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EgtMachKernel/MillingData.cpp
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Dario Sassi bff983e12c EgtMachKernel : 
- prime modifiche per tagli inclinati su esterno archi.
2020-01-20 06:52:47 +00:00

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//----------------------------------------------------------------------------
// EgalTech 2015-2015
//----------------------------------------------------------------------------
// File : MillingData.cpp Data : 05.06.15 Versione : 1.6f1
// Contenuto : Implementazione struttura dati lavorazione di fresatura.
//
//
//
// Modifiche : 05.06.15 DS Creazione modulo.
//
//
//----------------------------------------------------------------------------
//--------------------------- Include ----------------------------------------
#include "stdafx.h"
#include "MillingData.h"
#include "MachiningDataFactory.h"
#include "MachiningConst.h"
#include "/EgtDev/Include/EmkToolConst.h"
#include "/EgtDev/Include/EmkSimuGenConst.h"
#include "/EgtDev/Include/EGnStringUtils.h"
#include <array>
#include <cassert>
using namespace std ;
//----------------------------------------------------------------------------
enum nMillingKey {
KEY_AB = 0,
KEY_AI,
KEY_DH,
KEY_EAL,
KEY_F,
KEY_FE,
KEY_FS,
KEY_FT,
KEY_FU,
KEY_INV,
KEY_LICL,
KEY_LIEL,
KEY_LIPR,
KEY_LITG,
KEY_LITY,
KEY_LOCL,
KEY_LOEL,
KEY_LOPR,
KEY_LOTG,
KEY_LOTY,
KEY_LT,
KEY_NAME,
KEY_NNS,
KEY_NNU,
KEY_OL,
KEY_OR,
KEY_OSEN,
KEY_OSFL,
KEY_OSH,
KEY_OSRL,
KEY_OVL,
KEY_PS,
KEY_S,
KEY_SA,
KEY_SAL,
KEY_SCC,
KEY_ST,
KEY_STY,
KEY_TA,
KEY_TD,
KEY_TH,
KEY_TI,
KEY_TL,
KEY_TNAME,
KEY_TUUID,
KEY_UUID,
KEY_WS,
KEY_ZZZ} ; // rappresenta il numero di elementi
static const array<string,KEY_ZZZ> sMillingKey = {
"AB",
"AI",
"DH",
"EAL",
"F",
"FE",
"FS",
"FT",
"FU",
"INV",
"LICL",
"LIEL",
"LIPR",
"LITG",
"LITY",
"LOCL",
"LOEL",
"LOPR",
"LOTG",
"LOTY",
"LT",
"NAME",
"NNS",
"NNU",
"OL",
"OR",
"OSEN",
"OSFL",
"OSH",
"OSRL",
"OVL",
"PS",
"S",
"SA",
"SAL",
"SCC",
"ST",
"STY",
"TA",
"TD",
"TH",
"TI",
"TL",
"TN",
"TU",
"UUID",
"WS"} ;
//----------------------------------------------------------------------------
MCHDATA_REGISTER( MT_MILLING, "MILLING", MillingData) ;
//----------------------------------------------------------------------------
MillingData*
MillingData::Clone( void) const
{
// alloco oggetto
MillingData* pMdata = new(nothrow) MillingData ;
// copio i dati
if ( pMdata != nullptr) {
if ( ! pMdata->CopyFrom( this)) {
delete pMdata ;
return nullptr ;
}
}
return pMdata ;
}
//----------------------------------------------------------------------------
bool
MillingData::CopyFrom( const MachiningData* pMdata)
{
// è inutile copiare se sorgente coincide con destinazione
if ( pMdata == this)
return true ;
// la sorgente deve essere dello stesso tipo
const MillingData* pSdata = GetMillingData( pMdata) ;
if ( pSdata == nullptr)
return false ;
// eseguo copia
m_Uuid = pSdata->m_Uuid ;
m_sName = pSdata->m_sName ;
m_ToolUuid = pSdata->m_ToolUuid ;
m_sToolName = pSdata->m_sToolName ;
m_sBlockedAxis = pSdata->m_sBlockedAxis ;
m_sInitAngs = pSdata->m_sInitAngs ;
m_nSolCh = pSdata->m_nSolCh ;
