public class MRPMaterial extends VdmEntity<MRPMaterial>
Original entity name from the Odata EDM: A_MRPMaterialType
Modifier and Type | Class and Description |
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static class |
MRPMaterial.MRPMaterialBuilder |
Modifier and Type | Field and Description |
---|---|
static MRPMaterialSelectable |
ALL_FIELDS
Selector for all available fields of MRPMaterial.
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static MRPMaterialField<BigDecimal> |
ASSEMBLY_SCRAP_PERCENT
Use with available fluent helpers to apply the AssemblyScrapPercent field to query operations.
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static MRPMaterialField<String> |
AUTHORIZATION_GROUP
Use with available fluent helpers to apply the AuthorizationGroup field to query operations.
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static MRPMaterialField<String> |
BASE_UNIT
Use with available fluent helpers to apply the BaseUnit field to query operations.
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static MRPMaterialField<String> |
CONFIGURABLE_PRODUCT
Use with available fluent helpers to apply the ConfigurableProduct field to query operations.
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static MRPMaterialField<String> |
CONFIGURABLE_PRODUCT_NAME
Use with available fluent helpers to apply the ConfigurableProductName field to query operations.
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static MRPMaterialField<String> |
CROSS_PLANT_STATUS
Use with available fluent helpers to apply the CrossPlantStatus field to query operations.
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static MRPMaterialField<String> |
CROSS_PLANT_STATUS_NAME
Use with available fluent helpers to apply the CrossPlantStatusName field to query operations.
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static MRPMaterialField<String> |
DEPENDENT_REQUIREMENTS_TYPE
Use with available fluent helpers to apply the DependentRequirementsType field to query operations.
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static MRPMaterialField<String> |
DEPENDENT_REQUIREMENTS_TYPE_NAME
Use with available fluent helpers to apply the DependentRequirementsTypeName field to query operations.
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static MRPMaterialField<String> |
DFLT_STORAGE_LOCATION_EXT_PROCMT
Use with available fluent helpers to apply the DfltStorageLocationExtProcmt field to query operations.
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static MRPMaterialField<LocalDateTime> |
EFFECTIVE_OUT_DATE
Use with available fluent helpers to apply the EffectiveOutDate field to query operations.
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static MRPMaterialField<BigDecimal> |
FIXED_LOT_SIZE_QUANTITY
Use with available fluent helpers to apply the FixedLotSizeQuantity field to query operations.
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static MRPMaterialField<BigDecimal> |
GOODS_RECEIPT_DURATION
Use with available fluent helpers to apply the GoodsReceiptDuration field to query operations.
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static MRPMaterialField<String> |
IS_SAFETY_TIME
Use with available fluent helpers to apply the IsSafetyTime field to query operations.
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static MRPMaterialField<BigDecimal> |
LOT_SIZE_INDEPENDENT_COSTS
Use with available fluent helpers to apply the LotSizeIndependentCosts field to query operations.
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static MRPMaterialField<String> |
LOT_SIZING_PROCEDURE
Use with available fluent helpers to apply the LotSizingProcedure field to query operations.
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static MRPMaterialField<String> |
LOW_LEVEL_CODE
Use with available fluent helpers to apply the LowLevelCode field to query operations.
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static MRPMaterialField<String> |
MATERIAL
Use with available fluent helpers to apply the Material field to query operations.
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static MRPMaterialField<String> |
MATERIAL_ABC_CLASSIFICATION
Use with available fluent helpers to apply the MaterialABCClassification field to query operations.
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static MRPMaterialField<String> |
MATERIAL_ABC_CLASSIFICATION_DESC
Use with available fluent helpers to apply the MaterialABCClassificationDesc field to query operations.
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static MRPMaterialField<BigDecimal> |
MATERIAL_BASE_QUANTITY
Use with available fluent helpers to apply the MaterialBaseQuantity field to query operations.
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static MRPMaterialField<String> |
MATERIAL_GROUP
Use with available fluent helpers to apply the MaterialGroup field to query operations.
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static MRPMaterialField<String> |
MATERIAL_GROUP_NAME
Use with available fluent helpers to apply the MaterialGroupName field to query operations.
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static MRPMaterialField<Boolean> |
MATERIAL_IS_CONFIGURABLE
Use with available fluent helpers to apply the MaterialIsConfigurable field to query operations.
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static MRPMaterialField<Boolean> |
MATERIAL_IS_MARKED_FOR_DELETION
Use with available fluent helpers to apply the MaterialIsMarkedForDeletion field to query operations.
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static MRPMaterialField<String> |
MATERIAL_LOT_SIZING_PROCEDURE_NAME
Use with available fluent helpers to apply the MaterialLotSizingProcedureName field to query operations.
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static MRPMaterialField<BigDecimal> |
MATERIAL_MAX_STOCK_LEVEL_QUANTITY
Use with available fluent helpers to apply the MaterialMaxStockLevelQuantity field to query operations.
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static MRPMaterialField<String> |
MATERIAL_NAME
Use with available fluent helpers to apply the MaterialName field to query operations.
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static MRPMaterialField<BigDecimal> |
MATERIAL_PLANNED_DELIVERY_DURN
Use with available fluent helpers to apply the MaterialPlannedDeliveryDurn field to query operations.
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static MRPMaterialField<BigDecimal> |
MATERIAL_PLANNED_PRODUCTION_DURN
Use with available fluent helpers to apply the MaterialPlannedProductionDurn field to query operations.
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static MRPMaterialField<String> |
MATERIAL_PROCUREMENT_CAT_NAME
Use with available fluent helpers to apply the MaterialProcurementCatName field to query operations.
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static MRPMaterialField<String> |
MATERIAL_PROCUREMENT_CATEGORY
Use with available fluent helpers to apply the MaterialProcurementCategory field to query operations.
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static MRPMaterialField<String> |
MATERIAL_PROCUREMENT_PROFILE
Use with available fluent helpers to apply the MaterialProcurementProfile field to query operations.
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static MRPMaterialField<String> |
MATERIAL_PROCUREMENT_PROFILE_NAME
Use with available fluent helpers to apply the MaterialProcurementProfileName field to query operations.
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static MRPMaterialField<String> |
MATERIAL_TYPE
Use with available fluent helpers to apply the MaterialType field to query operations.
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static MRPMaterialField<String> |
MATERIAL_TYPE_NAME
Use with available fluent helpers to apply the MaterialTypeName field to query operations.
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static MRPMaterialField<String> |
MATERIAL_USABILITY_PROFILE
Use with available fluent helpers to apply the MaterialUsabilityProfile field to query operations.
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static MRPMaterialField<String> |
MATERIAL_USABILITY_PROFILE_NAME
Use with available fluent helpers to apply the MaterialUsabilityProfileName field to query operations.
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static MRPMaterialField<String> |
MATL_COMP_DISCONTINUATION_TYPE
Use with available fluent helpers to apply the MatlCompDiscontinuationType field to query operations.
|
static MRPMaterialField<String> |
MATL_COMP_DSCONTN_TYPE_NAME
Use with available fluent helpers to apply the MatlCompDscontnTypeName field to query operations.
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static MRPMaterialField<BigDecimal> |
MAXIMUM_LOT_SIZE_QUANTITY
Use with available fluent helpers to apply the MaximumLotSizeQuantity field to query operations.
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static MRPMaterialField<BigDecimal> |
MINIMUM_LOT_SIZE_QUANTITY
Use with available fluent helpers to apply the MinimumLotSizeQuantity field to query operations.
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static MRPMaterialField<String> |
MRP_AREA
Use with available fluent helpers to apply the MRPArea field to query operations.
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static MRPMaterialField<String> |
MRP_AREA_CATEGORY
Use with available fluent helpers to apply the MRPAreaCategory field to query operations.
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static MRPMaterialField<String> |
MRP_AREA_CATEGORY_NAME
Use with available fluent helpers to apply the MRPAreaCategoryName field to query operations.
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static MRPMaterialField<String> |
MRP_AREA_TEXT
Use with available fluent helpers to apply the MRPAreaText field to query operations.
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static MRPMaterialField<String> |
MRP_CONTROLLER
Use with available fluent helpers to apply the MRPController field to query operations.
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static MRPMaterialField<String> |
MRP_CONTROLLER_NAME
Use with available fluent helpers to apply the MRPControllerName field to query operations.
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static MRPMaterialField<String> |
MRP_GROUP
Use with available fluent helpers to apply the MRPGroup field to query operations.
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static MRPMaterialField<String> |
MRP_GROUP_NAME
Use with available fluent helpers to apply the MRPGroupName field to query operations.
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static MRPMaterialField<String> |
MRP_PLANNING_CALENDAR
Use with available fluent helpers to apply the MRPPlanningCalendar field to query operations.
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static MRPMaterialField<String> |
MRP_PLANT
Use with available fluent helpers to apply the MRPPlant field to query operations.
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static MRPMaterialField<String> |
MRP_SAFETY_DURATION
Use with available fluent helpers to apply the MRPSafetyDuration field to query operations.
|
static MRPMaterialField<String> |
MRP_TYPE
Use with available fluent helpers to apply the MRPType field to query operations.
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static MRPMaterialField<String> |
MRP_TYPE_NAME
Use with available fluent helpers to apply the MRPTypeName field to query operations.
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static MRPMaterialField<String> |
PERD_PRFL_FOR_SFTY_TME
Use with available fluent helpers to apply the PerdPrflForSftyTme field to query operations.
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static MRPMaterialField<String> |
PLANNING_STRATEGY_GROUP
Use with available fluent helpers to apply the PlanningStrategyGroup field to query operations.
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static MRPMaterialField<String> |
PLANNING_TIME_FENCE_IN_DAYS
Use with available fluent helpers to apply the PlanningTimeFenceInDays field to query operations.
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static MRPMaterialField<String> |
PLANT_NAME
Use with available fluent helpers to apply the PlantName field to query operations.
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static MRPMaterialField<Boolean> |
PLNT_MATL_IS_MARKED_FOR_DELETION
Use with available fluent helpers to apply the PlntMatlIsMarkedForDeletion field to query operations.
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static MRPMaterialField<BigDecimal> |
PROCESSING_TIME
Use with available fluent helpers to apply the ProcessingTime field to query operations.
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static MRPMaterialField<String> |
PRODUCTION_INVTRY_MANAGED_LOC
Use with available fluent helpers to apply the ProductionInvtryManagedLoc field to query operations.
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static MRPMaterialField<String> |
PRODUCTION_SUPERVISOR
Use with available fluent helpers to apply the ProductionSupervisor field to query operations.
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static MRPMaterialField<String> |
PRODUCTION_SUPERVISOR_NAME
Use with available fluent helpers to apply the ProductionSupervisorName field to query operations.
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static MRPMaterialField<BigDecimal> |
PUR_ORDER_QTY_ROUNDING_QTY
Use with available fluent helpers to apply the PurOrderQtyRoundingQty field to query operations.
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static MRPMaterialField<String> |
PURCHASING_GROUP
Use with available fluent helpers to apply the PurchasingGroup field to query operations.
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static MRPMaterialField<String> |
PURCHASING_GROUP_NAME
Use with available fluent helpers to apply the PurchasingGroupName field to query operations.
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static MRPMaterialField<String> |
RANGE_OF_CVRG_PRFL_CODE
Use with available fluent helpers to apply the RangeOfCvrgPrflCode field to query operations.
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static MRPMaterialField<BigDecimal> |
REORDER_THRESHOLD_QUANTITY
Use with available fluent helpers to apply the ReorderThresholdQuantity field to query operations.
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static MRPMaterialField<Boolean> |
REPETITIVE_MANUFACTURING_IS_ALLWD
Use with available fluent helpers to apply the RepetitiveManufacturingIsAllwd field to query operations.
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static MRPMaterialField<String> |
REPETITIVE_MANUFACTURING_PROFILE
Use with available fluent helpers to apply the RepetitiveManufacturingProfile field to query operations.
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static MRPMaterialField<String> |
ROUNDING_PROFILE
Use with available fluent helpers to apply the RoundingProfile field to query operations.
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static MRPMaterialField<BigDecimal> |
SAFETY_STOCK_QUANTITY
Use with available fluent helpers to apply the SafetyStockQuantity field to query operations.
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static MRPMaterialField<String> |
SCHEDULING_FLOAT_PROFILE
Use with available fluent helpers to apply the SchedulingFloatProfile field to query operations.
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static MRPMaterialField<BigDecimal> |
SETUP_AND_TEARDOWN_TIME
Use with available fluent helpers to apply the SetupAndTeardownTime field to query operations.
