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Deprecate logm in favor of log.
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Sacha0 committed Aug 31, 2017
1 parent 109b0b4 commit 9ed9271
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2 changes: 2 additions & 0 deletions NEWS.md
Original file line number Diff line number Diff line change
Expand Up @@ -338,6 +338,8 @@ Deprecated or removed

* `expm` has been deprecated in favor of `exp` ([#23233]).

* `logm` has been deprecated in favor of `log` ([#23505]).

* Calling `union` with no arguments is deprecated; construct an empty set with an appropriate
element type using `Set{T}()` instead ([#23144]).

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9 changes: 6 additions & 3 deletions base/deprecated.jl
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Expand Up @@ -220,7 +220,7 @@ for f in (:sin, :sinh, :sind, :asin, :asinh, :asind,
:tan, :tanh, :tand, :atan, :atanh, :atand,
:sinpi, :cosc, :ceil, :floor, :trunc, :round,
:log1p, :expm1, :abs, :abs2,
:log, :log2, :log10, :exp2, :exp10, :sinc, :cospi,
:log2, :log10, :exp2, :exp10, :sinc, :cospi,
:cos, :cosh, :cosd, :acos, :acosd,
:cot, :coth, :cotd, :acot, :acotd,
:sec, :sech, :secd, :asech,
Expand All @@ -247,13 +247,13 @@ for f in (
# base/special/trig.jl
:sinpi, :cospi, :sinc, :cosc,
# base/special/log.jl
:log, :log1p,
:log1p,
# base/special/gamma.jl
:gamma, :lfact,
# base/math.jl
:cbrt, :sinh, :cosh, :tanh, :atan, :asinh, :exp2,
:expm1, :exp10, :sin, :cos, :tan, :asin, :acos, :acosh, :atanh,
#=:log,=# :log2, :log10, :lgamma, #=:log1p,=# :sqrt,
:log2, :log10, :lgamma, #=:log1p,=# :sqrt,
# base/floatfuncs.jl
:abs, :abs2, :angle, :isnan, :isinf, :isfinite,
# base/complex.jl
Expand Down Expand Up @@ -1664,6 +1664,9 @@ end
@deprecate expm! exp!
@deprecate expm exp

# deprecate logm in favor of log
@deprecate logm log

# PR #23092
@eval LibGit2 begin
function prompt(msg::AbstractString; default::AbstractString="", password::Bool=false)
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1 change: 0 additions & 1 deletion base/exports.jl
Original file line number Diff line number Diff line change
Expand Up @@ -589,7 +589,6 @@ export
linreg,
logabsdet,
logdet,
logm,
lu,
lufact!,
lufact,
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23 changes: 9 additions & 14 deletions base/linalg/dense.jl
Original file line number Diff line number Diff line change
Expand Up @@ -426,7 +426,7 @@ function (^)(A::AbstractMatrix{T}, p::Real) where T
# Otherwise, use Schur decomposition
return schurpow(A, p)
end
(^)(A::AbstractMatrix, p::Number) = exp(p*logm(A))
(^)(A::AbstractMatrix, p::Number) = exp(p*log(A))

# Matrix exponential

Expand Down Expand Up @@ -556,7 +556,7 @@ function rcswap!(i::Integer, j::Integer, X::StridedMatrix{<:Number})
end

