Please note that the recommended version of Scilab is 2025.0.0. This page might be outdated.
See the recommended documentation of this function
format
set the default output format of decimal numbers
Syntax
format(mode) format(width) format(mode, width) format(wm) v = format()
Arguments
- mode
formatting mode:
- 1 or "v": variable adaptative formatting. Scilab chooses either the direct representation (e.g. -143.8757) or the exponential/engineering/scientific notation (e.g. -1.438E+02), in order to cope with each processed value as well as with the required width, with a maximal number of output digits.
- 0 or "e": The exponential /engineering notation is forced and used for all numbers.
- width
width of numbers = number of output characters used, all included: sign of the mantissa, its digits, decimal separator, exponent symbol, sign and digits of the exponent. Default width = 10. Minimal width in "e" mode = 8.
- wm
a vector to set new format
wm(1)
is the widthwm(2)
is the formatting mode: 0 for'e'
and 1 for'v'
- v
vector returning the current formatting parameters:
v(1)
is the formatting mode: 0 for'e'
and 1 for'v'
v(2)
is the width: Number of characters used to output each number.
Description
For complex numbers, each real and imaginary decimal part is
output according to format(..) . The total width
of a complex number is therefore roughly twice greater (+ 1 character
for "i" symbol). |
Encoded integers are never output according to the "e"xponential mode, even when
this formatting is the default mode set for decimal numbers. For them, the decimal
separator "." is skipped. This allows to distinguish them from decimal integers
that have a dot. |
For wide format(), digits that may be displayed beyond the
relative accuracy %eps are set to 0. |
The default decimal format set with
format(..) is a global parameter:
Wherever you set it, it then applies everywhere in Scilab and Xcos. |
In the old Scilab versions, in "variable format" mode, vector
entries which are less than %eps
times the maximum absolute value of the
entries were displayed as "0". It is no more the case, the clean function
can be used to set negligible entries to zeros.
Examples
// format() is not taken into account for encoded integers // ------------------------------------------------------- format("e",8) int32(2.^grand(3,5,"uin",0,30)) // format() impacts console's output, disp(), string(), sci2exp(),... // -------------------------------------------------------------- a = %pi; p = %pi + %z - %e*%z^2; format("v",10); a, p disp(a,p) string(a), string(p) [sci2exp(a) sci2exp(p)] format("e",15); a, p disp(a,p) string(a), string(p) [sci2exp(a) sci2exp(p)] format("v",10); // reset // format() set the width, not a fixed number of digits: // ---------------------------------------------------- format("v",10) %pi*1e-217, s = string(%pi*1e-217) length(s) // the missing char is the implicit "+" sign // This is useful to get aligned and fully informative display of matrices [ -1.234 %pi*1e-10 %nan ; %e*1e137 -%inf 54312] // Since Scilab 6.0, unrelevant digits displayed with wide format() are set to 0: format(22) %pi // format() has a global impact // ---------------------------- function myfun() format("e",20) endfunction format("v", 10) disp(%pi) myfun() // it remains everywhere, wherever it has been set: disp(%pi) format("v",10) // reset
See also
- numbers properties — determina parâmetros de ponto flutuante
- string — conversão para string (cadeia de caracteres)
- sci2exp — converte uma expressão para um string
- disp — exibição de variáveis
- print — imprime variáveis em um arquivo
- clean — limpa matrizes (arredonda para zero entradas pequenas)
- C-like format — Especificações de conversão de mprintf, msprintf, mfprintf
- mprintf — converts, formats, and writes data to the main scilab window
- msprintf — converts, formats, and writes data in a string
- mfprintf — converts, formats, and writes data to a file
History
Versão | Descrição |
6.0 | For wide format(), digits that may be displayed beyond the relative accuracy %eps are now set to 0. |
Report an issue | ||
<< floor | Ponto flutuante | frexp >> |