeomDB->GetGeoObj( nStmId))) ;
bOk = bOk && ( pStm != nullptr) ;
// recupero il riferimento della trimesh
Frame3d frStm ;
bOk = bOk && pGeomDB->GetGlobFrame( nStmId, frStm) ;
// recupero il riferimento del gruppo di destinazione
Frame3d frDest ;
bOk = bOk && pGeomDB->GetGroupGlobFrame( nParentId, frDest) ;
// porto lo Zmap e la trimesh nel riferimento della destinazione
bOk = bOk &&
pVolZmap->LocToLoc( frZmap, frDest) &&
pStm->LocToLoc( frStm, frDest) ;
// aggiorno lo Zmap
bOk = bOk && pVolZmap->AddSrfTm( pStm) ;
// riporto lo Zmap nel frame originario
bOk = bOk && pVolZmap->LocToLoc( frDest, frStm) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtVolZmapFromTriMesh(" + IdToString( nParentId) + "," +
ToString( nStmId) + ")" ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco l'identificativo della nuova entità
return bOk ;
}
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
+390 -11
View File
@@ -27,19 +27,26 @@
#include "/EgtDev/Include/EGkIntersCurves.h"
#include "/EgtDev/Include/EGkDistPointCurve.h"
#include "/EgtDev/Include/EGkCurveLocal.h"
#include "/EgtDev/Include/EGkSurfLocal.h"
#include "/EgtDev/Include/EGkCurveAux.h"
#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/EGkGeoPoint3d.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 +104,14 @@ 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 +188,7 @@ 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 +202,8 @@ 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 +2143,7 @@ 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 +2166,7 @@ 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 +2188,7 @@ 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 +2241,11 @@ 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 +2258,11 @@ 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 +2270,374 @@ 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 ;
}
//-------------------------------------------------------------------------------
static bool
MyProjectCurveOnSurfTmExt( int nCurveId, int nSurfTmId, int nGuideId, int nDestGrpId,
double dLinTol, double dMaxSegmLen, bool bDirFromGuide)
{
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 l'entità guida (punto, curva o superficie) e il suo riferimento
const IGeoPoint3d* pGdePnt = nullptr ;
const ICurve* pGdeCrv = nullptr ;
const ISurfTriMesh* pGdeStm = nullptr ;
pGdePnt = GetGeoPoint3d( pGeomDB->GetGeoObj( nGuideId)) ;
if ( pGdePnt == nullptr) {
pGdeCrv = GetCurve( pGeomDB->GetGeoObj( nGuideId)) ;
if ( pGdeCrv == nullptr) {
pGdeStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nGuideId)) ;
if ( pGdeStm == nullptr)
return false ;
}
}
Frame3d frGde ;
if ( ! pGeomDB->GetGlobFrame( nGuideId, frGde))
return false ;
// recupero il riferimento del gruppo di destinazione
nDestGrpId = AdjustId( nDestGrpId) ;
Frame3d frDest ;
if ( ! pGeomDB->GetGroupGlobFrame( nDestGrpId, frDest))
return false ;
// porto la curva nel riferimento della superficie
CurveLocal CrvLoc( pCrv, frCrv, frStm) ;
if ( CrvLoc.Get() == nullptr)
return false ;
// eseguo l'opportuna proiezione dopo aver portato l'entità guida nel riferimento della superficie
PNT5AXVECTOR vPt5ax ;
if ( pGdePnt != nullptr) {
PtrOwner<IGeoPoint3d> pGdeLoc( pGdePnt->Clone()) ;
if ( pGdeLoc == nullptr)
return false ;
pGdeLoc->LocToLoc( frGde, frStm) ;
if ( ! ProjectCurveOnSurfTm( *CrvLoc.Get(), *pStm, *pGdeLoc, dLinTol, dMaxSegmLen, vPt5ax))
return false ;
}
else if ( pGdeCrv != nullptr) {
CurveLocal GdeLoc( pGdeCrv, frGde, frStm) ;
if ( GdeLoc.Get() == nullptr)
return false ;
if ( ! ProjectCurveOnSurfTm( *CrvLoc.Get(), *pStm, *GdeLoc.Get(), dLinTol, dMaxSegmLen, vPt5ax))
return false ;
}
else { // pGdeStm != nullptr
SurfLocal GdeLoc( pGdeStm, frGde, frStm) ;
const ISurfTriMesh* pGdeLoc = GetSurfTriMesh( GdeLoc.Get()) ;
if ( pGdeLoc == nullptr)
return false ;
if ( ! ProjectCurveOnSurfTm( *CrvLoc.Get(), *pStm, *pGdeLoc, 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 ;
Vector3d vtDir = ( bDirFromGuide ? Pt5ax.vtDir2 : Pt5ax.vtDir) ;
pGeoVct->Set( 10 * GetLocToLoc( 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
ExeProjectCurveOnSurfTmExt( int nCurveId, int nSurfTmId, int nGuideId, int nDestGrpId,
double dLinTol, double dMaxSegmLen, bool bDirFromGuide)
{
bool bOk = MyProjectCurveOnSurfTmExt( nCurveId, nSurfTmId, nGuideId, nDestGrpId, dLinTol, dMaxSegmLen, bDirFromGuide) ;
ExeSetModified() ;
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtProjectCurveOnSurfTmExt(" + ToString( nCurveId) + "," +
ToString( nSurfTmId) + ",{" +
ToString( nGuideId) + "}," +
ToString( nDestGrpId) + "," +
ToString( dLinTol) + "," +
ToString( dMaxSegmLen) + "," +
( bDirFromGuide ? "true" : "false") + ")" +
" -- 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
+275 -38
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 ;
@@ -207,7 +209,7 @@ ExeExplodeSurface( int nId, int* pnCount)
//-------------------------------------------------------------------------------
bool
ExeApproxSurface( int nId, double dLinTol)
ExeApproxSurface( int nId, double dLinTol, double dTriaMinSide)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, false)
@@ -228,8 +230,7 @@ ExeApproxSurface( int nId, double dLinTol)
else if ( nType == SRF_BEZIER) {
// recupero la superficie ausiliaria della Bezier
const ISurfBezier* pSbez = GetSurfBezier( pGeomDB->GetGeoObj( nId)) ;
const ISurfTriMesh* pAuxSurf = ( pSbez != nullptr ? pSbez->GetAuxSurf() : nullptr) ;
pStm.Set( pAuxSurf != nullptr ? pAuxSurf->Clone() : nullptr) ;
pStm.Set( ( pSbez != nullptr ? pSbez->GetApproxSurf( dLinTol, dTriaMinSide) : nullptr)) ;
}
bool bOk = ( ! IsNull( pStm)) ;
// semplificazione della trimesh
@@ -240,7 +241,8 @@ ExeApproxSurface( int nId, double dLinTol)
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtApproxSurf(" + ToString( nId) + "," +
ToString( dLinTol) + ")" +
ToString( dLinTol) + "," +
ToString( dTriaMinSide) + ")" +
" -- Ok=" + ToString( bOk) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
@@ -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
+68 -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 +338,18 @@ 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) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetNetHwKey( void)
{
return s_bNetHwKey ;
}
//-----------------------------------------------------------------------------
@@ -435,6 +480,10 @@ ExeGetVersionInfo( string& sVer, const char* szNewLine)
sVer += szNewLine ;
sVer += MyGetEExVersion() ;
}
if ( IsLoadedExch3dmDll()) {
sVer += szNewLine ;
sVer += MyGetEE3Version() ;
}
if ( IsLoadedMachKernelDll()) {
sVer += szNewLine ;
sVer += MyGetEMkVersion() ;
@@ -478,7 +527,7 @@ 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 +535,6 @@ ExeGetKeyLevel( int nProd, int nVer, int nLev, int& nKLev)
nKLev = - nRet ;
return false ;
}
return true ;
}
@@ -510,7 +558,6 @@ ExeGetKeyOptions( int nProd, int nVer, int nLev, unsigned int& nOpt2)