"""
logm(A{T}::StridedMatrix{T})
log(A{T}::StridedMatrix{T})
If `A` has no negative real eigenvalue, compute the principal matrix logarithm of `A`, i.e.
the unique matrix ``X`` such that ``e^X = A`` and ``-\\pi < Im(\\lambda) < \\pi`` for all
Expand All @@ -580,25 +580,25 @@ julia> A = 2.7182818 * eye(2)
2.71828 0.0
0.0 2.71828
julia> logm(A)
julia> log(A)
2×2 Symmetric{Float64,Array{Float64,2}}:
1.0 0.0
0.0 1.0
```
"""
function logm(A::StridedMatrix{T}) where T
function log(A::StridedMatrix{T}) where T
# If possible, use diagonalization
if issymmetric(A) && T <: Real
return logm(Symmetric(A))
return log(Symmetric(A))
end
if ishermitian(A)
return logm(Hermitian(A))
return log(Hermitian(A))
end

# Use Schur decomposition
n = checksquare(A)
if istriu(A)
return full(logm(UpperTriangular(complex(A))))
return full(log(UpperTriangular(complex(A))))
else
if isreal(A)
SchurF = schurfact(real(A))
Expand All @@ -607,19 +607,14 @@ function logm(A::StridedMatrix{T}) where T
end
if !istriu(SchurF.T)
SchurS = schurfact(complex(SchurF.T))
logT = SchurS.Z * logm(UpperTriangular(SchurS.T)) * SchurS.Z'
logT = SchurS.Z * log(UpperTriangular(SchurS.T)) * SchurS.Z'
return SchurF.Z * logT * SchurF.Z'
else
R = logm(UpperTriangular(complex(SchurF.T)))
R = log(UpperTriangular(complex(SchurF.T)))
return SchurF.Z * R * SchurF.Z'
end
end
end
function logm(a::Number)
b = log(complex(a))
return imag(b) == 0 ? real(b) : b
end
logm(a::Complex) = log(a)

"""
sqrtm(A)
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3 changes: 1 addition & 2 deletions base/linalg/diagonal.jl
Original file line number Diff line number Diff line change
Expand Up @@ -327,8 +327,7 @@ eye(::Type{Diagonal{T}}, n::Int) where {T} = Diagonal(ones(T,n))

# Matrix functions
exp(D::Diagonal) = Diagonal(exp.(D.diag))
logm(D::Diagonal) = Diagonal(log.(D.diag))
logm(D::Diagonal{<:AbstractMatrix}) = Diagonal(logm.(D.diag))
log(D::Diagonal) = Diagonal(log.(D.diag))
sqrtm(D::Diagonal) = Diagonal(sqrt.(D.diag))
sqrtm(D::Diagonal{<:AbstractMatrix}) = Diagonal(sqrtm.(D.diag))

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3 changes: 1 addition & 2 deletions base/linalg/linalg.jl
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Expand Up @@ -7,7 +7,7 @@ import Base: A_mul_Bt, At_ldiv_Bt, A_rdiv_Bc, At_ldiv_B, Ac_mul_Bc, A_mul_Bc, Ac
Ac_ldiv_B, Ac_ldiv_Bc, At_mul_Bt, A_rdiv_Bt, At_mul_B
import Base: USE_BLAS64, abs, big, broadcast, ceil, conj, convert, copy, copy!,
adjoint, eltype, exp, eye, findmax, findmin, fill!, floor, full, getindex,
hcat, imag, indices, inv, isapprox, isone, IndexStyle, kron, length, map,
hcat, imag, indices, inv, isapprox, isone, IndexStyle, kron, length, log, map,
ndims, oneunit, parent, power_by_squaring, print_matrix, promote_rule, real, round,
setindex!, show, similar, size, transpose, trunc, typed_hcat
using Base: hvcat_fill, iszero, IndexLinear, _length, promote_op, promote_typeof,
Expand Down Expand Up @@ -101,7 +101,6 @@ export
linreg,
logabsdet,
logdet,
logm,
lu,
lufact,
lufact!,
Expand Down
35 changes: 34 additions & 1 deletion base/linalg/symmetric.jl
Original file line number Diff line number Diff line change
Expand Up @@ -607,7 +607,7 @@ function exp(A::Hermitian{T}) where T
end
end

for (funm, func) in ([:logm,:log], [:sqrtm,:sqrt])
for (funm, func) in ([:sqrtm,:sqrt],)
@eval begin
function ($funm)(A::Symmetric{T}) where T<:Real
F = eigfact(A)
