From d964eb1d89111e59571720e65df68390c06388b9 Mon Sep 17 00:00:00 2001 From: SciML Bot Date: Thu, 31 Jul 2025 16:36:16 -0400 Subject: [PATCH] Apply JuliaFormatter to fix code formatting MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit - Applied JuliaFormatter with SciML style guide - Formatted 2 files 🤖 Generated by OrgMaintenanceScripts.jl --- test/parameter_indexing_test.jl | 2 +- test/state_indexing_test.jl | 148 ++++++++++++++++---------------- 2 files changed, 75 insertions(+), 75 deletions(-) diff --git a/test/parameter_indexing_test.jl b/test/parameter_indexing_test.jl index 2c5ebd1..d7cd8f0 100644 --- a/test/parameter_indexing_test.jl +++ b/test/parameter_indexing_test.jl @@ -116,7 +116,7 @@ for sys in [ (:(a + b + t), p[1] + p[2] + fi.t, true), ([:(a + b + t), :c], [p[1] + p[2] + fi.t, p[3]], true), ((:(a + b + t), :c), (p[1] + p[2] + fi.t, p[3]), true), - ((; a = (; b = :(a + b))), (; a = (; b = p[1] + p[2])), true), + ((; a = (; b = :(a + b))), (; a = (; b = p[1] + p[2])), true) ] get = getp(sys, sym) if check_inference diff --git a/test/state_indexing_test.jl b/test/state_indexing_test.jl index b2db2f7..604caaf 100644 --- a/test/state_indexing_test.jl +++ b/test/state_indexing_test.jl @@ -24,38 +24,38 @@ t = 0.5 fi = FakeIntegrator(sys, copy(u), copy(p), t) # checking inference for non-concretely typed arrays will always fail for (sym, val, newval, check_inference) in [(:x, u[1], 4.0, true) - (:y, u[2], 4.0, true) - (:z, u[3], 4.0, true) - (1, u[1], 4.0, true) - ([:x, :y], u[1:2], 4ones(2), true) - ([1, 2], u[1:2], 4ones(2), true) - ((:z, :y), (u[3], u[2]), (4.0, 5.0), true) - ((3, 2), (u[3], u[2]), (4.0, 5.0), true) - ([:x, [:y, :z]], [u[1], u[2:3]], - [4.0, [5.0, 6.0]], false) - ([:x, 2:3], [u[1], u[2:3]], - [4.0, [5.0, 6.0]], false) - ([:x, (:y, :z)], [u[1], (u[2], u[3])], - [4.0, (5.0, 6.0)], false) - ([:x, Tuple(2:3)], [u[1], (u[2], u[3])], - [4.0, (5.0, 6.0)], false) - ([:x, [:y], (:z,)], [u[1], [u[2]], (u[3],)], - [4.0, [5.0], (6.0,)], false) - ([:x, [:y], (3,)], [u[1], [u[2]], (u[3],)], - [4.0, [5.0], (6.0,)], false) - ((:x, [:y, :z]), (u[1], u[2:3]), - (4.0, [5.0, 6.0]), true) - ((:x, (:y, :z)), (u[1], (u[2], u[3])), - (4.0, (5.0, 6.0)), true) - ((1, (:y, :z)), (u[1], (u[2], u[3])), - (4.0, (5.0, 6.0)), true) - ((:x, [:y], (:z,)), (u[1], [u[2]], (u[3],)), - (4.0, [5.0], (6.0,)), true) - ((a = :x, b = [:x, :y], c = (d = :z, e = :x)), - (a = u[1], b = u[1:2], - c = (d = u[3], e = u[1])), - (a = 4.0, b = [4.0, 5.0], - c = (d = 6.0, e = 4.0)), true)] + (:y, u[2], 4.0, true) + (:z, u[3], 4.0, true) + (1, u[1], 4.0, true) + ([:x, :y], u[1:2], 4ones(2), true) + ([1, 2], u[1:2], 4ones(2), true) + ((:z, :y), (u[3], u[2]), (4.0, 5.0), true) + ((3, 2), (u[3], u[2]), (4.0, 5.0), true) + ([:x, [:y, :z]], [u[1], u[2:3]], + [4.0, [5.0, 6.0]], false) + ([:x, 2:3], [u[1], u[2:3]], + [4.0, [5.0, 6.0]], false) + ([:x, (:y, :z)], [u[1], (u[2], u[3])], + [4.0, (5.0, 6.0)], false) + ([:x, Tuple(2:3)], [u[1], (u[2], u[3])], + [4.0, (5.0, 6.0)], false) + ([:x, [:y], (:z,)], [u[1], [u[2]], (u[3],)], + [4.0, [5.0], (6.0,)], false) + ([:x, [:y], (3,)], [u[1], [u[2]], (u[3],)], + [4.0, [5.0], (6.0,)], false) + ((:x, [:y, :z]), (u[1], u[2:3]), + (4.0, [5.0, 6.0]), true) + ((:x, (:y, :z)), (u[1], (u[2], u[3])), + (4.0, (5.0, 6.0)), true) + ((1, (:y, :z)), (u[1], (u[2], u[3])), + (4.0, (5.0, 