pub struct VehicleBuilder(/* private fields */);Expand description
Provides a way to build a Vehicle.
Implementations§
Source§impl VehicleBuilder
impl VehicleBuilder
Sourcepub fn id(self, id: &str) -> Self
pub fn id(self, id: &str) -> Self
Sets a vehicle id dimension.
Examples found in repository?
examples/custom_objective.rs (line 102)
84fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
85 // create 4 jobs where two are having top prio
86 let single_jobs = (1..=4)
87 .map(|idx| {
88 SingleBuilder::default()
89 .id(format!("job{idx}").as_str())
90 .demand(Demand::delivery(1))
91 .dimension(|dimens| {
92 // mark two jobs as top priority (2 and 4 locations)
93 dimens.set_job_priority(idx % 2 == 0);
94 })
95 .location(idx)?
96 .build_as_job()
97 })
98 .collect::<Result<Vec<_>, _>>()?;
99
100 // define a single vehicle with limited capacity which doesn't need to return back to the depot
101 let vehicle = VehicleBuilder::default()
102 .id("v1".to_string().as_str())
103 .add_detail(VehicleDetailBuilder::default().set_start_location(0).build()?)
104 // only two jobs can be served by the vehicle
105 .capacity(SingleDimLoad::new(2))
106 .build()?;
107
108 ProblemBuilder::default()
109 .add_jobs(single_jobs.into_iter())
110 .add_vehicles(once(vehicle))
111 .with_goal(goal)
112 .with_transport_cost(transport)
113 .build()
114}More examples
examples/cvrp.rs (line 38)
20fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
21 // create 4 jobs with location indices from 1 to 4
22 let single_jobs = (1..=4)
23 .map(|idx| {
24 SingleBuilder::default()
25 .id(format!("job{idx}").as_str())
26 // each job is delivery job with demand=1
27 .demand(Demand::delivery(1))
28 // job has location, which is an index in routing matrix
29 .location(idx)?
30 .build_as_job()
31 })
32 .collect::<Result<Vec<_>, _>>()?;
33
34 // create 4 vehicles
35 let vehicles = (1..=4)
36 .map(|idx| {
37 VehicleBuilder::default()
38 .id(format!("v{idx}").as_str())
39 .add_detail(
40 VehicleDetailBuilder::default()
41 // vehicle starts at location with index 0 in routing matrix
42 .set_start_location(0)
43 // vehicle should return to location with index 0
44 .set_end_location(0)
45 .build()?,
46 )
47 // each vehicle has capacity=2, so it can serve at most 2 jobs
48 .capacity(SingleDimLoad::new(2))
49 .build()
50 })
51 .collect::<Result<Vec<_>, _>>()?;
52
53 ProblemBuilder::default()
54 .add_jobs(single_jobs.into_iter())
55 .add_vehicles(vehicles.into_iter())
56 .with_goal(goal)
57 .with_transport_cost(transport)
58 .build()
59}examples/custom_constraint.rs (line 72)
52fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
53 // create 4 jobs when second and forth have fridge requirement
54 let single_jobs = (1..=4)
55 .map(|idx| {
56 SingleBuilder::default()
57 .id(format!("job{idx}").as_str())
58 .demand(Demand::delivery(1))
59 .dimension(|dimens| {
60 // all jobs have fridge requirements, but only one vehicle will be allowed to serve them
61 dimens.set_job_hardware("fridge".to_string());
62 })
63 .location(idx)?