m_dSpeed = pSdata->m_dSpeed ;
m_dFeed = pSdata->m_dFeed ;
m_dEndFeed = pSdata->m_dEndFeed ;
m_dStartFeed = pSdata->m_dStartFeed ;
m_dTipFeed = pSdata->m_dTipFeed ;
m_dOffsL = pSdata->m_dOffsL ;
m_dOffsR = pSdata->m_dOffsR ;
m_bToolInvert = pSdata->m_bToolInvert ;
m_nFaceUse = pSdata->m_nFaceUse ;
m_bInvert = pSdata->m_bInvert ;
m_nWorkSide = pSdata->m_nWorkSide ;
m_sDepth = pSdata->m_sDepth ;
m_dStartPos = pSdata->m_dStartPos ;
m_dOverlap = pSdata->m_dOverlap ;
m_dStep = pSdata->m_dStep ;
m_nStepType = pSdata->m_nStepType ;
m_dSideAngle = pSdata->m_dSideAngle ;
m_dStartAddLen = pSdata->m_dStartAddLen ;
m_dEndAddLen = pSdata->m_dEndAddLen ;
m_bLeaveTab = pSdata->m_bLeaveTab ;
m_dTabLen = pSdata->m_dTabLen ;
m_dTabDist = pSdata->m_dTabDist ;
m_dTabHeight = pSdata->m_dTabHeight ;
m_dTabAngle = pSdata->m_dTabAngle ;
m_bOscEnable = pSdata->m_bOscEnable ;
m_dOscHeight = pSdata->m_dOscHeight ;
m_dOscRampLen = pSdata->m_dOscRampLen ;
m_dOscFlatLen = pSdata->m_dOscFlatLen ;
m_nLeadInType = pSdata->m_nLeadInType ;
m_dLiTang = pSdata->m_dLiTang ;
m_dLiPerp = pSdata->m_dLiPerp ;
m_dLiElev = pSdata->m_dLiElev ;
m_dLiCompLen = pSdata->m_dLiCompLen ;
m_nLeadOutType = pSdata->m_nLeadOutType ;
m_dLoTang = pSdata->m_dLoTang ;
m_dLoPerp = pSdata->m_dLoPerp ;
m_dLoElev = pSdata->m_dLoElev ;
m_dLoCompLen = pSdata->m_dLoCompLen ;
m_sSysNotes = pSdata->m_sSysNotes ;
m_sUserNotes = pSdata->m_sUserNotes ;
return true ;
}
//----------------------------------------------------------------------------
bool
MillingData::SameAs( const MachiningData* pMdata) const
{
// se coincide con altro -> uguali
if ( pMdata == this)
return true ;
// se sono di tipo diverso -> diversi
const MillingData* pSdata = GetMillingData( pMdata) ;
if ( pSdata == nullptr)
return false ;
// confronto termine a termine
return ( m_Uuid == pSdata->m_Uuid &&
m_sName == pSdata->m_sName &&
m_ToolUuid == pSdata->m_ToolUuid &&
m_sToolName == pSdata->m_sToolName &&
m_sBlockedAxis == pSdata->m_sBlockedAxis &&
m_sInitAngs == pSdata->m_sInitAngs &&
m_nSolCh == pSdata->m_nSolCh &&
abs( m_dSpeed - pSdata->m_dSpeed) < EPS_MACH_ANG_PAR &&
abs( m_dFeed - pSdata->m_dFeed) < EPS_MACH_LEN_PAR &&
abs( m_dEndFeed - pSdata->m_dEndFeed) < EPS_MACH_LEN_PAR &&
abs( m_dStartFeed - pSdata->m_dStartFeed) < EPS_MACH_LEN_PAR &&
abs( m_dTipFeed - pSdata->m_dTipFeed) < EPS_MACH_LEN_PAR &&
abs( m_dOffsL - pSdata->m_dOffsL) < EPS_MACH_LEN_PAR &&
abs( m_dOffsR - pSdata->m_dOffsR) < EPS_MACH_LEN_PAR &&
m_bToolInvert == pSdata->m_bToolInvert &&
m_nFaceUse == pSdata->m_nFaceUse &&
m_bInvert == pSdata->m_bInvert &&
m_nWorkSide == pSdata->m_nWorkSide &&
m_sDepth == pSdata->m_sDepth &&
abs( m_dStartPos - pSdata->m_dStartPos) < EPS_MACH_LEN_PAR &&
abs( m_dOverlap - pSdata->m_dOverlap) < EPS_MACH_LEN_PAR &&
abs( m_dStep - pSdata->m_dStep) < EPS_MACH_LEN_PAR &&
m_nStepType == pSdata->m_nStepType &&
abs( m_dSideAngle - pSdata->m_dSideAngle) < EPS_MACH_ANG_PAR &&
abs( m_dStartAddLen - pSdata->m_dStartAddLen) < EPS_MACH_LEN_PAR &&
abs( m_dEndAddLen - pSdata->m_dEndAddLen) < EPS_MACH_LEN_PAR &&
m_bLeaveTab == pSdata->m_bLeaveTab &&
abs( m_dTabLen - pSdata->m_dTabLen) < EPS_MACH_LEN_PAR &&
abs( m_dTabDist - pSdata->m_dTabDist) < EPS_MACH_LEN_PAR &&
