net.sf.saxon.value.FloatingPointConverter
|
|||||||
| PREV CLASS NEXT CLASS | FRAMES NO FRAMES | ||||||
| SUMMARY: NESTED | FIELD | CONSTR | METHOD | DETAIL: FIELD | CONSTR | METHOD | ||||||
java.lang.Object
public class FloatingPointConverter
This is a utility class that handles formatting of numbers as strings.
The algorithm for converting a floating point number to a string is taken from Guy L. Steele and Jon L. White, How to Print Floating-Point Numbers Accurately, ACM SIGPLAN 1990. It is algorithm (FPP)2 from that paper. There are three separate implementations of the algorithm:
The choice of method depends on the value of the number being formatted.
The module contains some residual code (mainly the routine for formatting integers) from the class AppenderHelper by Jack Shirazi in the O'Reilly book Java Performance Tuning. The floating point routines in that module were found to be unsuitable, since they used floating point arithmetic which introduces rounding errors.
There are several reasons for doing this conversion within Saxon, rather than leaving it all to Java. Firstly, there are differences in the required output format, notably the absence of ".0" when formatting whole numbers, and the different rules for the range of numbers where exponential notation is used. Secondly, there are bugs in some Java implementations, for example JDK outputs 0.001 as 0.0010, and IKVM/GNU gets things very wrong sometimes. Finally, this implementation is faster for "everyday" numbers, though it is slower for more extreme numbers. It would probably be reasonable to hand over formatting to the Java platform (at least when running the Sun JDK) for exponents outside the range -7 to +7.
| Field Summary | |
|---|---|
static FloatingPointConverter |
THE_INSTANCE
|
| Method Summary | |
|---|---|
static FastStringBuffer |
appendDouble(FastStringBuffer s,
double value)
Append a string representation of a double value to a string buffer |
static FastStringBuffer |
appendDoubleExponential(FastStringBuffer s,
double value)
Append a string representation of a double value to a string buffer, forcing use of exponential notation |
static FastStringBuffer |
appendFloat(FastStringBuffer s,
float value)
Append a string representation of a float value to a string buffer |
static FastStringBuffer |
appendFloatExponential(FastStringBuffer s,
float value)
Append a string representation of a float value to a string buffer, forcing use of exponential notation |
static FastStringBuffer |
appendInt(FastStringBuffer s,
int i)
Format an integer, appending the string representation of the integer to a string buffer |
| Methods inherited from class java.lang.Object |
|---|
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait |
| Field Detail |
|---|
public static FloatingPointConverter THE_INSTANCE
| Method Detail |
|---|
public static FastStringBuffer appendInt(FastStringBuffer s,
int i)
s - the string bufferi - the integer to be formatted
public static FastStringBuffer appendDouble(FastStringBuffer s,
double value)
s - the string buffer to which the result will be appendedvalue - the double to be formatted
public static FastStringBuffer appendDoubleExponential(FastStringBuffer s,
double value)
s - the string buffer to which the result will be appendedvalue - the double to be formatted
public static FastStringBuffer appendFloat(FastStringBuffer s,
float value)
s - the string buffer to which the result will be appendedvalue - the float to be formatted
public static FastStringBuffer appendFloatExponential(FastStringBuffer s,
float value)
s - the string buffer to which the result will be appendedvalue - the float to be formatted
|
|||||||
| PREV CLASS NEXT CLASS | FRAMES NO FRAMES | ||||||
| SUMMARY: NESTED | FIELD | CONSTR | METHOD | DETAIL: FIELD | CONSTR | METHOD | ||||||