LOG_ERROR( s_pGenLog, sErr.c_str()) ;
return true ;
}
return true ;
}
@@ -524,6 +571,16 @@ 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
View File
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
+89 -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 +2914,26 @@ ExeGetClEntIndex( int nEntId, int& nIndex)
return pMachMgr->GetClEntIndex( nEntId, nIndex) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetClEntAxesMask( int nEntId, int& nMask)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// recupero la mascheratura del movimento assi
return pMachMgr->GetClEntAxesMask( nEntId, nMask) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetClEntAxesVal( int nEntId, DBLVECTOR& vAxes)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// recupero il valore degli assi
return pMachMgr->GetClEntAxesVal( nEntId, vAxes) ;
}
//-----------------------------------------------------------------------------
// Simulazione
//-----------------------------------------------------------------------------
@@ -3172,6 +3222,16 @@ ExeSetRotAxisBlock( const string& sAxis, double dVal)
return pMachMgr->SetRotAxisBlock( sAxis, dVal) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetCalcTable( string& sTable)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// restituisco la tavola corrente per il calcolo sulla macchina della macchinata corrente
return pMachMgr->GetCalcTable( sTable) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetCalcTool( string& sTool, string& sHead, int& nExit)
@@ -3182,6 +3242,16 @@ ExeGetCalcTool( string& sTool, string& sHead, int& nExit)
return ( pMachMgr->GetCalcTool( sTool) && pMachMgr->GetCalcHead( sHead) && pMachMgr->GetCalcExit( nExit)) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetAllCurrAxesNames( STRVECTOR& vAxName)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// recupero gli assi correnti derivanti dalla scelta di tavola e utensile
return pMachMgr->GetAllCurrAxesNames( vAxName) ;
}
//----------------------------------------------------------------------------
bool
ExeGetRotAxisBlocked( int nInd, string& sAxis, double& dVal)
@@ -3411,6 +3481,16 @@ ExeGetAllTablesNames( STRVECTOR& vNames)
return pMachMgr->GetAllTablesNames( vNames) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetAllAxesNames( STRVECTOR& vNames)
{
IMachMgr* pMachMgr = GetCurrMachMgr() ;
VERIFY_MACHMGR( pMachMgr, false)
// recupero l'elenco degli assi
return pMachMgr->GetAllAxesNames( vNames) ;
}
//-----------------------------------------------------------------------------
bool
ExeGetAllHeadsNames( STRVECTOR& vNames)
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)
EXE_TestObjSurface.cpp
+316
View File
@@ -0,0 +1,316 @@
//----------------------------------------------------------------------------
// EgalTech 2024-2024
//----------------------------------------------------------------------------
// File : EXE_TestObjSurface.cpp Data : 24.03.24 Versione : 2.6c2
// Contenuto : Funzioni per verificare collisioni tra
// Objects e Superfici (TriMesh).
//
//
// Modifiche : 09.01.20 DS Creazione modulo.
//
//
//----------------------------------------------------------------------------
//--------------------------- Include ----------------------------------------
#include "stdafx.h"
#include "EXE.h"
#include "EXE_Macro.h"
#include "EXE_Const.h"
#include "AuxTools.h"
#include "GeoTools.h"
#include "/EgtDev/Include/EXeExecutor.h"
#include "/EgtDev/Include/EXeConst.h"
#include "/EgtDev/Include/EGkCDeBoxClosedSurfTm.h"
#include "/EgtDev/Include/EGkCDeRectPrismoidClosedSurfTm.h"
#include "/EgtDev/Include/EGkCDeCylClosedSurfTm.h"
#include "/EgtDev/Include/EGkCDeConeFrustumClosedSurfTm.h"
#include "/EgtDev/Include/EGkCDeSpheClosedSurfTm.h"
#include "/EgtDev/Include/EGkCDeClosedSurfTmClosedSurfTm.h"
#include "/EgtDev/Include/EGkSurfLocal.h"
#include "/EgtDev/Include/EGkStringUtils3d.h"
using namespace std ;
//----------------------------------------------------------------------------
static int
MyTestBoxSurfTm( const Frame3d& frBox, const Vector3d& vtDiag, int nSurfTmId, double dSafeDist, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, -1)
// recupero la superficie TriMesh
const ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nSurfTmId)) ;
if ( pStm == nullptr)
return -1 ;
// recupero il riferimento della superficie
Frame3d frSurf ;
if ( ! pGeomDB->GetGlobFrame( nSurfTmId, frSurf))
return -1 ;
// 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 l'a collisione'interferenza
return ( TestBoxSurfTm( frBoxL, vtDiag, *pStm, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
int
ExeTestBoxSurface( const Frame3d& frBox, const Vector3d& vtDiag, int nSurfId, double dSafeDist, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
int nRes = -1 ;
if ( pGeomDB != nullptr && pGeomDB->GetGeoType( nSurfId) == SRF_TRIMESH)
nRes = MyTestBoxSurfTm( frBox, vtDiag, nSurfId, dSafeDist, nRefType) ;
// è da aggiungere il test con le superfici di Bezier
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtTestBoxSurface({{" + ToString( frBox.Orig()) + "},{" +
ToString( frBox.VersX()) + "},{" +
ToString( frBox.VersY()) + "},{" +
ToString( frBox.VersZ()) + "}},{" +
ToString( vtDiag) + "}," +
IdToString( nSurfId) + "," +
ToString( dSafeDist) + "," +
RefTypeToString( nRefType) + ")" +
" -- Res=" + ToString( nRes) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultato
return nRes ;
}
//----------------------------------------------------------------------------
static int
MyTestRectPrismoidSurfTm( const Frame3d& frPrismoid, double dBaseLenX, double dBaseLenY,
double dTopLenX, double dTopLenY, double dHeight,
int nSurfTmId, double dSafeDist, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, -1)
// recupero la superficie TriMesh
const ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nSurfTmId)) ;
if ( pStm == nullptr)
return -1 ;
// recupero il riferimento della superficie
Frame3d frSurf ;
if ( ! pGeomDB->GetGlobFrame( nSurfTmId, frSurf))
return -1 ;
// porto in locale alla superficie il riferimento del prismoide rettangolare
Frame3d frPrismoidL = GetFrameLocal( pGeomDB, frPrismoid, nRefType, frSurf) ;
// verifico l'a collisione'interferenza
return ( TestRectPrismoidSurfTm( frPrismoidL, dBaseLenX, dBaseLenY, dTopLenX, dTopLenY, dHeight, *pStm, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
int
ExeTestRectPrismoidSurface( const Frame3d& frPrismoid, double dBaseLenX, double dBaseLenY,
double dTopLenX, double dTopLenY, double dHeight,
int nSurfId, double dSafeDist, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
int nRes = -1 ;
if ( pGeomDB != nullptr && pGeomDB->GetGeoType( nSurfId) == SRF_TRIMESH)
nRes = MyTestRectPrismoidSurfTm( frPrismoid, dBaseLenX, dBaseLenY, dTopLenX, dTopLenY, dHeight, nSurfId, dSafeDist, nRefType) ;
// è da aggiungere il test con le superfici di Bezier