abs( m_dTabHeight - pSdata->m_dTabHeight) < EPS_MACH_LEN_PAR &&
abs( m_dTabAngle - pSdata->m_dTabAngle) < EPS_MACH_ANG_PAR &&
m_bOscEnable == pSdata->m_bOscEnable &&
abs( m_dOscHeight - pSdata->m_dOscHeight) < EPS_MACH_LEN_PAR &&
abs( m_dOscRampLen - pSdata->m_dOscRampLen) < EPS_MACH_LEN_PAR &&
abs( m_dOscFlatLen - pSdata->m_dOscFlatLen) < EPS_MACH_LEN_PAR &&
m_nLeadInType == pSdata->m_nLeadInType &&
abs( m_dLiTang - pSdata->m_dLiTang) < EPS_MACH_LEN_PAR &&
abs( m_dLiPerp - pSdata->m_dLiPerp) < EPS_MACH_LEN_PAR &&
abs( m_dLiElev - pSdata->m_dLiElev) < EPS_MACH_LEN_PAR &&
abs( m_dLiCompLen - pSdata->m_dLiCompLen) < EPS_MACH_LEN_PAR &&
m_nLeadOutType == pSdata->m_nLeadOutType &&
abs( m_dLoTang - pSdata->m_dLoTang) < EPS_MACH_LEN_PAR &&
abs( m_dLoPerp - pSdata->m_dLoPerp) < EPS_MACH_LEN_PAR &&
abs( m_dLoElev - pSdata->m_dLoElev) < EPS_MACH_LEN_PAR &&
abs( m_dLoCompLen - pSdata->m_dLoCompLen) < EPS_MACH_LEN_PAR &&
m_sSysNotes == pSdata->m_sSysNotes &&
m_sUserNotes == pSdata->m_sUserNotes) ;
}
//----------------------------------------------------------------------------
int
MillingData::GetSize( void) const
{
// in debug verifico validità ultimo campo
assert( sMillingKey[KEY_WS] == "WS") ;
return KEY_ZZZ ;
}
//----------------------------------------------------------------------------
string
MillingData::GetTitle( void) const
{
return MCHDATA_GETNAME( MillingData) ;
}
//----------------------------------------------------------------------------
int
FindMillingKey( const string& sKey)
{
auto TheRange = equal_range( sMillingKey.cbegin(), sMillingKey.cend(), sKey) ;
if ( TheRange.first == TheRange.second)
return - 1 ;
return int( TheRange.first - sMillingKey.cbegin()) ;
}
//----------------------------------------------------------------------------
bool
MillingData::FromString( const string& sString, int& nKey)
{
// separo chiave da valore
string sKey, sVal ;
SplitFirst( sString, "=", sKey, sVal) ;
// riconosco la chiave
nKey = FindMillingKey( ToUpper( sKey)) ;
bool bOk = ( nKey >= 0) ;
switch ( nKey) {
case KEY_AB :
m_sBlockedAxis = sVal ;
break ;
case KEY_AI :
m_sInitAngs = sVal ;
break ;
case KEY_DH :
m_sDepth = sVal ;
if ( m_sDepth.empty())
m_sDepth = "0" ;
break ;
case KEY_EAL :
bOk = ::FromString( sVal, m_dEndAddLen) ;
break ;
case KEY_F :
bOk = ::FromString( sVal, m_dFeed) ;
break ;
case KEY_FE :
bOk = ::FromString( sVal, m_dEndFeed) ;
break ;
case KEY_FS :
bOk = ::FromString( sVal, m_dStartFeed) ;
break ;
case KEY_FT :
bOk = ::FromString( sVal, m_dTipFeed) ;
break ;
case KEY_FU :
bOk = ::FromString( sVal, m_nFaceUse) ;
break ;
case KEY_INV :
bOk = ::FromString( sVal, m_bInvert) ;
break ;
case KEY_LICL :
bOk = ::FromString( sVal, m_dLiCompLen) ;
break ;
case KEY_LIEL :
bOk = ::FromString( sVal, m_dLiElev) ;
break ;
case KEY_LIPR :
bOk = ::FromString( sVal, m_dLiPerp) ;
break ;
case KEY_LITG :
bOk = ::FromString( sVal, m_dLiTang) ;
break ;
case KEY_LITY :
bOk = ::FromString( sVal, m_nLeadInType) ;
break ;
case KEY_LOCL :
bOk = ::FromString( sVal, m_dLoCompLen) ;
break ;
case KEY_LOEL :
bOk = ::FromString( sVal, m_dLoElev) ;
break ;
case KEY_LOPR :
bOk = ::FromString( sVal, m_dLoPerp) ;