Expand Down Expand Up @@ -639,3 +639,36 @@ for (funm, func) in ([:logm,:log], [:sqrtm,:sqrt])
end
end
end

for func in (:log, #=:sqrtm=#)
@eval begin
function ($func)(A::Symmetric{T}) where T<:Real
F = eigfact(A)
if all-> λ 0, F.values)
retmat = (F.vectors * Diagonal(($func).(F.values))) * F.vectors'
else
retmat = (F.vectors * Diagonal(($func).(complex.(F.values)))) * F.vectors'
end
return Symmetric(retmat)
end

function ($func)(A::Hermitian{T}) where T
n = checksquare(A)
F = eigfact(A)
if all-> λ 0, F.values)
retmat = (F.vectors * Diagonal(($func).(F.values))) * F.vectors'
if T <: Real
return Hermitian(retmat)
else
for i = 1:n
retmat[i,i] = real(retmat[i,i])
end
return Hermitian(retmat)
end
else
retmat = (F.vectors * Diagonal(($func).(complex(F.values)))) * F.vectors'
return retmat
end
end
end
end
8 changes: 4 additions & 4 deletions base/linalg/triangular.jl
Original file line number Diff line number Diff line change
Expand Up @@ -1789,7 +1789,7 @@ powm(A::LowerTriangular, p::Real) = powm(A.', p::Real).'
# Based on the code available at http://eprints.ma.man.ac.uk/1851/02/logm.zip,
# Copyright (c) 2011, Awad H. Al-Mohy and Nicholas J. Higham
# Julia version relicensed with permission from original authors
function logm(A0::UpperTriangular{T}) where T<:Union{Float64,Complex{Float64}}
function log(A0::UpperTriangular{T}) where T<:Union{Float64,Complex{Float64}}
maxsqrt = 100
theta = [1.586970738772063e-005,
2.313807884242979e-003,
Expand Down Expand Up @@ -1961,9 +1961,9 @@ function logm(A0::UpperTriangular{T}) where T<:Union{Float64,Complex{Float64}}

return UpperTriangular(Y)
end
logm(A::LowerTriangular) = logm(A.').'
log(A::LowerTriangular) = log(A.').'

# Auxiliary functions for logm and matrix power
# Auxiliary functions for matrix logarithm and matrix power

# Compute accurate diagonal of A = A0^s - I
# Al-Mohy, "A more accurate Briggs method for the logarithm",
Expand Down Expand Up @@ -2117,7 +2117,7 @@ end
unw(x::Real) = 0
unw(x::Number) = ceil((imag(x) - pi) / (2 * pi))

# End of auxiliary functions for logm and matrix power
# End of auxiliary functions for matrix logarithm and matrix power

function sqrtm(A::UpperTriangular)
realmatrix = false
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1 change: 0 additions & 1 deletion doc/src/stdlib/linalg.md
Original file line number Diff line number Diff line change
Expand Up @@ -92,7 +92,6 @@ Base.repmat
Base.kron
Base.SparseArrays.blkdiag
Base.LinAlg.linreg
Base.LinAlg.logm
Base.LinAlg.sqrtm
Base.LinAlg.lyap
Base.LinAlg.sylvester
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28 changes: 13 additions & 15 deletions test/linalg/dense.jl
Original file line number Diff line number Diff line change
Expand Up @@ -453,20 +453,20 @@ end
1/3 1/4 1/5 1/6;
1/4 1/5 1/6 1/7;
1/5 1/6 1/7 1/8])
@test exp(logm(A4)) A4
@test exp(log(A4)) A4

A5 = convert(Matrix{elty}, [1 1 0 1; 0 1 1 0; 0 0 1 1; 1 0 0 1])
@test exp(logm(A5)) A5
@test exp(log(A5)) A5

A6 = convert(Matrix{elty}, [-5 2 0 0 ; 1/2 -7 3 0; 0 1/3 -9 4; 0 0 1/4 -11])
@test exp(logm(A6)) A6
@test exp(log(A6)) A6

A7 = convert(Matrix{elty}, [1 0 0 1e-8; 0 1 0 0; 0 0 1 0; 0 0 0 1])
@test exp(logm(A7)) A7
@test exp(log(A7)) A7
end

A8 = 100 * [-1+1im 0 0 1e-8; 0 1 0 0; 0 0 1 0; 0 0 0 1]
@test exp(logm(A8)) A8
@test exp(log(A8)) A8
end

@testset "issue 5116" begin
Expand All @@ -487,28 +487,28 @@ end

@testset "Additional matrix logarithm tests" for elty in (Float64, Complex{Float64})
