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base: Egalware/3dprinting:2.5f1
Branches Tags
Egalware/3dprinting:main Egalware/3dprinting:Feature/CalcTFSDifferentW Egalware/3dprinting:develop Egalware/3dprinting:Feature/Icarus
Egalware/3dprinting:3.1c2 Egalware/3dprinting:3.1a1 Egalware/3dprinting:3.1c1 Egalware/3dprinting:2.7j1 Egalware/3dprinting:2.7i1 Egalware/3dprinting:2.7g2 Egalware/3dprinting:2.7f2 Egalware/3dprinting:2.7d2 Egalware/3dprinting:2.6g7 Egalware/3dprinting:2.6g1 Egalware/3dprinting:2.6f4 Egalware/3dprinting:2.6e1 Egalware/3dprinting:2.6b1 Egalware/3dprinting:2.6a1 Egalware/3dprinting:2.5l1 Egalware/3dprinting:2.5j1 Egalware/3dprinting:2.5h1 Egalware/3dprinting:2.5g1 Egalware/3dprinting:2.5f1 Egalware/3dprinting:2.5e2 Egalware/3dprinting:2.5e1 Egalware/3dprinting:2.5d4 Egalware/3dprinting:2.5d3 Egalware/3dprinting:2024/01/09 Egalware/3dprinting:AutoSave_2024/03/08 Egalware/3dprinting:AutoSave_2024/02/02 Egalware/3dprinting:AutoSave_2024/10/01
..
compare: Egalware/3dprinting:2.6b1
Branches Tags
Egalware/3dprinting:main Egalware/3dprinting:Feature/CalcTFSDifferentW Egalware/3dprinting:develop Egalware/3dprinting:Feature/Icarus
Egalware/3dprinting:3.1c2 Egalware/3dprinting:3.1a1 Egalware/3dprinting:3.1c1 Egalware/3dprinting:2.7j1 Egalware/3dprinting:2.7i1 Egalware/3dprinting:2.7g2 Egalware/3dprinting:2.7f2 Egalware/3dprinting:2.7d2 Egalware/3dprinting:2.6g7 Egalware/3dprinting:2.6g1 Egalware/3dprinting:2.6f4 Egalware/3dprinting:2.6e1 Egalware/3dprinting:2.6b1 Egalware/3dprinting:2.6a1 Egalware/3dprinting:2.5l1 Egalware/3dprinting:2.5j1 Egalware/3dprinting:2.5h1 Egalware/3dprinting:2.5g1 Egalware/3dprinting:2.5f1 Egalware/3dprinting:2.5e2 Egalware/3dprinting:2.5e1 Egalware/3dprinting:2.5d4 Egalware/3dprinting:2.5d3 Egalware/3dprinting:2024/01/09 Egalware/3dprinting:AutoSave_2024/03/08 Egalware/3dprinting:AutoSave_2024/02/02 Egalware/3dprinting:AutoSave_2024/10/01

43 Commits
2.5f1 .. 2.6b1

Author SHA1 Message Date
Dario Sassi 94b02be20a 3dPrinting 2.6b1 : 
- aggiornata versione.
 2024-02-13 14:53:06 +01:00
SaraP a15593303f 3dPrinting : 
- corretto errore.
 2024-02-12 12:06:46 +01:00
SaraP 011f049c43 3dPrinting : 
- migliorie in PrepareExport con utilizzo della fat curve di Voronoi.
 2024-02-12 12:05:04 +01:00
SaraP e214e5a766 3dPrinting : 
- corretta approssimazione toolpath in spiral vase.
 2024-01-31 10:11:08 +01:00
Dario Sassi e4c696c498 3dPrinting : 
- correzioni a calcolo TFS per layer vuoti (tipicamente primi e ultimi con estrusione a 45 gradi).
 2024-01-31 09:08:18 +01:00
SaraP e37a2f8e85 3dPrinting : 
- modifiche per utilizzare la nuova funzione per il calcolo degli offset di flat regions ( per Voronoi).
 2024-01-29 14:43:43 +01:00
Dario Sassi 5619072e46 3dPrinting 2.6a1 : 
- cambio versione.
 2024-01-26 16:06:34 +01:00
SaraP ff59ee3e5b 3dPrinting : 
- sistemate le tolleranze nel calcolo delle superfici per gestire errore con extra shell spezzata.
 2024-01-18 10:39:46 +01:00
SaraP af03fe39d8 3dPrinting : 
- nel calcolo dei toopath riassegnato punto di inizio dopo approssimazione delle curve.
 2024-01-15 15:34:06 +01:00
SaraP 775d0c9329 3dPrinting : 
- modificato parametro tolleranza offset.
 2024-01-10 10:26:53 +01:00
SaraP 6669803e53 3dPrinting : 
- aggiunto parametro per tolleranza nel calcolo offset.
 2024-01-10 10:14:38 +01:00
SaraP 2827ba9ac0 3dPrinting 2.5l1 : 
- unione dei setti alla shell interna
- migliorie nel riordino extra shells.
 2023-12-19 14:40:29 +01:00
SaraP 30368edd88 3dPrinting : 
- modificato valore di correzione offset in CalcPath.
 2023-12-12 11:20:23 +01:00
SaraP b420905b7a 3dPrinting : 
- sistemata approssimazione dei toolpath nel caso spiral vase
- corretto errore calcolo solidi spiral vase.
 2023-12-11 17:13:10 +01:00
SaraP 36a867ef4a 3dPrinting : 
- aggiunta approssimazione delle curve nel toolpath per eliminare piccoli tratti.
 2023-12-04 14:50:14 +01:00
SaraP 7cebcd4b0e 3dPrinting : 
- modifiche in RunPrepareExport per gestire assenza dello strand sulle singole curve.
 2023-11-23 10:17:01 +01:00
SaraP fa7f51d02e 3dPrinting : 
- gestita la generazione dei solidi nel caso in cui lo strand non sia definito sulle singole curve.
 2023-11-23 10:02:03 +01:00
SaraP eac6b2da77 3dPrinting : 
- migliorie gestione extra shells.
 2023-11-16 15:21:35 +01:00
SaraP 995ed10a0a 3dPrinting : 
- corretto errore extra shell spezzata.
 2023-11-14 15:07:19 +01:00
SaraP 6c2e16a13e 3dPrinting : 
- modifica della lunghezza dei wipe che entrano nella tavola mantenendo la direzione scelta.
 2023-11-06 09:43:57 +01:00
SaraP 3cdb99f795 3dPrinting : 
- aggiunto PrepareExport e RunPrepareExport alla compilazione.
 2023-10-24 15:34:09 +02:00
SaraP 973eba6379 3dPrinting : 
- aggiunto PrepareExport per creare le geometrie necessarie all'esportazione in 3dm.
 2023-10-24 15:21:07 +02:00
SaraP c2163ebf3f 3dPrinting : 
- modifiche in CalcSolids per esportazione in 3MF.
 2023-10-20 14:15:32 +02:00
SaraP 3f9628121c 3dPrinting 2.5j2 : 
- aggiunta possibilità di unire i setti alla shell interna
- migliorie varie.
 2023-10-17 14:38:52 +02:00
SaraP d97543fbf9 3dPrinting : 
- corretto errore collegamento ribs.
 2023-10-06 17:16:09 +02:00
SaraP 85bbeb8523 3dPrinting : 
- corretta la gestione dei setti esterni in caso di solidi con più gruppi di curve
- migliorie varie.
 2023-10-06 12:33:41 +02:00
Dario Sassi 9f6dda3079 3dPrinting : 
- ripristinata scrittura feed in toolpath.
 2023-10-02 18:06:22 +02:00
SaraP f3b3704f3b 3dPrinting : 
- aggunta info di strand anche sulle curve di wipe.
 2023-10-02 17:28:31 +02:00
Dario Sassi 1b67ca3559 3dPrinting 2.5j1 : 
- aggiornamento versione.
 2023-10-02 16:14:48 +02:00
Dario Sassi 86d4000455 Merge commit 'd343e36e77aa38c73c98d75d79b715861b30797b' 2023-10-02 16:12:29 +02:00
Dario Sassi 3d5b7522bd Merge remote-tracking branch 'origin/Feature/CalcTFSDifferentW' 2023-10-02 16:12:15 +02:00
SaraP d343e36e77 3dPrinting : 
- corretto errore ingressi e uscite setti.
 2023-10-02 14:20:42 +02:00
Emmanuele Sassi 87d2641ab1 - gestito calcolo F e S con strand di differente larghezza 2023-09-25 15:48:10 +02:00
SaraP b610f1f5e1 3dPrinting 2.5i1 : 
- sistemata gestione degli strand variabili con valore nullo.