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtTestRectPrismoidSurface({{" + ToString( frPrismoid.Orig()) + "},{" +
ToString( frPrismoid.VersX()) + "},{" +
ToString( frPrismoid.VersY()) + "},{" +
ToString( frPrismoid.VersZ()) + "}}," +
ToString( dBaseLenX) + "," +
ToString( dBaseLenY) + "," +
ToString( dTopLenX) + "," +
ToString( dTopLenY) + "," +
ToString( dHeight) + "," +
IdToString( nSurfId) + "," +
ToString( dSafeDist) + "," +
RefTypeToString( nRefType) + ")" +
" -- Res=" + ToString( nRes) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultato
return nRes ;
}
//----------------------------------------------------------------------------
static int
MyTestCylSurfTm( const Frame3d& frCyl, double dR, double dH, int nSurfTmId, double dSafeDist, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, -1)
// recupero la superficie TriMesh
const ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nSurfTmId)) ;
if ( pStm == nullptr)
return -1 ;
// recupero il riferimento della superficie
Frame3d frSurf ;
if ( ! pGeomDB->GetGlobFrame( nSurfTmId, frSurf))
return -1 ;
// porto in locale alla superficie il riferimento del cilindro
Frame3d frCylL = GetFrameLocal( pGeomDB, frCyl, nRefType, frSurf) ;
// verifico l'interferenza
return ( TestCylSurfTm( frCylL, dR, dH, *pStm, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
int
ExeTestCylSurface( const Frame3d& frCyl, double dR, double dH, int nSurfId, double dSafeDist, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
int nRes = -1 ;
if ( pGeomDB != nullptr && pGeomDB->GetGeoType( nSurfId) == SRF_TRIMESH)
nRes = MyTestCylSurfTm( frCyl, dR, dH, nSurfId, dSafeDist, nRefType) ;
// è da aggiungere il test con le superfici di Bezier
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtTestCylSurface({{" + ToString( frCyl.Orig()) + "},{" +
ToString( frCyl.VersX()) + "},{" +
ToString( frCyl.VersY()) + "},{" +
ToString( frCyl.VersZ()) + "}}," +
ToString( dR) + "," +
ToString( dH) + "," +
IdToString( nSurfId) + "," +
ToString( dSafeDist) + "," +
RefTypeToString( nRefType) + ")" +
" -- Res=" + ToString( nRes) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultato
return nRes ;
}
//----------------------------------------------------------------------------
static int
MyTestConeSurfTm( const Frame3d& frCone, double dR1, double dR2, double dH, int nSurfTmId, double dSafeDist, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, -1)
// recupero la superficie TriMesh
const ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nSurfTmId)) ;
if ( pStm == nullptr)
return -1 ;
// recupero il riferimento della superficie
Frame3d frSurf ;
if ( ! pGeomDB->GetGlobFrame( nSurfTmId, frSurf))
return -1 ;
// porto in locale alla superficie il riferimento del cilindro
Frame3d frConeL = GetFrameLocal( pGeomDB, frCone, nRefType, frSurf) ;
// verifico l'interferenza
return ( TestConeFrustumSurfTm( frConeL, dR1, dR2, dH, *pStm, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
int
ExeTestConeSurface( const Frame3d& frCone, double dR1, double dR2, double dH, int nSurfId, double dSafeDist, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
int nRes = -1 ;
if ( pGeomDB != nullptr && pGeomDB->GetGeoType( nSurfId) == SRF_TRIMESH)
nRes = MyTestConeSurfTm( frCone, dR1, dR2, dH, nSurfId, dSafeDist, nRefType) ;
// è da aggiungere il test con le superfici di Bezier
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtTestConeSurface({{" + ToString( frCone.Orig()) + "},{" +
ToString( frCone.VersX()) + "},{" +
ToString( frCone.VersY()) + "},{" +
ToString( frCone.VersZ()) + "}}," +
ToString( dR1) + "," +
ToString( dR2) + "," +
ToString( dH) + "," +
IdToString( nSurfId) + "," +
ToString( dSafeDist) + "," +
RefTypeToString( nRefType) + ")" +
" -- Res=" + ToString( nRes) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultato
return nRes ;
}
//----------------------------------------------------------------------------
static int
MyTestSpheSurfTm( const Point3d& ptCen, double dR, int nSurfTmId, double dSafeDist, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, -1)
// recupero la superficie TriMesh
const ISurfTriMesh* pStm = GetSurfTriMesh( pGeomDB->GetGeoObj( nSurfTmId)) ;
if ( pStm == nullptr)
return -1 ;
// recupero il riferimento della superficie
Frame3d frSurf ;
if ( ! pGeomDB->GetGlobFrame( nSurfTmId, frSurf))
return -1 ;
// porto in locale alla superficie il centro della sfera
Point3d ptCenL = GetPointLocal( pGeomDB, ptCen, nRefType, frSurf) ;
// verifico l'a collisione'interferenza
return ( TestSpheSurfTm( ptCenL, dR, *pStm, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
int
ExeTestSpheSurface( const Point3d& ptCen, double dR, int nSurfId, double dSafeDist, int nRefType)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
int nRes = -1 ;
if ( pGeomDB != nullptr && pGeomDB->GetGeoType( nSurfId) == SRF_TRIMESH)
nRes = MyTestSpheSurfTm( ptCen, dR, nSurfId, dSafeDist, nRefType) ;
// è da aggiungere il test con le superfici di Bezier
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtTestSpheSurface({" + ToString( ptCen) + "}," +
ToString( dR) + "," +
IdToString( nSurfId) + "," +
ToString( dSafeDist) + "," +
RefTypeToString( nRefType) + ")" +
" -- Res=" + ToString( nRes) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultato
return nRes ;
}
//----------------------------------------------------------------------------
static int
MyTestSurfTmSurfTm( int nSurfTm1Id, int nSurfTm2Id, double dSafeDist)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
VERIFY_GEOMDB( pGeomDB, -1)
// recupero il riferimento della seconda superficie
Frame3d frSurf2 ;
if ( ! pGeomDB->GetGlobFrame( nSurfTm2Id, frSurf2))
return -1 ;
// recupero la prima superficie in locale alla seconda
SurfLocal Surf1Loc( pGeomDB, nSurfTm1Id, frSurf2) ;
const ISurfTriMesh* pStm1 = GetSurfTriMesh( Surf1Loc) ;
if ( pStm1 == nullptr)
return -1 ;
// recupero la seconda superficie TriMesh
const ISurfTriMesh* pStm2 = GetSurfTriMesh( pGeomDB->GetGeoObj( nSurfTm2Id)) ;
if ( pStm2 == nullptr)
return -1 ;
// verifico l'a collisione'interferenza
return ( TestSurfTmSurfTm( *pStm1, *pStm2, dSafeDist) ? 1 : 0) ;
}
//----------------------------------------------------------------------------
int
ExeTestSurfaceSurface( int nSurf1Id, int nSurf2Id, double dSafeDist)
{
IGeomDB* pGeomDB = GetCurrGeomDB() ;
int nRes = -1 ;
if ( pGeomDB != nullptr) {
if ( pGeomDB->GetGeoType( nSurf1Id) == SRF_TRIMESH && pGeomDB->GetGeoType( nSurf2Id) == SRF_TRIMESH)
nRes = MyTestSurfTmSurfTm( nSurf1Id, nSurf2Id, dSafeDist) ;
// è da aggiungere il test con le superfici di Bezier
}
// se richiesto, salvo il comando Lua equivalente
if ( IsCmdLog()) {
string sLua = "EgtTestSurfaceSurface({" + IdToString( nSurf1Id) + "," +
IdToString( nSurf2Id) + "," +
ToString( dSafeDist) + ")" +
" -- Res=" + ToString( nRes) ;
LOG_INFO( GetCmdLogger(), sLua.c_str()) ;
}
// restituisco risultato
return nRes ;
}
EgtExecutor.rc
BIN
View File
Binary file not shown.