6.0)), true) + ((:x, [:y], (:z,)), (u[1], [u[2]], (u[3],)), + (4.0, [5.0], (6.0,)), true) + ((a = :x, b = [:x, :y], c = (d = :z, e = :x)), + (a = u[1], b = u[1:2], + c = (d = u[3], e = u[1])), + (a = 4.0, b = [4.0, 5.0], + c = (d = 6.0, e = 4.0)), true)] get = getsym(sys, sym) set! = setsym(sys, sym) if check_inference @@ -127,12 +127,12 @@ let fi = fi, sys = sys end for (sym, oldval, newval, check_inference) in [(:a, p[1], 4.0, true) - (:b, p[2], 5.0, true) - (:c, p[3], 6.0, true) - ([:a, :b], p[1:2], [4.0, 5.0], true) - ((:c, :b), (p[3], p[2]), (6.0, 5.0), true) - ([:x, :a], [u[1], p[1]], [4.0, 5.0], false) - ((:y, :b), (u[2], p[2]), (5.0, 6.0), true)] + (:b, p[2], 5.0, true) + (:c, p[3], 6.0, true) + ([:a, :b], p[1:2], [4.0, 5.0], true) + ((:c, :b), (p[3], p[2]), (6.0, 5.0), true) + ([:x, :a], [u[1], p[1]], [4.0, 5.0], false) + ((:y, :b), (u[2], p[2]), (5.0, 6.0), true)] get = getsym(fi, sym) set! = setsym(fi, sym) if check_inference @@ -201,42 +201,42 @@ yvals = getindex.(sol.u, 2) zvals = getindex.(sol.u, 3) for (sym, ans, check_inference) in [(:x, xvals, true) - (:y, yvals, true) - (:z, zvals, true) - (1, xvals, true) - ([:x, :y], vcat.(xvals, yvals), true) - (1:2, vcat.(xvals, yvals), true) - ([:x, 2], vcat.(xvals, yvals), true) - ((:z, :y), tuple.(zvals, yvals), true) - ((3, 2), tuple.(zvals, yvals), true) - ([:x, [:y, :z]], - vcat.(xvals, [[x] for x in vcat.(yvals, zvals)]), - false) - ([:x, (:y, :z)], - vcat.(xvals, tuple.(yvals, zvals)), false) - ([1, (:y, :z)], - vcat.(xvals, tuple.(yvals, zvals)), false) - ([:x, [:y, :z], (:x, :z)], - vcat.(xvals, [[x] for x in vcat.(yvals, zvals)], - tuple.(xvals, zvals)), - false) - ([:x, [:y, 3], (1, :z)], - vcat.(xvals, [[x] for x in vcat.(yvals, zvals)], - tuple.(xvals, zvals)), - false) - ((:x, [:y, :z]), - tuple.(xvals, vcat.(yvals, zvals)), true) - ((:x, (:y, :z)), - tuple.(xvals, tuple.(yvals, zvals)), true) - ((:x, [:y, :z], (:z, :y)), - tuple.(xvals, vcat.(yvals, zvals), - tuple.(zvals, yvals)), - true) - ([:x, :a], vcat.(xvals, p[1]), false) - ((:y, :b), tuple.(yvals, p[2]), true) - (:t, t, true) - ([:x, :a, :t], vcat.(xvals, p[1], t), false) - ((:x, :a, :t), tuple.(xvals, p[1], t), true)] + (:y, yvals, true) + (:z, zvals, true) + (1, xvals, true) + ([:x, :y], vcat.(xvals, yvals), true) + (1:2, vcat.(xvals, yvals), true) + ([:x, 2], vcat.(xvals, yvals), true) + ((:z, :y), tuple.(zvals, yvals), true) + ((3, 2), tuple.(zvals, yvals), true) + ([:x, [:y, :z]], + vcat.(xvals, [[x] for x in vcat.(yvals, zvals)]), + false) + ([:x, (:y, :z)], + vcat.(xvals, tuple.(yvals, zvals)), false) + ([1, (:y, :z)], + vcat.(xvals, tuple.(yvals, zvals)), false) + ([:x, [:y, :z], (:x, :z)], + vcat.(xvals, [[x] for x in vcat.(yvals, zvals)], + tuple.(xvals, zvals)), + false) + ([:x, [:y, 3], (1, :z)], + vcat.(xvals, [[x] for x in vcat.(yvals, zvals)], + tuple.(xvals, zvals)), + false) + ((:x, [:y, :z]), + tuple.(xvals, vcat.(yvals, zvals)), true) + ((:x, (:y, :z)), + tuple.(xvals, tuple.(yvals, zvals)), true) + ((:x, [:y, :z], (:z, :y)), + tuple.(xvals, vcat.(yvals, zvals), + tuple.(zvals, yvals)), + true) + ([:x, :a], vcat.(xvals, p[1]), false) + ((:y, :b), tuple.(yvals, p[2]), true) + (:t, t, true) + ([:x, :a, :t], vcat.(xvals, p[1], t), false) + ((:x, :a, :t), tuple.(xvals, p[1], t), true)] get = getsym(sys, sym) if check_inference @inferred get(sol)