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

201 Commits
FasterBezier .. master

Author SHA1 Message Date
Riccardo Elitropi 6857a19789 Include : 
- In EGkCalcPocketing aggiunto parametro a CalcPocketing per ToolCompensation
- om EMkMachiningGeoConst aggiunta Info "TRC".
 2026-05-14 15:29:47 +02:00
SaraP 5a3661a61d Include : 
- aggiornamento prototipi.
 2026-05-12 15:08:50 +02:00
Riccardo Elitropi 5b7e1a4702 Include : 
- in CalcPocketing aggiunto flag per Conventional Milling.
 2026-05-11 10:05:34 +02:00
Daniele Bariletti fa9976ddfb Include : 
- esposta funzione per trovare il punto corrispondente sulla seconda curva di una coppia di curve da sincronizzare.
 2026-05-08 17:23:39 +02:00
Daniele Bariletti 93d6077de6 Include : 
- aggiunto enum per trimming
- aggiunto argomento a RegolarizeLocally
 2026-05-07 11:28:20 +02:00
Dario Sassi 513ab88c6e Include : 
- aggiornamento codice di protezione mansile delle librerie
 2026-05-05 09:07:33 +02:00
Riccardo Elitropi 02208b5259 Include : 
- in MachiningGeoConst aggiunta costante MCH_HOME.
 2026-04-30 16:37:53 +02:00
Daniele Bariletti de9e442be8 Include : 
- modifiche alla chiamata di ModifyJoint.
- cambio nome alla ModifySingleCurve.
 2026-04-28 11:06:55 +02:00
Riccardo Elitropi 3d3b0a569c Include : 
- In EGkCalcPocketing aggiunto prototipo per svuotature di fori.
 2026-04-28 11:02:55 +02:00
Daniele Bariletti 903d20744c Include : 
- aggiunte funzioni di utilità per le CurveComposite.
 2026-04-27 14:59:09 +02:00
Daniele Bariletti cf26040cc5 Merge branch 'master' of https://gitlab.steamware.net/egalware-cadcam/libreriebase/Include 2026-04-22 16:45:36 +02:00
Daniele Bariletti 082a2831df Include : 
- aggiornamento prototipi.
 2026-04-22 16:45:28 +02:00
Riccardo Elitropi 717267e832 Include : 
- modifica alla costante per nome entità CamData in Drilling in Doppio in Parallelo.
 2026-04-22 13:11:56 +02:00
Daniele Bariletti abd033342b Include : 
- aggiunte funzioni per la regolarizzazione dei bordi di una surf di trimming.
-
 2026-04-21 15:08:56 +02:00
Dario Sassi 7b3aeb6c4c Include : 
- aggiornamento prototipi.
 2026-04-19 10:52:31 +02:00
Dario Sassi 707e8f089a Include : 
- aggiornamento prototipi.
 2026-04-15 08:55:04 +02:00
Daniele Bariletti f91035138c Include : 
- aggiunte funzioni per la creazione di smooth ruled bezier.
 2026-04-10 18:18:30 +02:00
Dario Sassi f5fb14805b Include : 
- aggiornamento prototipi.
 2026-04-08 19:23:15 +02:00
Dario Sassi e587f78c21 Include : 
- aggiornamento codice di protezione mansile delle librerie.
 2026-04-01 10:23:29 +02:00
Riccardo Elitropi 32fecb707c Include : 
- in CalcPocketing aggiunti parametri per gestione lucidature.
 2026-03-31 18:50:52 +02:00
Daniele Bariletti 707c01e3e3 Include : 
- aggiunta funzione di utilità per le bezier.
 2026-03-31 16:20:24 +02:00
Riccardo Elitropi 27095ab86b Merge commit 'a11da73e368f70969ffdd3e8d3acc6988ff6aa06' 2026-03-31 14:33:00 +02:00
Riccardo Elitropi a11da73e36 Include (Nst_SurfFr) : 
- modifica stilistica.
 2026-03-31 14:32:41 +02:00
Riccardo Elitropi ca5efc44a9 Include (Nst_SurfFr) : 
- aggiornamento prototipi.
 2026-03-30 18:14:56 +02:00
Riccardo Elitropi 4352332d54 Include (Nst_SurfFr) : 
- primo commit per CAv tra Regioni Piane con loop interni e Interferenza tra Regioni Piane.
 2026-03-27 18:32:58 +01:00
Daniele Bariletti 0b155ef732 Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2026-03-26 12:41:00 +01:00
Daniele Bariletti 71e670357b Include : 
- aggiornamento prototipi.
 2026-03-26 12:40:51 +01:00
Dario Sassi 41f2151748 Include : 
- aggiornamento prototipi.
 2026-03-25 16:39:15 +01:00
Riccardo Elitropi 28ae97ae20 Include : 
- modificati prototipi per funzioni di creazione Zmap per versioni a 32Bit.
 2026-03-24 16:00:07 +01:00
Dario Sassi cac25dd095 Include : 
- aggiornamento prototipi.
 2026-03-20 09:04:43 +01:00
Dario Sassi 2eccae4b92 Include : 
cambio nome funzioni da EraseFins a RemoveFins.
 2026-03-19 19:29:02 +01:00
Riccardo Elitropi fac9c9cbc7 Include : 
- aggiunti prototipi funzione EraseFins per gli Zmap.
 2026-03-19 18:47:03 +01:00
Riccardo Elitropi c879b37f7d Include : 
- in MachMgr ed ExeExecutor aggiunte funzioni per ottenere vTDir, vCDir e vADir dalle entità CamData.
 2026-03-18 16:22:37 +01:00
Daniele Bariletti a6c5a4e6ca Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2026-03-16 17:00:28 +01:00
Daniele Bariletti b6a535a3b7 Include : 
- aggiunto parametro alla GetSide della DistPointCurve.
 2026-03-16 17:00:20 +01:00
Dario Sassi 84ae21db77 Include : 
- aggiornamento prototipi.
 2026-03-13 13:36:31 +01:00
Daniele Bariletti 89d62ea86a Include : 
- cambio restituzione valori per ExeSurfBezParamsFromPoint.
 2026-03-12 18:13:30 +01:00
Daniele Bariletti 4e4ac1353e Include : 
- aggiunte funzioni per l'analisi di una surf di bezier.
 2026-03-11 16:08:12 +01:00
Daniele Bariletti f24ca04620 Include : 
- modifica alla chiamata LUA per EgtSurfBezParamsFromPoint
- resa disponibile interfaccia per ExeSurfBezParamsFromPoint.
 2026-03-10 17:34:01 +01:00
Daniele Bariletti 6819363068 Include : 
- piccola correzione.
 2026-03-05 09:11:35 +01:00
Daniele Bariletti bd01cb72fd Include : 
- piccola correzione.
 2026-03-04 15:33:47 +01:00
Daniele Bariletti 32cba3873e Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2026-03-04 15:29:22 +01:00
Daniele Bariletti ee7aabb242 Include : 
- aggiunta funzione per chiedere a che part appartiene una faccia di una trimesh.
 2026-03-04 15:29:15 +01:00
Dario Sassi 552c408827 Include : 
- aggiornamento prototipi.
 2026-03-03 18:33:07 +01:00
Riccardo Elitropi 8bd32361be Merge commit '4833024c3e984fbeaad901a9e37eb09e9e862823' 2026-03-03 17:16:42 +01:00
Riccardo Elitropi 4833024c3e Include : 
- aggiunto nome Entità CL speciali per drilling in doppio.
 2026-03-03 17:12:16 +01:00
Riccardo Elitropi ac47b1bf6f Merge commit 'a1bcc4ff9e08d79ee4e42043bab5adf5044716c8' into Preview 2026-03-03 17:11:08 +01:00
Dario Sassi a1bcc4ff9e Include : 
- aggiornamento codice di protezione mansile delle librerie.
 2026-03-03 08:42:22 +01:00
Riccardo Elitropi c0657147bb Include (Preview utensile) : 
- aggiunta costante per gruppo ST per lavorazione in doppio.
 2026-02-27 17:09:41 +01:00
Dario Sassi 9bbb8506e9 Include : 
- aggiunta funzione ToString per C vector unsigned int.
 2026-02-24 08:37:36 +01:00
Dario Sassi 5045a04dca Include : 
- ritocco estetico.
 2026-02-23 12:39:01 +01:00
Daniele Bariletti b4f0bc19ce Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2026-02-23 09:46:01 +01:00
Daniele Bariletti f841a7444b Include : 
- aggiunto flag per la funzione GetLeaves.
 2026-02-23 09:45:48 +01:00
Riccardo Elitropi d481592dfa Include : 
- Aggiunte funzioni per Trimming.
 2026-02-20 16:53:22 +01:00
Dario Sassi 73fcfd5138 Include : 
- aggiornamento codice di protezione mansile delle librerie.
 2026-02-16 11:53:58 +01:00
Daniele Bariletti 754f2bd12d Include : 
- riduzione dimensione minima di default per i triangoli nelle surf bezier.
 2026-02-12 16:18:28 +01:00
Daniele Bariletti 3ce904e2dd Include : 
- aggiunta modalità di approssimazione con bezier.
- aggiornata la chiamata alla funzione di approssimazione con bezier.
 2026-02-11 16:45:02 +01:00
Dario Sassi cd8bf29916 Include : 
- aggiornamento prototipi.
 2026-02-09 08:23:32 +01:00
Daniele Bariletti 003ff35da1 Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2026-02-05 16:51:56 +01:00
Daniele Bariletti bf9ea5e644 Include : 
- aggiornamento prototipi.
 2026-02-05 16:51:48 +01:00
Dario Sassi cdc2df5d64 Merge branch 'master' of https://gitlab.steamware.net/egaltech/include 2026-02-03 17:29:47 +01:00
Dario Sassi 47cdbac0e3 Include : 
- aggiornamento prototipi.
 2026-02-03 17:29:00 +01:00
Riccardo Elitropi 4589358588 Include : 
- in Trimming aggiunte funzioni per riconoscimento Fori e Asole.
- in Trimming pulizia codice.
 2026-02-03 17:14:18 +01:00
Riccardo Elitropi 1efe9e2395 Include : 
- in Trimming piccola correzione.
 2026-01-26 18:01:39 +01:00
Dario Sassi 2c6c6b9e96 Include : 
- per BTL aggiunto flag di gestione geometrica del PARTOFFSET.
 2026-01-23 18:52:11 +01:00
Riccardo Elitropi b54a74726d Include : 
- piccola miglioria.
 2026-01-23 18:03:07 +01:00
Dario Sassi dec994247a Includee : 
- aggiornamento parametri.
 2026-01-23 10:22:52 +01:00
Daniele Bariletti 71b98a0505 Include : 
- aggiornata funzione GetSurfBezierRuledGuided.
 2026-01-22 11:25:13 +01:00
Riccardo Elitropi 7bace5d80f Include : 
- in Trimming aggiornamento prototipi.
 2026-01-21 18:26:15 +01:00
Daniele Bariletti 7084ab34c8 Include : 
- spostata la funzione GetChainedCurves.
 2026-01-21 10:04:38 +01:00
Riccardo Elitropi ed77709276 Include : 
- modifica prototipi per funzioni di Trimming.
 2026-01-20 17:28:05 +01:00
Daniele Bariletti f3631e973a Include : 
- aggiunta utilità per la classe chianCurve.
 2026-01-19 15:27:55 +01:00
Daniele Bariletti 979d989232 EgtExecutor : 
- modificata la chiamata a GetSurfBezierRuledGuided.
 2026-01-19 12:33:03 +01:00
Daniele Bariletti a89307aeeb Include : 
- aggiunti argomenti alla fuzione GetSurfBezierRuledGuided.
 2026-01-15 11:51:08 +01:00
Daniele Bariletti 205af03a9b Include : 
- piccola miglioria.
 2026-01-12 11:24:09 +01:00
Dario Sassi d41673218e Include : 
- aggiornamento prototipi.
 2026-01-09 19:00:56 +01:00
Dario Sassi d379137f70 Include : 
- tutte le funzioni ToStringAdv sono diventate inline nell'header.
 2026-01-09 15:39:40 +01:00
Dario Sassi 941daabb49 Include : 
- aggiornamento prototipi per striping di superfici per trimming dei termoformati.
 2026-01-04 20:38:36 +01:00
Dario Sassi 6b7b59ae58 Include : 
- aggiornamento prototipi.
 2026-01-04 12:54:12 +01:00
Dario Sassi ac8b796d10 Include : 
- cambio codici di protezione Dll (ora 31xx).
 2026-01-02 12:28:19 +01:00
Dario Sassi 5b26ab4733 Include : 
- aggiunta costante GDB_SV_CMPBIN per salvatggio binario compresso del DB geometrico.
 2025-12-29 08:42:43 +01:00
Dario Sassi df70cef32d Include : 
- aggiornamento prototipi.
 2025-12-23 15:34:12 +01:00
Daniele Bariletti 02bea83d38 Include : 
- aggiunta funzione di correzione per bezier importate.
 2025-12-19 15:05:38 +01:00
Dario Sassi 25817a8911 Include : 
- aggiornamento prototipi.
 2025-12-19 09:47:27 +01:00
Riccardo Elitropi 6b59d709f6 Include : 
- modifica prototipi in Machining Optimization.
 2025-12-18 09:03:03 +01:00
Riccardo Elitropi bb9f7b5fba Include : 
- in Machining Optimization aggiunta gestione OpenBounds.
 2025-12-17 14:56:51 +01:00
Riccardo Elitropi 06d074869d Include : 
- in Machining Optimization aggiunta ottimizzazione mirata ai singoli gruppi.
 2025-12-16 15:43:24 +01:00
Dario Sassi fd7873a501 Include : 
- modifiche estetiche.
 2025-12-15 16:51:56 +01:00
Riccardo Elitropi 106c053a09 Include : 
- Aggiunta funzione di creazione SurfTm Shell.
 2025-12-15 11:27:08 +01:00
Dario Sassi d44f31af7f Include : 
- aggiornamento prototipi.
 2025-12-11 08:49:01 +01:00
Dario Sassi 08ddbc9291 Include : 
- aggiornamento prototipi.
 2025-12-09 08:13:01 +01:00
Riccardo Elitropi d213cd0cd6 Include : 
- in Redis aggiunta lettura ultimo Messaggio.
 2025-12-04 14:26:02 +01:00
Dario Sassi 034cff8431 Include : 
- aggiornamento codici di protezione mensili.
 2025-12-01 11:58:01 +01:00
Riccardo Elitropi 6a70d13cd9 Include : 
Aggiunte costanti per intersezione Linea con Box.
 2025-12-01 08:34:11 +01:00
Dario Sassi 8fc265c399 Include : 
- aggiornamento prototipi
- aggiunta costante generale PREC_SCALE_COEFF.
 2025-11-24 10:03:27 +01:00
Daniele Bariletti b311f9f343 Include : 
- aggiunta la possibilità di filtrare le intersezioni 3d per una IntersCurveCurve.
 2025-11-19 13:09:13 +01:00
Daniele Bariletti 229eef8d19 Include : 
- aggiunto un parametro per la restituzione dei parametri di un vertice di una trimesh.
 2025-11-18 16:16:12 +01:00
Daniele Bariletti eb09b797a0 Include : 
- aggiunta funzione per la verifica dell'overlap tra box in frame diversi.
 2025-11-18 11:33:31 +01:00
Daniele Bariletti ee9bff2fe9 Include : 
- piccola correzione.
 2025-11-18 09:53:39 +01:00
Daniele Bariletti 7cc55217f8 Include : 
- correzione prototipi.
 2025-11-18 09:14:52 +01:00
Daniele Bariletti dacf041b67 Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2025-11-17 16:52:39 +01:00
Daniele Bariletti 1d43a09141 Include : 
- aggiunte funzioni di utilità per plane3d e bbox3d.
 2025-11-17 16:52:34 +01:00
Dario Sassi 1655127475 Include : 
- aggiunte costanti
- piccola miglioria in funzione inline.
 2025-11-15 10:59:29 +01:00
Dario Sassi 45c642e51a Include : 
- salvataggio file come UTF-8 no BOM.
 2025-11-12 15:59:52 +01:00
Daniele Bariletti 4f79b63f80 Merge branch 'NewRuled' 2025-11-12 13:09:36 +01:00
Daniele Bariletti 69b3f4f555 Include : 
- aggiunto un parametro di ritorno alla inters curve-plane.
 2025-11-12 13:09:16 +01:00
Daniele Bariletti f2d39a98a7 Merge branch 'master' into NewRuled 2025-11-12 08:53:36 +01:00
Daniele Bariletti a39ea29632 Include : 
- aggiunta classe inters curve plane.
- aggiunta funzione surf ruled guided.
 2025-11-12 08:53:12 +01:00
Dario Sassi 4c6d87389d Include : 
- aggiornamento prototipi.
 2025-11-07 17:58:39 +01:00
Dario Sassi d580b3dacb Include : 
- aggiornamento prototipi.
 2025-11-06 18:47:08 +01:00
Dario Sassi 9472b42520 Include : 
- aggiornamento prototipi e costanti.
 2025-11-05 11:28:08 +01:00
Riccardo Elitropi 0fa10b233f Include : 
- aggiunta funzione per il calcolo della curvatura in un vertice per una superficie TriMesh.
 2025-11-04 15:56:56 +01:00
Dario Sassi 658a6a319b Include : 
- aggiornamento prototipi.
 2025-11-03 18:07:10 +01:00
Dario Sassi 3b9501cfdd Include : 
- aggiornamento prototipi.
 2025-11-03 15:17:36 +01:00
Dario Sassi d4d7b75015 Include : 
- aggiornamento prototipi
- modifiche a UserObjFactory per passaggio a C++ 20.
 2025-11-01 17:16:46 +01:00
Riccardo Elitropi ef8565ce72 Include : 
- in Redis aggiunta gestione di connessioni multiple.
 2025-10-31 10:36:41 +01:00
Dario Sassi c8e73a6f15 Include : 
- aggiornamento prototipi.
 2025-10-29 19:29:34 +01:00
Daniele Bariletti 7ebf9a6fb0 Include : 
- aggiunta funzione per il calcolo della distanza tra punto e superficie di Bezier.
 2025-10-29 15:12:28 +01:00
Daniele Bariletti fe9d75c14f Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2025-10-29 14:50:35 +01:00
Daniele Bariletti 809b1a4405 Include : 
- aggiunta classe DistPointSurfBz
 2025-10-29 14:50:29 +01:00
Dario Sassi 766508b041 Include : 
- aggiornamento prototipi.
 2025-10-28 16:18:15 +01:00
Dario Sassi 1cc997c31a Include : 
- aggiornamento prototipi.
 2025-10-28 15:23:01 +01:00
Daniele Bariletti 2a91cddd37 Include : 
- aggiunta modalità di creazione di una polyline.
 2025-10-24 11:53:52 +02:00
Daniele Bariletti b1a801ed60 Include : 
- cambiata la gestione della razionalità per la conversione in curve di bezier.
 2025-10-22 12:54:43 +02:00
Daniele Bariletti 779569644b Include : 
- aggiornata la chiamata a GetApproxSurf per le bezier.
 2025-10-21 12:26:02 +02:00
Daniele Bariletti 5b5cc241db Include : 
- aggiornati prototipi.
 2025-10-21 09:38:42 +02:00
Daniele Bariletti cb7dbb0e52 Include : 
- piccola correzione.
 2025-10-17 15:41:25 +02:00
Daniele Bariletti 5113903eb2 Include: 
- aggiornati gli argomenti della funzione per il calcolo dell'errore di approssimazione.
 2025-10-17 15:37:55 +02:00
Daniele Bariletti df4e8edcef Include : 
- aggiornati prototipi per surf bezier.
 2025-10-14 16:24:27 +02:00
Dario Sassi 98d2a79026 Include : 
- aggiornamento prototipi.
 2025-10-13 09:49:05 +02:00
Dario Sassi 3d06ce7c60 Include : 
- modifiche nelle dichiarazioni dei puntatori a funzione
- aggiornamento prototipi.
 2025-10-13 08:45:31 +02:00
Dario Sassi c2032ba0af Include : 
- aggiornamento prototipi.
 2025-10-11 10:01:18 +02:00
Daniele Bariletti 22681a960d Include : 
- aggiunto un tipo di interpolazione con le bezier.
 2025-10-10 12:13:32 +02:00
Riccardo Elitropi e7a6f95012 Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2025-10-09 09:35:29 +02:00
Riccardo Elitropi 7b98133ae5 Include : 
- Estesa e migliorata la funzione MakeUniform per VolZMap.
 2025-10-09 09:35:22 +02:00
Dario Sassi 2d430c3fd6 Include : 
- aggiornamento prototipi.
 2025-10-08 18:30:06 +02:00
Dario Sassi b127fca1f3 Include : 
- aggiornamento codici di protezione mensili.
 2025-10-07 13:33:00 +02:00
SaraP 4b22adfdfa Include : 
- aggiunto prototipo.
 2025-10-02 11:18:07 +02:00
Riccardo Elitropi 7727db9a8a Include : 
- modifica prototipi per funzioni redis
- aggiunta funzione GetValInNotes con parametro aggiuntivo.
 2025-09-26 11:55:43 +02:00
Daniele Bariletti f6caa955e2 Include : 
- aggiornamento prototipi bezier per parametro razionale.
 2025-09-26 10:42:48 +02:00
Dario Sassi 2e15fcf59f Include : 
- aggiornamento prototipi.
 2025-09-25 16:47:53 +02:00
Riccardo Elitropi 35ce9e3621 Include : 
- aggiunti prototipi funzioni hiredis.
 2025-09-24 16:08:16 +02:00
Dario Sassi 7b7dc44aaf Include : 
- aggiunta definizione di coppie di double e relative raccolte.
 2025-09-22 18:32:44 +02:00
Dario Sassi 871cd05201 Include : 
- aggiornamento prototipi.
 2025-09-19 11:12:05 +02:00
Dario Sassi 6f7c15cf54 Include : 
- aggiunte FromString e ToString per long long.
 2025-09-18 10:36:51 +02:00
Daniele Bariletti b4305fc503 Include : 
- aggiunta funzione per creare il loop di un triangolo di una trimesh.
 2025-09-17 11:27:13 +02:00
Daniele Bariletti ccbbc31395 Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2025-09-16 14:37:16 +02:00
Daniele Bariletti a755677379 Include : 
- correzione valore di default di ingrandimento box per la costruzione VolZmap da trimesh.
 2025-09-16 14:37:10 +02:00
Dario Sassi 8e99498a6b Include : 
- aggiornamento prototipi.
 2025-09-14 23:01:20 +02:00
Riccardo Elitropi 45aa980693 Include : 
- Aggiunte funzioni per Offset Fillet di VolZmap e per Offset generici di superfici TriMesh aperte.
- Aggiunta funzione in DistPointSurfTm per ottenere i triangoli a minima distanza.
 2025-09-12 16:56:44 +02:00
Daniele Bariletti bfffbbf37b Include : 
- correzione aggiornamento conversione bezier.
 2025-09-12 15:58:56 +02:00
Daniele Bariletti 8da5aeb3a4 Merge branch 'FasterVMill5Axis_Bez3x1' 2025-09-12 15:43:12 +02:00
Daniele Bariletti 65e20afeab Include : 
- aggiornate le interfacce per le funzioni di conversione di curve in/da bezier.
 2025-09-12 15:39:24 +02:00
Daniele Bariletti d8c4b93e46 Merge branch 'master' into FasterVMill5Axis_Bez3x1 2025-09-12 15:12:19 +02:00
Daniele Bariletti d39e6dfe19 Include : 
- enum per intersezione linea bezier.
 2025-09-12 13:18:19 +02:00
SaraP ee01a02292 Include : 
- aggiunti prototipi per calcolo shear sequence nel nesting
- aggiunta funzione LuaSetParam per vettore di punti.
 2025-09-12 10:20:30 +02:00
Dario Sassi d8f50f040c Include : 
- aggiornamento parametri.
 2025-09-11 15:20:55 +02:00
Daniele Bariletti 9cbfcd7422 Include : 
- aggiunte intersezioni linea triangolo ausiliario per le sup di bezier.
 2025-09-10 09:47:47 +02:00
Dario Sassi 4cc94522ca Include : 
- ripristinate costanti risultato intersezione linea triangolo.
 2025-09-10 08:51:58 +02:00
Dario Sassi fd3d53c777 Merge branch 'master' of https://gitlab.steamware.net/egaltech/include 2025-09-10 08:18:30 +02:00
Dario Sassi 6699e21059 Include : 
- aggiornamento prototipi.
 2025-09-10 08:10:36 +02:00
Daniele Bariletti 59dc7c0cce Include : 
- aggiunta una funzione per l'accoppiamento delle polyline.
- aggiornato un enum per le intersezioni linea trinagolo.
 2025-09-09 15:02:17 +02:00
Riccardo Elitropi 2010e58f5c Include : 
- Aggiunta gestione Offset Thickening per superfici TriMesh
- Aggiunta gestione Offset Chamfer ed Extend.
 2025-09-05 17:00:44 +02:00
Dario Sassi 5df80c8ae7 Include : 
- aggiornamento codici di protezione mensili.
 2025-09-04 19:34:43 +02:00
Daniele Bariletti d377f00b9b Include : 
- aggiunta commenti.
 2025-09-02 13:21:54 +02:00
Daniele Bariletti be2c7b8d7d Include : 
- uniformazione delle funzioni di conversione in curve di bezier.
 2025-08-28 16:10:38 +02:00
Dario Sassi 6c3cb3289e Include : 
- aggiornamento prototipi.
 2025-08-24 19:15:57 +02:00
SaraP c98318f8ba Include : 
- aggiunte nuove costanti per lavorazione SawRoughing.
 2025-08-22 12:34:37 +02:00
Dario Sassi 31436bfb7c Include : 
- aggiunta funzione Pow per potenze con esponente intere caclolate in modo efficiente
- aggiunti prototipi di funzioni per impostazione tolleranze per superfici di Bezier.
 2025-08-22 11:29:30 +02:00
Riccardo Elitropi fd382173c9 Include : 
- In IntersParLinesSurfTm aggiunta estensione per intersezione con vettore di superfici TriMesh e aggiunto indice di superficie in IntLinStmInfo.
 2025-08-04 14:43:24 +02:00
Dario Sassi efe425a243 Include : 
- aggiornamento codice di protezione mensile.
 2025-08-03 13:38:24 +02:00
Dario Sassi 97767e1945 Include : 
- aggiornamento prototipi.
 2025-07-22 08:33:02 +02:00
Riccardo Elitropi 53cf69101e Include : 
- in EGkCalcPocketing aggiunto flag per calcolo delle regioni non svuotate alla funzione CalcPocketing
 2025-07-14 10:20:13 +02:00
Dario Sassi d0292c7fcf Include : 
- prime sistemazioni per offset superfici trimesh tramite Zmap.
 2025-07-07 14:58:13 +02:00
Riccardo Elitropi f96c15de7e Include : 
- aggiunte funzioni per calcolo di Zmap e TriMesh di Offset Fillet Thickening.
 2025-07-04 12:58:17 +02:00
Riccardo Elitropi a8d98900e4 Include : 
- in EGkSurfTriMesh aggiunte le funzioni per il calcolo dei Box delle Parts
 2025-07-02 11:45:26 +02:00
Dario Sassi afa460495a Include : 
- aggiornamento codice di protezione mensile.
 2025-07-02 08:22:27 +02:00
Riccardo Elitropi 35dcbbf6d0 Include : 
- aggiunte funzioni per Offset e FatOffset per un insieme di curve
- in MachiningConst aggiunto il tipo di finitura Pencil.
 2025-06-25 15:47:06 +02:00
Riccardo Elitropi c0de49ff5c Include : 
- aggiornamento prototipi IVolZmap.
 2025-06-19 12:44:23 +02:00
Riccardo Elitropi 3cceff83c9 Include : 
- ricollocazione funzione di Offset per superfici TriMesh chiuse.
 2025-06-16 13:18:41 +02:00
Riccardo Elitropi 9c2ccb300e Include : 
- Aggiunte funzioni per Offset di Stm chiuse.
 2025-06-16 11:26:07 +02:00
Dario Sassi 172037d8a7 Include : 
- aggiunta costante per nuovo tipo Plunge in lavorazione di mortasatura (MORTISE_PLUNGE_STEP_NO_SAFEZ = 10).
 2025-06-11 19:22:49 +02:00
Dario Sassi 125cce1983 Include : 
- aggiunte costanti per utensile di tipo Probe
- aggiunte costanti per operazione/lavorazione Probing.
 2025-06-10 18:29:01 +02:00
Riccardo Elitropi ec4162e8be Merge branch 'master' of https://gitlab.steamware.net/egaltech/Include 2025-06-09 12:17:35 +02:00
Riccardo Elitropi 0c72da8b1c Include : 
- In CalcPocketing piccola modifica sui nomi dei parametri della funzione.
 2025-06-09 12:14:21 +02:00
Dario Sassi 5d25f7917e Include : 
- aggiornamento prototipi.
 2025-06-08 12:15:09 +02:00
Dario Sassi c22d4bbcd9 Include : 
- aggiornamento mensile codici protezione librerie.
 2025-06-06 16:11:53 +02:00
Dario Sassi 6a355ccfe3 Include : 
- aggiornamento prototipi.
 2025-05-31 11:55:40 +02:00
Riccardo Elitropi 0e636829dd Include : 
- modifica parametri per CalcPocketing.
 2025-05-30 11:47:09 +02:00
Riccardo Elitropi 9f41af0b3c Include : 
- in CalcPocketing aggiunta temp prop per casi SpiralCirle.
 2025-05-27 14:28:47 +02:00
Riccardo Elitropi 410b6aa2b5 Include : 
- Modifica prototipi alle funzioni per generare la FatCurve.
 2025-05-27 08:29:44 +02:00
Daniele Bariletti 82cb2d7010 Include : 
- aggiunta funzione per il riempimento di un box3D.
 2025-05-20 10:06:47 +02:00
Riccardo Elitropi 47e48d2439 Include : 
- Esposta funzione di smusso curve in CalcPocketing
- Aggiunto parametro MaxOptSize a CalcPocketing.
 2025-05-15 16:25:32 +02:00
Dario Sassi 8a4c550e2e Include : 
- aggiornamento prototipi.
 2025-05-12 09:45:40 +02:00
Riccardo Elitropi 880967a813 Include : 
- Aggiunta costante per lati aperti interni al grezzo per le sottocurve/curve
- Rimozione parametro in ModifyRawPart.
 2025-05-09 16:13:04 +02:00
Dario Sassi 1fe12bac99 EgtInclude : 
- aggiornamento mensile codici protezione librerie.
 2025-05-02 19:10:17 +02:00
Dario Sassi 94fe68fd89 Include : 
- corretto valore costante RUL_TYPE_ISOPAR_SMOOTH (deve essere 2 come altra costante cui fa riferimento).
 2025-04-28 08:30:15 +02:00
Dario Sassi 9a37f9033a Include : 
- aggiornamento prototipi.
 2025-04-23 12:16:38 +02:00
Dario Sassi c77fb38e64 Merge commit 'bb029712a9805c52ec5b2d2735559be8e574ce42' 2025-04-23 10:54:29 +02:00
Riccardo Elitropi bb029712a9 Include : 
- Aggiunte funzioni e definizioni per classe di calcolo per ottimizzazione lavorazioni
- Aggiunti vincoli per algoritmo ShortestPath
- Aggiunte funzioni per Executor.