A11 = convert(Matrix{elty}, [3 2; -5 -3])
@test exp(logm(A11)) A11
@test exp(log(A11)) A11

A12 = convert(Matrix{elty}, [1 -1; 1 -1])
@test typeof(logm(A12)) == Array{Complex{Float64}, 2}
@test typeof(log(A12)) == Array{Complex{Float64}, 2}

A1 = convert(Matrix{elty}, [4 2 0; 1 4 1; 1 1 4])
logmA1 = convert(Matrix{elty}, [1.329661349 0.5302876358 -0.06818951543;
logA1 = convert(Matrix{elty}, [1.329661349 0.5302876358 -0.06818951543;
0.2310490602 1.295566591 0.2651438179;
0.2310490602 0.1969543025 1.363756107])
@test logm(A1) logmA1
@test exp(logm(A1)) A1
@test log(A1) logA1
@test exp(log(A1)) A1

A4 = convert(Matrix{elty}, [1/2 1/3 1/4 1/5+eps();
1/3 1/4 1/5 1/6;
1/4 1/5 1/6 1/7;
1/5 1/6 1/7 1/8])
logmA4 = convert(Matrix{elty}, [-1.73297159 1.857349738 0.4462766564 0.2414170219;
logA4 = convert(Matrix{elty}, [-1.73297159 1.857349738 0.4462766564 0.2414170219;
1.857349738 -5.335033737 2.994142974 0.5865285289;
0.4462766564 2.994142974 -7.351095988 3.318413247;
0.2414170219 0.5865285289 3.318413247 -5.444632124])
@test logm(A4) logmA4
@test exp(logm(A4)) A4
@test log(A4) logA4
@test exp(log(A4)) A4
end

@testset "issue #7181" begin
Expand Down Expand Up @@ -674,10 +674,8 @@ end

@testset "test ops on Numbers for $elty" for elty in [Float32,Float64,Complex64,Complex128]
a = rand(elty)
@test exp(a) == exp(a)
@test isposdef(one(elty))
@test sqrtm(a) == sqrt(a)
@test logm(a) log(a)
@test lyap(one(elty),a) == -a/2
end

Expand Down
4 changes: 2 additions & 2 deletions test/linalg/diagonal.jl
Original file line number Diff line number Diff line change
Expand Up @@ -63,7 +63,7 @@ srand(1)
for func in (exp,)
@test func(D) func(DM) atol=n^3*eps(relty)
end
@test logm(Diagonal(abs.(D.diag))) logm(abs.(DM)) atol=n^3*eps(relty)
@test log(Diagonal(abs.(D.diag))) log(abs.(DM)) atol=n^3*eps(relty)
end
if elty <: BlasComplex
for func in (logdet, sqrtm)
Expand Down Expand Up @@ -382,7 +382,7 @@ end
@test ishermitian(Dsym) == false

@test exp(D) == Diagonal([exp([1 2; 3 4]), exp([1 2; 3 4])])
@test logm(D) == Diagonal([logm([1 2; 3 4]), logm([1 2; 3 4])])
@test log(D) == Diagonal([log([1 2; 3 4]), log([1 2; 3 4])])
@test sqrtm(D) == Diagonal([sqrtm([1 2; 3 4]), sqrtm([1 2; 3 4])])
end

Expand Down
8 changes: 4 additions & 4 deletions test/linalg/symmetric.jl
Original file line number Diff line number Diff line change
Expand Up @@ -13,17 +13,17 @@ end
A1 = randn(4,4) + im*randn(4,4)
A2 = A1 + A1'
@test exp(A2) exp(Hermitian(A2))
@test logm(A2) logm(Hermitian(A2))
@test log(A2) log(Hermitian(A2))
A3 = A1 * A1' # posdef
@test exp(A3) exp(Hermitian(A3))
@test logm(A3) logm(Hermitian(A3))
@test log(A3) log(Hermitian(A3))

A1 = randn(4,4)
A3 = A1 * A1'
A4 = A1 + A1.'
@test exp(A4) exp(Symmetric(A4))
@test logm(A3) logm(Symmetric(A3))
@test logm(A3) logm(Hermitian(A3))
@test log(A3) log(Symmetric(A3))
@test log(A3) log(Hermitian(A3))
end

@testset "Core functionality" begin
Expand Down
4 changes: 2 additions & 2 deletions test/linalg/triangular.jl
Original file line number Diff line number Diff line change
Expand Up @@ -174,9 +174,9 @@ for elty1 in (Float32, Float64, BigFloat, Complex64, Complex128, Complex{BigFloa
@test B == viewA1.'
end

#exp/logm
#exp/log
if (elty1 == Float64 || elty1 == Complex128) && (t1 == UpperTriangular || t1 == LowerTriangular)
@test exp(full(logm(A1))) full(A1)
@test exp(full(log(A1))) full(A1)
end

# scale
Expand Down

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