EgtExecutor.vcxproj
+7 -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" />
@@ -290,6 +293,7 @@ copy $(TargetPath) \EgtProg\Dll64</Command>
<ClCompile Include="EXE_Picture.cpp" />
<ClCompile Include="EXE_Scene.cpp" />
<ClCompile Include="EXE_ShortestPath.cpp" />
<ClCompile Include="EXE_TestObjSurface.cpp" />
<ClCompile Include="EXE_TscExec.cpp" />
<ClCompile Include="AuxTools.cpp" />
<ClCompile Include="DllExchange.cpp" />
@@ -305,6 +309,7 @@ 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" />
@@ -312,6 +317,7 @@ copy $(TargetPath) \EgtProg\Dll64</Command>
<ClCompile Include="LUA_MaxFiller.cpp" />
<ClCompile Include="LUA_Picture.cpp" />
<ClCompile Include="LUA_PolynomialRoots.cpp" />
<ClCompile Include="LUA_TestObjSurface.cpp" />
<ClCompile Include="PictureObj.cpp" />
<ClCompile Include="LUA_Base.cpp" />
<ClCompile Include="LUA_GdbCreateCurve.cpp" />
EgtExecutor.vcxproj.filters
+18
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 +392,21 @@
<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>
<ClCompile Include="EXE_TestObjSurface.cpp">
<Filter>File di origine\EXE</Filter>
</ClCompile>
<ClCompile Include="LUA_TestObjSurface.cpp">
<Filter>File di origine\LUA</Filter>
</ClCompile>
</ItemGroup>
<ItemGroup>
<ResourceCompile Include="EgtExecutor.rc">
LUA.h
+9 -3
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2014-2015
// EgalTech 2014-2024
//----------------------------------------------------------------------------
// File : LUA.h Data : 16.01.15 Versione : 1.6a3
// File : LUA.h Data : 24.03.24 Versione : 2.6c2
// Contenuto : Dichiarazioni locali per moduli LUA.
//
//
@@ -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) ;
@@ -90,6 +93,9 @@ bool LuaInstallGeoInters( LuaMgr& luaMgr) ;
//-------------------------- Collision Detection -----------------------------
bool LuaInstallCDeObjSolid( LuaMgr& luaMgr) ;
//-------------------------- Test Interference -------------------------------
bool LuaInstallTestObjSurface( LuaMgr& luaMgr) ;
//-------------------------- MachMgr -----------------------------------------
bool LuaInstallMachMgr( LuaMgr& luaMgr) ;
LUA_Base.cpp
+8
View File
@@ -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 ;
@@ -126,6 +130,10 @@ LuaInstallEgtFunctions( LuaMgr& LuaMgr)
LOG_ERROR( GetLogger(), "Error in LuaInstallCDeObjSolid (LuaInstallEgtFunctions)")
return false ;
}
if ( ! LuaInstallTestObjSurface( LuaMgr)) {
LOG_ERROR( GetLogger(), "Error in LuaInstallTestObjSurface (LuaInstallEgtFunctions)")
return false ;
}
if ( ! LuaInstallMachMgr( LuaMgr)) {
LOG_ERROR( GetLogger(), "Error in LuaInstallMachMgr (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
+8 -8
View File
@@ -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 ;
@@ -190,14 +188,16 @@ LuaImport3dm( lua_State* L)
static int
LuaAdvancedImport( lua_State* L)
{
// 1 o 2 parametri : path del file da importare [, dLinToler]
// 1 o 2 o 3 parametri : path del file da importare [, dLinToler] [, nFlag]
string sFilePath ;
LuaCheckParam( L, 1, sFilePath)
double dLinToler = 0.1 ;
LuaGetParam( L, 2, dLinToler) ;
int nFlag = 0 ;
LuaGetParam( L, 3, nFlag) ;
LuaClearStack( L) ;
// apro il file
bool bOk = ExeAdvancedImport( sFilePath, dLinToler) ;
bool bOk = ExeAdvancedImport( sFilePath, dLinToler, nFlag) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
@@ -256,7 +256,7 @@ 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 ;
@@ -275,7 +275,7 @@ LuaExport3dm( lua_State* L)
LuaGetParam( L, 3, nFilter) ;
LuaClearStack( L) ;
// creo il file
bool bOk = ExeExport3dm( nGroupId, sFilePath) ;
bool bOk = ExeExport3dm( nGroupId, sFilePath, nFilter) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
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
+192 -26
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)
@@ -603,6 +659,41 @@ LuaCreateSurfTmRectSwept( lua_State* L)
//-------------------------------------------------------------------------------
static int
LuaCreateSurfTmSwept( lua_State* L)
{
// 4, 5, 6 o 7 parametri : ParentId, SectId, GuideId [, vtAx], bCapEnds [, dTol] [, nRefType]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
int nSectId ;
LuaCheckParam( L, 2, nSectId)
int nGuideId ;
LuaCheckParam( L, 3, nGuideId)
int nPar = 4 ;
Vector3d vtAx = V_NULL ;
if ( LuaGetParam( L, nPar, vtAx))
++ nPar ;
bool bCapEnds ;
LuaCheckParam( L, nPar, bCapEnds)
++ nPar ;
double dLinTol = LIN_TOL_SRF ;
if ( LuaGetParam( L, nPar, dLinTol))
++ nPar ;
int nRefType = RTY_DEFAULT ;
if ( LuaGetParam( L, nPar, nRefType))
++ nPar ;
LuaClearStack( L) ;
// creo STM swept
int nId = ExeCreateSurfTmSwept( nParentId, nSectId, nGuideId, vtAx, bCapEnds, dLinTol, nRefType) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateSurfTmTransSwept( lua_State* L)
{
// 4 o 5 parametri : ParentId, SectId, GuideId, bCapEnds [, dTol]
int nParentId ;
@@ -616,8 +707,8 @@ LuaCreateSurfTmSwept( lua_State* L)
double dLinTol = LIN_TOL_SRF ;
LuaGetParam( L, 5, dLinTol) ;
LuaClearStack( L) ;
// creo STM swept
int nId = ExeCreateSurfTmSwept( nParentId, nSectId, nGuideId, bCapEnds, dLinTol) ;
// creo STM swept di traslazione
int nId = ExeCreateSurfTmTransSwept( nParentId, nSectId, nGuideId, bCapEnds, dLinTol) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
@@ -705,26 +796,6 @@ LuaCreateSurfTmBySewing( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateSurfTmBySurfBezier( lua_State* L)
{
// 2 parametri : ParentId, nSbezId
int nParentId ;
LuaCheckParam( L, 1, nParentId)
int nZmapId ;
LuaCheckParam( L, 2, nZmapId)
LuaClearStack( L) ;
// creo STM partendo da superficie di Bezier
int nId = ExeCreateSurfTmBySurfBezier( nParentId, nZmapId) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateSurfTmByVolZmap( lua_State* L)
@@ -816,6 +887,96 @@ 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 +996,8 @@ 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) ;