 2025-04-23 10:08:37 +02:00
Daniele Bariletti 2233bab91f Merge branch 'FasterBezier' 2025-04-14 11:22:09 +02:00
60 changed files with 1404 additions and 322 deletions
Expand all files Collapse all files
EExBeamConst.h
+5 -3
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@@ -1,13 +1,14 @@
//----------------------------------------------------------------------------
// EgalTech 2020-2022
// EgalTech 2020-2026
//----------------------------------------------------------------------------
// File : EExBeamConst.h Data : 04.04.22 Versione : 2.4d2
// File : EExBeamConst.h Data : 23.01.26 Versione : 3.1a2
// Contenuto : Dichiarazione delle costanti per travi e pareti con BTL.
//
//
//
// Modifiche : 30.08.20 DS Creazione modulo.
// 04.04.22 DS Aggiunto EIBFLAG_TRIM_WITH_OUTLINE.
// 23.01.26 DS Aggiunto EIBFLAG_PARTOFFSET.
//
//----------------------------------------------------------------------------
@@ -22,4 +23,5 @@ enum EImBtlFlag { EIBFLAG_NONE = 0x0000,
EIBFLAG_SORT = 0x0010, // ordina i pezzi nel DB in base al nome
EIBFLAG_USEUATTR = 0x0020, // utilizza i parametri utente U per modificare la geometria delle features
EIBFLAG_OUTL_FLAT_POS = 0x0040, // pezzi secondo outline o di piatto (prevale sui precedenti POS)
EIBFLAG_TRIM_WITH_OUTLINE = 0x0080} ; // esegui il trim delle feature con l'outline (se presente)
EIBFLAG_TRIM_WITH_OUTLINE = 0x0080, // esegui il trim delle feature con l'outline (se presente)
EIBFLAG_PARTOFFSET = 0x0100} ; // gestione geometrica del PARTOFFSET
EExBeamMgr.h
+5 -2
View File
@@ -16,6 +16,7 @@
#include "/EgtDev/Include/EGkGeomDB.h"
#include "/EgtDev/Include/EExBeamConst.h"
#include "/EgtDev/Include/EgtFunPtrType.h"
#include <string>
//----------------------- Macro per import/export ----------------------------
@@ -53,11 +54,13 @@ class __declspec( novtable) IBeamMgr
int nCrvId, int nCrv2Id, bool bUpdate = true) = 0 ;
virtual bool EraseProcess( int nGeomId, bool bUpdate = true) = 0 ;
virtual bool EnableProcess( int nGeomId, bool bEnable, bool bUpdate = true) = 0 ;
virtual bool CalcAllSolids( bool bShow, bool bRecalc, pcfProcEvents pFun = nullptr) = 0 ;
virtual bool ShowAllSolids( bool bShow, pcfProcEvents pFun = nullptr) = 0 ;
virtual bool CalcSolid( int nPartId, bool bRecalc = false) = 0 ;
virtual int GetSolid( int nPartId) const = 0 ;
virtual bool ShowSolid( int nPartId, bool bShow) = 0 ;
virtual bool GetBuildingIsOn( void) const = 0 ;
virtual bool ShowBuilding( bool bShow) = 0 ;
virtual bool GetBuildingIsOn( int nAssGrpId) const = 0 ;
virtual bool ShowBuilding( int nAssGrpId, bool bShow) = 0 ;
} ;
EGkBBox3d.h
+11 -1
View File
@@ -15,6 +15,8 @@
#pragma once
#include "/EgtDev/Include/EGkPoint3d.h"
#include "/EgtDev/Include/EGkFrame3d.h"
#include <vector>
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
@@ -47,7 +49,7 @@ class EGK_EXPORT BBox3d
{ m_ptMin = Point3d( +INFINITO, +INFINITO, +INFINITO) ;
m_ptMax = Point3d( -INFINITO, -INFINITO, -INFINITO) ; }
void Set( const Point3d& ptP)
{ m_ptMin = ptP ; m_ptMax = ptP ; }
{ m_ptMin = ptP ; m_ptMax = ptP ; }
void Set( double dX, double dY, double dZ)
{ m_ptMin = Point3d( dX, dY, dZ) ; m_ptMax = m_ptMin ; }
void Set( const Point3d& ptP1, const Point3d& ptP2) ;
@@ -65,6 +67,8 @@ class EGK_EXPORT BBox3d
void Add( const Point3d& ptP) ;
void Add( double dX, double dY, double dZ) ;
void Add( const BBox3d& b3B) ;
void Add( const std::vector<Point3d>& vPnt) { for ( const Point3d& pt: vPnt){
Add( pt) ; }}
void Expand( double dDelta) ;
void Expand( double dDeltaX, double dDeltaY, double dDeltaZ) ;
const Point3d& GetMin( void) const
@@ -160,3 +164,9 @@ GetLocToLoc( const BBox3d& b3Box, const Frame3d& frOri, const Frame3d& frDest)
b3New.LocToLoc( frOri, frDest) ;
return b3New ;
}
//----------------------------------------------------------------------------
inline bool Overlaps( const BBox3d& bbA, const Frame3d& frA, const BBox3d& bbB, const Frame3d& frB)
{
return bbA.Overlaps( GetToLoc( frB, frA), bbB) ;
}
EGkCAvSimpleSurfFrMove.h
+14 -7
View File
@@ -35,20 +35,27 @@ const int SCI_LINE_LINE = 4 ; // tra linea di mobile e linea di fiss
struct SCollInfo
{
int nType ; // tipo di collisione
int nChunkM ; // indice del chunk della regione mobile
int nCrvM ; // indice della curva nel loop esterno del chunk
int nLoopM ; // indice del loop del chunk della regione mobile
int nCrvM ; // indice della curva nel loop del chunk
int nChunkF ; // indice del chunk della regione fissa
int nCrvF ; // indice della curva nel loop esterno del chunk
int nLoopF ; // indice del loop del chunk della regione fissa
int nCrvF ; // indice della curva nel loop del chunk
Point3d ptP1 ; // punto di contatto
Point3d ptP2 ; // se contatto linea-linea, secondo punto di contatto
Vector3d vtDirM ; // se contatto del mobile con linea, sua direzione
Vector3d vtDirF ; // se contatto del fisso con linea, sua direzione
// costruttori
SCollInfo() : nType( SCI_NONE), nChunkM( -1), nCrvM( -1), nChunkF( -1), nCrvF( -1),
SCollInfo() : nType( SCI_NONE), nChunkM( -1), nLoopM( -1), nCrvM( -1), nChunkF( -1), nLoopF( -1), nCrvF( -1),
ptP1(), ptP2(), vtDirM(), vtDirF() {}
SCollInfo( const SCollInfo& Sou) : nType( Sou.nType), nChunkM( Sou.nChunkM), nCrvM( Sou.nCrvM),
nChunkF( Sou.nChunkF), nCrvF( Sou.nCrvF), ptP1( Sou.ptP1),
ptP2( Sou.ptP2), vtDirM( Sou.vtDirM), vtDirF( Sou.vtDirF) {}
SCollInfo( const SCollInfo& Sou) : nType( Sou.nType),
nChunkM( Sou.nChunkM), nLoopM( Sou.nLoopM), nCrvM( Sou.nCrvM),
nChunkF( Sou.nChunkF), nLoopF( Sou.nLoopF), nCrvF( Sou.nCrvF),
ptP1( Sou.ptP1), ptP2( Sou.ptP2), vtDirM( Sou.vtDirM), vtDirF( Sou.vtDirF) {}
} ;
//----------------------------------------------------------------------------
@@ -67,4 +74,4 @@ class CAvSimpleSurfFrMove
const ISurfFlatRegion* m_pRegM ;
const ISurfFlatRegion* m_pRegF ;
SCollInfo m_SCollInfo ;
} ;
} ;
EGkCAvSurfFrMove.h
+41
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@@ -0,0 +1,41 @@
//----------------------------------------------------------------------------
// EgalTech 2015-2018
//----------------------------------------------------------------------------
// File : EGkCAvSurfFrMove.h Data : 26.03.2026 Versione : 3.1c7
// Contenuto : Dichiarazione classe per movimento di superfici flat region
// nel loro piano evitando collisioni
//
// Modifiche : 26.03.26 RE Creazione modulo.
//
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkCAvSimpleSurfFrMove.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//----------------------------------------------------------------------------
class CAvSurfFrMove
{
public :
EGK_EXPORT CAvSurfFrMove( const ISurfFlatRegion& SfrM, const ISurfFlatRegion& SfrF) ;
public :
EGK_EXPORT bool Translate( const Vector3d& vtDir, double& dLen) ;
EGK_EXPORT bool Rotate( const Point3d& ptCen, double& dAng) ;
EGK_EXPORT const SCollInfo& GetCollInfo()
{ return m_CollInfo ; }
private :
const ISurfFlatRegion* m_pRegM ;
const ISurfFlatRegion* m_pRegF ;
SCollInfo m_CollInfo ;
} ;
EGkCDeClosedSurfTmClosedSurfTm.h
+2 -1
View File
@@ -33,5 +33,6 @@ EGK_EXPORT bool CDeClosedSurfTmClosedSurfTm( const ISurfTriMesh& SurfA, const IS
//----------------------------------------------------------------------------
// Verifica l'interferenza tra le due superfici : restituisce true in caso di interferenza.
// Se richiesta verifica inclusione se una delle due è chiusa controlla l'inclusione dell'altra.
//----------------------------------------------------------------------------
EGK_EXPORT bool TestSurfTmSurfTm( const ISurfTriMesh& SurfA, const ISurfTriMesh& SurfB, double dSafeDist) ;
EGK_EXPORT bool TestSurfTmSurfTm( const ISurfTriMesh& SurfA, const ISurfTriMesh& SurfB, double dSafeDist, bool bTestEnclosion = false) ;
EGkCalcPocketing.h
+36 -13
View File
@@ -25,10 +25,16 @@
#endif
//-----------------------------------------------------------------------------
EGK_EXPORT bool CalcPocketing( const ISurfFlatRegion* pSfr, double dRad, double dRadOffs, double dStep,
double dAngle, double dOpenMinSafe, int nType, bool bSmooth, bool bInvert, bool bAvoidOpt,
bool bAllowZigZagOneWayBorders, bool bCalcFeed, const Point3d& ptEndPrec, const ISurfFlatRegion* pSfrLimit,
bool bAllOffs, ICRVCOMPOPOVECTOR& vCrv) ;
// Per calcolo percorso di Svuotatura o di Lucidatura
EGK_EXPORT bool CalcPocketing( const ISurfFlatRegion* pSfr, double dRad, double dRadialOffs, double dStep,
double dAngle, double dOpenMinSafe, int nType, bool bSmooth, bool bCalcUnclReg, bool bInvert, bool bAvoidOpt,
bool bConventionalMilling, bool bAllowZigZagOneWayBorders, bool bCalcFeed, const Point3d& ptEndPrec,
const ISurfFlatRegion* pSfrLimit, bool bAllOffs, double dMaxOptSize,
int nLiType, double dLiTang, double dLiElev, int nLoType, double dLoTang,
bool bPolishing, double dEpicyclesRad, double dEpicyclesDist, bool bContour, ICRVCOMPOPOVECTOR& vCrv) ;
EGK_EXPORT bool IsPocketingHole( const ISurfFlatRegion* pSfr, double dRad, double dRadialOffs, double dStep, int nType,
int nLiType, double dLiTang, double dRatioSfrTool) ;
EGK_EXPORT bool CalcSmoothCurve( ICurveComposite* pCrv, double dRightLen, double dLeftLen, bool bAsParam) ;
EGK_EXPORT bool CalcZigZagInfill( const ISurfFlatRegion* pSfr, double dStep, bool bSmooth, bool bRemoveOverlapLink,
ICRVCOMPOPOVECTOR& vCrvCompoRes) ;
@@ -45,33 +51,50 @@ enum { POCKET_ZIGZAG = 0,
// Definizione di lato aperto e lato chiuso
enum {
TEMP_PROP_CLOSE_EDGE = 0,
TEMP_PROP_OPEN_EDGE = 1
TEMP_PROP_OPEN_EDGE = 1,
TEMP_PROP_OPEN_EDGE_IN_RAW = 2
} ;
// Definizione di curva invalida
enum {
TEMP_PROP_INVALID = - 1
TEMP_PROP_INVALID = -1
} ;
// Definizione curva di raccordo per smussi
enum {
TEMP_PROP_SMOOTH = - 2
TEMP_PROP_SMOOTH = -2
} ;
// Definizione tipo di curva per casi speciali
enum {
TEMP_PROP_SINGLE_CURVE = - 3,
TEMP_PROP_OPT_TRAPEZOID = - 4,
TEMP_PROP_BORDER_CURVE = - 5,
TEMP_PROP_SINGLE_CURVE = -3,
TEMP_PROP_OPT_TRAPEZOID = -4,
TEMP_PROP_BORDER_CURVE = -5,
TEMP_PROP_OPT_CIRCLE = -9,
TEMP_PROP_CONTOUR_BORDER = -10
} ;
// Definizione tipo di curva per entrate da fuori
enum {
TEMP_PROP_OUT_START = - 6
TEMP_PROP_OUT_START = -6
} ;
// Definizione di curva attiva/non attiva
enum {
TEMP_PROP_CURVE_ACTIVE = - 7,
TEMP_PROP_CURVE_INACTIVE = - 8
TEMP_PROP_CURVE_ACTIVE = -7,
TEMP_PROP_CURVE_INACTIVE = -8
} ;
// Definizione tipo LeadIn
enum {
LEAD_IN_NONE = 0,
LEAD_IN_GLIDE = 1,
LEAD_IN_ZIGZAG = 2,
LEAD_IN_HELIX = 3
} ;
// Definizione tipo LeadOut
enum {
LEAD_OUT_NONE = 0,
LEAD_OUT_GLIDE = 1
} ;
EGkCurve.h
+1 -1
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@@ -80,7 +80,7 @@ class __declspec( novtable) ICurve : public IGeoObj
virtual bool ApproxWithArcsEx( double dLinTol, double dAngTolDeg, double dLinFea, PolyArc& PA) const = 0 ;
virtual ICurve* CopyParamRange( double dUStart, double dUEnd) const = 0 ;
virtual bool Invert( void) = 0 ;
virtual bool SimpleOffset( double dDist, int nType = OFF_FILLET) = 0 ;
virtual bool SimpleOffset( double dDist, int nType = OFF_FILLET, double dMaxAngExt = ANG_RIGHT) = 0 ;
virtual bool SetExtrusion( const Vector3d& vtExtr) = 0 ;
virtual bool SetThickness( double dThick) = 0 ;
virtual bool ModifyStart( const Point3d& ptNewStart) = 0 ;
EGkCurveArc.h
+1 -1
View File
@@ -55,7 +55,7 @@ class __declspec( novtable) ICurveArc : public ICurve
virtual bool ChangeDeltaN( double dNewDeltaN) = 0 ;
virtual bool ChangeAngCenter( double dNewAngCenDeg) = 0 ;
virtual bool ChangeStartPoint( double dU) = 0 ;
virtual bool ExtendedOffset( double dDist, int nType = OFF_FILLET) = 0 ;
virtual bool ExtendedOffset( double dDist) = 0 ;
virtual bool ToExplementary( void) = 0 ;
virtual bool Flip( void) = 0 ;
} ;
EGkCurveAux.h
+40 -17
View File
@@ -17,6 +17,8 @@
class ICurveBezier ;
class ICurveLine ;
class ICurveArc ;
class ICurveComposite ;
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
@@ -43,44 +45,44 @@ struct CNurbsData
CNurbsData( void) : nDeg( 0), bRat( false), bPeriodic( false), bClosed( false), bClamped( true), bExtraKnotes(false) {}
} ;
// N.B. : in caso la curva sia razionale i punti di controllo sono in forma NON OMOGENEA [ x, y, z, w] ( dove la forma OMOGENEA è [ w*x, w*y, w*z, w])
// N.B. : in caso la curva sia razionale i punti di controllo sono in forma NON OMOGENEA [ x, y, z, w] ( dove la forma OMOGENEA [ w*x, w*y, w*z, w])
// tutte le operazioni richiedono la forma OMOGENEA, finite le quali posso riportarmi alla forma NON OMOGENEA
//----------------------------------------------------------------------------
//! Trasforma una linea in una nuova curva di Bezier semplice
EGK_EXPORT ICurve* CurveToBezierCurve( const ICurve* pCrv, int nDeg = 3, bool bMakeRatOrNot = true) ;
//! Trasforma una curva in una nuova curva di Bezier semplice
EGK_EXPORT ICurve* CurveToBezierCurve( const ICurve* pCrv, int nDeg = 3, bool bMakeRatOrNot = false) ;
//----------------------------------------------------------------------------
//! Trasforma una linea in una nuova curva di Bezier semplice
EGK_EXPORT ICurveBezier* LineToBezierCurve( const ICurveLine* pLine, int nDeg = 3, bool bMakeRatOrNot = true) ;
EGK_EXPORT ICurveBezier* LineToBezierCurve( const ICurveLine* pCrvLine, int nDeg = 3, bool bMakeRatOrNot = false) ;
//----------------------------------------------------------------------------
//! Trasforma un arco in una nuova curva di Bezier semplice o composta
EGK_EXPORT ICurve* ArcToBezierCurve( const ICurve* pArc, int nDeg = 3, bool bMakeRatOrNot = true) ;
EGK_EXPORT ICurve* ArcToBezierCurve( const ICurveArc* pArc, int nDeg = 3, bool bMakeRatOrNot = true) ;
//----------------------------------------------------------------------------
//! Trasforma una curva compo in una nuova curva di Bezier semplice o composta
EGK_EXPORT ICurve* CompositeToBezierCurve( const ICurveComposite* pCrvCompo, int nDeg = 3, bool bMakeRatOrNot = true) ;
EGK_EXPORT ICurve* CompositeToBezierCurve( const ICurveComposite* pCrv, int nDeg = 3, bool bMakeRatOrNot = false) ;
//----------------------------------------------------------------------------
//! Trasforma una curva bezier in una nuova curva di Bezier semplice o composta della razionalità e grado desiderato ( minimo 3)
EGK_EXPORT ICurve* EditBezierCurve( const ICurveBezier* pCrvBezier, int nDeg = 3, bool bMakeRatOrNot = true, double dTol = 10 * EPS_SMALL) ;
//! Trasforma una curva bezier in una nuova curva di Bezier semplice o composta della razionalit e grado desiderato ( minimo 3)
EGK_EXPORT ICurve* EditBezierCurve( const ICurveBezier* pCrv, int nDeg = 3, bool bMakeRatOrNot = false, double dTol = 10 * EPS_SMALL) ;
//----------------------------------------------------------------------------
//! Approssima una bezier con una serie di bezier cubiche
EGK_EXPORT ICurve* ApproxBezierWithCubics( const ICurveBezier* pCrvBezier, double dTol) ;
EGK_EXPORT ICurve* ApproxBezierWithCubics( const ICurve* pCrv, double dTol) ;
//----------------------------------------------------------------------------
//! Approssima una bezier con una serie di bezier cubiche
EGK_EXPORT ICurveBezier* ApproxArcCurveBezierWithSingleCubic( const ICurveBezier* pCrvBezier, const Point3d& ptCen) ;
EGK_EXPORT ICurveBezier* ApproxArcCurveBezierWithSingleCubic( const ICurve* pCrv, const Point3d& ptCen, const Vector3d& vtN) ;
//----------------------------------------------------------------------------
//! Campiona una serie di punti dalla curva e li approssima con una o più curve di bezier
EGK_EXPORT ICurve* ApproxCurveWithBezier( const ICurve*, double dTol) ;
//! Campiona una serie di punti dalla curva e li approssima con una o pi curve di bezier
EGK_EXPORT ICurve* ApproxCurveWithBezier( const ICurve* pCrv, double dTol, const Vector3d& vtStart = V_NULL, const Vector3d& vtEnd = V_NULL) ;
//----------------------------------------------------------------------------
//! Interpola un set di punti e li approssima con una o più curve di bezier cubiche
EGK_EXPORT ICurve* InterpolatePointSetWithBezier( const PNTVECTOR& vPnt, double dTol) ;
//! Interpola un set di punti e li approssima con una o pi curve di bezier cubiche
EGK_EXPORT ICurve* InterpolatePointSetWithBezier( const PNTVECTOR& vPnt, double dLinTol, double dMaxLen) ;
//----------------------------------------------------------------------------
//! Aumento il grado della curva di Bezier
@@ -92,7 +94,7 @@ EGK_EXPORT ICurveBezier* BezierDecreaseDegree( const ICurveBezier* pCrvBezier, d
//----------------------------------------------------------------------------
//! Misura l'errore di approsimazione tra la curva originale e quella modificata
EGK_EXPORT bool CalcBezierApproxError( const ICurveBezier* pCrvOri, const ICurveBezier* pCrvNew, double& dErr, int nPoints = 20) ;
EGK_EXPORT bool CalcApproxError( const ICurve* pCrvOri, const ICurve* pCrvNew, double& dErr, int nPoints = 20) ;
//----------------------------------------------------------------------------
//! Trasforma una curva in una nuova curva semplice o composta senza archi (solo linee o curve di Bezier)
@@ -141,7 +143,8 @@ EGK_EXPORT bool CalcCurvesMedialAxis( const CICURVEPVECTOR& vCrvC, ICURVEPOVECTO
//----------------------------------------------------------------------------
//! Calcola l'offset completo di una curva
EGK_EXPORT bool CalcCurveFatCurve( const ICurve& crvC, ICURVEPOVECTOR& vCrvs, double dRadius, bool bSquareEnds, bool bSquareMids) ;
EGK_EXPORT bool CalcCurveFatCurve( const ICurve& crvC, ICURVEPOVECTOR& vCrvs, double dRadius, bool bSquareEnds, bool bSquareMids,
bool bMergeOnlySameProps = true) ;
//----------------------------------------------------------------------------
//! Calcola, nel caso di curve chiuse, il valore limite di offset ( in valore assoluto) che fa sparire la curva
@@ -151,6 +154,26 @@ EGK_EXPORT bool CalcCurveLimitOffset( const ICurve& crvC, double& dOffs) ;
//! Calcola, se possibile, le curve di offset del valore richiesto come curve singole
EGK_EXPORT bool CalcCurveSingleCurvesOffset( const ICurve& crvC, ICURVEPOVECTOR& vCrvs, double dOffs) ;
//----------------------------------------------------------------------------
//! Calcola, se possibile, le curve di offset dato un vettore di curve aperte/chiuse
EGK_EXPORT bool CalcOffsetCurves( const ICURVEPVECTOR& vpCrvs, ICURVEPOVECTOR& vCrvs, double dOffs,
int nType = ICurve::OFF_FILLET) ;
//----------------------------------------------------------------------------
//! Calcola, se possibile, le fat curve di offset dato un vettore di curve aperte/chiuse
EGK_EXPORT bool CalcFatOffsetCurves( const ICURVEPVECTOR& vpCrvs, ICURVEPOVECTOR& vCrvs, double dOffs,
bool bSquareEnds, bool bSquareMids,
bool bMergeOnlySameProps = true) ;
//----------------------------------------------------------------------------
//! Resetta l'oggetto voronoi associato alla curva liberandone la memoria
EGK_EXPORT void ResetCurveVoronoi( const ICurve& crvC) ;
EGK_EXPORT void ResetCurveVoronoi( const ICurve& crvC) ;
//----------------------------------------------------------------------------
//! fa il join delle curve passate in input
EGK_EXPORT bool GetChainedCurves( ICRVCOMPOPOVECTOR& vCrv, double dChainTol = 5 * EPS_SMALL, bool bAllowInvert = false) ;
//----------------------------------------------------------------------------
//! dato un punto su una curva trova il corrispondente sulla seconda curva
EGK_EXPORT bool GetIsoPointOnSecondCurve( const ICurve* pCrv1, const ICurve* pCrv2, double dUCurr1, double& dUCurr2, double dMyDist, double dUPrev2,
double dLenPrev2, double& dLenCurr2, double dLen2) ;
EGkCurveByInterp.h
+1 -1
View File
@@ -36,7 +36,7 @@ class CurveByInterp
public :
enum METHOD { BESSEL = 1, AKIMA = 2, AKIMA_CORNER = 3} ;
enum TYPE { BIARCS = 1, CUBIC_BEZIERS = 2} ;
enum TYPE { BIARCS = 1, CUBIC_BEZIERS = 2, CUBIC_BEZIERS_LONG = 3} ;
private :
bool CalcAkimaTangents( bool bDetectCorner) ;
EGkCurveComposite.h
+12 -5
View File
@@ -50,6 +50,7 @@ class __declspec( novtable) ICurveComposite : public ICurve
virtual bool AddArcTg( const Point3d& ptNew, bool bEndOrStart = true) = 0 ;
virtual bool AddJoint( double dU) = 0 ;
virtual bool ModifyJoint( int nU, const Point3d& ptNewJoint) = 0 ;
virtual bool ModifyJoint( int nU, const Point3d& ptNewJoint, double dTol) = 0 ;
virtual bool RemoveJoint( int nU) = 0 ;
virtual bool MoveCurve( int nCrv, const Vector3d& vtMove) = 0 ;
virtual bool ModifyCurveToArc( int nCrv, const Point3d& ptMid) = 0 ;
@@ -70,8 +71,8 @@ class __declspec( novtable) ICurveComposite : public ICurve
virtual bool GetCurveTempProp( int nCrv, int& nProp, int nPropInd = 0) const = 0 ;
virtual bool SetCurveTempParam( int nCrv, double dParam, int nParamInd = 0) = 0 ;
virtual bool GetCurveTempParam( int nCrv, double& dParam, int nParamInd = 0) const = 0 ;
virtual bool FromPoint( Point3d& ptStart) = 0 ;
virtual bool GetOnlyPoint( Point3d& ptStart) const = 0 ;
virtual bool ReplaceSingleCurve( int nSubCrv, ICurve* pNewCurve, double dTolStartEnd, double dTolAlong = INFINITO) = 0 ;
} ;
//-----------------------------------------------------------------------------
@@ -94,10 +95,16 @@ inline ICurveComposite* ConvertCurveToComposite( IGeoObj* pGObj)
delete pGObj ;
return nullptr ;
}
ICurveComposite* pCrvCo = CreateCurveComposite() ;
if ( pCrvCo == nullptr) {
delete pGObj ;
return nullptr ;
ICurveComposite* pCrvCo = GetCurveComposite( pGObj) ;
if ( pCrvCo != nullptr) {
return pCrvCo ;
}
else {
pCrvCo = CreateCurveComposite() ;
if ( pCrvCo == nullptr) {
delete pGObj ;
return nullptr ;
}
}
ICurve* pCrv = static_cast<ICurve*>( pGObj) ;
Vector3d vtExtr ;
EGkCurveLocal.h
+2 -2
View File
@@ -23,7 +23,7 @@ class CurveLocal
CurveLocal( IGeomDB* pGeomDB, int nCrvId, const Frame3d& frLoc)
: m_pCrv( nullptr), m_pCopy( nullptr)
{ // verifica dei parametri
if ( pGeomDB == nullptr || &frLoc == nullptr)
if ( pGeomDB == nullptr)
return ;
// recupero riferimento della curva
Frame3d frCrv ;
@@ -76,7 +76,7 @@ class CurveLocal
return ;
m_pCrv = m_pCopy ;
}
CurveLocal( CurveLocal&& Other)
CurveLocal( CurveLocal&& Other) noexcept
: m_pCrv( Other.m_pCrv), m_pCopy( Other.m_pCopy)
{ // annullo gli originali
Other.m_pCrv = nullptr ;
EGkCurvePointDiffGeom.h
+2 -1
View File
@@ -40,7 +40,8 @@ class CrvPointDiffGeom
double dCurv ;
public :
CrvPointDiffGeom( void) { nStatus = NONE ; nFlag = STD ; }
CrvPointDiffGeom( void)
: nStatus( NONE), nFlag( STD), dU( -1), dCurv( -1) {}
} ;
//----------------------------------------------------------------------------
EGkDistPointCurve.h
+2 -2
View File
@@ -63,8 +63,8 @@ class DistPointCurve
EGK_EXPORT bool GetMinDistPoint( double dNearParam, Point3d& ptMinDist, int& nFlag) const ;
EGK_EXPORT bool GetParamAtMinDistPoint( int nInd, double& dParam, int& nFlag) const ;
EGK_EXPORT bool GetParamAtMinDistPoint( double dNearParam, double& dParam, int& nFlag) const ;
EGK_EXPORT bool GetSideAtMinDistPoint( int nInd, const Vector3d& vtN, int& nSide) const ;
EGK_EXPORT bool GetSideAtMinDistPoint( double dNearParam, const Vector3d& vtN, int& nSide) const ;
EGK_EXPORT bool GetSideAtMinDistPoint( int nInd, const Vector3d& vtN, int& nSide, double dTol = EPS_SMALL) const ;
EGK_EXPORT bool GetSideAtMinDistPoint( double dNearParam, const Vector3d& vtN, int& nSide, double dTol = EPS_SMALL) const ;
EGK_EXPORT bool GetMinDistInfo( int nInd, MinDistPCInfo& aInfo) const ;
private :
EGkDistPointSurfBz.h
+67
View File
@@ -0,0 +1,67 @@
//----------------------------------------------------------------------------
// EgalTech 2018-2023
//----------------------------------------------------------------------------
// File : EgkDistPointSurfBz.cpp Data : 29.10.25 Versione : 2.7j3
// Contenuto : Dichiarazione della classe distanza Punto da superficie di Bezier.
//
//
//
// Modifiche : 29.10.25 DB Creazione modulo.
//
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkSurfBezier.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//----------------------------------------------------------------------------
// Calcola la distanza tra punto e superficie bezier.
// Risultati :
// - distanza
// - punto sulla superficie a minima distanza
// - corrispettivo punto nello spazio parametrico
// - normale alla superficie in quel punto
// - indicazione se il punto di riferimento è dalla parte interna o esterna della superficie ( se chiusa ).