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static MRPMaterialField<String> |
STORAGE_COSTS_PERCENTAGE_CODE
Use with available fluent helpers to apply the StorageCostsPercentageCode field to query operations.
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static MRPMaterialField<String> |
STORAGE_LOCATION_NAME
Use with available fluent helpers to apply the StorageLocationName field to query operations.
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static MRPMaterialField<BigDecimal> |
TAKT_TIME
Use with available fluent helpers to apply the TaktTime field to query operations.
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static MRPMaterialField<BigDecimal> |
TOTAL_REPLENISHMENT_LEAD_DURATION
Use with available fluent helpers to apply the TotalReplenishmentLeadDuration field to query operations.
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static MRPMaterialField<BigDecimal> |
TRANSITION_TIME
Use with available fluent helpers to apply the TransitionTime field to query operations.
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static MRPMaterialField<String> |
UNIT_OF_MEASURE_NAME
Use with available fluent helpers to apply the UnitOfMeasureName field to query operations.
|
changedOriginalFields
Constructor and Description |
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MRPMaterial() |
MRPMaterial(String material,
String mRPPlant,
String mRPArea,
String materialName,
String plantName,
String mRPAreaText,
String mRPAreaCategory,
String mRPAreaCategoryName,
String materialGroup,
String materialGroupName,
Boolean materialIsMarkedForDeletion,
Boolean plntMatlIsMarkedForDeletion,
String crossPlantStatus,
String crossPlantStatusName,
String baseUnit,
String unitOfMeasureName,
String lowLevelCode,
Boolean materialIsConfigurable,
String materialUsabilityProfile,
String materialUsabilityProfileName,
String materialABCClassification,
String materialABCClassificationDesc,
String purchasingGroup,
String purchasingGroupName,
String materialProcurementCategory,
String materialProcurementCatName,
String dependentRequirementsType,
String dependentRequirementsTypeName,
String matlCompDiscontinuationType,
String matlCompDscontnTypeName,
LocalDateTime effectiveOutDate,
String materialType,
String materialTypeName,
String mRPGroup,
String mRPGroupName,
String mRPController,
String mRPControllerName,
String rangeOfCvrgPrflCode,
String schedulingFloatProfile,
String configurableProduct,
String configurableProductName,
BigDecimal processingTime,
BigDecimal setupAndTeardownTime,
BigDecimal transitionTime,
BigDecimal goodsReceiptDuration,
BigDecimal materialPlannedDeliveryDurn,
BigDecimal materialPlannedProductionDurn,
BigDecimal totalReplenishmentLeadDuration,
String isSafetyTime,
String mRPSafetyDuration,
String perdPrflForSftyTme,
BigDecimal reorderThresholdQuantity,
BigDecimal safetyStockQuantity,
String lotSizingProcedure,
String materialLotSizingProcedureName,
BigDecimal minimumLotSizeQuantity,
BigDecimal maximumLotSizeQuantity,
BigDecimal fixedLotSizeQuantity,
BigDecimal materialMaxStockLevelQuantity,
BigDecimal lotSizeIndependentCosts,
String storageCostsPercentageCode,
BigDecimal assemblyScrapPercent,
BigDecimal taktTime,
BigDecimal purOrderQtyRoundingQty,
String roundingProfile,
String planningStrategyGroup,
String dfltStorageLocationExtProcmt,
String mRPPlanningCalendar,
Boolean repetitiveManufacturingIsAllwd,
String repetitiveManufacturingProfile,
String planningTimeFenceInDays,
String mRPType,
String mRPTypeName,
String materialProcurementProfile,
String materialProcurementProfileName,
String productionSupervisor,
String productionSupervisorName,
BigDecimal materialBaseQuantity,
String productionInvtryManagedLoc,
String storageLocationName,
String authorizationGroup,
ErpConfigContext erpConfigContext) |
Modifier and Type | Method and Description |
---|---|
static MRPMaterial.MRPMaterialBuilder |
builder() |
protected boolean |
canEqual(Object other) |
boolean |
equals(Object o) |
static <T> MRPMaterialField<T> |
field(String fieldName,
Class<T> fieldType)
Use with available fluent helpers to apply an extension field to query operations.
|
static <T,DomainT> |
field(String fieldName,
TypeConverter<T,DomainT> typeConverter)
Use with available fluent helpers to apply an extension field to query operations.
|
protected void |
fromMap(Map<String,Object> inputValues) |
BigDecimal |
getAssemblyScrapPercent()
Constraints: Not nullable, Precision: 5, Scale: 2
|
String |
getAuthorizationGroup()
Constraints: Not nullable, Maximum length: 4
|
String |
getBaseUnit()
Constraints: Not nullable, Maximum length: 3
|
String |
getConfigurableProduct()
Constraints: Not nullable, Maximum length: 40
|
String |
getConfigurableProductName()
Constraints: Not nullable, Maximum length: 40
|
String |
getCrossPlantStatus()
Constraints: Not nullable, Maximum length: 2
|
String |
getCrossPlantStatusName()
Constraints: Not nullable, Maximum length: 25
|
String |
getDependentRequirementsType()
Constraints: Not nullable, Maximum length: 1
|
String |
getDependentRequirementsTypeName()
Constraints: Not nullable, Maximum length: 60
|
String |
getDfltStorageLocationExtProcmt()
Constraints: Not nullable, Maximum length: 4
|
LocalDateTime |
getEffectiveOutDate()
Constraints: Not nullable, Precision: 0
|
protected String |
getEntityCollection() |
ErpConfigContext |
getErpConfigContext()
Convienence field for reusing the same ERP system context with multiple queries (e.g.
|
BigDecimal |
getFixedLotSizeQuantity()
Constraints: Not nullable, Precision: 13, Scale: 3
|
BigDecimal |
getGoodsReceiptDuration()
Constraints: Not nullable, Precision: 3, Scale: 0
|
String |
getIsSafetyTime()
Constraints: Not nullable, Maximum length: 1
|
protected Map<String,Object> |
getKey() |
BigDecimal |
getLotSizeIndependentCosts()
Constraints: Not nullable, Precision: 12, Scale: 3
|
String |
getLotSizingProcedure()
Constraints: Not nullable, Maximum length: 2
|
String |
getLowLevelCode()
Constraints: Not nullable, Maximum length: 3
|
String |
getMaterial()
(Key Field) Constraints: Not nullable, Maximum length: 40
|
String |
getMaterialABCClassification()
Constraints: Not nullable, Maximum length: 1
|
String |
getMaterialABCClassificationDesc()
Constraints: Not nullable, Maximum length: 30
|
BigDecimal |
getMaterialBaseQuantity()
Constraints: Not nullable, Precision: 13, Scale: 3
|
String |
getMaterialGroup()
Constraints: Not nullable, Maximum length: 9
|
String |
getMaterialGroupName()
Constraints: Not nullable, Maximum length: 20
|
Boolean |
getMaterialIsConfigurable()
Constraints: none
|
Boolean |
getMaterialIsMarkedForDeletion()
Constraints: none
|
String |
getMaterialLotSizingProcedureName()
Constraints: Not nullable, Maximum length: 40
|
BigDecimal |
getMaterialMaxStockLevelQuantity()
Constraints: Not nullable, Precision: 13, Scale: 3
|
String |
getMaterialName()
Constraints: Not nullable, Maximum length: 40
|
BigDecimal |
getMaterialPlannedDeliveryDurn()
Constraints: Not nullable, Precision: 3, Scale: 0
|
BigDecimal |
getMaterialPlannedProductionDurn()
Constraints: Not nullable, Precision: 3, Scale: 0
|
String |
getMaterialProcurementCategory()
Constraints: Not nullable, Maximum length: 1
|
String |
getMaterialProcurementCatName()
Constraints: Not nullable, Maximum length: 60
|
String |
getMaterialProcurementProfile()
Constraints: Not nullable, Maximum length: 2
|
String |
getMaterialProcurementProfileName()
Constraints: Not nullable, Maximum length: 40
|
String |
getMaterialType()
Constraints: Not nullable, Maximum length: 4
|
String |
getMaterialTypeName()
Constraints: Not nullable, Maximum length: 25
|
String |
getMaterialUsabilityProfile()
Constraints: Not nullable, Maximum length: 2
|
String |
getMaterialUsabilityProfileName()
Constraints: Not nullable, Maximum length: 25
|
String |
getMatlCompDiscontinuationType()
Constraints: Not nullable, Maximum length: 1
|
String |
getMatlCompDscontnTypeName()
Constraints: Not nullable, Maximum length: 60
|
BigDecimal |
getMaximumLotSizeQuantity()
Constraints: Not nullable, Precision: 13, Scale: 3
|
BigDecimal |
getMinimumLotSizeQuantity()
Constraints: Not nullable, Precision: 13, Scale: 3
|
String |
getMRPArea()
(Key Field) Constraints: Not nullable, Maximum length: 10
|
String |
getMRPAreaCategory()
Constraints: Not nullable, Maximum length: 2
|
String |
getMRPAreaCategoryName()
Constraints: Not nullable, Maximum length: 60
|
String |
getMRPAreaText()
Constraints: Not nullable, Maximum length: 40
|
String |
getMRPController()
Constraints: Not nullable, Maximum length: 3
|
String |
getMRPControllerName()
Constraints: Not nullable, Maximum length: 18
|
String |
getMRPGroup()
Constraints: Not nullable, Maximum length: 4
|
String |
getMRPGroupName()
Constraints: Not nullable, Maximum length: 40
|
String |
getMRPPlanningCalendar()
Constraints: Not nullable, Maximum length: 3
|
String |
getMRPPlant()
(Key Field) Constraints: Not nullable, Maximum length: 4
|
String |
getMRPSafetyDuration()
Constraints: Not nullable, Maximum length: 2
|
String |
getMRPType()
Constraints: Not nullable, Maximum length: 2
|
String |
getMRPTypeName()
Constraints: Not nullable, Maximum length: 60
|
String |
getPerdPrflForSftyTme()
Constraints: Not nullable, Maximum length: 3
|
String |
getPlanningStrategyGroup()
Constraints: Not nullable, Maximum length: 2
|
String |
getPlanningTimeFenceInDays()
Constraints: Not nullable, Maximum length: 3
|
String |
getPlantName()
Constraints: Not nullable, Maximum length: 30
|
Boolean |
getPlntMatlIsMarkedForDeletion()
Constraints: none
|
BigDecimal |
getProcessingTime()
Constraints: Not nullable, Precision: 5, Scale: 2
|
String |
getProductionInvtryManagedLoc()
Constraints: Not nullable, Maximum length: 4
|
String |
getProductionSupervisor()
Constraints: Not nullable, Maximum length: 3
|
String |
getProductionSupervisorName()
Constraints: Not nullable, Maximum length: 30
|
String |
getPurchasingGroup()
Constraints: Not nullable, Maximum length: 3
|
String |
getPurchasingGroupName()
Constraints: Not nullable, Maximum length: 18
|
BigDecimal |
getPurOrderQtyRoundingQty()
Constraints: Not nullable, Precision: 13, Scale: 3
|
String |
getRangeOfCvrgPrflCode()
Constraints: Not nullable, Maximum length: 3
|
BigDecimal |
getReorderThresholdQuantity()
Constraints: Not nullable, Precision: 13, Scale: 3
|
Boolean |
getRepetitiveManufacturingIsAllwd()
Constraints: none
|
String |
getRepetitiveManufacturingProfile()
Constraints: Not nullable, Maximum length: 4
|
String |
getRoundingProfile()
Constraints: Not nullable, Maximum length: 4
|
BigDecimal |
getSafetyStockQuantity()
Constraints: Not nullable, Precision: 13, Scale: 3
|
String |
getSchedulingFloatProfile()
Constraints: Not nullable, Maximum length: 3
|
BigDecimal |
getSetupAndTeardownTime()
Constraints: Not nullable, Precision: 5, Scale: 2
|
String |
getStorageCostsPercentageCode()
Constraints: Not nullable, Maximum length: 1
|
String |
getStorageLocationName()
Constraints: Not nullable, Maximum length: 16
|
BigDecimal |
getTaktTime()
Constraints: Not nullable, Precision: 3, Scale: 0
|
BigDecimal |
getTotalReplenishmentLeadDuration()
Constraints: Not nullable, Precision: 3, Scale: 0
|
BigDecimal |
getTransitionTime()
Constraints: Not nullable, Precision: 5, Scale: 2
|
Class<MRPMaterial> |
getType() |
String |
getUnitOfMeasureName()
Constraints: Not nullable, Maximum length: 10
|
int |
hashCode() |
void |
setAssemblyScrapPercent(BigDecimal assemblyScrapPercent)
Constraints: Not nullable, Precision: 5, Scale: 2
|
void |
setAuthorizationGroup(String authorizationGroup)
Constraints: Not nullable, Maximum length: 4
|
void |
setBaseUnit(String baseUnit)
Constraints: Not nullable, Maximum length: 3
|
void |
setConfigurableProduct(String configurableProduct)
Constraints: Not nullable, Maximum length: 40
|
void |
setConfigurableProductName(String configurableProductName)
Constraints: Not nullable, Maximum length: 40
|
void |
setCrossPlantStatus(String crossPlantStatus)
Constraints: Not nullable, Maximum length: 2
|
void |
setCrossPlantStatusName(String crossPlantStatusName)
Constraints: Not nullable, Maximum length: 25
|
void |
setDependentRequirementsType(String dependentRequirementsType)
Constraints: Not nullable, Maximum length: 1
|
void |
setDependentRequirementsTypeName(String dependentRequirementsTypeName)
Constraints: Not nullable, Maximum length: 60
|
void |
setDfltStorageLocationExtProcmt(String dfltStorageLocationExtProcmt)
Constraints: Not nullable, Maximum length: 4
|
void |
setEffectiveOutDate(LocalDateTime effectiveOutDate)
Constraints: Not nullable, Precision: 0
|
void |
setErpConfigContext(ErpConfigContext erpConfigContext)
Convienence field for reusing the same ERP system context with multiple queries (e.g.
