
(FPCore (x y z) :precision binary64 (- (- (* x (log y)) z) y))
double code(double x, double y, double z) {
return ((x * log(y)) - z) - y;
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x, y, z)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8), intent (in) :: y
real(8), intent (in) :: z
code = ((x * log(y)) - z) - y
end function
public static double code(double x, double y, double z) {
return ((x * Math.log(y)) - z) - y;
}
def code(x, y, z): return ((x * math.log(y)) - z) - y
function code(x, y, z) return Float64(Float64(Float64(x * log(y)) - z) - y) end
function tmp = code(x, y, z) tmp = ((x * log(y)) - z) - y; end
code[x_, y_, z_] := N[(N[(N[(x * N[Log[y], $MachinePrecision]), $MachinePrecision] - z), $MachinePrecision] - y), $MachinePrecision]
\begin{array}{l}
\\
\left(x \cdot \log y - z\right) - y
\end{array}
Sampling outcomes in binary64 precision:
Herbie found 7 alternatives:
| Alternative | Accuracy | Speedup |
|---|
(FPCore (x y z) :precision binary64 (- (- (* x (log y)) z) y))
double code(double x, double y, double z) {
return ((x * log(y)) - z) - y;
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x, y, z)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8), intent (in) :: y
real(8), intent (in) :: z
code = ((x * log(y)) - z) - y
end function
public static double code(double x, double y, double z) {
return ((x * Math.log(y)) - z) - y;
}
def code(x, y, z): return ((x * math.log(y)) - z) - y
function code(x, y, z) return Float64(Float64(Float64(x * log(y)) - z) - y) end
function tmp = code(x, y, z) tmp = ((x * log(y)) - z) - y; end
code[x_, y_, z_] := N[(N[(N[(x * N[Log[y], $MachinePrecision]), $MachinePrecision] - z), $MachinePrecision] - y), $MachinePrecision]
\begin{array}{l}
\\
\left(x \cdot \log y - z\right) - y
\end{array}
(FPCore (x y z) :precision binary64 (let* ((t_0 (log (pow y 0.5)))) (- (- (* x (+ t_0 t_0)) z) y)))
double code(double x, double y, double z) {
double t_0 = log(pow(y, 0.5));
return ((x * (t_0 + t_0)) - z) - y;
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x, y, z)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8), intent (in) :: y
real(8), intent (in) :: z
real(8) :: t_0
t_0 = log((y ** 0.5d0))
code = ((x * (t_0 + t_0)) - z) - y
end function
public static double code(double x, double y, double z) {
double t_0 = Math.log(Math.pow(y, 0.5));
return ((x * (t_0 + t_0)) - z) - y;
}
def code(x, y, z): t_0 = math.log(math.pow(y, 0.5)) return ((x * (t_0 + t_0)) - z) - y
function code(x, y, z) t_0 = log((y ^ 0.5)) return Float64(Float64(Float64(x * Float64(t_0 + t_0)) - z) - y) end
function tmp = code(x, y, z) t_0 = log((y ^ 0.5)); tmp = ((x * (t_0 + t_0)) - z) - y; end
code[x_, y_, z_] := Block[{t$95$0 = N[Log[N[Power[y, 0.5], $MachinePrecision]], $MachinePrecision]}, N[(N[(N[(x * N[(t$95$0 + t$95$0), $MachinePrecision]), $MachinePrecision] - z), $MachinePrecision] - y), $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
t_0 := \log \left({y}^{0.5}\right)\\
\left(x \cdot \left(t\_0 + t\_0\right) - z\right) - y
\end{array}
\end{array}
Initial program 99.9%
lift-log.f64N/A
remove-double-negN/A
log-recN/A
neg-logN/A
unpow-1N/A
sqr-powN/A
log-prodN/A
lower-+.f64N/A
lower-log.f64N/A
inv-powN/A
pow-powN/A
lower-pow.f64N/A
metadata-evalN/A
metadata-evalN/A
lower-log.f64N/A
inv-powN/A
pow-powN/A
lower-pow.f64N/A
metadata-evalN/A
metadata-eval99.9
Applied rewrites99.9%
(FPCore (x y z) :precision binary64 (if (or (<= x -9.8e+76) (not (<= x 2.05e+158))) (* (log y) x) (- (- z) y)))
double code(double x, double y, double z) {
double tmp;
if ((x <= -9.8e+76) || !(x <= 2.05e+158)) {
tmp = log(y) * x;
} else {
tmp = -z - y;
}
return tmp;
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x, y, z)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8), intent (in) :: y
real(8), intent (in) :: z
real(8) :: tmp
if ((x <= (-9.8d+76)) .or. (.not. (x <= 2.05d+158))) then
tmp = log(y) * x
else
tmp = -z - y
end if
code = tmp
end function
public static double code(double x, double y, double z) {
double tmp;
if ((x <= -9.8e+76) || !(x <= 2.05e+158)) {