 2023-09-20 15:59:58 +02:00
SaraP d83b571883 3dPrinting : 
- correzioni nel collegamento tra ribs che terminano esattamente sul pezzo
- migliorie varie nei ribs.
 2023-09-01 17:03:25 +02:00
SaraP a595fcdb98 3dPrinting : 
- corretto collegamento fra ribs esterni che passa sotto il solido.
 2023-08-30 09:52:28 +02:00
Dario Sassi 43949d7f13 3dPrinting 2.5h1 : 
- aggiunta direzione su estrusioni a 45deg in X e Y (X+/- e Y+/-).
 2023-08-28 19:52:40 +02:00
SaraP 00700f3194 3dPrinting : 
- lettura di HMax per slicing dai parametri
- correzione slicing filled solids.
 2023-08-25 09:25:14 +02:00
SaraP 28686fe6b6 3dPrinting : 
- introdotta info con numero totale di layers.
 2023-08-09 17:34:16 +02:00
SaraP 4a4a7d648b 3dPrinting : 
- aggiunta chiusura dei percorsi di extra shell
- aggiunto clamp sui valori di strand width.
 2023-07-20 12:44:32 +02:00
SaraP 03c1768afe 3dPrinting 2.5g1 : 
- aggiunto numero di passate per Filled Solids.
 2023-07-03 10:23:37 +02:00
SaraP ba9470ee88 3dPrinting : 
- aggiunto collegamento infill.
 2023-06-30 12:52:39 +02:00
SaraP e629f1b12d 3dPrinting 2.5f2 : 
- gestione strand variabili per entità.
 2023-06-21 09:21:17 +02:00
12 changed files with 3301 additions and 1015 deletions
Expand all files Collapse all files
.vscode/settings.json
Vendored
+34
View File
@@ -0,0 +1,34 @@
{
"Lua.diagnostics.globals": [
"MATERIAL",
"EgtGetFirstNameInGroup",
"GDB_ID",
"EgtGroup",
"EgtSetLevel",
"EgtSetName",
"GDB_LV",
"EgtGetCurrMachineDir",
"EgtGetCurrMachineName",
"EgtGetStringFromIni",
"EgtGetFirstPart",
"EgtGetInfo",
"EgtGetNextPart",
"EgtGetLastNameInGroup",
"EgtRemoveInfo",
"EgtGetFirstInGroup",
"EgtGetName",
"EgtCurveLength",
"EgtGetNext",
"EgtCurveArea",
"EgtGetNextName",
"EgtSetInfo",
"floor",
"pi",
"pow",
"EgtProcessEvents",
"EgtEmptyGroup",
"EgtOutLog",
"EgtIf",
"EgtProtectGlobal"
]
}
Compile.bat
+2
View File
@@ -11,9 +11,11 @@ REM Compilazione 32 e 64 bit
\EgtProg\Dll32\luac54 -o bin\LuaLibs\RunCalcSolids.lua LuaLibs\RunCalcSolids.lua
\EgtProg\Dll32\luac54 -o bin\LuaLibs\RunGcodeGenerate.lua LuaLibs\RunGcodeGenerate.lua
\EgtProg\Dll32\luac54 -o bin\LuaLibs\RunMachParamFromSWCalc.lua LuaLibs\RunMachParamFromSWCalc.lua
\EgtProg\Dll32\luac54 -o bin\LuaLibs\RunPrepareExport.lua LuaLibs\RunPrepareExport.lua
\EgtProg\Dll32\luac54 -o bin\LuaLibs\RunSlicing.lua LuaLibs\RunSlicing.lua
\EgtProg\Dll32\luac54 -o bin\CalcMachParamFromSW.lua CalcMachParamFromSW.lua
\EgtProg\Dll32\luac54 -o bin\CalcSolids.lua CalcSolids.lua
\EgtProg\Dll32\luac54 -o bin\GcodeGenerate.lua GcodeGenerate.lua
\EgtProg\Dll32\luac54 -o bin\PrepareExport.lua PrepareExport.lua
\EgtProg\Dll32\luac54 -o bin\Slicing.lua Slicing.lua
\EgtProg\Dll32\luac54 -o bin\Version.lua Version.lua
LuaLibs/AddManData.lua
+20 -1
View File
@@ -28,8 +28,12 @@ LINK_CRV = "Link"
FRAME_PART = "FramePart"
START_GEOM = "Start"
TOT_SHELL_TRIM_SURF = "TotalShellSurfForTrim"
SHELL_SURF = "ShellSurf"
COARSE_TRIM_SURF = "CoarseTrimSurf"
TRIM_SURF_LOOP = "TrimSurfLoop"
SURF_LOOP = "SurfLoop"
LOOP_GRP = "LoopGrp"
DIR_ARROW = "Arrow"
MIN_LEN = 0.1
MIN_AREA = 0.01
@@ -46,6 +50,7 @@ KEY_SLICING_DIR = "SlicingDir"
KEY_SLICE_STEP = "StrandH"
KEY_SHELLS_NBR = "StrandCount"
KEY_STRAND = "StrandW"
KEY_INNER_STRAND = "InnerStrandW"
KEY_STRAND_OVERLAP = "StrandOverlap"
KEY_OFFSET_SLICE = "Offset"
KEY_SP_OFFSET_ON_SLICE = "StartPointOffsetOnSlice"
@@ -88,8 +93,10 @@ KEY_CEIL_TYPE = "CeilType"
KEY_FILL_TYPE = "FillType"
-- Infill
KEY_INFILL_STRAND = "InfillStrandW"
KEY_INFILL_TYPE = "InfillType"
KEY_INFILL_DENSITY = "InfillDensity"
KEY_INFILL_LINK = "InfillLink"
KEY_INFILL_OVERLAP = "InfillOverlap"
KEY_INFILL_GRID_OVERLAP = "InfillGridOverlap"
KEY_INFILL_DIR = "InfillDirection"
@@ -100,6 +107,7 @@ KEY_INFILL_WIPE = "InfillWipe"
KEY_INFILL_WIPE_DIR = "InfillWipeDir"
-- Ribs
KEY_RIBS_STRAND = "RibsStrandW"
KEY_RIBS_TYPE = "RibsType"
KEY_LIMIT_UNBDD_RIBS = "LimitUnboundedRibsWithSolid"
KEY_RIBS_OVERLAP = "RibsOverlap"
@@ -130,6 +138,8 @@ KEY_RIBS_USER_LINK_CCW = "RibUserLinkCCW"
KEY_RIBS_USER_LINK_ORDER = "RibUserLinkOrder"
KEY_RIBS_USER_LINK_TOT = "RibsUserLinkParts"
KEY_RIBS_INVERT_STRAND_ORDER = "RibsInvertStrandOrder"
KEY_RIBS_MERGE_WITH_SHELLS = "RibsMergeWithShell"
KEY_INVERT_RIBS_MERGED_SHELL_LINK = "InvertRibsMergedShellMainLink"
-- Regioni con diverso numero di passate
KEY_SHELL_NBR_DIFF = "ShellNbrDifference"
@@ -141,6 +151,8 @@ KEY_EXTRA_SHELL_WIPE = "ExtraShellWipe"
KEY_EXTRA_SHELL_WIPE_DIR = "ExtraShellWipeDir"
-- Solidi ausiliari
KEY_AUX_SOLIDS_STRAND = "AuxSolidsStrandW"
KEY_AUX_SOLIDS_SHELLS_NBR = "AuxSolidsStrandCount"
KEY_AUX_SOLIDS_OVERLAP = "AuxSolidsOverlap"
KEY_AUX_SOLIDS_INFILL = "AuxSolidsInfill"
KEY_AUX_SOLIDS_PRINT_ORDER = "AuxSolidsStrandOrder"
@@ -148,6 +160,7 @@ KEY_AUX_SOLIDS_LINK_TYPE = "AuxSolidsLinkType"
KEY_AUX_SOLIDS_LINK_PARAM = "AuxSolidsLinkParam"
KEY_AUX_SOLIDS_SP_OFFSET = "AuxSolidsStartPointOffsetOnSlice"
KEY_AUX_SOLIDS_LP_OFFSET = "AuxSolidsOffsetLeadPoint"
KEY_AUX_SOLIDS_INFILL_LINK = "AuxSolidsInfillLink"
KEY_AUX_SOLIDS_DENSITY = "AuxSolidsDensity"
KEY_AUX_SOLIDS_DIR = "AuxSolidsDirection"
KEY_AUX_SOLIDS_OFFSET_X = "AuxSolidsOffsetX"
@@ -165,6 +178,7 @@ KEY_SPEED_MIN = "SpeedMin"
KEY_SPEED_MAX = "SpeedMax"
-- Altre chiavi
KEY_MAX_H = "SlicingHeight"
KEY_SLICE_NBR = "SliceNbr"
KEY_SLICE_Z = "SliceZ"
KEY_SLICE_DELTAZ = "DeltaZ"
@@ -186,6 +200,10 @@ KEY_ASSOCIATED_P_CRV = "AssociatedPathCrv"
KEY_INTERNAL_SRF_LOOP = "InternalSrfLoop"
KEY_PREV_CRV = "PrevCrv"