|
void |
setFixedLotSizeQuantity(BigDecimal fixedLotSizeQuantity)
Constraints: Not nullable, Precision: 13, Scale: 3
|
void |
setGoodsReceiptDuration(BigDecimal goodsReceiptDuration)
Constraints: Not nullable, Precision: 3, Scale: 0
|
void |
setIsSafetyTime(String isSafetyTime)
Constraints: Not nullable, Maximum length: 1
|
void |
setLotSizeIndependentCosts(BigDecimal lotSizeIndependentCosts)
Constraints: Not nullable, Precision: 12, Scale: 3
|
void |
setLotSizingProcedure(String lotSizingProcedure)
Constraints: Not nullable, Maximum length: 2
|
void |
setLowLevelCode(String lowLevelCode)
Constraints: Not nullable, Maximum length: 3
|
void |
setMaterial(String material)
(Key Field) Constraints: Not nullable, Maximum length: 40
|
void |
setMaterialABCClassification(String materialABCClassification)
Constraints: Not nullable, Maximum length: 1
|
void |
setMaterialABCClassificationDesc(String materialABCClassificationDesc)
Constraints: Not nullable, Maximum length: 30
|
void |
setMaterialBaseQuantity(BigDecimal materialBaseQuantity)
Constraints: Not nullable, Precision: 13, Scale: 3
|
void |
setMaterialGroup(String materialGroup)
Constraints: Not nullable, Maximum length: 9
|
void |
setMaterialGroupName(String materialGroupName)
Constraints: Not nullable, Maximum length: 20
|
void |
setMaterialIsConfigurable(Boolean materialIsConfigurable)
Constraints: none
|
void |
setMaterialIsMarkedForDeletion(Boolean materialIsMarkedForDeletion)
Constraints: none
|
void |
setMaterialLotSizingProcedureName(String materialLotSizingProcedureName)
Constraints: Not nullable, Maximum length: 40
|
void |
setMaterialMaxStockLevelQuantity(BigDecimal materialMaxStockLevelQuantity)
Constraints: Not nullable, Precision: 13, Scale: 3
|
void |
setMaterialName(String materialName)
Constraints: Not nullable, Maximum length: 40
|
void |
setMaterialPlannedDeliveryDurn(BigDecimal materialPlannedDeliveryDurn)
Constraints: Not nullable, Precision: 3, Scale: 0
|
void |
setMaterialPlannedProductionDurn(BigDecimal materialPlannedProductionDurn)
Constraints: Not nullable, Precision: 3, Scale: 0
|
void |
setMaterialProcurementCategory(String materialProcurementCategory)
Constraints: Not nullable, Maximum length: 1
|
void |
setMaterialProcurementCatName(String materialProcurementCatName)
Constraints: Not nullable, Maximum length: 60
|
void |
setMaterialProcurementProfile(String materialProcurementProfile)
Constraints: Not nullable, Maximum length: 2
|
void |
setMaterialProcurementProfileName(String materialProcurementProfileName)
Constraints: Not nullable, Maximum length: 40
|
void |
setMaterialType(String materialType)
Constraints: Not nullable, Maximum length: 4
|
void |
setMaterialTypeName(String materialTypeName)
Constraints: Not nullable, Maximum length: 25
|
void |
setMaterialUsabilityProfile(String materialUsabilityProfile)
Constraints: Not nullable, Maximum length: 2
|
void |
setMaterialUsabilityProfileName(String materialUsabilityProfileName)
Constraints: Not nullable, Maximum length: 25
|
void |
setMatlCompDiscontinuationType(String matlCompDiscontinuationType)
Constraints: Not nullable, Maximum length: 1
|
void |
setMatlCompDscontnTypeName(String matlCompDscontnTypeName)
Constraints: Not nullable, Maximum length: 60
|
void |
setMaximumLotSizeQuantity(BigDecimal maximumLotSizeQuantity)
Constraints: Not nullable, Precision: 13, Scale: 3
|
void |
setMinimumLotSizeQuantity(BigDecimal minimumLotSizeQuantity)
Constraints: Not nullable, Precision: 13, Scale: 3
|
void |
setMRPArea(String mRPArea)
(Key Field) Constraints: Not nullable, Maximum length: 10
|
void |
setMRPAreaCategory(String mRPAreaCategory)
Constraints: Not nullable, Maximum length: 2
|
void |
setMRPAreaCategoryName(String mRPAreaCategoryName)
Constraints: Not nullable, Maximum length: 60
|
void |
setMRPAreaText(String mRPAreaText)
Constraints: Not nullable, Maximum length: 40
|
void |
setMRPController(String mRPController)
Constraints: Not nullable, Maximum length: 3
|
void |
setMRPControllerName(String mRPControllerName)
Constraints: Not nullable, Maximum length: 18
|
void |
setMRPGroup(String mRPGroup)
Constraints: Not nullable, Maximum length: 4
|
void |
setMRPGroupName(String mRPGroupName)
Constraints: Not nullable, Maximum length: 40
|
void |
setMRPPlanningCalendar(String mRPPlanningCalendar)
Constraints: Not nullable, Maximum length: 3
|
void |
setMRPPlant(String mRPPlant)
(Key Field) Constraints: Not nullable, Maximum length: 4
|
void |
setMRPSafetyDuration(String mRPSafetyDuration)
Constraints: Not nullable, Maximum length: 2
|
void |
setMRPType(String mRPType)
Constraints: Not nullable, Maximum length: 2
|
void |
setMRPTypeName(String mRPTypeName)
Constraints: Not nullable, Maximum length: 60
|
void |
setPerdPrflForSftyTme(String perdPrflForSftyTme)
Constraints: Not nullable, Maximum length: 3
|
void |
setPlanningStrategyGroup(String planningStrategyGroup)
Constraints: Not nullable, Maximum length: 2
|
void |
setPlanningTimeFenceInDays(String planningTimeFenceInDays)
Constraints: Not nullable, Maximum length: 3
|
void |
setPlantName(String plantName)
Constraints: Not nullable, Maximum length: 30
|
void |
setPlntMatlIsMarkedForDeletion(Boolean plntMatlIsMarkedForDeletion)
Constraints: none
|
void |
setProcessingTime(BigDecimal processingTime)
Constraints: Not nullable, Precision: 5, Scale: 2
|
void |
setProductionInvtryManagedLoc(String productionInvtryManagedLoc)
Constraints: Not nullable, Maximum length: 4
|
void |
setProductionSupervisor(String productionSupervisor)
Constraints: Not nullable, Maximum length: 3
|
void |
setProductionSupervisorName(String productionSupervisorName)
Constraints: Not nullable, Maximum length: 30
|
void |
setPurchasingGroup(String purchasingGroup)
Constraints: Not nullable, Maximum length: 3
|
void |
setPurchasingGroupName(String purchasingGroupName)
Constraints: Not nullable, Maximum length: 18
|
void |
setPurOrderQtyRoundingQty(BigDecimal purOrderQtyRoundingQty)
Constraints: Not nullable, Precision: 13, Scale: 3
|
void |
setRangeOfCvrgPrflCode(String rangeOfCvrgPrflCode)
Constraints: Not nullable, Maximum length: 3
|
void |
setReorderThresholdQuantity(BigDecimal reorderThresholdQuantity)
Constraints: Not nullable, Precision: 13, Scale: 3
|
void |
setRepetitiveManufacturingIsAllwd(Boolean repetitiveManufacturingIsAllwd)
Constraints: none
|
void |
setRepetitiveManufacturingProfile(String repetitiveManufacturingProfile)
Constraints: Not nullable, Maximum length: 4
|
void |
setRoundingProfile(String roundingProfile)
Constraints: Not nullable, Maximum length: 4
|
void |
setSafetyStockQuantity(BigDecimal safetyStockQuantity)
Constraints: Not nullable, Precision: 13, Scale: 3
|
void |
setSchedulingFloatProfile(String schedulingFloatProfile)
Constraints: Not nullable, Maximum length: 3
|
void |
setSetupAndTeardownTime(BigDecimal setupAndTeardownTime)
Constraints: Not nullable, Precision: 5, Scale: 2
|
void |
setStorageCostsPercentageCode(String storageCostsPercentageCode)
Constraints: Not nullable, Maximum length: 1
|
void |
setStorageLocationName(String storageLocationName)
Constraints: Not nullable, Maximum length: 16
|
void |
setTaktTime(BigDecimal taktTime)
Constraints: Not nullable, Precision: 3, Scale: 0
|
void |
setTotalReplenishmentLeadDuration(BigDecimal totalReplenishmentLeadDuration)
Constraints: Not nullable, Precision: 3, Scale: 0
|
void |
setTransitionTime(BigDecimal transitionTime)
Constraints: Not nullable, Precision: 5, Scale: 2
|
void |
setUnitOfMeasureName(String unitOfMeasureName)
Constraints: Not nullable, Maximum length: 10
|
protected Map<String,Object> |
toMapOfFields() |
String |
toString() |
getEndpointUrl, getServicePathForFetch, getVersionIdentifier, setServicePathForFetch, setVersionIdentifier
getChangedFields, getCustomField, getCustomField, getCustomFieldNames, getCustomFields, getSetOfCustomFields, getSetOfFields, getSetOfNavigationProperties, hasCustomField, hasCustomField, rememberChangedField, resetChangedFields, setCustomField, setCustomField, toMap, toMapOfCustomFields, toMapOfNavigationProperties
public static final MRPMaterialSelectable ALL_FIELDS
public static final MRPMaterialField<String> MATERIAL
public static final MRPMaterialField<String> MRP_PLANT
public static final MRPMaterialField<String> MRP_AREA
public static final MRPMaterialField<String> MATERIAL_NAME
public static final MRPMaterialField<String> PLANT_NAME
public static final MRPMaterialField<String> MRP_AREA_TEXT
public static final MRPMaterialField<String> MRP_AREA_CATEGORY
public static final MRPMaterialField<String> MRP_AREA_CATEGORY_NAME
public static final MRPMaterialField<String> MATERIAL_GROUP
public static final MRPMaterialField<String> MATERIAL_GROUP_NAME
public static final MRPMaterialField<Boolean> MATERIAL_IS_MARKED_FOR_DELETION
public static final MRPMaterialField<Boolean> PLNT_MATL_IS_MARKED_FOR_DELETION
public static final MRPMaterialField<String> CROSS_PLANT_STATUS
public static final MRPMaterialField<String> CROSS_PLANT_STATUS_NAME
public static final MRPMaterialField<String> BASE_UNIT
public static final MRPMaterialField<String> UNIT_OF_MEASURE_NAME
public static final MRPMaterialField<String> LOW_LEVEL_CODE
public static final MRPMaterialField<Boolean> MATERIAL_IS_CONFIGURABLE
public static final MRPMaterialField<String> MATERIAL_USABILITY_PROFILE
public static final MRPMaterialField<String> MATERIAL_USABILITY_PROFILE_NAME
public static final MRPMaterialField<String> MATERIAL_ABC_CLASSIFICATION
public static final MRPMaterialField<String> MATERIAL_ABC_CLASSIFICATION_DESC
public static final MRPMaterialField<String> PURCHASING_GROUP
public static final MRPMaterialField<String> PURCHASING_GROUP_NAME
public static final MRPMaterialField<String> MATERIAL_PROCUREMENT_CATEGORY
public static final MRPMaterialField<String> MATERIAL_PROCUREMENT_CAT_NAME
public static final MRPMaterialField<String> DEPENDENT_REQUIREMENTS_TYPE
public static final MRPMaterialField<String> DEPENDENT_REQUIREMENTS_TYPE_NAME
public static final MRPMaterialField<String> MATL_COMP_DISCONTINUATION_TYPE
public static final MRPMaterialField<String> MATL_COMP_DSCONTN_TYPE_NAME
public static final MRPMaterialField<LocalDateTime> EFFECTIVE_OUT_DATE
public static final MRPMaterialField<String> MATERIAL_TYPE
public static final MRPMaterialField<String> MATERIAL_TYPE_NAME
public static final MRPMaterialField<String> MRP_GROUP
public static final MRPMaterialField<String> MRP_GROUP_NAME
public static final MRPMaterialField<String> MRP_CONTROLLER
public static final MRPMaterialField<String> MRP_CONTROLLER_NAME
public static final MRPMaterialField<String> RANGE_OF_CVRG_PRFL_CODE
public static final MRPMaterialField<String> SCHEDULING_FLOAT_PROFILE
public static final MRPMaterialField<String> CONFIGURABLE_PRODUCT
public static final MRPMaterialField<String> CONFIGURABLE_PRODUCT_NAME
public static final MRPMaterialField<BigDecimal> PROCESSING_TIME
public static final MRPMaterialField<BigDecimal> SETUP_AND_TEARDOWN_TIME
public static final MRPMaterialField<BigDecimal> TRANSITION_TIME