@@ -843,12 +1006,15 @@ 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) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSurfTmBySurfBezier", LuaCreateSurfTmBySurfBezier) ;
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_GdbCreateVol.cpp
+55 -1
View File
@@ -54,6 +54,40 @@ LuaCreateVolZmapBox( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateVolZMapEmpty( lua_State* L)
{
// 6 o 7 o 8 parametri : ParentId, PtIni, dDimX, dDimY, dDimZ, dPrec [, bTriDex] [, nRefType]
int nParentId ;
LuaCheckParam( L, 1, nParentId)
Point3d ptIni ;
LuaCheckParam( L, 2, ptIni)
double dDimX ;
LuaCheckParam( L, 3, dDimX)
double dDimY ;
LuaCheckParam( L, 4, dDimY)
double dDimZ ;
LuaCheckParam( L, 5, dDimZ)
double dPrec ;
LuaCheckParam( L, 6, dPrec)
bool bTriDex = true ;
int nRefType = RTY_DEFAULT ;
if ( ! LuaGetParam( L, 7, bTriDex))
LuaGetParam( L, 7, nRefType) ;
else
LuaGetParam( L, 8, nRefType) ;
LuaClearStack( L) ;
// creo VZM da superficie trimesh
int nId = ExeCreateVolZmapEmpty( nParentId, ptIni, dDimX, dDimY, dDimZ, dPrec, bTriDex, nRefType) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
LuaSetParam( L, nId) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaCreateVolZmapByRegionExtrusion( lua_State* L)
@@ -94,7 +128,7 @@ LuaCreateVolZmapFromSurfTm( lua_State* L)
bool bTriDex = true ;
LuaGetParam( L, 4, bTriDex) ;
LuaClearStack( L) ;
// creo VZM da superficie trimesh
// creo VZM da superficie trimesh
int nId = ExeCreateVolZmapFromSurfTm( nParentId, nStmId, dPrec, bTriDex) ;
// restituisco il risultato
if ( nId != GDB_ID_NULL)
@@ -104,13 +138,33 @@ LuaCreateVolZmapFromSurfTm( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaUpdateVolZmapByAddingSurfTm( lua_State* L)
{
// 3 ParentId, ZmapId, StmId
int nParentId ;
LuaCheckParam( L, 1, nParentId)
int nZmapId ;
LuaCheckParam( L, 2, nZmapId)
int nStmId ;
LuaCheckParam( L, 3, nStmId)
LuaClearStack( L) ;
// creo VZM da superficie trimesh
bool bOk = ExeUpdateVolZmapByAddingSurfTm( nParentId, nZmapId, nStmId) ;
LuaSetParam( L, bOk) ;
return 1 ;
}
//-------------------------------------------------------------------------------
bool
LuaInstallGdbCreateVol( LuaMgr& luaMgr)
{
bool bOk = ( &luaMgr != nullptr) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtVolZmapBox", LuaCreateVolZmapBox) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtVolZmapEmpty", LuaCreateVolZMapEmpty) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtVolZmapByRegionExtrusion", LuaCreateVolZmapByRegionExtrusion) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtVolZmapFromSurfTm", LuaCreateVolZmapFromSurfTm) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtUpdateVolZmapByAddingSurfTm", LuaUpdateVolZmapByAddingSurfTm) ;
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
+143 -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 +949,134 @@ 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
LuaProjectCurveOnSurfTmExt( lua_State* L)
{
// 4, 5, 6 o 7 parametri : nCurveId, nSurfTmId, nGuideId, nDestGrpId [, dLinTol [, dMaxSegmLen] [, bDirFromGuide]]
int nCurveId ;
LuaCheckParam( L, 1, nCurveId)
int nSurfTmId ;
LuaCheckParam( L, 2, nSurfTmId)
int nGuideId ;
LuaCheckParam( L, 3, nGuideId)
int nDestGrpId ;
LuaCheckParam( L, 4, nDestGrpId)
double dLinTol = 0.01 ;
double dMaxSegmLen = INFINITO ;
bool bDirFromGuide = false ;
if ( LuaGetParam( L, 5, dLinTol) &&
LuaGetParam( L, 6, dMaxSegmLen))
LuaGetParam( L, 7, bDirFromGuide) ;
LuaClearStack( L) ;
// proietto la curva su una trimesh secondo la direzione data
bool bOk = ExeProjectCurveOnSurfTmExt( nCurveId, nSurfTmId, nGuideId, nDestGrpId, dLinTol, dMaxSegmLen, bDirFromGuide) ;
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 +1132,10 @@ 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( "EgtProjectCurveOnSurfTmExt", LuaProjectCurveOnSurfTmExt) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCurveGetVoronoi", LuaCurveGetVoronoi) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCurveMedialAxisAdv", LuaCurveMedialAxisAdv) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCurveGetFatCurve", LuaCurveGetFatCurve) ;
return bOk ;
}
LUA_GdbModifySurf.cpp
+163 -19
View File
@@ -23,7 +23,6 @@
using namespace std ;
//----------------------------------------------------------------------------
static int
LuaInvertSurf( lua_State* L)
@@ -62,14 +61,16 @@ LuaExplodeSurf( lua_State* L)
static int
LuaApproxSurf( lua_State* L)
{
// 1 o 2 parametri : Id [, dLinTol]
// 1 o 2 parametri : Id [, dLinTol [, dTriaMinSide]]
int nId ;
LuaCheckParam( L, 1, nId)
double dLinTol = LIN_TOL_SRF ;
LuaGetParam( L, 2, dLinTol) ;
double dTriaMinSide = 100 * EPS_SMALL ;
if ( LuaGetParam( L, 2, dLinTol))
LuaGetParam( L, 3, dTriaMinSide) ;
LuaClearStack( L) ;
// approssimazione della superficie
bool bOk = ExeApproxSurface( nId, dLinTol) ;
bool bOk = ExeApproxSurface( nId, dLinTol, dTriaMinSide) ;
// restituisco il risultato
LuaSetParam( L, bOk) ;
return 1 ;
@@ -141,6 +142,29 @@ 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 +189,30 @@ 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 +308,29 @@ 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 +404,6 @@ 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 +445,87 @@ 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 +538,24 @@ 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
+91 -7
View File
@@ -31,6 +31,7 @@
#include "/EgtDev/Include/EgtNumUtils.h"
#include "/EgtDev/Include/EgtStringConverter.h"
#include "Windowsx.h"
#include "shlobj.h"
using namespace std ;
@@ -178,11 +179,11 @@ 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 +195,25 @@ 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)
@@ -737,6 +757,67 @@ LuaCompareFilesLastWriteTime( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
int