KEY_NEXT_CRVS = "NextCrvs"
KEY_CRV_STRAND = "CurveStrand"
KEY_LAYER_CNT = "LayerCnt"
KEY_CRV_OFFSET = "CurveOffset"
KEY_ORIG_REF = "Orig"
SLICING_TYPE = {
VERTICAL = 1,
@@ -231,7 +249,7 @@ PRINT_DIRECTION = {
LINK_TYPE = {
NONE = 1,
LINEAR = 2,
BIARC = 3,
BIARC = 3,
}
LEAD_TYPE = {
@@ -278,6 +296,7 @@ LAY_FRAME = "Frame"
VIEWPARAMS = 'ViewParams'
IMPORTED_SOLID = 'ImportedSolid'
RESULT_READ_PROG = 'ResultReadProg'
LAY_EXPORT = "ExportLayer"
KEY_PART_ON_TABLE = 'PartOnTable'
KEY_RESULT = 'Result'
LuaLibs/CalcPaths.lua
+2029 -705
View File
File diff suppressed because it is too large Load Diff
LuaLibs/CalcSlices.lua
+60 -28
View File
@@ -1,4 +1,4 @@
-- CalcSlices.lua by Egaltech s.r.l. 2022/10/12
-- CalcSlices.lua by Egaltech s.r.l. 2023/08/28
-- Calcolo percorsi di lavoro per Stampa 3d
-- Tabella per definizione modulo
@@ -15,6 +15,7 @@ local AMD = require( 'AddManData')
---------------------------------------------------------------------
local s_nPartId
local s_vErr = {}
local s_dStrand
-- costanti
local TOLER = 0.05
@@ -36,7 +37,12 @@ local function ComputeZSlices( dSliceStep, dZmin, dDeltaZ, dZmax)
end
--------------------------------------------------------------------
local function ComputeMaxH( vIds, frSlicing, HMax, dSliceStep)
local function ComputeMaxH( vIds, frSlicing, dSliceStep)
local HMax = EgtGetInfo( s_nPartId, KEY_MAX_H, 'd') or GEO.INFINITO
if HMax < GEO.EPS_SMALL then
HMax = GEO.INFINITO
end
-- calcolo il box globale
local b3BoxGlob = BBox3d()
@@ -97,6 +103,10 @@ end
local function GetRibParams( nId)
local RibParam = {}
ReadParam( nId, KEY_RIBS_STRAND, 'd', s_dStrand, RibParam)
if RibParam[KEY_RIBS_STRAND] < GEO.EPS_SMALL then
RibParam[KEY_RIBS_STRAND] = s_dStrand
end
ReadParam( nId, KEY_RIBS_SHELLS_NBR, 'i', 0, RibParam)
ReadParam( nId, KEY_RIBS_INVERT_DIR, 'b', false, RibParam)
ReadParam( nId, KEY_RIBS_LEAD_IN_INVERT, 'b', false, RibParam)
@@ -106,10 +116,11 @@ local function GetRibParams( nId)
ReadParam( nId, KEY_RIBS_LEAD_OUT_COASTING, 'd', 0, RibParam)
ReadParam( nId, KEY_RIBS_LEAD_OUT_WIPE, 'd', 0, RibParam)
ReadParam( nId, KEY_RIBS_LEAD_OUT_WIPE_DIR, 'd', 0, RibParam)
ReadParam( nId, KEY_RIBS_OVERLAP, 'i', 0, RibParam)
ReadParam( nId, KEY_RIBS_OVERLAP, 'd', 0, RibParam)
ReadParam( nId, KEY_RIBS_LINK, 'b', false, RibParam)
ReadParam( nId, KEY_RIBS_TYPE, 'i', RIB_TYPE.INTERNAL, RibParam)
ReadParam( nId, KEY_RIBS_INVERT_STRAND_ORDER, 'b', false, RibParam)
ReadParam( nId, KEY_RIBS_MERGE_WITH_SHELLS, 'b', false, RibParam)
return RibParam
end
@@ -130,7 +141,12 @@ end
local function GetAuxSolidsParams( nId)
local AuxSolidsParam = {}
ReadParam( nId, KEY_AUX_SOLIDS_OVERLAP, 'i', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_STRAND, 'd', s_dStrand, AuxSolidsParam)
if AuxSolidsParam[KEY_AUX_SOLIDS_STRAND] < GEO.EPS_SMALL then
AuxSolidsParam[KEY_AUX_SOLIDS_STRAND] = s_dStrand
end
ReadParam( nId, KEY_AUX_SOLIDS_SHELLS_NBR, 'i', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_OVERLAP, 'd', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_INFILL, 'i', FILL_TYPE.NONE, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_PRINT_ORDER, 'i', PRINT_ORDER.EXT_INT, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_LINK_TYPE, 'i', LINK_TYPE.NONE, AuxSolidsParam)
@@ -139,9 +155,10 @@ local function GetAuxSolidsParams( nId)
ReadParam( nId, KEY_AUX_SOLIDS_LP_OFFSET, 'd', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_DENSITY, 'd', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_DIR, 'd', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_INFILL_LINK, 'b', false, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_OFFSET_X, 'd', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_OFFSET_Y, 'd', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_GRID_OVERLAP, 'i', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_GRID_OVERLAP, 'd', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_COASTING_LEN, 'd', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_WIPE_LEN, 'd', 0, AuxSolidsParam)
ReadParam( nId, KEY_AUX_SOLIDS_WIPE_DIR, 'd', 0, AuxSolidsParam)
@@ -511,7 +528,7 @@ local function CalcGridFromPattern( nInfillGrp, nStmId, dOffsStm, frRef, vtOffs,
local pt2 = pt1 + dDim2 * Y_AX()
local nCrvBase = EgtCurveCompoFromPoints( nMainGrp, {pt1, pt2})
if not nCrvBase then
-- caso zigzag con nOverlapGrid = 100 ( dDim2 = 0)
-- caso zigzag con dOverlapGrid = 100 ( dDim2 = 0)
local vtDir1 = VectorFromPolar( 1, dAng)
local vtDir2 = VectorFromPolar( 1, 180 - dAng)
pt2 = pt1 + vtDir1 * dDim1
@@ -556,7 +573,7 @@ local function CalcGridFromPattern( nInfillGrp, nStmId, dOffsStm, frRef, vtOffs,
end
--------------------------------------------------------------------
local function CalcInfill( nInfillGrp, nType, dDensity, dDir, dOffsX, dOffsY, nGridOverlap, nStmId, dOffsStm, dStrand, vtSlicing)
local function CalcInfill( nInfillGrp, nType, dDensity, dDir, dOffsX, dOffsY, dGridOverlap, nStmId, dOffsStm, dStrand, vtSlicing)
-- frame locale alla direzione dell'infill
local frLoc = Frame3d( ORIG(), vtSlicing)
@@ -569,10 +586,10 @@ local function CalcInfill( nInfillGrp, nType, dDensity, dDir, dOffsX, dOffsY, nG
local vtOffs = Vector3d( dOffsX, dOffsY, 0)
vtOffs:toLoc( frLoc)
-- eventuale correzione di nGridOverlap
-- eventuale correzione di dGridOverlap
if nType ~= FILL_TYPE.LINES and nType ~= FILL_TYPE.GRID and dDensity > 85 then
EgtOutLog( 'Warning: InfillGridOverlap is ignored due to high infill density - CalcSlices')
