tRemove memory management tests which are not compatible with Julia 0.7 - Granular.jl - Julia package for granular dynamics simulation
(HTM) git clone git://src.adamsgaard.dk/Granular.jl
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---
(DIR) commit 1b63ffe54edd80219c3277d2fbe55347324284d3
(DIR) parent 9d604e02e1291bda1f852a1224f678fda5a249ba
(HTM) Author: Anders Damsgaard <andersd@riseup.net>
Date: Mon, 19 Feb 2018 12:57:36 -0500
Remove memory management tests which are not compatible with Julia 0.7
Diffstat:
D test/memory-management.jl | 170 -------------------------------
M test/runtests.jl | 1 -
2 files changed, 0 insertions(+), 171 deletions(-)
---
(DIR) diff --git a/test/memory-management.jl b/test/memory-management.jl
t@@ -1,170 +0,0 @@
-#!/usr/bin/env julia
-
-info("#### $(basename(@__FILE__)) ####")
-
-info("Testing memory footprint of Granular types")
-
-sim = Granular.createSimulation()
-empty_sim_size = 104
-empty_sim_size_recursive = 848
-
-@test sizeof(sim) == empty_sim_size
-@test Base.summarysize(sim) == empty_sim_size_recursive
-
-size_per_grain = 384
-size_per_grain_recursive = 2608 # Nc_max = 32
-
-info("Testing memory usage when adding grains")
-for i=1:100
- Granular.addGrainCylindrical!(sim, [1., 1.], 1., 1., verbose=false)
-
- @test sizeof(sim) == empty_sim_size
-
- @test sizeof(sim.grains[i]) == size_per_grain
- @test Base.summarysize(sim.grains[i]) == size_per_grain_recursive
-
- @test sizeof(sim.grains) == sizeof(Int)*i
- @test sizeof(sim.grains[:]) == sizeof(Int)*i
- @test Base.summarysize(sim.grains) == size_per_grain_recursive*i +
- sizeof(Int)*i
-
- @test Base.summarysize(sim) == empty_sim_size_recursive + sizeof(Int)*i +
- size_per_grain_recursive*i
-
- @test Base.summarysize(sim.grains[i]) == size_per_grain_recursive
-end
-
-info("Checking memory footprint when overwriting simulation object")
-sim = Granular.createSimulation()
-@test sizeof(sim) == empty_sim_size
-@test Base.summarysize(sim) == empty_sim_size_recursive
-
-info("Check memory usage when stepping time for empty simulation object")
-sim = Granular.createSimulation()
-sim.time_step = 1.0
-for i=1:10
- Granular.run!(sim, single_step=true, verbose=false)
- @test sizeof(sim) == empty_sim_size
- @test Base.summarysize(sim) == empty_sim_size_recursive
-end
-
-info("Check memory when stepping time with single ice floe")
-sim = Granular.createSimulation()
-Granular.addGrainCylindrical!(sim, [1., 1.], 1., 1., verbose=false)
-sim.time_step = 1.0
-for i=1:10
- Granular.run!(sim, single_step=true, verbose=false)
- @test sizeof(sim) == empty_sim_size
- @test Base.summarysize(sim) == empty_sim_size_recursive +
- sizeof(Int)*length(sim.grains) +
- size_per_grain_recursive*length(sim.grains)
-end
-
-info("Check memory when stepping time with two separate grains")
-sim = Granular.createSimulation()
-Granular.addGrainCylindrical!(sim, [1., 1.], 1., 1., verbose=false)
-Granular.addGrainCylindrical!(sim, [1., 1.], 3., 1., verbose=false)
-sim.time_step = 1.0
-for i=1:10
- Granular.run!(sim, single_step=true, verbose=false)
- @test sizeof(sim) == empty_sim_size
- @test Base.summarysize(sim) == empty_sim_size_recursive +
- sizeof(Int)*length(sim.grains) +
- size_per_grain_recursive*length(sim.grains)
-end
-
-info("Check memory when stepping time with two interacting grains (all to all)")
-sim = Granular.createSimulation()
-Granular.addGrainCylindrical!(sim, [1., 1.], 1., 1., verbose=false)
-Granular.addGrainCylindrical!(sim, [1., 1.], 1.9, 1., verbose=false)
-sim.time_step = 1.0
-for i=1:10
- Granular.run!(sim, single_step=true, verbose=false)
- @test sizeof(sim) == empty_sim_size
- @test Base.summarysize(sim) == empty_sim_size_recursive +
- sizeof(Int)*length(sim.grains) +
- size_per_grain_recursive*length(sim.grains)
-end
-
-info("Check memory when stepping time with two interacting grains (cell sorting)")
-sim = Granular.createSimulation()
-Granular.addGrainCylindrical!(sim, [1., 1.], 1., 1., verbose=false)
-Granular.addGrainCylindrical!(sim, [1., 1.], 1.9, 1., verbose=false)
-nx, ny, nz = 5, 5, 1
-sim.ocean = Granular.createRegularOceanGrid([nx, ny, nz], [10., 10., 10.])
