def get_ssNextSpacing_fields(): Spacing = Field(2061) Spacing.set_representation('Next stage spacing') ssNextSpacing_fields = FieldList() ssNextSpacing_fields.append(Spacing) return ssNextSpacing_fields
def get_osaWellbore_fields(): HoleID = Field(2010) MaxSpan = Field(2061) MudIPDensity = Field(2077) MudOPDensity = Field(2077) HoleID.set_representation('Hole ID') HoleID.set_abbreviation('HoleID') MaxSpan.set_representation('Max span') MaxSpan.set_abbreviation('MaxSpan') MudIPDensity.set_representation('Mud inside pipe') MudIPDensity.set_abbreviation('MudIPDensity') MudOPDensity.set_representation('Mud in annulus') MudOPDensity.set_abbreviation('MudOPDensity') osaWellbore_fields = FieldList() osaWellbore_fields.append(HoleID) osaWellbore_fields.append(MaxSpan) osaWellbore_fields.append(MudIPDensity) osaWellbore_fields.append(MudOPDensity) return osaWellbore_fields
def get_osaOutputdata2_fields(): axialForce = Field(2075, altBg=True, altFg=True) deflection = Field(2076, altBg=True, altFg=True) wClearance = Field(2073, altBg=True, altFg=True) wStandoff = Field(2078, altBg=True, altFg=True) axialForce.set_representation('Axial extra force @ top') axialForce.set_abbreviation('AxialForce') deflection.set_representation('Max. pipe deflection') deflection.set_abbreviation('MaxDeflection') wClearance.set_representation('Mean wellbore clearance') wClearance.set_abbreviation('WellboreClearance') wStandoff.set_representation('Mean wellbore standoff') wStandoff.set_abbreviation('WellboreStandoff') osaOutputdata2_fields = FieldList() osaOutputdata2_fields.append(axialForce) osaOutputdata2_fields.append(deflection) osaOutputdata2_fields.append(wClearance) osaOutputdata2_fields.append(wStandoff) return osaOutputdata2_fields
def get_csvCal_fields(): MDtop = Field(2001) MDbot = Field(2001) HID = Field(2031) MD = Field(2001) MDtop.set_abbreviation('MDtop') MDbot.set_abbreviation('MDbot') HID.set_abbreviation('HID') MDtop.set_representation('top MD') MDbot.set_representation('bottom MD') HID.set_representation('Hole ID') csvCal_fields = FieldList() csvCal_fields.append(MDtop) csvCal_fields.append(MDbot) csvCal_fields.append(HID) csvCal_fields.append(MD) return csvCal_fields
def get_osaCent_fields(): Type = Field(2049) IPOD = Field(2009) CentOD = Field(2011) #CentID = Field(2012) ResF_SO67 = Field(2018) minResF = Field(2017) SO_minResF = Field(2019) ResF_SO67.set_representation('Res. Force @ SO=67%') minResF.set_representation('minimum Res. Force') SO_minResF.set_representation('StandOff @ min. Res. F.') osaCent_fields = FieldList() osaCent_fields.append(Type) osaCent_fields.append(IPOD) osaCent_fields.append(CentOD) #osaCent_fields.append( CentID ) osaCent_fields.append(ResF_SO67) osaCent_fields.append(minResF) osaCent_fields.append(SO_minResF) return osaCent_fields
def get_osaOutputdata1_fields(): clearanceA = Field(2073, altBg=True, altFg=True) clearanceB = Field(2073, altBg=True, altFg=True) clearanceM = Field(2073, altBg=True, altFg=True) sideForceA = Field(2074, altBg=True, altFg=True) sideForceB = Field(2074, altBg=True, altFg=True) sideForceM = Field(2074, altBg=True, altFg=True) standoffA = Field(2078, altBg=True, altFg=True) standoffB = Field(2078, altBg=True, altFg=True) standoffM = Field(2078, altBg=True, altFg=True) clearanceA.set_representation('Annular clearance @ cent. A') clearanceA.set_abbreviation('ClearanceA') clearanceB.set_representation('Annular clearance @ cent. B') clearanceB.set_abbreviation('ClearanceB') clearanceM.set_representation('Annular clearance @ mid span') clearanceM.set_abbreviation('ClearanceM') sideForceA.set_representation('Side force @ cent. A') sideForceA.set_abbreviation('SideForceA') sideForceB.set_representation('Side force @ cent. B') sideForceB.set_abbreviation('SideForceB') sideForceM.set_representation('Side