public static final MRPMaterialField<BigDecimal> GOODS_RECEIPT_DURATION
public static final MRPMaterialField<BigDecimal> MATERIAL_PLANNED_DELIVERY_DURN
public static final MRPMaterialField<BigDecimal> MATERIAL_PLANNED_PRODUCTION_DURN
public static final MRPMaterialField<BigDecimal> TOTAL_REPLENISHMENT_LEAD_DURATION
public static final MRPMaterialField<String> IS_SAFETY_TIME
public static final MRPMaterialField<String> MRP_SAFETY_DURATION
public static final MRPMaterialField<String> PERD_PRFL_FOR_SFTY_TME
public static final MRPMaterialField<BigDecimal> REORDER_THRESHOLD_QUANTITY
public static final MRPMaterialField<BigDecimal> SAFETY_STOCK_QUANTITY
public static final MRPMaterialField<String> LOT_SIZING_PROCEDURE
public static final MRPMaterialField<String> MATERIAL_LOT_SIZING_PROCEDURE_NAME
public static final MRPMaterialField<BigDecimal> MINIMUM_LOT_SIZE_QUANTITY
public static final MRPMaterialField<BigDecimal> MAXIMUM_LOT_SIZE_QUANTITY
public static final MRPMaterialField<BigDecimal> FIXED_LOT_SIZE_QUANTITY
public static final MRPMaterialField<BigDecimal> MATERIAL_MAX_STOCK_LEVEL_QUANTITY
public static final MRPMaterialField<BigDecimal> LOT_SIZE_INDEPENDENT_COSTS
public static final MRPMaterialField<String> STORAGE_COSTS_PERCENTAGE_CODE
public static final MRPMaterialField<BigDecimal> ASSEMBLY_SCRAP_PERCENT
public static final MRPMaterialField<BigDecimal> TAKT_TIME
public static final MRPMaterialField<BigDecimal> PUR_ORDER_QTY_ROUNDING_QTY
public static final MRPMaterialField<String> ROUNDING_PROFILE
public static final MRPMaterialField<String> PLANNING_STRATEGY_GROUP
public static final MRPMaterialField<String> DFLT_STORAGE_LOCATION_EXT_PROCMT
public static final MRPMaterialField<String> MRP_PLANNING_CALENDAR
public static final MRPMaterialField<Boolean> REPETITIVE_MANUFACTURING_IS_ALLWD
public static final MRPMaterialField<String> REPETITIVE_MANUFACTURING_PROFILE
public static final MRPMaterialField<String> PLANNING_TIME_FENCE_IN_DAYS
public static final MRPMaterialField<String> MRP_TYPE
public static final MRPMaterialField<String> MRP_TYPE_NAME
public static final MRPMaterialField<String> MATERIAL_PROCUREMENT_PROFILE
public static final MRPMaterialField<String> MATERIAL_PROCUREMENT_PROFILE_NAME
public static final MRPMaterialField<String> PRODUCTION_SUPERVISOR
public static final MRPMaterialField<String> PRODUCTION_SUPERVISOR_NAME
public static final MRPMaterialField<BigDecimal> MATERIAL_BASE_QUANTITY
public static final MRPMaterialField<String> PRODUCTION_INVTRY_MANAGED_LOC
public static final MRPMaterialField<String> STORAGE_LOCATION_NAME
public static final MRPMaterialField<String> AUTHORIZATION_GROUP
public MRPMaterial()
public MRPMaterial(@Nullable String material, @Nullable String mRPPlant, @Nullable String mRPArea, @Nullable String materialName, @Nullable String plantName, @Nullable String mRPAreaText, @Nullable String mRPAreaCategory, @Nullable String mRPAreaCategoryName, @Nullable String materialGroup, @Nullable String materialGroupName, @Nullable Boolean materialIsMarkedForDeletion, @Nullable Boolean plntMatlIsMarkedForDeletion, @Nullable String crossPlantStatus, @Nullable String crossPlantStatusName, @Nullable String baseUnit, @Nullable String unitOfMeasureName, @Nullable String lowLevelCode, @Nullable Boolean materialIsConfigurable, @Nullable String materialUsabilityProfile, @Nullable String materialUsabilityProfileName, @Nullable String materialABCClassification, @Nullable String materialABCClassificationDesc, @Nullable String purchasingGroup, @Nullable String purchasingGroupName, @Nullable String materialProcurementCategory, @Nullable String materialProcurementCatName, @Nullable String dependentRequirementsType, @Nullable String dependentRequirementsTypeName, @Nullable String matlCompDiscontinuationType, @Nullable String matlCompDscontnTypeName, @Nullable LocalDateTime effectiveOutDate, @Nullable String materialType, @Nullable String materialTypeName, @Nullable String mRPGroup, @Nullable String mRPGroupName, @Nullable String mRPController, @Nullable String mRPControllerName, @Nullable String rangeOfCvrgPrflCode, @Nullable String schedulingFloatProfile, @Nullable String configurableProduct, @Nullable String configurableProductName, @Nullable BigDecimal processingTime, @Nullable BigDecimal setupAndTeardownTime, @Nullable BigDecimal transitionTime, @Nullable BigDecimal goodsReceiptDuration, @Nullable BigDecimal materialPlannedDeliveryDurn, @Nullable BigDecimal materialPlannedProductionDurn, @Nullable BigDecimal totalReplenishmentLeadDuration, @Nullable String isSafetyTime, @Nullable String mRPSafetyDuration, @Nullable String perdPrflForSftyTme, @Nullable BigDecimal reorderThresholdQuantity, @Nullable BigDecimal safetyStockQuantity, @Nullable String lotSizingProcedure, @Nullable String materialLotSizingProcedureName, @Nullable BigDecimal minimumLotSizeQuantity, @Nullable BigDecimal maximumLotSizeQuantity, @Nullable BigDecimal fixedLotSizeQuantity, @Nullable BigDecimal materialMaxStockLevelQuantity, @Nullable BigDecimal lotSizeIndependentCosts, @Nullable String storageCostsPercentageCode, @Nullable BigDecimal assemblyScrapPercent, @Nullable BigDecimal taktTime, @Nullable BigDecimal purOrderQtyRoundingQty, @Nullable String roundingProfile, @Nullable String planningStrategyGroup, @Nullable String dfltStorageLocationExtProcmt, @Nullable String mRPPlanningCalendar, @Nullable Boolean repetitiveManufacturingIsAllwd, @Nullable String repetitiveManufacturingProfile, @Nullable String planningTimeFenceInDays, @Nullable String mRPType, @Nullable String mRPTypeName, @Nullable String materialProcurementProfile, @Nullable String materialProcurementProfileName, @Nullable String productionSupervisor, @Nullable String productionSupervisorName, @Nullable BigDecimal materialBaseQuantity, @Nullable String productionInvtryManagedLoc, @Nullable String storageLocationName, @Nullable String authorizationGroup, @Nullable ErpConfigContext erpConfigContext)
@Nonnull public Class<MRPMaterial> getType()
getType
in class VdmObject<MRPMaterial>
public void setMaterial(@Nullable String material)
Original property name from the Odata EDM: Material
material
- Alphanumeric key uniquely identifying the material.public void setMRPPlant(@Nullable String mRPPlant)
Original property name from the Odata EDM: MRPPlant
mRPPlant
- Key uniquely identifying a plant.public void setMRPArea(@Nullable String mRPArea)
Original property name from the Odata EDM: MRPArea
mRPArea
- Number of the MRP area for which material requirements planning should be carried out separately.public void setMaterialName(@Nullable String materialName)
Original property name from the Odata EDM: MaterialName
You can enter one product description in each of any number of languages.In principle, you enter the product description on the data screen of the first user department for which you enter data, and in your logon language. You can overwrite the product description on the Basic Data screen.
materialName
- Text containing up to 40 characters that describes the product in detail.public void setPlantName(@Nullable String plantName)
Original property name from the Odata EDM: PlantName
plantName
- Plant Namepublic void setMRPAreaText(@Nullable String mRPAreaText)
Original property name from the Odata EDM: MRPAreaText
mRPAreaText
- Description of MRP areapublic void setMRPAreaCategory(@Nullable String mRPAreaCategory)
Original property name from the Odata EDM: MRPAreaCategory
The MRP area of the category plant contains a whole plant. The system automatically creates the plant MRP area when converting the planning file entries.The MRP area of the category storage location can contain one or several storage locations. You assign the storage location to the MRP area in the storage location fieldA storage location can, however, only be assigned to one MRP area.With the subcontractor category the MRP area contains just one subcontractor/supplier. This enables you to specifically plan the components to be provided for this subcontractor. You assign the subcontractor in the subcontractor field.A subcontractor, however, may only ever be assigned to one MRP area.You want to plan the components that are required for a particular assembly line. Therefore, you define an MRP area of the category storage location and assign it the production storage location from which you are taking the components that are required on the assembly line.
mRPAreaCategory
- The key defines whether the MRP area corresponds to a whole plant or to a storage location or to a subcontractor.public void setMRPAreaCategoryName(@Nullable String mRPAreaCategoryName)
Original property name from the Odata EDM: MRPAreaCategoryName
mRPAreaCategoryName
- MRP Area Category Namepublic void setMaterialGroup(@Nullable String materialGroup)
Original property name from the Odata EDM: MaterialGroup
You can use material groups to:Restrict the scope of analysesSearch specifically for product master records via search helpsIf you have not defined a material group hierarchy using the classification system, you maintain product groups in Customizing for the Material Master in Define material groups.If you have defined a product group hierarchy, which is normally the case in retail, you maintain product groups in Customizing for Material Groups or from the initial Retailing screen by choosing Master data -> Material group.
materialGroup
- Key that you use to group together several products or services with the same attributes, and to assign them to a particular product group.public void setMaterialGroupName(@Nullable String materialGroupName)
Original property name from the Odata EDM: MaterialGroupName
materialGroupName
- Product Group Descriptionpublic void setMaterialIsMarkedForDeletion(@Nullable Boolean materialIsMarkedForDeletion)
Original property name from the Odata EDM: MaterialIsMarkedForDeletion
A reorganization program deletes the master record from the system if you have entered a delete flag for it in the master record.You cannot delete master records online.
materialIsMarkedForDeletion
- Indicator that allows you to flag a master record for deletion.public void setPlntMatlIsMarkedForDeletion(@Nullable Boolean plntMatlIsMarkedForDeletion)
Original property name from the Odata EDM: PlntMatlIsMarkedForDeletion
plntMatlIsMarkedForDeletion
- If this indicator is set, the archive and delete program checks whether the material may be deleted at plant level, and deletes the data at this level and at all lower levels accordingly.public void setCrossPlantStatus(@Nullable String crossPlantStatus)
Original property name from the Odata EDM: CrossPlantStatus
Materials management (for example, in purchasing and in inventory management)Production planning and controlPlant maintenanceWarehouse managementCosting with a quantity structureThe cross-plant product status restricts the usability of the product for all plants, that is, it defines whether a warning or error message is displayed if you include the product in a particular function.The product may be a part under development or one to be discontinued.
