tload Base.Test into global namespace, remove superfluous module loads - Granular.jl - Julia package for granular dynamics simulation
(HTM) git clone git://src.adamsgaard.dk/Granular.jl
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---
(DIR) commit 23b5df397b0b3d2d7619da5e4672675bc3474e90
(DIR) parent 7738dd99c78168b534c9b206f1a84efdf2f9f112
(HTM) Author: Anders Damsgaard <andersd@riseup.net>
Date: Fri, 21 Apr 2017 16:40:01 -0400
load Base.Test into global namespace, remove superfluous module loads
Diffstat:
M test/collision-2floes-normal.jl | 27 ++++++++++++---------------
M test/contact-search-and-geometry.jl | 32 +++++++++++++++----------------
M test/netcdf.jl | 3 ---
M test/runtests.jl | 2 +-
4 files changed, 28 insertions(+), 36 deletions(-)
---
(DIR) diff --git a/test/collision-2floes-normal.jl b/test/collision-2floes-normal.jl
t@@ -3,9 +3,6 @@
# Check for conservation of kinetic energy (=momentum) during a normal collision
# between two ice cylindrical ice floes
-import Base.Test
-import SeaIce
-
info("#### $(basename(@__FILE__)) ####")
verbose=false
t@@ -34,8 +31,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylor", verbose=verbose)
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim)
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim)
-Base.Test.@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
-Base.Test.@test_approx_eq E_kin_rot_init E_kin_rot_final
+@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
+@test_approx_eq E_kin_rot_init E_kin_rot_final
info("Testing kinetic energy conservation with Two-term Taylor scheme")
t@@ -47,8 +44,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylor", verbose=verbose)
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim)
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim)
-Base.Test.@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
-Base.Test.@test_approx_eq E_kin_rot_init E_kin_rot_final
+@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
+@test_approx_eq E_kin_rot_init E_kin_rot_final
info("Testing kinetic energy conservation with Three-term Taylor scheme")
t@@ -61,8 +58,8 @@ SeaIce.run!(sim, temporal_integration_method="Three-term Taylor",
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim)
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim)
-Base.Test.@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
-Base.Test.@test_approx_eq E_kin_rot_init E_kin_rot_final
+@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
+@test_approx_eq E_kin_rot_init E_kin_rot_final
info("# Ice floes free to move")
t@@ -89,8 +86,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylor", verbose=verbose)
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim)
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim)
-Base.Test.@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
-Base.Test.@test_approx_eq E_kin_rot_init E_kin_rot_final
+@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
+@test_approx_eq E_kin_rot_init E_kin_rot_final
info("Testing kinetic energy conservation with Two-term Taylor scheme")
t@@ -102,8 +99,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylor", verbose=verbose)
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim)
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim)
-Base.Test.@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
-Base.Test.@test_approx_eq E_kin_rot_init E_kin_rot_final
+@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
+@test_approx_eq E_kin_rot_init E_kin_rot_final
info("Testing kinetic energy conservation with Three-term Taylor scheme")
t@@ -116,5 +113,5 @@ SeaIce.run!(sim, temporal_integration_method="Three-term Taylor",
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim)
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim)
-Base.Test.@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
-Base.Test.@test_approx_eq E_kin_rot_init E_kin_rot_final
+@test_approx_eq_eps E_kin_lin_init E_kin_lin_final E_kin_lin_init*tol
+@test_approx_eq E_kin_rot_init E_kin_rot_final
(DIR) diff --git a/test/contact-search-and-geometry.jl b/test/contact-search-and-geometry.jl
t@@ -1,8 +1,6 @@
#!/usr/bin/env julia
# Check the contact search and geometry of a two-particle interaction
-import Base.Test
-import SeaIce
info("#### $(basename(@__FILE__)) ####")
t@@ -14,30 +12,30 @@ SeaIce.addIceFloeCylindrical(sim, [18., 0.], 10., 1., verbose=false)
position_ij = SeaIce.interIceFloePositionVector(sim, 1, 2)
overlap_ij = SeaIce.findOverlap(sim, 1, 2, position_ij)
-Base.Test.@test_approx_eq [18., 0.] position_ij
-Base.Test.@test_approx_eq -2. overlap_ij
+@test_approx_eq [18., 0.] position_ij
+@test_approx_eq -2. overlap_ij
info("Testing findContactsAllToAll(...)")
sim_copy = deepcopy(sim)
SeaIce.findContactsAllToAll!(sim)
-Base.Test.@test 1 == length(sim.overlaps)
-Base.Test.@test 1 == length(sim.contact_pairs)
-Base.Test.@test_approx_eq [1, 2] sim.contact_pairs[1]
-Base.Test.@test_approx_eq [-2., 0.] sim.overlaps[1]
+@test 1 == length(sim.overlaps)
+@test 1 == length(sim.contact_pairs)
+@test_approx_eq [1, 2] sim.contact_pairs[1]
+@test_approx_eq [-2., 0.] sim.overlaps[1]
info("Testing findContacts(...)")
sim = deepcopy(sim_copy)
SeaIce.findContacts!(sim)
-Base.Test.@test 1 == length(sim.overlaps)
-Base.Test.@test 1 == length(sim.contact_pairs)
-Base.Test.@test_approx_eq [1, 2] sim.contact_pairs[1]
-Base.Test.@test_approx_eq [-2., 0.] sim.overlaps[1]
+@test 1 == length(sim.overlaps)
+@test 1 == length(sim.contact_pairs)
+@test_approx_eq [1, 2] sim.contact_pairs[1]
+@test_approx_eq [-2., 0.] sim.overlaps[1]
-Base.Test.@test_throws ErrorException SeaIce.findContacts!(sim, method="")
+@test_throws ErrorException SeaIce.findContacts!(sim, method="")
info("Testing if interact(...) removes contacts correctly")
t@@ -46,7 +44,7 @@ SeaIce.findContacts!(sim)
SeaIce.interact!(sim)
SeaIce.findContacts!(sim)
-Base.Test.@test 1 == length(sim.overlaps)
-Base.Test.@test 1 == length(sim.contact_pairs)
-Base.Test.@test_approx_eq [1, 2] sim.contact_pairs[1]
-Base.Test.@test_approx_eq [-2., 0.] sim.overlaps[1]
+@test 1 == length(sim.overlaps)
+@test 1 == length(sim.contact_pairs)
+@test_approx_eq [1, 2] sim.contact_pairs[1]
+@test_approx_eq [-2., 0.] sim.overlaps[1]
(DIR) diff --git a/test/netcdf.jl b/test/netcdf.jl
t@@ -2,9 +2,6 @@
# Check if NetCDF files are read correctly from the disk.
-import Base.Test
-import SeaIce
-
info("#### $(basename(@__FILE__)) ####")
info("Testing dimensions of content read from prog__0001_006.nc")
(DIR) diff --git a/test/runtests.jl b/test/runtests.jl
t@@ -1,4 +1,4 @@
-using SeaIce
+import SeaIce
using Base.Test
include("contact-search-and-geometry.jl")