| java.lang.Object
 com.technoetic.xplanner.format.PrintfFormat
| PrintfFormat | | public class PrintfFormat (Code) | | PrintfFormat allows the formatting of an array of
objects embedded within a string. Primitive types
must be passed using wrapper types. The formatting
is controlled by a control string.
A control string is a Java string that contains a
control specification. The control specification
starts at the first percent sign (%) in the string,
provided that this percent sign
- is not escaped protected by a matching % or is
not an escape % character,
- is not at the end of the format string, and
- precedes a sequence of characters that parses as
a valid control specification.
A control specification usually takes the form:
% ['-+ #0]* [0..9]* { . [0..9]* }+
{ [hlL] }+ [idfgGoxXeEcs]
There are variants of this basic form that are
discussed below.
The format is composed of zero or more directives
defined as follows:
- ordinary characters, which are simply copied to
the output stream;
- escape sequences, which represent non-graphic
characters; and
- conversion specifications, each of which
results in the fetching of zero or more arguments.
The results are undefined if there are insufficient
arguments for the format. Usually an unchecked
exception will be thrown. If the format is
exhausted while arguments remain, the excess
arguments are evaluated but are otherwise ignored.
In format strings containing the % form of
conversion specifications, each argument in the
argument list is used exactly once.
Conversions can be applied to the nth
argument after the format in the argument list,
rather than to the next unused argument. In this
case, the conversion characer % is replaced by the
sequence %n$, where n is
a decimal integer giving the position of the
argument in the argument list.
In format strings containing the %n$
form of conversion specifications, each argument
in the argument list is used exactly once.
Escape Sequences
The following table lists escape sequences and
associated actions on display devices capable of
the action.
| Sequence |
Name |
Description |
|---|
| \\ | backlash | None.
|
| \a | alert | Attempts to alert
the user through audible or visible
notification.
|
| \b | backspace | Moves the
printing position to one column before
the current position, unless the
current position is the start of a line.
|
| \f | form-feed | Moves the
printing position to the initial
printing position of the next logical
page.
|
| \n | newline | Moves the
printing position to the start of the
next line.
|
| \r | carriage-return | Moves
the printing position to the start of
the current line.
|
| \t | tab | Moves the printing
position to the next implementation-
defined horizontal tab position.
|
| \v | vertical-tab | Moves the
printing position to the start of the
next implementation-defined vertical
tab position.
|
Conversion Specifications
Each conversion specification is introduced by
the percent sign character (%). After the character
%, the following appear in sequence:
Zero or more flags (in any order), which modify the
meaning of the conversion specification.
An optional minimum field width. If the converted
value has fewer characters than the field width, it
will be padded with spaces by default on the left;
t will be padded on the right, if the left-
adjustment flag (-), described below, is given to
the field width. The field width takes the form
of a decimal integer. If the conversion character
is s, the field width is the the minimum number of
characters to be printed.
An optional precision that gives the minumum number
of digits to appear for the d, i, o, x or X
conversions (the field is padded with leading
zeros); the number of digits to appear after the
radix character for the e, E, and f conversions,
the maximum number of significant digits for the g
and G conversions; or the maximum number of
characters to be written from a string is s and S
conversions. The precision takes the form of an
optional decimal digit string, where a null digit
string is treated as 0. If a precision appears
with a c conversion character the precision is
ignored.
An optional h specifies that a following d, i, o,
x, or X conversion character applies to a type
short argument (the argument will be promoted
according to the integral promotions and its value
converted to type short before printing).
An optional l (ell) specifies that a following
d, i, o, x, or X conversion character applies to a
type long argument.
A field width or precision may be indicated by an
asterisk (*) instead of a digit string. In this
case, an integer argument supplised the field width
precision. The argument that is actually converted
is not fetched until the conversion letter is seen,
so the the arguments specifying field width or
precision must appear before the argument (if any)
to be converted. If the precision argument is
negative, it will be changed to zero. A negative
field width argument is taken as a - flag, followed
by a positive field width.
In format strings containing the %n$
form of a conversion specification, a field width
or precision may be indicated by the sequence
m$, where m is a decimal integer
giving the position in the argument list (after the
format argument) of an integer argument containing
the field width or precision.
The format can contain either numbered argument
specifications (that is, %n$ and
m$), or unnumbered argument
specifications (that is % and *), but normally not
both. The only exception to this is that %% can
be mixed with the %n$ form. The
results of mixing numbered and unnumbered argument
specifications in a format string are undefined.
