Generate the next integer exponent expNext
for the specified input base
and absolute value absx = abs(x)
such that the condition absx <= base**expNext
holds.
See the documentation of pm_mathExp for more information.
- Parameters
-
[in] | absx | : The input scalar (or array of the same rank, shape, and size as other array-like arguments), of either,
-
type
integer of kind any supported by the processor (e.g., IK, IK8, IK16, IK32, or IK64), or
-
type
real of kind any supported by the processor (e.g., RK, RK32, RK64, or RK128),
representing the absolute value of the number for which the next integer exponent in specified base must be computed.
|
[in] | base | : The input positive scalar (or array of the same rank, shape, and size as other array-like arguments), of the same type and kind as absx , representing the base of the exponentiation.
(optional, default = 2 ) |
- Returns
expNext
: The output scalar (or array of the same rank, shape, and size as other array-like arguments) of
-
type
integer
of default kind IK if absx
is of type real
,
-
type
integer
of the same kind as absx
if absx
is of type integer
,
containing the next integer exponent.
Possible calling interfaces ⛓
Generate the next integer exponent expNext for the specified input base and absolute value absx = abs...
This module contains procedures and generic interfaces for computing the previous/next integer expone...
- Warning
- The condition
1 < base
must hold.
The condition 0 < absx
must hold.
These conditions are verified only if the library is built with the preprocessor macro CHECK_ENABLED=1
.
-
Note that setting
base
very near 1
can lead to very large output exponents that overflow the default integer kind IK.
For example, 1.0000001**2147483647 = 1.836644819690732e+93
.
-
The
pure
procedure(s) documented herein become impure
when the ParaMonte library is compiled with preprocessor macro CHECK_ENABLED=1
.
By default, these procedures are pure
in release
build and impure
in debug
and testing
builds.
- Developer Remark:
- A
real
value of kind RK32 can represent integer
values as large as huge(1_int128) = 170141183460469231731687303715884105727 = 1.70141183E+38 < huge(1._RK32) = 3.40282347E+38 << huge(1._RK64)
.
One can envision a distant future human society with advanced computers capable of representing higher precision integer value for which RK32 or RK64 would be insufficient.
- See also
- isIntPow
getExpNext
getExpPrev
Example usage ⛓
9 integer(IK),
allocatable :: expNext(:)
11 type(display_type) :: disp
17 call disp%show(
"expNext(1) = getExpNext(.5)")
26 call disp%show(
"expNext(1) = getExpNext(1.5)")
35 call disp%show(
"expNext(1) = getExpNext(1.)")
44 call disp%show(
"expNext(1) = getExpNext(1.1)")
53 call disp%show(
"expNext = getExpNext(abs([1, -2, 3, -4, 5, 9, 519]))")
54 expNext
= getExpNext(abs([
1,
-2,
3,
-4,
5,
9,
519]))
62 call disp%show(
"expNext = getExpNext(abs([1, -2, 3, -4, 5, 9, 519]), base = 3)")
63 expNext
= getExpNext(abs([
1,
-2,
3,
-4,
5,
9,
519]), base
= 3)
71 call disp%show(
"expNext = getExpNext(abs([real :: 1, -2, 3, -4, 5, 9, 519]), base = exp(1.))")
72 expNext
= getExpNext(abs([real ::
1,
-2,
3,
-4,
5,
9,
519]), base
= exp(
1.))
This is a generic method of the derived type display_type with pass attribute.
This is a generic method of the derived type display_type with pass attribute.
This module contains classes and procedures for input/output (IO) or generic display operations on st...
type(display_type) disp
This is a scalar module variable an object of type display_type for general display.
This module defines the relevant Fortran kind type-parameters frequently used in the ParaMonte librar...
integer, parameter LK
The default logical kind in the ParaMonte library: kind(.true.) in Fortran, kind(....
integer, parameter IK
The default integer kind in the ParaMonte library: int32 in Fortran, c_int32_t in C-Fortran Interoper...
integer, parameter SK
The default character kind in the ParaMonte library: kind("a") in Fortran, c_char in C-Fortran Intero...
Generate and return an object of type display_type.
Example Unix compile command via Intel ifort
compiler ⛓
3ifort -fpp -standard-semantics -O3 -Wl,-rpath,../../../lib -I../../../inc main.F90 ../../../lib/libparamonte* -o main.exe
Example Windows Batch compile command via Intel ifort
compiler ⛓
2set PATH=..\..\..\lib;%PATH%
3ifort /fpp /standard-semantics /O3 /I:..\..\..\include main.F90 ..\..\..\lib\libparamonte*.lib /exe:main.exe
Example Unix / MinGW compile command via GNU gfortran
compiler ⛓
3gfortran -cpp -ffree-line-length-none -O3 -Wl,-rpath,../../../lib -I../../../inc main.F90 ../../../lib/libparamonte* -o main.exe
Example output ⛓
30expNext
= getExpNext(abs([
1,
-2,
3,
-4,
5,
9,
519]))
32+0,
+1,
+2,
+2,
+3,
+4,
+10
34+1.00000000,
+2.00000000,
+4.00000000,
+4.00000000,
+8.00000000,
+16.0000000,
+1024.00000
37expNext
= getExpNext(abs([
1,
-2,
3,
-4,
5,
9,
519]), base
= 3)
39+0,
+1,
+1,
+2,
+2,
+2,
+6
41+1.00000000,
+3.00000000,
+3.00000000,
+9.00000000,
+9.00000000,
+9.00000000,
+729.000000
44expNext
= getExpNext(abs([real ::
1,
-2,
3,
-4,
5,
9,
519]), base
= exp(
1.))
46+0,
+1,
+2,
+2,
+2,
+3,
+7
48+1.00000000,
+2.71828175,
+7.38905573,
+7.38905573,
+7.38905573,
+20.0855350,
+1096.63293
- Test:
- test_pm_mathExp
Final Remarks ⛓
If you believe this algorithm or its documentation can be improved, we appreciate your contribution and help to edit this page's documentation and source file on GitHub.
For details on the naming abbreviations, see this page.
For details on the naming conventions, see this page.
This software is distributed under the MIT license with additional terms outlined below.
-
If you use any parts or concepts from this library to any extent, please acknowledge the usage by citing the relevant publications of the ParaMonte library.
-
If you regenerate any parts/ideas from this library in a programming environment other than those currently supported by this ParaMonte library (i.e., other than C, C++, Fortran, MATLAB, Python, R), please also ask the end users to cite this original ParaMonte library.
This software is available to the public under a highly permissive license.
Help us justify its continued development and maintenance by acknowledging its benefit to society, distributing it, and contributing to it.
- Copyright
- Computational Data Science Lab
- Author:
- Amir Shahmoradi, April 25, 2015, 2:21 PM, National Institute for Fusion Studies, The University of Texas Austin
Definition at line 309 of file pm_mathExp.F90.