how to stop exponential notation, both in output and in variable editor
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Hi is there any way, preferably from code, to stop exponential notation.
So any figures I display, or look at in the variable editor, are always in the format 0.0000000234 etc never 2.34e-8
Thanks for any help,
Tom
3 comentarios
Brando Miranda
el 26 de Mzo. de 2017
is it possible only turn scientific notation for a specific disp command? as in disp_no_sicentific(0.00001) but for everything else just the standard thing is on?
Walter Roberson
el 6 de Jun. de 2018
No; if you have a need like that you should probably fprintf() the data
Walter Roberson
el 17 de Dic. de 2019
Brando:
You could write a disp_no_scientific function that queried the existing format setting, and activated g format, and then returned to the previous format. However, as noted by Titus, format g does use scientific notation for sufficiently large or small values. There is no format setting for fixed point. If you need that then you should be using fprintf() or perhaps num2str() with an appropriate % format.
Respuesta aceptada
Walter Roberson
el 7 de Dic. de 2011
Editada: John Kelly
el 4 de Jun. de 2014
For variables that you disp(), command
format long
or
format long g
For the variable editor, see these instructions: http://www.mathworks.com/help/matlab/matlab_prog/check-variable-scope-in-editor.html
5 comentarios
Titus Edelhofer
el 7 de Dic. de 2011
Hi Walter,
but as far as I know the "g" option will still use exponential notation if you have many leading or trailing zeros, e.g. for the 2.34e-8 example of Tom...?
Titus
Andrew Reibold
el 22 de Ag. de 2014
'format long g' helped me solve a similar issue. Thanks for sharing
Brando Miranda
el 26 de Mzo. de 2017
is it possible only turn scientific notation for a specific disp command? as in disp_no_sicentific(0.00001) but for everything else just the standard thing is on?
Sam H
el 14 de Mzo. de 2018
yes, you can use 'fprintf'
a=0.0001234;
fprintf('%.7f\n',a)
Walter Roberson
el 17 de Dic. de 2019
Brando:
You could write a disp_no_scientific function that queried the existing format setting, and activated g format, and then returned to the previous format. However, as noted by Titus, format g does use scientific notation for sufficiently large or small values. There is no format setting for fixed point. If you need that then you should be using fprintf() or perhaps num2str() with an appropriate % format.
Más respuestas (3)
Titus Edelhofer
el 7 de Dic. de 2011
7 votos
Hi Tom,
as far as I know there is no way to force MATLAB to always use fixed notion. For generating output you can use fprintf with %f to use fixed notion.
Titus
3 comentarios
Frank
el 20 de Abr. de 2023
You just saved me from ripping my hair out.
Lars Abrahamsson
el 24 de Oct. de 2023
This answer is the most useful I think.
Shubhankar
el 26 de Jul. de 2024
simple and best answer
Deepan J
el 27 de Sept. de 2018
1 voto
format long g
4 comentarios
Walter Roberson
el 27 de Sept. de 2018
Yes, we said that 7 years ago...
bzibubab bzibubab
el 17 de Dic. de 2019
lol
Bharat Motilal
el 10 de Dic. de 2020
lmao
Theara Tha
el 26 de Sept. de 2021
haha
SOREL
el 6 de Jun. de 2018
Editada: Walter Roberson
el 6 de Jun. de 2018
0 votos
Hi with the live editor I got a resul printed like this
A = 1.6050541506550198034773572941784e-40*d2
since 1.6e-40 is 0 is it possible to force the the A variable to be 0
4 comentarios
Walter Roberson
el 6 de Jun. de 2018
There are three ways to do that:
- use feval(symengine) or evalin(symengine) to invoke some MuPAD code to do the replacement for you; or
- if you know the structure of the expression, use children() to break it up into pieces, make whatever changes you want to the pieces, then put the pieces back together again. Unfortunately when you operate at the MATLAB level for this, you must already know what the appropriate operation is between the parts: there is no way to use children() or related functions to extract the name of the current operation so that you can put the expression back together again
- use children() to break up the expression into pieces and make a list of the values that you plan to replace. Once you have done that, use subs() on the expression to replace the numeric value with your new value
Example:
>> A = sym('1.6050541506550198034773572941784e-40'*d2)
A =
1.6050541506550198034773572941784e-40*d2
>> chA = children(A)
chA =
[ d2, 1.6050541506550198034773572941784e-40]
>> subs(A, chA(2), 12)
ans =
12*d2
here I replaced the numeric value with 12 to illustrate that it you can make arbitrary replacements.
SOREL
el 17 de Jun. de 2018
Thanks.
I got this result when I did Cos(pi/2) = 1.6050541506550198034773572941784e-40 but by replacing pi with the symbolic expression of sym(pi) I got the right result. Cos(sym(pi)/2) = 0
Walter Roberson
el 17 de Dic. de 2019
Note: there are additional new and quite obscure possibilities since R2019a. They are difficult to locate; if you do not already know they exist you are unlikely to find reference to them, and even if you know the exist you need a fair bit of experience with symbolic toolbox programming to make use of them :(
FYI if you're doing numerical calculations involving trigonometric functions multiples of pi and want to avoid the round-off error caused by the pi function not returning the exact transcendental value of π, use the sinpi or cospi functions instead.
y = cos(pi/2)
z = cospi(1/2)
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