Flag Characters
The flags and their meanings are:
- '
- integer portion of the result of a
decimal conversion (%i, %d, %f, %g, or %G) will
be formatted with thousands' grouping
characters. For other conversions the flag
is ignored. The non-monetary grouping
character is used.
- -
- result of the conversion is left-justified
within the field. (It will be right-justified
if this flag is not specified).
|
+ result of a signed conversion always
begins with a sign (+ or -). (It will begin
with a sign only when a negative value is
converted if this flag is not specified.)
<space> If the first character of a
signed conversion is not a sign, a space
character will be placed before the result.
This means that if the space character and +
flags both appear, the space flag will be
ignored.
# value is to be converted to an alternative
form. For c, d, i, and s conversions, the flag
has no effect. For o conversion, it increases
the precision to force the first digit of the
result to be a zero. For x or X conversion, a
non-zero result has 0x or 0X prefixed to it,
respectively. For e, E, f, g, and G
conversions, the result always contains a radix
character, even if no digits follow the radix
character (normally, a decimal point appears in
the result of these conversions only if a digit
follows it). For g and G conversions, trailing
zeros will not be removed from the result as
they normally are.
0 d, i, o, x, X, e, E, f, g, and G
conversions, leading zeros (following any
indication of sign or base) are used to pad to
the field width; no space padding is
performed. If the 0 and - flags both appear,
the 0 flag is ignored. For d, i, o, x, and X
conversions, if a precision is specified, the
0 flag will be ignored. For c conversions,
the flag is ignored.
Conversion Characters
Each conversion character results in fetching zero
or more arguments. The results are undefined if
there are insufficient arguments for the format.
Usually, an unchecked exception will be thrown.
If the format is exhausted while arguments remain,
the excess arguments are ignored.
The conversion characters and their meanings are:
- d,i
- The int argument is converted to a
signed decimal in the style [-]dddd. The
precision specifies the minimum number of
digits to appear; if the value being
converted can be represented in fewer
digits, it will be expanded with leading
zeros. The default precision is 1. The
result of converting 0 with an explicit
precision of 0 is no characters.
- o
- The int argument is converted to unsigned
octal format in the style ddddd. The
precision specifies the minimum number of
digits to appear; if the value being
converted can be represented in fewer
digits, it will be expanded with leading
zeros. The default precision is 1. The
result of converting 0 with an explicit
precision of 0 is no characters.
- x
- The int argument is converted to unsigned
hexadecimal format in the style dddd; the
letters abcdef are used. The precision
specifies the minimum numberof digits to
appear; if the value being converted can be
represented in fewer digits, it will be
expanded with leading zeros. The default
precision is 1. The result of converting 0
with an explicit precision of 0 is no
characters.
- X
- Behaves the same as the x conversion
character except that letters ABCDEF are
used instead of abcdef.
- f
- The floating point number argument is
written in decimal notation in the style
[-]ddd.ddd, where the number of digits after
the radix character (shown here as a decimal
point) is equal to the precision
specification. A Locale is used to determine
the radix character to use in this format.
If the precision is omitted from the
argument, six digits are written after the
radix character; if the precision is
explicitly 0 and the # flag is not specified,
no radix character appears. If a radix
character appears, at least 1 digit appears
before it. The value is rounded to the
appropriate number of digits.
- e,E
- The floating point number argument is
written in the style [-]d.ddde{+-}dd
(the symbols {+-} indicate either a plus or
minus sign), where there is one digit before
the radix character (shown here as a decimal
point) and the number of digits after it is
equal to the precision. A Locale is used to
determine the radix character to use in this
format. When the precision is missing, six
digits are written after the radix character;
if the precision is 0 and the # flag is not
specified, no radix character appears. The
E conversion will produce a number with E
instead of e introducing the exponent. The
exponent always contains at least two digits.
However, if the value to be written requires
an exponent greater than two digits,
additional exponent digits are written as
necessary. The value is rounded to the
appropriate number of digits.
- g,G
- The floating point number argument is
written in style f or e (or in sytle E in the
case of a G conversion character), with the
precision specifying the number of
significant digits. If the precision is
zero, it is taken as one. The style used
depends on the value converted: style e
(or E) will be used only if the exponent
resulting from the conversion is less than
-4 or greater than or equal to the precision.
Trailing zeros are removed from the result.
A radix character appears only if it is
followed by a digit.
- c,C
- The integer argument is converted to a
char and the result is written.