64 .build_as_job()
65 })
66 .collect::<Result<Vec<_>, _>>()?;
67
68 // create 2 vehicles
69 let vehicles = (1..=2)
70 .map(|idx| {
71 VehicleBuilder::default()
72 .id(format!("v{idx}").as_str())
73 .add_detail(
74 VehicleDetailBuilder::default()
75 // vehicle starts at location with index 0 in routing matrix
76 .set_start_location(0)
77 // vehicle should return to location with index 0
78 .set_end_location(0)
79 .build()?,
80 )
81 .dimension(|dimens| {
82 if idx % 2 == 0 {
83 // only one vehicle has a hardware requirement set to 'fridge'
84 dimens.set_vehicle_hardware(once("fridge".to_string()).collect());
85 }
86 })
87 // each vehicle has capacity=2, so it can serve at most 2 jobs
88 .capacity(SingleDimLoad::new(2))
89 .build()
90 })
91 .collect::<Result<Vec<_>, _>>()?;
92
93 ProblemBuilder::default()
94 .add_jobs(single_jobs.into_iter())
95 .add_vehicles(vehicles.into_iter())
96 .with_goal(goal)
97 .with_transport_cost(transport)
98 .build()
99}examples/pdptw.rs (line 51)
22fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
23 // build two PUDO (pick up/drop off) jobs with demand=1 and permissive time windows (just to show API usage)
24 let pudos = (1..=2)
25 .map(|idx| {
26 let location_idx = if idx == 1 { 1 } else { 3 };
27 MultiBuilder::default()
28 .id(format!("pudo{idx}").as_str())
29 .add_job(
30 SingleBuilder::default()
31 .demand(Demand::pudo_pickup(1))
32 .times(vec![TimeWindow::new(0., 1000.)])?
33 .duration(10.)?
34 .location(location_idx)?
35 .build()?,
36 )
37 .add_job(
38 SingleBuilder::default()
39 .demand(Demand::pudo_delivery(1))
40 .times(vec![TimeWindow::new(0., 1000.)])?
41 .duration(10.)?
42 .location(location_idx + 1)?
43 .build()?,
44 )
45 .build_as_job()
46 })
47 .collect::<Result<Vec<_>, _>>()?;
48
49 // define a single vehicle with limited capacity
50 let vehicle = VehicleBuilder::default()
51 .id("v1".to_string().as_str())
52 .add_detail(
53 VehicleDetailBuilder::default()
54 // vehicle starts at location with index 0 in routing matrix
55 .set_start_location(0)
56 .set_start_time(0.)
57 // vehicle should return to location with index 0
58 .set_end_location(0)
59 .set_end_time(10000.)
60 .build()?,
61 )
62 // the vehicle has capacity=1, so it is forced to do delivery after each pickup
63 .capacity(SingleDimLoad::new(1))
64 .build()?;
65
66 ProblemBuilder::default()
67 .add_jobs(pudos.into_iter())
68 .add_vehicles(once(vehicle))
69 .with_goal(goal)
70 .with_transport_cost(transport)
71 .build()
72}Sourcepub fn add_detail(self, detail: VehicleDetail) -> Self
pub fn add_detail(self, detail: VehicleDetail) -> Self
Adds a vehicle detail which specifies start/end location, time, etc. Use VehicleDetailBuilder to construct one.
Examples found in repository?
examples/custom_objective.rs (line 103)
84fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
85 // create 4 jobs where two are having top prio
86 let single_jobs = (1..=4)
87 .map(|idx| {
88 SingleBuilder::default()
89 .id(format!("job{idx}").as_str())
90 .demand(Demand::delivery(1))
91 .dimension(|dimens| {
92 // mark two jobs as top priority (2 and 4 locations)
93 dimens.set_job_priority(idx % 2 == 0);
94 })
95 .location(idx)?
96 .build_as_job()
97 })
98 .collect::<Result<Vec<_>, _>>()?;
99
100 // define a single vehicle with limited capacity which doesn't need to return back to the depot
101 let vehicle = VehicleBuilder::default()
102 .id("v1".to_string().as_str())
103 .add_detail(VehicleDetailBuilder::default().set_start_location(0).build()?)
104 // only two jobs can be served by the vehicle
105 .capacity(SingleDimLoad::new(2))
106 .build()?;
107
108 ProblemBuilder::default()
109 .add_jobs(single_jobs.into_iter())
110 .add_vehicles(once(vehicle))
111 .with_goal(goal)
112 .with_transport_cost(transport)
113 .build()
114}More examples
examples/cvrp.rs (lines 39-46)
20fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
21 // create 4 jobs with location indices from 1 to 4
22 let single_jobs = (1..=4)
23 .map(|idx| {
24 SingleBuilder::default()
25 .id(format!("job{idx}").as_str())
26 // each job is delivery job with demand=1
27 .demand(Demand::delivery(1))
28 // job has location, which is an index in routing matrix
29 .location(idx)?
