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Alinson S. Xavier
2021-06-22 10:50:11 -05:00
parent 849f902562
commit 9df416ed75
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39
test/graph/build_test.jl Normal file
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# Copyright (C) 2020 Argonne National Laboratory
# Written by Alinson Santos Xavier <axavier@anl.gov>
using RELOG
@testset "build_graph" begin
basedir = dirname(@__FILE__)
instance = RELOG.parsefile("$basedir/../../instances/s1.json")
graph = RELOG.build_graph(instance)
process_node_by_location_name =
Dict(n.location.location_name => n for n in graph.process_nodes)
@test length(graph.plant_shipping_nodes) == 8
@test length(graph.collection_shipping_nodes) == 10
@test length(graph.process_nodes) == 6
node = graph.collection_shipping_nodes[1]
@test node.location.name == "C1"
@test length(node.incoming_arcs) == 0
@test length(node.outgoing_arcs) == 2
@test node.outgoing_arcs[1].source.location.name == "C1"
@test node.outgoing_arcs[1].dest.location.plant_name == "F1"
@test node.outgoing_arcs[1].dest.location.location_name == "L1"
@test node.outgoing_arcs[1].values["distance"] == 1095.62
node = process_node_by_location_name["L1"]
@test node.location.plant_name == "F1"
@test node.location.location_name == "L1"
@test length(node.incoming_arcs) == 10
@test length(node.outgoing_arcs) == 2
node = process_node_by_location_name["L3"]
@test node.location.plant_name == "F2"
@test node.location.location_name == "L3"
@test length(node.incoming_arcs) == 2
@test length(node.outgoing_arcs) == 2
@test length(graph.arcs) == 38
end

41
test/graph_test.jl
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# Copyright (C) 2020 Argonne National Laboratory
# Written by Alinson Santos Xavier <axavier@anl.gov>
using RELOG
@testset "Graph" begin
@testset "build_graph" begin
basedir = dirname(@__FILE__)
instance = RELOG.parsefile("$basedir/../instances/s1.json")
graph = RELOG.build_graph(instance)
process_node_by_location_name =
Dict(n.location.location_name => n for n in graph.process_nodes)
@test length(graph.plant_shipping_nodes) == 8
@test length(graph.collection_shipping_nodes) == 10
@test length(graph.process_nodes) == 6
node = graph.collection_shipping_nodes[1]
@test node.location.name == "C1"
@test length(node.incoming_arcs) == 0
@test length(node.outgoing_arcs) == 2
@test node.outgoing_arcs[1].source.location.name == "C1"
@test node.outgoing_arcs[1].dest.location.plant_name == "F1"
@test node.outgoing_arcs[1].dest.location.location_name == "L1"
@test node.outgoing_arcs[1].values["distance"] == 1095.62
node = process_node_by_location_name["L1"]
@test node.location.plant_name == "F1"
@test node.location.location_name == "L1"
@test length(node.incoming_arcs) == 10
@test length(node.outgoing_arcs) == 2
node = process_node_by_location_name["L3"]
@test node.location.plant_name == "F2"
@test node.location.location_name == "L3"
@test length(node.incoming_arcs) == 2
@test length(node.outgoing_arcs) == 2
@test length(graph.arcs) == 38
end
end

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test/instance/compress_test.jl Normal file
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# Copyright (C) 2020 Argonne National Laboratory
# Written by Alinson Santos Xavier <axavier@anl.gov>
using RELOG
@testset "compress" begin
basedir = dirname(@__FILE__)
instance = RELOG.parsefile("$basedir/../../instances/s1.json")
compressed = RELOG._compress(instance)
product_name_to_product = Dict(p.name => p for p in compressed.products)
location_name_to_facility = Dict()
for p in compressed.plants
location_name_to_facility[p.location_name] = p
end
for c in compressed.collection_centers
location_name_to_facility[c.name] = c
end
