tfix several deprecation warnings in julia 0.6 - Granular.jl - Julia package fo… | |
git clone git://src.adamsgaard.dk/Granular.jl | |
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--- | |
commit 71b3e39a5ed3f47997c736843d83c77b3d9e1a91 | |
parent 87c38d3e836aa40f6c0c4e2d0a86b99c3d0f9d28 | |
Author: Anders Damsgaard <[email protected]> | |
Date: Thu, 22 Jun 2017 09:44:58 -0400 | |
fix several deprecation warnings in julia 0.6 | |
Diffstat: | |
M test/collision-2floes-normal.jl | 32 ++++++++++++++++-------------… | |
M test/collision-2floes-oblique.jl | 58 +++++++++++++++--------------- | |
M test/collision-5floes-normal.jl | 32 ++++++++++++++++-------------… | |
M test/contact-search-and-geometry.jl | 4 ++-- | |
4 files changed, 63 insertions(+), 63 deletions(-) | |
--- | |
diff --git a/test/collision-2floes-normal.jl b/test/collision-2floes-normal.jl | |
t@@ -31,8 +31,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylo… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Two-term Taylor scheme") | |
t@@ -44,8 +44,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylo… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -58,8 +58,8 @@ SeaIce.run!(sim, temporal_integration_method="Three-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("# Ice floes free to move") | |
t@@ -86,8 +86,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylo… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Two-term Taylor scheme") | |
t@@ -99,8 +99,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylo… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -113,8 +113,8 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("# Adding contact-normal viscosity") | |
t@@ -147,7 +147,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
@test E_kin_lin_init > E_kin_lin_final | |
-@test_approx_eq E_kin_rot_init E_kin_rot_final | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -161,7 +161,7 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
@test E_kin_lin_init > E_kin_lin_final | |
-@test_approx_eq E_kin_rot_init E_kin_rot_final | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("# Ice floes free to move") | |
t@@ -192,7 +192,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
@test E_kin_lin_init > E_kin_lin_final | |
-@test_approx_eq E_kin_rot_init E_kin_rot_final | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -206,4 +206,4 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
@test E_kin_lin_init > E_kin_lin_final | |
-@test_approx_eq E_kin_rot_init E_kin_rot_final | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
diff --git a/test/collision-2floes-oblique.jl b/test/collision-2floes-oblique.jl | |
t@@ -35,8 +35,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylo… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Two-term Taylor scheme") | |
t@@ -48,8 +48,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylo… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -61,8 +61,8 @@ SeaIce.run!(sim, temporal_integration_method="Three-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("# Ice floes free to move") | |
t@@ -90,8 +90,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylo… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Two-term Taylor scheme") | |
t@@ -103,8 +103,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -117,8 +117,8 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("## Contact-normal elasticity and tangential viscosity and friction") | |
t@@ -143,7 +143,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
@test sim.ice_floes[2].ang_vel ≈ 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("mu_d = 0.") | |
sim = deepcopy(sim_init) | |
t@@ -161,8 +161,8 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
@test sim.ice_floes[2].ang_pos ≈ 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
info("Testing kinetic energy conservation with Two-term Taylor scheme") | |
sim = deepcopy(sim_init) | |
t@@ -178,7 +178,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
@test sim.ice_floes[2].ang_vel ≈ 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -195,7 +195,7 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
@test sim.ice_floes[2].ang_vel ≈ 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("# Ice floes free to move") | |
t@@ -228,7 +228,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
@test sim.ice_floes[2].ang_vel < 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("Testing kinetic energy conservation with Two-term Taylor scheme") | |
sim = deepcopy(sim_init) | |
t@@ -240,7 +240,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -257,7 +257,7 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
@test sim.ice_floes[2].ang_vel < 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("# Ice floes free to move, mirrored") | |
t@@ -291,7 +291,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
@test sim.ice_floes[2].ang_vel > 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("Testing kinetic energy conservation with Two-term Taylor scheme") | |