nGridOverlap = 0
dGridOverlap = 0
end
-- creo le curve di infill
@@ -583,7 +600,7 @@ local function CalcInfill( nInfillGrp, nType, dDensity, dDir, dOffsX, dOffsY, nG
CalcSimpleGridInfill( nInfillGrp, nStmId, dOffsStm, frLoc, vtOffs, dDist)
elseif nType == FILL_TYPE.ZIG_ZAG_GRID then
local dRealStrand = ( 1 - nGridOverlap / 100) * dStrand
local dRealStrand = ( 1 - dGridOverlap / 100) * dStrand
local dAng = 45
local dDim1 = ( dDist - dStrand) * sqrt(2)
local dDim2 = dRealStrand
@@ -591,7 +608,7 @@ local function CalcInfill( nInfillGrp, nType, dDensity, dDir, dOffsX, dOffsY, nG
CalcGridFromPattern( nInfillGrp, nStmId, dOffsStm, frLoc, vtOffs, dDim1, dDim2, dAng, vSlicesAng, dRealStrand, vtSlicing)
elseif nType == FILL_TYPE.HONEYCOMB or nType == FILL_TYPE.HONEYCOMB_GRID then
local dRealStrand = ( 1 - nGridOverlap / 100) * dStrand
local dRealStrand = ( 1 - dGridOverlap / 100) * dStrand
local dAng = 30
local dDim1 = ( dDist - dStrand) / cos(30)
local dDim2 = dDim1 + sqrt(3) * dRealStrand
@@ -610,14 +627,18 @@ local function PrepareInfill( nStmId, vtSlicing)
if nType == FILL_TYPE.NONE then return end
local dDensity = EgtGetInfo( s_nPartId, KEY_INFILL_DENSITY, 'd') or 0
if dDensity < GEO.EPS_SMALL then return end
dDensity = EgtClamp( dDensity, 0, 90)
-- recupero i parametri per infill
local dDir = EgtGetInfo( s_nPartId, KEY_INFILL_DIR, 'd') or 0
local dOffsX = EgtGetInfo( s_nPartId, KEY_INFILL_OFFSET_X, 'd') or 0
local dOffsY = EgtGetInfo( s_nPartId, KEY_INFILL_OFFSET_Y, 'd') or 0
local nGridOverlap = EgtGetInfo( s_nPartId, KEY_INFILL_GRID_OVERLAP, 'i') or 0
local dGridOverlap = EgtGetInfo( s_nPartId, KEY_INFILL_GRID_OVERLAP, 'd') or 0
local dOffsStm = EgtGetInfo( s_nPartId, KEY_OFFSET_SLICE, 'd')
local dStrand = EgtGetInfo( s_nPartId, KEY_STRAND, 'd')
local dStrand = EgtGetInfo( s_nPartId, KEY_INFILL_STRAND, 'd') or s_dStrand
if dStrand < GEO.EPS_SMALL then
dStrand = s_dStrand
end
-- creo gruppo per infill
local nInfillGrp = EgtGroup( s_nPartId)
@@ -625,7 +646,7 @@ local function PrepareInfill( nStmId, vtSlicing)
EgtSetStatus( nInfillGrp, GDB_ST.OFF)
-- calcolo infill
CalcInfill( nInfillGrp, nType, dDensity, dDir, dOffsX, dOffsY, nGridOverlap, nStmId, dOffsStm, dStrand, vtSlicing)
CalcInfill( nInfillGrp, nType, dDensity, dDir, dOffsX, dOffsY, dGridOverlap, nStmId, dOffsStm, dStrand, vtSlicing)
-- aggiungo allo slicing
SlicingInfill( nInfillGrp, vtSlicing, INFILL_CRV, INFILL_GRP)
@@ -643,13 +664,17 @@ local function PrepareAuxSolidsInfill( nSolidsLay, vtSlicing)
if nType & FILL_CATEGORY.INFILL ~= 0 then
local dDensity = ReadParam( vIds[i], KEY_AUX_SOLIDS_DENSITY, 'd', 0)
if dDensity > GEO.EPS_SMALL then
dDensity = EgtClamp( dDensity, 0, 90)
-- recupero i parametri per infill
local dDir = ReadParam( vIds[i], KEY_AUX_SOLIDS_DIR, 'd', 0)
local dOffsX = ReadParam( vIds[i], KEY_AUX_SOLIDS_OFFSET_X, 'd', 0)
local dOffsY = ReadParam( vIds[i], KEY_AUX_SOLIDS_OFFSET_Y, 'd', 0)
local nGridOverlap = ReadParam( vIds[i], KEY_AUX_SOLIDS_GRID_OVERLAP, 'i', 0)
local dStrand = EgtGetInfo( s_nPartId, KEY_STRAND, 'd')
local dGridOverlap = ReadParam( vIds[i], KEY_AUX_SOLIDS_GRID_OVERLAP, 'd', 0)
local dStrand = ReadParam( vIds[i], KEY_AUX_SOLIDS_STRAND, 'd', s_dStrand)
if dStrand < GEO.EPS_SMALL then
dStrand = s_dStrand
end
-- creo gruppo associato
local nInfillGrp = EgtGroup( s_nPartId)
@@ -657,7 +682,7 @@ local function PrepareAuxSolidsInfill( nSolidsLay, vtSlicing)
EgtSetStatus( nInfillGrp, GDB_ST.OFF)
-- calcolo infill
CalcInfill( nInfillGrp, nType, dDensity, dDir, dOffsX, dOffsY, nGridOverlap, vIds[i], 0, dStrand, vtSlicing)
CalcInfill( nInfillGrp, nType, dDensity, dDir, dOffsX, dOffsY, dGridOverlap, vIds[i], 0, dStrand, vtSlicing)
-- aggiungo allo slicing
local sName = AUX_SOLIDS_INFILL_CRV .. tostring( vIds[i]) .. '_'
@@ -1016,17 +1041,17 @@ local function SlicingWithSolid( nStmId, vZSlices, dDeltaZStart, dZmin, frSlicin
nLayId = EgtGetNext( nLayId)
end
-- costolature
local nRibsLay = EgtGetFirstNameInGroup( s_nPartId, LAY_RIBS)
ExtractRibsLoops( nRibsLay, nStmId)
SlicingExtraObjects( nRibsLay, vtSlicing, TYPE.RIB, RIBS_CRV, RIBS_GRP, nStmId)
if EgtProcessEvents( EgtIf( PRINT, 100, 0) + ( #vZSlices + 3) / nCounterTot * 100, 0) == 1 then return false end
local bSpiralVase = EgtGetInfo( s_nPartId, KEY_SPIRAL_VASE, 'b') or false
if not bSpiralVase then
-- infill
PrepareInfill( nStmId, vtSlicing)
if EgtProcessEvents( EgtIf( PRINT, 100, 0) + ( #vZSlices + 3) / nCounterTot * 100, 0) == 1 then return false end
-- costolature
local nRibsLay = EgtGetFirstNameInGroup( s_nPartId, LAY_RIBS)
ExtractRibsLoops( nRibsLay, nStmId)
SlicingExtraObjects( nRibsLay, vtSlicing, TYPE.RIB, RIBS_CRV, RIBS_GRP, nStmId)
if EgtProcessEvents( EgtIf( PRINT, 100, 0) + ( #vZSlices + 6) / nCounterTot * 100, 0) == 1 then return false end
-- solidi per regioni con diverso numero di passate
@@ -1049,17 +1074,23 @@ local function SlicingWithSolid( nStmId, vZSlices, dDeltaZStart, dZmin, frSlicin
end
---------------------------------------------------------------------
function CalcSlices.Exec( nPartId, nStmId, HMax)
function CalcSlices.Exec( nPartId, nStmId)
s_nPartId = nPartId
local sMachIni = EgtGetCurrMachineDir() .. '\\' .. EgtGetCurrMachineName() .. '.ini'
-- recupero la direzione dello slicing
local vtSlicing = Z_AX()
local nSlicingType = EgtGetInfo( s_nPartId, KEY_SLICING_TYPE, 'i')
if nSlicingType == SLICING_TYPE.DEG45_X then
vtSlicing = VectorFromSpherical( 1, 45, 0)