// - indicazione se il punto di riferimento è a destra o sinistra della superficie ( se aperta )
//----------------------------------------------------------------------------
class DistPointSurfBz
{
public :
EGK_EXPORT DistPointSurfBz( const Point3d& ptP, const ISurfBezier& srfBz) ;
public :
EGK_EXPORT bool GetDist( double& dDist) const ;
EGK_EXPORT bool IsEpsilon( double dTol) const
{ return ( m_dDist >= 0. && ( m_dDist < EPS_ZERO || m_dDist < dTol)) ; }
EGK_EXPORT bool IsSmall( void) const
{ return IsEpsilon( EPS_SMALL) ; }
EGK_EXPORT bool IsZero( void) const
{ return IsEpsilon( EPS_ZERO) ; }
EGK_EXPORT bool GetMinDistPoint( Point3d& ptMinDistPoint) const ;
EGK_EXPORT bool GetParamsAtMinDistPoint( double& dU, double& dV) const ;
EGK_EXPORT bool GetNorm( Vector3d& vtN) const ;
EGK_EXPORT bool IsPointInside( void) const
{ return ( m_bIsInside && m_bIsSurfClosed) ; }
EGK_EXPORT bool IsPointOnLeftSide( void) const
{ return m_bIsInside ;}
private :
void Calculate( const Point3d& ptP, const ISurfBezier& srfBz) ;
private :
double m_dDist ; // Minima distanza del punto dalla superficie
Point3d m_ptMinDistPoint ; // Punto sulla superficie a minima distanza
Point3d m_ptParam ; // punto corrispondente nello spazio parametrico (x->U, y->V)
Vector3d m_vtN ; // normale alla superficie nel punto a minima distanza
bool m_bIsInside ; // Flag per punto interno o esterno alla superficie ( se chiusa )
bool m_bIsSurfClosed ; // Flag per superficie aperta o chiusa
} ;
EGkDistPointSurfTm.h
+7 -5
View File
@@ -47,6 +47,7 @@ class DistPointSurfTm
{ return IsEpsilon( EPS_ZERO) ; }
EGK_EXPORT bool GetMinDistPoint( Point3d& ptMinDistPoint) const ;
EGK_EXPORT bool GetMinDistTriaIndex( int& nMinDistTriaIndex) const ;
EGK_EXPORT bool GetMinDistTriaIndices( INTVECTOR& vMinDistTriaIndex) const ;
EGK_EXPORT bool IsPointInside( void) const
{ return ( m_bIsInside && m_bIsSurfClosed) ; }
EGK_EXPORT bool IsPointOnLeftSide( void) const
@@ -56,11 +57,12 @@ class DistPointSurfTm
void Calculate( const Point3d& ptP, const ISurfTriMesh& tmSurf) ;
private :
double m_dDist ;
Point3d m_ptMinDistPoint ;
int m_nMinDistTriaIndex ;
bool m_bIsInside ;
bool m_bIsSurfClosed ;
double m_dDist ; // Minima distanza del punto dalla superficie
Point3d m_ptMinDistPoint ; // Punto sulla superficie a minima distanza
int m_nMinDistTriaIndex ; // Triangolo utilizzato per calcolare il punto a minima distanza
INTVECTOR m_vnMinDistTriaIndex ; // Indici dei triangoli a minima distanza
bool m_bIsInside ; // Flag per punto interno o esterno alla superficie ( se chiusa )
bool m_bIsSurfClosed ; // Flag per superficie aperta o chiusa
} ;
//----------------------------------------------------------------------------
EGkDllMain.h
+6 -3
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2014-2020
// EgalTech 2014-2025
//----------------------------------------------------------------------------
// File : EGkDllMain.h Data : 19.09.20 Versione : 2.2i2
// File : EGkDllMain.h Data : 11.09.25 Versione : 2.7i2
// Contenuto : Prototipi funzioni generali della DLL.
//
//
@@ -9,6 +9,7 @@
// Modifiche : 21.11.13 DS Creazione modulo.
// 13.01.15 DS Agg. funzioni Get sui font.
// 19.09.20 DS Agg. funzione SetEGkDebugLev.
// 11.09.25 DS Agg. funzione SetDefaultFont.
//
//----------------------------------------------------------------------------
@@ -42,9 +43,11 @@ EGK_EXPORT void SetEGkKeyType( int nType) ;
EGK_EXPORT void SetEGkNetHwKey( bool bNetHwKey) ;
// permette di inizializzare il font manager
EGK_EXPORT void InitFontManager( const std::string& sNfeFontDir, const std::string& sDefaultFont) ;
// imposta il font di default
EGK_EXPORT void SetDefaultFont( const std::string& sDefaultFont) ;
// restituisce il direttorio dei font proprietari (Nfe)
EGK_EXPORT const std::string& GetNfeFontDir( void) ;
// restituisce il nome del font di default
EGK_EXPORT const std::string& GetDefaultFont( void) ;
// imposto il gestore eventi
EGK_EXPORT bool SetEGkProcessEvents( pfProcEvents pFun) ;
EGK_EXPORT bool SetEGkProcessEvents( psfProcEvents pFun) ;
EGkGdbConst.h
+2 -1
View File
@@ -34,7 +34,8 @@ enum GdbInsPos { GDB_FIRST_SON = 0,
//----------------- Costanti tipo salvataggio del DB geometrico ----------------
enum GdbSave { GDB_SV_TXT = 0,
GDB_SV_BIN = 1,
GDB_SV_CMPTXT = 2} ;
GDB_SV_CMPTXT = 2,
GDB_SV_CMPBIN = 3} ;
//----------------- Costanti tipo oggetti del DB geometrico --------------------
enum GdbType { GDB_TY_NONE = 0,
EGkGeoConst.h
+6 -2
View File
@@ -1,13 +1,14 @@
//----------------------------------------------------------------------------
// EgalTech 2013-2019
// EgalTech 2013-2025
//----------------------------------------------------------------------------
// File : EGkGeoConst.h Data : 23.11.19 Versione : 2.1k5
// File : EGkGeoConst.h Data : 22.11.25 Versione : 2.7k4
// Contenuto : Costanti generali per calcoli geometrici.
//
//
//
// Modifiche : 04.01.12 DS Creazione modulo.
// 23.11.19 DS Aggiunta costante EPS_TRIA_H.
// 22.11.25 DS Aggiunta costante PREC_SCALE_COEFF.
//
//----------------------------------------------------------------------------
@@ -59,3 +60,6 @@ const double SQRT2 = 1.41421356237309504880 ;
const double SQRT1_2 = 1 / SQRT2 ;
const double SQRT3 = 1.73205080756887729353 ;
const double SQRT1_3 = 1 / SQRT3 ;
// coefficiente di scalatura per aumentare precisione dei calcoli
const double PREC_SCALE_COEFF = 1024 ;
EGkIntersCurvePlane.h
+109
View File
@@ -0,0 +1,109 @@
//----------------------------------------------------------------------------
// EgalTech 2025
//----------------------------------------------------------------------------
// File : EGkIntersCurvePlane.h Data : 07.11.25 Versione : 2.7k1
// Contenuto : Dichiarazione della classe intersezione curva-piano.
//
//
//
// Modifiche : 07.11.25 DB Creazione modulo.
//
//
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkPoint3d.h"
#include "/EgtDev/Include/EGkCurve.h"
#include "/EgtDev/Include/EGkIntersCurves.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//-----------------------------------------------------------------------------
// Tipo di intersezione
// nulla
// puntiforme
// sovrapposizione
// Costanti per tipo di approccio/allontanamento dall'intersezione
const int ICPT_NULL = 0 ; //!< Approccio/allontanamento non definito
const int ICPT_IN = 1 ; //!< Approccio/allontanamento interno
const int ICPT_OUT = 2 ; //!< Approccio/allontanamento esterno
const int ICPT_ON = 3 ; //!< Approccio/allontanamento sovrapposto
//! dati di intersezione tra una curva e un piano
struct IntCrvPlnInfo {
bool bOverlap ; //!< intersezione con overlap
IntCrvInfo Ici[2] ; //!< Ici[0] intersez. isolata o inizio overlap, Ici[1] fine overlap
// costruttore
IntCrvPlnInfo( void)
: bOverlap( false) {}
} ;
//! vettore di IntCrvPlnInfo
typedef std::vector<IntCrvPlnInfo> ICPIVECTOR ;
//-----------------------------------------------------------------------------
//! Classificazione di parti di curva rispetto ad un piano
struct CrvPlaneClass {
double dParS ;
double dParE ;
int nClass ;
// costruttori
CrvPlaneClass( void)
: dParS( 0), dParE( 0), nClass( 0) {}
CrvPlaneClass( double dPS, double dPE, int nC)
: dParS( dPS), dParE( dPE), nClass( nC) {}
} ;
//! Vettore di CrvPlaneClass
typedef std::vector<CrvPlaneClass> CRVPLNCVECTOR ;
//-----------------------------------------------------------------------------
// Costanti per classe parti di curva rispetto ad un piano
const int CRVPLN_NULL = 0 ; //!< Parte di curva non classificabile
const int CRVPLN_IN = 1 ; //!< Parte di curva interna ( dal lato negativo della normale)
const int CRVPLN_OUT = 2 ; //!< Parte di curva esterna ( dal lato positivo della normale)
const int CRVPLN_ON = 3 ; //!< Parte di curva sovrapposta al piano
//-----------------------------------------------------------------------------
//! Classe per calcolo intersezione tra una curve e un piano, nel riferimento locale del piano
class IntersCurvePlane
{
public :
//! Le intersezioni sono calcolate nel piano XY locale.<br>
EGK_EXPORT IntersCurvePlane( const ICurve& CurveA, const Point3d& ptOrig, const Vector3d& vtN) ;
public :
//! Indica la presenza di intersezioni con sovrapposizioni
EGK_EXPORT bool GetOverlaps( void) ;
//! Restituisce il numero di intersezioni (intersezioni doppie coincidenti e sovrapposte contano uno)
EGK_EXPORT int GetIntersCount( void) ;
//! Restituisce informazioni sull'intersezione di indice nInd ( 0 based)
EGK_EXPORT bool GetIntCrvPlnInfo( int nInd, IntCrvPlnInfo& aInfo) ;
//! Restituisce il punto di intersezione più vicino al punto passato
EGK_EXPORT bool GetIntersPointNearTo( const Point3d& ptNear, Point3d& ptI, double& dParam) ;
//! Restituisce la classificazione di una curva rispetto al piano
EGK_EXPORT bool GetCurveClassification( double dLenMin, CRVPLNCVECTOR& ccClass) ;
private :
IntersCurvePlane( void) ;
bool CalcIntersLinePlane( const Plane3d& plPlane, const ICurve& Curve, int nCrv = 0) ;
bool IsArcToApprox( const ICurve& Curve) ;
bool AdjustIntersParams( bool bAdjCrv) ;
bool CalcCurveClassification( const ICurve* pCurve, const ICPIVECTOR& Info, double dLenMin, CRVPLNCVECTOR& ccClass) ;
bool CalcCurveInOrOut( const ICurve* pCurve, CRVPLNCVECTOR& ccClass) ;
void OrderAndCompleteIntersections() ;
private :
int m_nIntersType ;
int m_nIntersCount ;
ICPIVECTOR m_Info ;
const ICurve* m_pCurve ; // puntatore alla curva
Plane3d m_plPlane ;
} ;
EGkIntersCurves.h
+5 -1
View File
@@ -44,7 +44,7 @@ struct IntCrvCrvInfo {
IntCrvInfo IciB[2] ; //!< IciB[0] intersez. isolata o inizio overlap, IciB[1] fine overlap
// costruttore
IntCrvCrvInfo( void)
: bOverlap( false) {}
: bOverlap( false), bCBOverEq( false) {}
} ;
//! vettore di IntCrvCrvInfo
typedef std::vector<IntCrvCrvInfo> ICCIVECTOR ;
@@ -115,12 +115,16 @@ class IntersCurveCurve
EGK_EXPORT bool GetOverlaps( void) ;
//! Restituisce il numero di intersezioni (intersezioni doppie coincidenti e sovrapposte contano uno)
EGK_EXPORT int GetIntersCount( void) ;
//! Restituisce il numero di intersezioni in 3D ( filtrando le intersezioni)
EGK_EXPORT int GetInters3DCount( void) ;
//! Restituisce il numero di intersezioni in cui la curva si attraversa
EGK_EXPORT int GetCrossIntersCount( void) ;
//! Restituisce il numero di intersezioni in cui la curva si attraversa o si sovrappone
EGK_EXPORT int GetCrossOrOverlapIntersCount( void) ;
//! Restituisce informazioni sull'intersezione di indice nInd ( 0 based)
EGK_EXPORT bool GetIntCrvCrvInfo( int nInd, IntCrvCrvInfo& aInfo) ;
//! Restituisce informazioni sulla i-esima intersezione 3D ( 0 based)
EGK_EXPORT bool GetInt3DCrvCrvInfo( int nInd, IntCrvCrvInfo& aInfo) ;
//! Restituisce il punto di intersezione più vicino al punto passato
EGK_EXPORT bool GetIntersPointNearTo( int nCrv, const Point3d& ptNear, Point3d& ptI) ;
//! Restituisce la classificazione di una curva rispetto all'altra ( nCrv=0 -> CurvaA, nCrv=1 -> CurvaB)
EGkIntersLineBox.h
+4 -2
View File
@@ -32,9 +32,11 @@ EGK_EXPORT bool IntersLineBox( const Point3d& ptL, const Vector3d& vtL, double d
//-----------------------------------------------------------------------------
// Tipo di intersezione linea-box
enum IntLineBoxType { ILBT_NONE = 0, // non è intersezione
enum IntLineBoxType { ILBT_NONE = 0, // non è intersezione
ILBT_IN = 1, // ingresso nel box
ILBT_OUT = 2, // uscita dal box
ILBT_TG_INI = 3, // ingresso tangente in una faccia del box
ILBT_TG_FIN = 4, // uscita tangente da una faccia del box
ILBT_TOUCH = 5} ; // contatto su uno spigolo o su un vertice del box
ILBT_TOUCH = 5, // contatto su uno spigolo o su un vertice del box
ILBT_INSIDE = 6, // contenimento nel box
ILBT_TG_INSIDE = 7} ; // contenimento su faccia del box
EGkIntersLineSurfBez.h
+32 -22
View File
@@ -26,28 +26,6 @@
#define EGK_EXPORT __declspec( dllimport)
#endif
//-----------------------------------------------------------------------------
//! dati di intersezione linea - superficie trimesh
struct IntLinSbzInfo {
int nILTT ; //!< tipo di intersezione linea-triangolo
double dU ; //!< parametro sulla linea
double dU2 ; //!< secondo parametro sulla linea
int nT ; //!< indice del triangolo della superficie trimesh
double dCosDN ; //!< coseno dell'angolo tra la direzione della linea e la normale del triangolo
Point3d ptI ; //!< punto di intersezione
Point3d ptI2 ; //!< secondo punto di intersezione (termine di tratto sovrapposto)
Point3d ptUV ; //!< coordinate del punto nello spazio parametrico
Point3d ptUV2 ; //!< coordinate del secondo punto nello spazio parametrico
// costruttori
IntLinSbzInfo( void) : nILTT( ILTT_NO), dU( 0), dU2( 0), nT(0), dCosDN(0), ptI(), ptI2(), ptUV(), ptUV2(){}
IntLinSbzInfo( int nIL, double dUU, int nTT, double dCos, const Point3d& ptP, const Point3d ptSP)
: nILTT( nIL), dU( dUU), dU2( 0), nT( nTT), dCosDN( dCos), ptI( ptP), ptI2(), ptUV( ptSP), ptUV2() {}
IntLinSbzInfo( int nIL, double dUU, double dUU2, int nTT, double dCos, const Point3d& ptP, const Point3d& ptP2, const Point3d& ptSP, const Point3d& ptSP2)
: nILTT( nIL), dU( dUU), dU2( dUU2), nT( nTT), dCosDN( dCos), ptI( ptP), ptI2( ptP2), ptUV( ptSP), ptUV2( ptSP2) {}
} ;
//! vettore di IntLinSbzInfo
typedef std::vector<IntLinSbzInfo> ILSBIVECTOR ;
//-----------------------------------------------------------------------------
// Costanti tipo intersezione Linea SurfTriMesh dopo filtraggio
enum LSBiType { LSBT_NONE = 0,
@@ -57,6 +35,38 @@ enum LSBiType { LSBT_NONE = 0,
LSBT_TG_FIN = 4,
LSBT_TOUCH = 5} ;
//-----------------------------------------------------------------------------
// Tipo di intersezione linea-triangolo ausiliario (della trimesh ausilaria)
enum IntLineTriaAuxType { ILTA_NO_TRIA = -1, // l'intersezione è stata calcolata direttamente con la superficie bezier
ILTA_NO = 0, // non c'è intersezione
ILTA_SEGM = 1, // una parte di linea appartiene all'interno del triangolo
ILTA_SEGM_ON_EDGE = 2, // una parte di linea appartiene ad un lato del triangolo
ILTA_VERT = 3, // intersezione coincide con un vertice
ILTA_EDGE = 4, // intersezione coincide con interno di un lato
ILTA_IN = 5} ; // intersezione in interno del triangolo
//-----------------------------------------------------------------------------
//! dati di intersezione linea - superficie bezier
struct IntLinSbzInfo {
int nILSB ; //!< tipo di intersezione linea-bezier
double dU ; //!< parametro sulla linea
double dU2 ; //!< secondo parametro sulla linea
int nT ; //!< indice del triangolo della superficie trimesh // se -1 vuol dire che l'intersezione stata calcolata direttamente, senza usare la trimesh
double dCosDN ; //!< coseno dell'angolo tra la direzione della linea e la normale del triangolo
Point3d ptI ; //!< punto di intersezione
Point3d ptI2 ; //!< secondo punto di intersezione (termine di tratto sovrapposto)
Point3d ptUV ; //!< coordinate del punto nello spazio parametrico
Point3d ptUV2 ; //!< coordinate del secondo punto nello spazio parametrico
// costruttori
IntLinSbzInfo( void) : nILSB( LSBT_NONE), dU( 0), dU2( 0), nT(0), dCosDN(0), ptI(), ptI2(), ptUV(), ptUV2(){}
IntLinSbzInfo( int nILS, double dUU, int nTT, double dCos, const Point3d& ptP, const Point3d ptSP)
: nILSB( nILS), dU( dUU), dU2( 0), nT( nTT), dCosDN( dCos), ptI( ptP), ptI2(), ptUV( ptSP), ptUV2() {}
IntLinSbzInfo( int nILS, double dUU, double dUU2, int nTT, double dCos, const Point3d& ptP, const Point3d& ptP2, const Point3d& ptSP, const Point3d& ptSP2)
: nILSB( nILS), dU( dUU), dU2( dUU2), nT( nTT), dCosDN( dCos), ptI( ptP), ptI2( ptP2), ptUV( ptSP), ptUV2( ptSP2) {}
} ;
//! vettore di IntLinSbzInfo
typedef std::vector<IntLinSbzInfo> ILSBIVECTOR ;
//-----------------------------------------------------------------------------
EGK_EXPORT bool IntersLineSurfBz( const Point3d& ptL, const Vector3d& vtL, double dLen, const ISurfBezier* pSBz,
ILSBIVECTOR& vInfo, bool bFinite = true) ;
EGkIntersLineSurfTm.h
+15 -9
View File
@@ -31,19 +31,20 @@ struct IntLinStmInfo {
int nILTT ; //!< tipo di intersezione linea-triangolo
double dU ; //!< distanza sulla linea
double dU2 ; //!< seconda distanza sulla linea
int nStm ; //!< indice della superficie TriMesh di intersezione
int nT ; //!< indice del triangolo della superficie trimesh
double dCosDN ; //!< coseno dell'angolo tra la direzione della linea e la normale del triangolo
Point3d ptI ; //!< punto di intersezione
Point3d ptI2 ; //!< secondo punto di intersezione (termine di tratto sovrapposto)
// costruttori
IntLinStmInfo( void) : nILTT( ILTT_NO), dU( 0), dU2( 0), nT( 0), dCosDN( 0), ptI(), ptI2() {}
IntLinStmInfo( int nIL, double dUU, int nTT, double dCos, const Point3d& ptP)
: nILTT( nIL), dU( dUU), dU2( 0), nT( nTT), dCosDN( dCos), ptI( ptP), ptI2() {}
IntLinStmInfo( int nIL, double dUU, double dUU2, int nTT, double dCos, const Point3d& ptP, const Point3d& ptP2)
: nILTT( nIL), dU( dUU), dU2( dUU2), nT( nTT), dCosDN( dCos), ptI( ptP), ptI2( ptP2) {}
IntLinStmInfo( void) : nILTT( ILTT_NO), dU( 0), dU2( 0), nStm( 0), nT( 0), dCosDN( 0), ptI(), ptI2() {}
IntLinStmInfo( int nIL, double dUU, int nSurfTm, int nTT, double dCos, const Point3d& ptP)
: nILTT( nIL), dU( dUU), dU2( 0), nStm( nSurfTm), nT( nTT), dCosDN( dCos), ptI( ptP), ptI2() {}
IntLinStmInfo( int nIL, double dUU, double dUU2, int nSurfTm, int nTT, double dCos, const Point3d& ptP, const Point3d& ptP2)
: nILTT( nIL), dU( dUU), dU2( dUU2), nStm( nSurfTm), nT( nTT), dCosDN( dCos), ptI( ptP), ptI2( ptP2) {}
} ;
//! vettore di IntLinStmInfo
typedef std::vector<IntLinStmInfo> ILSIVECTOR ;
typedef std::vector<IntLinStmInfo> ILSIVECTOR ;
//-----------------------------------------------------------------------------
// Costanti tipo intersezione Linea SurfTriMesh dopo filtraggio
@@ -63,13 +64,18 @@ class IntersParLinesSurfTm
{
public :
EGK_EXPORT IntersParLinesSurfTm( const Frame3d& frLines, const ISurfTriMesh& Stm) ;
EGK_EXPORT IntersParLinesSurfTm( const Frame3d& frLines, const CISURFTMPVECTOR& vStm) ;
EGK_EXPORT bool GetInters( const Point3d& ptL, double dLen, ILSIVECTOR& vInfo, bool bFinite = true) const ;
private :
int GetSurfInd( int nT) const ;
private :
bool m_bOk ;
const Frame3d m_frLines ;
const ISurfTriMesh* m_pSTm ;
HashGrids2d m_HGrids ;
const Frame3d m_frLines ; // direzione della linea come versore Z
CISURFTMPVECTOR m_vpSTm ; // vettore delle superfici con cui calcolare le intersezioni con le linee
INTVECTOR m_vBaseInd ; // [0, nTriaStm0, nTriaStm0 + nTriaStm1, nTriaStm0 + nTriaStm1 + nTriaStm2, ...]
HashGrids2d m_HGrids ; // HasGrid di ottimizzazione per ricerca triangoli
} ;
//-----------------------------------------------------------------------------
EGkLuaAux.h
+27
View File
@@ -277,6 +277,33 @@ LuaSetParam( lua_State* L, const Vector3d& vtPar)
return true ;
}
//-------------------------------------------------------------------------------
inline bool
LuaSetParam( lua_State* L, const PNTVECTOR& vPar)
{
try {
// recupero dimensione vettore
int nDim = int( vPar.size()) ;
// creo tavola principale
lua_createtable( L, nDim, 0) ;
// creo e inserisco tavola per ogni componente
for ( int i = 1 ; i <= nDim ; ++ i) {
// creo tavola componente
lua_createtable( L, 3, 0) ;
for ( int j = 1 ; j <= 3 ; ++ j) {
lua_pushnumber( L, vPar[i-1].v[j-1]) ;
lua_rawseti( L, -2, j) ;
}
// la metto nel vettore
lua_rawseti( L, -2, i) ;
}
}
catch( ...) {
return false ;
}
return true ;
}
//-------------------------------------------------------------------------------
inline bool
LuaSetParam( lua_State* L, const VCT3DVECTOR& vPar)
EGkMultiGeomDB.h
+30
View File
@@ -0,0 +1,30 @@
//----------------------------------------------------------------------------
// EgalTech 2025-2025
//----------------------------------------------------------------------------
// File : MultiGeomDB.h Data : 22.12.25 Versione : 2.7l3
// Contenuto : Dichiarazione delle funzioni tra due GeomDB.
//
//
//
// Modifiche : 08.10.25 DB Creazione modulo.
// 22.12.25 DS Aggiunta funzione DuplicateGeomDB.
//
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkGeomDB.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//----------------------------------------------------------------------------
EGK_EXPORT int Copy( IGeomDB* pSouGeomDB, int nSouId, IGeomDB* pDestGeomDB, int nDestId, int nRefId, int nSonBeforeAfter = GDB_LAST_SON) ;
EGK_EXPORT int CopyGlob( IGeomDB* pSouGeomDB, int nSouId, IGeomDB* pDestGeomDB, int nDestId, int nRefId, int nSonBeforeAfter = GDB_LAST_SON) ;
EGK_EXPORT bool DuplicateGeomDB( IGeomDB* pSouGeomDB, IGeomDB* pDestGeomDB, bool bSkipTemp = false) ;
EGkPlane3d.h
+25
View File
@@ -8,6 +8,7 @@
//
// Modifiche : 08.04.14 DS Creazione modulo.
// 25.02.15 DS Agg. PointInPlane*.
// 05.09.25 RE Agg. funzioni di confronto tra due piani
//
//----------------------------------------------------------------------------
@@ -154,3 +155,27 @@ PointInPlaneExact( const Point3d& ptP, const Plane3d& plPlane)
{
return ( abs( (( ptP - ORIG) * plPlane.GetVersN()) - plPlane.GetDist()) < EPS_ZERO) ;
}
//-----------------------------------------------------------------------------
inline bool
AreSamePlaneEpsilon( const Plane3d& plPlaneA, const Plane3d& plPlaneB, double dToler)
{
return ( AreSameVectorEpsilon( plPlaneA.GetVersN(), plPlaneB.GetVersN(), dToler) &&
PointInPlaneEpsilon( plPlaneA.GetPoint(), plPlaneB, dToler)) ;
}
//-----------------------------------------------------------------------------
inline bool
AreSamePlaneApprox( const Plane3d& plPlaneA, const Plane3d& plPlaneB)
{
return ( AreSameVectorApprox( plPlaneA.GetVersN(), plPlaneB.GetVersN()) &&
PointInPlaneApprox( plPlaneA.GetPoint(), plPlaneB)) ;
}
//-----------------------------------------------------------------------------
inline bool
AreSamePlaneExact( const Plane3d& plPlaneA, const Plane3d& plPlaneB)
{
return ( AreSameVectorExact( plPlaneA.GetVersN(), plPlaneB.GetVersN()) &&
PointInPlaneExact( plPlaneA.GetPoint(), plPlaneB)) ;
}
EGkPolyLine.h
+7 -1
View File
@@ -108,7 +108,7 @@ class PolyLine
EGK_EXPORT bool GetMaxDistanceFromLine( const Point3d& ptLine, const Vector3d& vtLine, double dLen,
double& dMaxDist, bool bIsSegment = true) const ;
EGK_EXPORT bool AdjustForMaxSegmentLen( double dMaxLen) ;
EGK_EXPORT bool RemoveAlignedPoints( double dToler = EPS_SMALL) ;
EGK_EXPORT bool RemoveAlignedPoints( double dToler = EPS_SMALL, bool bStartEnd = true) ;
EGK_EXPORT bool ApproxOnSide( const Vector3d& vtN, bool bLeftSide, double dToler = EPS_SMALL) ;
EGK_EXPORT bool MakeConvex( const Vector3d& vtN, bool bLeftSide) ;
EGK_EXPORT bool Invert( bool bInvertU = true) ;
@@ -122,6 +122,11 @@ class PolyLine
m_nTempProp[nPropInd] = nProp ; }
EGK_EXPORT int GetTempProp( int nPropInd = 0) const
{ return (( nPropInd >= 0 && nPropInd < 2) ? m_nTempProp[nPropInd] : 0) ; }
EGK_EXPORT bool FromPointVector( const PNTVECTOR& vPnt)
{ Clear() ;
for ( int i = 0 ; i < std::ssize( vPnt) ; ++i)
AddUPoint( i, vPnt[i]) ;
return GetPointNbr() > 0 ; }
private :
bool MyChangeStart( int nPos) ;
@@ -150,3 +155,4 @@ EGK_EXPORT bool GetPointParamOnPolyLine( const Point3d& ptP, const PolyLine& plP
EGK_EXPORT bool ChangePolyLineStart( PolyLine& plPoly, const Point3d& ptNewStart, double dToler) ;
EGK_EXPORT bool SplitPolyLineAtPoint( const PolyLine& plPoly, const Point3d& ptP, double dToler, PolyLine& plPoly1, PolyLine& plPoly2) ;
EGK_EXPORT bool AssociatePolyLinesMinDistPoints( const PolyLine& PL1, const PolyLine& PL2, PNTIVECTOR& vPnt1, PNTIVECTOR& vPnt2, bool& bCommonInternalPoints) ;
EGK_EXPORT bool MatchPolyLinesAddingPoints( const PolyLine& PL1, const PolyLine& PL2, int nType, PNTIVECTOR& vPnt1, PNTIVECTOR& vPnt2) ;
EGkProjectCurveSurf.h
+24 -16
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2023-2023
// EgalTech 2023-2026
//----------------------------------------------------------------------------
// File : EGkProjectCurveSurfTm.h Data : 31.08.23 Versione : 2.5h3
// File : EGkProjectCurveSurfTm.h Data : 14.04.26 Versione : 3.1d3
// Contenuto : Dichiarazione funzioni proiezione curve su superficie Trimesh.
//
//
@@ -31,26 +31,34 @@ struct Point5ax {
Point3d ptP ;
Vector3d vtDir1 ;
Vector3d vtDir2 ;
Vector3d vtDirU ;
Vector3d vtDirV ;
double dPar ;
int nFlag ;
Point5ax( void) : ptP(), vtDir1(), vtDir2(), dPar(), nFlag() {} ;
Point5ax( void) : ptP(), vtDir1(), vtDir2(), vtDirU(), vtDirV(), dPar(), nFlag() {} ;
Point5ax( const Point3d& ptBase, const Vector3d& vtTool, double dU, int nData)
: ptP( ptBase), vtDir1( vtTool), vtDir2(), dPar( dU), nFlag( nData) {} ;
: ptP( ptBase), vtDir1( vtTool), vtDir2(), vtDirU(), vtDirV(), dPar( dU), nFlag( nData) {} ;
Point5ax( const Point3d& ptBase, const Vector3d& vtTool, const Vector3d& vtTool2, double dU, int nData)
: ptP( ptBase), vtDir1( vtTool), vtDir2( vtTool2), dPar( dU), nFlag( nData) {} ;
: ptP( ptBase), vtDir1( vtTool), vtDir2( vtTool2), vtDirU(), vtDirV(), dPar( dU), nFlag( nData) {} ;
Point5ax( const Point3d& ptBase, const Vector3d& vtTool, const Vector3d& vtTool2,
const Vector3d& vtDU, const Vector3d& vtDV, double dU, int nData)
: ptP( ptBase), vtDir1( vtTool), vtDir2( vtTool2), vtDirU( vtDU), vtDirV( vtDV), dPar( dU), nFlag( nData) {} ;
} ;
typedef std::vector<Point5ax> PNT5AXVECTOR ; // vettore di Punti 5assi
//----------------------------------------------------------------------------
// Proiezione di una curva su una superficie TriMesh lungo la direzione data.