30 .build_as_job()
31 })
32 .collect::<Result<Vec<_>, _>>()?;
33
34 // create 4 vehicles
35 let vehicles = (1..=4)
36 .map(|idx| {
37 VehicleBuilder::default()
38 .id(format!("v{idx}").as_str())
39 .add_detail(
40 VehicleDetailBuilder::default()
41 // vehicle starts at location with index 0 in routing matrix
42 .set_start_location(0)
43 // vehicle should return to location with index 0
44 .set_end_location(0)
45 .build()?,
46 )
47 // each vehicle has capacity=2, so it can serve at most 2 jobs
48 .capacity(SingleDimLoad::new(2))
49 .build()
50 })
51 .collect::<Result<Vec<_>, _>>()?;
52
53 ProblemBuilder::default()
54 .add_jobs(single_jobs.into_iter())
55 .add_vehicles(vehicles.into_iter())
56 .with_goal(goal)
57 .with_transport_cost(transport)
58 .build()
59}examples/custom_constraint.rs (lines 73-80)
52fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
53 // create 4 jobs when second and forth have fridge requirement
54 let single_jobs = (1..=4)
55 .map(|idx| {
56 SingleBuilder::default()
57 .id(format!("job{idx}").as_str())
58 .demand(Demand::delivery(1))
59 .dimension(|dimens| {
60 // all jobs have fridge requirements, but only one vehicle will be allowed to serve them
61 dimens.set_job_hardware("fridge".to_string());
62 })
63 .location(idx)?
64 .build_as_job()
65 })
66 .collect::<Result<Vec<_>, _>>()?;
67
68 // create 2 vehicles
69 let vehicles = (1..=2)
70 .map(|idx| {
71 VehicleBuilder::default()
72 .id(format!("v{idx}").as_str())
73 .add_detail(
74 VehicleDetailBuilder::default()
75 // vehicle starts at location with index 0 in routing matrix
76 .set_start_location(0)
77 // vehicle should return to location with index 0
78 .set_end_location(0)
79 .build()?,
80 )
81 .dimension(|dimens| {
82 if idx % 2 == 0 {
83 // only one vehicle has a hardware requirement set to 'fridge'
84 dimens.set_vehicle_hardware(once("fridge".to_string()).collect());
85 }
86 })
87 // each vehicle has capacity=2, so it can serve at most 2 jobs
88 .capacity(SingleDimLoad::new(2))
89 .build()
90 })
91 .collect::<Result<Vec<_>, _>>()?;
92
93 ProblemBuilder::default()
94 .add_jobs(single_jobs.into_iter())
95 .add_vehicles(vehicles.into_iter())
96 .with_goal(goal)
97 .with_transport_cost(transport)
98 .build()
99}examples/pdptw.rs (lines 52-61)
22fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
23 // build two PUDO (pick up/drop off) jobs with demand=1 and permissive time windows (just to show API usage)
24 let pudos = (1..=2)
25 .map(|idx| {
26 let location_idx = if idx == 1 { 1 } else { 3 };
27 MultiBuilder::default()
28 .id(format!("pudo{idx}").as_str())
29 .add_job(
30 SingleBuilder::default()
31 .demand(Demand::pudo_pickup(1))
32 .times(vec![TimeWindow::new(0., 1000.)])?
33 .duration(10.)?
34 .location(location_idx)?
35 .build()?,
36 )
37 .add_job(
38 SingleBuilder::default()
39 .demand(Demand::pudo_delivery(1))
40 .times(vec![TimeWindow::new(0., 1000.)])?
41 .duration(10.)?
42 .location(location_idx + 1)?
43 .build()?,
44 )
45 .build_as_job()
46 })
47 .collect::<Result<Vec<_>, _>>()?;
48
49 // define a single vehicle with limited capacity
50 let vehicle = VehicleBuilder::default()
51 .id("v1".to_string().as_str())
52 .add_detail(
53 VehicleDetailBuilder::default()
54 // vehicle starts at location with index 0 in routing matrix
55 .set_start_location(0)
56 .set_start_time(0.)
57 // vehicle should return to location with index 0
58 .set_end_location(0)
59 .set_end_time(10000.)