force @ mid span') sideForceM.set_abbreviation('SideForceM') standoffA.set_representation('Standoff @ cent. A') standoffA.set_abbreviation('StandoffA') standoffB.set_representation('Standoff @ cent. B') standoffB.set_abbreviation('StandoffB') standoffM.set_representation('Standoff @ mid span') standoffM.set_abbreviation('StandoffM') osaOutputdata1_fields = FieldList() osaOutputdata1_fields.append(clearanceA) osaOutputdata1_fields.append(clearanceB) osaOutputdata1_fields.append(clearanceM) osaOutputdata1_fields.append(sideForceA) osaOutputdata1_fields.append(sideForceB) osaOutputdata1_fields.append(sideForceM) osaOutputdata1_fields.append(standoffA) osaOutputdata1_fields.append(standoffB) osaOutputdata1_fields.append(standoffM) return osaOutputdata1_fields
def get_ssCentralizerLocations_fields(): MD = Field(2001) Inc = Field(2002, altBg=True, altFg=True) SOatC = Field(2078, altBg=True, altFg=True) SOatM = Field(2078, altBg=True, altFg=True) ClatC = Field(2073, altBg=True, altFg=True) ClatM = Field(2073, altBg=True, altFg=True) """ hsMD = Field(2001) hsInc = Field(2002, altBg=True, altFg=True) hsSOatC = Field(2078, altBg=True, altFg=True) hsSOatM = Field(2078, altBg=True, altFg=True) hsClatC = Field(2073, altBg=True, altFg=True) hsClatM = Field(2073, altBg=True, altFg=True) dsMD = Field(2001) dsInc = Field(2002, altBg=True, altFg=True) dsSOatC = Field(2078, altBg=True, altFg=True) dsSOatM = Field(2078, altBg=True, altFg=True) dsClatC = Field(2073, altBg=True, altFg=True) dsClatM = Field(2073, altBg=True, altFg=True) """ EW = Field(2007, altBg=True, altFg=True) NS = Field(2006, altBg=True, altFg=True) TVD = Field(2004, altBg=True, altFg=True) DL = Field(2008, altBg=True, altFg=True) LatC = Field(2080, altBg=True, altFg=True) ID = Field(2031, altBg=True, altFg=True) SOatC.set_abbreviation('SOatC') SOatM.set_abbreviation('SOatM') ClatC.set_abbreviation('ClatC') ClatM.set_abbreviation('ClatM') LatC.set_abbreviation('LatC') """ hsMD.set_abbreviation('hsMD') hsInc.set_abbreviation('hsInc') hsSOatC.set_abbreviation('hsSOatC') hsSOatM.set_abbreviation('hsSOatM') hsClatC.set_abbreviation('hsClatC') hsClatM.set_abbreviation('hsClatM') dsMD.set_abbreviation('dsMD') dsInc.set_abbreviation('dsInc') dsSOatC.set_abbreviation('dsSOatC') dsSOatM.set_abbreviation('dsSOatM') dsClatC.set_abbreviation('dsClatC') dsClatM.set_abbreviation('dsClatM') """ SOatC.set_representation('<SO> @ centr.') SOatM.set_representation('SO @ mid span') ClatC.set_representation('<Cl> @ centr.') ClatM.set_representation('Cl @ mid span') ID.set_representation('Hole ID') ssCentralizerLocations_fields = FieldList() ssCentralizerLocations_fields.append(MD) ssCentralizerLocations_fields.append(Inc) ssCentralizerLocations_fields.append(SOatC) ssCentralizerLocations_fields.append(SOatM) ssCentralizerLocations_fields.append(ClatC) ssCentralizerLocations_fields.append(ClatM) """ ssCentralizerLocations_fields.append( hsMD ) ssCentralizerLocations_fields.append( hsInc ) ssCentralizerLocations_fields.append( hsSOatC ) ssCentralizerLocations_fields.append( hsSOatM ) ssCentralizerLocations_fields.append( hsClatC ) ssCentralizerLocations_fields.append( hsClatM ) ssCentralizerLocations_fields.append( dsMD ) ssCentralizerLocations_fields.append( dsInc ) ssCentralizerLocations_fields.append( dsSOatC ) ssCentralizerLocations_fields.append( dsSOatM ) ssCentralizerLocations_fields.append( dsClatC ) ssCentralizerLocations_fields.append( dsClatM ) """ ssCentralizerLocations_fields.append(EW) ssCentralizerLocations_fields.append(NS) ssCentralizerLocations_fields.append(TVD) ssCentralizerLocations_fields.append(DL) ssCentralizerLocations_fields.append(LatC) ssCentralizerLocations_fields.append(ID) return ssCentralizerLocations_fields