EGK_EXPORT bool ProjectCurveOnSurf( const ICurve& crCrv, const ISurf& sfSurf, const Vector3d& vtDir,
double dLinTol, double dMaxSegmLen, bool bSharpEdges, PNT5AXVECTOR& vPt5ax) ;
// Proiezione di una curva su una superficie TriMesh in direzione del punto
EGK_EXPORT bool ProjectCurveOnSurf( const ICurve& crCrv, const ISurf& sfSurf, const IGeoPoint3d& gpRef,
double dLinTol, double dMaxSegmLen, bool bSharpEdges, PNT5AXVECTOR& vPt5ax) ;
// Proiezione di una curva su una superficie TriMesh in direzione della curva
EGK_EXPORT bool ProjectCurveOnSurf( const ICurve& crCrv, const ISurf& sfSurf, const ICurve& crRef,
double dLinTol, double dMaxSegmLen, bool bSharpEdges, PNT5AXVECTOR& vPt5ax) ;
// Proiezione di una curva su una superficie TriMesh in direzione della superficie
EGK_EXPORT bool ProjectCurveOnSurf( const ICurve& crCrv, const ISurf& sfSurf, const ISurf& sfRef,
// Proiezione di una curva su una o più superfici a distanza minima
EGK_EXPORT bool ProjectCurveOnSurf( const ICurve& crCrv, const CISURFPVECTOR& vpSurf,
double dLinTol, double dMaxSegmLen, bool bSharpEdges, PNT5AXVECTOR& vPt5ax) ;
// Proiezione di una curva su una o più superfici lungo la direzione data (da o verso)
EGK_EXPORT bool ProjectCurveOnSurf( const ICurve& crCrv, const CISURFPVECTOR& vpSurf, const Vector3d& vtDir,
double dLinTol, double dMaxSegmLen, bool bSharpEdges, bool bFromVsTo, PNT5AXVECTOR& vPt5ax) ;
// Proiezione di una curva su una o più superfici in direzione del punto (da o verso)
EGK_EXPORT bool ProjectCurveOnSurf( const ICurve& crCrv, const CISURFPVECTOR& vpSurf, const IGeoPoint3d& gpRef,
double dLinTol, double dMaxSegmLen, bool bSharpEdges, bool bFromVsTo, PNT5AXVECTOR& vPt5ax) ;
// Proiezione di una curva su una o più superfici in direzione della curva (da o verso)
EGK_EXPORT bool ProjectCurveOnSurf( const ICurve& crCrv, const CISURFPVECTOR& vpSurf, const ICurve& crRef,
double dLinTol, double dMaxSegmLen, bool bSharpEdges, bool bFromVsTo, PNT5AXVECTOR& vPt5ax) ;
// Proiezione di una curva su una o più superfici in direzione della superficie (da o verso)
EGK_EXPORT bool ProjectCurveOnSurf( const ICurve& crCrv, const CISURFPVECTOR& vpSurf, const ISurf& sfRef,
double dLinTol, double dMaxSegmLen, bool bSharpEdges, bool bFromVsTo, PNT5AXVECTOR& vPt5ax) ;
EGkSbzFromCurves.h
+2
View File
@@ -44,6 +44,8 @@ EGK_EXPORT ISurfBezier* GetSurfBezierByScrewing( const ICurve* pCurve, const Poi
//EGK_EXPORT ISurfBezier* GetSurfBezierTransSwept( const ICurve* pSect, const ICurve* pGuide, bool bCapEnds, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierRuled( const Point3d& ptP, const ICurve* pCurve, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierRuled( const ICurve* pCurve1, const ICurve* pCurve2, int nType, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierRuledSmooth( const ICurve* pCurve1, const ICurve* pCurve2, BIPNTVECTOR& vSyncLines, double dSampleLen = 10) ;
EGK_EXPORT ISurfBezier* GetSurfBezierRuledGuided( const ICurve* pCurve1, const ICurve* pCurve2, const BIPNTVECTOR& vCrv, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierSkinned( const CICURVEPVECTOR& vCrv, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierSweptInPlane( const ICurve* pSect, const ICurve* pGuide, const Vector3d& vtNorm, bool bCapEnds, double dLinTol = 10 * EPS_SMALL) ;
EGK_EXPORT ISurfBezier* GetSurfBezierSwept3d( const ICurve* pSect, const ICurve* pGuide, const Vector3d& vtNorm, bool bCapEnds, double dLinTol = 10 * EPS_SMALL) ;
EGkSfrCreate.h
+2 -1
View File
@@ -30,7 +30,8 @@ EGK_EXPORT ISurfFlatRegion* GetSurfFlatRegionRectangle( double dWidth, double dL
EGK_EXPORT ISurfFlatRegion* GetSurfFlatRegionStadium( double dWidth, double dLen) ;
EGK_EXPORT ISurfFlatRegion* GetSurfFlatRegionDisk( double dRadius) ;
EGK_EXPORT ISurfFlatRegion* GetSurfFlatRegionFromFatCurve( ICurve* pCrv, double dRadius,
bool bSquareEnds, bool bSquareMids, double dOffsLinTol = 10 * EPS_SMALL) ;
bool bSquareEnds, bool bSquareMids, double dOffsLinTol = 10 * EPS_SMALL,
bool bMergeOnlySameProps = true) ;
// NB : la curva ingrassata non deve autointersecarsi
EGK_EXPORT ISurfFlatRegion* GetSurfFlatRegionFromTriangle( const Triangle3d& Tria) ;
EGK_EXPORT ISurfFlatRegion* GetSurfFlatRegionFromPolyLine( const PolyLine& ContourPolyLine) ;
EGkSurfBezier.h
+40 -19
View File
@@ -1,13 +1,13 @@
//----------------------------------------------------------------------------
// EgalTech 2020-2024
// EgalTech 2020-2025
//----------------------------------------------------------------------------
// File : EGkSurfBezier.h Data : 10.04.24 Versione : 2.6d2
// File : EGkSurfBezier.h Data : 22.08.25 Versione : 2.7h1
// Contenuto : Dichiarazione della interfaccia ISurfBezier.
//
//
//
// Modifiche : 22.03.20 DS Creazione modulo.
//
// 22.08.25 DS Aggiunte funzioni globali di impostazione tolleranze.
//
//----------------------------------------------------------------------------
@@ -17,6 +17,15 @@
#include "/EgtDev/Include/EGkCurveComposite.h"
#include "/EgtDev/Include/EgtPointerOwner.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//----------------------- Forward --------------------------------------------
class PolyLine ;
class ICurveComposite ;
class ISurfFlatRegion ;
@@ -28,16 +37,16 @@ class __declspec( novtable) ISurfBezier : public ISurf
public :
enum Side { FROM_MINUS = -1, // da valori inferiori del parametro
FROM_PLUS = 1} ; // da valori superiori del parametro
public :
enum RuledType { RLT_B_ISOPAR = 0, // con parametrizzazione simile tra le due curve
RLT_B_MINDIST = 1, // con distanza minima tra le due curve, usando start e end delle curve presenti
RLT_B_MINDIST_PLUS = 2, // con distanza minima tra le due curve, aggiungendo punti lungo le curve dove necessario
RLT_B_LENPAR = 3} ; // aggiungo punti alla curve in modo da matchare meglio le sottocurve, inoltre parametrizzo le curve in base alla lunghezza e non al numero di curve
enum Is_Planar { NOT_CALCULATED = -1,
NOT_PLANAR_SURF = 0 ,
PLANAR_SURF = 1};
public :
enum RuledType { RLT_B_ISOPAR = 0, // con parametrizzazione simile tra le due curve
RLT_B_MINDIST = 1, // con distanza minima tra le due curve, usando start e end delle curve presenti
RLT_B_MINDIST_PLUS = 2, // con distanza minima tra le due curve, aggiungendo punti lungo le curve dove necessario
RLT_B_LENPAR = 3} ; // aggiungo punti alla curve in modo da matchare meglio le sottocurve, inoltre parametrizzo le curve in base alla lunghezza e non al numero di curve
enum Is_Planar { NOT_CALCULATED = -1,
NOT_PLANAR_SURF = 0 ,
PLANAR_SURF = 1} ;
public : // IGeoObj
public : // IGeoObj
ISurfBezier* Clone( void) const override = 0 ;
public :
virtual bool CopyFrom( const IGeoObj* pGObjSrc) = 0 ;
@@ -65,15 +74,15 @@ public : // IGeoObj
Vector3d* pvtDerUU = nullptr, Vector3d* pvtDerVV = nullptr, Vector3d* pvtDerUV = nullptr) const = 0 ;
virtual ICurveComposite* GetCurveOnU( double dV) const = 0 ;
virtual ICurveComposite* GetCurveOnV( double dU) const = 0 ;
virtual ICurveComposite* GetLoop( int nLoop) const = 0 ; // nLoop 0-based (1°esterno, successivi interni)
virtual ICurveComposite* GetLoop( int nLoop) const = 0 ; // nLoop 0-based (1°esterno, successivi interni)
virtual bool GetControlCurveOnU( int nIndV, PolyLine& plCtrlU) const = 0 ;
virtual bool GetControlCurveOnV( int nIndU, PolyLine& plCtrlV) const = 0 ;
virtual const ISurfTriMesh* GetAuxSurf( void) const = 0 ;
virtual const ISurfTriMesh* GetAuxSurfRefined( void) const = 0 ;
virtual ISurfTriMesh* GetApproxSurf( double dTol, double dSideMin = 100 * EPS_SMALL) const = 0 ;
virtual bool GetLeaves ( std::vector<std::tuple<int, Point3d, Point3d>>& vLeaves) const = 0 ;
virtual ISurfTriMesh* GetApproxSurf( double dTol, double dSideMin = 10 * EPS_SMALL, bool bUpdateEdges = false) const = 0 ;
virtual bool GetLeaves( std::vector<std::tuple<int, Point3d, Point3d>>& vLeaves, bool bRefined = false) const = 0 ;
virtual bool GetTriangles2D( std::vector<std::tuple<int,Point3d, Point3d, Point3d>>& vTria2D) const = 0 ;
virtual bool UnprojectPointFromStm( int nT, const Point3d& ptI, Point3d& ptSP, int nIL) const = 0 ;
virtual bool UnprojectPointFromStm( int nT, const Point3d& ptI, Point3d& ptSP, int nIL = 5) const = 0 ;
virtual bool UnprojectPointFromStm( int nT, const Point3d& ptI, Point3d& ptSP, int nIL, const Point3d& ptIPrev, bool* bTroughEdge = nullptr) const = 0 ;
virtual bool UnprojectPoint( const Point3d& pt3D, Point3d& ptParam, const Point3d& ptIPrev, bool* bTroughEdge = nullptr, const Plane3d* plCut = nullptr) const = 0 ;
virtual bool UnprojectCurveFromStm( const ICurveComposite* pCC, ICRVCOMPOPVECTOR& vpCC, const Plane3d* pPlCut) const = 0 ;
@@ -82,19 +91,25 @@ public : // IGeoObj
virtual bool Cut( const Plane3d& plPlane, bool bSaveOnEq) = 0 ;
virtual bool IncreaseUV( double& dU, double dx, bool bUOrV, double* dUVCopy = nullptr, bool bModifyOrig = true) const = 0 ;
virtual bool IncreaseUV( Point3d& ptUV, Vector3d vtH , Point3d* ptUVCopy, bool bModifyOrig) const = 0 ;
virtual bool GetLoops( ICRVCOMPOPOVECTOR& vCC, bool bLineOrBezier, int nEdge = -1) const = 0 ;
virtual bool GetLoops( ICRVCOMPOPOVECTOR& vCC, bool bLineOrBezier) const = 0 ;
virtual ICurveComposite* GetSingleEdge3D( bool bLineOrBezier, int nEdge) const = 0 ;
virtual bool IsPlanar( void) const = 0 ;
virtual bool CreateByFlatContour( const PolyLine& PL) = 0 ;
virtual bool CreateByRegion( const POLYLINEVECTOR& vPL) = 0 ;
virtual bool CreateByExtrusion( const ICurve* pCrv, const Vector3d& vtExtr, bool bDeg3OrDeg2 = false) = 0 ;
virtual bool CreateByExtrusion( const ICurve* pCrv, const Vector3d& vtExtr) = 0 ;
virtual bool CreateByScrewing( const ICurve* pCurve, const Point3d& ptAx, const Vector3d& vtAx, double dAngRotDeg, double dMove) = 0 ;
virtual bool CreateByPointCurve( const Point3d& pt, const ICurve* pCurve) = 0 ;
virtual bool CreateByTwoCurves( const ICurve* pCurve1, const ICurve* pCurve2, int nType) = 0 ;
virtual bool CreateBySetOfCurves( const ICURVEPOVECTOR& vCrvBez, bool bReduceToDeg3 = true) = 0 ;
virtual bool RemoveCollapsedSpans() = 0 ;
virtual PNTVECTOR GetAllControlPoints( void) const = 0 ;
virtual bool LimitSurfToTrimmedRegion( void) = 0 ;
virtual bool CreateSmoothRuledByTwoCurves( const ICurve* pCurve0, const ICurve* pCurve1, double dSampleLen) = 0 ;
virtual bool CreateSmoothRuledByTwoCurves( const ICurve* pCurve0, const ICurve* pCurve1, double dSampleLen, BIPNTVECTOR& vSyncLines) = 0 ;
} ;
//-----------------------------------------------------------------------------
static const double SBZ_TREG_COEFF = 1000 ;
static const double SBZ_TREG_COEFF = PREC_SCALE_COEFF ;
//-----------------------------------------------------------------------------
inline ISurfBezier* CreateSurfBezier( void)
@@ -112,6 +127,12 @@ inline ISurfBezier* GetSurfBezier( IGeoObj* pGObj)
return nullptr ;
return (static_cast<ISurfBezier*>(pGObj)) ; }
//----------------------------------------------------------------------------
EGK_EXPORT void SetSurfBezierAuxSurfTol( double dTol) ;
EGK_EXPORT double GetSurfBezierAuxSurfTol( void) ;
EGK_EXPORT void SetSurfBezierAuxSurfRefinedTol( double dTol) ;
EGK_EXPORT double GetSurfBezierAuxSurfRefinedTol( void) ;
//----------------------------------------------------------------------------
// Raccolte di puntatori a ISurfBezier
typedef std::vector<const ISurfBezier*> CISURFBEZPVECTOR ; // vettore di puntatori a const ISurfBezier
EGkSurfBzRuledFromStmFaces.h
+37
View File
@@ -0,0 +1,37 @@
//----------------------------------------------------------------------------
// EgalTech 2025-2025
//----------------------------------------------------------------------------
// File : EGkSurfBzRuledFromStmFaces.h Data : 15.09.25 Versione : 2.7j1
// Contenuto : Calcolo di una superficie di Bezier Ruled definita da un sottoinsieme
// di facce di una superficie TriMesh
//
//
//
// Modifiche : 15.09.25 RE Creazione modulo.
//
//
//----------------------------------------------------------------------------
#pragma once
#include "EGkSelection.h"
#include "EGkCurveLine.h"
#include "/EgtDev/Include/EGkSurfBezier.h"
#include "/EgtDev/Include/EGkSurfTriMesh.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
//-----------------------------------------------------------------------------
EGK_EXPORT bool GetBezierEdgeCurvesFromSurfs( const CISURFPVECTOR& vSurf, const SELVECTOR& vSurfFace,
double dLinTol, double dAngTol, const BIPNTVECTOR& vBreakingPts,
ICRVCOMPOPOVECTOR& vBezierEdges) ;
EGK_EXPORT bool GetSyncPointsFromBezierCurves( const ICurveComposite* pEdge0, const ICurveComposite* pEdge1,
ICRVLINEPOVECTOR& vLines) ;
EGK_EXPORT bool GetAdjStmFacesInTol( const ISurfTriMesh* pStm, const INTVECTOR& vFaceRef, double dAngTol,
INTVECTOR& vOtherFaces, double dCurvature) ;
EGkSurfFlatRegion.h
+2 -1
View File
@@ -52,7 +52,8 @@ class __declspec( novtable) ISurfFlatRegion : public ISurf
virtual bool GetChunkCentroid( int nChunk, Point3d& ptCen) const = 0 ;
virtual bool GetChunkArea( int nChunk, double& dArea) const = 0 ;
virtual bool GetChunkPerimeter( int nChunk, double& dLen) const = 0 ;
virtual int GetChunkSimpleClassification( int nChunk, const ISurfFlatRegion& Other, int nOthChunk) const ; // compare only outsides
virtual int GetChunkSimpleClassification( int nChunk, const ISurfFlatRegion& Other, int nOthChunk) const = 0 ; // compare only outsides
virtual bool CheckChunkInterference( int nChunk, const ISurfFlatRegion& Other, int nOthChunk, bool& bInterference) const = 0 ;
virtual bool GetChunkMaxOffset( int nChunk, double& dOffs) const = 0 ;
virtual int GetLoopCount( int nChunk) const = 0 ;
virtual int GetLoopCurveCount( int nChunk, int nLoop) const = 0 ;
EGkSurfLocal.h
+3 -3
View File
@@ -23,7 +23,7 @@ class SurfLocal
SurfLocal( IGeomDB* pGeomDB, int nSrfId, const Frame3d& frLoc)
: m_pSrf( nullptr), m_pCopy( nullptr)
{ // verifica dei parametri
if ( pGeomDB == nullptr || &frLoc == nullptr)
if ( pGeomDB == nullptr)
return ;
// recupero riferimento della superficie
Frame3d frSrf ;
@@ -48,7 +48,7 @@ class SurfLocal
SurfLocal( const ISurf* pSurf, const Frame3d& frSrf, const Frame3d& frLoc)
: m_pSrf( nullptr), m_pCopy( nullptr)
{ // verifica dei parametri
if ( pSurf == nullptr || &frSrf == nullptr || &frLoc == nullptr)
if ( pSurf == nullptr)
return ;
// assegno la superficie originale
m_pSrf = pSurf ;
@@ -76,7 +76,7 @@ class SurfLocal
return ;
m_pSrf = m_pCopy ;
}
SurfLocal( SurfLocal&& Other)
SurfLocal( SurfLocal&& Other) noexcept
: m_pSrf( Other.m_pSrf), m_pCopy( Other.m_pCopy)
{ // annullo gli originali
Other.m_pSrf = nullptr ;
EGkSurfTriMesh.h
+6 -1
View File
@@ -113,13 +113,15 @@ class __declspec( novtable) ISurfTriMesh : public ISurf
virtual bool GetEdge( int nInd, int& nV1, int& nV2, int& nFl, int& nFr, double& dAng) const = 0 ;
virtual bool GetEdge( int nInd, Point3d& ptP1, Point3d& ptP2, double& dAng) const = 0 ;
virtual bool GetEdges( ICURVEPOVECTOR& vpCurve) const = 0 ;
virtual bool GetCurvature( int nV,
double& dMinK, Vector3d& vtMinK, double& dMaxK, Vector3d& vtMaxK, bool& bPlanar, Vector3d& vtNorm) const = 0 ;
virtual bool Cut( const Plane3d& plPlane, bool bSaveOnEq) = 0 ;
virtual bool GeneralizedCut( const ICurve& cvCurve, bool bSaveOnEq) = 0 ;
virtual bool Add( const ISurfTriMesh& Other) = 0 ;
virtual bool Intersect( const ISurfTriMesh& Other) = 0 ;
virtual bool Subtract( const ISurfTriMesh& Other) = 0 ;
virtual bool GetSurfClassification( const ISurfTriMesh& ClassifierSurf,
INTVECTOR& vTriaIn, INTVECTOR& vTriaOut, INTVECTOR& vTriaOnP, INTVECTOR& vTriaOnM, INTVECTOR& vTriaIndef) = 0 ;
INTVECTOR& vTriaIn, INTVECTOR& vTriaOut, INTVECTOR& vTriaOnP, INTVECTOR& vTriaOnM, INTVECTOR& vTriaIndef) = 0 ;
virtual bool CutWithOtherSurf( const ISurfTriMesh& CutterSurf, bool bInVsOut, bool bSaveOnEq) = 0 ;
virtual bool Repair( double dMaxEdgeLen = MAX_EDGE_LEN_STD) = 0 ;
virtual bool GetAllTriaOverlapBox( const BBox3d& b3Box, INTVECTOR& vT) const = 0 ;
@@ -128,12 +130,15 @@ class __declspec( novtable) ISurfTriMesh : public ISurf
virtual bool GetShellArea( int nShell, double& dArea) const = 0 ;
virtual bool RemoveShell( int nShell) = 0 ;
virtual ISurfTriMesh* CloneShell( int nShell) const = 0 ;
virtual bool GetPartLocalBBox( int nP, BBox3d& b3Loc) const = 0 ;
virtual bool GetPartBBox( int nP, const Frame3d& frRef, BBox3d& b3Ref) const = 0 ;
virtual int GetPartCount( void) const = 0 ;
virtual bool GetPartArea( int nPart, double& dArea) const = 0 ;
virtual bool GetPartVolume( int nPart, double& dVolume) const = 0 ;
virtual bool GetPartLoops( int nPart, POLYLINEVECTOR& vPL) const = 0 ;
virtual bool RemovePart( int nPart) = 0 ;
virtual ISurfTriMesh* ClonePart( int nPart) const = 0 ;
virtual bool GetPartAndShellFromFacet( int nFacet, int& nPart, int& nShell) const = 0 ;
virtual bool SetTFlag( int nId, int nTFlag) = 0 ;
virtual bool GetTFlag( int nId, int& nFlag) const = 0 ;
virtual int GetMaxTFlag( void) const = 0 ;
EGkSurfTriMeshAux.h
+32
View File
@@ -0,0 +1,32 @@
//----------------------------------------------------------------------------
// EgalTech 2025-2025
//----------------------------------------------------------------------------
// File : EGkSurfTriMeshAux.h Data : 07.07.25 Versione : 2.7g1
// Contenuto : Funzioni ausiliarie per ISurfTriMesh.
//
//
//
// Modifiche : 07.07.25 DS Creazione modulo.
//
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EGkSurfTriMesh.h"
//----------------------------------------------------------------------------
// Costanti per offset
static int STMOFF_FILLET = 0 ;
static int STMOFF_CHAMFER = 1 ;
static int STMOFF_EXTEND = 2 ;
//----------------------------------------------------------------------------
// Funzioni per Offset di singola superficie
EGK_EXPORT ISurfTriMesh* CreateSurfTriMeshOffset( const ISurfTriMesh* pStm, double dOffs, double dPrec, int nType = STMOFF_FILLET) ;
EGK_EXPORT ISurfTriMesh* CreateSurfTriMeshThickeningOffset( const ISurfTriMesh* pStm, double dOffs, double dPrec, int nType = STMOFF_FILLET) ;
// Funzioni per Offset di più superfici
EGK_EXPORT ISurfTriMesh* CreateSurfTriMeshesOffset( const CISURFTMPVECTOR& vStm, double dOffs, double dPrec, int nType = STMOFF_FILLET) ;
EGK_EXPORT ISurfTriMesh* CreateSurfTriMeshesThickeningOffset( const CISURFTMPVECTOR& vStm, double dOffs, double dPrec, int nType = STMOFF_FILLET) ;
// Funzione per Creazione superficie Shell
EGK_EXPORT ISurfTriMesh* CreateSurfTriMeshShell( const ISurfTriMesh* pStm, double dThick, double dLinTol) ;
EGkTrimming.h
+63
View File
@@ -0,0 +1,63 @@
//----------------------------------------------------------------------------
// EgalTech 2025-2025
//----------------------------------------------------------------------------
// File : EgkTrimming.h Data : 15.09.25 Versione : 2.7j1
// Contenuto : Calcolo di una superficie di Bezier Ruled definita da un sottoinsieme
// di facce di una superficie TriMesh
//
//
//
// Modifiche : 15.09.25 RE Creazione modulo.
//
//
//----------------------------------------------------------------------------
#pragma once
#include "EGkSelection.h"
#include "EGkCurveLine.h"
#include "/EgtDev/Include/EGkSurfBezier.h"
#include "/EgtDev/Include/EGkSurfTriMesh.h"
//----------------------- Macro per import/export ----------------------------
#undef EGK_EXPORT
#if defined( I_AM_EGK) // da definirsi solo nella DLL
#define EGK_EXPORT __declspec( dllexport)
#else
#define EGK_EXPORT __declspec( dllimport)
#endif
typedef std::vector<ISURFPOVECTOR> ISURFPOMATRIX ;
typedef std::vector<ICRVCOMPOPOVECTOR> ICRVCOMPOPOMATRIX ;
enum RegolarizeType { STD = 0, // standard, con modifiche dirette ai punti di controllo
RMF = 1}; // ricostruendo le curve usando il rotation minimizing frame
//-----------------------------------------------------------------------------
EGK_EXPORT bool GetTrimmingStmAdjTria( const ISurfTriMesh* pStm, int nStartTria, const Point3d& ptStartTria,
double dAngTol, double dSize, double dSizeTol, ISurfTriMesh* pStmAdjTria) ;
EGK_EXPORT bool GetTrimmingAdjSurfs( const CISURFPVECTOR& vSurf, const CISURFPVECTOR& vOtherSurf, double dLinTol,
double dAngTol, double dFaceAngTol,
INTVECTOR& vIndOtherSurf) ;
EGK_EXPORT bool GetTrimmingRawEdges( const CISURFPVECTOR& vSurf, const SELVECTOR& vSurfFace,
double dLinTol, double dAngTol,
ICRVCOMPOPOVECTOR& vBezierEdges) ;
EGK_EXPORT bool GetTrimmingBezierEdges( ICRVCOMPOPOVECTOR& vCompoRawEdges, double dLinTol, double dAngTol,
ICRVCOMPOPOVECTOR& vCompoEdges) ;
EGK_EXPORT bool GetTrimmingFinalBorders( ICRVCOMPOPOVECTOR& vCompoBezierEdges, double dLinTol,
double dAngTol, BIPNTVECTOR& vBreakingPts, double dThick, double dThickTol) ;
EGK_EXPORT bool GetTrimmingFinalBorders( CISURFPVECTOR& vpSurf, const SELVECTOR& vSurfFaces, double dSurfLinTol,
double dSurfAngTol, double dLinTol, double dAngTol, double dThick,
ICRVCOMPOPOVECTOR& vCompoBezierEdges) ;
EGK_EXPORT ISurfBezier* GetTrimmingRuledBezier( const CISURFPVECTOR& vSurf, const ICurve* pCrvEdge1, const ICurve* pCrvEdge2,
double dLinTol, const BIPNTVECTOR& vSyncPoints) ;
EGK_EXPORT bool GetTrimmingSurfBzSyncPoints( const ICurve* pCrvEdge1, const ICurve* pCrvEdge2,
double dLinTol, BIPNTVECTOR& vSyncPoints) ;
EGK_EXPORT bool GetTrimmingSyncInterpolation( const ICurve* pCrvEdge1, const ICurve* pCrvEdge2,
const ICurve* pSync1, const ICurve* pSync2, double dLinTol,
double dAngTol, BIPNTVECTOR& vSyncPoints) ;
EGK_EXPORT bool GetTrimmingHoleBorders( const CISURFPVECTOR& vpSurf, const Point3d& ptRef, double dSurfLinTol,
double dSurfAngTol, double dEdgeLinTol, double dEdgeAngTol,
double dEdgeThick, ICRVCOMPOPOVECTOR& vHoleBorders) ;
EGK_EXPORT ISurfBezier* RegolarizeBordersLocally( const ISurfBezier* pSurfBz, const BIPOINT& bpIsoStart,
const BIPOINT& bpIsoEnd, double dTol, int nType = RegolarizeType::STD) ;
EGkUserObjFactory.h
+25 -25
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2015-2015
// EgalTech 2015-2025
//----------------------------------------------------------------------------
// File : EGkUserObjFactory.h Data : 22.05.15 Versione : 1.6e3
// File : EGkUserObjFactory.h Data : 31.10.25 Versione : 2.7k1
// Contenuto : Factory della classe IUserObj.
//
//
@@ -32,29 +32,6 @@
#define USEROBJ_CREATE( sName) UserObjFactory::Create( sName)
#define USEROBJ_GETLIST( vsList) UserObjFactory::GetList( vsList)
//----------------------------------------------------------------------------
template <class T>
class UserObjRegister
{
public :
static bool DoRegister( const std::string& sName)
{ if ( ! UserObjFactory::Register( sName, Create))
return false ;
GetNamePrivate() = sName ;
return true ; }
static IUserObj* Create( void)
{ return new(nothrow) T ; }
static const std::string& GetName( void)
{ return GetNamePrivate() ; }
private :
UserObjRegister( void) {}
~UserObjRegister( void) {}
static std::string& GetNamePrivate( void)
{ static std::string s_sName ;
return s_sName ; }
} ;
//----------------------------------------------------------------------------
class UserObjFactory
{
@@ -76,3 +53,26 @@ class UserObjFactory
// metodo di accesso alla mappa statica
static CreatorMap& GetCreatorMap( void) ;
} ;
//----------------------------------------------------------------------------
template <class T>
class UserObjRegister
{
public :
static bool DoRegister( const std::string& sName)
{ if ( ! UserObjFactory::Register( sName, Create))
return false ;
GetNamePrivate() = sName ;
return true ; }
static IUserObj* Create( void)
{ return new( std::nothrow) T ; }
static const std::string& GetName( void)
{ return GetNamePrivate() ; }
private :
UserObjRegister( void) {}
~UserObjRegister( void) {}
static std::string& GetNamePrivate( void)
{ static std::string s_sName ;
return s_sName ; }
} ;
EGkVolZmap.h
+12 -6
View File
@@ -9,6 +9,8 @@
// Modifiche : 22.01.15 DS Creazione modulo.
// 12.09.23 DS Aggiunto metodo IsTriDexel.
// 09.03.24 DS Aggiunti SetShowEdges e GetShowEdges.
// 10.06.25 RE Aggiunte funzioni per Offset di superfici TriMesh chiuse
// 04.07.25 RE Aggiunte funzioni per Thickening Offset di superfici TriMesh generiche
//
//----------------------------------------------------------------------------
@@ -17,7 +19,7 @@
#include "/EgtDev/Include/EGkGeoObj.h"
#include "/EgtDev/Include/EGkCurveComposite.h"
#include "/EgtDev/Include/EGkSurfFlatRegion.h"
#include "/EgtDev/Include/EGkSurfTriMesh.h"
#include "/EgtDev/Include/EGkSurfTriMeshAux.h"
//----------------------------------------------------------------------------
class __declspec( novtable) IVolZmap : public IGeoObj
@@ -27,13 +29,14 @@ class __declspec( novtable) IVolZmap : public IGeoObj
public :
virtual bool CopyFrom( const IGeoObj* pGObjSrc) = 0 ;
virtual bool Clear( void) = 0 ;
virtual bool Create( const Point3d& ptO, double dDimX, double dDimY, double dDimZ, double dStep, bool bTriDex) = 0 ;
virtual bool CreateEmpty( const Point3d& ptO, double dDimX, double dDimY, double dDimZ, double dStep, bool bTriDex) = 0 ;
virtual bool CreateFromFlatRegion( const ISurfFlatRegion& Surf, double dDimZ, double dStep, bool bTriDex) = 0 ;
virtual bool CreateFromTriMesh( const ISurfTriMesh& Surf, double dStep, bool bTriDex) = 0 ;
virtual bool Create( const Point3d& ptO, double dDimX, double dDimY, double dDimZ, double dStep, bool bTriDex, int* nError = nullptr) = 0 ;
virtual bool CreateEmpty( const Point3d& ptO, double dDimX, double dDimY, double dDimZ, double dStep, bool bTriDex, int* nError = nullptr) = 0 ;
virtual bool CreateFromFlatRegion( const ISurfFlatRegion& Surf, double dDimZ, double dStep, bool bTriDex, int* nError = nullptr) = 0 ;
virtual bool CreateFromTriMesh( const ISurfTriMesh& Surf, double dStep, bool bTriDex, double dExtraBox = 0, int* nError = nullptr) = 0 ;
virtual int GetBlockCount( void) const = 0 ;
virtual int GetBlockUpdatingCounter( int nBlock) const = 0 ;
virtual bool GetBlockTriangles( int nBlock, TRIA3DEXVECTOR& vTria) const = 0 ;
virtual ISurfTriMesh* GetSurfTriMesh( void) const = 0 ;
virtual bool GetEdges( ICURVEPOVECTOR& vpCurve) const = 0 ;
virtual bool GetVolume( double& dVol) const = 0 ;
virtual bool IsTriDexel( void) const = 0 ;
@@ -89,7 +92,10 @@ class __declspec( novtable) IVolZmap : public IGeoObj
virtual bool RemovePart( int nPart) = 0 ;
virtual int GetPartMinDistFromPoint( const Point3d& ptP) const = 0 ;
virtual bool AddSurfTm( const ISurfTriMesh* pStm) = 0 ;
virtual bool MakeUniform( double dToler) = 0 ;
virtual bool SubtractSurfTm( const ISurfTriMesh* pStm) = 0 ;
virtual bool MakeUniform( double dToler, bool bIsExtensionFirst = true, int nToolNum = 0) = 0 ;
virtual bool RemoveFins( const Vector3d& vtDir, double dThick) = 0 ;
virtual bool Offset( double dOffs, int nType) = 0 ;
} ;
//-----------------------------------------------------------------------------
EGnFileUtils.h
+4 -2
View File
@@ -1,13 +1,14 @@
//----------------------------------------------------------------------------
// EgalTech 2013-2022
// EgalTech 2013-2026
//----------------------------------------------------------------------------
// File : EGnFileUtils.h Data : 09.04.22 Versione : 2.4d1
// File : EGnFileUtils.h Data : 09.01.26 Versione : 3.1a1
// Contenuto : Prototipi funzioni di utilità su file e direttori.