break ;
case KEY_LOTG :
bOk = ::FromString( sVal, m_dLoTang) ;
break ;
case KEY_LOTY :
bOk = ::FromString( sVal, m_nLeadOutType) ;
break ;
case KEY_LT :
bOk = ::FromString( sVal, m_bLeaveTab) ;
break ;
case KEY_NAME :
m_sName = sVal ;
bOk = ! m_sName.empty() ;
break ;
case KEY_NNS :
m_sSysNotes = sVal ;
break ;
case KEY_NNU :
m_sUserNotes = sVal ;
break ;
case KEY_OL :
bOk = ::FromString( sVal, m_dOffsL) ;
break ;
case KEY_OR :
bOk = ::FromString( sVal, m_dOffsR) ;
break ;
case KEY_OSEN :
bOk = ::FromString( sVal, m_bOscEnable) ;
break ;
case KEY_OSH :
bOk = ::FromString( sVal, m_dOscHeight) ;
break ;
case KEY_OSRL :
bOk = ::FromString( sVal, m_dOscRampLen) ;
break ;
case KEY_OSFL :
bOk = ::FromString( sVal, m_dOscFlatLen) ;
break ;
case KEY_OVL :
bOk = ::FromString( sVal, m_dOverlap) ;
break ;
case KEY_PS :
bOk = ::FromString( sVal, m_dStartPos) ;
break ;
case KEY_S :
bOk = ::FromString( sVal, m_dSpeed) ;
break ;
case KEY_SA :
bOk = ::FromString( sVal, m_dSideAngle) ;
break ;
case KEY_SAL :
bOk = ::FromString( sVal, m_dStartAddLen) ;
break ;
case KEY_SCC :
bOk = ::FromString( sVal, m_nSolCh) ;
break ;
case KEY_ST :
bOk = ::FromString( sVal, m_dStep) ;
break ;
case KEY_STY :
bOk = ::FromString( sVal, m_nStepType) ;
break ;
case KEY_TA :
bOk = ::FromString( sVal, m_dTabAngle) ;
break ;
case KEY_TD :
bOk = ::FromString( sVal, m_dTabDist) ;
break ;
case KEY_TH :
bOk = ::FromString( sVal, m_dTabHeight) ;
break ;
case KEY_TI :
bOk = ::FromString( sVal, m_bToolInvert) ;
break ;
case KEY_TL :
bOk = ::FromString( sVal, m_dTabLen) ;
break ;
case KEY_TNAME :
m_sToolName = sVal ;
break ;
case KEY_TUUID :
bOk = ::FromString( sVal, m_ToolUuid) ;
break ;
case KEY_UUID :
bOk = ::FromString( sVal, m_Uuid) ;
break ;
case KEY_WS :
bOk = ::FromString( sVal, m_nWorkSide) ;
break ;
default :
bOk = false ;
break ;
}
return bOk ;
}
//----------------------------------------------------------------------------
string
MillingData::ToString( int nInd) const
{
switch ( nInd) {
case KEY_AB : return ( sMillingKey[KEY_AB] + "=" + m_sBlockedAxis) ;
case KEY_AI : return ( sMillingKey[KEY_AI] + "=" + m_sInitAngs) ;
case KEY_DH : return ( sMillingKey[KEY_DH] + "=" + m_sDepth) ;
case KEY_EAL : return ( sMillingKey[KEY_EAL] + "=" + ::ToString( m_dEndAddLen)) ;
case KEY_F : return ( sMillingKey[KEY_F] + "=" + ::ToString( m_dFeed)) ;
case KEY_FE : return ( sMillingKey[KEY_FE] + "=" + ::ToString( m_dEndFeed)) ;
case KEY_FS : return ( sMillingKey[KEY_FS] + "=" + ::ToString( m_dStartFeed)) ;
case KEY_FT : return ( sMillingKey[KEY_FT] + "=" + ::ToString( m_dTipFeed)) ;
case KEY_FU : return ( sMillingKey[KEY_FU] + "=" + ::ToString( m_nFaceUse)) ;
case KEY_INV : return ( sMillingKey[KEY_INV] + "=" + ::ToString( m_bInvert)) ;
case KEY_LICL : return ( sMillingKey[KEY_LICL] + "=" + ::ToString( m_dLiCompLen)) ;
case KEY_LIEL : return ( sMillingKey[KEY_LIEL] + "=" + ::ToString( m_dLiElev)) ;
case KEY_LIPR : return ( sMillingKey[KEY_LIPR] + "=" + ::ToString( m_dLiPerp)) ;
case KEY_LITG : return ( sMillingKey[KEY_LITG] + "=" + ::ToString( m_dLiTang)) ;
case KEY_LITY : return ( sMillingKey[KEY_LITY] + "=" + ::ToString( m_nLeadInType)) ;