tmp = Math.log(y) * x;
} else {
tmp = -z - y;
}
return tmp;
}
def code(x, y, z): tmp = 0 if (x <= -9.8e+76) or not (x <= 2.05e+158): tmp = math.log(y) * x else: tmp = -z - y return tmp
function code(x, y, z) tmp = 0.0 if ((x <= -9.8e+76) || !(x <= 2.05e+158)) tmp = Float64(log(y) * x); else tmp = Float64(Float64(-z) - y); end return tmp end
function tmp_2 = code(x, y, z) tmp = 0.0; if ((x <= -9.8e+76) || ~((x <= 2.05e+158))) tmp = log(y) * x; else tmp = -z - y; end tmp_2 = tmp; end
code[x_, y_, z_] := If[Or[LessEqual[x, -9.8e+76], N[Not[LessEqual[x, 2.05e+158]], $MachinePrecision]], N[(N[Log[y], $MachinePrecision] * x), $MachinePrecision], N[((-z) - y), $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;x \leq -9.8 \cdot 10^{+76} \lor \neg \left(x \leq 2.05 \cdot 10^{+158}\right):\\
\;\;\;\;\log y \cdot x\\
\mathbf{else}:\\
\;\;\;\;\left(-z\right) - y\\
\end{array}
\end{array}
if x < -9.80000000000000053e76 or 2.05000000000000002e158 < x Initial program 99.6%
Taylor expanded in x around inf
*-commutativeN/A
lower-*.f64N/A
lift-log.f6473.5
Applied rewrites73.5%
if -9.80000000000000053e76 < x < 2.05000000000000002e158Initial program 99.9%
Taylor expanded in x around 0
mul-1-negN/A
lower-neg.f6489.4
Applied rewrites89.4%
Final simplification85.4%
(FPCore (x y z) :precision binary64 (if (<= y 5.6e+78) (- (* (log y) x) z) (- (- z) y)))
double code(double x, double y, double z) {
double tmp;
if (y <= 5.6e+78) {
tmp = (log(y) * x) - z;
} else {
tmp = -z - y;
}
return tmp;
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x, y, z)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8), intent (in) :: y
real(8), intent (in) :: z
real(8) :: tmp
if (y <= 5.6d+78) then
tmp = (log(y) * x) - z
else
tmp = -z - y
end if
code = tmp
end function
public static double code(double x, double y, double z) {
double tmp;
if (y <= 5.6e+78) {
tmp = (Math.log(y) * x) - z;
} else {
tmp = -z - y;
}
return tmp;
}
def code(x, y, z): tmp = 0 if y <= 5.6e+78: tmp = (math.log(y) * x) - z else: tmp = -z - y return tmp
function code(x, y, z) tmp = 0.0 if (y <= 5.6e+78) tmp = Float64(Float64(log(y) * x) - z); else tmp = Float64(Float64(-z) - y); end return tmp end
function tmp_2 = code(x, y, z) tmp = 0.0; if (y <= 5.6e+78) tmp = (log(y) * x) - z; else tmp = -z - y; end tmp_2 = tmp; end
code[x_, y_, z_] := If[LessEqual[y, 5.6e+78], N[(N[(N[Log[y], $MachinePrecision] * x), $MachinePrecision] - z), $MachinePrecision], N[((-z) - y), $MachinePrecision]]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;y \leq 5.6 \cdot 10^{+78}:\\
\;\;\;\;\log y \cdot x - z\\
\mathbf{else}:\\
\;\;\;\;\left(-z\right) - y\\
\end{array}
\end{array}
if y < 5.6000000000000002e78Initial program 99.8%
Taylor expanded in y around 0
lift-log.f64N/A
lift-*.f64N/A
lift--.f6487.5
lift-*.f64N/A
lift-log.f64N/A
*-commutativeN/A
lower-*.f64N/A
lift-log.f6487.5
Applied rewrites87.5%
if 5.6000000000000002e78 < y Initial program 99.9%
Taylor expanded in x around 0
mul-1-negN/A
lower-neg.f6492.9
Applied rewrites92.9%
(FPCore (x y z) :precision binary64 (- (- (* x (log y)) z) y))
double code(double x, double y, double z) {
return ((x * log(y)) - z) - y;
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x, y, z)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8), intent (in) :: y
real(8), intent (in) :: z
code = ((x * log(y)) - z) - y
end function
public static double code(double x, double y, double z) {
return ((x * Math.log(y)) - z) - y;
}
def code(x, y, z): return ((x * math.log(y)) - z) - y
function code(x, y, z) return Float64(Float64(Float64(x * log(y)) - z) - y) end
function tmp = code(x, y, z) tmp = ((x * log(y)) - z) - y; end
code[x_, y_, z_] := N[(N[(N[(x * N[Log[y], $MachinePrecision]), $MachinePrecision] - z), $MachinePrecision] - y), $MachinePrecision]
\begin{array}{l}
\\
\left(x \cdot \log y - z\right) - y
\end{array}
Initial program 99.9%
(FPCore (x y z) :precision binary64 (if (<= y 1.08e+79) (- z) (- y)))
double code(double x, double y, double z) {
double tmp;
if (y <= 1.08e+79) {
tmp = -z;
} else {
tmp = -y;
}
return tmp;