crossPlantStatus
- Indicates whether the product may be used in the following areas for all plants:public void setCrossPlantStatusName(@Nullable String crossPlantStatusName)
Original property name from the Odata EDM: CrossPlantStatusName
crossPlantStatusName
- Cross Plant Status Textpublic void setBaseUnit(@Nullable String baseUnit)
Original property name from the Odata EDM: BaseUnit
You define the base unit of measure and also alternative units of measure and their conversion factors in the material master record.Since all data is updated in the base unit of measure, your entry is particularly important for the conversion of alternative units of measure. A quantity in the alternative unit of measure can only be shown precisely if its value can be shown with the decimal places available. To ensure this, please note the following:The base unit of measure is the unit satisfying the highest necessary requirement for precision.The conversion of alternative units of measure to the base unit should result in simple decimal fractions (not, for example, 1/3 = 0.333...).Inventory ManagementIn Inventory Management, the base unit of measure is the same as the stockkeeping unit.ServicesServices have units of measure of their own, including the following:Service unitUnit of measure at the higher item level. The precise quantities of the individual services are each at the detailed service line level.BlanketUnit of measure at service line level for services to be provided once only, and for which no precise quantities can or are to be specified.
baseUnit
- Unit of measure in which stocks of the material are managed. The system converts all the quantities you enter in other units of measure (alternative units of measure) to the base unit of measure.public void setUnitOfMeasureName(@Nullable String unitOfMeasureName)
Original property name from the Odata EDM: UnitOfMeasureName
unitOfMeasureName
- Unit of measure namepublic void setLowLevelCode(@Nullable String lowLevelCode)
Original property name from the Odata EDM: LowLevelCode
The level that is set in the material master record represents the level at which the material will be planned. This means that the material will only be planned once all assemblies in which it occurs have been planned and exploded.The low-level code is set internally in the material master record when the BOM is maintained.
lowLevelCode
- The lowest level that a material appears in any product structure of the company. The low-level code controls the sequence in which the material is planned in an MRP run: First the materials with low-level code 0 are planned, then the materials with low-level code 1, and so on. The lower the low-level code, the higher the number that is assigned to the material.public void setMaterialIsConfigurable(@Nullable Boolean materialIsConfigurable)
Original property name from the Odata EDM: MaterialIsConfigurable
If this indicator is set, you can assign a variant class to the material, making it possible to use it as a configurable material.You can set the indicator manually in the material master record, irrespective of the material type.
materialIsConfigurable
- Indicator that determines whether the material is configurable.public void setMaterialUsabilityProfile(@Nullable String materialUsabilityProfile)
Original property name from the Odata EDM: MaterialUsabilityProfile
Materials management (for example, in purchasing and in inventory management)Production planning and controlPlant maintenanceWarehouse managementCosting with a quantity structureThe plant-specific material status restricts the usability of the material for the plant concerned, that is, it defines whether a warning or error message is displayed if you include the material in a particular function.The material may be a part under development or one to be discontinued.
materialUsabilityProfile
- Indicates whether, for a specific plant, the material may be used in the following areas:public void setMaterialUsabilityProfileName(@Nullable String materialUsabilityProfileName)
Original property name from the Odata EDM: MaterialUsabilityProfileName
materialUsabilityProfileName
- Cross Plant Status Textpublic void setMaterialABCClassification(@Nullable String materialABCClassification)
Original property name from the Odata EDM: MaterialABCClassification
The three indicators have the following meanings:A - important part, high consumption valueB - less important part, medium consumption valueC - relatively unimportant part, low consumption value
materialABCClassification
- Indicator that classifies a material as an A, B, or C part according to its consumption value. This classification process is known as the ABC analysis.public void setMaterialABCClassificationDesc(@Nullable String materialABCClassificationDesc)
Original property name from the Odata EDM: MaterialABCClassificationDesc
materialABCClassificationDesc
- Consumption Value Category Textpublic void setPurchasingGroup(@Nullable String purchasingGroup)
Original property name from the Odata EDM: PurchasingGroup
Internally, the purchasing group is responsible for the procurement of a material or a class of materials.Externally, it is the medium through which contacts with the vendor are maintained.
purchasingGroup
- Key for a buyer or a group of buyers, who is/are responsible for certain purchasing activities.public void setPurchasingGroupName(@Nullable String purchasingGroupName)
Original property name from the Odata EDM: PurchasingGroupName
purchasingGroupName
- Purchasing Group Namepublic void setMaterialProcurementCategory(@Nullable String materialProcurementCategory)
Original property name from the Odata EDM: MaterialProcurementCategory
The material is produced in-house.The material is procured externally.The material can be both produced in-house and procured externally.
materialProcurementCategory
- Indicator that defines how the material is procured. The following procurements types are possible:public void setMaterialProcurementCatName(@Nullable String materialProcurementCatName)
Original property name from the Odata EDM: MaterialProcurementCatName
materialProcurementCatName
- Material Procurement Category Namepublic void setDependentRequirementsType(@Nullable String dependentRequirementsType)
Original property name from the Odata EDM: DependentRequirementsType
Individual requirementsRequirement quantities of the dependent material are stated individually.Collective requirementsRequirement quantities of the dependent material are grouped together.You can maintain this indicator in the following places:In the material master recordFor the explosion type of the BOM item (in Customizing for Basic Data in Define Explosion Types)The setting for the explosion type overrides that in the material master record.If the material is assigned to a material type that does not allow quantity-based inventory management in this plant, you can set the indicator to individual requirements only.If the stock is to be managed in sales order stock or project stock, the indicator must be set to one of the following options:Individual and collective requirementsIndividual requirements onlyIf a material managed in project stock is to be procured from another plant using a cross-company-code stock transport order, the indicator must be set to 2 (collective requirements) in the issuing plant because, in this specific context, individual project stock management is not possible in both plants.
dependentRequirementsType
- Indicator determining whether the following requirements are allowed for the dependent requirements of the material:public void setDependentRequirementsTypeName(@Nullable String dependentRequirementsTypeName)
Original property name from the Odata EDM: DependentRequirementsTypeName
SeeTask-Oriented InstructionsReference Documentation for Semantic Properties of Domains
dependentRequirementsTypeName
- This text appears when fixed values are displayed in the F4 help. It explains the possible input values.public void setMatlCompDiscontinuationType(@Nullable String matlCompDiscontinuationType)
Original property name from the Odata EDM: MatlCompDiscontinuationType
matlCompDiscontinuationType
- public void setMatlCompDscontnTypeName(@Nullable String matlCompDscontnTypeName)
Original property name from the Odata EDM: MatlCompDscontnTypeName
SeeTask-Oriented InstructionsReference Documentation for Semantic Properties of Domains
matlCompDscontnTypeName
- This text appears when fixed values are displayed in the F4 help. It explains the possible input values.public void setEffectiveOutDate(@Nullable LocalDateTime effectiveOutDate)
Original property name from the Odata EDM: EffectiveOutDate
From this date, the system reassigns the dependent requirements that are no longer covered by warehouse stock of the discontinued material to the follow-up material. This is done as part of material requirements planning.Enter a date if you want to plan the discontinuation of a material for the long term.
effectiveOutDate
- Date from which the stocks of the material are to be used up. As soon as no more stock exists for this material, it is to be replaced by the follow-up material.public void setMaterialType(@Nullable String materialType)
Original property name from the Odata EDM: MaterialType
The product type defines certain attributes of the material and has important control functions.
materialType
- Key that assigns the product to a group of products such as raw materials, operating supplies or trading goods.public void setMaterialTypeName(@Nullable String materialTypeName)
Original property name from the Odata EDM: MaterialTypeName
materialTypeName
- Description of product typepublic void setMRPGroup(@Nullable String mRPGroup)
Original property name from the Odata EDM: MRPGroup
mRPGroup
- The MRP group contains all the materials from the point of view of MRP for assigning special control parameters for the total planning run. These control parameters include, for example, the strategy group, the consumption mode, and the planning horizon.public void setMRPGroupName(@Nullable String mRPGroupName)
Original property name from the Odata EDM: MRPGroupName
The MRP group groups materials from an MRP point of view to allocate their control parameters for planning. These control parameters include, for example, the strategy group, the consumption mode, and the planning horizon.
mRPGroupName
- The description given to an MRP group.public void setMRPController(@Nullable String mRPController)
Original property name from the Odata EDM: MRPController
mRPController
- Specifies the number of the MRP controller or group of MRP controllers responsible for material planning for the material.public void setMRPControllerName(@Nullable String mRPControllerName)
Original property name from the Odata EDM: MRPControllerName
mRPControllerName
- MRP Controller Namepublic void setRangeOfCvrgPrflCode(@Nullable String rangeOfCvrgPrflCode)
Original property name from the Odata EDM: RangeOfCvrgPrflCode
rangeOfCvrgPrflCode
- The range of coverage profile contains the parameters for calculating the dynamic safety stock. This is a statistical calculation on the basis of average daily requirements.public void setSchedulingFloatProfile(@Nullable String schedulingFloatProfile)
Original property name from the Odata EDM: SchedulingFloatProfile
opening periodfloat after production (only in the case of in-house production)float before production (only in the case of in-house production)release period (only in the case of production order management)Floats are maintained in workdays.
schedulingFloatProfile
- Key that the system uses to determine the floats required for scheduling an order. You define the following floats with the scheduling margin key:public void setConfigurableProduct(@Nullable String configurableProduct)
Original property name from the Odata EDM: ConfigurableProduct
configurableProduct
- Number uniquely identifying the configurable material.public void setConfigurableProductName(@Nullable String configurableProductName)
Original property name from the Odata EDM: ConfigurableProductName
You can enter one product description in each of any number of languages.In principle, you enter the product description on the data screen of the first user department for which you enter data, and in your logon language. You can overwrite the product description on the Basic Data screen.
configurableProductName
- Text containing up to 40 characters that describes the product in detail.public void setProcessingTime(@Nullable BigDecimal processingTime)
Original property name from the Odata EDM: ProcessingTime
The processing time depends on the order quantity.
processingTime
- Specifies the time needed to process the material in the operations at the different work centers.public void setSetupAndTeardownTime(@Nullable BigDecimal setupAndTeardownTime)
Original property name from the Odata EDM: SetupAndTeardownTime
The setup and teardown time is independent of the order quantity.
setupAndTeardownTime
- Specifies the number of workdays needed to set up and tear down the various work centers where the material is processed. This value is the total of the setup and teardown times.public void setTransitionTime(@Nullable BigDecimal transitionTime)
Original property name from the Odata EDM: TransitionTime
Move timeQueue timeWait timeFloat before productionFloat after productionPlanned delivery time of an operation processed externallyThe interoperation time is independent of the order quantity.
transitionTime
- Specifies the number of workdays required for the transition of a produced material between work centers or work center groups. It includes the following times:public void setGoodsReceiptDuration(@Nullable BigDecimal goodsReceiptDuration)
Original property name from the Odata EDM: GoodsReceiptDuration
goodsReceiptDuration
- Number of workdays required after receiving the material for inspection and placement into storage.public void setMaterialPlannedDeliveryDurn(@Nullable BigDecimal materialPlannedDeliveryDurn)
Original property name from the Odata EDM: MaterialPlannedDeliveryDurn
If you have different vendors for a material, you must specify an average value. The same applies if you order the material from a fixed vendor that has varying delivery times.If you use the SAP Retail System, the planned delivery time can be suggested from the vendor sub-range in the vendor master record.
materialPlannedDeliveryDurn
- Number of calendar days needed to obtain the material or service if it is procured externally.public void setMaterialPlannedProductionDurn(@Nullable BigDecimal materialPlannedProductionDurn)
Original property name from the Odata EDM: MaterialPlannedProductionDurn
In-house production time is independent of the order quantity.
materialPlannedProductionDurn
- Specifies the time in workdays needed to produce the material in-house.public void setTotalReplenishmentLeadDuration(@Nullable BigDecimal totalReplenishmentLeadDuration)
Original property name from the Odata EDM: TotalReplenishmentLeadDuration
This time is necessary if, for materials produced in-house, the replenishment lead time is to be taken into consideration in the availability check.In an availability check where the system takes the replenishment lead time into consideration, it only checks whether there are sufficient incoming quantities and stocks available to cover the requirements within the replenishment lead time. Outside the replenishment lead time,the system assumes that the material is available in sufficient quantity.Therefore, in this situation, it is usually necessary to depict the product's total replenishment lead time with all BOM levels as the replenishment lead time.The following options exist for materials produced in-house if the replenishment lead time is included in the availability check:The Total replenishment lead time field is maintained.In this case, the time maintained in this field is used for the availability check.The Total replenishment lead time field is not maintained.In this case, the system reads the in-house production time and, if available, the goods receipt processing time, and interprets the total of these two times as the replenishment lead time for the availability check.There is no point in maintaining the Total replenishment lead time field for materials procured externally. In external procurement, the system adds the processing time from purchasing, the planned delivery time, and the goods receipt processing time and uses this total as the replenishment lead time for an availability check with replenishment lead time.