60 .build()?,
61 )
62 // the vehicle has capacity=1, so it is forced to do delivery after each pickup
63 .capacity(SingleDimLoad::new(1))
64 .build()?;
65
66 ProblemBuilder::default()
67 .add_jobs(pudos.into_iter())
68 .add_vehicles(once(vehicle))
69 .with_goal(goal)
70 .with_transport_cost(transport)
71 .build()
72}Sourcepub fn set_profile_idx(self, idx: usize) -> Self
pub fn set_profile_idx(self, idx: usize) -> Self
Sets routing profile index which is used to configure which routing data to use within the vehicle.
Sourcepub fn set_distance_cost(self, cost: Cost) -> Self
pub fn set_distance_cost(self, cost: Cost) -> Self
Sets a cost per distance unit.
Sourcepub fn set_duration_cost(self, cost: Cost) -> Self
pub fn set_duration_cost(self, cost: Cost) -> Self
Sets a cost per duration unit.
Sourcepub fn capacity<T: LoadOps>(self, value: T) -> Self
pub fn capacity<T: LoadOps>(self, value: T) -> Self
Sets a vehicle capacity dimension.
Examples found in repository?
examples/custom_objective.rs (line 105)
84fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
85 // create 4 jobs where two are having top prio
86 let single_jobs = (1..=4)
87 .map(|idx| {
88 SingleBuilder::default()
89 .id(format!("job{idx}").as_str())
90 .demand(Demand::delivery(1))
91 .dimension(|dimens| {
92 // mark two jobs as top priority (2 and 4 locations)
93 dimens.set_job_priority(idx % 2 == 0);
94 })
95 .location(idx)?
96 .build_as_job()
97 })
98 .collect::<Result<Vec<_>, _>>()?;
99
100 // define a single vehicle with limited capacity which doesn't need to return back to the depot
101 let vehicle = VehicleBuilder::default()
102 .id("v1".to_string().as_str())
103 .add_detail(VehicleDetailBuilder::default().set_start_location(0).build()?)
104 // only two jobs can be served by the vehicle
105 .capacity(SingleDimLoad::new(2))
106 .build()?;
107
108 ProblemBuilder::default()
109 .add_jobs(single_jobs.into_iter())
110 .add_vehicles(once(vehicle))
111 .with_goal(goal)
112 .with_transport_cost(transport)
113 .build()
114}More examples
examples/cvrp.rs (line 48)
20fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
21 // create 4 jobs with location indices from 1 to 4
22 let single_jobs = (1..=4)
23 .map(|idx| {
24 SingleBuilder::default()
25 .id(format!("job{idx}").as_str())
26 // each job is delivery job with demand=1
27 .demand(Demand::delivery(1))
28 // job has location, which is an index in routing matrix
29 .location(idx)?
30 .build_as_job()
31 })
32 .collect::<Result<Vec<_>, _>>()?;
33
34 // create 4 vehicles
35 let vehicles = (1..=4)
36 .map(|idx| {
37 VehicleBuilder::default()
38 .id(format!("v{idx}").as_str())
39 .add_detail(
40 VehicleDetailBuilder::default()
41 // vehicle starts at location with index 0 in routing matrix
42 .set_start_location(0)
43 // vehicle should return to location with index 0
44 .set_end_location(0)
45 .build()?,
46 )
47 // each vehicle has capacity=2, so it can serve at most 2 jobs
48 .capacity(SingleDimLoad::new(2))
49 .build()
50 })
51 .collect::<Result<Vec<_>, _>>()?;
52
53 ProblemBuilder::default()
54 .add_jobs(single_jobs.into_iter())
55 .add_vehicles(vehicles.into_iter())
56 .with_goal(goal)
57 .with_transport_cost(transport)
58 .build()
59}examples/custom_constraint.rs (line 88)
52fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
53 // create 4 jobs when second and forth have fridge requirement
54 let single_jobs = (1..=4)
55 .map(|idx| {
56 SingleBuilder::default()
57 .id(format!("job{idx}").as_str())
58 .demand(Demand::delivery(1))
59 .dimension(|dimens| {
60 // all jobs have fridge requirements, but only one vehicle will be allowed to serve them
61 dimens.set_job_hardware("fridge".to_string());
62 })
63 .location(idx)?
