Cloud Optimization V1 API - Class Google::Cloud::Optimization::V1::ShipmentModel (v0.2.1)

Reference documentation and code samples for the Cloud Optimization V1 API class Google::Cloud::Optimization::V1::ShipmentModel.

A shipment model contains a set of shipments which must be performed by a set of vehicles, while minimizing the overall cost, which is the sum of:

  • the cost of routing the vehicles (sum of cost per total time, cost per travel time, and fixed cost over all vehicles).
  • the unperformed shipment penalties.
  • the cost of the global duration of the shipments

Inherits

  • Object

Extended By

  • Google::Protobuf::MessageExts::ClassMethods

Includes

  • Google::Protobuf::MessageExts

Methods

#break_rules

def break_rules() -> ::Array<::Google::Cloud::Optimization::V1::ShipmentModel::BreakRule>
Returns

#break_rules=

def break_rules=(value) -> ::Array<::Google::Cloud::Optimization::V1::ShipmentModel::BreakRule>
Parameter
Returns

#duration_distance_matrices

def duration_distance_matrices() -> ::Array<::Google::Cloud::Optimization::V1::ShipmentModel::DurationDistanceMatrix>
Returns
  • (::Array<::Google::Cloud::Optimization::V1::ShipmentModel::DurationDistanceMatrix>) — Specifies duration and distance matrices used in the model. If this field is empty, Google Maps or geodesic distances will be used instead, depending on the value of the use_geodesic_distances field. If it is not empty, use_geodesic_distances cannot be true and neither duration_distance_matrix_src_tags nor duration_distance_matrix_dst_tags can be empty.

    Usage examples:

    • There are two locations: locA and locB.
    • 1 vehicle starting its route at locA and ending it at locA.
    • 1 pickup visit request at locB.

    model { vehicles { start_tags: "locA" end_tags: "locA" } shipments { pickups { tags: "locB" } } duration_distance_matrix_src_tags: "locA" duration_distance_matrix_src_tags: "locB" duration_distance_matrix_dst_tags: "locA" duration_distance_matrix_dst_tags: "locB" duration_distance_matrices { rows { # from: locA durations { seconds: 0 } meters: 0 # to: locA durations { seconds: 100 } meters: 1000 # to: locB } rows { # from: locB durations { seconds: 102 } meters: 990 # to: locA durations { seconds: 0 } meters: 0 # to: locB } } }

    • There are three locations: locA, locB and locC.
    • 1 vehicle starting its route at locA and ending it at locB, using matrix "fast".
    • 1 vehicle starting its route at locB and ending it at locB, using matrix "slow".
    • 1 vehicle starting its route at locB and ending it at locB, using matrix "fast".
    • 1 pickup visit request at locC.

    model { vehicles { start_tags: "locA" end_tags: "locB" start_tags: "fast" } vehicles { start_tags: "locB" end_tags: "locB" start_tags: "slow" } vehicles { start_tags: "locB" end_tags: "locB" start_tags: "fast" } shipments { pickups { tags: "locC" } } duration_distance_matrix_src_tags: "locA" duration_distance_matrix_src_tags: "locB" duration_distance_matrix_src_tags: "locC" duration_distance_matrix_dst_tags: "locB" duration_distance_matrix_dst_tags: "locC" duration_distance_matrices { vehicle_start_tag: "fast" rows { # from: locA durations { seconds: 1000 } meters: 2000 # to: locB durations { seconds: 600 } meters: 1000 # to: locC } rows { # from: locB durations { seconds: 0 } meters: 0 # to: locB durations { seconds: 700 } meters: 1200 # to: locC } rows { # from: locC durations { seconds: 702 } meters: 1190 # to: locB durations { seconds: 0 } meters: 0 # to: locC } } duration_distance_matrices { vehicle_start_tag: "slow" rows { # from: locA durations { seconds: 1800 } meters: 2001 # to: locB durations { seconds: 900 } meters: 1002 # to: locC } rows { # from: locB durations { seconds: 0 } meters: 0 # to: locB durations { seconds: 1000 } meters: 1202 # to: locC } rows { # from: locC durations { seconds: 1001 } meters: 1195 # to: locB durations { seconds: 0 } meters: 0 # to: locC } } }