case KEY_LOCL : return ( sMillingKey[KEY_LOCL] + "=" + ::ToString( m_dLoCompLen)) ;
case KEY_LOEL : return ( sMillingKey[KEY_LOEL] + "=" + ::ToString( m_dLoElev)) ;
case KEY_LOPR : return ( sMillingKey[KEY_LOPR] + "=" + ::ToString( m_dLoPerp)) ;
case KEY_LOTG : return ( sMillingKey[KEY_LOTG] + "=" + ::ToString( m_dLoTang)) ;
case KEY_LOTY : return ( sMillingKey[KEY_LOTY] + "=" + ::ToString( m_nLeadOutType)) ;
case KEY_LT : return ( sMillingKey[KEY_LT] + "=" + ::ToString( m_bLeaveTab)) ;
case KEY_NAME : return ( sMillingKey[KEY_NAME] + "=" + m_sName) ;
case KEY_NNS : return ( sMillingKey[KEY_NNS] + "=" + m_sSysNotes) ;
case KEY_NNU : return ( sMillingKey[KEY_NNU] + "=" + m_sUserNotes) ;
case KEY_OL : return ( sMillingKey[KEY_OL] + "=" + ::ToString( m_dOffsL)) ;
case KEY_OR : return ( sMillingKey[KEY_OR] + "=" + ::ToString( m_dOffsR)) ;
case KEY_OSEN : return ( sMillingKey[KEY_OSEN] + "=" + ::ToString( m_bOscEnable)) ;
case KEY_OSH : return ( sMillingKey[KEY_OSH] + "=" + ::ToString( m_dOscHeight)) ;
case KEY_OSRL : return ( sMillingKey[KEY_OSRL] + "=" + ::ToString( m_dOscRampLen)) ;
case KEY_OSFL : return ( sMillingKey[KEY_OSFL] + "=" + ::ToString( m_dOscFlatLen)) ;
case KEY_OVL : return ( sMillingKey[KEY_OVL] + "=" + ::ToString( m_dOverlap)) ;
case KEY_PS : return ( sMillingKey[KEY_PS] + "=" + ::ToString( m_dStartPos)) ;
case KEY_S : return ( sMillingKey[KEY_S] + "=" + ::ToString( m_dSpeed)) ;
case KEY_SA : return ( sMillingKey[KEY_SA] + "=" + ::ToString( m_dSideAngle)) ;
case KEY_SAL : return ( sMillingKey[KEY_SAL] + "=" + ::ToString( m_dStartAddLen)) ;
case KEY_SCC : return ( sMillingKey[KEY_SCC] + "=" + ::ToString( m_nSolCh)) ;
case KEY_ST : return ( sMillingKey[KEY_ST] + "=" + ::ToString( m_dStep)) ;
case KEY_STY : return ( sMillingKey[KEY_STY] + "=" + ::ToString( m_nStepType)) ;
case KEY_TA : return ( sMillingKey[KEY_TA] + "=" + ::ToString( m_dTabAngle)) ;
case KEY_TD : return ( sMillingKey[KEY_TD] + "=" + ::ToString( m_dTabDist)) ;
case KEY_TH : return ( sMillingKey[KEY_TH] + "=" + ::ToString( m_dTabHeight)) ;
case KEY_TI : return ( sMillingKey[KEY_TI] + "=" + ::ToString( m_bToolInvert)) ;
case KEY_TL : return ( sMillingKey[KEY_TL] + "=" + ::ToString( m_dTabLen)) ;
case KEY_TNAME : return ( sMillingKey[KEY_TNAME] + "=" + m_sToolName) ;
case KEY_TUUID : return ( sMillingKey[KEY_TUUID] + "=" + ::ToString( m_ToolUuid)) ;
case KEY_UUID : return ( sMillingKey[KEY_UUID] + "=" + ::ToString( m_Uuid)) ;
case KEY_WS : return ( sMillingKey[KEY_WS] + "=" + ::ToString( m_nWorkSide)) ;
default : return "" ;
}
}
//----------------------------------------------------------------------------
bool
MillingData::IsOptional( int nKey) const
{
return ( nKey == KEY_AB || nKey == KEY_AI || nKey == KEY_EAL || nKey == KEY_F ||
nKey == KEY_FE || nKey == KEY_FS || nKey == KEY_FT || nKey == KEY_FU ||
nKey == KEY_NNS || nKey == KEY_NNU || nKey == KEY_OL || nKey == KEY_OR ||
nKey == KEY_OSEN || nKey == KEY_OSH || nKey == KEY_OSRL || nKey == KEY_OSFL ||
nKey == KEY_S || nKey == KEY_SAL || nKey == KEY_SCC || nKey == KEY_TI) ;
}
//----------------------------------------------------------------------------
bool
MillingData::VerifySolCh( int nVal) const
{
