Use mpfr_lngamma for loggamma(::BigFloat)

Project.toml

@@ -1,6 +1,6 @@
 name = "SpecialFunctions"
 uuid = "276daf66-3868-5448-9aa4-cd146d93841b"
-version = "1.7.0"
+version = "1.8.0"
 
 [deps]
 ChainRulesCore = "d360d2e6-b24c-11e9-a2a3-2a2ae2dbcce4"

src/gamma.jl

@@ -1,6 +1,6 @@
 # This file contains code that was formerly a part of Julia. License is MIT: http://julialang.org/license
 
-using Base.MPFR: ROUNDING_MODE
+using Base.MPFR: MPFRRoundingMode, ROUNDING_MODE
 
 export gamma, loggamma, logabsgamma, beta, logbeta, logabsbeta, logfactorial, logabsbinomial
 
@@ -643,12 +643,20 @@ See also [`logabsgamma`](@ref) for real `x`.
 """
 loggamma(x::Number) = _loggamma(float(x))
 
-function _loggamma(x::Union{Real,BigFloat})
+function _loggamma(x::Real)
     (y, s) = logabsgamma(x)
     s < 0 && throw(DomainError(x, "`gamma(x)` must be non-negative"))
     return y
 end
 
+function _loggamma(x::BigFloat)
+    isnan(x) && return x
+    y = BigFloat()
+    ccall((:mpfr_lngamma, :libmpfr), Cint, (Ref{BigFloat}, Ref{BigFloat}, MPFRRoundingMode), y, x, ROUNDING_MODE[])
+    isnan(y) && throw(DomainError(x, "`gamma(x)` must be non-negative"))
+    return y
+end
+
 # Compute the logΓ(z) function using a combination of the asymptotic series,
 # the Taylor series around z=1 and z=2, the reflection formula, and the shift formula.
 # Many details of these techniques are discussed in D. E. G. Hare,