#duration_distance_matrices=

def duration_distance_matrices=(value) -> ::Array<::Google::Cloud::Optimization::V1::ShipmentModel::DurationDistanceMatrix>
Parameter
  • value (::Array<::Google::Cloud::Optimization::V1::ShipmentModel::DurationDistanceMatrix>) — Specifies duration and distance matrices used in the model. If this field is empty, Google Maps or geodesic distances will be used instead, depending on the value of the use_geodesic_distances field. If it is not empty, use_geodesic_distances cannot be true and neither duration_distance_matrix_src_tags nor duration_distance_matrix_dst_tags can be empty.

    Usage examples:

    • There are two locations: locA and locB.
    • 1 vehicle starting its route at locA and ending it at locA.
    • 1 pickup visit request at locB.

    model { vehicles { start_tags: "locA" end_tags: "locA" } shipments { pickups { tags: "locB" } } duration_distance_matrix_src_tags: "locA" duration_distance_matrix_src_tags: "locB" duration_distance_matrix_dst_tags: "locA" duration_distance_matrix_dst_tags: "locB" duration_distance_matrices { rows { # from: locA durations { seconds: 0 } meters: 0 # to: locA durations { seconds: 100 } meters: 1000 # to: locB } rows { # from: locB durations { seconds: 102 } meters: 990 # to: locA durations { seconds: 0 } meters: 0 # to: locB } } }

    • There are three locations: locA, locB and locC.
    • 1 vehicle starting its route at locA and ending it at locB, using matrix "fast".
    • 1 vehicle starting its route at locB and ending it at locB, using matrix "slow".
    • 1 vehicle starting its route at locB and ending it at locB, using matrix "fast".
    • 1 pickup visit request at locC.

    model { vehicles { start_tags: "locA" end_tags: "locB" start_tags: "fast" } vehicles { start_tags: "locB" end_tags: "locB" start_tags: "slow" } vehicles { start_tags: "locB" end_tags: "locB" start_tags: "fast" } shipments { pickups { tags: "locC" } } duration_distance_matrix_src_tags: "locA" duration_distance_matrix_src_tags: "locB" duration_distance_matrix_src_tags: "locC" duration_distance_matrix_dst_tags: "locB" duration_distance_matrix_dst_tags: "locC" duration_distance_matrices { vehicle_start_tag: "fast" rows { # from: locA durations { seconds: 1000 } meters: 2000 # to: locB durations { seconds: 600 } meters: 1000 # to: locC } rows { # from: locB durations { seconds: 0 } meters: 0 # to: locB durations { seconds: 700 } meters: 1200 # to: locC } rows { # from: locC durations { seconds: 702 } meters: 1190 # to: locB durations { seconds: 0 } meters: 0 # to: locC } } duration_distance_matrices { vehicle_start_tag: "slow" rows { # from: locA durations { seconds: 1800 } meters: 2001 # to: locB durations { seconds: 900 } meters: 1002 # to: locC } rows { # from: locB durations { seconds: 0 } meters: 0 # to: locB durations { seconds: 1000 } meters: 1202 # to: locC } rows { # from: locC durations { seconds: 1001 } meters: 1195 # to: locB durations { seconds: 0 } meters: 0 # to: locC } } }

Returns
  • (::Array<::Google::Cloud::Optimization::V1::ShipmentModel::DurationDistanceMatrix>) — Specifies duration and distance matrices used in the model. If this field is empty, Google Maps or geodesic distances will be used instead, depending on the value of the use_geodesic_distances field. If it is not empty, use_geodesic_distances cannot be true and neither duration_distance_matrix_src_tags nor duration_distance_matrix_dst_tags can be empty.