CALLBACK DirectoryBoxProc( HWND hwndDlg, UINT uMsg, LPARAM lParam, LPARAM lpData)
{
if ( uMsg == BFFM_INITIALIZED)
SendMessage( hwndDlg, BFFM_SETSELECTION, TRUE, lpData) ;
return 0 ;
}
//-------------------------------------------------------------------------------
static int
LuaDirectoryDialog( lua_State* L)
{
// 2 parametri : sText, sDir
string sText ;
LuaCheckParam( L, 1, sText)
string sDir ;
LuaCheckParam( L, 2, sDir)
LuaClearStack( L) ;
// se abilitata UI, emetto la finestra di dialogo
if ( ExeGetEnableUI()) {
// Converto i parametri nel formato wide
AtoWEX<MAX_PATH> wsText( sText.c_str()) ;
AtoWEX<MAX_PATH> wsDirName( sDir.c_str()) ;
// Converto L'/' in L'\\' nel nome directory proposto
for ( wchar_t* pC = wsDirName.m_psz ; *pC != L'\0' ; ++ pC) {
if ( *pC == L'/')
*pC = L'\\' ;
}
// Riempio la struttura dati per il dialogo
BROWSEINFO bi = { 0} ;
bi.hwndOwner = ExeGetMainWindowHandle() ;
bi.lpszTitle = LPWSTR( wsText) ;
bi.ulFlags = BIF_RETURNONLYFSDIRS | BIF_USENEWUI ;
bi.lpfn = DirectoryBoxProc ;
bi.lParam = (LPARAM) LPWSTR( wsDirName) ;
// Visualizzo il dialogo
LPITEMIDLIST pIdl = SHBrowseForFolder( &bi) ;
if ( pIdl != NULL) {
// recupero la path della directory
WCHAR wPath[MAX_PATH] ;
if ( SHGetPathFromIDList( pIdl, wPath) != FALSE)
LuaSetParam( L, wstrztoA( wPath)) ;
else
LuaSetParam( L) ;
// free memory used
IMalloc* pImalloc = NULL ;
if ( SUCCEEDED( SHGetMalloc( &pImalloc))) {
pImalloc->Free( pIdl) ;
pImalloc->Release() ;
}
}
else
LuaSetParam( L) ;
}
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaExistsDirectory( lua_State* L)
@@ -1015,9 +1096,10 @@ 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 +1327,7 @@ 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) ;
@@ -1266,6 +1349,7 @@ LuaInstallGeneral( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtEraseFile", LuaEraseFile) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtFindAllFiles", LuaFindAllFiles) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCompareFilesLastWriteTime", LuaCompareFilesLastWriteTime) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtDirectoryDialog", LuaDirectoryDialog) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtExistsDirectory", LuaExistsDirectory) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtCreateDirectory", LuaCreateDirectory) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtEmptyDirectory", LuaEmptyDirectory) ;
LUA_GeoBase.cpp
+81
View File
@@ -530,6 +530,83 @@ LuaBBoxLocToLoc( lua_State* L)
}
}
//-------------------------------------------------------------------------------
static int
LuaQuaternionFromAxisAngle( lua_State* L)
{
// 2 parametri : vtAx, dAngDeg
Vector3d vtAx ;
LuaCheckParam( L, 1, vtAx)
double dAngDeg ;
LuaCheckParam( L, 2, dAngDeg)
LuaClearStack( L) ;
// calcolo il quaternione che produce la rotazione equivalente
Quaternion qtQ = FromAxisAngle( vtAx, dAngDeg) ;
if ( ! qtQ.IsSmall())
LuaSetParam( L, qtQ) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaQuaternionToAxisAngle( lua_State* L)
{
// 1 parametro : Quaternion
Quaternion qtQ ;
LuaCheckParam( L, 1, qtQ)
LuaClearStack( L) ;
// calcolo l'asse e l'angolo di rotazione equivalenti
Vector3d vtAx ;
double dAngDeg ;
bool bOk = ToAxisAngle( qtQ, vtAx, dAngDeg) ;
if ( bOk) {
LuaSetParam( L, vtAx) ;
LuaSetParam( L, dAngDeg) ;
return 2 ;
}
else {
LuaSetParam( L) ;
return 1 ;
}
}
//-------------------------------------------------------------------------------
static int
LuaQuaternionFromFrame( lua_State* L)
{
// 1 parametro : Frame
Frame3d frFrame ;
LuaCheckParam( L, 1, frFrame)
LuaClearStack( L) ;
// calcolo il quaternione che produce l'orientamento di questo frame tramite rotazione dal globale
Quaternion qtQ = FromFrame( frFrame) ;
if ( ! qtQ.IsSmall())
LuaSetParam( L, qtQ) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaQuaternionToFrame( lua_State* L)
{
// 1 parametro : Quaternion
Quaternion qtQ ;
LuaCheckParam( L, 1, qtQ)
LuaClearStack( L) ;
// calcolo il frame equivalente come orientamento a quello globale ruotato dal quaternione
Frame3d frFrame ;
bool bOk = ToFrame( qtQ, frFrame) ;
if ( bOk)
LuaSetParam( L, frFrame) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
bool
LuaInstallGeoBase( LuaMgr& luaMgr)
@@ -557,5 +634,9 @@ LuaInstallGeoBase( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtBBoxToGlob", LuaBBoxToGlob) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtBBoxToLoc", LuaBBoxToLoc) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtBBoxLocToLoc", LuaBBoxLocToLoc) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtQuaternionFromAxisAngle", LuaQuaternionFromAxisAngle) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtQuaternionToAxisAngle", LuaQuaternionToAxisAngle) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtQuaternionFromFrame", LuaQuaternionFromFrame) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtQuaternionToFrame", LuaQuaternionToFrame) ;
return bOk ;
}
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
+150 -31
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 +3030,44 @@ LuaGetClEntIndex( lua_State* L)
return 1 ;
}
//-----------------------------------------------------------------------------
static int
LuaGetClEntAxesMask( lua_State* L)
{
// 1 parametro : nEntId
int nEntId ;
LuaGetParam( L, 1, nEntId) ;
LuaClearStack( L) ;
// recupero la mascheratura del movimento assi
int nMask ;
bool bOk = ExeGetClEntAxesMask( nEntId, nMask) ;
// restituisco il risultato
if ( bOk)
LuaSetParam( L, nMask) ;
else
LuaSetParam( 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
//-------------------------------------------------------------------------------
@@ -3311,26 +3373,19 @@ LuaSetRotAxisBlock( lua_State* L)
//-------------------------------------------------------------------------------
static int
LuaGetRotAxisBlocked( lua_State* L)
LuaGetCalcTable( lua_State* L)