//
//
//
// Modifiche : 11.12.13 DS Creazione modulo.
// 09.04.22 DS Aggiunta FindAllFiles.
// 09.01.26 DS Aggiunta EraseNonEmptyDirectory.
//
//----------------------------------------------------------------------------
@@ -42,4 +43,5 @@ EGN_EXPORT bool ExistsDirectory( const std::string& sDir) ;
EGN_EXPORT bool CreateDirectoryEgt( const std::string& sDir) ;
EGN_EXPORT bool EmptyDirectory( const std::string& sDir) ;
EGN_EXPORT bool EraseDirectory( const std::string& sDir) ;
EGN_EXPORT bool EraseNonEmptyDirectory( const std::string& sDir) ;
EGN_EXPORT bool FindAllDirectories( const std::string& sDirSpec, STRVECTOR& vsDirNames) ;
EGnStringKeyVal.h
+39 -4
View File
@@ -101,14 +101,14 @@ GetVal( const std::string& sString, const std::string& sKey, T& Val)
inline bool
SetValInNotes( const std::string& sKey, const std::string& sVal, std::string& sNotes)
{
// verifiche validità chiave
// verifiche validità chiave
if ( ! IsValidKey( sKey) || ! IsValidVal( sVal))
return false ;
// chiave con carattere finale speciale
std::string sTkey = sKey ;
if ( sKey.back() != COLON)
sTkey += EQUAL ;
// ricerca se già presente
// ricerca se già presente
STRVECTOR vsTokens ;
Tokenize( sNotes, ";", vsTokens) ;
bool bFound = false ;
@@ -143,7 +143,7 @@ SetValInNotes( const std::string& sKey, T& Val, std::string& sNotes)
inline bool
GetValInNotes( const std::string& sNotes, const std::string& sKey, std::string& sVal)
{
// verifiche validità chiave
// verifiche validità chiave
if ( sNotes.empty() || ! IsValidKey( sKey))
return false ;
// chiave con carattere finale speciale
@@ -171,11 +171,46 @@ GetValInNotes( const std::string& sNotes, const std::string& sKey, T& Val)
return ( GetValInNotes( sNotes, sKey, sVal) && FromString( sVal, Val)) ;
}
//----------------------------------------------------------------------------
inline bool
GetValInNotes( const std::string& sNotes, const std::string& sKey, const std::string& sToken, std::string& sVal)
{
// verifiche validità chiave
if ( sNotes.empty() || ! IsValidKey( sKey))
return false ;
// verifiche validità del token
if ( sToken.empty())
return false ;
// chiave con carattere finale speciale
std::string sTkey = sKey ;
if ( sKey.back() != COLON)
sTkey += EQUAL ;
// ricerca
STRVECTOR vsTokens ;
Tokenize( sNotes, sToken, vsTokens) ;
for ( const auto& sToken : vsTokens) {
if ( FindKey( sToken, sTkey, true)) {
sVal = sToken.substr( sTkey.length()) ;
return true ;
}
}
return false ;
}
//----------------------------------------------------------------------------
template <class T>
inline bool
GetValInNotes( const std::string& sNotes, const std::string& sKey, const std::string& sToken, T& Val)
{
std::string sVal ;
return ( GetValInNotes( sNotes, sKey, sToken, sVal) && FromString( sVal, Val)) ;
}
//----------------------------------------------------------------------------
inline bool
RemoveValInNotes( const std::string& sKey, std::string& sNotes)
{
// verifiche validità chiave
// verifiche validità chiave
if ( sNotes.empty() || ! IsValidKey( sKey))
return false ;
// chiave con carattere finale speciale
EGnStringUtils.h
+108 -4
View File
@@ -1,13 +1,14 @@
//----------------------------------------------------------------------------
// EgalTech 2013-2014
// EgalTech 2013-2025
//----------------------------------------------------------------------------
// File : EGnStringUtils.h Data : 17.03.14 Versione : 1.5c2
// File : EGnStringUtils.h Data : 18.09.25 Versione : 2.7i1
// Contenuto : Dichiarazione delle funzioni di utilità per le stringhe.
//
//
//
// Modifiche : 20.11.13 DS Creazione modulo.
// 20.10.15 DS Agg. FromString e ToString per std::array<double,N>.
// 18.09.25 DS Agg. FromString e ToString per long long.
//
//----------------------------------------------------------------------------
@@ -136,6 +137,10 @@ FromString( const std::string& sVal, unsigned int& nVal)
{ auto answer = fast_float::from_chars_advanced( sVal.data(), sVal.data() + sVal.size(), nVal, FAST_FLOAT_OPTS) ;
return ( answer.ec == std::errc() && answer.ptr != sVal.data()) ; }
inline bool
FromString( const std::string& sVal, long long& nVal)
{ auto answer = fast_float::from_chars_advanced( sVal.data(), sVal.data() + sVal.size(), nVal, FAST_FLOAT_OPTS) ;
return ( answer.ec == std::errc() && answer.ptr != sVal.data()) ; }
inline bool
FromString( const std::string& sVal, bool& bVal)
{ int nTmp ;
if ( ! FromString( sVal, nTmp))
@@ -184,7 +189,30 @@ EGN_EXPORT bool FromString( const std::string& sVal, DBLVECTOR& vdVal) ;
EGN_EXPORT bool FromString( const std::string& sVal, STRVECTOR& vsVal) ;
//----------------------------------------------------------------------------
EGN_EXPORT const std::string ToStringAdv( int nVal, int nPrec = 1, int nRadix = 10, int* pnErr = nullptr) ;
inline const std::string
ToStringAdv( int nVal, int nPrec = 1, int nRadix = 10, int* pnErr = nullptr)
{
// eseguo conversione
const int nBuffSize = 36 ;
char szBuff[nBuffSize]{} ;
auto Res = std::to_chars( szBuff, szBuff + nBuffSize - 1, nVal, nRadix) ;
if ( Res.ec != std::errc()) {
if ( pnErr != nullptr)
*pnErr = int( Res.ec) ;
return "#Error" ;
}
// gestione codice di errore
if ( pnErr != nullptr)
*pnErr = 0 ;
// verifico lunghezza minima
int nLen = (int) strlen( szBuff) ;
if ( nLen >= nPrec)
return szBuff ;
// porto la stringa alla minima lunghezza
std::string sBuff( szBuff) ;
sBuff.insert( 0, ( nPrec - nLen), '0') ;
return sBuff ;
}
inline const std::string
ToString( int nVal, int nPrec = 1, int nRadix = 10, int* pnErr = nullptr)
{
@@ -205,7 +233,31 @@ ToString( int nVal, int nPrec = 1, int nRadix = 10, int* pnErr = nullptr)
*pnErr = 0 ;
return szBuff ;
}
EGN_EXPORT const std::string ToStringAdv( unsigned int nVal, int nPrec = 1, int nRadix = 10, int* pnErr = nullptr) ;
inline const std::string
ToStringAdv( unsigned int nVal, int nPrec = 1, int nRadix = 10, int* pnErr = nullptr)
{
// eseguo conversione
const int nBuffSize = 36 ;
char szBuff[nBuffSize]{} ;
auto Res = std::to_chars( szBuff, szBuff + nBuffSize - 1, nVal, nRadix) ;
if ( Res.ec != std::errc()) {
if ( pnErr != nullptr)
*pnErr = int( Res.ec) ;
return "#Error" ;
}
// gestione codice di errore
if ( pnErr != nullptr)
*pnErr = 0 ;
// verifico lunghezza minima
int nLen = (int) strlen( szBuff) ;
if ( nLen >= nPrec)
return szBuff ;
// porto la stringa alla minima lunghezza
std::string sBuff( szBuff) ;
sBuff.insert( 0, ( nPrec - nLen), '0') ;
return sBuff ;
}
inline const std::string
ToString( unsigned int nVal, int nPrec = 1, int nRadix = 10, int* pnErr = nullptr)
{
@@ -227,6 +279,58 @@ ToString( unsigned int nVal, int nPrec = 1, int nRadix = 10, int* pnErr = nullpt
return szBuff ;
}
template <size_t size>
const std::string ToString( const unsigned int (&nVal)[size], int nPrec = 1)
{ std::string sDest ; sDest.reserve( 8 * size) ;
for ( const auto& nV : nVal)
sDest += ToString( nV, nPrec) + "," ;
sDest.pop_back() ;
return sDest ; }
inline const std::string
ToStringAdv( long long nVal, int nPrec = 1, int nRadix = 10, int* pnErr = nullptr)
{
// eseguo conversione
const int nBuffSize = 68 ;
char szBuff[nBuffSize]{} ;
auto Res = std::to_chars( szBuff, szBuff + nBuffSize - 1, nVal, nRadix) ;
if ( Res.ec != std::errc()) {
if ( pnErr != nullptr)
*pnErr = int( Res.ec) ;
return "#Error" ;
}
// gestione codice di errore
if ( pnErr != nullptr)
*pnErr = 0 ;
// verifico lunghezza minima
int nLen = (int) strlen( szBuff) ;
if ( nLen >= nPrec)
return szBuff ;
// porto la stringa alla minima lunghezza
std::string sBuff( szBuff) ;
sBuff.insert( 0, ( nPrec - nLen), '0') ;
return sBuff ;
}
inline const std::string
ToString( long long nVal, int nPrec = 1, int nRadix = 10, int* pnErr = nullptr)
{
// se necessario processing avanzato
if ( nPrec > 1 || nRadix < 6)
return ToStringAdv( nVal, nPrec, nRadix, pnErr) ;
// eseguo conversione
const int nBuffSize = 16 ;
char szBuff[nBuffSize]{} ;
auto Res = std::to_chars( szBuff, szBuff + nBuffSize - 1, nVal, nRadix) ;
if ( Res.ec != std::errc()) {
if ( pnErr != nullptr)
*pnErr = int( Res.ec) ;
return "#Error" ;
}
// gestione codice di errore
if ( pnErr != nullptr)
*pnErr = 0 ;
return szBuff ;
}
template <size_t size>
const std::string ToString( const int (&nVal)[size], int nPrec = 1)
{ std::string sDest ; sDest.reserve( 8 * size) ;
for ( const auto& nV : nVal)
EInAPI.h
+33 -17
View File
@@ -34,8 +34,8 @@ extern "C" {
// General
EIN_EXPORT BOOL __stdcall EgtInit( int nDebug, const wchar_t* wsLogFile, const wchar_t* wsLogMsg) ;
EIN_EXPORT BOOL __stdcall EgtExit( void) ;
typedef bool (__stdcall * pfOnTerminateProcess) ( int) ;
EIN_EXPORT BOOL __stdcall EgtSetOnTerminateProcess( pfOnTerminateProcess pFun) ;
typedef bool (__stdcall * psfOnTerminateProcess) ( int) ;
EIN_EXPORT BOOL __stdcall EgtSetOnTerminateProcess( psfOnTerminateProcess pFun) ;
EIN_EXPORT BOOL __stdcall EgtSetUserLevel( int nUserLev) ;
EIN_EXPORT int __stdcall EgtGetUserLevel( void) ;
EIN_EXPORT BOOL __stdcall EgtSetKey( const wchar_t* wsKey) ;
@@ -65,10 +65,10 @@ EIN_EXPORT BOOL __stdcall EgtGetCpuInfo( wchar_t*& wsCpu) ;
EIN_EXPORT BOOL __stdcall EgtGetMemoryInfo( wchar_t*& wsMem) ;
EIN_EXPORT BOOL __stdcall EgtFreeMemory( void* pMem) ;
EIN_EXPORT BOOL __stdcall EgtOutLog( const wchar_t* wsMsg) ;
typedef int (__stdcall * pfProcEvents) (int, int) ;
EIN_EXPORT BOOL __stdcall EgtSetProcessEvents( pfProcEvents pFun) ;
typedef BOOL (__stdcall * pfOutTextW) (wchar_t*&) ;
EIN_EXPORT BOOL __stdcall EgtSetOutText( pfOutTextW pFun) ;
typedef int (__stdcall * psfProcEvents) (int, int) ;
EIN_EXPORT BOOL __stdcall EgtSetProcessEvents( psfProcEvents pFun) ;
typedef BOOL (__stdcall * psfOutTextW) (wchar_t*&) ;
EIN_EXPORT BOOL __stdcall EgtSetOutText( psfOutTextW pFun) ;
EIN_EXPORT BOOL __stdcall EgtSetTempDir( const wchar_t* wsTempDir) ;
EIN_EXPORT BOOL __stdcall EgtGetTempDir( wchar_t*& wsTempDir) ;
EIN_EXPORT BOOL __stdcall EgtSetMainWindowHandle( HWND hMainWnd) ;
@@ -103,8 +103,8 @@ EIN_EXPORT BOOL __stdcall EgtNewFile( void) ;
EIN_EXPORT BOOL __stdcall EgtOpenFile( const wchar_t* wsFilePath) ;
EIN_EXPORT BOOL __stdcall EgtInsertFile( const wchar_t* wsFilePath) ;
EIN_EXPORT BOOL __stdcall EgtSaveFile( const wchar_t* wsFilePath, int nFlag) ;
EIN_EXPORT BOOL __stdcall EgtSaveObjToFile( int nId, const wchar_t* wsFilePath, int nFlag) ;
EIN_EXPORT BOOL __stdcall EgtSaveMachGroupToFile( int nMGroupId, const wchar_t* wsFilePath, int nFlag) ;
EIN_EXPORT BOOL __stdcall EgtSaveObjToFile( int nNumId, const int nIds[], const wchar_t* wsFilePath, int nFlag) ;
EIN_EXPORT BOOL __stdcall EgtSaveMachGroupToFile( int nMGroupId, int nNumPlusId, const int nPlusIds[], const wchar_t* wsFilePath, int nFlag) ;
// Exchange
EIN_EXPORT int __stdcall EgtGetFileType( const wchar_t* wsFilePath) ;
@@ -156,11 +156,13 @@ EIN_EXPORT int __stdcall EgtBeamModifyProcess( int nGeomId, int nGroup, int nPr
int nCrvId, int nCrv2Id, BOOL bUpdate) ;
EIN_EXPORT BOOL __stdcall EgtBeamEraseProcess( int nGeomId, BOOL bUpdate) ;
EIN_EXPORT BOOL __stdcall EgtBeamEnableProcess( int nGeomId, BOOL bEnable, BOOL bUpdate) ;
EIN_EXPORT BOOL __stdcall EgtBeamCalcAllSolids( BOOL bShow, BOOL bRecalc) ;
EIN_EXPORT BOOL __stdcall EgtBeamShowAllSolids( BOOL bShow) ;
EIN_EXPORT BOOL __stdcall EgtBeamCalcSolid( int nPartId, BOOL bRecalc) ;
EIN_EXPORT int __stdcall EgtBeamGetSolid( int nPartId) ;
EIN_EXPORT BOOL __stdcall EgtBeamShowSolid( int nPartId, BOOL bShow) ;
EIN_EXPORT BOOL __stdcall EgtBeamGetBuildingIsOn( void) ;
EIN_EXPORT BOOL __stdcall EgtBeamShowBuilding( BOOL bShow) ;
EIN_EXPORT BOOL __stdcall EgtBeamGetBuildingIsOn( int nAssGrpId) ;
EIN_EXPORT BOOL __stdcall EgtBeamShowBuilding( int nAssGrpId, BOOL bShow) ;
// Tsc Executor
EIN_EXPORT BOOL __stdcall EgtInitTscExec( void) ;
@@ -295,6 +297,8 @@ EIN_EXPORT int __stdcall EgtCreatePolygonFromApothem( int nParentId, int nNumSi
const double ptMid[3], int nRefType) ;
EIN_EXPORT int __stdcall EgtCreatePolygonFromSide( int nParentId, int nNumSides, const double ptIni[3],
const double ptFin[3], int nRefType) ;
EIN_EXPORT int __stdcall EgtSurfBezierGetCurveU( int nSurfId, double dU, int nDestGroup) ;
EIN_EXPORT int __stdcall EgtSurfBezierGetCurveV( int nSurfId, double dV, int nDestGroup) ;
// GeomDB Create Surf
EIN_EXPORT int __stdcall EgtCreateSurfFrRectangle( int nParentId, const double ptIni[3], const double ptCross[3], int nRefType) ;
@@ -390,7 +394,9 @@ EIN_EXPORT BOOL __stdcall EgtGetBBoxRef( int nId, int nFlag, const double ptOrig
const double vtX[3], const double vtY[3], const double vtZ[3],
double ptMin[3], double ptMax[3]) ;
EIN_EXPORT int __stdcall EgtCopy( int nSouId, int nRefId, int nSonBeforeAfter) ;
EIN_EXPORT int __stdcall EgtCopyEx( int nSouCtx, int nSouId, int nDestCtx, int nRefId, int nSonBeforeAfter) ;
EIN_EXPORT int __stdcall EgtCopyGlob( int nSouId, int nRefId, int nSonBeforeAfter) ;
EIN_EXPORT int __stdcall EgtCopyGlobEx( int nSouCtx, int nSouId, int nDestCtx, int nRefId, int nSonBeforeAfter) ;
EIN_EXPORT BOOL __stdcall EgtRelocate( int nSouId, int nRefId, int nSonBeforeAfter) ;
EIN_EXPORT BOOL __stdcall EgtRelocateGlob( int nSouId, int nRefId, int nSonBeforeAfter) ;
EIN_EXPORT BOOL __stdcall EgtGroupSwap( int nId1, int nId2, BOOL bSwapRef, BOOL bMark) ;
@@ -629,6 +635,10 @@ EIN_EXPORT int __stdcall EgtGetSurfTmSilhouette( int nId, const double vtDir[3]
EIN_EXPORT int __stdcall EgtExtractSurfTmLoops( int nId, int nDestGrpId, int* pnCount) ;
EIN_EXPORT int __stdcall EgtExtractSurfTmFacetLoops( int nId, int nFacet, int nDestGrpId, int* pnCount) ;
EIN_EXPORT int __stdcall EgtCopySurfTmFacet( int nId, int nFacet, int nDestGrpId) ;
EIN_EXPORT int __stdcall EgtExtractSurfTmTriaLoop( int nId, int nT, int nDestGrpId) ;
EIN_EXPORT BOOL __stdcall EgtSurfBezierParamsFromPoint( int nSurfId, const double ptOnSurf[3], int nRefId, double* pdU, double* pdV) ;
EIN_EXPORT BOOL __stdcall EgtSurfBezierGetPointNrmD1( int nSurfId, double dU, double dV, int nUsd, int nVsd, int nRefId,
double ptP[3], double vtNorm[3], double vtDerU[3], double vtDerV[3]) ;
EIN_EXPORT int __stdcall EgtExtractSurfBezierLoops( int nId, int nDestGrpId, int* pnCount) ;
// Geo Snap Vector/Point/Frame
@@ -774,7 +784,7 @@ EIN_EXPORT int __stdcall EgtAddRawPart( const double ptOrig[3],
EIN_EXPORT BOOL __stdcall EgtModifyRawPart( int nRawId, const double ptOrig[3],
double dLength, double dWidth, double dHeight, const int vCol[4]) ;
EIN_EXPORT BOOL __stdcall EgtModifyRawPart2( int nRawId, int nCrvId,
double dOverMat, double dZmin, double dHeight, const int vCol[4]) ;
double dOverMat, double dHeight, const int vCol[4]) ;
EIN_EXPORT BOOL __stdcall EgtModifyRawPartSize( int nRawId, double dLength, double dWidth, double dHeight) ;
EIN_EXPORT BOOL __stdcall EgtModifyRawPartHeight( int nRawId, double dHeight) ;
EIN_EXPORT BOOL __stdcall EgtKeepRawPart( int nRawId, int nSouPhase) ;
@@ -898,16 +908,16 @@ EIN_EXPORT int __stdcall EgtGetFirstOperation( void) ;
EIN_EXPORT int __stdcall EgtGetNextOperation( int nId) ;
EIN_EXPORT int __stdcall EgtGetLastOperation( void) ;
EIN_EXPORT int __stdcall EgtGetPrevOperation( int nId) ;
EIN_EXPORT int __stdcall EgtGetFirstActiveOperation( void) ;
EIN_EXPORT int __stdcall EgtGetNextActiveOperation( int nId) ;
EIN_EXPORT int __stdcall EgtGetLastActiveOperation( void) ;
EIN_EXPORT int __stdcall EgtGetPrevActiveOperation( int nId) ;
EIN_EXPORT int __stdcall EgtGetFirstActiveOperation( bool bNeedMachNotEmpty) ;
EIN_EXPORT int __stdcall EgtGetNextActiveOperation( int nId, bool bNeedMachNotEmpty) ;
EIN_EXPORT int __stdcall EgtGetLastActiveOperation( bool bNeedMachNotEmpty) ;
EIN_EXPORT int __stdcall EgtGetPrevActiveOperation( int nId, bool bNeedMachNotEmpty) ;
EIN_EXPORT int __stdcall EgtGetOperationType( int nId) ;
EIN_EXPORT int __stdcall EgtGetOperationPhase( int nId) ;
EIN_EXPORT BOOL __stdcall EgtSetOperationName( int nId, const wchar_t* wsName) ;
EIN_EXPORT BOOL __stdcall EgtGetOperationName( int nId, wchar_t*& wsName) ;
EIN_EXPORT int __stdcall EgtGetOperationId( const wchar_t* wsName) ;
EIN_EXPORT BOOL __stdcall EgtIsOperationEmpty( int nId) ;
EIN_EXPORT BOOL __stdcall EgtIsOperationEmpty( int nId, int nEmptyType) ;
EIN_EXPORT BOOL __stdcall EgtRemoveOperation( int nId) ;
EIN_EXPORT BOOL __stdcall EgtRemoveAllPhaseOperations( int nPhase) ;
EIN_EXPORT BOOL __stdcall EgtRemoveAllOperations( void) ;
@@ -940,6 +950,7 @@ EIN_EXPORT BOOL __stdcall EgtSetMachiningGeometry( int nNumId, const int nIds[],
EIN_EXPORT BOOL __stdcall EgtPreviewMachining( BOOL bRecalc) ;
EIN_EXPORT BOOL __stdcall EgtApplyMachining( BOOL bRecalc) ;
EIN_EXPORT BOOL __stdcall EgtUpdateMachining( void) ;
EIN_EXPORT BOOL __stdcall EgtChangePreviewMachiningToolShow( int nLookFlag) ;
EIN_EXPORT BOOL __stdcall EgtPreparePreviewMachiningTool( void) ;
EIN_EXPORT BOOL __stdcall EgtRemovePreviewMachiningTool( void) ;
EIN_EXPORT int __stdcall EgtGetPreviewMachiningToolStepCount( void) ;
@@ -949,7 +960,7 @@ EIN_EXPORT BOOL __stdcall EgtGetMachiningParamInt( int nType, int* pnVal) ;
EIN_EXPORT BOOL __stdcall EgtGetMachiningParamDouble( int nType, double* pdVal) ;
EIN_EXPORT BOOL __stdcall EgtGetMachiningParamString( int nType, wchar_t*& wsVal) ;
EIN_EXPORT BOOL __stdcall EgtGetMachiningGeometry( int nInd, int* pnId, int* pnSub) ;
EIN_EXPORT BOOL __stdcall EgtIsMachiningEmpty( void) ;
EIN_EXPORT BOOL __stdcall EgtIsMachiningEmpty( int nEmptyType) ;
EIN_EXPORT BOOL __stdcall EgtGetMachiningStartPoint( double ptP[3]) ;
EIN_EXPORT BOOL __stdcall EgtGetMachiningEndPoint( double ptP[3]) ;
EIN_EXPORT BOOL __stdcall EgtApplyAllMachinings( BOOL bRecalc, BOOL bStopOnFirstErr, wchar_t*& wsErrList) ;
@@ -961,6 +972,7 @@ EIN_EXPORT BOOL __stdcall EgtSimMove( int* pnStatus) ;
EIN_EXPORT BOOL __stdcall EgtSimHome( void) ;
EIN_EXPORT BOOL __stdcall EgtSimSetStep( double dStep) ;
EIN_EXPORT BOOL __stdcall EgtSimSetUiStatus( int nUiStatus) ;
EIN_EXPORT BOOL __stdcall EgtSimEnableToolTipTrace( BOOL bEnable) ;
EIN_EXPORT BOOL __stdcall EgtSimGetAxisInfoPos( int nI, wchar_t*& wsName, wchar_t*& wsToken, BOOL* pbLinear, double* pdVal) ;
EIN_EXPORT BOOL __stdcall EgtSimGetToolInfo( wchar_t*& wsTool, double* pdSpeed) ;
EIN_EXPORT BOOL __stdcall EgtSimGetOperationInfo( wchar_t*& wsName, int* pnType) ;
@@ -988,6 +1000,7 @@ EIN_EXPORT BOOL __stdcall EgtGetAllTablesNames( wchar_t*& wsNames) ;
// Machine Calc
EIN_EXPORT BOOL __stdcall EgtSetCalcTool( const wchar_t* wsTool, const wchar_t* wsHead, int nExit) ;
EIN_EXPORT BOOL __stdcall EgtGetCalcTool( wchar_t*& wsTool, wchar_t*& wsHead, int* pnExit) ;
EIN_EXPORT BOOL __stdcall EgtGetAllCurrAxesNames( wchar_t*& wsAxNames) ;
EIN_EXPORT BOOL __stdcall EgtGetCalcAngles( const double vtDirT[3], const double vtDirA[3],
int* pnStat, double* pdAngA1, double* pdAngB1, double* pdAngA2, double* pdAngB2) ;
EIN_EXPORT BOOL __stdcall EgtGetCalcAnglesEx( const double vtDirT[3], const double vtDirA[3],
@@ -1023,6 +1036,7 @@ EIN_EXPORT BOOL __stdcall EgtSetGridGeoAdv( double dSnapStep, int nMinLineSstep,
EIN_EXPORT BOOL __stdcall EgtSetGridColor( const int nMinCol[4], const int nMajCol[4]) ;
EIN_EXPORT BOOL __stdcall EgtResize( int nW, int nH) ;
EIN_EXPORT BOOL __stdcall EgtDraw( void) ;
EIN_EXPORT BOOL __stdcall EgtRedraw( void) ;
EIN_EXPORT BOOL __stdcall EgtSelect( int nWinX, int nWinY, int nSelW, int nSelH, int* pnSel) ;
EIN_EXPORT BOOL __stdcall EgtSetObjFilterForSelWin( BOOL bZerodim, BOOL bCurve, BOOL bSurf, BOOL bVolume, BOOL bExtra) ;
EIN_EXPORT BOOL __stdcall EgtUnselectableAdd( int nId) ;
@@ -1042,6 +1056,8 @@ EIN_EXPORT BOOL __stdcall EgtSetShowCurveDirection( BOOL bShow, BOOL bRedraw) ;
EIN_EXPORT BOOL __stdcall EgtGetShowCurveDirection( void) ;
EIN_EXPORT BOOL __stdcall EgtSetShowTriaAdv( BOOL bAdvanced, BOOL bRedraw) ;
EIN_EXPORT BOOL __stdcall EgtGetShowTriaAdv( void) ;
EIN_EXPORT BOOL __stdcall EgtSetShowSurfBezierTol( double dLinTol, BOOL bRedraw) ;
EIN_EXPORT double __stdcall EgtGetShowSurfBezierTol( void) ;
EIN_EXPORT BOOL __stdcall EgtSetShowZmap( int nMode, BOOL bRedraw) ;
EIN_EXPORT int __stdcall EgtGetShowZmap( void) ;
EIN_EXPORT BOOL __stdcall EgtZoom( int nZoom, BOOL bRedraw) ;
EMkMachMgr.h
+31 -16
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2015-2024
// EgalTech 2015-2025
//----------------------------------------------------------------------------
// File : EMkMachMgr.h Data : 25.11.24 Versione : 2.6k5
// File : EMkMachMgr.h Data : 09.09.25 Versione : 2.7i2
// Contenuto : Dichiarazione della interfaccia IMachMgr.
//
//
@@ -19,6 +19,7 @@
// 02.04.24 DS Aggiunta in interfaccia GetClEntAxesMask.
// 22.04.24 DS Aggiunta in interfaccia GetExitId.
// 25.11.24 DS Aggiunta in interfaccia GetMachiningSkippedGeometry.
// 09.09.25 DS Aggiunta in interfaccia GetRobotAngles.