64 .build_as_job()
65 })
66 .collect::<Result<Vec<_>, _>>()?;
67
68 // create 2 vehicles
69 let vehicles = (1..=2)
70 .map(|idx| {
71 VehicleBuilder::default()
72 .id(format!("v{idx}").as_str())
73 .add_detail(
74 VehicleDetailBuilder::default()
75 // vehicle starts at location with index 0 in routing matrix
76 .set_start_location(0)
77 // vehicle should return to location with index 0
78 .set_end_location(0)
79 .build()?,
80 )
81 .dimension(|dimens| {
82 if idx % 2 == 0 {
83 // only one vehicle has a hardware requirement set to 'fridge'
84 dimens.set_vehicle_hardware(once("fridge".to_string()).collect());
85 }
86 })
87 // each vehicle has capacity=2, so it can serve at most 2 jobs
88 .capacity(SingleDimLoad::new(2))
89 .build()
90 })
91 .collect::<Result<Vec<_>, _>>()?;
92
93 ProblemBuilder::default()
94 .add_jobs(single_jobs.into_iter())
95 .add_vehicles(vehicles.into_iter())
96 .with_goal(goal)
97 .with_transport_cost(transport)
98 .build()
99}examples/pdptw.rs (line 63)
22fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
23 // build two PUDO (pick up/drop off) jobs with demand=1 and permissive time windows (just to show API usage)
24 let pudos = (1..=2)
25 .map(|idx| {
26 let location_idx = if idx == 1 { 1 } else { 3 };
27 MultiBuilder::default()
28 .id(format!("pudo{idx}").as_str())
29 .add_job(
30 SingleBuilder::default()
31 .demand(Demand::pudo_pickup(1))
32 .times(vec![TimeWindow::new(0., 1000.)])?
33 .duration(10.)?
34 .location(location_idx)?
35 .build()?,
36 )
37 .add_job(
38 SingleBuilder::default()
39 .demand(Demand::pudo_delivery(1))
40 .times(vec![TimeWindow::new(0., 1000.)])?
41 .duration(10.)?
42 .location(location_idx + 1)?
43 .build()?,
44 )
45 .build_as_job()
46 })
47 .collect::<Result<Vec<_>, _>>()?;
48
49 // define a single vehicle with limited capacity
50 let vehicle = VehicleBuilder::default()
51 .id("v1".to_string().as_str())
52 .add_detail(
53 VehicleDetailBuilder::default()
54 // vehicle starts at location with index 0 in routing matrix
55 .set_start_location(0)
56 .set_start_time(0.)
57 // vehicle should return to location with index 0
58 .set_end_location(0)
59 .set_end_time(10000.)
60 .build()?,
61 )
62 // the vehicle has capacity=1, so it is forced to do delivery after each pickup
63 .capacity(SingleDimLoad::new(1))
64 .build()?;
65
66 ProblemBuilder::default()
67 .add_jobs(pudos.into_iter())
68 .add_vehicles(once(vehicle))
69 .with_goal(goal)
70 .with_transport_cost(transport)
71 .build()
72}Sourcepub fn dimension(self, func: impl FnOnce(&mut Dimensions)) -> Self
pub fn dimension(self, func: impl FnOnce(&mut Dimensions)) -> Self
A simple api to associate arbitrary property within the vehicle.
Examples found in repository?
examples/custom_constraint.rs (lines 81-86)
52fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
53 // create 4 jobs when second and forth have fridge requirement
54 let single_jobs = (1..=4)
55 .map(|idx| {
56 SingleBuilder::default()
57 .id(format!("job{idx}").as_str())
58 .demand(Demand::delivery(1))
59 .dimension(|dimens| {
60 // all jobs have fridge requirements, but only one vehicle will be allowed to serve them
61 dimens.set_job_hardware("fridge".to_string());
62 })
63 .location(idx)?