p1 = product_name_to_product["P1"]
p2 = product_name_to_product["P2"]
p3 = product_name_to_product["P3"]
c1 = location_name_to_facility["C1"]
l1 = location_name_to_facility["L1"]
@test compressed.time == 1
@test compressed.building_period == [1]
@test p1.name == "P1"
@test p1.transportation_cost [0.015]
@test p1.transportation_energy [0.115]
@test p1.transportation_emissions["CO2"] [0.051]
@test p1.transportation_emissions["CH4"] [0.0025]
@test c1.name == "C1"
@test c1.amount [1869.12]
@test l1.plant_name == "F1"
@test l1.location_name == "L1"
@test l1.energy [0.115]
@test l1.emissions["CO2"] [0.051]
@test l1.emissions["CH4"] [0.0025]
@test l1.sizes[1].opening_cost [500]
@test l1.sizes[2].opening_cost [1250]
@test l1.sizes[1].fixed_operating_cost [60]
@test l1.sizes[2].fixed_operating_cost [60]
@test l1.sizes[1].variable_operating_cost [30]
@test l1.sizes[2].variable_operating_cost [30]
@test l1.disposal_limit[p2] [2.0]
@test l1.disposal_limit[p3] [2.0]
@test l1.disposal_cost[p2] [-10.0]
@test l1.disposal_cost[p3] [-10.0]
end

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test/instance/parse_test.jl Normal file
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# Copyright (C) 2020 Argonne National Laboratory
# Written by Alinson Santos Xavier <axavier@anl.gov>
using RELOG
@testset "parse" begin
basedir = dirname(@__FILE__)
instance = RELOG.parsefile("$basedir/../../instances/s1.json")
centers = instance.collection_centers
plants = instance.plants
products = instance.products
location_name_to_plant = Dict(p.location_name => p for p in plants)
product_name_to_product = Dict(p.name => p for p in products)
@test length(centers) == 10
@test centers[1].name == "C1"
@test centers[1].latitude == 7
@test centers[1].latitude == 7
@test centers[1].longitude == 7
@test centers[1].amount == [934.56, 934.56]
@test centers[1].product.name == "P1"
@test length(plants) == 6
plant = location_name_to_plant["L1"]
@test plant.plant_name == "F1"
@test plant.location_name == "L1"
@test plant.input.name == "P1"
@test plant.latitude == 0
@test plant.longitude == 0
@test length(plant.sizes) == 2
@test plant.sizes[1].capacity == 250
@test plant.sizes[1].opening_cost == [500, 500]
@test plant.sizes[1].fixed_operating_cost == [30, 30]
@test plant.sizes[1].variable_operating_cost == [30, 30]
@test plant.sizes[2].capacity == 1000
@test plant.sizes[2].opening_cost == [1250, 1250]
@test plant.sizes[2].fixed_operating_cost == [30, 30]
@test plant.sizes[2].variable_operating_cost == [30, 30]
p2 = product_name_to_product["P2"]
p3 = product_name_to_product["P3"]
@test length(plant.output) == 2
@test plant.output[p2] == 0.2
@test plant.output[p3] == 0.5
@test plant.disposal_limit[p2] == [1, 1]
@test plant.disposal_limit[p3] == [1, 1]
@test plant.disposal_cost[p2] == [-10, -10]
@test plant.disposal_cost[p3] == [-10, -10]
plant = location_name_to_plant["L3"]
@test plant.location_name == "L3"
@test plant.input.name == "P2"
@test plant.latitude == 25
@test plant.longitude == 65
@test length(plant.sizes) == 2
@test plant.sizes[1].capacity == 1000.0
@test plant.sizes[1].opening_cost == [3000, 3000]
@test plant.sizes[1].fixed_operating_cost == [50, 50]
@test plant.sizes[1].variable_operating_cost == [50, 50]
@test plant.sizes[1] == plant.sizes[2]
p4 = product_name_to_product["P4"]
@test plant.output[p3] == 0.05
@test plant.output[p4] == 0.8
@test plant.disposal_limit[p3] == [1e8, 1e8]
@test plant.disposal_limit[p4] == [0, 0]
end
@testset "parse (invalid)" begin
basedir = dirname(@__FILE__)
@test_throws String RELOG.parsefile("$basedir/../fixtures/s1-wrong-length.json")
end

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test/instance_test.jl
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# Copyright (C) 2020 Argonne National Laboratory