//
//----------------------------------------------------------------------------
@@ -86,7 +87,7 @@ class __declspec( novtable) IMachMgr
virtual int AddRawPart( const Point3d& ptOrig, double dLen, double dWidth, double dHeight, Color cCol) = 0 ;
virtual int AddRawPartWithPart( int nPartId, int nCrvSrfId, double dOverMat, Color cCol) = 0 ;
virtual bool ModifyRawPart( int nRawId, const Point3d& ptOrig, double dLen, double dWidth, double dHeight, Color cCol) = 0 ;
virtual bool ModifyRawPart( int nRawId, int nCrvId, double dOverMat, double dZmin, double dHeight, Color cCol) = 0 ;
virtual bool ModifyRawPart( int nRawId, int nCrvId, double dOverMat, double dHeight, Color cCol) = 0 ;
virtual bool ModifyRawPartSize( int nRawId, double dLength, double dWidth, double dHeight) = 0 ;
virtual bool ModifyRawPartHeight( int nRawId, double dHeight) = 0 ;
virtual bool KeepRawPart( int nRawId, int nSouPhase) = 0 ;
@@ -175,10 +176,11 @@ class __declspec( novtable) IMachMgr
virtual int GetCurrSetup( void) const = 0 ;
virtual bool GetDefaultSetupName( std::string& sName) const = 0 ;
virtual bool ImportSetup( const std::string& sName) = 0 ;
virtual bool ExistsCurrSetup( void) const = 0 ;
virtual bool VerifyCurrSetup( STRVECTOR& vsErrors) = 0 ;
virtual bool FindToolInCurrSetup( const std::string& sTool) = 0 ;
virtual bool GetToolSetupPosInCurrSetup( const std::string& sTool, std::string& sTcPos) = 0 ;
virtual bool GetToolsInCurrSetupPos( const std::string& sTcPos, STRVECTOR& vsTools) = 0 ;
virtual bool FindToolInCurrSetup( const std::string& sTool) const = 0 ;
virtual bool GetToolSetupPosInCurrSetup( const std::string& sTool, std::string& sTcPos) const = 0 ;
virtual bool GetToolsInCurrSetupPos( const std::string& sTcPos, STRVECTOR& vsTools) const = 0 ;
virtual bool UpdateCurrSetup( void) = 0 ;
virtual bool EraseCurrSetup( void) = 0 ;
// Machinings DataBase
@@ -219,16 +221,16 @@ class __declspec( novtable) IMachMgr
virtual int GetNextOperation( int nId) const = 0 ;
virtual int GetLastOperation( void) const = 0 ;
virtual int GetPrevOperation( int nId) const = 0 ;
virtual int GetFirstActiveOperation( void) const = 0 ;
virtual int GetNextActiveOperation( int nId) const = 0 ;
virtual int GetLastActiveOperation( void) const = 0 ;
virtual int GetPrevActiveOperation( int nId) const = 0 ;
virtual int GetFirstActiveOperation( bool bNeedMachNotEmpty = false) const = 0 ;
virtual int GetNextActiveOperation( int nId, bool bNeedMachNotEmpty = false) const = 0 ;
virtual int GetLastActiveOperation( bool bNeedMachNotEmpty = false) const = 0 ;
virtual int GetPrevActiveOperation( int nId, bool bNeedMachNotEmpty = false) const = 0 ;
virtual int GetOperationType( int nId) const = 0 ;
virtual int GetOperationPhase( int nId) const = 0 ;
virtual bool SetOperationName( int nId, const std::string& sName) = 0 ;
virtual std::string GetOperationName( int nId) const = 0 ;
virtual int GetOperationId( const std::string& sName) const = 0 ;
virtual bool IsOperationEmpty( int nId) const = 0 ;
virtual bool IsOperationEmpty( int nId, int nEmptyType = 0) const = 0 ;
virtual bool RemoveOperation( int nId) = 0 ;
virtual bool RemoveAllPhaseOperations( int nPhase) = 0 ;
virtual bool RemoveAllOperations( void) = 0 ;
@@ -264,6 +266,7 @@ class __declspec( novtable) IMachMgr
virtual bool RemoveMachiningPreview( void) = 0 ;
virtual bool MachiningApply( bool bRecalc, bool bPostApply = true) = 0 ;
virtual bool MachiningUpdate( bool bPostApply = true) = 0 ;
virtual bool ChangePreviewMachiningToolShow( int nLookFlag) = 0 ;
virtual bool PreparePreviewMachiningTool( void) const = 0 ;
virtual bool RemovePreviewMachiningTool( void) const = 0 ;
virtual int GetPreviewMachiningToolStepCount( void) const = 0 ;
@@ -274,16 +277,22 @@ class __declspec( novtable) IMachMgr
virtual bool GetMachiningParam( int nType, std::string& sVal) const = 0 ;
virtual bool GetMachiningGeometry( SELVECTOR& vIds) const = 0 ;
virtual bool GetMachiningSkippedGeometry( SELVECTOR& vIds) const = 0 ;
virtual bool IsMachiningEmpty( void) const = 0 ;
virtual bool IsMachiningEmpty( int nEmptyType = 0) const = 0 ;
virtual bool GetMachiningStartPoint( Point3d& ptStart) const = 0 ;
virtual bool GetMachiningEndPoint( Point3d& ptEnd) const = 0 ;
virtual bool GetMachiningStartAxes( bool bSkipClimb, DBLVECTOR& vAxVal) const = 0 ;
virtual bool GetMachiningEndAxes( bool bSkipRise, DBLVECTOR& vAxVal) const = 0 ;
// CL Entities Interrogations
virtual bool GetClEntMove( int nEntId, int& nMove) const = 0 ;
virtual bool GetClEntFlag( int nEntId, int& nFlag, int& nFlag2) const = 0 ;
virtual bool GetClEntIndex( int nEntId, int& nIndex) const = 0 ;
virtual bool GetClEntFeed( int nEntId, double& dFeed) const = 0 ;
virtual bool GetClEntAxesStatus( int nEntId, int& nStatus) const = 0 ;
virtual bool GetClEntAxesMask( int nEntId, int& nMask) const = 0 ;
virtual bool GetClEntAxesVal( int nEntId, DBLVECTOR& vAxes) const = 0 ;
virtual bool GetClEntTDir( int nEntId, Vector3d& vtTDir) const = 0 ;
virtual bool GetClEntCDir( int nEntId, Vector3d& vtCDir) const = 0 ;
virtual bool GetClEntADir( int nEntId, Vector3d& vtADir) const = 0 ;
// Simulation
virtual bool SimInit( void) = 0 ;
virtual bool SimStart( bool bFirst) = 0 ;
@@ -294,6 +303,7 @@ class __declspec( novtable) IMachMgr
virtual bool SimGetMoveInfo( int& nGmove, double& dFeed) const = 0 ;
virtual bool SimSetStep( double dStep) = 0 ;
virtual bool SimSetUiStatus( int nUiStatus) = 0 ;
virtual bool SimEnableToolTipTrace( bool bEnable) = 0 ;
virtual bool SimGoHome( void) = 0 ;
virtual bool SimExit( void) = 0 ;
// Generation
@@ -302,21 +312,25 @@ class __declspec( novtable) IMachMgr
// Machine Calc
virtual bool SetCalcTable( const std::string& sTable) = 0 ;
virtual bool SetCalcTool( const std::string& sTool, const std::string& sHead, int nExit) = 0 ;
virtual bool GetAllCurrAxesNames( STRVECTOR& vAxName) const = 0 ;
virtual bool SetCalcSolCh( int nScc, bool bExact) = 0 ;
virtual bool SetRotAxisBlock( const std::string& sAxis, double dVal) = 0 ;
virtual bool GetRotAxisBlocked( int nInd, std::string& sAxis, double& dVal) const = 0 ;
virtual bool GetCalcTable( std::string& sTable) const = 0 ;
virtual bool GetCalcTool( std::string& sTool) const = 0 ;
virtual bool GetCalcHead( std::string& sHead) const = 0 ;
virtual bool GetCalcExit( int& nExit) const = 0 ;
virtual bool GetCalcSolCh( int& nScc, bool& bExact) const = 0 ;
virtual bool GetAllCurrAxesNames( STRVECTOR& vAxName) const = 0 ;
virtual bool GetRotAxisBlocked( int nInd, std::string& sAxis, double& dVal) const = 0 ;
virtual bool GetCalcAngles( const Vector3d& vtDirT, const Vector3d& vtDirA,
int& nStat, double& dAngA1, double& dAngB1, double& dAngA2, double& dAngB2) const = 0 ;
virtual bool GetCalcAngles( const Vector3d& vtDirT, const Vector3d& vtDirA,
int& nStat, DBLVECTOR& vAng1, DBLVECTOR& vAng2) const = 0 ;
virtual bool GetCalcPositions( const Point3d& ptP, double dAngA, double dAngB,
int& nStat, double& dX, double& dY, double& dZ) const = 0 ;
double& dX, double& dY, double& dZ) const = 0 ;
virtual bool GetCalcPositions( const Point3d& ptP, const DBLVECTOR& vAng,
int& nStat, double& dX, double& dY, double& dZ) const = 0 ;
double& dX, double& dY, double& dZ) const = 0 ;
virtual bool GetRobotAngles( const Point3d& ptP, const Vector3d& vtDirT, const Vector3d& vtDirA,
DBLVECTOR& vAng1, DBLVECTOR& vAng2) const = 0 ;
virtual bool GetCalcTipFromPositions( double dX, double dY, double dZ, double dAngA, double dAngB,
bool bOverall, bool bBottom, Point3d& ptTip) const = 0 ;
virtual bool GetCalcTipFromPositions( double dX, double dY, double dZ, const DBLVECTOR& vAng,
@@ -326,6 +340,7 @@ class __declspec( novtable) IMachMgr
virtual bool GetNearestAngleInStroke( int nInd, double dAngRef, double& dAng) const = 0 ;
virtual bool LimitAngleToStroke( int nInd, double& dAng) const = 0 ;
virtual bool VerifyOutstroke( double dX, double dY, double dZ, double dAngA, double dAngB, int& nStat) const = 0 ;
virtual bool VerifyOutstroke( double dX, double dY, double dZ, const DBLVECTOR& vAng, bool bClear, int& nStat) const = 0 ;
virtual std::string GetOutstrokeInfo( bool bMM = true) const = 0 ;
// Machine
virtual int GetBaseId( const std::string& sBase) const = 0 ;
EMkMachiningConst.h
+10 -5
View File
@@ -68,7 +68,8 @@ enum MachiningType {
MT_SURFROUGHING = OPER_SURFROUGHING,
MT_SURFFINISHING = OPER_SURFFINISHING,
MT_WATERJETTING = OPER_WATERJETTING,
MT_FIVEAXISMILLING = OPER_FIVEAXISMILLING
MT_FIVEAXISMILLING = OPER_FIVEAXISMILLING,
MT_PROBING = OPER_PROBING
} ;
//----------------------------------------------------------------------------
@@ -300,10 +301,12 @@ enum { SAWROU_HS_LEFT = 1,
SAWROU_HS_RIGHT = 2} ;
// Tipo di lavorazione a step
enum { SAWROU_ST_ZIGZAG = 0,
SAWROU_ST_ONEWAY = 1} ;
SAWROU_ST_ONEWAY = 1,
SAWROU_ST_ZCONST = 2} ;
// Tipo di attacco/uscita/link
enum { SAWROU_LL_CENT = 0,
SAWROU_LL_OUT = 1} ;
SAWROU_LL_OUT = 1,
SAWROU_LL_INT = 2} ;
//----------------------------------------------------------------------------
// Parametri per finitura con lama
@@ -366,7 +369,8 @@ enum { MORTISE_PLUNGE_STEP = 0,
MORTISE_PLUNGE_START = 1,
MORTISE_PLUNGE_END = 2,
MORTISE_PLUNGE_START_END = 3,
MORTISE_PLUNGE_START_TO_END = 4} ;
MORTISE_PLUNGE_START_TO_END = 4,
MORTISE_PLUNGE_STEP_NO_SAFEZ = 10} ;
//----------------------------------------------------------------------------
// Parametri per sgrossatura superfici
@@ -395,7 +399,8 @@ enum { SURFFIN_SUB_ZIGZAG = 0,
SURFFIN_SUB_SPIRALOUT = 3,
SURFFIN_SUB_Z_CONST = 4,
SURFFIN_SUB_OPTIMAL = 5,
SURFFIN_SUB_PROJECT = 6} ;
SURFFIN_SUB_PROJECT = 6,
SURFFIN_SUB_PENCIL = 7} ;
// Tipo di attacco
enum { SURFFIN_LI_NONE = 0,
SURFFIN_LI_LINEAR = 1,
EMkMachiningGeoConst.h
+10
View File
@@ -34,8 +34,10 @@ static std::string MCH_AUXVIEW = "AVIEW" ;
static std::string MCH_TABS = "TABS" ;
static std::string MCH_PV = "PV" ;
static std::string MCH_ST = "ST" ;
static std::string MCH_ST_DBL = "STDBL" ;
static std::string MCH_CL = "CL" ;
static std::string MCH_DBL = "DBL" ;
static std::string MCH_HOME = "HOME" ;
static std::string MCH_PATH = "P" ;
// Nomi di entità CL speciali
static std::string MCH_CL_CLIMB = "CLIMB" ;
@@ -49,6 +51,7 @@ static std::string MCH_CL_AGB_DWN = "AGBD" ;
static std::string MCH_CL_AGB_IN = "AGBI" ;
static std::string MCH_CL_AGB_OUT = "AGBO" ;
static std::string MCH_CL_AGB_UP = "AGBU" ;
static std::string MCH_CL_PARALLEL_DBL = "DBP" ;
// Nomi di entità di preview
static std::string MCH_PV_CUT = "CUT" ;
static std::string MCH_PV_PRE_CUT = "PRC" ;
@@ -112,10 +115,17 @@ static std::string KEY_MMAX = "MMAX" ;
// Chiavi info in gruppo CL per punti assi minimo e massimo di ingombro di tutta la lavorazione
static std::string KEY_MAXMIN = "MAXMIN" ;
static std::string KEY_MAXMAX = "MAXMAX" ;
// Chiave info in gruppo CL per indicare il tipo di catena cinematica
static std::string KEY_KINTYPE = "KINTYPE" ;
// Chiave info in sottogruppo di CL per uscite attivate (per forature con gang drill)
static std::string KEY_DRACEX = "DRACEX" ;
// Chiave info in sottogruppo di testa per abilitarne visualizzazione in Preview (0/1 default)
static std::string KEY_PREVIEWSHOW = "PreviewShow" ;
// Chiavi info in entità di CL e DBL per riferimenti reciproci
static std::string KEY_DBL_MAIN = "Main" ;
static std::string KEY_CL_DOUBLE = "Double" ;
// Chiavi Info per entità CamData da eseguire in compensazione utensile
static std::string KEY_TRC = "TRC" ; // Tool Radius Compensation
//----------------- Costanti posizione per preview utensile in lavorazione ------
enum MchToolShow { MCH_TPM_CURR = 0,
EMkOperationConst.h
+7 -4
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2015-2024
// EgalTech 2015-2025
//----------------------------------------------------------------------------
// File : EmkOperationConst.h Data : 22.05.24 Versione : 2.6e5
// File : EmkOperationConst.h Data : 09.06.25 Versione : 2.7f2
// Contenuto : Costanti delle operazioni.
//
//
@@ -13,6 +13,7 @@
// 25.05.19 DS Agg. SurfRoughing e SurfFinishing.
// 08.07.19 DS Agg. WaterJetting.
// 06.09.23 DS Agg. 5AxMachining.
// 09.06.25 DS Agg. Probing.
//
//----------------------------------------------------------------------------
@@ -33,7 +34,8 @@ enum OperType { OPER_NULL = 0, // nulla
OPER_SURFROUGHING = 0x040000, // sgrossatura superficie
OPER_SURFFINISHING = 0x080000, // finitura superficie
OPER_WATERJETTING = 0x100000, // taglio water jet
OPER_FIVEAXISMILLING = 0x200000} ; // lavorazione 5 assi
OPER_FIVEAXISMILLING = 0x200000, // lavorazione 5 assi
OPER_PROBING = 0x400000} ; // tastatura
// Controllo tipo valido
bool inline IsValidDispositionType( int nType)
{
@@ -53,5 +55,6 @@ bool inline IsValidMachiningType( int nType)
nType == OPER_SURFROUGHING ||
nType == OPER_SURFFINISHING ||
nType == OPER_WATERJETTING ||
nType == OPER_FIVEAXISMILLING) ;
nType == OPER_FIVEAXISMILLING ||
nType == OPER_PROBING) ;
}
EMkToolConst.h
+8 -4
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2015-2021
// EgalTech 2015-2025
//----------------------------------------------------------------------------
// File : EmkToolConst.h Data : 16.09.21 Versione : 2.3i6
// File : EmkToolConst.h Data : 09.06.25 Versione : 2.7f2
// Contenuto : Costanti degli utensili.
//
//
@@ -11,6 +11,7 @@
// 20.09.18 DS Agg. costanti per ToolHolder
// 05.04.21 DS Agg. TPA_DIST e TPA_STEMDIAM.
// 16.09.21 DS Agg. TPA_CORE.
// 09.06.25 DS Agg. probe.
//
//----------------------------------------------------------------------------
@@ -27,6 +28,7 @@ const int TF_MORTISE = 0x0800 ; // 2048
const int TF_CHISEL = 0x1000 ; // 4096
const int TF_WATERJET = 0x2000 ; // 8192
const int TF_COMPO = 0x4000 ; // 16384
const int TF_PROBE = 0x8000 ; // 32768
// Costante per tutte le famiglie
const int TF_ALL = 0xFF00 ;
// Tipologie di utensili
@@ -42,7 +44,8 @@ enum ToolType {
TT_MORTISE_STD = TF_MORTISE + 0, // 2048
TT_CHISEL_STD = TF_CHISEL + 0, // 4096
TT_WATERJET = TF_WATERJET + 0, // 8192
TT_COMPO = TF_COMPO + 0 // 16384
TT_COMPO = TF_COMPO + 0, // 16384
TT_PROBE = TF_PROBE + 0 // 32768
} ;
// Controllo tipo valido
bool inline IsValidToolType( int nType)
@@ -53,7 +56,8 @@ bool inline IsValidToolType( int nType)
nType == TT_MORTISE_STD ||
nType == TT_CHISEL_STD ||
nType == TT_WATERJET ||
nType == TT_COMPO) ;
nType == TT_COMPO ||
nType == TT_PROBE) ;
}
//----------------------------------------------------------------------------
ENkMachOptimization.h
+133
View File
@@ -0,0 +1,133 @@
//----------------------------------------------------------------------------
// EgalTech 2025-2025
//----------------------------------------------------------------------------
// File : ENkMachOptimization.h Data : 31.03.25 Versione : 2.7a1
// Contenuto : Classe per calcolo ottimizzato per le lavorazioni.
//
//
// Modifiche : 31.03.2025 RE Creazione modulo.
//
//
//----------------------------------------------------------------------------
#pragma once
#include "/EgtDev/Include/EgtNumCollection.h"
//----------------------- Macro per import/export ----------------------------
#undef ENK_EXPORT
#if defined( I_AM_ENK) // da definirsi solo nella DLL
#define ENK_EXPORT __declspec( dllexport)
#else
#define ENK_EXPORT __declspec( dllimport)
#endif
//----------------------------------------------------------------------------
// Definizione utensile
struct ToolOptm {
int nId ; // Id dell'utensile ( univoco)
double dTCX ; // Coordinata cambio utensile per X
double dTCY ; // Coordinata cambio utensile per Y
double dTCZ ; // Coordinata cambio utensile per Z
double dTCA ; // Coordinata cambio utensile per A
double dTCB ; // Coordinata cambio utensile per B
double dTCC ; // Coordinata cambio utensile per C
bool bTCX ; // Flag per condsiderare/scartare il controllo sulla coordinata X
bool bTCY ; // Flag per condsiderare/scartare il controllo sulla coordinata Y
bool bTCZ ; // Flag per condsiderare/scartare il controllo sulla coordinata Z
bool bTCA ; // Flag per condsiderare/scartare il controllo sulla coordinata A
bool bTCB ; // Flag per condsiderare/scartare il controllo sulla coordinata B
bool bTCC ; // Flag per condsiderare/scartare il controllo sulla coordinata C
double dTLoad ; // Tempo di carico
double dTUnLoad ; // Tempo di scarico
ToolOptm( int nI, double dX, double dY, double dZ, double dA, double dB, double dC,
bool bX, bool bY, bool bZ, bool bA, bool bB, bool bC, double dTL, double dTUL) :
nId( nI), dTCX( dX), dTCY( dY), dTCZ( dZ), dTCA( dA), dTCB( dB), dTCC( dC),
bTCX( bX), bTCY( bY), bTCZ( bZ), bTCA( bA), bTCB( bB), bTCC( bC), dTLoad( dTL), dTUnLoad( dTUL) {}
} ;
typedef std::vector<ToolOptm> TOOLOPTMVECTOR ;
// Definizione strutta per singola lavorazione
struct MachOptm {
int nId ; // Id della lavorazione corrente
int nIdTool ; // Id dell'utensile corrente
int nGroup ; // Gruppo di appartenenza della lavorazione
double dX_Start ; // Stato iniziale asse lineare X
double dY_Start ; // Stato iniziale asse lineare Y
double dZ_Start ; // Stato iniziale asse lineare Z
double dA_Start ; // Stato iniziale asse rotante A
double dB_Start ; // Stato iniziale asse rotante B
double dC_Start ; // Stato iniziale asse rotante C
double dX_End ; // Stato finale asse lineare X
double dY_End ; // Stato finale asse lineare Y
double dZ_End ; // Stato finale asse lineare Z
double dA_End ; // Stato finale asse rotante A
double dB_End ; // Stato finale asse rotante B
double dC_End ; // Stato finale asse rotante C
MachOptm( int nIdL, int nToolL, int nGroupL,
double dX_Start, double dY_Start, double dZ_Start, double dA_Start, double dB_Start, double dC_Start,
double dX_End, double dY_End, double dZ_End, double dA_End, double dB_End, double dC_End) :
nId( nIdL), nIdTool( nToolL), nGroup( nGroupL),
dX_Start( dX_Start), dY_Start( dY_Start), dZ_Start( dZ_Start),
dA_Start( dA_Start) , dB_Start( dB_Start), dC_Start( dC_Start),
dX_End( dX_End), dY_End( dY_End), dZ_End( dZ_End),
dA_End( dA_End), dB_End( dB_End), dC_End( dC_End) {}
MachOptm()
: nId( -1), nIdTool( -1), nGroup( -1),
dX_Start( 0.), dY_Start( 0.), dZ_Start( 0.),
dA_Start( 0.) , dB_Start( 0.), dC_Start( 0.),
dX_End( 0.), dY_End( 0.), dZ_End( 0.),
dA_End( 0.), dB_End( 0.), dC_End( 0.) {} ;
} ;
typedef std::vector<MachOptm> MACHOPTMVECTOR ;
typedef std::vector<MACHOPTMVECTOR> MACHOPTMMATRIX ;
// Definizione struttura per OpenBounds
struct OpenBoundOptm {
int nGroup ;
bool bStartVsEnd ;
int nFlag ;
double dX ;
double dY ;
double dZ ;
OpenBoundOptm( int nOBGroup, bool bOBStartVsEnd, int nOBFlag, double dOBX, double dOBY, double dOBZ )
: nGroup( nOBGroup), bStartVsEnd( bOBStartVsEnd), nFlag( nOBFlag), dX( dOBX), dY( dOBY), dZ( dOBZ) {}
} ;
typedef std::vector<OpenBoundOptm> MACHOPTOPENBOUNDVECTOR ;
//----------------------------------------------------------------------------
class __declspec( novtable) IMachOptimization
{
public :
virtual ~IMachOptimization( void) {}
virtual bool InsertTool( int nId, double dTCX, double dTCY, double dTCZ, double dTCA,
double dTCB, double dTCC, bool bX, bool bY, bool bZ, bool bA,
bool bB, bool bC, double dTLoad, double dTUnL) ;
virtual bool InsertMachining( int nId, int nToolId, int nGroup,
double dX_Start, double dY_Start, double dZ_Start,
double dA_Start, double dB_Start, double dC_Start,
double dX_End, double dY_End, double dZ_End,
double dA_End, double dB_End, double dC_End) = 0 ;
virtual bool InsertDependence( int nIdPrec, int nIdSucc) = 0 ;
virtual bool InsertSuggestedDependences( int nIdPrec, int nIdSucc) = 0 ;
virtual bool SetFirstMachining( int nId) = 0 ;
virtual bool SetLastMachining( int nId) = 0 ;
virtual bool SetFeeds( double dFeedL, double dFeedA) = 0 ;
virtual bool SetAllGroupsAsMandatory( bool bAllMandatory = false) = 0 ;
virtual bool SetOptimizationForGroups( bool bOptForGroups = false) = 0 ;
virtual bool SetOpenBound( bool bStartVsEnd, int nFlag, double dX, double dY, double dZ) = 0 ;
virtual bool SetOpenBoundForGroups( int nGroup, bool bStartVsEnd, int nFlag, double dX, double dY, double dZ) = 0 ;
virtual bool Calculate( INTVECTOR& vIds) = 0 ;
} ;
//-----------------------------------------------------------------------------
ENK_EXPORT IMachOptimization* CreateMachOptimization( void) ;
ENkShortestPath.h
+3
View File
@@ -39,6 +39,9 @@ class __declspec( novtable) IShortestPath
virtual bool Calculate( int nType) = 0 ;
virtual bool GetOrder( INTVECTOR& vOrder) = 0 ;
virtual bool GetMinLength( double& dMinLen) = 0 ;
virtual bool SetConstraintOrder( int nPrev, int nNext) = 0 ;
virtual bool SetSuggestedOrder( int nPrev, int nNext) = 0 ;
virtual bool SetDistMatrix( const INTMATRIX& mDistMatrix) = 0 ;
public :
enum SpType{ SP_NONE = 0,
ENsAutoNester.h
+2
View File
@@ -57,11 +57,13 @@ class __declspec( novtable) IAutoNester
virtual bool SetStripYconstraintToPart( int nPartId, const Point3d& ptRef, double dStripStart, double dStripRepeat) = 0 ;
virtual bool SetStripXconstraintToPart( int nPartId, const Point3d& ptRef, double dStripStart, double dStripRepeat) = 0 ;
virtual bool SetInterpartGap( double dGap) = 0 ;
virtual bool SetShearGap( double dShearGap) = 0 ;
virtual bool SetReportFile( const std::string& sReportFile) = 0 ;
virtual bool Compute( bool bMinimizeOnXvsY, int nMaxTime) = 0 ;
virtual bool CancelComputation( void) = 0 ;
virtual bool GetComputationStatus( int& nStatus) = 0 ;
virtual bool GetResults( double& dTotFillRatio, ANIVECT& vANI) = 0 ;
virtual bool CalcShearSequence( int nNesting, std::vector<Point3d>& vPtStart, std::vector<Point3d>& vPtEnd) = 0 ;
virtual bool PrintResults( const std::string& sHtmlFile) = 0 ;
} ;
EXeConst.h
+40 -28
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2014-2022
// EgalTech 2014-2025
//----------------------------------------------------------------------------
// File : EXeConst.h Data : 11.01.22 Versione : 2.4a
// File : EXeConst.h Data : 11.05.25 Versione : 2.7e2
// Contenuto : Costanti generali per EgtExecuter.