totalReplenishmentLeadDuration
- The total replenishment lead time is the time needed before the product is completely available again, that is, after all BOM levels have been procured or produced. It is not calculated by the system, but defined in this field as the total of the in-house production time(s) and/or the planned delivery time(s) of the longest production path.public void setIsSafetyTime(@Nullable String isSafetyTime)
Original property name from the Odata EDM: IsSafetyTime
If you define a safety time, the requirements in MRP are brought forward on the time axis by the number of workdays you define here. The actual range of coverage corresponds to the number of days, by which the requirements are brought forward.Using this indicator you can activate the safety time and you can set whether all requirements or only independent requirements (sales order, planned independent requirements, and so on) are to be brought forward.The actual requirements dates are not changed.
isSafetyTime
- You use this indicator to switch on the safety time actual range of coverage for a material in MRP.public void setMRPSafetyDuration(@Nullable String mRPSafetyDuration)
Original property name from the Odata EDM: MRPSafetyDuration
If you define a safety time, the requirements in MRP are brought forward on the time axis by the number of workdays you define here.This does not change the actual requirements dates. However, as the requirements have technically been brought forward, receipts are created for the earlier dates in MRP.Time-phased materials planning is based on the interval between the MRP date and the availabilty date of the next MRP date. By using the safety time/ actual range of coverage, the number of days to the interval are included in the calculation.
mRPSafetyDuration
- In this field, you define the number of workdays for the safety time/actual range of coverage.public void setPerdPrflForSftyTme(@Nullable String perdPrflForSftyTme)
Original property name from the Odata EDM: PerdPrflForSftyTme
In order to smooth out seasonal fluctuations, for any definable period you can define a safety time/actual range of coverage that varies from what you have maintained in the material master in the field safety time/actual range of coverage. If, for example, a higher actual range of coverage than usual is required due to higher demand during the Christmas period, you can define the period with the desired actual range of coverage in the period profile.You can also use the period profile to represent a safety time of less than one day. You do this by entering a safety time % in addition to the safety time.
perdPrflForSftyTme
- The period profile for the safety time / actual range of coverage contains the periods (stating to/from date) with the safety time/actual range of coverage that is valid for each period.public void setReorderThresholdQuantity(@Nullable BigDecimal reorderThresholdQuantity)
Original property name from the Odata EDM: ReorderThresholdQuantity
reorderThresholdQuantity
- public void setSafetyStockQuantity(@Nullable BigDecimal safetyStockQuantity)
Original property name from the Odata EDM: SafetyStockQuantity
safetyStockQuantity
- public void setLotSizingProcedure(@Nullable String lotSizingProcedure)
Original property name from the Odata EDM: LotSizingProcedure
lotSizingProcedure
- Key that determines which lot-sizing procedure the system uses within materials planning to calculate the quantity to be procured or produced.public void setMaterialLotSizingProcedureName(@Nullable String materialLotSizingProcedureName)
Original property name from the Odata EDM: MaterialLotSizingProcedureName
materialLotSizingProcedureName
- Text of up to 40 characters that describes lot-sizing procedures in more detail.public void setMinimumLotSizeQuantity(@Nullable BigDecimal minimumLotSizeQuantity)
Original property name from the Odata EDM: MinimumLotSizeQuantity
minimumLotSizeQuantity
- Minimum procurement quantitypublic void setMaximumLotSizeQuantity(@Nullable BigDecimal maximumLotSizeQuantity)
Original property name from the Odata EDM: MaximumLotSizeQuantity
The system takes this value into account during the automatic lot size calculation for planned orders and production orders. The lot size of the individual orders cannot exceed this value.
maximumLotSizeQuantity
- Quantity that is not allowed to be exceeded during procurement.public void setFixedLotSizeQuantity(@Nullable BigDecimal fixedLotSizeQuantity)
Original property name from the Odata EDM: FixedLotSizeQuantity
If the amount of the shortage is less than the fixed lot size, it is the fixed lot size that is ordered or produced (and not the lesser quantity that is actually required).If the amount of the shortage is greater than the fixed lot size, a multiple of the fixed lot size is procured. The system creates several purchase order proposals for this purpose.
fixedLotSizeQuantity
- Quantity that will be ordered or produced in the event of a shortage.public void setMaterialMaxStockLevelQuantity(@Nullable BigDecimal materialMaxStockLevelQuantity)
Original property name from the Odata EDM: MaterialMaxStockLevelQuantity
In materials planning, the maximum stock level is used only if you have chosen Replenish to maximum stock level as the lot-sizing procedure; that is, you have entered HB as the lot size key.Enter a value if you have chosen Replenish to maximum stock level as the lot-sizing procedure.
materialMaxStockLevelQuantity
- Quantity of the material in this plant that may not be exceeded.public void setLotSizeIndependentCosts(@Nullable BigDecimal lotSizeIndependentCosts)
Original property name from the Odata EDM: LotSizeIndependentCosts
The ordering costs are used only for calculating the lot size in optimum lot-sizing procedures. You must specify the ordering costs in the currency of the company code belonging to the plant.
lotSizeIndependentCosts
- Costs that are incurred, irrespective of lot size, for each purchase order or production order over and above the purchase order price or production costs.public void setStorageCostsPercentageCode(@Nullable String storageCostsPercentageCode)
Original property name from the Odata EDM: StorageCostsPercentageCode
The storage costs percentage is based on the quantity stored and the unit price, and refers to the average value of the materials stored.The percentage is considered constant for the stocking-up period. It normally lies between 15 and 35%.The storage costs percentage is used by optimizing lot-sizing procedures to calculate the lot size, but not for any other purpose.
storageCostsPercentageCode
- Indicator that specifies the storage costs percentage the system uses when calculating the lot size to determine storage costs.public void setAssemblyScrapPercent(@Nullable BigDecimal assemblyScrapPercent)
Original property name from the Odata EDM: AssemblyScrapPercent
The assembly scrap is used in materials planning to calculate the lot size of the assembly. The system increases the quantity to be produced by the scrap quantity calculated.If the material is an assembly, specify the percentage scrap as required.If the quantity to be produced is 200 pieces and you specify an assembly scrap of 10%, you are reckoning with a scrap quantity of 20 pieces. As a result, 220 pieces are produced.The system increases the quantity to be produced for all of the assembly's components accordingly.
assemblyScrapPercent
- Percentage scrap that occurs during production of the material if the material is an assembly.public void setTaktTime(@Nullable BigDecimal taktTime)
Original property name from the Odata EDM: TaktTime
You enter the takt time in workdays.The system uses the takt time if a requirement is covered by several receipt elements due to restrictions on lot size such as maximum lot size (with all lot-sizing procedures) or rounding value (with fixed lot size with splitting).
taktTime
- If a requirement quantity (for example, for capacity reasons) cannot be procured in a single lot, you have to schedule several receipts. In conjunction with the overlap indicator in the lot size, you can use the takt time to specify that these receipts are offset, that is, that they are delayed by the takt time.public void setPurOrderQtyRoundingQty(@Nullable BigDecimal purOrderQtyRoundingQty)
Original property name from the Odata EDM: PurOrderQtyRoundingQty
The rounding value is used in the planning run if no rounding profile has been specified in the material master record.
purOrderQtyRoundingQty
- Value to a multiple of which the system rounds up the procurement quantity.public void setRoundingProfile(@Nullable String roundingProfile)
Original property name from the Odata EDM: RoundingProfile
In Customizing, enter a threshold value from which the system should round up to the next value per deliverable unit:If the requirements value exceeds the first threshold value, the system always rounds up to the next multiple of the level foundIf the requirements value falls below the first threshold value, the system copies the original requirements value.Two other types of rounding exist:Dynamic rounding profile:These profiles are used to round up quantities to logistical units of measure (for example, layers). The contents of a logistical unit of measure does not have to be know when creating the rounding profile. It is determined by the master data from the material master.Rounding profile with quantity to be added/subtractedWith these profiles, the given quantity is changed either by adding a percentage or subtracting a percentage.Only static rounding profiles are taken into account in requirements planning. Neither dynamic rounding profiles not quantity addition/ subtraction are taken into account.A material's base unit of measure is 1 unit; the purchase order is to be delivered in layers (1 layer corresponds to 5 units) or in pallets (1 pallet corresponds to 8 layers which contains 40 units).You maintain the profile as follows:From a requirements of 2 units, the system is to round up to 5; from a requirement of 32 units, the system is to round up to 40.This results in the following order proposal quantities:Requirement from 1 -> 1 requirement from 31 -> 30Requirement from 2 -> 5 requirement from 32 -> 40Requirement from 6 -> 10 requirement from 74 -> 80Requirement from 7 -> 10If no rounding profile has been entered, the system uses the rounding value entered in the material master record for the planning run.
roundingProfile
- Key that the system uses to adjust the order proposal quantity to deliverable units.public void setPlanningStrategyGroup(@Nullable String planningStrategyGroup)
Original property name from the Odata EDM: PlanningStrategyGroup
planningStrategyGroup
- The strategy group groups all the planning strategies that can be used for a particular material. The planning strategy represents the procedure used for planning a material and is (technically speaking) controlled by the MRP types.public void setDfltStorageLocationExtProcmt(@Nullable String dfltStorageLocationExtProcmt)
Original property name from the Odata EDM: DfltStorageLocationExtProcmt
dfltStorageLocationExtProcmt
- Key of the storage location that is proposed in the purchase requisition in materials planning for subsequent storage of the material. In the case of a material procured externally, this storage location is proposed in the planned order in materials planning.public void setMRPPlanningCalendar(@Nullable String mRPPlanningCalendar)
Original property name from the Odata EDM: MRPPlanningCalendar
mRPPlanningCalendar
- Three character number (numeric or using letters) that specifically identifies a PPS-planning calendar.public void setRepetitiveManufacturingIsAllwd(@Nullable Boolean repetitiveManufacturingIsAllwd)
Original property name from the Odata EDM: RepetitiveManufacturingIsAllwd
You can only backflush in repetitive manufacturing if you have set this indicator.If you set this indicator, you must also specify a repetitive manufacturing profile for this material.
repetitiveManufacturingIsAllwd
- Authorizes the material for repetitive manufacturing.public void setRepetitiveManufacturingProfile(@Nullable String repetitiveManufacturingProfile)
Original property name from the Odata EDM: RepetitiveManufacturingProfile
The repetitive manufacturing profile also determines;how the system deals with activities when backflushingwhich movement type is used to post goods receipts and goods issueshow planned order and run schedule quantities are reduced in the backflush transactionhow BOM corrections are made - if errors should occur when posting quantities to be backflushed
repetitiveManufacturingProfile
- Controls, via order type, whether you are working with make-to-order repetitive manufacturing, based on sales orders, or with make-to-stock repetitive manufacturing, based on no specific orders.public void setPlanningTimeFenceInDays(@Nullable String planningTimeFenceInDays)
Original property name from the Odata EDM: PlanningTimeFenceInDays
The planning time fence is maintained in workdays.It is only used for materials that are planned using an MRP type which includes a firming type.The firming type determines how order proposlas are to be created or scheduled within the planning time fence.
planningTimeFenceInDays
- The planning time fence specifies a period within which no automatic changes are to be made to the master plan.public void setMRPType(@Nullable String mRPType)
Original property name from the Odata EDM: MRPType
Manual reorder point planningAutomatic reorder point planningForecast-based planningMaterial requirements planning with forecasts for unplanned consumptionMaster production scheduling (MPS)Demand-driven replenishment
mRPType
- Key that determines whether and how the material is planned. You have the following options:public void setMRPTypeName(@Nullable String mRPTypeName)
Original property name from the Odata EDM: MRPTypeName
mRPTypeName
- Short text for the MRP type that describes how a material is planned.public void setMaterialProcurementProfile(@Nullable String materialProcurementProfile)
Original property name from the Odata EDM: MaterialProcurementProfile
You use special procurement when you want to be able to override the procurement type in the material master or define the procurement type more precisely.If the procurement type is in-house, you can nevertheless force the system to ignore the BOM and routing, and process the material as if it were externally procured, by specifying the special procurement as external.Enter the special procurement type to which you want to restrict the selection.If you procure a material externally, you may want to choose the special procurement type Consignment. If you produce the material in-house, it may be appropriate to choose Production in other plant.If a material has a routing but no BOM, it is treated as an externally procured material even if the procurement type is in-house. Both the BOM and the routing are ignored.However, if you specify the special procurement type as in-house, the routing is included even if the material has no BOM.