# Written by Alinson Santos Xavier <axavier@anl.gov>
using RELOG
@testset "Instance" begin
@testset "load" begin
basedir = dirname(@__FILE__)
instance = RELOG.parsefile("$basedir/../instances/s1.json")
centers = instance.collection_centers
plants = instance.plants
products = instance.products
location_name_to_plant = Dict(p.location_name => p for p in plants)
product_name_to_product = Dict(p.name => p for p in products)
@test length(centers) == 10
@test centers[1].name == "C1"
@test centers[1].latitude == 7
@test centers[1].latitude == 7
@test centers[1].longitude == 7
@test centers[1].amount == [934.56, 934.56]
@test centers[1].product.name == "P1"
@test length(plants) == 6
plant = location_name_to_plant["L1"]
@test plant.plant_name == "F1"
@test plant.location_name == "L1"
@test plant.input.name == "P1"
@test plant.latitude == 0
@test plant.longitude == 0
@test length(plant.sizes) == 2
@test plant.sizes[1].capacity == 250
@test plant.sizes[1].opening_cost == [500, 500]
@test plant.sizes[1].fixed_operating_cost == [30, 30]
@test plant.sizes[1].variable_operating_cost == [30, 30]
@test plant.sizes[2].capacity == 1000
@test plant.sizes[2].opening_cost == [1250, 1250]
@test plant.sizes[2].fixed_operating_cost == [30, 30]
@test plant.sizes[2].variable_operating_cost == [30, 30]
p2 = product_name_to_product["P2"]
p3 = product_name_to_product["P3"]
@test length(plant.output) == 2
@test plant.output[p2] == 0.2
@test plant.output[p3] == 0.5
@test plant.disposal_limit[p2] == [1, 1]
@test plant.disposal_limit[p3] == [1, 1]
@test plant.disposal_cost[p2] == [-10, -10]
@test plant.disposal_cost[p3] == [-10, -10]
plant = location_name_to_plant["L3"]
@test plant.location_name == "L3"
@test plant.input.name == "P2"
@test plant.latitude == 25
@test plant.longitude == 65
@test length(plant.sizes) == 2
@test plant.sizes[1].capacity == 1000.0
@test plant.sizes[1].opening_cost == [3000, 3000]
@test plant.sizes[1].fixed_operating_cost == [50, 50]
@test plant.sizes[1].variable_operating_cost == [50, 50]
@test plant.sizes[1] == plant.sizes[2]
p4 = product_name_to_product["P4"]
@test plant.output[p3] == 0.05
@test plant.output[p4] == 0.8
@test plant.disposal_limit[p3] == [1e8, 1e8]
@test plant.disposal_limit[p4] == [0, 0]
end
@testset "validate timeseries" begin
@test_throws String RELOG.parsefile("fixtures/s1-wrong-length.json")
end
@testset "compress" begin
basedir = dirname(@__FILE__)
instance = RELOG.parsefile("$basedir/../instances/s1.json")
compressed = RELOG._compress(instance)
product_name_to_product = Dict(p.name => p for p in compressed.products)
location_name_to_facility = Dict()
for p in compressed.plants
location_name_to_facility[p.location_name] = p
end
for c in compressed.collection_centers
location_name_to_facility[c.name] = c
end
p1 = product_name_to_product["P1"]
p2 = product_name_to_product["P2"]
p3 = product_name_to_product["P3"]
c1 = location_name_to_facility["C1"]
l1 = location_name_to_facility["L1"]
@test compressed.time == 1
@test compressed.building_period == [1]
@test p1.name == "P1"
@test p1.transportation_cost [0.015]
@test p1.transportation_energy [0.115]
@test p1.transportation_emissions["CO2"] [0.051]
@test p1.transportation_emissions["CH4"] [0.0025]
@test c1.name == "C1"
@test c1.amount [1869.12]
@test l1.plant_name == "F1"
@test l1.location_name == "L1"
@test l1.energy [0.115]
@test l1.emissions["CO2"] [0.051]
@test l1.emissions["CH4"] [0.0025]
@test l1.sizes[1].opening_cost [500]
@test l1.sizes[2].opening_cost [1250]
@test l1.sizes[1].fixed_operating_cost [60]
@test l1.sizes[2].fixed_operating_cost [60]
@test l1.sizes[1].variable_operating_cost [30]
@test l1.sizes[2].variable_operating_cost [30]
@test l1.disposal_limit[p2] [2.0]