test/gamma.jl

@@ -80,31 +80,33 @@
         @test_throws MethodError logfactorial(1.0)
     end
 
-    # loggamma & logabsgamma test cases (from Wolfram Alpha)
-    @test loggamma(-300im) ≅ -473.17185074259241355733179182866544204963885920016823743 - 1410.3490664555822107569308046418321236643870840962522425im
-    @test loggamma(3.099) ≅ loggamma(3.099+0im) ≅ 0.786413746900558058720665860178923603134125854451168869796
-    @test loggamma(1.15) ≅ loggamma(1.15+0im) ≅ -0.06930620867104688224241731415650307100375642207340564554
-    @test logabsgamma(0.89)[1] ≅ loggamma(0.89+0im) ≅ 0.074022173958081423702265889979810658434235008344573396963
-    @test loggamma(0.91) ≅ loggamma(0.91+0im) ≅ 0.058922567623832379298241751183907077883592982094770449167
-    @test loggamma(0.01) ≅ loggamma(0.01+0im) ≅ 4.599479878042021722513945411008748087261001413385289652419
-    @test loggamma(-3.4-0.1im) ≅ -1.1733353322064779481049088558918957440847715003659143454 + 12.331465501247826842875586104415980094316268974671819281im
-    @test loggamma(-13.4-0.1im) ≅ -22.457344044212827625152500315875095825738672314550695161 + 43.620560075982291551250251193743725687019009911713182478im
-    @test loggamma(-13.4+0.0im) ≅ conj(loggamma(-13.4-0.0im)) ≅ -22.404285036964892794140985332811433245813398559439824988 - 43.982297150257105338477007365913040378760371591251481493im
-    @test loggamma(-13.4+8im) ≅ -44.705388949497032519400131077242200763386790107166126534 - 22.208139404160647265446701539526205774669649081807864194im
-    @test logabsgamma(1+exp2(-20))[1] ≅ loggamma(1+exp2(-20)+0im) ≅ -5.504750066148866790922434423491111098144565651836914e-7
-    @test loggamma(1+exp2(-20)+exp2(-19)*im) ≅ -5.5047799872835333673947171235997541985495018556426e-7 - 1.1009485171695646421931605642091915847546979851020e-6im
-    @test loggamma(-300+2im) ≅ -1419.3444991797240659656205813341478289311980525970715668 - 932.63768120761873747896802932133229201676713644684614785im
-    @test loggamma(300+2im) ≅ 1409.19538972991765122115558155209493891138852121159064304 + 11.4042446282102624499071633666567192538600478241492492652im
-    @test loggamma(1-6im) ≅ -7.6099596929506794519956058191621517065972094186427056304 - 5.5220531255147242228831899544009162055434670861483084103im
-    @test loggamma(1-8im) ≅ -10.607711310314582247944321662794330955531402815576140186 - 9.4105083803116077524365029286332222345505790217656796587im
-    @test loggamma(1+6.5im) ≅ conj(loggamma(1-6.5im)) ≅ -8.3553365025113595689887497963634069303427790125048113307 + 6.4392816159759833948112929018407660263228036491479825744im
-    @test loggamma(1+1im) ≅ conj(loggamma(1-1im)) ≅ -0.6509231993018563388852168315039476650655087571397225919 - 0.3016403204675331978875316577968965406598997739437652369im
-    @test loggamma(-pi*1e7 + 6im) ≅ -5.10911758892505772903279926621085326635236850347591e8 - 9.86959420047365966439199219724905597399295814979993e7im
-    @test loggamma(-pi*1e7 + 8im) ≅ -5.10911765175690634449032797392631749405282045412624e8 - 9.86959074790854911974415722927761900209557190058925e7im
-    @test loggamma(-pi*1e14 + 6im) ≅ -1.0172766411995621854526383224252727000270225301426e16 - 9.8696044010873714715264929863618267642124589569347e14im
-    @test loggamma(-pi*1e14 + 8im) ≅ -1.0172766411995628137711690403794640541491261237341e16 - 9.8696044010867038531027376655349878694397362250037e14im
-    @test loggamma(2.05 + 0.03im) ≅ conj(loggamma(2.05 - 0.03im)) ≅ 0.02165570938532611215664861849215838847758074239924127515 + 0.01363779084533034509857648574107935425251657080676603919im
-    @test loggamma(2+exp2(-20)+exp2(-19)*im) ≅ 4.03197681916768997727833554471414212058404726357753e-7 + 8.06398296652953575754782349984315518297283664869951e-7im
+    # values taken from Wolfram Alpha
+    @testset "loggamma & logabsgamma test cases" begin
+        @test loggamma(-300im) ≅ -473.17185074259241355733179182866544204963885920016823743 - 1410.3490664555822107569308046418321236643870840962522425im
+        @test loggamma(3.099) ≅ loggamma(3.099+0im) ≅ 0.786413746900558058720665860178923603134125854451168869796
+        @test loggamma(1.15) ≅ loggamma(1.15+0im) ≅ -0.06930620867104688224241731415650307100375642207340564554
+        @test logabsgamma(0.89)[1] ≅ loggamma(0.89+0im) ≅ 0.074022173958081423702265889979810658434235008344573396963
+        @test loggamma(0.91) ≅ loggamma(0.91+0im) ≅ 0.058922567623832379298241751183907077883592982094770449167
+        @test loggamma(0.01) ≅ loggamma(0.01+0im) ≅ 4.599479878042021722513945411008748087261001413385289652419
+        @test loggamma(-3.4-0.1im) ≅ -1.1733353322064779481049088558918957440847715003659143454 + 12.331465501247826842875586104415980094316268974671819281im
+        @test loggamma(-13.4-0.1im) ≅ -22.457344044212827625152500315875095825738672314550695161 + 43.620560075982291551250251193743725687019009911713182478im
+        @test loggamma(-13.4+0.0im) ≅ conj(loggamma(-13.4-0.0im)) ≅ -22.404285036964892794140985332811433245813398559439824988 - 43.982297150257105338477007365913040378760371591251481493im
+        @test loggamma(-13.4+8im) ≅ -44.705388949497032519400131077242200763386790107166126534 - 22.208139404160647265446701539526205774669649081807864194im
+        @test logabsgamma(1+exp2(-20))[1] ≅ loggamma(1+exp2(-20)+0im) ≅ -5.504750066148866790922434423491111098144565651836914e-7
+        @test loggamma(1+exp2(-20)+exp2(-19)*im) ≅ -5.5047799872835333673947171235997541985495018556426e-7 - 1.1009485171695646421931605642091915847546979851020e-6im
+        @test loggamma(-300+2im) ≅ -1419.3444991797240659656205813341478289311980525970715668 - 932.63768120761873747896802932133229201676713644684614785im
+        @test loggamma(300+2im) ≅ 1409.19538972991765122115558155209493891138852121159064304 + 11.4042446282102624499071633666567192538600478241492492652im
+        @test loggamma(1-6im) ≅ -7.6099596929506794519956058191621517065972094186427056304 - 5.5220531255147242228831899544009162055434670861483084103im
+        @test loggamma(1-8im) ≅ -10.607711310314582247944321662794330955531402815576140186 - 9.4105083803116077524365029286332222345505790217656796587im
+        @test loggamma(1+6.5im) ≅ conj(loggamma(1-6.5im)) ≅ -8.3553365025113595689887497963634069303427790125048113307 + 6.4392816159759833948112929018407660263228036491479825744im
+        @test loggamma(1+1im) ≅ conj(loggamma(1-1im)) ≅ -0.6509231993018563388852168315039476650655087571397225919 - 0.3016403204675331978875316577968965406598997739437652369im
+        @test loggamma(-pi*1e7 + 6im) ≅ -5.10911758892505772903279926621085326635236850347591e8 - 9.86959420047365966439199219724905597399295814979993e7im
+        @test loggamma(-pi*1e7 + 8im) ≅ -5.10911765175690634449032797392631749405282045412624e8 - 9.86959074790854911974415722927761900209557190058925e7im
+        @test loggamma(-pi*1e14 + 6im) ≅ -1.0172766411995621854526383224252727000270225301426e16 - 9.8696044010873714715264929863618267642124589569347e14im
+        @test loggamma(-pi*1e14 + 8im) ≅ -1.0172766411995628137711690403794640541491261237341e16 - 9.8696044010867038531027376655349878694397362250037e14im
+        @test loggamma(2.05 + 0.03im) ≅ conj(loggamma(2.05 - 0.03im)) ≅ 0.02165570938532611215664861849215838847758074239924127515 + 0.01363779084533034509857648574107935425251657080676603919im
+        @test loggamma(2+exp2(-20)+exp2(-19)*im) ≅ 4.03197681916768997727833554471414212058404726357753e-7 + 8.06398296652953575754782349984315518297283664869951e-7im
+    end
 