{
// 1 parametro : nInd ( 0-based)
int nInd ;
LuaCheckParam( L, 1, nInd)
// nessun parametro
LuaClearStack( L) ;
// recupero dati bloccaggio asse in posizione nInd
string sAxis ;
double dVal ;
bool bOk = ExeGetRotAxisBlocked( nInd, sAxis, dVal) ;
// recupero la tavola correnti
string sTable ;
bool bOk = ExeGetCalcTable( sTable) ;
// restituisco il risultato
if ( bOk) {
LuaSetParam( L, sAxis) ;
LuaSetParam( L, dVal) ;
}
else {
if ( bOk)
LuaSetParam( L, sTable) ;
else
LuaSetParam( L) ;
LuaSetParam( L) ;
}
return 2 ;
return 1 ;
}
//-------------------------------------------------------------------------------
@@ -3358,6 +3413,47 @@ LuaGetCalcTool( lua_State* L)
return 3 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetAllCurrAxesNames( lua_State* L)
{
// nessun parametro
LuaClearStack( L) ;
// imposto l'utensile corrente per il calcolo
STRVECTOR vAxName ;
bool bOk = ExeGetAllCurrAxesNames( vAxName) ;
// restituisco il risultato
if ( bOk)
LuaSetParam( L, vAxName) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetRotAxisBlocked( lua_State* L)
{
// 1 parametro : nInd ( 0-based)
int nInd ;
LuaCheckParam( L, 1, nInd)
LuaClearStack( L) ;
// recupero dati bloccaggio asse in posizione nInd
string sAxis ;
double dVal ;
bool bOk = ExeGetRotAxisBlocked( nInd, sAxis, dVal) ;
// restituisco il risultato
if ( bOk) {
LuaSetParam( L, sAxis) ;
LuaSetParam( L, dVal) ;
}
else {
LuaSetParam( L) ;
LuaSetParam( L) ;
}
return 2 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetCalcAngles( lua_State* L)
@@ -3425,7 +3521,7 @@ LuaGetCalcPositions( lua_State* L)
static int
LuaGetCalcTipFromPositions( lua_State* L)
{
// da 5 a 8 parametri : dX, dY, dZ, dAngA [, dAngB] [, dAngC] [, dAngD], bBottom
// da 5 a 10 parametri : dX, dY, dZ, dAngR1[, dAngR2][, dAngR3][, dAngR4][, dAngR5][, dAngR6], bBottom
double dX ;
LuaCheckParam( L, 1, dX)
double dY ;
@@ -3434,7 +3530,7 @@ LuaGetCalcTipFromPositions( lua_State* L)
LuaCheckParam( L, 3, dZ)
DBLVECTOR vAng ;
int i ;
for ( i = 4 ; i <= 7 ; ++ i) {
for ( i = 4 ; i <= 9 ; ++ i) {
double dAng ;
if ( LuaGetParam( L, i, dAng))
vAng.emplace_back( dAng) ;
@@ -3459,9 +3555,9 @@ LuaGetCalcTipFromPositions( lua_State* L)
static int
LuaGetCalcToolDirFromAngles( lua_State* L)
{
// da 1 a 4 parametri : dAngA, dAngB, dAngC, dAngD
// da 1 a 6 parametri : dAngR1, dAngR2, dAngR3, dAngR4, dAngR5, dAngR6
DBLVECTOR vAng ;
for ( int i = 1 ; i <= 4 ; ++ i) {
for ( int i = 1 ; i <= 6 ; ++ i) {
double dAng ;
if ( LuaGetParam( L, i, dAng))
vAng.emplace_back( dAng) ;
@@ -3484,9 +3580,9 @@ LuaGetCalcToolDirFromAngles( lua_State* L)
static int
LuaGetCalcAuxDirFromAngles( lua_State* L)
{
// da 1 a 4 parametri : dAngA, dAngB, dAngC, dAngD
// da 1 a 6 parametri : dAngR1, dAngR2, dAngR3, dAngR4, dAngR5, dAngR6
DBLVECTOR vAng ;
for ( int i = 1 ; i <= 4 ; ++ i) {
for ( int i = 1 ; i <= 6 ; ++ i) {
double dAng ;
if ( LuaGetParam( L, i, dAng))
vAng.emplace_back( dAng) ;
@@ -3752,6 +3848,23 @@ LuaGetAllTablesNames( lua_State* L)
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetAllAxesNames( lua_State* L)
{
// nessun parametro
LuaClearStack( L) ;
// recupero l'elenco degli assi della macchina corrente
STRVECTOR vNames ;
bool bOk = ExeGetAllAxesNames( vNames) ;
// restituisco il risultato
if ( bOk)
LuaSetParam( L, vNames) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaGetAllHeadsNames( lua_State* L)
@@ -4005,6 +4118,7 @@ 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 +4275,8 @@ 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( "EgtGetClEntAxesMask", LuaGetClEntAxesMask) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetClEntAxesVal", LuaGetClEntAxesVal) ;
// Simulation
bOk = bOk && luaMgr.RegisterFunction( "EgtSimInit", LuaSimInit) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSimStart", LuaSimStart) ;
@@ -4189,14 +4305,17 @@ LuaInstallMachMgr( LuaMgr& luaMgr)
bOk = bOk && luaMgr.RegisterFunction( "EgtGetAxisInvert", LuaGetAxisInvert) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetAxisOffset", LuaGetAxisOffset) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetAllTablesNames", LuaGetAllTablesNames) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetAllAxesNames", LuaGetAllAxesNames) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetAllHeadsNames", LuaGetAllHeadsNames) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetAllTcPosNames", LuaGetAllTcPosNames) ;
// Machine Calc
bOk = bOk && luaMgr.RegisterFunction( "EgtSetCalcTable", LuaSetCalcTable) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSetCalcTool", LuaSetCalcTool) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtSetRotAxisBlock", LuaSetRotAxisBlock) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetRotAxisBlocked", LuaGetRotAxisBlocked) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetCalcTable", LuaGetCalcTable) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetCalcTool", LuaGetCalcTool) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetAllCurrAxesNames", LuaGetAllCurrAxesNames) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetRotAxisBlocked", LuaGetRotAxisBlocked) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetCalcAngles", LuaGetCalcAngles) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetCalcPositions", LuaGetCalcPositions) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtGetCalcTipFromPositions", LuaGetCalcTipFromPositions) ;
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 ;
}
LUA_TestObjSurface.cpp
+202
View File
@@ -0,0 +1,202 @@
//----------------------------------------------------------------------------
// EgalTech 2024-2024
//----------------------------------------------------------------------------
// File : LUA_TestObjSurface.cpp Data : 24.03.24 Versione : 2.6c2
// Contenuto : Funzioni di verifica intersezione tra oggetti e superfici.