return IsValidOperationScc( nVal) ;
}
//----------------------------------------------------------------------------
bool
MillingData::VerifyFaceUse( int nVal) const
{
return ( nVal == MILL_FU_NONE ||
( nVal >= MILL_FU_PARAL_DOWN && nVal <= MILL_FU_PARAL_RIGHT) ||
( nVal >= MILL_FU_ORTHO_DOWN && nVal <= MILL_FU_ORTHO_CONT) ||
( nVal >= MILL_FU_ORTUP_DOWN && nVal <= MILL_FU_ORTUP_CONT)) ;
}
//----------------------------------------------------------------------------
bool
MillingData::VerifyWorkSide( int nVal) const
{
return ( nVal == MILL_WS_CENTER || nVal == MILL_WS_LEFT || nVal == MILL_WS_RIGHT) ;
}
//----------------------------------------------------------------------------
bool
MillingData::VerifyStepType( int nVal) const
{
return ( nVal == MILL_ST_ZIGZAG || nVal == MILL_ST_ONEWAY || nVal == MILL_ST_SPIRAL) ;
}
//----------------------------------------------------------------------------
bool
MillingData::VerifyLeadInType( int nVal) const
{
return ( nVal == MILL_LI_NONE || nVal == MILL_LI_LINEAR ||
nVal == MILL_LI_TANGENT || nVal == MILL_LI_GLIDE ||
nVal == MILL_LI_ZIGZAG || nVal == MILL_LI_HELIX) ;
}
//----------------------------------------------------------------------------
bool
MillingData::VerifyLeadOutType( int nVal) const
{
return ( nVal == MILL_LO_NONE || nVal == MILL_LO_LINEAR ||
nVal == MILL_LO_TANGENT || nVal == MILL_LO_GLIDE ||
nVal == MILL_LO_AS_LI) ;
}
//----------------------------------------------------------------------------
bool
MillingData::VerifySideAngle( double dVal) const
{
return ( ( dVal > - EPS_SMALL && dVal < 90 + EPS_SMALL) || abs( dVal - 99) < EPS_SMALL) ;
}
//----------------------------------------------------------------------------
bool
MillingData::VerifyTool( const ToolsMgr* pToolsMgr, const string& sVal, const ToolData*& pTdata) const
{
if ( pToolsMgr == nullptr)
return false ;
pTdata = pToolsMgr->GetTool( sVal) ;
if ( pTdata == nullptr)
return false ;
if ( ( pTdata->m_nType & TF_MILL) == 0 && ( pTdata->m_nType & TF_SAWBLADE) == 0)
return false ;
return true ;
}
//----------------------------------------------------------------------------
bool
MillingData::GetTool( const ToolsMgr* pToolsMgr, const ToolData*& pTdata) const
{
if ( pToolsMgr == nullptr)
return false ;
pTdata = pToolsMgr->GetTool( m_ToolUuid) ;
return ( pTdata != nullptr) ;
}
//----------------------------------------------------------------------------
bool
MillingData::SetParam( int nType, bool bVal)
{
switch ( nType) {
case MPA_INVERT :
m_bInvert = bVal ;
return true ;
case MPA_LEAVETAB :
m_bLeaveTab = bVal ;
return true ;
case MPA_TOOLINVERT :
m_bToolInvert = bVal ;
return true ;
case MPA_OSCENABLE :
m_bOscEnable = bVal ;
return true ;
}
return false ;
}
//----------------------------------------------------------------------------
bool
MillingData::SetParam( int nType, int nVal)
{
switch ( nType) {
case MPA_WORKSIDE :
if ( ! VerifyWorkSide( nVal))
return false ;
m_nWorkSide = nVal ;
return true ;
case MPA_STEPTYPE :
if ( ! VerifyStepType( nVal))
return false ;
m_nStepType = nVal ;
return true ;
case MPA_LEADINTYPE :
if ( ! VerifyLeadInType( nVal))
return false ;
m_nLeadInType = nVal ;
return true ;