local nDir = EgtGetNumberFromIni( '3dPrinting', 'Dir45degX', 0, sMachIni)
local dHorAng = EgtIf( nDir == -1, 180, 0)
vtSlicing = VectorFromSpherical( 1, 45, dHorAng)
elseif nSlicingType == SLICING_TYPE.DEG45_Y then
vtSlicing = VectorFromSpherical( 1, 45, -90)
local nDir = EgtGetNumberFromIni( '3dPrinting', 'Dir45degY', 0, sMachIni)
local dHorAng = EgtIf( nDir == 2, 90, -90)
vtSlicing = VectorFromSpherical( 1, 45, dHorAng)
elseif nSlicingType == SLICING_TYPE.HORIZONTAL then
vtSlicing = X_AX()
end
@@ -1104,16 +1135,17 @@ function CalcSlices.Exec( nPartId, nStmId, HMax)
EgtOutLog( 'Warning : SliceStep is 0')
return
end
s_dStrand = EgtGetInfo( s_nPartId, KEY_STRAND, 'd')
local dZmin = b3Box:getMin():getZ()
local dZmax = b3Box:getMax():getZ()
local dMaxH = ComputeMaxH( vRefIds, frSlicing, HMax, dSliceStep)
local dMaxH = ComputeMaxH( vRefIds, frSlicing, dSliceStep)
dZmax = min( dZmax, dMaxH)
--dZmin = 708
--dZmax = 712
-- Eseguo slicing
local nLayCnt = 1
local nLayCnt = 1
local nRecalc = 0
local dDeltaZStart = 0.2
LuaLibs/CalcToolPath.lua
+813 -238
View File
File diff suppressed because it is too large Load Diff
LuaLibs/RunCalcSolids.lua
+58 -14
View File
@@ -20,8 +20,8 @@ local function GetLayerParamsForSolidCalc( nPartId)
local LayerParams = {}
LayerParams.bSpiralVase = EgtGetInfo( nPartId, KEY_SPIRAL_VASE, 'b') or false
LayerParams.dLayHeight = EgtGetInfo( nPartId, KEY_SLICE_STEP, 'd')
LayerParams.dStrand = EgtGetInfo( nPartId, KEY_STRAND, 'd')
LayerParams.vtSlicing = EgtGetInfo( nPartId, KEY_SLICING_DIR, 'v')
LayerParams.dStrand = EgtGetInfo( nPartId, KEY_STRAND, 'd')
return LayerParams
end
@@ -155,7 +155,11 @@ local function CreateSpiralVaseSolid( nCrvId, nSolidGrp, LayerParams, dStrand)
return nil
end
end
local nSrfId = EgtSurfTmBySewing( nSolidGrp, vSurfs)
if not nSrfId then
nSrfId = EgtSurfTmByTriangles( nSolidGrp, vSurfs)
end
-- creazione del mezzo disco iniziale
local nCap1 = CreateSpiralVaseCap( nSectId, - vtS, nSolidGrp)
@@ -166,7 +170,7 @@ local function CreateSpiralVaseSolid( nCrvId, nSolidGrp, LayerParams, dStrand)
-- cancello le curve usate per la costruzione
EgtErase( nGrpTmp)
return EgtSurfTmBySewing( nSolidGrp, { nSrfId, nCap1, nCap2})
return EgtSurfTmBySewing( nSolidGrp, { nSrfId, nCap1, nCap2}) or EgtSurfTmByTriangles( nSolidGrp, { nSrfId, nCap1, nCap2})
end
----------------------------------------------------------------------
@@ -186,13 +190,43 @@ local function CreateSolid( nCrvId, nSolidGrp, LayerParams, dStrand)
end
end
---------------------------------------------------------------------
local function CreateDirectionArrow( nCrvId, nSolidGrp, vtSlicing, dStrand, nLayer)
local ptS = EgtSP( nCrvId, GDB_RT.GLOB)
local vtS = EgtSV( nCrvId, GDB_RT.GLOB)
local dCrvLen = EgtCurveLength( nCrvId)
if dCrvLen > 2 * dStrand then
local dPar = EgtCurveParamAtLength( nCrvId, 4/5 * dStrand)
ptS = EgtUP( nCrvId, dPar, GDB_RT.GLOB)
vtS = EgtUV( nCrvId, dPar, -1, GDB_RT.GLOB)
end
local vt2 = Vector3d( vtS)
vt2:rotate( vtSlicing, 90)
local dLen = 4/5 * dStrand
local pt1 = ptS + 0.5 * dLen * vt2
local pt2 = ptS - 0.5 * dLen * vt2
local pt3 = ptS + vtS * dLen
local nCompo = EgtCurveCompoFromPoints( nSolidGrp, { pt1, pt2, pt3, pt1}, GDB_RT.GLOB)
EgtMove( nCompo, 100 * GEO.EPS_SMALL * vtSlicing, GDB_RT.GLOB)
local nSrf = EgtSurfFlatRegion( nSolidGrp, { nCompo})
EgtErase( nCompo)
EgtSetColor( nSrf, RED())
EgtSetInfo( nSrf, KEY_SLICE_NBR, nLayer)
EgtSetStatus( nSrf, GDB_ST.OFF)
EgtSetMode( nSrf, GDB_MD.HIDDEN)
EgtSetName( nSrf, DIR_ARROW)
end
---------------------------------------------------------------------
local function CreateSolidFromCurve( nCrvId, nSolidGrp, LayerParams, nLayer)
local nType = EgtGetInfo( nCrvId, KEY_TYPE, 'i')
if nType == TYPE.WIPE then return true end
-- scelta del colore
local Color = EgtStdColor( 'GRAY')
local Color = EgtStdColor( 'GRAY')
if nType == TYPE.OUTER_SHELL or nType == TYPE.EXTRA_OUTER_SHELL then
Color = EgtStdColor( 'TEAL')
elseif nType == TYPE.INNER_SHELL or nType == TYPE.EXTRA_SHELL then
@@ -203,14 +237,13 @@ local function CreateSolidFromCurve( nCrvId, nSolidGrp, LayerParams, nLayer)
Color = EgtStdColor( 'YELLOW')
elseif nType == TYPE.COASTING then
Color = EgtStdColor( 'BLUE')
elseif nType == TYPE.WIPE then
Color = EgtStdColor( 'LIME')
elseif nType == TYPE.RIB then
Color = EgtStdColor( 'OLIVE')
elseif nType == TYPE.AUX_SOLID then
Color = EgtStdColor( 'AQUA')
end
local dStrand = EgtGetInfo( nCrvId, KEY_CRV_STRAND, 'd') or LayerParams.dStrand
local nCopyId = EgtCopyGlob( nCrvId, nSolidGrp)
local nId = GDB_ID.NULL
local nParts = 1
@@ -226,11 +259,17 @@ local function CreateSolidFromCurve( nCrvId, nSolidGrp, LayerParams, nLayer)
nId = EgtSplitCurve( nCopyId, nParts)
end
-- freccia direzionale
local sName = EgtGetName( nCrvId)
if nType ~= TYPE.COASTING and nType ~= TYPE.LINK and sName ~= LEAD_IN_CRV and sName ~= LEAD_OUT_CRV and sName ~= LINK_CRV then
CreateDirectionArrow( nCrvId, nSolidGrp, LayerParams.vtSlicing, dStrand, nLayer)
end
if nId == GDB_ID.NULL then return false end
local bOk = true
for nInd = 0, nParts - 1 do
local nGuideId = nId + nInd
local nSrfId = CreateSolid( nGuideId, nSolidGrp, LayerParams, LayerParams.dStrand - 5 * GEO.EPS_SMALL)
local nSrfId = CreateSolid( nGuideId, nSolidGrp, LayerParams, dStrand - 5 * GEO.EPS_SMALL)
if not nSrfId then
EgtOutLog( 'Warning : CreateSolid failed '.. '(layer '..tostring( nLayer)..', curve '..tostring( nCrvId)..')')