     @testset "loggamma for non-finite arguments" begin
         @test loggamma(Inf + 0im) === Inf + 0im
@@ -118,6 +120,38 @@
         @test loggamma(Inf + Inf*im) === loggamma(NaN + 0im) === loggamma(NaN*im) === NaN + NaN*im
     end
 
+    @testset "BigFloat" begin
+        # test cases (taken from WolframAlpha, computed to 78 digits ≈ 256 bits)
+        @test loggamma(big"3.099") ≈ big"0.78641374690055805872066586017892360313412585445116886979672329071050823224651" rtol=1e-75
+        @test loggamma(big"1.15") ≈ big"-0.06930620867104688224241731415650307100375642207340564554412494594148673455871" rtol=1e-75
+        @test logabsgamma(big"0.89")[1] ≈ big"0.0740221739580814237022658899798106584342350083445733969634566129726762260738245" rtol=1e-75
+        @test loggamma(big"0.91") ≈ big"0.0589225676238323792982417511839070778835929820947704491677379048793029707373113" rtol=1e-75
+        @test loggamma(big"0.01") ≈ big"4.59947987804202172251394541100874808726100141338528965241917138771477998920321" rtol=1e-75
+        @test loggamma(1 + exp2(big"-20.0")) ≈ big"-5.50475006614886679092243442349111109814456565183691425527816079744208067935466e-7" rtol=1e-75
+
+        # consistency
+        @test loggamma(big(3124.0)) == log(gamma(big(3124.0)))
+        @test loggamma(big(3124.0)) ≈ loggamma(3124.0)
+        @test logabsgamma(big(3124.0)) == (loggamma(big(3124.0)), 1)
+        @test logabsgamma(big(3124.0))[1] ≈ logabsgamma(3124.0)[1]
+
+        # promotions
+        @test loggamma(big(3124)) == loggamma(big(3124.0))
+        @test loggamma(big(3//2)) == loggamma(big(1.5))
+        @test logabsgamma(big(3124)) == logabsgamma(big(3124.0))
+        @test logabsgamma(big(3//2)) == logabsgamma(big(1.5))
+
+        # negative values
+        @test loggamma(big(-3.0)) == big(Inf)
+        @test_throws DomainError loggamma(big(-2.76))
+
+        # non-finite values
+        @test isnan(loggamma(big(NaN)))
+        @test isnan(logabsgamma(big(NaN))[1])
+        @test loggamma(big(Inf)) == big(Inf)
+        @test logabsgamma(big(Inf))[1] == big(Inf)
+    end
+
     @testset "Other float types" begin
         struct NotAFloat <: AbstractFloat
         end