// Oggetti = Box, Sfere, Cilindri, Coni, RectPrismoid, SurfTriMesh
// Superfici = SurfTriMesh, ( Bezier).
//
// Modifiche : 24.03.24 DS Creazione modulo.
//
//
//----------------------------------------------------------------------------
//--------------------------- Include ----------------------------------------
#include "stdafx.h"
#include "LUA.h"
#include "/EgtDev/Include/EXeExecutor.h"
#include "/EgtDev/Include/EXeConst.h"
#include "/EgtDev/Include/EGkLuaAux.h"
#include "/EgtDev/Include/EGnStringUtils.h"
using namespace std ;
//-------------------------------------------------------------------------------
static int
LuaTestBoxSurface( lua_State* L)
{
// 4 o 5 parametri : frBox, vtDiag, nSurfId, dSafeDist [, nRefType]
Frame3d frBox ;
LuaCheckParam( L, 1, frBox)
Vector3d vtDiag ;
LuaCheckParam( L, 2, vtDiag)
int nSurfId ;
LuaCheckParam( L, 3, nSurfId)
double dSafeDist ;
LuaCheckParam( L, 4, dSafeDist)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
LuaClearStack( L) ;
// eseguo verifica di collisione
int nRes = ExeTestBoxSurface( frBox, vtDiag, nSurfId, dSafeDist, nRefType) ;
// restituisco il risultato
if ( nRes >= 0)
LuaSetParam( L, ( nRes != 0)) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaTestRectPrismoidSurface( lua_State* L)
{
// 8 o 9 parametri : frBox, dBaseLenX, dBaseLenY, dTopLenX, dTopLenY, dHeight, nSurfId, dSafeDist [, nRefType]
Frame3d frBox ;
LuaCheckParam( L, 1, frBox)
double dBaseLenX ;
LuaCheckParam( L, 2, dBaseLenX)
double dBaseLenY ;
LuaCheckParam( L, 3, dBaseLenY)
double dTopLenX ;
LuaCheckParam( L, 4, dTopLenX)
double dTopLenY ;
LuaCheckParam( L, 5, dTopLenY)
double dHeight ;
LuaCheckParam( L, 6, dHeight)
int nSurfId ;
LuaCheckParam( L, 7, nSurfId)
double dSafeDist ;
LuaCheckParam( L, 8, dSafeDist)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 9, nRefType) ;
LuaClearStack( L) ;
// eseguo verifica di collisione
int nRes = ExeTestRectPrismoidSurface( frBox, dBaseLenX, dBaseLenY, dTopLenX, dTopLenY, dHeight, nSurfId, dSafeDist, nRefType) ;
// restituisco il risultato
if ( nRes >= 0)
LuaSetParam( L, ( nRes != 0)) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaTestCylSurface( lua_State* L)
{
// 5 o 6 parametri : frCyl, dR, dH, nSurfId, dSafeDist [, nRefType]
Frame3d frCyl ;
LuaCheckParam( L, 1, frCyl)
double dR ;
LuaCheckParam( L, 2, dR)
double dH ;
LuaCheckParam( L, 3, dH)
int nSurfId ;
LuaCheckParam( L, 4, nSurfId)
double dSafeDist ;
LuaCheckParam( L, 5, dSafeDist)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 6, nRefType) ;
LuaClearStack( L) ;
// eseguo verifica di collisione
int nRes = ExeTestCylSurface( frCyl, dR, dH, nSurfId, dSafeDist, nRefType) ;
// restituisco il risultato
if ( nRes >= 0)
LuaSetParam( L, ( nRes != 0)) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
static int
LuaTestConeSurface( lua_State* L)
{
// 6 o 7 parametri : frCone, dR1, dR2, dH, nSurfId, dSafeDist [, nRefType]
Frame3d frCone ;
LuaCheckParam( L, 1, frCone)
double dR1 ;
LuaCheckParam( L, 2, dR1)
double dR2 ;
LuaCheckParam( L, 3, dR2)
double dH ;
LuaCheckParam( L, 4, dH)
int nSurfId ;
LuaCheckParam( L, 5, nSurfId)
double dSafeDist ;
LuaCheckParam( L, 6, dSafeDist)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 7, nRefType) ;
LuaClearStack( L) ;
// eseguo verifica di collisione
int nRes = ExeTestConeSurface( frCone, dR1, dR2, dH, nSurfId, dSafeDist, nRefType) ;
// restituisco il risultato
if ( nRes >= 0)
LuaSetParam( L, ( nRes != 0)) ;
else
LuaSetParam( L) ;
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaTestSpheSurface( lua_State* L)
{
// 4 o 5 parametri : ptCen, dRad, nSurfId, dSafeDist [, nRefType]
Point3d ptCen ;
LuaCheckParam( L, 1, ptCen)
double dR ;
LuaCheckParam( L, 2, dR)
int nSurfId ;
LuaCheckParam( L, 3, nSurfId)
double dSafeDist ;
LuaCheckParam( L, 4, dSafeDist)
int nRefType = RTY_DEFAULT ;
LuaGetParam( L, 5, nRefType) ;
LuaClearStack( L) ;
// eseguo verifica di collisione
int nRes = ExeTestSpheSurface( ptCen, dR, nSurfId, dSafeDist, nRefType) ;
// restituisco il risultato
if ( nRes >= 0)
LuaSetParam( L, ( nRes != 0)) ;
else
LuaSetParam( L) ;
return 1 ;
}
//----------------------------------------------------------------------------
static int
LuaTestSurfaceSurface( lua_State* L)
{
// 3 parametri : nSurf1Id, nSurf2Id, dSafeDist
int nSurf1Id ;
LuaCheckParam( L, 1, nSurf1Id)
int nSurf2Id ;
LuaCheckParam( L, 2, nSurf2Id)
double dSafeDist ;
LuaCheckParam( L, 3, dSafeDist)
LuaClearStack( L) ;
// eseguo verifica di interferenza
int nRes = ExeTestSurfaceSurface( nSurf1Id, nSurf2Id, dSafeDist) ;
// restituisco il risultato
if ( nRes >= 0)
LuaSetParam( L, ( nRes != 0)) ;
else
LuaSetParam( L) ;
return 1 ;
}
//-------------------------------------------------------------------------------
bool
LuaInstallTestObjSurface( LuaMgr& luaMgr)
{
bool bOk = ( &luaMgr != nullptr) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtTestBoxSurface", LuaTestBoxSurface) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtTestRectPrismoidSurface", LuaTestRectPrismoidSurface) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtTestCylSurface", LuaTestCylSurface) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtTestConeSurface", LuaTestConeSurface) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtTestSpheSurface", LuaTestSpheSurface) ;
bOk = bOk && luaMgr.RegisterFunction( "EgtTestSurfaceSurface", LuaTestSurfaceSurface) ;
return bOk ;
}