-- se non ultima, provo a spostare l'estremità finale
@@ -241,9 +280,9 @@ local function CreateSolidFromCurve( nCrvId, nSolidGrp, LayerParams, nLayer)
local bOk1 = EgtTrimCurveEndAtLen( nCopyId, LEN_TRIM)
local bOk2 = EgtAddCurveCompoCurve( nGuideId, nCopyId)
local bOk3 = EgtTrimCurveStartAtLen( nGuideId + 1, LEN_TRIM)
nSrfId = CreateSolid( nGuideId, nSolidGrp, LayerParams, LayerParams.dStrand - 5 * GEO.EPS_SMALL)
nSrfId = CreateSolid( nGuideId, nSolidGrp, LayerParams, dStrand - 5 * GEO.EPS_SMALL)
if not nSrfId then
nSrfId = CreateSolid( nGuideId, nSolidGrp, LayerParams, LayerParams.dStrand - 50 * GEO.EPS_SMALL)
nSrfId = CreateSolid( nGuideId, nSolidGrp, LayerParams, dStrand - 50 * GEO.EPS_SMALL)
end
end
end
@@ -258,7 +297,7 @@ local function CreateSolidFromCurve( nCrvId, nSolidGrp, LayerParams, nLayer)
if nFirstCrv and nCrvNbr > 1 then
local nSrfIds = {}
for nInd2 = 0, nCrvNbr-1 do
local nSrfId2 = CreateSolid( nFirstCrv + nInd2, nSolidGrp, LayerParams, LayerParams.dStrand - 50 * GEO.EPS_SMALL)
local nSrfId2 = CreateSolid( nFirstCrv + nInd2, nSolidGrp, LayerParams, dStrand - 50 * GEO.EPS_SMALL)
EgtErase( nFirstCrv + nInd2)
if nSrfId2 then
table.insert( nSrfIds, nSrfId2)
@@ -279,6 +318,7 @@ local function CreateSolidFromCurve( nCrvId, nSolidGrp, LayerParams, nLayer)
if nSrfId then
EgtSetColor( nSrfId, Color)
EgtSetInfo( nSrfId, KEY_TYPE, nType)
EgtSetInfo( nSrfId, KEY_SLICE_NBR, nLayer)
else
bOk = false
EgtOutLog( 'Warning : CreateSolid_Sewing failed')
@@ -305,6 +345,11 @@ function RunCalcSolids.Exec()
if bCalcSolid then
-- recupero il suo frame
local nFrameId = EgtGetFirstNameInGroup( EgtGetFirstNameInGroup( nPartId, 'Frame'), 'FramePart')
local ptOrig = EgtSP( nFrameId or GDB_ID.NULL, GDB_ID.ROOT)
EgtSetInfo( nPartId, KEY_ORIG_REF, ptOrig)
-- recupero i suoi slice
local vLayIds = EgtGetNameInGroup( nPartId, SLICE_LAYER .. '*')
if not vLayIds then
@@ -330,7 +375,7 @@ function RunCalcSolids.Exec()
local nTPathGrpId = EgtGetFirstNameInGroup( nCrvGrpId, TOOLPATH_GRP) or GDB_ID.NULL
if nTPathGrpId == GDB_ID.NULL then
EgtOutBox( 'Error no tool paths', 'SolidCalc')
return
return
end
-- recupero il gruppo dei solidi
@@ -340,7 +385,7 @@ function RunCalcSolids.Exec()
EgtSetName( nSolidGrpId, SOLID_GRP)
EgtSetLevel( nSolidGrpId, GDB_LV.TEMP)
-- scorro le curve del percorso utensile
local nId = EgtGetFirstInGroup( nTPathGrpId)
local nId = EgtGetFirstInGroup( nTPathGrpId)
while nId do
local bOk = CreateSolidFromCurve( nId, nSolidGrpId, LayerParams, nLayer)
nId = EgtGetNext( nId)
@@ -390,9 +435,8 @@ function RunCalcSolids.Exec()
EgtSetInfo( nViewId, SOLID_GRP, true)
end
end
end
nPartIndex = nPartIndex + 1
nPartId = EgtGetFirstNameInGroup( GDB_ID.ROOT, PART .. nPartIndex) or EgtGetNextName( nPartId, PART)
end
LuaLibs/RunMachParamFromSWCalc.lua
+58 -22
View File
@@ -1,4 +1,4 @@
-- RunMachParamFromSWCalc.lua by Egaltech s.r.l. 2022/12/28
-- RunMachParamFromSWCalc.lua by Egaltech s.r.l. 2024/01/30
-- Calcolo dei parametri di stampa
-- Tabella per definizione modulo
@@ -62,7 +62,7 @@ function RunMachParamFromSWCalc.Exec()
while nPartId do
if not EgtGetInfo( nPartId, KEY_PART_ON_TABLE, 'b') then
nPartId = EgtGetNextPart( nPartId)
goto continue
goto continue
end
-- recupero i parametri di lavorazione del pezzo
local dSliceStep = EgtGetInfo( nPartId, KEY_SLICE_STEP, 'd')
@@ -77,6 +77,8 @@ function RunMachParamFromSWCalc.Exec()
while nLayerId do
-- rimuovo eventuale info precedente del tempo di attesa
EgtRemoveInfo( nLayerId, KEY_WAITING_TIME)
-- divido curve in base alla larghezza strand
local LengthCrvList = {}
-- calcolo lunghezza totale del layer
local dTotLayerLength = 0
local dTotLayerLengthForMass = 0
@@ -84,14 +86,29 @@ function RunMachParamFromSWCalc.Exec()
local nCrvId = EgtGetFirstNameInGroup( nLayerId, CONTOUR_GRP .. '*')
while nCrvId do
local nToolPathId = EgtGetFirstNameInGroup( nCrvId, TOOLPATH_GRP)
-- sommo lunghezze percorsi
-- recupero lunghezze percorsi
local dTotCrvLength = 0
local dTotCrvLengthForMass = 0
nShellId = EgtGetFirstInGroup( nToolPathId)
local nShellId = EgtGetFirstInGroup( nToolPathId)
while nShellId do
dTotCrvLength = dTotCrvLength + EgtCurveLength( nShellId)
local dShellWidth = EgtGetInfo( nShellId, KEY_CRV_STRAND, "d")
local dShellLength = EgtCurveLength( nShellId)
local bFound = false
for LengthIndex = 1, #LengthCrvList do
if LengthCrvList[LengthIndex].Width == dShellWidth then
table.insert( LengthCrvList[LengthIndex].IdList, nShellId)
LengthCrvList[LengthIndex].Length = LengthCrvList[LengthIndex].Length + dShellLength
bFound = true
break
end
end
if not bFound then
table.insert( LengthCrvList, { Width = dShellWidth, IdList = { nShellId}, Length = dShellLength})
end
-- sommo per lunghezza totale
dTotCrvLength = dTotCrvLength + dShellLength
if EgtGetName( nShellId) ~= WIPE_CRV then
dTotCrvLengthForMass = dTotCrvLengthForMass + EgtCurveLength( nShellId)
dTotCrvLengthForMass = dTotCrvLengthForMass + dShellLength
end
nShellId = EgtGetNext( nShellId)
end
@@ -132,11 +149,17 @@ function RunMachParamFromSWCalc.Exec()
table.insert( nOrigLayers, nLayerId)
end
EgtSetInfo( nLayerResultId, KEY_SLICEID, nOrigLayers)
-- calcolo strand medio (media ponderata sulla lunghezza)
local dStrandMean = 0
for nMeanIndex = 1, #LengthCrvList do
dStrandMean = dStrandMean + LengthCrvList[nMeanIndex].Width * LengthCrvList[nMeanIndex].Length
end
dStrandMean = dStrandMean / EgtIf( dTotLayerLength > 0.1, dTotLayerLength, 1)
-- calcolo costante MF
local dMF = 1
local dSC = 1
if dTotLayerArea > 1 then
dMF = dTotLayerLength * dStrand / dTotLayerArea * 100
dMF = dTotLayerLength * dStrandMean / dTotLayerArea * 100
dSC = dStrandCount
else
dMF = 100
@@ -151,12 +174,12 @@ function RunMachParamFromSWCalc.Exec()
end
end
-- calcolo tempi stimati del layer
local dTMin = ( MATERIAL.K_LAYERTIME / 100.0) * ( dMF + MATERIAL.AMin) / MATERIAL.BMin * pow( 0.25 * dStrand, MATERIAL.KW) * pow( dSliceStep, MATERIAL.KZ) * pow( dSC, MATERIAL.KN)
local dTTrg = ( MATERIAL.K_LAYERTIME / 100.0) * ( dMF + MATERIAL.ATrg) / MATERIAL.BTrg * pow( 0.25 * dStrand, MATERIAL.KW) * pow( dSliceStep, MATERIAL.KZ) * pow( dSC, MATERIAL.KN)
local dTMax = ( MATERIAL.K_LAYERTIME / 100.0) * ( dMF + MATERIAL.AMax) / MATERIAL.BMax * pow( 0.25 * dStrand, MATERIAL.KW) * pow( dSliceStep, MATERIAL.KZ) * pow( dSC, MATERIAL.KN)
