I have a project in which we often use Integer.parseInt() to convert a String to an int. When something goes wrong (for example, the String is not a number but the letter a, or whatever) this method will throw an exception. However, if I have to handle exceptions in my code everywhere, this starts to look very ugly very quickly. I would like to put this in a method, however, I have no clue how to return a clean value in order to show that the conversion went wrong.
In C++ I could have created a method that accepted a pointer to an int and let the method itself return true or false. However, as far as I know, this is not possible in Java. I could also create an object that contains a true/false variable and the converted value, but this does not seem ideal either. The same thing goes for a global value, and this might give me some trouble with multithreading.
So is there a clean way to do this?
You could return an Integer instead of an int, returning null on parse failure.
It's a shame Java doesn't provide a way of doing this without there being an exception thrown internally though - you can hide the exception (by catching it and returning null), but it could still be a performance issue if you're parsing hundreds of thousands of bits of user-provided data.
EDIT: Code for such a method:
public static Integer tryParse(String text) {
try {
return Integer.parseInt(text);
} catch (NumberFormatException e) {
return null;
}
}
Note that I'm not sure off the top of my head what this will do if text is null. You should consider that - if it represents a bug (i.e. your code may well pass an invalid value, but should never pass null) then throwing an exception is appropriate; if it doesn't represent a bug then you should probably just return null as you would for any other invalid value.
Originally this answer used the new Integer(String) constructor; it now uses Integer.parseInt and a boxing operation; in this way small values will end up being boxed to cached Integer objects, making it more efficient in those situations.
What behaviour do you expect when it's not a number?
If, for example, you often have a default value to use when the input is not a number, then a method such as this could be useful:
public static int parseWithDefault(String number, int defaultVal) {
try {
return Integer.parseInt(number);
} catch (NumberFormatException e) {
return defaultVal;
}
}
Similar methods can be written for different default behaviour when the input can't be parsed.
In some cases you should handle parsing errors as fail-fast situations, but in others cases, such as application configuration, I prefer to handle missing input with default values using Apache Commons Lang 3 NumberUtils.
int port = NumberUtils.toInt(properties.getProperty("port"), 8080);
To avoid handling exceptions use a regular expression to make sure you have all digits first:
if(value.matches("\\d+") {
Integer.parseInt(value);
}
There is Ints.tryParse() in Guava. It doesn't throw exception on non-numeric string, however it does throw exception on null string.
After reading the answers to the question I think encapsulating or wrapping the parseInt method is not necessary, maybe even not a good idea.
You could return 'null' as Jon suggested, but that's more or less replacing a try/catch construct by a null-check. There's just a slight difference on the behaviour if you 'forget' error handling: if you don't catch the exception, there's no assignment and the left hand side variable keeps it old value. If you don't test for null, you'll probably get hit by the JVM (NPE).
yawn's suggestion looks more elegant to me, because I do not like returning null to signal some errors or exceptional states. Now you have to check referential equality with a predefined object, that indicates a problem. But, as others argue, if again you 'forget' to check and a String is unparsable, the program continous with the wrapped int inside your 'ERROR' or 'NULL' object.
Nikolay's solution is even more object orientated and will work with parseXXX methods from other wrapper classes aswell. But in the end, he just replaced the NumberFormatException by an OperationNotSupported exception - again you need a try/catch to handle unparsable inputs.
So, its my conclusion to not encapsulate the plain parseInt method. I'd only encapsulate if I could add some (application depended) error handling as well.