- s,S
- The argument is taken to be a string and
bytes from the string are written until the
end of the string or the number of bytes
indicated by the precision specification of
the argument is reached. If the precision
is omitted from the argument, it is taken to
be infinite, so all characters up to the end
of the string are written.
- %
- Write a % character; no argument is
converted.
If a conversion specification does not match one of
the above forms, an IllegalArgumentException is
thrown and the instance of PrintfFormat is not
created.
If a floating point value is the internal
representation for infinity, the output is
[+]Infinity, where Infinity is either Infinity or
Inf, depending on the desired output string length.
Printing of the sign follows the rules described
above.
If a floating point value is the internal
representation for "not-a-number," the output is
[+]NaN. Printing of the sign follows the rules
described above.
In no case does a non-existent or small field width
cause truncation of a field; if the result of a
conversion is wider than the field width, the field
is simply expanded to contain the conversion result.
The behavior is like printf. One exception is that
the minimum number of exponent digits is 3 instead
of 2 for e and E formats when the optional L is used
before the e, E, g, or G conversion character. The
optional L does not imply conversion to a long long
double.
The biggest divergence from the C printf
specification is in the use of 16 bit characters.
This allows the handling of characters beyond the
small ASCII character set and allows the utility to
interoperate correctly with the rest of the Java
runtime environment.
Omissions from the C printf specification are
numerous. All the known omissions are present
because Java never uses bytes to represent
characters and does not have pointers:
- %c is the same as %C.
- %s is the same as %S.
- u, p, and n conversion characters.
- %ws format.
- h modifier applied to an n conversion character.
- l (ell) modifier applied to the c, n, or s
conversion characters.
- ll (ell ell) modifier to d, i, o, u, x, or X
conversion characters.
- ll (ell ell) modifier to an n conversion
character.
- c, C, d,i,o,u,x, and X conversion characters
apply to Byte, Character, Short, Integer, Long
types.
- f, e, E, g, and G conversion characters apply
to Float and Double types.
- s and S conversion characters apply to String
types.
- All other reference types can be formatted
using the s or S conversion characters only.
Most of this specification is quoted from the Unix
man page for the sprintf utility.
author:
Allan Jacobs
version:
1
version:
Release 1: Initial release.
version:
Release 2: Asterisk field widths and precisions
version:
%n$ and *m$
version:
Bug fixes
version:
g format fix (2 digits in e form corrupt)
version:
rounding in f format implemented
version:
round up when digit not printed is 5
version:
formatting of -0.0f
version:
round up/down when last digits are 50000...
| Constructor Summary | |
| public | PrintfFormat(String fmtArg)
Constructs an array of control specifications
possibly preceded, separated, or followed by
ordinary strings. | | public | PrintfFormat(Locale locale, String fmtArg)
Constructs an array of control specifications
possibly preceded, separated, or followed by
ordinary strings. |
| PrintfFormat | | public PrintfFormat(String fmtArg) throws IllegalArgumentException(Code) | | Constructs an array of control specifications
possibly preceded, separated, or followed by
ordinary strings. Control strings begin with
unpaired percent signs. A pair of successive
percent signs designates a single percent sign in
the format.
Parameters:
fmtArg - Control string.
exception:
java.lang.IllegalArgumentException - if the controlstring is null, zero length, or otherwisemalformed. |
| PrintfFormat | | public PrintfFormat(Locale locale, String fmtArg) throws IllegalArgumentException(Code) | | Constructs an array of control specifications
possibly preceded, separated, or followed by
ordinary strings. Control strings begin with
unpaired percent signs. A pair of successive
percent signs designates a single percent sign in
the format.
Parameters:
fmtArg - Control string.
exception:
java.lang.IllegalArgumentException - if the controlstring is null, zero length, or otherwisemalformed. |
| sprintf | | public String sprintf(Object[] o)(Code) | | Format an array of objects. Byte, Short,
Integer, Long, Float, Double, and Character
arguments are treated as wrappers for primitive
types.
Parameters:
o - The array of objects to format. The formatted String. |
| sprintf | | public String sprintf()(Code) | | Format nothing. Just use the control string.
the formatted String. |
| sprintf | | public String sprintf(Object x) throws IllegalArgumentException(Code) | | Format an Object. Convert wrapper types to
their primitive equivalents and call the
appropriate internal formatting method. Convert
Strings using an internal formatting method for
Strings. Otherwise use the default formatter
(use toString).
Parameters:
x - the Object to format. the formatted String.
exception:
java.lang.IllegalArgumentException - if theconversion character is inappropriate forformatting an unwrapped value. |
|
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