@test l1.disposal_limit[p3] [2.0]
@test l1.disposal_cost[p2] [-10.0]
@test l1.disposal_cost[p3] [-10.0]
end
end

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# Copyright (C) 2020 Argonne National Laboratory
# Written by Alinson Santos Xavier <axavier@anl.gov>
using RELOG, Cbc, JuMP, Printf, JSON, MathOptInterface.FileFormats
@testset "build" begin
basedir = dirname(@__FILE__)
instance = RELOG.parsefile("$basedir/../../instances/s1.json")
graph = RELOG.build_graph(instance)
model = RELOG.build_model(instance, graph, Cbc.Optimizer)
set_optimizer_attribute(model, "logLevel", 0)
process_node_by_location_name =
Dict(n.location.location_name => n for n in graph.process_nodes)
shipping_node_by_loc_and_prod_names = Dict(
(n.location.location_name, n.product.name) => n for n in graph.plant_shipping_nodes
)
@test length(model[:flow]) == 76
@test length(model[:dispose]) == 16
@test length(model[:open_plant]) == 12
@test length(model[:capacity]) == 12
@test length(model[:expansion]) == 12
l1 = process_node_by_location_name["L1"]
v = model[:capacity][l1, 1]
@test lower_bound(v) == 0.0
@test upper_bound(v) == 1000.0
v = model[:expansion][l1, 1]
@test lower_bound(v) == 0.0
@test upper_bound(v) == 750.0
v = model[:dispose][shipping_node_by_loc_and_prod_names["L1", "P2"], 1]
@test lower_bound(v) == 0.0
@test upper_bound(v) == 1.0
end

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test/model/solve_test.jl Normal file
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# Copyright (C) 2020 Argonne National Laboratory
# Written by Alinson Santos Xavier <axavier@anl.gov>
using RELOG, Cbc, JuMP, Printf, JSON, MathOptInterface.FileFormats
basedir = dirname(@__FILE__)
@testset "solve (exact)" begin
solution_filename_a = tempname()
solution_filename_b = tempname()
solution = RELOG.solve("$basedir/../../instances/s1.json", output = solution_filename_a)
@test isfile(solution_filename_a)
RELOG.write(solution, solution_filename_b)
@test isfile(solution_filename_b)
@test "Costs" in keys(solution)
@test "Fixed operating (\$)" in keys(solution["Costs"])
@test "Transportation (\$)" in keys(solution["Costs"])
@test "Variable operating (\$)" in keys(solution["Costs"])
@test "Total (\$)" in keys(solution["Costs"])
@test "Plants" in keys(solution)
@test "F1" in keys(solution["Plants"])
@test "F2" in keys(solution["Plants"])
@test "F3" in keys(solution["Plants"])
@test "F4" in keys(solution["Plants"])
end
@testset "solve (heuristic)" begin
# Should not crash
solution = RELOG.solve("$basedir/../../instances/s1.json", heuristic = true)
end
@testset "solve (infeasible)" begin
json = JSON.parsefile("$basedir/../../instances/s1.json")
for (location_name, location_dict) in json["products"]["P1"]["initial amounts"]
location_dict["amount (tonne)"] *= 1000
end
RELOG.solve(RELOG.parse(json))
end
@testset "solve (with storage)" begin
basedir = dirname(@__FILE__)
filename = "$basedir/../fixtures/storage.json"
instance = RELOG.parsefile(filename)
@test instance.plants[1].storage_limit == 50.0
@test instance.plants[1].storage_cost == [2.0, 1.5, 1.0]
solution = RELOG.solve(filename)
plant_dict = solution["Plants"]["mega plant"]["Chicago"]
@test plant_dict["Variable operating cost (\$)"] == [500.0, 0.0, 100.0]
@test plant_dict["Process (tonne)"] == [50.0, 0.0, 50.0]
@test plant_dict["Storage (tonne)"] == [50.0, 50.0, 0.0]
@test plant_dict["Storage cost (\$)"] == [100.0, 75.0, 0.0]
@test solution["Costs"]["Variable operating (\$)"] == [500.0, 0.0, 100.0]
@test solution["Costs"]["Storage (\$)"] == [100.0, 75.0, 0.0]
@test solution["Costs"]["Total (\$)"] == [600.0, 75.0, 100.0]
end

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test/model_test.jl
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# Copyright (C) 2020 Argonne National Laboratory