//
//
@@ -59,7 +59,8 @@ const int RTY_DEFAULT = RTY_LOC ;
//----------------- Costanti tipo di interpolazione ----------------------------
enum InterpType{ ITT_ARCS = 0, // stima tg Akima, curve risultanti archi
ITT_ARCS_CORNER = 1, // stima tg AkimaCorner, curve risultanti archi
ITT_CUBICS = 2} ; // stima tg Bessel, curve risultanti Bezier cubiche
ITT_CUBICS = 2, // stima tg Bessel, curve risultanti Bezier cubiche
ITT_CUBICS_LONG = 3} ; // interpolazione con nurbs, poi convertite in bezier
//----------------- Costanti tipo di approssimazione di curve ------------------
enum ApprType{ APP_LINES = 0, // come ICurve::APL_STD
@@ -68,7 +69,8 @@ enum ApprType{ APP_LINES = 0, // come ICurve::APL_STD
APP_LEFT_CONVEX_LINES = 11, // come ICurve::APL_LEFT_CONVEX
APP_RIGHT_LINES = 2, // come ICurve::APL_RIGHT
APP_RIGHT_CONVEX_LINES = 12, // come ICurve::APL_RIGHT_CONVEX
APP_ARCS = 3} ;
APP_ARCS = 3,
APP_CUBIC_BEZIER = 4} ;
//----------------- Costanti tipo punto intersezione Linea Curva ---------------
enum CLiType { CLT_NONE = 0,
@@ -84,8 +86,9 @@ enum CLiType { CLT_NONE = 0,
//----------------- Costanti tipo di costruzione di superficie rigata ----------
enum RuledType{ RUL_TYPE_ISOPAR = 0, // come ISurfTrimesh::RLT_ISOPAR
RUL_TYPE_MINDIST = 1, // come ISurfTrimesh::RLT_MINDIST
RUL_TYPE_ISOPAR_SMOOTH = 3} ; // come ISurfTrimesh::RLT_ISOPAR_SMOOTH
RUL_TYPE_ISOPAR_SMOOTH = 2} ; // come ISurfTrimesh::RLT_ISOPAR_SMOOTH
//----------------- Costanti per classificazione di curve rispetto a regioni ---------
enum CrvRegClass { CRC_NULL = 0,
CRC_IN = 1,
CRC_OUT = 2,
@@ -98,6 +101,10 @@ enum RSCapType { RSCT_NONE = 0, // come RSCAP_NONE
RSCT_ROUND = 2, // come RSCAP_ROUND
RSCT_BEVEL = 3} ; // come RSCAP_BEVEL
//----------------- Costanti tipo Zoom -----------------------------------------
enum ZoomType { ZM_ALL = 1, // zoom tutto
ZM_IN = 2, // ingrandisci
ZM_OUT = 3} ; // rimpicciolisci
//----------------- Costanti flag import CNC -----------------------------------
enum EicFlag { EIC_FLAG_NONE = 0, // come EImCncFlag::EICFLAG_NONE
@@ -112,36 +119,41 @@ enum EibFlag { EIB_FLAG_NONE = 0, // come EImBtlFlag::EIBFLAG_NONE
EIB_FLAG_SPECIAL_TRIM = 4} ; // come EImBtlFlag::EIBFLAG_SPECIAL_TRIM
//----------------- Costanti tipo costruzione pezzi piani ----------------------
enum FpcType{ FPC_NGE = 0, // costruzione da pezzo Nge
FPC_REGION = 1, // costruzione da regione
FPC_LAYER = 2, // costruzione da layer
FPC_CLOSEDCURVE = 3} ; // costruzione da curva chiusa
enum FpcType { FPC_NGE = 0, // costruzione da pezzo Nge
FPC_REGION = 1, // costruzione da regione
FPC_LAYER = 2, // costruzione da layer
FPC_CLOSEDCURVE = 3} ; // costruzione da curva chiusa
//----------------- Costanti tipo interferenza di lavorazioni piane ------------
enum FmiType{ FMI_NONE = 0, // nessuna interferenza
FMI_LI = 1, // interferenza con attacco
FMI_RM = 2, // interferenza con lavorazione ridotta
FMI_LO = 4} ; // interferenza con uscita
enum FmiType { FMI_NONE = 0, // nessuna interferenza
FMI_LI = 1, // interferenza con attacco
FMI_RM = 2, // interferenza con lavorazione ridotta
FMI_LO = 4} ; // interferenza con uscita
//----------------- Costanti risultato verifica tagli lama allungati -----------
enum CarRes{ CAR_INTERF = 0, // interferiscono entrambi gli allungamenti
CAR_LI_OK = 1, // allungamento inizio va bene
CAR_LO_OK = 2, // allungameno uscita va bene
CAR_LI_LO_OK = 1 + 2} ; // entrambi gli allungamenti vanno bene
enum CarRes { CAR_INTERF = 0, // interferiscono entrambi gli allungamenti
CAR_LI_OK = 1, // allungamento inizio va bene
CAR_LO_OK = 2, // allungameno uscita va bene
CAR_LI_LO_OK = 1 + 2} ; // entrambi gli allungamenti vanno bene
//----------------- Costanti tipo Zoom -----------------------------------------
enum ZoomType { ZM_ALL = 1, // zoom tutto
ZM_IN = 2, // ingrandisci
ZM_OUT = 3} ; // rimpicciolisci
//----------------- Costanti tipo controllo lavorazione vuota -------------------
enum EmptyNeed { EMP_NEED_GEOM = 0, // necessaria solo presenza geometria di definizione
EMP_NEED_ONE_TP_OK = 1, // almeno un percorso utensile non vuoto
EMP_NEED_ALL_TP_OK = 2} ; // tutti i percorsi utensile non vuoti
//----------------- Costanti errore simulatore in cieco ------------------------
enum SimHideErr { SHE_NONE = 0, // nessun errore
SHE_INIT = 1, // errore nell'avvio della simulazione
SHE_OUTSTROKE = 2, // errore di extracorsa
SHE_DIR_ERR = 3, // errore direzione utensile non raggiungibile
SHE_COLLISION = 4, // errore collisione testa-pezzo
SHE_SPECIAL = 5, // errore speciale/custom
SHE_GENERAL = 6} ; // errore generico
enum SimHideErr { SHE_NONE = 0, // nessun errore
SHE_INIT = 1, // errore nell'avvio della simulazione
SHE_OUTSTROKE = 2, // errore di extracorsa
SHE_DIR_ERR = 3, // errore direzione utensile non raggiungibile
SHE_COLLISION = 4, // errore collisione testa-pezzo
SHE_SPECIAL = 5, // errore speciale/custom
SHE_GENERAL = 6} ; // errore generico
//----------------- Costanti Offset per VolZmap --------------------------------
enum VolZmapOffset { FILLET = 0 , // come in VolZmap
CHAMFER = 1, // come in VolZmap
EXTEND = 2 } ; // come in VolZmap
//----------------- Costanti per sostituzione direttorio e nome progetto --------------------
const std::string SUB_PROJECT_DIR = "%PRJDIR%" ;
EXeExecutor.h
+159 -45
View File
@@ -37,7 +37,7 @@ class LuaMgr ;
// General
EXE_EXPORT bool ExeInit( int nDebug, const std::string& sLogFile, const std::string& sLogMsg) ;
EXE_EXPORT bool ExeExit( void) ;
EXE_EXPORT bool ExeSetOnTerminateProcess( pfOnTerminateProcess pFun) ;
EXE_EXPORT bool ExeSetOnTerminateProcess( psfOnTerminateProcess pFun) ;
EXE_EXPORT bool ExeOnTerminateProcess( int nExitCode) ;
EXE_EXPORT int ExeGetDebugLevel( void) ;
EXE_EXPORT bool ExeSetUserLevel( int nUserLev) ;
@@ -72,9 +72,9 @@ EXE_EXPORT bool ExeOutLog( const std::string& sMsg, int nDebugLevel = 0) ;
EXE_EXPORT bool ExeSetEnableUI( bool bEnableUI) ;
EXE_EXPORT bool ExeGetEnableUI( void) ;
EXE_EXPORT int ExeMessageBox( const std::string& sText, const std::string& sTitle, int nType) ;
EXE_EXPORT bool ExeSetProcessEvents( pfProcEvents pFun) ;
EXE_EXPORT bool ExeSetProcessEvents( psfProcEvents pFun) ;
EXE_EXPORT int ExeProcessEvents( int nProg, int nPause) ;
EXE_EXPORT bool ExeSetOutText( pfOutText pFun) ;
EXE_EXPORT bool ExeSetOutText( psfOutText pFun) ;
EXE_EXPORT bool ExeOutText( const std::string& sText) ;
EXE_EXPORT bool ExeSetTempDir( const std::string& sTempDir) ;
EXE_EXPORT bool ExeGetTempDir( std::string& sTempDir) ;
@@ -111,8 +111,8 @@ EXE_EXPORT bool ExeNewFile( void) ;
EXE_EXPORT bool ExeOpenFile( const std::string& sFilePath) ;
EXE_EXPORT bool ExeInsertFile( const std::string& sFilePath) ;
EXE_EXPORT bool ExeSaveFile( const std::string& sFilePath, int nFlag) ;
EXE_EXPORT bool ExeSaveObjToFile( int nId, const std::string& sFilePath, int nFlag) ;
EXE_EXPORT bool ExeSaveMachGroupToFile( int nMGroupId, const std::string& sFilePath, int nFlag) ;
EXE_EXPORT bool ExeSaveObjToFile( const INTVECTOR& vId, const std::string& sFilePath, int nFlag) ;
EXE_EXPORT bool ExeSaveMachGroupToFile( int nMGroupId, const INTVECTOR& vPlusId, const std::string& sFilePath, int nFlag) ;
// Exchange
EXE_EXPORT int ExeGetFileType( const std::string& sFilePath) ;
@@ -160,11 +160,13 @@ EXE_EXPORT int ExeBeamModifyProcess( int nGeomId, int nGroup, int nProc, int nS
int nCrvId, int nCrv2Id, bool bUpdate = true) ;
EXE_EXPORT bool ExeBeamEraseProcess( int nGeomId, bool bUpdate = true) ;
EXE_EXPORT bool ExeBeamEnableProcess( int nGeomId, bool bEnable, bool bUpdate = true) ;
EXE_EXPORT bool ExeBeamCalcAllSolids( bool bShow, bool bRecalc = false) ;
EXE_EXPORT bool ExeBeamShowAllSolids( bool bShow) ;
EXE_EXPORT bool ExeBeamCalcSolid( int nPartId, bool bRecalc = false) ;
EXE_EXPORT int ExeBeamGetSolid( int nPartId) ;
EXE_EXPORT bool ExeBeamShowSolid( int nPartId, bool bShow) ;
EXE_EXPORT bool ExeBeamGetBuildingIsOn( void) ;
EXE_EXPORT bool ExeBeamShowBuilding( bool bShow) ;
EXE_EXPORT bool ExeBeamGetBuildingIsOn( int nAssGrpId) ;
EXE_EXPORT bool ExeBeamShowBuilding( int nAssGrpId, bool bShow) ;
// Tsc Executor
EXE_EXPORT bool ExeInitTscExec( void) ;
@@ -213,6 +215,29 @@ EXE_EXPORT bool ExeSpCalculate( int nType) ;
EXE_EXPORT bool ExeSpGetOrder( INTVECTOR& vOrder) ;
EXE_EXPORT bool ExeSpGetMinLength( double& dMinLen) ;
// Machining Order Optimization
EXE_EXPORT bool ExeOptMachInit( void) ;
EXE_EXPORT bool ExeOptMachTerminate( void) ;
EXE_EXPORT bool ExeOptMachAddTool( int nId,
double dTCX, double dTCY, double dTCZ, double dTCA, double dTCB, double dTCC,
bool bX, bool bY, bool bZ, bool bA, bool bB, bool bC,
double dTLoad, double dTUnL) ;
EXE_EXPORT bool ExeOptMachAddMachining( int nId, int nToolId, int nGroup,
double dX_Start, double dY_Start, double dZ_Start,
double dA_Start, double dB_Start, double dC_Start,
double dX_End, double dY_End, double dZ_End,
double dA_End, double dB_End, double dC_End) ;
EXE_EXPORT bool ExeOptMachSetFirstMachining( int nId) ;
EXE_EXPORT bool ExeOptMachSetLastMachining( int nId) ;
EXE_EXPORT bool ExeOptMachSetFeeds( double dFeedL, double dFeedA) ;
EXE_EXPORT bool ExeOptMachAddDependence( int nIdPrec, int nIdNext) ;
EXE_EXPORT bool ExeOptMachAddSuggestedDependence( int nIdPrec, int nIdNext) ;
EXE_EXPORT bool ExeOptMachSetAllGroupDependencesAsMandatory( bool bAllMandatory) ;
EXE_EXPORT bool ExeOptMachSetOptimizationForGroups( bool bOptForGroups) ;
EXE_EXPORT bool ExeOptMachSetOpenBound( bool bStartVsEnd, int nFlag, double dX, double dY, double dZ) ;
EXE_EXPORT bool ExeOptMachSetOpenBoundForGroups( int nGroup, bool bStartVsEnd, int nFlag, double dX, double dY, double dZ) ;
EXE_EXPORT bool ExeOptMachCalculate( INTVECTOR& vIds) ;
// GeomDB Create
EXE_EXPORT int ExeCreateGroup( int nParentId, const Frame3d& frFrame, int nRefType) ;
EXE_EXPORT int ExeCreateGeoPoint( int nParentId, const Point3d& ptP, int nRefType) ;
@@ -299,6 +324,7 @@ EXE_EXPORT int ExeCreateCurveChamfer( int nParentId, int nCrv1, const Point3d&
EXE_EXPORT int ExeCreateCurveBezier( int nParentId, int nDegree, const PNTVECTOR& vPnt, int nRefType) ;
EXE_EXPORT int ExeCreateCurveBezierRational( int nParentId, int nDegree, const PNTUVECTOR& vPntW, int nRefType) ;
EXE_EXPORT int ExeCreateCurveBezierFromArc( int nParentId, int nArcId, bool bErase) ;
EXE_EXPORT int ExeCreateCurveBezierFromCurve( int nParentId, int nCrvId, bool bRational = true) ;
EXE_EXPORT int ExeCreateCurveCompo( int nParentId, const INTVECTOR& vIds, bool bErase) ;
EXE_EXPORT int ExeCreateCurveCompoByChain( int nParentId, const INTVECTOR& vIds,
const Point3d& ptNear, bool bErase, int nRefType, int* pnCount) ;
@@ -325,7 +351,6 @@ EXE_EXPORT int ExeCreatePolygonFromSide( int nParentId, int nNumSides, const Po
const Point3d& ptFin, int nRefType) ;
EXE_EXPORT int ExeCreateCirclesAlongCurve( int nParentId, int nCrvId, double dOffset, double dOverlap,
double dStartAdd, double dEndAdd, double dDiam, int* pnCount) ;
EXE_EXPORT int ExeCreateCurveBezierForm( int nParentId, int nCrvId, int nDeg) ;
// GeomDB Create Surf
EXE_EXPORT int ExeCreateSurfFlatRegion( int nParentId, const INTVECTOR& vCrvIds, int* pnCount) ;
@@ -377,15 +402,18 @@ EXE_EXPORT int ExeCreateSurfTmRuled( int nParentId, int nPtOrCrvId1, int nPtOrC
EXE_EXPORT int ExeCreateSurfTmByTriangles( int nParentId, const INTVECTOR& vIds, bool bErase) ;
EXE_EXPORT int ExeCreateSurfTmBySewing( int nParentId, const INTVECTOR& vIds, bool bErase) ;
EXE_EXPORT int ExeCreateSurfTmByVolZmap( int nParentId, int nZmapId, int nPart) ;
EXE_EXPORT int ExeCreateSurfShell( int nParentId, int nSurfId, double dThick, double dLinTol) ;
EXE_EXPORT int ExeSurfTmOffset( int nParentId, const INTVECTOR& vIds, double dOffs, double dLinTol, int nType) ;
EXE_EXPORT int ExeSurfTmThickeningOffset( int nParentId, const INTVECTOR& vIds, double dOffs, double dLinTol, int nType) ;
EXE_EXPORT int ExeCreateSurfBezier( int nParentId, int nDegU, int nDegV, int nSpanU, int nSpanV, const PNTVECTOR& vPnt, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBezierRational( int nParentId, int nDegU, int nDegV, int nSpanU, int nSpanV, const PNTUVECTOR& vPntW, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBezierLeaves( int nParentId, int nSurfBzId, int nTextHeight = 50, bool bShowTrim = false, int* pnCount = nullptr) ;
EXE_EXPORT int ExeCreateSurfBezierLeaves( int nParentId, int nSurfBzId, int nTextHeight = 50, bool bShowTrim = false, bool bRefined = false, int* pnCount = nullptr) ;
EXE_EXPORT int ExeCreateBezierSphere( int nParentId, const Point3d& ptCenter, double dR, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBezierTria2D( int nParentId, int nSurfBzId, int nTextHeight, bool bShowTrim, int* pnCount) ;
EXE_EXPORT int ExeCreateSurfBzByFlatContour( int nParentId, int nCrvId, double dLinTol) ;
EXE_EXPORT int ExeCreateSurfBzByRegion( int nParentId, const INTVECTOR& vCrvId, double dLinTol) ;
EXE_EXPORT int ExeCreateSurfBzByExtrusion( int nParentId, int nCrvId, const Vector3d& vtExtr, bool bCapEnds,
double dLinTol, int nRefType) ;
double dLinTol, int nRefType, int* pnCount = nullptr) ;
EXE_EXPORT int ExeCreateSurfBzByRegionExtrusion( int nParentId, const INTVECTOR& vCrvIds, const Vector3d& vtExtr, bool bCapEnds,
double dLinTol, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBzByScrewing( int nParentId, int nCrvId,
@@ -396,6 +424,8 @@ EXE_EXPORT int ExeCreateSurfBzByRevolve( int nParentId, int nCrvId,
bool bCapEnds, double dLinTol, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBzByPointCurve( int nParentId, int nCrvId, const Point3d& ptAx, bool bCapEnds, double dLinTol, int nRefType) ;
EXE_EXPORT int ExeCreateSurfBzRuled( int nParentId, int nCrvId1, int nCrvId2, int nRuledType, bool bCapEnds, double dLinTol) ;
EXE_EXPORT int ExeCreateSurfBzRuledGuided( int nParentId, int nCrvId1, int nCrvId2, const BIPNTVECTOR& vGuidesCrv,
bool bCapEnds, double dLinTol, int nLayGuides = GDB_ID_NULL) ;
EXE_EXPORT int ExeCreateSurfBzSkinned( int nParentId, const INTVECTOR& nCrvId1, bool bCapEnds, double dLinTol) ;
EXE_EXPORT int ExeCreateSurfBzSwept( int nParentId, int nSectId, int nGuideId, const Vector3d& vtAx,
bool bCapEnds, double dLinTol, int nRefType) ;
@@ -406,9 +436,7 @@ EXE_EXPORT int ExeCreateVolZmap( int nParentId, const Point3d& ptIni, double dD
EXE_EXPORT int ExeCreateVolZmapEmpty( int nParentId, const Point3d& ptIni, double dDimX,
double dDimY, double dDimZ, double dPrec, bool bTriDex, int nRefType) ;
EXE_EXPORT int ExeCreateVolZmapByRegionExtrusion( int nParentId, int nSfrId, double dDimZ, double dPrec, bool bTriDex) ;
EXE_EXPORT int ExeCreateVolZmapFromSurfTm( int nParentId, int nStmId, double dPrec, bool bTriDex) ;
EXE_EXPORT bool ExeUpdateVolZmapByAddingSurfTm( int nVolZmapId, int nStmId) ;
EXE_EXPORT bool ExeUniformVolZmap( int nVolZmapId, double dToler) ;
EXE_EXPORT int ExeCreateVolZmapFromSurfTm( int nParentId, int nStmId, double dPrec, bool bTriDex, double dExtraBox = 0) ;
// GeomDB PartLayer
EXE_EXPORT bool ExeIsPart( int nPartId) ;
@@ -474,7 +502,10 @@ EXE_EXPORT bool ExeGetBBox( int nId, int nFlag, BBox3d& b3Box) ;
EXE_EXPORT bool ExeGetBBoxGlob( int nId, int nFlag, BBox3d& b3Box) ;
EXE_EXPORT bool ExeGetBBoxRef( int nId, int nFlag, const Frame3d& frRef, BBox3d& b3Box) ;
EXE_EXPORT int ExeCopy( int nSouId, int nRefId, int nSonBeforeAfter) ;
EXE_EXPORT int ExeCopyEx( int nSouCtx, int nSouId, int nDestCtx, int nRefId, int nSonBeforeAfter) ;
EXE_EXPORT int ExeCopyGlob( int nSouId, int nRefId, int nSonBeforeAfter) ;
EXE_EXPORT int ExeCopyGlobEx( int nSouCtx, int nSouId, int nDestCtx, int nRefId, int nSonBeforeAfter) ;
EXE_EXPORT bool ExeDuplicateGeomDB( int nSouCtx, int nDestCtx, bool bSkipTemp = false) ;
EXE_EXPORT bool ExeRelocate( int nSouId, int nRefId, int nSonBeforeAfter) ;
EXE_EXPORT bool ExeRelocateGlob( int nSouId, int nRefId, int nSonBeforeAfter) ;
EXE_EXPORT bool ExeGroupSwap( int nId1, int nId2, bool bSwapRef, bool bMark) ;
@@ -489,11 +520,11 @@ EXE_EXPORT bool ExeGeoObjDump( int nId, std::string& sDump) ;
// GeomDB Obj Attributes
EXE_EXPORT bool ExeCopyAttributes( int nSouId, int nDestId) ;
EXE_EXPORT bool ExeSetLevel( int nId, int nLevel) ;
EXE_EXPORT bool ExeSetLevel( const INTVECTOR& vIds, int nLevel) ;
EXE_EXPORT bool ExeRevertLevel( int nId) ;
EXE_EXPORT bool ExeGetLevel( int nId, int* pnLevel) ;
EXE_EXPORT bool ExeGetCalcLevel( int nId, int* pnLevel) ;
EXE_EXPORT bool ExeSetMode( int nId, int nMode) ;
EXE_EXPORT bool ExeSetMode( const INTVECTOR& vIds, int nMode) ;
EXE_EXPORT bool ExeRevertMode( int nId) ;
EXE_EXPORT bool ExeGetMode( int nId, int* pnMode) ;
EXE_EXPORT bool ExeGetCalcMode( int nId, int* pnMode) ;
@@ -612,6 +643,7 @@ EXE_EXPORT int ExeGetCurveLinearConvexHullXY( int nId, double dLinTol, int nRef
EXE_EXPORT bool ExeModifyCircleCP( int nId, const Point3d& ptOn, int nRefType) ;
EXE_EXPORT bool ExeModifyCircle3P( int nId, const Point3d& ptP1, const Point3d& ptP2, const Point3d& ptP3, int nRefType) ;
EXE_EXPORT bool ExeModifyArcRadius( int nId, double dRad, bool bKeepCenter = true) ;
EXE_EXPORT bool ExeModifyArcAngCenter( int nId, double dAngCenter) ;
EXE_EXPORT bool ExeModifyArcC2P( int nId, const Point3d& ptEnd, int nRefType) ;
EXE_EXPORT bool ExeModifyArc3P( int nId, const Point3d& ptMid, int nRefType) ;
EXE_EXPORT bool ExeModifyArcToExplementary( int nId) ;
@@ -635,12 +667,14 @@ EXE_EXPORT bool ExeMergeCurvesInCurveCompo( int nId, double dLinTol, bool bStart
EXE_EXPORT bool ExeRemoveCurveCompoUndercutOnY( int nId, double dLinTol) ;
EXE_EXPORT bool ExeCurveCompoSetTempProp( int nId, int nCrv, int nProp, int nPropInd = 0) ;
EXE_EXPORT bool ExeCurveCompoSetTempParam( int nId, int nCrv, double dParam, int nParamInd = 0) ;
EXE_EXPORT bool ExeChainCurvesInGroup( int nGroupId, const Point3d& ptNear, int nRefType) ;
EXE_EXPORT bool ExeReorderCurvesInGroup( int nGroupId, const Point3d& ptNear, int nRefType) ;
EXE_EXPORT bool ExeProjectCurveOnSurf( int nCurveId, int nSurfTmId, const Vector3d& vtProj, int nDestGrpId,
double dLinTol, double dMaxSegmLen, bool bDirFromProj, int nRefType) ;
EXE_EXPORT bool ExeProjectCurveOnSurfExt( int nCurveId, int nSurfTmId, int nGuideId, int nDestGrpId,
double dLinTol, double dMaxSegmLen, bool bDirFromGuide) ;
EXE_EXPORT bool ExeChainCurvesInGroup( int nGroupId, const Point3d& ptNear, int nRefType, double dToler = 10 * EPS_SMALL) ;
EXE_EXPORT bool ExeReorderCurvesInGroup( int nGroupId, const Point3d& ptNear, int nRefType, double dToler = 10 * EPS_SMALL) ;
EXE_EXPORT bool ExeProjectCurveOnSurf( int nCurveId, const INTVECTOR& vnSurfId, int nDestGrpId,
double dLinTol, double dMaxSegmLen) ;
EXE_EXPORT bool ExeProjectCurveOnSurfDir( int nCurveId, const INTVECTOR& vnSurfId, const Vector3d& vtProj, int nDestGrpId,
double dLinTol, double dMaxSegmLen, bool bDirFromProj, bool bFromVsTo, int nRefType) ;
EXE_EXPORT bool ExeProjectCurveOnSurfExt( int nCurveId, const INTVECTOR& vnSurfId, int nGuideId, int nDestGrpId,
double dLinTol, double dMaxSegmLen, bool bDirFromGuide, bool bFromVsTo) ;
EXE_EXPORT int ExeCurveGetVoronoi( const INTVECTOR& vIds, int nDestGrpId, int nBound, int* pnCount) ;
EXE_EXPORT int ExeCurveGetMedialAxis( const INTVECTOR& vIds, int nDestGrpId, int nSide, int* pnCount) ;
EXE_EXPORT int ExeCurveGetFatCurve( int nId, int nDestGrpId, double dRad, bool bSquareEnds, bool bSquareMids, int* pnCount) ;
@@ -668,7 +702,6 @@ EXE_EXPORT bool ExeSurfTmRemoveFacet( int nId, int nFacet) ;
EXE_EXPORT bool ExeSurfTmSwapFacets( int nId, int nFacet1, int nFacet2) ;
EXE_EXPORT bool ExeSurfTmRemovePart( int nId, int nPart) ;
EXE_EXPORT bool ExeCutSurfTmPlane( int nId, const Point3d& ptOn, const Vector3d& vtN, bool bSaveOnEq, int nRefType) ;
EXE_EXPORT bool ExeCutSurfBzPlane( int nId, const Point3d& ptOn, const Vector3d& vtN, bool bSaveOnEq, int nRefType) ;
EXE_EXPORT bool ExeCutSurfTmClosedCurve( int nSurfId, int nCurveId, bool bSaveOnEq) ;
EXE_EXPORT bool ExeSurfTmAdd( int nId1, int nId2, bool bTwoColors = false) ;
EXE_EXPORT bool ExeSurfTmSubtract( int nId1, int nId2, bool bTwoColors = false) ;
@@ -683,13 +716,16 @@ EXE_EXPORT bool ExeSurfTmGetTriaColor( int nId, int nTria, int& nColor) ;
EXE_EXPORT bool ExeSurfTmResetTwoColors( int nId) ;
EXE_EXPORT bool ExeSurfTmSetShowEdges( int nId, bool bShow) ;
EXE_EXPORT bool ExeSurfTmGetShowEdges( int nId, bool& bShow) ;
EXE_EXPORT bool ExeSurfBzTrim( int nId, int nCutterId) ;
EXE_EXPORT bool ExeSurfTmSetSmoothAng( int nId, double dAngDeg) ;
EXE_EXPORT bool ExeSurfTmGetSmoothAng( int nId, double& dAngDeg) ;
EXE_EXPORT bool ExeCutSurfBzPlane( int nId, const Point3d& ptOn, const Vector3d& vtN, bool bSaveOnEq, int nRefType) ;
EXE_EXPORT bool ExeSurfBzTrim( int nId, int nCutterId) ;
// GeomDb Volume Modify
EXE_EXPORT int ExeExplodeVolume( int nId, int* pnCount) ;
EXE_EXPORT bool ExeVolZmapChangeResolution( int nId, int nNewRes) ;
EXE_EXPORT bool ExeVolZmapSetShowEdges( int nId, bool bShow) ;
EXE_EXPORT bool ExeVolZmapGetShowEdges( int nId, bool& bShow) ;
EXE_EXPORT bool ExeRemoveVolZmapPart( int nId, int nPart) ;
EXE_EXPORT bool ExeVolZmapSetStdTool( const INTVECTOR& vIds, const std::string& sToolName,
double dLen, double dDiam, double dCornR, double dCutterH, int nFlag, bool bFirst) ;
@@ -711,6 +747,10 @@ EXE_EXPORT bool ExeVolZmapMillingStep( int nId, const Point3d& ptPs, const Vecto
EXE_EXPORT bool ExeVolZmapMillingStep( int nId, const Point3d& ptPs, const Vector3d& vtDs, const Vector3d& vtAs,
const Point3d& ptPe, const Vector3d& vtDe, const Vector3d& vtAe, int nRefType) ;
EXE_EXPORT bool ExeCutVolZmapPlane( int nId, const Point3d& ptOn, const Vector3d& vtN, int nRefType) ;
EXE_EXPORT bool ExeUpdateVolZmapByAddingSurfTm( int nVolZmapId, int nStmId) ;
EXE_EXPORT bool ExeVolZmapMakeUniform( int nVolZmapId, double dToler, bool bExtensionFirst, int nToolNum) ;
EXE_EXPORT bool ExeVolZMapOffset( int nId, double dDist, int nType) ;
EXE_EXPORT bool ExeVolZMapRemoveFins( int nVolZMapId, const Vector3d& vtDir, double dThick, int nRefType) ;
// GeomDB Get
EXE_EXPORT bool ExeTextNormVersor( int nId, int nRefId, Vector3d& vtNorm) ;
@@ -720,8 +760,8 @@ EXE_EXPORT bool ExeTextGetHeight( int nId, double& dH) ;
EXE_EXPORT bool ExeTextGetItalic( int nId, bool& bItl) ;
// GeomDb Get Pocketing
EXE_EXPORT bool ExePocketing( const int nId, double dRad, double dStep, double dAngle, int nType, bool bSmooth, int nDestGrpId, int& nFirstId, int& nCrvCount) ;
EXE_EXPORT int ExeSurfFrGetZigZagInfill( int nId, int nDestGrpId, double dStep, double dAng, bool bSmooth, bool bRemoveOverlapLink,int* pnCount) ;
EXE_EXPORT bool ExePocketing( int nId, double dRad, double dStep, double dAngle, int nType, bool bSmooth, int nDestGrpId, int& nFirstId, int& nCrvCount) ;
EXE_EXPORT int ExeSurfFrGetZigZagInfill( int nId, int nDestGrpId, double dStep, double dAng, bool bSmooth, bool bRemoveOverlapLink,int* pnCount) ;
// GeomDb Curve Get
EXE_EXPORT bool ExeCurveDomain( int nId, double* pdStart, double* pdEnd) ;
@@ -770,12 +810,14 @@ EXE_EXPORT bool ExeSurfFrChunkMaxOffset( int nId, int nChunk, double& dMaxOffset
EXE_EXPORT bool ExeSurfFrTestExternal( int nId1, int nId2, double dMinDist) ;
EXE_EXPORT int ExeSurfFrChunkCount( int nId) ;
EXE_EXPORT int ExeSurfFrChunkSimpleClassify( int nId1, int nChunk1, int nId2, int nChunk2, double dToler = 0) ;
EXE_EXPORT int ExeSurfFlatRegionInterference( int nId1, int nChunk1, int nId2, int nChunk2, double dToler = 0) ;
EXE_EXPORT bool ExeSurfFrChunkCenter( int nId, int nChunk, int nRefId, Point3d& ptCen, Vector3d& vtN) ;
EXE_EXPORT int ExeExtractSurfFrChunkLoops( int nId, int nChunk, int nDestGrpId, int* pnCount) ;
EXE_EXPORT int ExeSurfFrGetZigZagInfill( int nId, int nDestGrpId, double dStep, double dAng, bool bSmooth, int* pnCount) ;
EXE_EXPORT int ExeSurfTmVertexCount( int nId) ;
EXE_EXPORT int ExeSurfTmFacetCount( int nId) ;
EXE_EXPORT int ExeSurfTmPartCount( int nId) ;
EXE_EXPORT bool ExeSurfTmGetPartAndShellFromFacet( int nSurfTm, int nFacet, int& nPart, int& nShell) ;
EXE_EXPORT bool ExeSurfTmGetVertex( int nId, int nVert, int nRefId, Point3d& ptVert) ;
EXE_EXPORT bool ExeSurfTmGetNearestVertex( int nId, const Point3d& ptNear, int nRefId, int& nVert, Point3d& ptVert) ;
EXE_EXPORT bool ExeSurfTmTriangleNormVersor( int nId, int nTria, int nRefId, Vector3d& vtNorm) ;
@@ -800,22 +842,26 @@ EXE_EXPORT int ExeGetSurfTmSilhouette( int nId, const Vector3d& vtDir, double d
EXE_EXPORT int ExeGetSurfTmParSilhouettes( const INTVECTOR& vIds, const Point3d& ptOn, const Vector3d& vtN, const DBLVECTOR& vdDist,
double dToler, int nDestGrpId, int nRefType, int* pnCount) ;
EXE_EXPORT int ExeExtractSurfTmFacetLoops( int nId, int nFacet, int nDestGrpId, int* pnCount) ;
EXE_EXPORT int ExeExtractSurfTmTriaLoop( int nId, int nT, int nDestGrpId) ;
EXE_EXPORT int ExeCopySurfTmFacet( int nId, int nFacet, int nDestGrpId) ;
EXE_EXPORT bool ExeSurfTmGetAllVertInFacet( int nId, int nFacet, INTVECTOR& vVert) ;
EXE_EXPORT bool ExeSurfTmGetFacetBBox( int nId, int nFacet, int nFlag, BBox3d& b3Box) ;
EXE_EXPORT bool ExeSurfTmGetFacetBBoxGlob( int nId, int nFacet, int nFlag, BBox3d& b3Box) ;
EXE_EXPORT bool ExeSurfTmGetFacetBBoxRef( int nId, int nFacet, int nFlag, const Frame3d& frRef, BBox3d& b3Box) ;
EXE_EXPORT bool ExeSurfTmGetFacetOutlineInfo( int nId, int nFacet, int nRefId,
int& nStatus, BOOLVECTOR& vbOpen, INTVECTOR& vnAdj, DBLVECTOR& vdLen, VCT3DVECTOR& vvtNorm, DBLVECTOR& vdElev) ;
int& nStatus, BOOLVECTOR& vbOpen, INTVECTOR& vnAdj, DBLVECTOR& vdLen,
PNTVECTOR& vptStart, VCT3DVECTOR& vvtNorm, DBLVECTOR& vdElev) ;
EXE_EXPORT int ExeSurfTmGetEdges( int nId, int nDestGrpId, bool bSmoothAng, int* pnCount) ;
EXE_EXPORT bool ExeSurfTmGetCurvatures( int nId, int nV, double& dK1, Vector3d& vtK1, double& dK2, Vector3d& vtK2) ;