    Usage examples:

    • There are two locations: locA and locB.
    • 1 vehicle starting its route at locA and ending it at locA.
    • 1 pickup visit request at locB.

    model { vehicles { start_tags: "locA" end_tags: "locA" } shipments { pickups { tags: "locB" } } duration_distance_matrix_src_tags: "locA" duration_distance_matrix_src_tags: "locB" duration_distance_matrix_dst_tags: "locA" duration_distance_matrix_dst_tags: "locB" duration_distance_matrices { rows { # from: locA durations { seconds: 0 } meters: 0 # to: locA durations { seconds: 100 } meters: 1000 # to: locB } rows { # from: locB durations { seconds: 102 } meters: 990 # to: locA durations { seconds: 0 } meters: 0 # to: locB } } }

    • There are three locations: locA, locB and locC.
    • 1 vehicle starting its route at locA and ending it at locB, using matrix "fast".
    • 1 vehicle starting its route at locB and ending it at locB, using matrix "slow".
    • 1 vehicle starting its route at locB and ending it at locB, using matrix "fast".
    • 1 pickup visit request at locC.

    model { vehicles { start_tags: "locA" end_tags: "locB" start_tags: "fast" } vehicles { start_tags: "locB" end_tags: "locB" start_tags: "slow" } vehicles { start_tags: "locB" end_tags: "locB" start_tags: "fast" } shipments { pickups { tags: "locC" } } duration_distance_matrix_src_tags: "locA" duration_distance_matrix_src_tags: "locB" duration_distance_matrix_src_tags: "locC" duration_distance_matrix_dst_tags: "locB" duration_distance_matrix_dst_tags: "locC" duration_distance_matrices { vehicle_start_tag: "fast" rows { # from: locA durations { seconds: 1000 } meters: 2000 # to: locB durations { seconds: 600 } meters: 1000 # to: locC } rows { # from: locB durations { seconds: 0 } meters: 0 # to: locB durations { seconds: 700 } meters: 1200 # to: locC } rows { # from: locC durations { seconds: 702 } meters: 1190 # to: locB durations { seconds: 0 } meters: 0 # to: locC } } duration_distance_matrices { vehicle_start_tag: "slow" rows { # from: locA durations { seconds: 1800 } meters: 2001 # to: locB durations { seconds: 900 } meters: 1002 # to: locC } rows { # from: locB durations { seconds: 0 } meters: 0 # to: locB durations { seconds: 1000 } meters: 1202 # to: locC } rows { # from: locC durations { seconds: 1001 } meters: 1195 # to: locB durations { seconds: 0 } meters: 0 # to: locC } } }

#duration_distance_matrix_dst_tags

def duration_distance_matrix_dst_tags() -> ::Array<::String>
Returns
  • (::Array<::String>) — Tags defining the destinations of the duration and distance matrices; duration_distance_matrices(i).rows(j).durations(k) (resp. duration_distance_matrices(i).rows(j).meters(k)) defines the duration (resp. the distance) of the travel from visits with tag duration_distance_matrix_src_tags(j) to visits with tag duration_distance_matrix_dst_tags(k) in matrix i.

    Tags correspond to VisitRequest.tags or Vehicle.start_tags. A given VisitRequest or Vehicle must match exactly one tag in this field. Note that a Vehicle's source, destination and matrix tags may be the same; similarly a VisitRequest's source and destination tags may be the same. All tags must be different and cannot be empty strings. If this field is not empty, then duration_distance_matrices must not be empty.

#duration_distance_matrix_dst_tags=

def duration_distance_matrix_dst_tags=(value) -> ::Array<::String>
Parameter
  • value (::Array<::String>) — Tags defining the destinations of the duration and distance matrices; duration_distance_matrices(i).rows(j).durations(k) (resp. duration_distance_matrices(i).rows(j).meters(k)) defines the duration (resp. the distance) of the travel from visits with tag duration_distance_matrix_src_tags(j) to visits with tag duration_distance_matrix_dst_tags(k) in matrix i.

    Tags correspond to VisitRequest.tags or Vehicle.start_tags. A given VisitRequest or Vehicle must match exactly one tag in this field. Note that a Vehicle's source, destination and matrix tags may be the same; similarly a VisitRequest's source and destination tags may be the same. All tags must be different and cannot be empty strings. If this field is not empty, then duration_distance_matrices must not be empty.

Returns
  • (::Array<::String>) — Tags defining the destinations of the duration and distance matrices; duration_distance_matrices(i).rows(j).durations(k) (resp. duration_distance_matrices(i).rows(j).meters(k)) defines the duration (resp. the distance) of the travel from visits with tag duration_distance_matrix_src_tags(j) to visits with tag duration_distance_matrix_dst_tags(k) in matrix i.

