Files
EgtMachKernel/SawingData.cpp
T
Dario Sassi 2c89d112fa EgtMachKernel 1.6j3 :
- aggiunta gestione DB utensili
- migliorata simulazione
- aggiunta impostazione macchina corrente anche senza macchinata.
2015-10-27 10:12:13 +00:00

248 lines
7.5 KiB
C++

//----------------------------------------------------------------------------
// EgalTech 2015-2015
//----------------------------------------------------------------------------
// File : SawingData.cpp Data : 05.06.15 Versione : 1.6f1
// Contenuto : Implementazione struttura dati lavorazione di taglio di lama.
//
//
//
// Modifiche : 05.06.15 DS Creazione modulo.
//
//
//----------------------------------------------------------------------------
//--------------------------- Include ----------------------------------------
#include "stdafx.h"
#include "SawingData.h"
#include "MachiningDataFactory.h"
#include "/EgtDev/Include/EMkMachiningConst.h"
#include "/EgtDev/Include/EmkToolConst.h"
#include "/EgtDev/Include/EGkGeoConst.h"
#include "/EgtDev/Include/EGnStringUtils.h"
#include <array>
#include <cassert>
using namespace std ;
//----------------------------------------------------------------------------
enum nSawingKey {
KEY_APPR = 0,
KEY_CRV,
KEY_DH,
KEY_HS,
KEY_INV,
KEY_LETY,
KEY_LITY,
KEY_LOTY,
KEY_NAME,
KEY_SA,
KEY_TAF,
KEY_TNAME,
KEY_TUUID,
KEY_UUID,
KEY_WS,
KEY_ZZZ} ; // rappresenta il numero di elementi
static const std::array<std::string,KEY_ZZZ> sSawingKey = {
"APPR",
"CRV",
"DH",
"HS",
"INV",
"LETY",
"LITY",
"LOTY",
"NAME",
"SA",
"TAF",
"TN",
"TU",
"UUID",
"WS"} ;
//----------------------------------------------------------------------------
MCHDATA_REGISTER( "SAWING", SawingData) ;
//----------------------------------------------------------------------------
int
SawingData::GetSize( void) const
{
// in debug verifico validità ultimo campo
assert( sSawingKey[KEY_WS] == "WS") ;
return KEY_ZZZ ;
}
//----------------------------------------------------------------------------
string
SawingData::GetTitle( void) const
{
return MCHDATA_GETNAME( SawingData) ;
}
//----------------------------------------------------------------------------
int
FindSawingKey( const string& sKey)
{
auto TheRange = equal_range( sSawingKey.cbegin(), sSawingKey.cend(), sKey) ;
if ( TheRange.first == TheRange.second)
return - 1 ;
return int( TheRange.first - sSawingKey.cbegin()) ;
}
//----------------------------------------------------------------------------
bool
SawingData::FromString( const string& sString, int& nKey)
{
// separo chiave da valore
string sKey, sVal ;
SplitFirst( sString, "=", sKey, sVal) ;
// riconosco la chiave
nKey = FindSawingKey( ToUpper( sKey)) ;
bool bOk = ( nKey >= 0) ;
switch ( nKey) {
case KEY_APPR :
bOk = ::FromString( sVal, m_dApprox) ;
break ;
case KEY_CRV :
bOk = ::FromString( sVal, m_nCurveUse) ;
break ;
case KEY_DH :
m_sDepth = sVal ;
bOk = ! m_sDepth.empty() ;
break ;
case KEY_HS :
bOk = ::FromString( sVal, m_nHeadSide) ;
break ;
case KEY_INV :
bOk = ::FromString( sVal, m_bInvert) ;
break ;
case KEY_LETY :
bOk = ::FromString( sVal, m_nExtLinkType) ;
break ;
case KEY_LITY :
bOk = ::FromString( sVal, m_nLeadInType) ;
break ;
case KEY_LOTY :
bOk = ::FromString( sVal, m_nLeadOutType) ;
break ;
case KEY_NAME :
m_sName = sVal ;
bOk = ! m_sName.empty() ;
break ;
case KEY_SA :
bOk = ::FromString( sVal, m_dSideAngle) ;
break ;
case KEY_TAF :
bOk = ::FromString( sVal, m_bToAndFrom) ;