-sim.time_step = 1e-6
-Granular.run!(sim, single_step=true, verbose=false)
-original_size_recursive = Base.summarysize(sim)
-for i=1:10
- Granular.run!(sim, single_step=true, verbose=false)
- @test Base.summarysize(sim) == original_size_recursive
-end
-
-info("Checking if memory is freed after ended collision (all to all)")
-sim = Granular.createSimulation(id="test")
-Granular.addGrainCylindrical!(sim, [1., 1.], 10., 1., verbose=false)
-Granular.addGrainCylindrical!(sim, [21.05, 1.], 10., 1., verbose=false)
-sim.grains[1].lin_vel[1] = 0.1
-Granular.setTotalTime!(sim, 10.0)
-Granular.setTimeStep!(sim, epsilon=0.07, verbose=false)
-original_size_recursive = Base.summarysize(sim)
-Granular.run!(sim, verbose=false)
-@test Base.summarysize(sim) == original_size_recursive
-
-info("Checking if memory is freed after ended collision (cell sorting)")
-sim = Granular.createSimulation(id="test")
-Granular.addGrainCylindrical!(sim, [1., 1.], 10., 1., verbose=false)
-Granular.addGrainCylindrical!(sim, [21.05, 1.], 10., 1., verbose=false)
-sim.ocean = Granular.createRegularOceanGrid([2, 2, 2], [40., 40., 10.])
-sim.grains[1].lin_vel[1] = 0.1
-Granular.setTotalTime!(sim, 10.0)
-Granular.setTimeStep!(sim, epsilon=0.07, verbose=false)
-Granular.run!(sim, single_step=true, verbose=false)
-original_sim_size_recursive = Base.summarysize(sim)
-original_grains_size_recursive = Base.summarysize(sim.grains)
-original_ocean_size_recursive = Base.summarysize(sim.ocean)
-original_atmosphere_size_recursive = Base.summarysize(sim.atmosphere)
-Granular.run!(sim, verbose=false)
-@test Base.summarysize(sim.grains) == original_grains_size_recursive
-@test Base.summarysize(sim.ocean) == original_ocean_size_recursive
-@test Base.summarysize(sim.atmosphere) == original_atmosphere_size_recursive
-@test Base.summarysize(sim) == original_sim_size_recursive
-
-sim = Granular.createSimulation(id="test")
-Granular.addGrainCylindrical!(sim, [1., 1.], 10., 1., verbose=false)
-Granular.addGrainCylindrical!(sim, [21.05, 1.], 10., 1., verbose=false)
-sim.atmosphere = Granular.createRegularAtmosphereGrid([2, 2, 2], [40., 40., 10.])
-sim.grains[1].lin_vel[1] = 0.1
-Granular.setTotalTime!(sim, 10.0)
-Granular.setTimeStep!(sim, epsilon=0.07, verbose=false)
-Granular.run!(sim, single_step=true, verbose=false)
-original_sim_size_recursive = Base.summarysize(sim)
-original_grains_size_recursive = Base.summarysize(sim.grains)
-original_ocean_size_recursive = Base.summarysize(sim.ocean)
-original_atmosphere_size_recursive = Base.summarysize(sim.atmosphere)
-Granular.run!(sim, verbose=false)
-@test Base.summarysize(sim.grains) == original_grains_size_recursive
-@test Base.summarysize(sim.ocean) == original_ocean_size_recursive
-@test Base.summarysize(sim.atmosphere) == original_atmosphere_size_recursive
-@test Base.summarysize(sim) == original_sim_size_recursive
-
-sim = Granular.createSimulation(id="test")
-Granular.addGrainCylindrical!(sim, [1., 1.], 10., 1., verbose=false)
-Granular.addGrainCylindrical!(sim, [21.05, 1.], 10., 1., verbose=false)
-sim.atmosphere = Granular.createRegularAtmosphereGrid([2, 2, 2], [40., 40., 10.])
-sim.ocean = Granular.createRegularOceanGrid([2, 2, 2], [40., 40., 10.])
-sim.grains[1].lin_vel[1] = 0.1
-Granular.setTotalTime!(sim, 10.0)
-Granular.setTimeStep!(sim, epsilon=0.07, verbose=false)
-Granular.run!(sim, single_step=true, verbose=false)
-original_sim_size_recursive = Base.summarysize(sim)
-original_grains_size_recursive = Base.summarysize(sim.grains)
-original_ocean_size_recursive = Base.summarysize(sim.ocean)
-original_atmosphere_size_recursive = Base.summarysize(sim.atmosphere)
-Granular.run!(sim, verbose=false)
-@test Base.summarysize(sim.grains) == original_grains_size_recursive
-@test Base.summarysize(sim.ocean) == original_ocean_size_recursive
-@test Base.summarysize(sim.atmosphere) == original_atmosphere_size_recursive
-@test Base.summarysize(sim) == original_sim_size_recursive
-
-Granular.printMemoryUsage(sim)
(DIR) diff --git a/test/runtests.jl b/test/runtests.jl
t@@ -18,4 +18,3 @@ include("cohesion.jl")
include("netcdf.jl")
include("vtk.jl")
include("jld.jl")
-include("memory-management.jl")