sim = deepcopy(sim_init) | |
t@@ -303,7 +303,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -320,7 +320,7 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
@test sim.ice_floes[2].ang_vel > 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("# Ice floes free to move, mirrored #2") | |
t@@ -352,7 +352,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
@test sim.ice_floes[2].ang_vel < 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("Testing kinetic energy conservation with Two-term Taylor scheme") | |
sim = deepcopy(sim_init) | |
t@@ -364,7 +364,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -381,7 +381,7 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
@test sim.ice_floes[2].ang_vel < 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("# Tangential elasticity, no tangential viscosity, no Coulomb slip") | |
t@@ -421,7 +421,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
@test sim.ice_floes[2].ang_vel < 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("Testing kinetic energy conservation with Two-term Taylor scheme") | |
sim = deepcopy(sim_init) | |
t@@ -433,7 +433,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("Testing kinetic energy conservation with Three-term Taylor scheme") | |
t@@ -450,7 +450,7 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
@test sim.ice_floes[2].ang_vel < 0. | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@test_approx_eq_eps E_kin_lin_init+E_kin_rot_init E_kin_lin_final+E_kin_rot_fi… | |
+@test E_kin_lin_init+E_kin_rot_init ≈ E_kin_lin_final+E_kin_rot_final atol=E… | |
info("# Tangential elasticity, no tangential viscosity, Coulomb slip") | |
diff --git a/test/collision-5floes-normal.jl b/test/collision-5floes-normal.jl | |
t@@ -37,8 +37,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylo… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
@test 0. < norm(sim.ice_floes[1].lin_vel) | |
for i=2:5 | |
info("testing ice floe $i") | |
t@@ -55,8 +55,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Taylo… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
@test 0. < norm(sim.ice_floes[1].lin_vel) | |
for i=2:5 | |
info("testing ice floe $i") | |
t@@ -74,8 +74,8 @@ SeaIce.run!(sim, temporal_integration_method="Three-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
@test 0. < norm(sim.ice_floes[1].lin_vel) | |
for i=2:5 | |
info("testing ice floe $i") | |
t@@ -110,8 +110,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
for i=1:5 | |
info("testing ice floe $i") | |
@test 0. < norm(sim.ice_floes[i].lin_vel) | |
t@@ -127,8 +127,8 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
for i=1:5 | |
info("testing ice floe $i") | |
@test 0. < norm(sim.ice_floes[i].lin_vel) | |
t@@ -145,8 +145,8 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
-@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 | |
+@test E_kin_lin_init ≈ E_kin_lin_final atol=E_kin_lin_init*tol | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
for i=1:5 | |
info("testing ice floe $i") | |
@test 0. < norm(sim.ice_floes[i].lin_vel) | |
t@@ -192,7 +192,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
@test E_kin_lin_init > E_kin_lin_final | |
-@test_approx_eq E_kin_rot_init E_kin_rot_final | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
@test 0. < norm(sim.ice_floes[1].lin_vel) | |
for i=2:5 | |
info("testing ice floe $i") | |
t@@ -211,7 +211,7 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
@test E_kin_lin_init > E_kin_lin_final | |
-@test_approx_eq E_kin_rot_init E_kin_rot_final | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
@test 0. < norm(sim.ice_floes[1].lin_vel) | |
for i=2:5 | |
info("testing ice floe $i") | |
t@@ -253,7 +253,7 @@ SeaIce.run!(sim, temporal_integration_method="Two-term Tay… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
@test E_kin_lin_init > E_kin_lin_final | |
-@test_approx_eq E_kin_rot_init E_kin_rot_final | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
for i=1:5 | |
info("testing ice floe $i") | |
@test 0. < norm(sim.ice_floes[i].lin_vel) | |
t@@ -271,7 +271,7 @@ SeaIce.run!(sim, temporal_integration_method="Three-term T… | |
E_kin_lin_final = SeaIce.totalIceFloeKineticTranslationalEnergy(sim) | |
E_kin_rot_final = SeaIce.totalIceFloeKineticRotationalEnergy(sim) | |
@test E_kin_lin_init > E_kin_lin_final | |
-@test_approx_eq E_kin_rot_init E_kin_rot_final | |
+@test E_kin_rot_init ≈ E_kin_rot_final | |
for i=1:5 | |
info("testing ice floe $i") | |
@test 0. < norm(sim.ice_floes[i].lin_vel) | |
diff --git a/test/contact-search-and-geometry.jl b/test/contact-search-and-geom… | |
t@@ -12,8 +12,8 @@ SeaIce.addIceFloeCylindrical(sim, [18., 0.], 10., 1., verbos… | |
position_ij = SeaIce.interIceFloePositionVector(sim, 1, 2) | |
overlap_ij = SeaIce.findOverlap(sim, 1, 2, position_ij) | |
-@test_approx_eq [-18., 0.] position_ij | |
-@test_approx_eq -2. overlap_ij | |
+@test [-18., 0.] ≈ position_ij | |
+@test -2. ≈ overlap_ij | |
info("Testing findContactsAllToAll(...)") |