64 .build_as_job()
65 })
66 .collect::<Result<Vec<_>, _>>()?;
67
68 // create 2 vehicles
69 let vehicles = (1..=2)
70 .map(|idx| {
71 VehicleBuilder::default()
72 .id(format!("v{idx}").as_str())
73 .add_detail(
74 VehicleDetailBuilder::default()
75 // vehicle starts at location with index 0 in routing matrix
76 .set_start_location(0)
77 // vehicle should return to location with index 0
78 .set_end_location(0)
79 .build()?,
80 )
81 .dimension(|dimens| {
82 if idx % 2 == 0 {
83 // only one vehicle has a hardware requirement set to 'fridge'
84 dimens.set_vehicle_hardware(once("fridge".to_string()).collect());
85 }
86 })
87 // each vehicle has capacity=2, so it can serve at most 2 jobs
88 .capacity(SingleDimLoad::new(2))
89 .build()
90 })
91 .collect::<Result<Vec<_>, _>>()?;
92
93 ProblemBuilder::default()
94 .add_jobs(single_jobs.into_iter())
95 .add_vehicles(vehicles.into_iter())
96 .with_goal(goal)
97 .with_transport_cost(transport)
98 .build()
99}Sourcepub fn build(self) -> GenericResult<Vehicle>
pub fn build(self) -> GenericResult<Vehicle>
Builds a Vehicle.
Examples found in repository?
examples/custom_objective.rs (line 106)
84fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
85 // create 4 jobs where two are having top prio
86 let single_jobs = (1..=4)
87 .map(|idx| {
88 SingleBuilder::default()
89 .id(format!("job{idx}").as_str())
90 .demand(Demand::delivery(1))
91 .dimension(|dimens| {
92 // mark two jobs as top priority (2 and 4 locations)
93 dimens.set_job_priority(idx % 2 == 0);
94 })
95 .location(idx)?
96 .build_as_job()
97 })
98 .collect::<Result<Vec<_>, _>>()?;
99
100 // define a single vehicle with limited capacity which doesn't need to return back to the depot
101 let vehicle = VehicleBuilder::default()
102 .id("v1".to_string().as_str())
103 .add_detail(VehicleDetailBuilder::default().set_start_location(0).build()?)
104 // only two jobs can be served by the vehicle
105 .capacity(SingleDimLoad::new(2))
106 .build()?;
107
108 ProblemBuilder::default()
109 .add_jobs(single_jobs.into_iter())
110 .add_vehicles(once(vehicle))
111 .with_goal(goal)
112 .with_transport_cost(transport)
113 .build()
114}More examples
examples/cvrp.rs (line 49)
20fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
21 // create 4 jobs with location indices from 1 to 4
22 let single_jobs = (1..=4)
23 .map(|idx| {
24 SingleBuilder::default()
25 .id(format!("job{idx}").as_str())
26 // each job is delivery job with demand=1
27 .demand(Demand::delivery(1))
28 // job has location, which is an index in routing matrix
29 .location(idx)?
30 .build_as_job()
31 })
32 .collect::<Result<Vec<_>, _>>()?;
33
34 // create 4 vehicles
35 let vehicles = (1..=4)
36 .map(|idx| {
37 VehicleBuilder::default()
38 .id(format!("v{idx}").as_str())
39 .add_detail(
40 VehicleDetailBuilder::default()
41 // vehicle starts at location with index 0 in routing matrix
42 .set_start_location(0)
43 // vehicle should return to location with index 0
44 .set_end_location(0)
45 .build()?,
46 )
47 // each vehicle has capacity=2, so it can serve at most 2 jobs
48 .capacity(SingleDimLoad::new(2))
49 .build()
50 })
51 .collect::<Result<Vec<_>, _>>()?;
52
53 ProblemBuilder::default()
54 .add_jobs(single_jobs.into_iter())
55 .add_vehicles(vehicles.into_iter())
56 .with_goal(goal)
57 .with_transport_cost(transport)
58 .build()
59}examples/custom_constraint.rs (line 89)
52fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
53 // create 4 jobs when second and forth have fridge requirement
54 let single_jobs = (1..=4)
55 .map(|idx| {
56 SingleBuilder::default()
57 .id(format!("job{idx}").as_str())
58 .demand(Demand::delivery(1))
59 .dimension(|dimens| {
60 // all jobs have fridge requirements, but only one vehicle will be allowed to serve them
61 dimens.set_job_hardware("fridge".to_string());
62 })
63 .location(idx)?