EXE_EXPORT bool ExeSurfBezierGetPoint( int nSurfId, double dU, double dV, int nRefId, Point3d& ptP) ;
EXE_EXPORT bool ExeSurfBezierGetPointD1( int nSurfId, double dU, double dV, int nUsd, int nVsd, int nRefId,
Point3d& ptP, Vector3d& vtDerU, Vector3d& vtDerV) ;
EXE_EXPORT bool ExeSurfBezierGetPointNrmD1( int nSurfId, double dU, double dV, int nUsd, int nVsd, int nRefId,
Point3d& ptP, Vector3d& vtN, Vector3d& vtDerU, Vector3d& vtDerV) ;
EXE_EXPORT bool ExeSurfBezierParamsFromPoint( int nSurfId, const Point3d& ptOnSurf, int nRefId, double& dU, double& dV) ;
EXE_EXPORT bool ExeSurfBezierGetInfo( int nSurfId, int& nDegU, int& nDegV, int& nSpanU, int& nSpanV, bool& bIsRat, bool& bTrimmed) ;
EXE_EXPORT int ExeSurfBezierGetCurveU( int nSurfId, double dV, int nDestGrpId) ;
EXE_EXPORT int ExeSurfBezierGetCurveV( int nSurfId, double dU, int nDestGrpId) ;
EXE_EXPORT bool ExeSurfBezierGetInfo( int nSurfId, int& nDegU, int& nDegV, int& nSpanU, int& nSpanV, bool& bIsRat, bool& bTrimmed) ;
EXE_EXPORT int ExeSurfBezierGetControlCurveU( int nSurfId, int nIndV, int nDestGrpId) ;
EXE_EXPORT int ExeSurfBezierGetControlCurveV( int nSurfId, int nIndU, int nDestGrpId) ;
EXE_EXPORT int ExeExtractSurfBezierLoops( int nId, int nDestGrpId, int* pnCount) ;
@@ -877,9 +923,11 @@ EXE_EXPORT bool ExePointCurveDistSide( const Point3d& ptP, int nCurveId, const V
double* pdDist, Point3d& ptMin, int* pnSide) ;
EXE_EXPORT bool ExePointSurfTmDist( const Point3d& ptP, int nStmId, int nRefType,
double* pdDist, Point3d& ptMin, int* pnTria) ;
EXE_EXPORT bool ExePointSurfBzDist( const Point3d& ptP, int nSbzId, int nRefType,
double* pdDist, Point3d& ptMin, Vector3d& vtN) ;
// Geo Intersect
EXE_EXPORT bool ExeLineCurveInters( const Point3d& ptP, const Vector3d& vtDir, const int nId, const int nRefType,
EXE_EXPORT bool ExeLineCurveInters( const Point3d& ptP, const Vector3d& vtDir, int nId, int nRefType,
INTDBLVECTOR& vInters) ;
EXE_EXPORT bool ExeLineBoxInters( const Point3d& ptP, const Vector3d& vtDir, const BBox3d& b3Box,
INTDBLVECTOR& vInters) ;
@@ -889,7 +937,7 @@ EXE_EXPORT bool ExeLineSurfBzInters( const Point3d& ptP, const Vector3d& vtDir,
INTDBLVECTOR& vInters) ;
EXE_EXPORT bool ExeLineVolZmapInters( const Point3d& ptP, const Vector3d& vtDir, int nId, int nRefType,
INTDBLVECTOR& vInters) ;
EXE_EXPORT int ExePlaneCurveInters( const Point3d& ptOn, const Vector3d& vtN, const int nId, const int nDestGrpId, const int nRefType,
EXE_EXPORT int ExePlaneCurveInters( const Point3d& ptOn, const Vector3d& vtN, int nId, int nDestGrpId, int nRefType,
int* pnCount) ;
EXE_EXPORT int ExePlaneBoxInters( const Point3d& ptOn, const Vector3d& vtN, const BBox3d& b3Box, int nDestGrpId, int nRefType,
int* pnPntCount, int* pnCrvCount, int* pnSrfCount) ;
@@ -899,12 +947,13 @@ EXE_EXPORT int ExeParPlanesSurfTmInters( const Point3d& ptOn, const Vector3d& v
int* pnGrpCount) ;
EXE_EXPORT int ExePlaneVolZmapInters( const Point3d& ptOn, const Vector3d& vtN, int nId, int nDestGrpId, int nRefType,
int* pnCount) ;
EXE_EXPORT int ExeCurveCurveInters( const int nId1, const int nId2, const int nDestGrpId,
int* pnPntCount, int* pnCrvCount) ;
EXE_EXPORT int ExeCurveSurfTmInters( const int nCrvId, const int nStmId, const int nDestGrpId,
EXE_EXPORT int ExeCurveCurveInters( int nId1, int nId2, int nDestGrpId,
int* pnPntCount, int* pnCrvCount, bool bOnly3D = false) ;
EXE_EXPORT int ExeCurveSurfTmInters( int nCrvId, int nStmId, int nDestGrpId,
int* pnPntCount, int* pnCrvCount) ;
EXE_EXPORT int ExeSurfTmSurfTmInters( int nId1, int nId2, int nDestGrpId, double dToler,
int* pnPntCount, int* pnCrvCount, int* pnSrfCount) ;
EXE_EXPORT bool ExeBBoxOverlap( const BBox3d& bboxA, const Frame3d& frA, const BBox3d& bboxB, const Frame3d& frB) ;
// Collision Detection
EXE_EXPORT int ExeCDeBoxSolid( const Frame3d& frBox, const Vector3d& vtDiag, int nSolidId, double dSafeDist, int nRefType) ;
@@ -924,7 +973,7 @@ EXE_EXPORT int ExeTestRectPrismoidSurface( const Frame3d& frPrismoid, double dB
EXE_EXPORT int ExeTestCylSurface( const Frame3d& frCyl, double dR, double dH, int nSurfId, double dSafeDist, int nRefType) ;
EXE_EXPORT int ExeTestConeSurface( const Frame3d& frCone, double dR1, double dR2, double dH, int nSurfId, double dSafeDist, int nRefType) ;
EXE_EXPORT int ExeTestSpheSurface( const Point3d& ptCen, double dR, int nSurfId, double dSafeDist, int nRefType) ;
EXE_EXPORT int ExeTestSurfaceSurface( int nSurf1Id, int nSurf2Id, double dSafeDist) ;
EXE_EXPORT int ExeTestSurfaceSurface( int nSurf1Id, int nSurf2Id, double dSafeDist, bool bTestEnclosion = false) ;
// Maximum Filler
EXE_EXPORT bool ExeMaxFillerStart( void) ;
@@ -986,6 +1035,7 @@ EXE_EXPORT bool ExeAutoNestSetRestrictedZoneToPart( int nPartId, int nRzConstrId
EXE_EXPORT bool ExeAutoNestSetStripYconstraintToPart( int nPartId, const Point3d& ptRef, double dStripStart, double dStripRepeat) ;
EXE_EXPORT bool ExeAutoNestSetStripXconstraintToPart( int nPartId, const Point3d& ptRef, double dStripStart, double dStripRepeat) ;
EXE_EXPORT bool ExeAutoNestSetInterpartGap( double dGap) ;
EXE_EXPORT bool ExeAutoNestSetShearGap( double dShearGap) ;
EXE_EXPORT bool ExeAutoNestSetReportFile( const std::string& sReportFile) ;
EXE_EXPORT bool ExeAutoNestCompute( bool bMinimizeOnXvsY, int nMaxTime) ;
EXE_EXPORT bool ExeAutoNestCancelComputation( void) ;
@@ -993,6 +1043,7 @@ EXE_EXPORT bool ExeAutoNestGetComputationStatus( int& nStatus) ;
EXE_EXPORT bool ExeAutoNestPrintResults( const std::string& sHtmlFile) ;
EXE_EXPORT bool ExeAutoNestGetResults( int& nNestedParts, int& nParts, int& nSheets, int& nNestings, double& dTotFillRatio) ;
EXE_EXPORT bool ExeAutoNestGetOneResult( int nInd, int& nType, int& nId, int& nFlag, double& dX, double& dY, double& dAngRot) ;
EXE_EXPORT bool ExeAutoNestCalcShearSequence( int nNesting, PNTVECTOR& vPtStart, PNTVECTOR& vPtEnd) ;
// Collision Avoidance Tool SurfaceTriMesh
EXE_EXPORT bool ExeCAvSetStdTool( double dToolLen, double dToolDiam, double dToolCornR) ;
@@ -1048,7 +1099,7 @@ EXE_EXPORT bool ExeIsRawPart( int nRawId) ;
EXE_EXPORT int ExeAddRawPart( Point3d ptOrig, double dLength, double dWidth, double dHeight, Color cCol) ;
EXE_EXPORT int ExeAddRawPartWithPart( int nPartId, int nCrvId, double dOverMat, Color cCol) ;
EXE_EXPORT bool ExeModifyRawPart( int nRawId, Point3d ptOrig, double dLength, double dWidth, double dHeight, Color cCol) ;
EXE_EXPORT bool ExeModifyRawPart( int nRawId, int nCrvId, double dOverMat, double dZmin, double dHeight, Color cCol) ;
EXE_EXPORT bool ExeModifyRawPart( int nRawId, int nCrvId, double dOverMat, double dHeight, Color cCol) ;
EXE_EXPORT bool ExeModifyRawPartSize( int nRawId, double dLength, double dWidth, double dHeight) ;
EXE_EXPORT bool ExeModifyRawPartHeight( int nRawId, double dHeight) ;
EXE_EXPORT bool ExeKeepRawPart( int nRawId, int nSouPhase) ;
@@ -1138,6 +1189,7 @@ EXE_EXPORT bool ExeTdbImport( const std::string& sFile, const STRVECTOR& vsTools
EXE_EXPORT int ExeGetCurrSetup( void) ;
EXE_EXPORT bool ExeGetDefaultSetupName( std::string& sName) ;
EXE_EXPORT bool ExeImportSetup( const std::string& sName) ;
EXE_EXPORT bool ExeExistsCurrSetup( void) ;
EXE_EXPORT bool ExeVerifyCurrSetup( STRVECTOR& vsErrors) ;
EXE_EXPORT bool ExeFindToolInCurrSetup( const std::string& sTool) ;
EXE_EXPORT bool ExeGetToolSetupPosInCurrSetup( const std::string& sTool, std::string& sTcPos) ;
@@ -1180,16 +1232,16 @@ EXE_EXPORT int ExeGetFirstOperation( void) ;
EXE_EXPORT int ExeGetNextOperation( int nId) ;
EXE_EXPORT int ExeGetLastOperation( void) ;
EXE_EXPORT int ExeGetPrevOperation( int nId) ;
EXE_EXPORT int ExeGetFirstActiveOperation( void) ;
EXE_EXPORT int ExeGetNextActiveOperation( int nId) ;
EXE_EXPORT int ExeGetLastActiveOperation( void) ;
EXE_EXPORT int ExeGetPrevActiveOperation( int nId) ;
EXE_EXPORT int ExeGetFirstActiveOperation( bool bNeedMachNotEmpty = false) ;
EXE_EXPORT int ExeGetNextActiveOperation( int nId, bool bNeedMachNotEmpty = false) ;
EXE_EXPORT int ExeGetLastActiveOperation( bool bNeedMachNotEmpty = false) ;
EXE_EXPORT int ExeGetPrevActiveOperation( int nId, bool bNeedMachNotEmpty = false) ;
EXE_EXPORT int ExeGetOperationType( int nId) ;
EXE_EXPORT int ExeGetOperationPhase( int nId) ;
EXE_EXPORT bool ExeSetOperationName( int nId, const std::string& sName) ;
EXE_EXPORT bool ExeGetOperationName( int nId, std::string& sName) ;
EXE_EXPORT int ExeGetOperationId( const std::string& sName) ;
EXE_EXPORT bool ExeIsOperationEmpty( int nId) ;
EXE_EXPORT bool ExeIsOperationEmpty( int nId, int nEmptyType = 0) ;
EXE_EXPORT bool ExeRemoveOperation( int nId) ;
EXE_EXPORT bool ExeRemoveAllPhaseOperations( int nPhase) ;
EXE_EXPORT bool ExeRemoveAllOperations( void) ;
@@ -1223,6 +1275,7 @@ EXE_EXPORT bool ExeSetMachiningGeometry( const SELVECTOR& vIds) ;
EXE_EXPORT bool ExePreviewMachining( bool bRecalc) ;
EXE_EXPORT bool ExeApplyMachining( bool bRecalc, bool bPostApply = true) ;
EXE_EXPORT bool ExeUpdateMachining( bool bPostApply = true) ;
EXE_EXPORT bool ExeChangePreviewMachiningToolShow( int nLookFlag) ;
EXE_EXPORT bool ExePreparePreviewMachiningTool( void) ;
EXE_EXPORT bool ExeRemovePreviewMachiningTool( void) ;
EXE_EXPORT int ExeGetPreviewMachiningToolStepCount( void) ;
@@ -1233,9 +1286,11 @@ EXE_EXPORT bool ExeGetMachiningParam( int nType, double& dVal) ;
EXE_EXPORT bool ExeGetMachiningParam( int nType, std::string& sVal) ;
EXE_EXPORT bool ExeGetMachiningGeometry( SELVECTOR& vIds) ;
EXE_EXPORT bool ExeGetMachiningSkippedGeometry( SELVECTOR& vIds) ;
EXE_EXPORT bool ExeIsMachiningEmpty( void) ;
EXE_EXPORT bool ExeIsMachiningEmpty( int nEmptyType) ;
EXE_EXPORT bool ExeGetMachiningStartPoint( Point3d& ptStart) ;
EXE_EXPORT bool ExeGetMachiningEndPoint( Point3d& ptEnd) ;
EXE_EXPORT bool ExeGetMachiningStartAxes( bool bSkipClimb, DBLVECTOR& vAxVal) ;
EXE_EXPORT bool ExeGetMachiningEndAxes( bool bSkipRise, DBLVECTOR& vAxVal) ;
EXE_EXPORT bool ExeApplyAllMachinings( bool bRecalc, bool bStopOnFirstErr, std::string& sErrList) ;
EXE_EXPORT bool ExeApplyAllMachiningsEx( bool bRecalc, bool bStopOnFirstErr, std::string& sErrList, std::string& sWarnList) ;
EXE_EXPORT bool ExeUpdateAllMachinings( bool bStopOnFirstErr, std::string& sErrList) ;
@@ -1244,10 +1299,13 @@ EXE_EXPORT bool ExeUpdateAllMachiningsEx( bool bStopOnFirstErr, std::string& sEr
EXE_EXPORT bool ExeGetClEntMove( int nEntId, int& nMove) ;
EXE_EXPORT bool ExeGetClEntFlag( int nEntId, int& nFlag, int& nFlag2) ;
EXE_EXPORT bool ExeGetClEntIndex( int nEntId, int& nIndex) ;
EXE_EXPORT bool ExeGetClEntFeed( int nEntId, double& dFeed) ;
EXE_EXPORT bool ExeGetClEntAxesStatus( int nEntId, int& nStatus) ;
EXE_EXPORT bool ExeGetClEntAxesMask( int nEntId, int& nMask) ;
EXE_EXPORT bool ExeGetClEntAxesVal( int nEntId, DBLVECTOR& vAxes) ;
EXE_EXPORT bool ExeGetClEntTDir( int nEntId, Vector3d& vtTDir) ;
EXE_EXPORT bool ExeGetClEntCDir( int nEntId, Vector3d& vtCDir) ;
EXE_EXPORT bool ExeGetClEntADir( int nEntId, Vector3d& vtADir) ;
// Simulation
EXE_EXPORT bool ExeSimInit( void) ;
EXE_EXPORT bool ExeSimStart( bool bFirst) ;
@@ -1255,6 +1313,7 @@ EXE_EXPORT bool ExeSimMove( int& nStatus) ;
EXE_EXPORT bool ExeSimHome( void) ;
EXE_EXPORT bool ExeSimSetStep( double dStep) ;
EXE_EXPORT bool ExeSimSetUiStatus( int nUiStatus) ;
EXE_EXPORT bool ExeSimEnableToolTipTrace( bool bEnable) ;
EXE_EXPORT bool ExeSimGetAxisInfoPos( int nI, std::string& sName, std::string& sToken, bool& bLinear, double& dVal) ;
EXE_EXPORT bool ExeSimGetToolInfo( std::string& sName, double& dSpeed) ;
EXE_EXPORT bool ExeSimGetOperationInfo( std::string& sName, int& nType) ;
@@ -1284,9 +1343,11 @@ EXE_EXPORT bool ExeGetAllTcPosNames( STRVECTOR& vNames) ;
// Machine Calc
EXE_EXPORT bool ExeSetCalcTable( const std::string& sTable) ;
EXE_EXPORT bool ExeSetCalcTool( const std::string& sTool, const std::string& sHead, int nExit) ;
EXE_EXPORT bool ExeSetCalcSolCh( int nScc, bool bExact) ;
EXE_EXPORT bool ExeSetRotAxisBlock( const std::string& sAxis, double dVal) ;
EXE_EXPORT bool ExeGetCalcTable( std::string& sTable) ;
EXE_EXPORT bool ExeGetCalcTool( std::string& sTool, std::string& sHead, int& nExit) ;
EXE_EXPORT bool ExeGetCalcSolCh( int& nScc, bool& bExact) ;
EXE_EXPORT bool ExeGetAllCurrAxesNames( STRVECTOR& vAxName) ;
EXE_EXPORT bool ExeGetRotAxisBlocked( int nInd, std::string& sAxis, double& dVal) ;
EXE_EXPORT bool ExeGetCalcAngles( const Vector3d& vtDirT, const Vector3d& vtDirA,
@@ -1294,9 +1355,11 @@ EXE_EXPORT bool ExeGetCalcAngles( const Vector3d& vtDirT, const Vector3d& vtDirA
EXE_EXPORT bool ExeGetCalcAngles( const Vector3d& vtDirT, const Vector3d& vtDirA,
int& nStat, DBLVECTOR& vAng1, DBLVECTOR& vAng2) ;
EXE_EXPORT bool ExeGetCalcPositions( const Point3d& ptP, double dAngA, double dAngB,
int& nStat, double& dX, double& dY, double& dZ) ;
double& dX, double& dY, double& dZ) ;
EXE_EXPORT bool ExeGetCalcPositions( const Point3d& ptP, const DBLVECTOR& vAng,
int& nStat, double& dX, double& dY, double& dZ) ;
double& dX, double& dY, double& dZ) ;
EXE_EXPORT bool ExeGetRobotAngles( const Point3d& ptP, const Vector3d& vtDirT, const Vector3d& vtDirA,
DBLVECTOR& vAng1, DBLVECTOR& vAng2) ;
EXE_EXPORT bool ExeGetCalcTipFromPositions( double dX, double dY, double dZ, double dAngA, double dAngB,
bool bBottom, Point3d& ptTip) ;
EXE_EXPORT bool ExeGetCalcTipFromPositions( double dX, double dY, double dZ, const DBLVECTOR& vAng,
@@ -1304,6 +1367,7 @@ EXE_EXPORT bool ExeGetCalcTipFromPositions( double dX, double dY, double dZ, con
EXE_EXPORT bool ExeGetCalcToolDirFromAngles( const DBLVECTOR& vAng, Vector3d& vtDir) ;
EXE_EXPORT bool ExeGetCalcAuxDirFromAngles( const DBLVECTOR& vAng, Vector3d& vtDir) ;
EXE_EXPORT bool ExeVerifyOutstroke( double dX, double dY, double dZ, double dAngA, double dAngB, int& nStat) ;
EXE_EXPORT bool ExeVerifyOutstroke( double dX, double dY, double dZ, const DBLVECTOR& vAng, int& nStat) ;
EXE_EXPORT bool ExeGetOutstrokeInfo( std::string& sInfo) ;
// Machine Move
EXE_EXPORT bool ExeSetAxisPos( const std::string& sAxis, double dVal, double* pdNewVal = nullptr) ;
@@ -1335,8 +1399,11 @@ EXE_EXPORT bool ExeSetGridGeo( double dSnapStep, int nMinLineSstep, int nMajLine
EXE_EXPORT bool ExeSetGridGeoAdv( double dSnapStep, int nMinLineSstep, int nMajLineSstep,
double dXmin, double dXmax, double dYmin, double dYmax) ;
EXE_EXPORT bool ExeSetGridColor( Color colMin, Color colMaj) ;
EXE_EXPORT bool ExeSetCameraType( bool bOrthoOrPersp, bool bRedraw) ;
EXE_EXPORT bool ExeSetZoomType( int nMode, bool bRedraw) ;
EXE_EXPORT bool ExeResize( int nW, int nH) ;
EXE_EXPORT bool ExeDraw( void) ;
EXE_EXPORT bool ExeRedraw( void) ;
EXE_EXPORT bool ExeSelect( int nWinX, int nWinY, int nSelW, int nSelH, int* pnSel) ;
EXE_EXPORT bool ExeSetObjFilterForSelWin( bool bZerodim, bool bCurve, bool bSurf, bool bVolume, bool bExtra) ;
EXE_EXPORT bool ExeUnselectableRemove( int nId) ;
@@ -1356,6 +1423,8 @@ EXE_EXPORT bool ExeSetShowCurveDirection( bool bShow, bool bRedraw) ;
EXE_EXPORT bool ExeGetShowCurveDirection( void) ;
EXE_EXPORT bool ExeSetShowTriaAdv( bool bAdvanced, bool bRedraw) ;
EXE_EXPORT bool ExeGetShowTriaAdv( void) ;
EXE_EXPORT bool ExeSetShowSurfBezierTol( double dLinTol, bool bRedraw) ;
EXE_EXPORT double ExeGetShowSurfBezierTol( void) ;
EXE_EXPORT bool ExeSetShowZmap( int nMode, bool bRedraw) ;
EXE_EXPORT int ExeGetShowZmap( void) ;
EXE_EXPORT bool ExeZoomRadius( double dRadius, bool bRedraw) ;
@@ -1392,8 +1461,9 @@ EXE_EXPORT bool ExeGetTextureDimensions( const std::string& sName, double& dDimX
EXE_EXPORT bool ExeChangeTextureDimensions( const std::string& sName, double dDimX, double dDimY) ;
EXE_EXPORT bool ExeGetImage( int nShowMode, Color colBackTop, Color colBackBottom,
int nWidth, int nHeight, const std::string& sFile) ;
EXE_EXPORT bool ExeSetCameraType( bool bOrthoOrPersp, bool bRedraw) ;
EXE_EXPORT bool ExeSetZoomType( int nMode, bool bRedraw) ;
EXE_EXPORT bool ExeGetImageEx( int nDriver, bool b2Buff, int nColorBits, int nDepthBits,
int nShowMode, Color colBackTop, Color colBackBottom,
int nCameraDir, int nWidth, int nHeight, const std::string& sFile) ;
// Image
EXE_EXPORT bool ExeGetImagePixels( const std::string& sFile, int& nPixelX, int& nPixelY) ;
@@ -1424,3 +1494,47 @@ EXE_EXPORT int ExeAddPicture( int nParentId, const std::string& sName, const st
EXE_EXPORT bool ExeLoadMessages( const std::string& sMsgFilePath) ;
EXE_EXPORT const std::string& ExeGetLanguage( void) ;
EXE_EXPORT const std::string& ExeGetMsg( int nMsg) ;
// Redis
EXE_EXPORT bool ExeRedisConnect( const std::string& sConnection, int& nIdConnection) ;
EXE_EXPORT bool ExeRedisDisconnect( int nIdConnection) ;
EXE_EXPORT bool ExeRedisSetValFromKey( int nIdConnection, const std::string& sKey, const std::string& sVal) ;
EXE_EXPORT bool ExeRedisGetValFromKey( int nIdConnection, const std::string& sKey, std::string& sVal) ;
EXE_EXPORT bool ExeRedisAsyncConnect( const std::string& sConnection, int& nIdConnection) ;
EXE_EXPORT bool ExeRedisAsyncDisconnect( int nIdConnection) ;
EXE_EXPORT bool ExeRedisAsyncPublish( int nIdConnection, const std::string& sChannel, const std::string& sMessage) ;
EXE_EXPORT bool ExeRedisAsyncSubscribe( int nIdConnection, const std::string& sChannel) ;
EXE_EXPORT bool ExeRedisAsyncUnsubscribe( int nIdConnection, const std::string& sChannel) ;
EXE_EXPORT bool ExeRedisAsyncSubscribeOneMessage( int nIdConnection, const std::string& sChannel, double dMaxTimeOut, std::string& sMessage) ;
EXE_EXPORT bool ExeRedisAsyncGetMessage( int nIdConnection, const std::string& sChannel, int& nCount, std::string& sMessage) ;
// Base64
EXE_EXPORT bool ExeBase64Encode( const std::string& sFile, std::string& sB64Dest) ;
EXE_EXPORT bool ExeBase64Decode( const std::string& sB64Sou, const std::string& sFile) ;
// Trimming
EXE_EXPORT int ExeTrimmingGetSurfTmFaceAdj( int nParentId, int nSurfId, int nTria, const Point3d& vPts,
double dAngTol, double dSize, double dSizeTol) ;
EXE_EXPORT int ExeTrimmingGetSurfTmFromStmFaces( int nParentId, int nSurfId, const INTVECTOR& vFaces) ;
EXE_EXPORT bool ExeTrimmingGetAdjSurfs( const INTVECTOR& vSurfId, const INTVECTOR& vOtherSurfId, double dLinTol,
double dAngTol, double dAngFaceTol, INTVECTOR& vResId) ;
EXE_EXPORT bool ExeTrimmingGetBorders( int nParentId, const SELVECTOR& vIds, double dSurfLinTol, double dSurfAngTol,
double dLinTol, double dAngTol, int& nFirstId, int& nCount) ;
EXE_EXPORT bool ExeTrimmingGetBordersByNormals( int nParentId, const SELVECTOR& vIds, double dSurfLinTol,
double dSurfAngTol, double dLinTol, double dAngTol,
double dThick, int& nFirstId, int& nCount) ;
EXE_EXPORT bool ExeTrimmingGetFinalBorders( int nParentId, const INTVECTOR& vCrvBezierId, double dLinTol, double dAngTol,
const PNTVECTOR& vBreakingPts, double dThick, double dThickTol,
int& nFirstId, int& nCount) ;
EXE_EXPORT int ExeTrimmingGetRuledBezier( int nParentId, const INTVECTOR& vIds, int nEdge1Id, int nEdge2Id, double dLinTol,
const INTVECTOR& vnLineIds) ;
EXE_EXPORT bool ExeTrimmingInterpolateSyncLines( int nParentId, int nSync1Id, int nSync2Id,
int nBorder1Id, int nBorder2Id, double dEdgeLinTol,
double dEdgeAngTol, int& nFirstId, int& nCount) ;
EXE_EXPORT bool ExeTrimmingGetSurfBzSyncPoints( int nParentId, int nEdge1Id, int nEdge2Id, double dLinTol,
double dAngTol, int nLineNbr, bool bShowOnCorners,
int& nFirstId, int& nCount) ;
EXE_EXPORT bool ExeTrimmingGetHoleBorder( int nParentId, const INTVECTOR& vSurfIds, const INTVECTOR& vOtherSurfIds,
double dSurfLinTol, double dSurfAngTol, double dEdgeLinTol, double dEdgeAngTol,
double dEdgeThick, int& nFirstId, int& nCount) ;
EXE_EXPORT int ExeRegolarizeSurfaceLocally( int nParentId, int nSurfId, int nSyncStartId, int nSyncEndId, double dLinTol, int nType) ;
EgtFunPtrType.h
+9 -5
View File
@@ -1,13 +1,14 @@
//----------------------------------------------------------------------------
// EgalTech 2018-2023
// EgalTech 2018-2025
//----------------------------------------------------------------------------
// File : EgtFunPtrType.h Data : 23.11.23 Versione : 2.5k5
// File : EgtFunPtrType.h Data : 12.10.25 Versione : 2.7j25
// Contenuto : Dichiarazione tipi puntatori a funzione.
//
//
//
// Modifiche : 19.07.18 DS Creazione modulo.
// 23.11.23 DS Aggiunta pfOnTerminateProcess.
// 12.10.25 DS Aggiunta pfCdeclProcEvents.
//
//----------------------------------------------------------------------------
@@ -16,6 +17,9 @@
#include <string>
//----------------------------------------------------------------------------
typedef bool (__stdcall * pfOnTerminateProcess) ( int) ;
typedef int (__stdcall * pfProcEvents) ( int, int) ;
typedef bool (__stdcall * pfOutText) ( const std::string&) ;
typedef bool (__stdcall * psfOnTerminateProcess) ( int) ;
typedef int (__stdcall * psfProcEvents) ( int, int) ;
typedef bool (__stdcall * psfOutText) ( const std::string&) ;
//----------------------------------------------------------------------------
typedef int (__cdecl * pcfProcEvents) ( int, int) ;
EgtKeyCodes.h
+4 -3
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2015-2025
// EgalTech 2015-2026
//----------------------------------------------------------------------------
// File : EgtKeyCodes.h Data : 04.03.25 Versione : 2.7a3
// File : EgtKeyCodes.h Data : 02.01.26 Versione : 3.1a1
// Contenuto : Costanti per codici di protezione librerie di base.
//
//
@@ -19,6 +19,7 @@
// 01.01.23 DS Passaggio a versione 25.
// 16.01.24 DS Passaggio a versione 26.
// 07.01.25 DS Passaggio a versione 27.
// 02.01.26 DS Passaggio a versione 31.
//
//----------------------------------------------------------------------------
@@ -26,7 +27,7 @@
//----------------------------------------------------------------------------
const int KEY_BASELIB_PROD = 207 ;
const int KEY_BASELIB_VER = 2704 ;
const int KEY_BASELIB_VER = 3105 ;
const int KEY_BASELIB_LEV = 1 ;
//----------------------------------------------------------------------------
EgtNumCollection.h
+17 -9
View File
@@ -1,7 +1,7 @@
//----------------------------------------------------------------------------
// EgalTech 2014-2019
// EgalTech 2014-2025
//----------------------------------------------------------------------------
// File : EgtNumCollection.h Data : 07.07.19 Versione : 2.1g1
// File : EgtNumCollection.h Data : 21.09.25 Versione : 2.7i2
// Contenuto : Raccolte di oggetti numerici semplici.
//
//
@@ -16,6 +16,7 @@
#include <vector>
#include <list>
#include <utility>
#include <set>
#include <unordered_set>
//----------------------------------------------------------------------------
@@ -28,7 +29,8 @@ typedef std::list<bool> BOOLLIST ; // lista di bool
typedef std::vector<int> INTVECTOR ; // vettore di interi
typedef std::list<int> INT_LIST ; // lista di interi (con _ per non collidere con Win)
typedef std::vector<std::vector<int>> INTMATRIX ; // matrice di interi
typedef std::unordered_set<int> INTUNORDSET ; // unordered set di interi
typedef std::set<int> INTSET ; // set di interi
typedef std::unordered_set<int> INTUNORDSET ; // unordered set di interi
//----------------------------------------------------------------------------
// Raccolte di interi senza segno
@@ -43,12 +45,18 @@ typedef std::vector<std::vector<double>> DBLMATRIX ; // matrice di double
//----------------------------------------------------------------------------
// Raccolte di coppie integer, integer
typedef std::pair<int,int> INTINT ; // coppia di interi
typedef std::vector<INTINT> INTINTVECTOR ; // vettore di coppie di interi
typedef std::list<INTINT> INTINTLIST ; // lista di coppie di interi
typedef std::pair<int,int> INTINT ; // coppia di interi
typedef std::vector<INTINT> INTINTVECTOR ; // vettore di coppie di interi
typedef std::list<INTINT> INTINTLIST ; // lista di coppie di interi
//----------------------------------------------------------------------------
// Raccolte di coppie integer, double
typedef std::pair<int,double> INTDBL ; // coppia flag, parametro
typedef std::vector<INTDBL> INTDBLVECTOR ; // vettore di coppie flag, parametro
typedef std::list<INTDBL> INTDBLLIST ; // lista di coppie flag, parametro
typedef std::pair<int,double> INTDBL ; // coppia flag, parametro
typedef std::vector<INTDBL> INTDBLVECTOR ; // vettore di coppie flag, parametro
typedef std::list<INTDBL> INTDBLLIST ; // lista di coppie flag, parametro
//----------------------------------------------------------------------------
// Raccolte di coppie double, double
typedef std::pair<double,double> DBLDBL ; // coppia di double
typedef std::vector<DBLDBL> DBLDBLVECTOR ; // vettore di coppie di double
typedef std::list<DBLDBL> DBLDBLLIST ; // lista di coppie di double
EgtNumUtils.h
+21
View File
@@ -13,6 +13,8 @@
#pragma once
#include <cmath>
//----------------------------------------------------------------------------
inline
int Clamp( int nVal, int nMin, int nMax)
@@ -34,3 +36,22 @@ bool IsEven( int nVal)
return ( ( nVal % 2) == 0) ;
}
//----------------------------------------------------------------------------
inline
double Pow( double dBase, int nExp)
{
if ( nExp == 0)
return 1 ;
else if ( nExp < 0) {
if ( dBase < -DBL_EPSILON || dBase > DBL_EPSILON)
return Pow( 1 / dBase, -nExp) ;
else
return NAN ;
}
else {
double dVal = 1 ;
for ( int i = 1 ; i <= nExp ; ++ i)
dVal *= dBase ;
return dVal ;
}
}
EgtPointerOwner.h
+1 -1
View File
@@ -21,7 +21,7 @@ class PtrOwner
public :
explicit PtrOwner( void) : m_pT( nullptr) {}
explicit PtrOwner( T* pT) : m_pT( pT) {}
PtrOwner( PtrOwner<T>&& RPT) : m_pT( Release( RPT)) {}
PtrOwner( PtrOwner<T>&& RPT) noexcept : m_pT( Release( RPT)) {}
PtrOwner( const PtrOwner<T>& RPT) = delete ;
~PtrOwner( void) { Reset() ; }
bool Set( T* pT) { Reset() ; m_pT = pT ; return ( m_pT != nullptr) ; }