case MPA_LEADOUTTYPE :
if ( ! VerifyLeadOutType( nVal))
return false ;
m_nLeadOutType = nVal ;
return true ;
case MPA_SCC :
if ( ! VerifySolCh( nVal))
return false ;
m_nSolCh = nVal ;
return true ;
case MPA_FACEUSE :
if ( ! VerifyFaceUse( nVal))
return false ;
m_nFaceUse = nVal ;
return true ;
}
return false ;
}
//----------------------------------------------------------------------------
bool
MillingData::SetParam( int nType, double dVal)
{
switch ( nType) {
case MPA_SPEED :
m_dSpeed = dVal ;
return true ;
case MPA_FEED :
m_dFeed = dVal ;
return true ;
case MPA_STARTFEED :
m_dStartFeed = dVal ;
return true ;
case MPA_ENDFEED :
m_dEndFeed = dVal ;
return true ;
case MPA_TIPFEED :
m_dTipFeed = dVal ;
return true ;
case MPA_OFFSL :
m_dOffsL = dVal ;
return true ;
case MPA_OFFSR :
m_dOffsR = dVal ;
return true ;
case MPA_DEPTH :
m_sDepth = ::ToString( dVal) ;
return true ;
case MPA_OVERL :
m_dOverlap = dVal ;
return true ;
case MPA_STARTPOS :
m_dStartPos = dVal ;
return true ;
case MPA_STEP :
m_dStep = dVal ;
return true ;
case MPA_SIDEANGLE :
if ( ! VerifySideAngle( dVal))
return false ;
m_dSideAngle = dVal ;
return true ;
case MPA_STARTADDLEN :
m_dStartAddLen = dVal ;
return true ;
case MPA_ENDADDLEN :
m_dEndAddLen = dVal ;
return true ;
case MPA_TABLEN :
m_dTabLen = dVal ;
return true ;
case MPA_TABDIST :
m_dTabDist = dVal ;
return true ;
case MPA_TABHEIGHT :
m_dTabHeight = dVal ;
return true ;
case MPA_TABANGLE :
m_dTabAngle = dVal ;
return true ;
case MPA_OSCHEIGHT :
m_dOscHeight = dVal ;
return true ;
case MPA_OSCRAMPLEN :
m_dOscRampLen = dVal ;
return true ;
case MPA_OSCFLATLEN :
m_dOscFlatLen = dVal ;
return true ;
case MPA_LITANG :
m_dLiTang = dVal ;
return true ;
case MPA_LIPERP :
m_dLiPerp = dVal ;
return true ;
case MPA_LIELEV :
m_dLiElev = dVal ;
return true ;
case MPA_LICOMPLEN :
m_dLiCompLen = dVal ;
return true ;
case MPA_LOTANG :
m_dLoTang = dVal ;
return true ;
case MPA_LOPERP :
m_dLoPerp = dVal ;
return true ;
case MPA_LOELEV :
m_dLoElev = dVal ;
return true ;
case MPA_LOCOMPLEN :
m_dLoCompLen = dVal ;
return true ;
}
return false ;
}
//----------------------------------------------------------------------------
bool
MillingData::SetParam( int nType, const string& sVal)
{
switch ( nType) {
case MPA_NAME :
m_sName = sVal ;
return true ;
case MPA_TOOL :
m_sToolName = sVal ;
return true ;
case MPA_DEPTH_STR :
m_sDepth = sVal ;
return true ;
case MPA_TUUID :
return ::FromString( sVal, m_ToolUuid) ;
case MPA_UUID :
return ::FromString( sVal, m_Uuid) ;
case MPA_SYSNOTES :
m_sSysNotes = sVal ;
return true ;
case MPA_USERNOTES :
m_sUserNotes = sVal ;
return true ;
case MPA_INITANGS :
m_sInitAngs = sVal ;
return true ;
case MPA_BLOCKEDAXIS :
m_sBlockedAxis = sVal ;
return true ;
}
return false ;
}
//----------------------------------------------------------------------------
bool
MillingData::ResetTool( void)
{
m_sToolName.clear() ;
m_ToolUuid.Clear() ;
return true ;
}
//----------------------------------------------------------------------------
bool
MillingData::GetParam( int nType, bool& bVal) const
{
switch ( nType) {
case MPA_INVERT :
bVal = m_bInvert ;
return true ;
case MPA_LEAVETAB :
bVal = m_bLeaveTab ;
