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Calculate nodes and weights at GaussLegendre construction time #149

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Dec 4, 2024
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11 changes: 11 additions & 0 deletions benchmark/benchmarks.jl
Original file line number Diff line number Diff line change
Expand Up @@ -45,6 +45,7 @@ spec = (
line = Line(Point(0, 0, 0), Point(1, 1, 1)),
plane = Plane(Point(0, 0, 0), Vec(0, 0, 1)),
ray = Ray(Point(0, 0, 0), Vec(0, 0, 1)),
rope = Rope([Point(t, t, t) for t in 1:32]...),
triangle = Triangle(Point(1, 0, 0), Point(0, 1, 0), Point(0, 0, 1)),
tetrahedron = let
a = Point(0, 3, 0)
Expand All @@ -64,6 +65,7 @@ SUITE["Specializations/Scalar GaussLegendre"] = let s = BenchmarkGroup()
s["Line"] = @benchmarkable integral($spec.f_exp, $spec.g.line, $spec.rule_gl)
s["Plane"] = @benchmarkable integral($spec.f_exp, $spec.g.plane, $spec.rule_gl)
s["Ray"] = @benchmarkable integral($spec.f_exp, $spec.g.ray, $spec.rule_gl)
s["Rope"] = @benchmarkable integral($spec.f, $spec.g.rope, $spec.rule_gl)
s["Triangle"] = @benchmarkable integral($spec.f, $spec.g.triangle, $spec.rule_gl)
s["Tetrahedron"] = @benchmarkable integral($spec.f, $spec.g.tetrahedron, $spec.rule_gl)
s
Expand All @@ -82,5 +84,14 @@ SUITE["Differentials"] = let s = BenchmarkGroup()
s
end

############################################################################################
# Integration Rules
###########################################################################################

SUITE["Rules"] = let s = BenchmarkGroup()
s["GaussLegendre"] = @benchmarkable GaussLegendre($1000)
s
end

#tune!(SUITE)
#run(SUITE, verbose=true)
11 changes: 5 additions & 6 deletions src/integral.jl
Original file line number Diff line number Diff line change
Expand Up @@ -75,17 +75,16 @@ function _integral(
N = Meshes.paramdim(geometry)

# Get Gauss-Legendre nodes and weights of type FP for a region [-1,1]ᴺ
xs, ws = FastGaussQuadrature.gausslegendre(rule.n)
xsFP = Iterators.map(FP, xs)
wsFP = Iterators.map(FP, ws)
weight_grid = Iterators.product(ntuple(Returns(wsFP), N)...)
node_grid = Iterators.product(ntuple(Returns(xsFP), N)...)
xs = Iterators.map(FP, rule.nodes)
ws = Iterators.map(FP, rule.weights)
weight_grid = Iterators.product(ntuple(Returns(ws), N)...)
node_grid = Iterators.product(ntuple(Returns(xs), N)...)

# Domain transformation: x [-1,1] ↦ t [0,1]
t(x) = (1 // 2) * x + (1 // 2)

function integrand((weights, nodes))
# Transforms nodes/xs, store in an NTuple
# ts = t.(nodes), but non-allocating
ts = ntuple(i -> t(nodes[i]), length(nodes))
# Integrand function
prod(weights) * f(geometry(ts...)) * differential(geometry, ts, diff_method)
Expand Down
4 changes: 4 additions & 0 deletions src/integration_rules.jl
Original file line number Diff line number Diff line change
Expand Up @@ -33,6 +33,10 @@ e.g. `length(geometry)/λ`.
"""
struct GaussLegendre <: IntegrationRule
n::Int64
nodes::Vector{Float64}
weights::Vector{Float64}

GaussLegendre(n::Int64) = new(n, FastGaussQuadrature.gausslegendre(n)...)
end

"""
Expand Down
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