# Written by Alinson Santos Xavier <axavier@anl.gov>
using RELOG, Cbc, JuMP, Printf, JSON, MathOptInterface.FileFormats
@testset "Model" begin
@testset "build" begin
basedir = dirname(@__FILE__)
instance = RELOG.parsefile("$basedir/../instances/s1.json")
graph = RELOG.build_graph(instance)
model = RELOG.build_model(instance, graph, Cbc.Optimizer)
set_optimizer_attribute(model, "logLevel", 0)
process_node_by_location_name =
Dict(n.location.location_name => n for n in graph.process_nodes)
shipping_node_by_location_and_product_names = Dict(
(n.location.location_name, n.product.name) => n for
n in graph.plant_shipping_nodes
)
@test length(model[:flow]) == 76
@test length(model[:dispose]) == 16
@test length(model[:open_plant]) == 12
@test length(model[:capacity]) == 12
@test length(model[:expansion]) == 12
l1 = process_node_by_location_name["L1"]
v = model[:capacity][l1, 1]
@test lower_bound(v) == 0.0
@test upper_bound(v) == 1000.0
v = model[:expansion][l1, 1]
@test lower_bound(v) == 0.0
@test upper_bound(v) == 750.0
v = model[:dispose][shipping_node_by_location_and_product_names["L1", "P2"], 1]
@test lower_bound(v) == 0.0
@test upper_bound(v) == 1.0
# dest = FileFormats.Model(format = FileFormats.FORMAT_LP)
# MOI.copy_to(dest, model)
# MOI.write_to_file(dest, "model.lp")
end
@testset "solve (exact)" begin
solution_filename_a = tempname()
solution_filename_b = tempname()
solution =
RELOG.solve("$(pwd())/../instances/s1.json", output = solution_filename_a)
@test isfile(solution_filename_a)
RELOG.write(solution, solution_filename_b)
@test isfile(solution_filename_b)
@test "Costs" in keys(solution)
@test "Fixed operating (\$)" in keys(solution["Costs"])
@test "Transportation (\$)" in keys(solution["Costs"])
@test "Variable operating (\$)" in keys(solution["Costs"])
@test "Total (\$)" in keys(solution["Costs"])
@test "Plants" in keys(solution)
@test "F1" in keys(solution["Plants"])
@test "F2" in keys(solution["Plants"])
@test "F3" in keys(solution["Plants"])
@test "F4" in keys(solution["Plants"])
end
@testset "solve (heuristic)" begin
# Should not crash
solution = RELOG.solve("$(pwd())/../instances/s1.json", heuristic = true)
end
@testset "infeasible solve" begin
json = JSON.parsefile("$(pwd())/../instances/s1.json")
for (location_name, location_dict) in json["products"]["P1"]["initial amounts"]
location_dict["amount (tonne)"] *= 1000
end
RELOG.solve(RELOG.parse(json))
end
@testset "storage" begin
basedir = dirname(@__FILE__)
filename = "$basedir/fixtures/storage.json"
instance = RELOG.parsefile(filename)
@test instance.plants[1].storage_limit == 50.0
@test instance.plants[1].storage_cost == [2.0, 1.5, 1.0]
solution = RELOG.solve(filename)
plant_dict = solution["Plants"]["mega plant"]["Chicago"]
@test plant_dict["Variable operating cost (\$)"] == [500.0, 0.0, 100.0]
@test plant_dict["Process (tonne)"] == [50.0, 0.0, 50.0]
@test plant_dict["Storage (tonne)"] == [50.0, 50.0, 0.0]
@test plant_dict["Storage cost (\$)"] == [100.0, 75.0, 0.0]
@test solution["Costs"]["Variable operating (\$)"] == [500.0, 0.0, 100.0]
@test solution["Costs"]["Storage (\$)"] == [100.0, 75.0, 0.0]
@test solution["Costs"]["Total (\$)"] == [600.0, 75.0, 100.0]
end
end

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test/runtests.jl
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using Test
@testset "RELOG" begin
include("instance_test.jl")
include("graph_test.jl")
include("model_test.jl")
@testset "Instance" begin
include("instance/compress_test.jl")
include("instance/parse_test.jl")
end
@testset "Graph" begin
include("graph/build_test.jl")
end
@testset "Model" begin
include("model/build_test.jl")
include("model/solve_test.jl")
end
include("reports_test.jl")
end