return true ;
case MPA_OSCENABLE :
bVal = m_bOscEnable ;
return true ;
case MPA_TOOLINVERT :
bVal = m_bToolInvert ;
return true ;
}
bVal = false ;
return false ;
}
//----------------------------------------------------------------------------
bool
MillingData::GetParam( int nType, int& nVal) const
{
switch ( nType) {
case MPA_TYPE :
nVal = MT_MILLING ;
return true ;
case MPA_WORKSIDE :
nVal = m_nWorkSide ;
return true ;
case MPA_STEPTYPE :
nVal = m_nStepType ;
return true ;
case MPA_LEADINTYPE :
nVal = m_nLeadInType ;
return true ;
case MPA_LEADOUTTYPE :
nVal = m_nLeadOutType ;
return true ;
case MPA_SCC :
nVal = m_nSolCh ;
return true ;
case MPA_FACEUSE :
nVal = m_nFaceUse ;
return true ;
}
nVal = 0 ;
return false ;
}
//----------------------------------------------------------------------------
bool
MillingData::GetParam( int nType, double& dVal) const
{
switch ( nType) {
case MPA_SPEED :
dVal = m_dSpeed ;
return true ;
case MPA_FEED :
dVal = m_dFeed ;
return true ;
case MPA_STARTFEED :
dVal = m_dStartFeed ;
return true ;
case MPA_ENDFEED :
dVal = m_dEndFeed ;
return true ;
case MPA_TIPFEED :
dVal = m_dTipFeed ;
return true ;
case MPA_OFFSL :
dVal = m_dOffsL ;
return true ;
case MPA_OFFSR :
dVal = m_dOffsR ;
return true ;
case MPA_OVERL :
dVal = m_dOverlap ;
return true ;
case MPA_STARTPOS :
dVal = m_dStartPos ;
return true ;
case MPA_STEP :
dVal = m_dStep ;
return true ;
case MPA_SIDEANGLE :
dVal = m_dSideAngle ;
return true ;
case MPA_STARTADDLEN :
dVal = m_dStartAddLen ;
return true ;
case MPA_ENDADDLEN :
dVal = m_dEndAddLen ;
return true ;
case MPA_TABLEN :
dVal = m_dTabLen ;
return true ;
case MPA_TABDIST :
dVal = m_dTabDist ;
return true ;
case MPA_TABHEIGHT :
dVal = m_dTabHeight ;
return true ;
case MPA_TABANGLE :
dVal = m_dTabAngle ;
return true ;
case MPA_OSCHEIGHT :
dVal = m_dOscHeight ;
return true ;
case MPA_OSCRAMPLEN :
dVal = m_dOscRampLen ;
return true ;
case MPA_OSCFLATLEN :
dVal = m_dOscFlatLen ;
return true ;
case MPA_LITANG :
dVal = m_dLiTang ;
return true ;
case MPA_LIPERP :
dVal = m_dLiPerp ;
return true ;
case MPA_LIELEV :
dVal = m_dLiElev ;
return true ;
case MPA_LICOMPLEN :
dVal = m_dLiCompLen ;
return true ;
case MPA_LOTANG :
dVal = m_dLoTang ;
return true ;
case MPA_LOPERP :
dVal = m_dLoPerp ;
return true ;
case MPA_LOELEV :
dVal = m_dLoElev ;
return true ;
case MPA_LOCOMPLEN :
dVal = m_dLoCompLen ;
return true ;
}
dVal = 0 ;
return false ;
}
//----------------------------------------------------------------------------
bool
MillingData::GetParam( int nType, string& sVal) const
{
switch ( nType) {
case MPA_NAME :
sVal = m_sName ;
return true ;
case MPA_TOOL :
sVal = m_sToolName ;
return true ;
case MPA_DEPTH_STR :
sVal = m_sDepth ;
return true ;
case MPA_TUUID :
sVal = ::ToString( m_ToolUuid) ;
return true ;
case MPA_UUID :
sVal = ::ToString( m_Uuid) ;
return true ;
case MPA_SYSNOTES :
sVal = m_sSysNotes ;
return true ;
case MPA_USERNOTES :
sVal = m_sUserNotes ;
return true ;
case MPA_INITANGS :
sVal = m_sInitAngs ;
return true ;
case MPA_BLOCKEDAXIS :
sVal = m_sBlockedAxis ;
return true ;
}
sVal = "" ;
return false ;
}
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