local dFMin = dTotLayerLength / dTMax * 60
local dFTrg = dTotLayerLength / dTTrg * 60
local dFMax = dTotLayerLength / dTMin * 60
local dTMin = ( MATERIAL.K_LAYERTIME / 100.0) * ( dMF + MATERIAL.AMin) / MATERIAL.BMin * pow( 0.25 * dStrandMean, MATERIAL.KW) * pow( dSliceStep, MATERIAL.KZ) * pow( dSC, MATERIAL.KN)
local dTTrg = ( MATERIAL.K_LAYERTIME / 100.0) * ( dMF + MATERIAL.ATrg) / MATERIAL.BTrg * pow( 0.25 * dStrandMean, MATERIAL.KW) * pow( dSliceStep, MATERIAL.KZ) * pow( dSC, MATERIAL.KN)
local dTMax = ( MATERIAL.K_LAYERTIME / 100.0) * ( dMF + MATERIAL.AMax) / MATERIAL.BMax * pow( 0.25 * dStrandMean, MATERIAL.KW) * pow( dSliceStep, MATERIAL.KZ) * pow( dSC, MATERIAL.KN)
local dFMin = dTotLayerLength / EgtIf( dTMax > 0.1, dTMax, 1) * 60
local dFTrg = dTotLayerLength / EgtIf( dTTrg > 0.1, dTTrg, 1) * 60
local dFMax = dTotLayerLength / EgtIf( dTMin > 0.1, dTMin, 1) * 60
local dLayerTime = dTTrg
if dLayerFeed == 0 then
dLayerFeed = dFTrg
@@ -165,7 +188,7 @@ function RunMachParamFromSWCalc.Exec()
end
dLayerWait = floor( dTMin + 0.5) - floor( dLayerTime + 0.5)
-- calcolo la portata
local Vf = dLayerFeed * ( ( dStrand - dSliceStep) * dSliceStep + pi * pow( dSliceStep / 2, 2)) / 1000
local Vf = dLayerFeed * ( ( dStrandMean - dSliceStep) * dSliceStep + pi * pow( dSliceStep / 2, 2)) / 1000
-- calcolo speed
local dSpeed = ( MATERIAL.K_EXTRUSION / 100.0) * ( MACHINING.K / 100.0) * pow( Vf / MATERIAL.C1, 1 / MATERIAL.C2)
-- verifico se speed esce da minimo e massimo della macchina
@@ -179,16 +202,30 @@ function RunMachParamFromSWCalc.Exec()
dSpeed = dSMax
end
if not bSpeedOk then
dLayerFeed = ( MATERIAL.C1 * pow( ( dSpeed / (( MATERIAL.K_EXTRUSION / 100.0) * ( MACHINING.K / 100.0))), MATERIAL.C2)) * 1000 / ( ( dStrand - dSliceStep) * dSliceStep + pi * pow( dSliceStep / 2, 2))
dLayerTime = dTotLayerLength / dLayerFeed * 60
if dTotLayerLength > 0.1 then
dLayerFeed = ( MATERIAL.C1 * pow( ( dSpeed / (( MATERIAL.K_EXTRUSION / 100.0) * ( MACHINING.K / 100.0))), MATERIAL.C2)) * 1000 / ( ( dStrandMean - dSliceStep) * dSliceStep + pi * pow( dSliceStep / 2, 2))
dLayerTime = dTotLayerLength / dLayerFeed * 60
end
dLayerWait = floor( dTMin + 0.5) - floor( dLayerTime + 0.5)
end
-- calcolo massa dello strato
local dLayerMass = dTotLayerLengthForMass * dSliceStep * dStrand * MATERIAL.Density * 1e-6
local dLayerMass = dTotLayerLengthForMass * dSliceStep * dStrandMean * MATERIAL.Density * 1e-6
if dLayerMass and dLayerMass > 0 then
dPrintMass = dPrintMass + dLayerMass
end
-- scrivo info feed e speed in group toolpath
-- scrivo info feed su tutti i tratti
local dFeedMax = 0
for nWidthIndex = 1, #LengthCrvList do
local CurrWidth = LengthCrvList[nWidthIndex]
local CurrFeed = EgtIf( CurrWidth.Width > 0, dLayerFeed * dStrandMean / CurrWidth.Width, dLayerFeed)
for nCurveIdIndex = 1, #CurrWidth.IdList do
EgtSetInfo( CurrWidth.IdList[nCurveIdIndex], KEY_FEED, CurrFeed)
end
if CurrFeed > dFeedMax then
dFeedMax = CurrFeed
end
end
-- scrivo info speed in group toolpath
nCrvId = EgtGetFirstNameInGroup( nLayerId, CONTOUR_GRP .. '*')
while nCrvId do
local nToolPathId = EgtGetFirstNameInGroup( nCrvId, TOOLPATH_GRP) or GDB_ID.NULL
@@ -202,13 +239,11 @@ function RunMachParamFromSWCalc.Exec()
EgtSetInfo( nLayerResultId, KEY_WAITING_TIME, dLayerWait)
end
-- scrivo valori in struttura dati
--local nLayerResultId = EgtGetFirstNameInGroup( nResultLayerId, nLayerIndex)
EgtSetInfo( nLayerResultId, KEY_TMIN, dTMin)
EgtSetInfo( nLayerResultId, KEY_TTRG, dTTrg)
EgtSetInfo( nLayerResultId, KEY_TMAX, dTMax)
EgtSetInfo( nLayerResultId, KEY_FMIN, dFMin)
EgtSetInfo( nLayerResultId, KEY_FTRG, dFTrg)
EgtSetInfo( nLayerResultId, KEY_FMAX, dFMax)
EgtSetInfo( nLayerResultId, KEY_FMAX, dFeedMax)
EgtSetInfo( nLayerResultId, KEY_TCUR, dLayerTime)
EgtSetInfo( nLayerResultId, KEY_FCUR, dLayerFeed)
EgtSetInfo( nLayerResultId, KEY_LENGTH, dTotLayerLength)
@@ -220,11 +255,12 @@ function RunMachParamFromSWCalc.Exec()
EgtEmptyGroup( nResultLayerId)
return
end
-- passo al layer successivo
nLayerIndex = nLayerIndex + 1
nLayerId = EgtGetFirstNameInGroup( nPartId, SLICE_LAYER .. nLayerIndex) or EgtGetFirstNameInGroup( nPartId, "__" .. SLICE_LAYER .. nLayerIndex)
end
if nMaxIndex < nLayerIndex then nMaxIndex = nLayerIndex end
-- passo al pezzo successivo
nPartId = EgtGetNextPart( nPartId)
::continue::
end
LuaLibs/RunPrepareExport.lua
+200
View File
@@ -0,0 +1,200 @@
-- RunPrepareExport.lua by Egaltech s.r.l. 2023/10/19
-- Creo le geometrie da esportare con 3dm
-- Tabella per definizione modulo
local RunPrepareExport = {}
-- Intestazioni
require( 'EgtBase')
EgtOutLog( ' RunPreprareExport started', 1)
-- Dati
local AMD = require( 'AddManData')
------------------------------------------------------------------
local function CalcCurves( nSliceId, nDestGrp, vtSlicing, dStrandBase)
-- scorro tutti i gruppi di curve
local vCrvs = EgtGetNameInGroup( nSliceId, CONTOUR_GRP .. '*')
for j = 1, #vCrvs do
-- cerco il gruppo del toolpath
local nTPath = EgtGetFirstNameInGroup( vCrvs[j], TOOLPATH_GRP)
if nTPath then
local nId = EgtGetFirstInGroup( nTPath)
while nId do
-- se non è wipe creo la fat curve da estrudere per creare il solido
local nType = EgtGetInfo( nId, KEY_TYPE, 'i')
if nType ~= TYPE.WIPE then
local dStrand = EgtGetInfo( nId, KEY_CRV_STRAND, 'd') or dStrandBase
-- calcolo fat curve a partire da una copia della curva ( in questo modo nel DB geometrico non restano
-- salvati i diagrammi di Voronoi che non servono per conti futuri)
local nCopy = EgtCopyGlob( nId, nDestGrp)
local nCrv, nCnt = EgtCurveGetFatCurve( nCopy, nDestGrp, 0.5 * dStrand, false)
-- se fallisce ritento con valore leggermente diverso
if not nCrv or nCnt == 0 then
nCrv, nCnt = EgtCurveGetFatCurve( nCopy, nDestGrp, 0.5 * dStrand - 0.05, false)
end
EgtErase( nCopy)
if nCrv and nCnt > 0 then
-- se sono curve chiuse piccoli aggistamenti per creare un percorso unico
if nCnt > 1 then
for nLoopId = nCrv + 1, nCrv + nCnt - 1 do
EgtInvertCurve( nLoopId)
local dLen = EgtCurveLength( nLoopId)
local dPar1 = EgtCurveParamAtLength( nLoopId, dLen * 0.5)
local dPar2 = EgtCurveParamAtLength( nLoopId, dLen * 0.5 + 2 * GEO.EPS_SMALL)
local ptM = EgtUP( nLoopId, dPar1)