    Tags correspond to VisitRequest.tags or Vehicle.start_tags. A given VisitRequest or Vehicle must match exactly one tag in this field. Note that a Vehicle's source, destination and matrix tags may be the same; similarly a VisitRequest's source and destination tags may be the same. All tags must be different and cannot be empty strings. If this field is not empty, then duration_distance_matrices must not be empty.

#duration_distance_matrix_src_tags

def duration_distance_matrix_src_tags() -> ::Array<::String>
Returns
  • (::Array<::String>) — Tags defining the sources of the duration and distance matrices; duration_distance_matrices(i).rows(j) defines durations and distances from visits with tag duration_distance_matrix_src_tags(j) to other visits in matrix i.

    Tags correspond to VisitRequest.tags or Vehicle.start_tags. A given VisitRequest or Vehicle must match exactly one tag in this field. Note that a Vehicle's source, destination and matrix tags may be the same; similarly a VisitRequest's source and destination tags may be the same. All tags must be different and cannot be empty strings. If this field is not empty, then duration_distance_matrices must not be empty.

#duration_distance_matrix_src_tags=

def duration_distance_matrix_src_tags=(value) -> ::Array<::String>
Parameter
  • value (::Array<::String>) — Tags defining the sources of the duration and distance matrices; duration_distance_matrices(i).rows(j) defines durations and distances from visits with tag duration_distance_matrix_src_tags(j) to other visits in matrix i.

    Tags correspond to VisitRequest.tags or Vehicle.start_tags. A given VisitRequest or Vehicle must match exactly one tag in this field. Note that a Vehicle's source, destination and matrix tags may be the same; similarly a VisitRequest's source and destination tags may be the same. All tags must be different and cannot be empty strings. If this field is not empty, then duration_distance_matrices must not be empty.

Returns
  • (::Array<::String>) — Tags defining the sources of the duration and distance matrices; duration_distance_matrices(i).rows(j) defines durations and distances from visits with tag duration_distance_matrix_src_tags(j) to other visits in matrix i.

    Tags correspond to VisitRequest.tags or Vehicle.start_tags. A given VisitRequest or Vehicle must match exactly one tag in this field. Note that a Vehicle's source, destination and matrix tags may be the same; similarly a VisitRequest's source and destination tags may be the same. All tags must be different and cannot be empty strings. If this field is not empty, then duration_distance_matrices must not be empty.

#global_duration_cost_per_hour

def global_duration_cost_per_hour() -> ::Float
Returns
  • (::Float) — The "global duration" of the overall plan is the difference between the earliest effective start time and the latest effective end time of all vehicles. Users can assign a cost per hour to that quantity to try and optimize for earliest job completion, for example. This cost must be in the same unit as Shipment.penalty_cost.

#global_duration_cost_per_hour=

def global_duration_cost_per_hour=(value) -> ::Float
Parameter
  • value (::Float) — The "global duration" of the overall plan is the difference between the earliest effective start time and the latest effective end time of all vehicles. Users can assign a cost per hour to that quantity to try and optimize for earliest job completion, for example. This cost must be in the same unit as Shipment.penalty_cost.
Returns
  • (::Float) — The "global duration" of the overall plan is the difference between the earliest effective start time and the latest effective end time of all vehicles. Users can assign a cost per hour to that quantity to try and optimize for earliest job completion, for example. This cost must be in the same unit as Shipment.penalty_cost.

#global_end_time

def global_end_time() -> ::Google::Protobuf::Timestamp
Returns

#global_end_time=

def global_end_time=(value) -> ::Google::Protobuf::Timestamp
Parameter
Returns

#global_start_time

def global_start_time() -> ::Google::Protobuf::Timestamp
Returns
  • (::Google::Protobuf::Timestamp) — Global start and end time of the model: no times outside of this range can be considered valid.

    The model's time span must be less than a year, i.e. the global_end_time and the global_start_time must be within 31536000 seconds of each other.

    When using cost_per_*hour fields, you might want to set this window to a smaller interval to increase performance (eg. if you model a single day, you should set the global time limits to that day). If unset, 00:00:00 UTC, January 1, 1970 (i.e. seconds: 0, nanos: 0) is used as default.