break ;
case KEY_TNAME :
m_sToolName = sVal ;
bOk = ! m_sToolName.empty() ;
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
SawingData::ToString( int nInd) const
{
switch ( nInd) {
case KEY_APPR : return ( sSawingKey[KEY_APPR] + "=" + ::ToString( m_dApprox)) ;
case KEY_CRV : return ( sSawingKey[KEY_CRV] + "=" + ::ToString( m_nCurveUse)) ;
case KEY_DH : return ( sSawingKey[KEY_DH] + "=" + m_sDepth) ;
case KEY_HS : return ( sSawingKey[KEY_HS] + "=" + ::ToString( m_nHeadSide)) ;
case KEY_INV : return ( sSawingKey[KEY_INV] + "=" + ::ToString( m_bInvert)) ;
case KEY_LETY : return ( sSawingKey[KEY_LETY] + "=" + ::ToString( m_nExtLinkType)) ;
case KEY_LITY : return ( sSawingKey[KEY_LITY] + "=" + ::ToString( m_nLeadInType)) ;
case KEY_LOTY : return ( sSawingKey[KEY_LOTY] + "=" + ::ToString( m_nLeadOutType)) ;
case KEY_NAME : return ( sSawingKey[KEY_NAME] + "=" + m_sName) ;
case KEY_SA : return ( sSawingKey[KEY_SA] + "=" + ::ToString( m_dSideAngle)) ;
case KEY_TAF : return ( sSawingKey[KEY_TAF] + "=" + ::ToString( m_bToAndFrom)) ;
case KEY_TNAME : return ( sSawingKey[KEY_TNAME] + "=" + m_sToolName) ;
case KEY_TUUID : return ( sSawingKey[KEY_TUUID] + "=" + ::ToString( m_ToolUuid)) ;
case KEY_UUID : return ( sSawingKey[KEY_UUID] + "=" + ::ToString( m_Uuid)) ;
case KEY_WS : return ( sSawingKey[KEY_WS] + "=" + ::ToString( m_nWorkSide)) ;
default : return "" ;
}
}
//----------------------------------------------------------------------------
bool
SawingData::VerifyWorkSide( int nVal) const
{
return ( nVal == SAW_WS_CENTER || nVal == SAW_WS_LEFT || nVal == SAW_WS_RIGHT) ;
}
//----------------------------------------------------------------------------
bool
SawingData::VerifyHeadSide( int nVal) const
{
return ( nVal == SAW_HS_LEFT || nVal == SAW_HS_RIGHT) ;
}
//----------------------------------------------------------------------------
bool
SawingData::VerifyLeadInType( int nVal) const
{
return ( nVal == SAW_LI_STRICT || nVal == SAW_LI_CENT || nVal == SAW_LI_OUT ||
nVal == SAW_LI_EXT_CENT || nVal == SAW_LI_EXT_OUT) ;
}
//----------------------------------------------------------------------------
bool
SawingData::VerifyExtLinkType( int nVal) const
{
return ( nVal == SAW_EL_CENT || nVal == SAW_EL_EXT_PREV || nVal == SAW_EL_EXT_NEXT ||
nVal == SAW_EL_EXT_BOTH) ;
}
//----------------------------------------------------------------------------
bool
SawingData::VerifyLeadOutType( int nVal) const
{
return ( nVal == SAW_LO_STRICT || nVal == SAW_LO_CENT || nVal == SAW_LO_EXT) ;
}
//----------------------------------------------------------------------------
bool
SawingData::VerifyCurveUse( int nVal) const
{
return ( nVal == SAW_CRV_SKIP || nVal == SAW_CRV_APPROX || nVal == SAW_CRV_CONVEX) ;
}
//----------------------------------------------------------------------------
bool
SawingData::VerifySideAngle( double dVal) const
{
return ( ( dVal > - EPS_SMALL && dVal < 60 + EPS_SMALL) || fabs( dVal - 99) < EPS_SMALL) ;
}
//----------------------------------------------------------------------------
bool
SawingData::VerifyTool( MachMgr* pMachMgr, const std::string& sVal, const ToolData*& pTdata) const
{
if ( pMachMgr == nullptr)
return false ;
ToolsMgr* pTMgr = pMachMgr->GetCurrToolsMgr() ;
if ( pTMgr == nullptr)
return false ;
pTdata = pTMgr->GetTool( sVal) ;
if ( pTdata == nullptr)
return false ;
if ( ( pTdata->m_nType & TF_SAWBLADE) == 0)
return false ;
return true ;
}