materialProcurementProfile
- Allows you to define the procurement type more exactly. The system determines the procurement type from the material type.public void setMaterialProcurementProfileName(@Nullable String materialProcurementProfileName)
Original property name from the Odata EDM: MaterialProcurementProfileName
materialProcurementProfileName
- Material Procurement Profile Namepublic void setProductionSupervisor(@Nullable String productionSupervisor)
Original property name from the Odata EDM: ProductionSupervisor
Among other things, the production supervisor determines how capacity requirements are calculated for a material during a scheduling run.
productionSupervisor
- Group responsible for controlling the production of a material.public void setProductionSupervisorName(@Nullable String productionSupervisorName)
Original property name from the Odata EDM: ProductionSupervisorName
productionSupervisorName
- Production Supervisor Namepublic void setMaterialBaseQuantity(@Nullable BigDecimal materialBaseQuantity)
Original property name from the Odata EDM: MaterialBaseQuantity
materialBaseQuantity
- Quantity to which the in-house production time and the processing time of the material relate.public void setProductionInvtryManagedLoc(@Nullable String productionInvtryManagedLoc)
Original property name from the Odata EDM: ProductionInvtryManagedLoc
If the material is a component, it is the issuing storage location to which a backflush is posted.If the material is produced, it is the receiving storage location to which the receipt of the material is posted.
productionInvtryManagedLoc
- In the case of a material produced in-house, this is the key of the storage location that is copied to the planned order, production order, or run schedule quantity.public void setStorageLocationName(@Nullable String storageLocationName)
Original property name from the Odata EDM: StorageLocationName
storageLocationName
- Storage Location Namepublic void setAuthorizationGroup(@Nullable String authorizationGroup)
Original property name from the Odata EDM: AuthorizationGroup
In order to carry out a specific activity, the user must have authorization for the combination of the activity and the authorization group.
authorizationGroup
- The authorization group enables you protect access to certain objects.protected String getEntityCollection()
getEntityCollection
in class VdmEntity<MRPMaterial>
protected Map<String,Object> getKey()
getKey
in class VdmObject<MRPMaterial>
@Nonnull protected Map<String,Object> toMapOfFields()
toMapOfFields
in class VdmObject<MRPMaterial>
protected void fromMap(Map<String,Object> inputValues)
fromMap
in class VdmObject<MRPMaterial>
@Nonnull public static <T> MRPMaterialField<T> field(@Nonnull String fieldName, @Nonnull Class<T> fieldType)
fieldName
- The name of the extension field as returned by the OData service.fieldType
- The Java type to use for the extension field when performing value comparisons.@Nonnull public static <T,DomainT> MRPMaterialField<T> field(@Nonnull String fieldName, @Nonnull TypeConverter<T,DomainT> typeConverter)
typeConverter
- A TypeConverterfieldName
- The name of the extension field as returned by the OData service.public static MRPMaterial.MRPMaterialBuilder builder()
@Nullable public String getMaterial()
Original property name from the Odata EDM: Material
@Nullable public String getMRPPlant()
Original property name from the Odata EDM: MRPPlant
@Nullable public String getMRPArea()
Original property name from the Odata EDM: MRPArea
@Nullable public String getMaterialName()
Original property name from the Odata EDM: MaterialName
You can enter one product description in each of any number of languages.In principle, you enter the product description on the data screen of the first user department for which you enter data, and in your logon language. You can overwrite the product description on the Basic Data screen.
@Nullable public String getPlantName()
Original property name from the Odata EDM: PlantName
@Nullable public String getMRPAreaText()
Original property name from the Odata EDM: MRPAreaText
@Nullable public String getMRPAreaCategory()
Original property name from the Odata EDM: MRPAreaCategory
The MRP area of the category plant contains a whole plant. The system automatically creates the plant MRP area when converting the planning file entries.The MRP area of the category storage location can contain one or several storage locations. You assign the storage location to the MRP area in the storage location fieldA storage location can, however, only be assigned to one MRP area.With the subcontractor category the MRP area contains just one subcontractor/supplier. This enables you to specifically plan the components to be provided for this subcontractor. You assign the subcontractor in the subcontractor field.A subcontractor, however, may only ever be assigned to one MRP area.You want to plan the components that are required for a particular assembly line. Therefore, you define an MRP area of the category storage location and assign it the production storage location from which you are taking the components that are required on the assembly line.
@Nullable public String getMRPAreaCategoryName()
Original property name from the Odata EDM: MRPAreaCategoryName
@Nullable public String getMaterialGroup()
Original property name from the Odata EDM: MaterialGroup
You can use material groups to:Restrict the scope of analysesSearch specifically for product master records via search helpsIf you have not defined a material group hierarchy using the classification system, you maintain product groups in Customizing for the Material Master in Define material groups.If you have defined a product group hierarchy, which is normally the case in retail, you maintain product groups in Customizing for Material Groups or from the initial Retailing screen by choosing Master data -> Material group.
@Nullable public String getMaterialGroupName()
Original property name from the Odata EDM: MaterialGroupName
@Nullable public Boolean getMaterialIsMarkedForDeletion()
Original property name from the Odata EDM: MaterialIsMarkedForDeletion
A reorganization program deletes the master record from the system if you have entered a delete flag for it in the master record.You cannot delete master records online.
@Nullable public Boolean getPlntMatlIsMarkedForDeletion()
Original property name from the Odata EDM: PlntMatlIsMarkedForDeletion
@Nullable public String getCrossPlantStatus()
Original property name from the Odata EDM: CrossPlantStatus
Materials management (for example, in purchasing and in inventory management)Production planning and controlPlant maintenanceWarehouse managementCosting with a quantity structureThe cross-plant product status restricts the usability of the product for all plants, that is, it defines whether a warning or error message is displayed if you include the product in a particular function.The product may be a part under development or one to be discontinued.
@Nullable public String getCrossPlantStatusName()
Original property name from the Odata EDM: CrossPlantStatusName
@Nullable public String getBaseUnit()
Original property name from the Odata EDM: BaseUnit
You define the base unit of measure and also alternative units of measure and their conversion factors in the material master record.Since all data is updated in the base unit of measure, your entry is particularly important for the conversion of alternative units of measure. A quantity in the alternative unit of measure can only be shown precisely if its value can be shown with the decimal places available. To ensure this, please note the following:The base unit of measure is the unit satisfying the highest necessary requirement for precision.The conversion of alternative units of measure to the base unit should result in simple decimal fractions (not, for example, 1/3 = 0.333...).Inventory ManagementIn Inventory Management, the base unit of measure is the same as the stockkeeping unit.ServicesServices have units of measure of their own, including the following:Service unitUnit of measure at the higher item level. The precise quantities of the individual services are each at the detailed service line level.BlanketUnit of measure at service line level for services to be provided once only, and for which no precise quantities can or are to be specified.
@Nullable public String getUnitOfMeasureName()
Original property name from the Odata EDM: UnitOfMeasureName
@Nullable public String getLowLevelCode()
Original property name from the Odata EDM: LowLevelCode
The level that is set in the material master record represents the level at which the material will be planned. This means that the material will only be planned once all assemblies in which it occurs have been planned and exploded.The low-level code is set internally in the material master record when the BOM is maintained.
@Nullable public Boolean getMaterialIsConfigurable()
Original property name from the Odata EDM: MaterialIsConfigurable
If this indicator is set, you can assign a variant class to the material, making it possible to use it as a configurable material.You can set the indicator manually in the material master record, irrespective of the material type.
@Nullable public String getMaterialUsabilityProfile()
Original property name from the Odata EDM: MaterialUsabilityProfile
Materials management (for example, in purchasing and in inventory management)Production planning and controlPlant maintenanceWarehouse managementCosting with a quantity structureThe plant-specific material status restricts the usability of the material for the plant concerned, that is, it defines whether a warning or error message is displayed if you include the material in a particular function.The material may be a part under development or one to be discontinued.
@Nullable public String getMaterialUsabilityProfileName()
Original property name from the Odata EDM: MaterialUsabilityProfileName
@Nullable public String getMaterialABCClassification()
Original property name from the Odata EDM: MaterialABCClassification
The three indicators have the following meanings:A - important part, high consumption valueB - less important part, medium consumption valueC - relatively unimportant part, low consumption value
@Nullable public String getMaterialABCClassificationDesc()
Original property name from the Odata EDM: MaterialABCClassificationDesc
@Nullable public String getPurchasingGroup()
Original property name from the Odata EDM: PurchasingGroup
Internally, the purchasing group is responsible for the procurement of a material or a class of materials.Externally, it is the medium through which contacts with the vendor are maintained.
@Nullable public String getPurchasingGroupName()
Original property name from the Odata EDM: PurchasingGroupName
@Nullable public String getMaterialProcurementCategory()
Original property name from the Odata EDM: MaterialProcurementCategory
The material is produced in-house.The material is procured externally.The material can be both produced in-house and procured externally.
@Nullable public String getMaterialProcurementCatName()
Original property name from the Odata EDM: MaterialProcurementCatName
@Nullable public String getDependentRequirementsType()
Original property name from the Odata EDM: DependentRequirementsType
Individual requirementsRequirement quantities of the dependent material are stated individually.Collective requirementsRequirement quantities of the dependent material are grouped together.You can maintain this indicator in the following places:In the material master recordFor the explosion type of the BOM item (in Customizing for Basic Data in Define Explosion Types)The setting for the explosion type overrides that in the material master record.If the material is assigned to a material type that does not allow quantity-based inventory management in this plant, you can set the indicator to individual requirements only.If the stock is to be managed in sales order stock or project stock, the indicator must be set to one of the following options:Individual and collective requirementsIndividual requirements onlyIf a material managed in project stock is to be procured from another plant using a cross-company-code stock transport order, the indicator must be set to 2 (collective requirements) in the issuing plant because, in this specific context, individual project stock management is not possible in both plants.
@Nullable public String getDependentRequirementsTypeName()
Original property name from the Odata EDM: DependentRequirementsTypeName
SeeTask-Oriented InstructionsReference Documentation for Semantic Properties of Domains
@Nullable public String getMatlCompDiscontinuationType()
Original property name from the Odata EDM: MatlCompDiscontinuationType
@Nullable public String getMatlCompDscontnTypeName()
Original property name from the Odata EDM: MatlCompDscontnTypeName
SeeTask-Oriented InstructionsReference Documentation for Semantic Properties of Domains
@Nullable public LocalDateTime getEffectiveOutDate()
Original property name from the Odata EDM: EffectiveOutDate
From this date, the system reassigns the dependent requirements that are no longer covered by warehouse stock of the discontinued material to the follow-up material. This is done as part of material requirements planning.Enter a date if you want to plan the discontinuation of a material for the long term.
@Nullable public String getMaterialType()
Original property name from the Odata EDM: MaterialType
The product type defines certain attributes of the material and has important control functions.
@Nullable public String getMaterialTypeName()
Original property name from the Odata EDM: MaterialTypeName
@Nullable public String getMRPGroup()
Original property name from the Odata EDM: MRPGroup
@Nullable public String getMRPGroupName()
Original property name from the Odata EDM: MRPGroupName
The MRP group groups materials from an MRP point of view to allocate their control parameters for planning. These control parameters include, for example, the strategy group, the consumption mode, and the planning horizon.
@Nullable public String getMRPController()
Original property name from the Odata EDM: MRPController
@Nullable public String getMRPControllerName()
Original property name from the Odata EDM: MRPControllerName
@Nullable public String getRangeOfCvrgPrflCode()
Original property name from the Odata EDM: RangeOfCvrgPrflCode
@Nullable public String getSchedulingFloatProfile()
Original property name from the Odata EDM: SchedulingFloatProfile
opening periodfloat after production (only in the case of in-house production)float before production (only in the case of in-house production)release period (only in the case of production order management)Floats are maintained in workdays.
@Nullable public String getConfigurableProduct()
Original property name from the Odata EDM: ConfigurableProduct
@Nullable public String getConfigurableProductName()
Original property name from the Odata EDM: ConfigurableProductName
You can enter one product description in each of any number of languages.In principle, you enter the product description on the data screen of the first user department for which you enter data, and in your logon language. You can overwrite the product description on the Basic Data screen.
@Nullable public BigDecimal getProcessingTime()
Original property name from the Odata EDM: ProcessingTime
The processing time depends on the order quantity.