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x, y, z)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8), intent (in) :: y
real(8), intent (in) :: z
real(8) :: tmp
if (y <= 1.08d+79) then
tmp = -z
else
tmp = -y
end if
code = tmp
end function
public static double code(double x, double y, double z) {
double tmp;
if (y <= 1.08e+79) {
tmp = -z;
} else {
tmp = -y;
}
return tmp;
}
def code(x, y, z): tmp = 0 if y <= 1.08e+79: tmp = -z else: tmp = -y return tmp
function code(x, y, z) tmp = 0.0 if (y <= 1.08e+79) tmp = Float64(-z); else tmp = Float64(-y); end return tmp end
function tmp_2 = code(x, y, z) tmp = 0.0; if (y <= 1.08e+79) tmp = -z; else tmp = -y; end tmp_2 = tmp; end
code[x_, y_, z_] := If[LessEqual[y, 1.08e+79], (-z), (-y)]
\begin{array}{l}
\\
\begin{array}{l}
\mathbf{if}\;y \leq 1.08 \cdot 10^{+79}:\\
\;\;\;\;-z\\
\mathbf{else}:\\
\;\;\;\;-y\\
\end{array}
\end{array}
if y < 1.08000000000000002e79Initial program 99.8%
Taylor expanded in z around inf
mul-1-negN/A
lower-neg.f6449.0
Applied rewrites49.0%
if 1.08000000000000002e79 < y Initial program 99.9%
Taylor expanded in y around inf
mul-1-negN/A
lower-neg.f6476.0
Applied rewrites76.0%
(FPCore (x y z) :precision binary64 (- (- z) y))
double code(double x, double y, double z) {
return -z - y;
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x, y, z)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8), intent (in) :: y
real(8), intent (in) :: z
code = -z - y
end function
public static double code(double x, double y, double z) {
return -z - y;
}
def code(x, y, z): return -z - y
function code(x, y, z) return Float64(Float64(-z) - y) end
function tmp = code(x, y, z) tmp = -z - y; end
code[x_, y_, z_] := N[((-z) - y), $MachinePrecision]
\begin{array}{l}
\\
\left(-z\right) - y
\end{array}
Initial program 99.9%
Taylor expanded in x around 0
mul-1-negN/A
lower-neg.f6473.2
Applied rewrites73.2%
(FPCore (x y z) :precision binary64 (- y))
double code(double x, double y, double z) {
return -y;
}
module fmin_fmax_functions
implicit none
private
public fmax
public fmin
interface fmax
module procedure fmax88
module procedure fmax44
module procedure fmax84
module procedure fmax48
end interface
interface fmin
module procedure fmin88
module procedure fmin44
module procedure fmin84
module procedure fmin48
end interface
contains
real(8) function fmax88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(4) function fmax44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, max(x, y), y /= y), x /= x)
end function
real(8) function fmax84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, max(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmax48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), max(dble(x), y), y /= y), x /= x)
end function
real(8) function fmin88(x, y) result (res)
real(8), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(4) function fmin44(x, y) result (res)
real(4), intent (in) :: x
real(4), intent (in) :: y
res = merge(y, merge(x, min(x, y), y /= y), x /= x)
end function
real(8) function fmin84(x, y) result(res)
real(8), intent (in) :: x
real(4), intent (in) :: y
res = merge(dble(y), merge(x, min(x, dble(y)), y /= y), x /= x)
end function
real(8) function fmin48(x, y) result(res)
real(4), intent (in) :: x
real(8), intent (in) :: y
res = merge(y, merge(dble(x), min(dble(x), y), y /= y), x /= x)
end function
end module
real(8) function code(x, y, z)
use fmin_fmax_functions
real(8), intent (in) :: x
real(8), intent (in) :: y
real(8), intent (in) :: z
code = -y
end function
public static double code(double x, double y, double z) {
return -y;
}
def code(x, y, z): return -y
function code(x, y, z) return Float64(-y) end
function tmp = code(x, y, z) tmp = -y; end
code[x_, y_, z_] := (-y)
\begin{array}{l}
\\
-y
\end{array}
Initial program 99.9%
Taylor expanded in y around inf
mul-1-negN/A
lower-neg.f6437.4
Applied rewrites37.4%
herbie shell --seed 2025085
(FPCore (x y z)
:name "Statistics.Distribution.Poisson:$clogProbability from math-functions-0.1.5.2"
:precision binary64
(- (- (* x (log y)) z) y))