64 .build_as_job()
65 })
66 .collect::<Result<Vec<_>, _>>()?;
67
68 // create 2 vehicles
69 let vehicles = (1..=2)
70 .map(|idx| {
71 VehicleBuilder::default()
72 .id(format!("v{idx}").as_str())
73 .add_detail(
74 VehicleDetailBuilder::default()
75 // vehicle starts at location with index 0 in routing matrix
76 .set_start_location(0)
77 // vehicle should return to location with index 0
78 .set_end_location(0)
79 .build()?,
80 )
81 .dimension(|dimens| {
82 if idx % 2 == 0 {
83 // only one vehicle has a hardware requirement set to 'fridge'
84 dimens.set_vehicle_hardware(once("fridge".to_string()).collect());
85 }
86 })
87 // each vehicle has capacity=2, so it can serve at most 2 jobs
88 .capacity(SingleDimLoad::new(2))
89 .build()
90 })
91 .collect::<Result<Vec<_>, _>>()?;
92
93 ProblemBuilder::default()
94 .add_jobs(single_jobs.into_iter())
95 .add_vehicles(vehicles.into_iter())
96 .with_goal(goal)
97 .with_transport_cost(transport)
98 .build()
99}examples/pdptw.rs (line 64)
22fn define_problem(goal: GoalContext, transport: Arc<dyn TransportCost>) -> GenericResult<Problem> {
23 // build two PUDO (pick up/drop off) jobs with demand=1 and permissive time windows (just to show API usage)
24 let pudos = (1..=2)
25 .map(|idx| {
26 let location_idx = if idx == 1 { 1 } else { 3 };
27 MultiBuilder::default()
28 .id(format!("pudo{idx}").as_str())
29 .add_job(
30 SingleBuilder::default()
31 .demand(Demand::pudo_pickup(1))
32 .times(vec![TimeWindow::new(0., 1000.)])?
33 .duration(10.)?
34 .location(location_idx)?
35 .build()?,
36 )
37 .add_job(
38 SingleBuilder::default()
39 .demand(Demand::pudo_delivery(1))
40 .times(vec![TimeWindow::new(0., 1000.)])?
41 .duration(10.)?
42 .location(location_idx + 1)?
43 .build()?,
44 )
45 .build_as_job()
46 })
47 .collect::<Result<Vec<_>, _>>()?;
48
49 // define a single vehicle with limited capacity
50 let vehicle = VehicleBuilder::default()
51 .id("v1".to_string().as_str())
52 .add_detail(
53 VehicleDetailBuilder::default()
54 // vehicle starts at location with index 0 in routing matrix
55 .set_start_location(0)
56 .set_start_time(0.)
57 // vehicle should return to location with index 0
58 .set_end_location(0)
59 .set_end_time(10000.)
60 .build()?,
61 )
62 // the vehicle has capacity=1, so it is forced to do delivery after each pickup
63 .capacity(SingleDimLoad::new(1))
64 .build()?;
65
66 ProblemBuilder::default()
67 .add_jobs(pudos.into_iter())
68 .add_vehicles(once(vehicle))
69 .with_goal(goal)
70 .with_transport_cost(transport)
71 .build()
72}Trait Implementations§
Auto Trait Implementations§
impl Freeze for VehicleBuilder
impl !RefUnwindSafe for VehicleBuilder
impl Send for VehicleBuilder
impl Sync for VehicleBuilder
impl Unpin for VehicleBuilder
impl !UnwindSafe for VehicleBuilder
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impl<T> IntoEither for T
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fn into_either(self, into_left: bool) -> Either<Self, Self>
Converts
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if into_left is true.
Converts self into a Right variant of Either<Self, Self>
otherwise. Read moreSource§fn into_either_with<F>(self, into_left: F) -> Either<Self, Self>
fn into_either_with<F>(self, into_left: F) -> Either<Self, Self>
Converts
self into a Left variant of Either<Self, Self>
if into_left(&self) returns true.
Converts self into a Right variant of Either<Self, Self>
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