#global_start_time=

def global_start_time=(value) -> ::Google::Protobuf::Timestamp
Parameter
  • value (::Google::Protobuf::Timestamp) — Global start and end time of the model: no times outside of this range can be considered valid.

    The model's time span must be less than a year, i.e. the global_end_time and the global_start_time must be within 31536000 seconds of each other.

    When using cost_per_*hour fields, you might want to set this window to a smaller interval to increase performance (eg. if you model a single day, you should set the global time limits to that day). If unset, 00:00:00 UTC, January 1, 1970 (i.e. seconds: 0, nanos: 0) is used as default.

Returns
  • (::Google::Protobuf::Timestamp) — Global start and end time of the model: no times outside of this range can be considered valid.

    The model's time span must be less than a year, i.e. the global_end_time and the global_start_time must be within 31536000 seconds of each other.

    When using cost_per_*hour fields, you might want to set this window to a smaller interval to increase performance (eg. if you model a single day, you should set the global time limits to that day). If unset, 00:00:00 UTC, January 1, 1970 (i.e. seconds: 0, nanos: 0) is used as default.

#max_active_vehicles

def max_active_vehicles() -> ::Integer
Returns
  • (::Integer) — Constrains the maximum number of active vehicles. A vehicle is active if its route performs at least one shipment. This can be used to limit the number of routes in the case where there are fewer drivers than vehicles and that the fleet of vehicles is heterogeneous. The optimization will then select the best subset of vehicles to use. Must be strictly positive.

#max_active_vehicles=

def max_active_vehicles=(value) -> ::Integer
Parameter
  • value (::Integer) — Constrains the maximum number of active vehicles. A vehicle is active if its route performs at least one shipment. This can be used to limit the number of routes in the case where there are fewer drivers than vehicles and that the fleet of vehicles is heterogeneous. The optimization will then select the best subset of vehicles to use. Must be strictly positive.
Returns
  • (::Integer) — Constrains the maximum number of active vehicles. A vehicle is active if its route performs at least one shipment. This can be used to limit the number of routes in the case where there are fewer drivers than vehicles and that the fleet of vehicles is heterogeneous. The optimization will then select the best subset of vehicles to use. Must be strictly positive.

#precedence_rules

def precedence_rules() -> ::Array<::Google::Cloud::Optimization::V1::ShipmentModel::PrecedenceRule>
Returns

#precedence_rules=

def precedence_rules=(value) -> ::Array<::Google::Cloud::Optimization::V1::ShipmentModel::PrecedenceRule>
Parameter
Returns

#shipment_type_incompatibilities

def shipment_type_incompatibilities() -> ::Array<::Google::Cloud::Optimization::V1::ShipmentTypeIncompatibility>
Returns

#shipment_type_incompatibilities=

def shipment_type_incompatibilities=(value) -> ::Array<::Google::Cloud::Optimization::V1::ShipmentTypeIncompatibility>
Parameter
Returns

#shipment_type_requirements

def shipment_type_requirements() -> ::Array<::Google::Cloud::Optimization::V1::ShipmentTypeRequirement>
Returns

#shipment_type_requirements=

def shipment_type_requirements=(value) -> ::Array<::Google::Cloud::Optimization::V1::ShipmentTypeRequirement>
Parameter
Returns

#shipments

def shipments() -> ::Array<::Google::Cloud::Optimization::V1::Shipment>
Returns

#shipments=

def shipments=(value) -> ::Array<::Google::Cloud::Optimization::V1::Shipment>
Parameter
Returns

#transition_attributes

def transition_attributes() -> ::Array<::Google::Cloud::Optimization::V1::TransitionAttributes>
Returns

#transition_attributes=

def transition_attributes=(value) -> ::Array<::Google::Cloud::Optimization::V1::TransitionAttributes>
Parameter
Returns

#vehicles

def vehicles() -> ::Array<::Google::Cloud::Optimization::V1::Vehicle>
Returns

#vehicles=

def vehicles=(value) -> ::Array<::Google::Cloud::Optimization::V1::Vehicle>
Parameter
Returns