@Nullable public BigDecimal getSetupAndTeardownTime()
Original property name from the Odata EDM: SetupAndTeardownTime
The setup and teardown time is independent of the order quantity.
@Nullable public BigDecimal getTransitionTime()
Original property name from the Odata EDM: TransitionTime
Move timeQueue timeWait timeFloat before productionFloat after productionPlanned delivery time of an operation processed externallyThe interoperation time is independent of the order quantity.
@Nullable public BigDecimal getGoodsReceiptDuration()
Original property name from the Odata EDM: GoodsReceiptDuration
@Nullable public BigDecimal getMaterialPlannedDeliveryDurn()
Original property name from the Odata EDM: MaterialPlannedDeliveryDurn
If you have different vendors for a material, you must specify an average value. The same applies if you order the material from a fixed vendor that has varying delivery times.If you use the SAP Retail System, the planned delivery time can be suggested from the vendor sub-range in the vendor master record.
@Nullable public BigDecimal getMaterialPlannedProductionDurn()
Original property name from the Odata EDM: MaterialPlannedProductionDurn
In-house production time is independent of the order quantity.
@Nullable public BigDecimal getTotalReplenishmentLeadDuration()
Original property name from the Odata EDM: TotalReplenishmentLeadDuration
This time is necessary if, for materials produced in-house, the replenishment lead time is to be taken into consideration in the availability check.In an availability check where the system takes the replenishment lead time into consideration, it only checks whether there are sufficient incoming quantities and stocks available to cover the requirements within the replenishment lead time. Outside the replenishment lead time,the system assumes that the material is available in sufficient quantity.Therefore, in this situation, it is usually necessary to depict the product's total replenishment lead time with all BOM levels as the replenishment lead time.The following options exist for materials produced in-house if the replenishment lead time is included in the availability check:The Total replenishment lead time field is maintained.In this case, the time maintained in this field is used for the availability check.The Total replenishment lead time field is not maintained.In this case, the system reads the in-house production time and, if available, the goods receipt processing time, and interprets the total of these two times as the replenishment lead time for the availability check.There is no point in maintaining the Total replenishment lead time field for materials procured externally. In external procurement, the system adds the processing time from purchasing, the planned delivery time, and the goods receipt processing time and uses this total as the replenishment lead time for an availability check with replenishment lead time.
@Nullable public String getIsSafetyTime()
Original property name from the Odata EDM: IsSafetyTime
If you define a safety time, the requirements in MRP are brought forward on the time axis by the number of workdays you define here. The actual range of coverage corresponds to the number of days, by which the requirements are brought forward.Using this indicator you can activate the safety time and you can set whether all requirements or only independent requirements (sales order, planned independent requirements, and so on) are to be brought forward.The actual requirements dates are not changed.
@Nullable public String getMRPSafetyDuration()
Original property name from the Odata EDM: MRPSafetyDuration
If you define a safety time, the requirements in MRP are brought forward on the time axis by the number of workdays you define here.This does not change the actual requirements dates. However, as the requirements have technically been brought forward, receipts are created for the earlier dates in MRP.Time-phased materials planning is based on the interval between the MRP date and the availabilty date of the next MRP date. By using the safety time/ actual range of coverage, the number of days to the interval are included in the calculation.
@Nullable public String getPerdPrflForSftyTme()
Original property name from the Odata EDM: PerdPrflForSftyTme
In order to smooth out seasonal fluctuations, for any definable period you can define a safety time/actual range of coverage that varies from what you have maintained in the material master in the field safety time/actual range of coverage. If, for example, a higher actual range of coverage than usual is required due to higher demand during the Christmas period, you can define the period with the desired actual range of coverage in the period profile.You can also use the period profile to represent a safety time of less than one day. You do this by entering a safety time % in addition to the safety time.
@Nullable public BigDecimal getReorderThresholdQuantity()
Original property name from the Odata EDM: ReorderThresholdQuantity
@Nullable public BigDecimal getSafetyStockQuantity()
Original property name from the Odata EDM: SafetyStockQuantity
@Nullable public String getLotSizingProcedure()
Original property name from the Odata EDM: LotSizingProcedure
@Nullable public String getMaterialLotSizingProcedureName()
Original property name from the Odata EDM: MaterialLotSizingProcedureName
@Nullable public BigDecimal getMinimumLotSizeQuantity()
Original property name from the Odata EDM: MinimumLotSizeQuantity
@Nullable public BigDecimal getMaximumLotSizeQuantity()
Original property name from the Odata EDM: MaximumLotSizeQuantity
The system takes this value into account during the automatic lot size calculation for planned orders and production orders. The lot size of the individual orders cannot exceed this value.
@Nullable public BigDecimal getFixedLotSizeQuantity()
Original property name from the Odata EDM: FixedLotSizeQuantity
If the amount of the shortage is less than the fixed lot size, it is the fixed lot size that is ordered or produced (and not the lesser quantity that is actually required).If the amount of the shortage is greater than the fixed lot size, a multiple of the fixed lot size is procured. The system creates several purchase order proposals for this purpose.
@Nullable public BigDecimal getMaterialMaxStockLevelQuantity()
Original property name from the Odata EDM: MaterialMaxStockLevelQuantity
In materials planning, the maximum stock level is used only if you have chosen Replenish to maximum stock level as the lot-sizing procedure; that is, you have entered HB as the lot size key.Enter a value if you have chosen Replenish to maximum stock level as the lot-sizing procedure.
@Nullable public BigDecimal getLotSizeIndependentCosts()
Original property name from the Odata EDM: LotSizeIndependentCosts
The ordering costs are used only for calculating the lot size in optimum lot-sizing procedures. You must specify the ordering costs in the currency of the company code belonging to the plant.
@Nullable public String getStorageCostsPercentageCode()
Original property name from the Odata EDM: StorageCostsPercentageCode
The storage costs percentage is based on the quantity stored and the unit price, and refers to the average value of the materials stored.The percentage is considered constant for the stocking-up period. It normally lies between 15 and 35%.The storage costs percentage is used by optimizing lot-sizing procedures to calculate the lot size, but not for any other purpose.
@Nullable public BigDecimal getAssemblyScrapPercent()
Original property name from the Odata EDM: AssemblyScrapPercent
The assembly scrap is used in materials planning to calculate the lot size of the assembly. The system increases the quantity to be produced by the scrap quantity calculated.If the material is an assembly, specify the percentage scrap as required.If the quantity to be produced is 200 pieces and you specify an assembly scrap of 10%, you are reckoning with a scrap quantity of 20 pieces. As a result, 220 pieces are produced.The system increases the quantity to be produced for all of the assembly's components accordingly.
@Nullable public BigDecimal getTaktTime()
Original property name from the Odata EDM: TaktTime
You enter the takt time in workdays.The system uses the takt time if a requirement is covered by several receipt elements due to restrictions on lot size such as maximum lot size (with all lot-sizing procedures) or rounding value (with fixed lot size with splitting).
@Nullable public BigDecimal getPurOrderQtyRoundingQty()
Original property name from the Odata EDM: PurOrderQtyRoundingQty
The rounding value is used in the planning run if no rounding profile has been specified in the material master record.
@Nullable public String getRoundingProfile()
Original property name from the Odata EDM: RoundingProfile
In Customizing, enter a threshold value from which the system should round up to the next value per deliverable unit:If the requirements value exceeds the first threshold value, the system always rounds up to the next multiple of the level foundIf the requirements value falls below the first threshold value, the system copies the original requirements value.Two other types of rounding exist:Dynamic rounding profile:These profiles are used to round up quantities to logistical units of measure (for example, layers). The contents of a logistical unit of measure does not have to be know when creating the rounding profile. It is determined by the master data from the material master.Rounding profile with quantity to be added/subtractedWith these profiles, the given quantity is changed either by adding a percentage or subtracting a percentage.Only static rounding profiles are taken into account in requirements planning. Neither dynamic rounding profiles not quantity addition/ subtraction are taken into account.A material's base unit of measure is 1 unit; the purchase order is to be delivered in layers (1 layer corresponds to 5 units) or in pallets (1 pallet corresponds to 8 layers which contains 40 units).You maintain the profile as follows:From a requirements of 2 units, the system is to round up to 5; from a requirement of 32 units, the system is to round up to 40.This results in the following order proposal quantities:Requirement from 1 -> 1 requirement from 31 -> 30Requirement from 2 -> 5 requirement from 32 -> 40Requirement from 6 -> 10 requirement from 74 -> 80Requirement from 7 -> 10If no rounding profile has been entered, the system uses the rounding value entered in the material master record for the planning run.
@Nullable public String getPlanningStrategyGroup()
Original property name from the Odata EDM: PlanningStrategyGroup
@Nullable public String getDfltStorageLocationExtProcmt()
Original property name from the Odata EDM: DfltStorageLocationExtProcmt
@Nullable public String getMRPPlanningCalendar()
Original property name from the Odata EDM: MRPPlanningCalendar
@Nullable public Boolean getRepetitiveManufacturingIsAllwd()
Original property name from the Odata EDM: RepetitiveManufacturingIsAllwd
You can only backflush in repetitive manufacturing if you have set this indicator.If you set this indicator, you must also specify a repetitive manufacturing profile for this material.
@Nullable public String getRepetitiveManufacturingProfile()
Original property name from the Odata EDM: RepetitiveManufacturingProfile
The repetitive manufacturing profile also determines;how the system deals with activities when backflushingwhich movement type is used to post goods receipts and goods issueshow planned order and run schedule quantities are reduced in the backflush transactionhow BOM corrections are made - if errors should occur when posting quantities to be backflushed
@Nullable public String getPlanningTimeFenceInDays()
Original property name from the Odata EDM: PlanningTimeFenceInDays
The planning time fence is maintained in workdays.It is only used for materials that are planned using an MRP type which includes a firming type.The firming type determines how order proposlas are to be created or scheduled within the planning time fence.
@Nullable public String getMRPType()
Original property name from the Odata EDM: MRPType
Manual reorder point planningAutomatic reorder point planningForecast-based planningMaterial requirements planning with forecasts for unplanned consumptionMaster production scheduling (MPS)Demand-driven replenishment
@Nullable public String getMRPTypeName()
Original property name from the Odata EDM: MRPTypeName
@Nullable public String getMaterialProcurementProfile()
Original property name from the Odata EDM: MaterialProcurementProfile
You use special procurement when you want to be able to override the procurement type in the material master or define the procurement type more precisely.If the procurement type is in-house, you can nevertheless force the system to ignore the BOM and routing, and process the material as if it were externally procured, by specifying the special procurement as external.Enter the special procurement type to which you want to restrict the selection.If you procure a material externally, you may want to choose the special procurement type Consignment. If you produce the material in-house, it may be appropriate to choose Production in other plant.If a material has a routing but no BOM, it is treated as an externally procured material even if the procurement type is in-house. Both the BOM and the routing are ignored.However, if you specify the special procurement type as in-house, the routing is included even if the material has no BOM.
@Nullable public String getMaterialProcurementProfileName()
Original property name from the Odata EDM: MaterialProcurementProfileName
@Nullable public String getProductionSupervisor()
Original property name from the Odata EDM: ProductionSupervisor
Among other things, the production supervisor determines how capacity requirements are calculated for a material during a scheduling run.
@Nullable public String getProductionSupervisorName()
Original property name from the Odata EDM: ProductionSupervisorName
@Nullable public BigDecimal getMaterialBaseQuantity()
Original property name from the Odata EDM: MaterialBaseQuantity
@Nullable public String getProductionInvtryManagedLoc()
Original property name from the Odata EDM: ProductionInvtryManagedLoc
If the material is a component, it is the issuing storage location to which a backflush is posted.If the material is produced, it is the receiving storage location to which the receipt of the material is posted.
@Nullable public String getStorageLocationName()
Original property name from the Odata EDM: StorageLocationName
@Nullable public String getAuthorizationGroup()
Original property name from the Odata EDM: AuthorizationGroup
In order to carry out a specific activity, the user must have authorization for the combination of the activity and the authorization group.
@Nullable public ErpConfigContext getErpConfigContext()
public void setErpConfigContext(@Nullable ErpConfigContext erpConfigContext)
setErpConfigContext
in class VdmEntity<MRPMaterial>
erpConfigContext
- public String toString()
toString
in class VdmObject<MRPMaterial>
public boolean equals(Object o)
equals
in class VdmObject<MRPMaterial>
protected boolean canEqual(Object other)
canEqual
in class VdmObject<MRPMaterial>
public int hashCode()
hashCode
in class VdmObject<MRPMaterial>
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