local ptM2 = EgtUP( nLoopId, dPar2)
local _, _, dParRef1 = EgtPointCurveDist( ptM, nCrv)
local _, _, dParRef2 = EgtPointCurveDist( ptM, nCrv)
EgtTrimCurveStartEndAtParam( nCrv, dParRef2, dParRef1)
EgtTrimCurveStartEndAtParam( nLoopId, dPar2, dPar1)
EgtInvertCurve( nLoopId)
EgtAddCurveCompoLine( nCrv, EgtSP( nLoopId))
EgtAddCurveCompoCurve( nCrv, nLoopId)
EgtCloseCurveCompo( nCrv)
end
end
if nType == TYPE.OUTER_SHELL or nType == TYPE.EXTRA_OUTER_SHELL then
EgtSetColor( nCrv, EgtStdColor( 'TEAL'))
elseif nType == TYPE.INNER_SHELL or nType == TYPE.EXTRA_SHELL then
EgtSetColor( nCrv, EgtStdColor( 'ORANGE'))
elseif nType == TYPE.LINK then
EgtSetColor( nCrv, EgtStdColor( 'GRAY'))
elseif nType == TYPE.INFILL then
EgtSetColor( nCrv, EgtStdColor( 'YELLOW'))
elseif nType == TYPE.COASTING then
EgtSetColor( nCrv, EgtStdColor( 'BLUE'))
elseif nType == TYPE.RIB then
EgtSetColor( nCrv, EgtStdColor( 'OLIVE'))
elseif nType == TYPE.AUX_SOLID then
EgtSetColor( nCrv, EgtStdColor( 'AQUA'))
end
end
end
nId = EgtGetNext( nId)
end
end
-- copio le frecce direzione dal gruppo dei solidi
local nSolidGrp = EgtGetFirstNameInGroup( vCrvs[j], SOLID_GRP)
if nSolidGrp then
local nId = EgtGetFirstNameInGroup( nSolidGrp, DIR_ARROW)
while nId do
local nCopy = EgtCopyGlob( nId, nDestGrp)
EgtSetMode( nCopy, GDB_MD.STD)
EgtSetStatus( nCopy, GDB_ST.ON)
nId = EgtGetNextName( nId, DIR_ARROW)
end
end
end
end
------------------------------------------------------------------
local function CalcSpiralVase( nSliceId, nDestGrp)
-- scorro tutti i gruppi di curve
local vCrvs = EgtGetNameInGroup( nSliceId, CONTOUR_GRP .. '*')
for j = 1, #vCrvs do
-- recupero il solido dal gruppo
local nSolidGrp = EgtGetFirstNameInGroup( vCrvs[j], SOLID_GRP)
if nSolidGrp then
local vSolids = EgtGetAllInGroup( nSolidGrp)
for i = 1, #vSolids do
EgtCopyGlob( vSolids[i], nDestGrp)
end
end
end
end
------------------------------------------------------------------
function RunPrepareExport.Exec()
local nPartId = EgtGetFirstNameInGroup( GDB_ID.ROOT, PART .. '*')
if not nPartId then
EgtOutBox( 'Error : no part', 'Export')
return GDB_ID.NULL
end
-- creo o recupero il gruppo per l'esportazione
local nGrp = EgtGetFirstNameInGroup( GDB_ID.ROOT, LAY_EXPORT)
if not nGrp then
-- se non esiste creo il gruppo
nGrp = EgtGroup( GDB_ID.ROOT)
EgtSetName( nGrp, LAY_EXPORT)
EgtSetStatus( nGrp, GDB_ST.OFF)
EgtSetLevel( nGrp, GDB_LV.TEMP)
else
-- se il gruppo esiste già non devo fare nulla
return nGrp
end
-- creo il punto di origine del riferimento
local ptRef = EgtGetInfo( nPartId, KEY_ORIG_REF, 'p')
if not ptRef then
local nFrameId = EgtGetFirstNameInGroup( EgtGetFirstNameInGroup( nPartId, LAY_FRAME), FRAME_PART)
ptRef = EgtSP( nFrameId or GDB_ID.NULL, GDB_ID.ROOT)
end
local nPnt = EgtPoint( nGrp, ptRef, GDB_RT.GLOB)
EgtSetName( nPnt, KEY_ORIG_REF)
EgtSetStatus( nPnt, GDB_ST.OFF)
-- recupero alcune info utili e le assegno al punto per poterle leggere da ThreeJS
local dH = EgtGetInfo( nPartId, KEY_SLICE_STEP, 'd')
EgtSetInfo( nPnt, KEY_SLICE_STEP, dH)
local vtSlicing = EgtGetInfo( nPartId, KEY_SLICING_DIR, 'v')
EgtSetInfo( nPnt, KEY_SLICING_DIR, vtSlicing)
local bSpiralVase = EgtGetInfo( nPartId, KEY_SPIRAL_VASE, 'b') or false
EgtSetInfo( nPnt, KEY_SPIRAL_VASE, bSpiralVase)
-- recupero lo strand dai parametri generale nel caso non fosse definito sulle singole curve
local dStrandBase = EgtGetInfo( nPartId, KEY_STRAND, 'd') or 0
-- recupero gli slices
local vSlices = EgtGetNameInGroup( nPartId, SLICE_LAYER .. '*') or {}
if #vSlices == 0 then
EgtOutBox( 'Error : no slices', 'Export')
return GDB_ID.NULL
end
-- verifico che nel primo slice siano presenti sia i toolpath sia i solidi
local nCrvGrp = EgtGetFirstNameInGroup( vSlices[1], CONTOUR_GRP .. '*')
if not nCrvGrp then
EgtOutBox( 'Error : no toolpaths', 'Export')
return GDB_ID.NULL
end
local nTPath = EgtGetFirstNameInGroup( nCrvGrp, TOOLPATH_GRP)
if not nTPath then
EgtOutBox( 'Error : no toolpaths', 'Export')
return GDB_ID.NULL
end
local nSolid = EgtGetFirstNameInGroup( nCrvGrp, SOLID_GRP)
if not nSolid then
EgtOutBox( 'Error : no solids', 'Export')
return GDB_ID.NULL
end
for i = 1, #vSlices do
-- creo il gruppo corrispondente
local nDestGrp = EgtGroup( nGrp)
EgtSetName( nDestGrp, EgtGetName( vSlices[i]))
EgtSetStatus( nDestGrp, GDB_ST.OFF)
if bSpiralVase then
CalcSpiralVase( vSlices[i], nDestGrp)
else
CalcCurves( vSlices[i], nDestGrp, vtSlicing, dStrandBase)
end
end
return nGrp
end
---------------------------------------------------------------------
return RunPrepareExport
LuaLibs/RunSlicing.lua
+8 -5
View File
@@ -79,6 +79,13 @@ local function RemoveOldSlices( nPartId)
EgtErase( nInfillId)
nInfillId = EgtGetFirstNameInGroup( nPartId, INFILL_GRP .. '*')
end
-- rimuovo gruppo per export
local nExportGrpId = EgtGetFirstNameInGroup( GDB_ID.ROOT, LAY_EXPORT)
if nExportGrpId then
EgtErase( nExportGrpId)
end
end
---------------------------------------------------------------------
@@ -157,10 +164,6 @@ function RunSlicing.Exec()
EgtRemoveAllOperations()
EgtResetCurrMachGroup()
-- Lettura dati macchina
local sMachIni = EgtGetCurrMachineDir() .. '\\' .. EgtGetCurrMachineName() .. '.ini'
local HMax = tonumber( EgtGetStringFromIni( '3dPrinting', 'HMax', 500, sMachIni))
-- Eventuale ripristino posizione originaria
RestoreOriginalPosition( nPartId)
@@ -171,7 +174,7 @@ function RunSlicing.Exec()
RemoveOldTFS()
-- Calcolo delle fette
local bOk = CSLICES.Exec( nPartId, nStmId, HMax)
local bOk = CSLICES.Exec( nPartId, nStmId)
EgtDraw()
-- Calcolo dei percorsi sul centro strand in basso
PrepareExport.lua
+17
View File
@@ -0,0 +1,17 @@
-- PrepareExport.lua by Egaltech s.r.l. 2023/10/19
-- Creo le geometrie da esportare con 3dm
-- Intestazioni
require( 'EgtBase')
_ENV = EgtProtectGlobal()
EgtEnableDebug( false)
-- Imposto direttorio libreria specializzata per Stampa 3d
EgtAddToPackagePath( PRINT.BASEDIR .. '\\LuaLibs\\?.lua')
-- Librerie
_G.package.loaded.RunPrepareExport = nil
local RPE = require( 'RunPrepareExport')
-- Calcolo
PRINT.EXPORTLAYER = RPE.Exec()
Version.lua
+2 -2
View File
@@ -1,4 +1,4 @@
-- Version.lua by Egaltech s.r.l. 2023/02/28
-- Version.lua by Egaltech s.r.l. 2024/02/13
-- Gestione della versione di 3dPrinting
VERSION = '2.5f1'
VERSION = '2.6b1'