May be you can use something like this:
public class Test {
public interface Option<T> {
T get();
T getOrElse(T def);
boolean hasValue();
}
final static class Some<T> implements Option<T> {
private final T value;
public Some(T value) {
this.value = value;
}
@Override
public T get() {
return value;
}
@Override
public T getOrElse(T def) {
return value;
}
@Override
public boolean hasValue() {
return true;
}
}
final static class None<T> implements Option<T> {
@Override
public T get() {
throw new UnsupportedOperationException();
}
@Override
public T getOrElse(T def) {
return def;
}
@Override
public boolean hasValue() {
return false;
}
}
public static Option<Integer> parseInt(String s) {
Option<Integer> result = new None<Integer>();
try {
Integer value = Integer.parseInt(s);
result = new Some<Integer>(value);
} catch (NumberFormatException e) {
}
return result;
}
}
You could also replicate the C++ behaviour that you want very simply
public static boolean parseInt(String str, int[] byRef) {
if(byRef==null) return false;
try {
byRef[0] = Integer.parseInt(prop);
return true;
} catch (NumberFormatException ex) {
return false;
}
}
You would use the method like so:
int[] byRef = new int[1];
boolean result = parseInt("123",byRef);
After that the variable result it's true if everything went allright and byRef[0] contains the parsed value.
Personally, I would stick to catching the exception.
My Java is a little rusty, but let me see if I can point you in the right direction:
public class Converter {
public static Integer parseInt(String str) {
Integer n = null;
try {
n = new Integer(Integer.tryParse(str));
} catch (NumberFormatException ex) {
// leave n null, the string is invalid
}
return n;
}
}
If your return value is null, you have a bad value. Otherwise, you have a valid Integer.
The answer given by Jon Skeet is fine, but I don't like giving back a null Integer object. I find this confusing to use. Since Java 8 there is a better option (in my opinion), using the OptionalInt:
public static OptionalInt tryParse(String value) {
try {
return OptionalInt.of(Integer.parseInt(value));
} catch (NumberFormatException e) {
return OptionalInt.empty();
}
}
This makes it explicit that you have to handle the case where no value is available. I would prefer if this kind of function would be added to the java library in the future, but I don't know if that will ever happen.
What about forking the parseInt method?
It's easy, just copy-paste the contents to a new utility that returns Integer or Optional<Integer> and replace throws with returns. It seems there are no exceptions in the underlying code, but better check.
By skipping the whole exception handling stuff, you can save some time on invalid inputs. And the method is there since JDK 1.0, so it is not likely you will have to do much to keep it up-to-date.
If you're using Java 8 or up, you can use a library I just released: https://github.com/robtimus/try-parse. It has support for int, long and boolean that doesn't rely on catching exceptions. Unlike Guava's Ints.tryParse it returns OptionalInt / OptionalLong / Optional, much like in https://stackoverflow.com/a/38451745/1180351 but more efficient.
I would suggest you consider a method like
IntegerUtilities.isValidInteger(String s)
which you then implement as you see fit. If you want the result carried back - perhaps because you use Integer.parseInt() anyway - you can use the array trick.
IntegerUtilities.isValidInteger(String s, int[] result)
where you set result[0] to the integer value found in the process.
This is somewhat similar to Nikolay's solution:
private static class Box<T> {
T me;
public Box() {}
public T get() { return me; }
public void set(T fromParse) { me = fromParse; }
}
private interface Parser<T> {
public void setExclusion(String regex);
public boolean isExcluded(String s);
public T parse(String s);
}
public static <T> boolean parser(Box<T> ref, Parser<T> p, String toParse) {
if (!p.isExcluded(toParse)) {
ref.set(p.parse(toParse));
return true;
} else return false;
}
public static void main(String args[]) {
Box<Integer> a = new Box<Integer>();
Parser<Integer> intParser = new Parser<Integer>() {
String myExclusion;
public void setExclusion(String regex) {
myExclusion = regex;
}
public boolean isExcluded(String s) {
return s.matches(myExclusion);
}
public Integer parse(String s) {
return new Integer(s);
}
};
intParser.setExclusion("\\D+");
if (parser(a,intParser,"123")) System.out.println(a.get());
if (!parser(a,intParser,"abc")) System.out.println("didn't parse "+a.get());
}
The main method demos the code. Another way to implement the Parser interface would obviously be to just set "\D+" from construction, and have the methods do nothing.
You could roll your own, but it's just as easy to use commons lang's StringUtils.isNumeric() method. It uses Character.isDigit() to iterate over each character in the String.
They way I handle this problem is recursively. For example when reading data from the console:
Java.util.Scanner keyboard = new Java.util.Scanner(System.in);
public int GetMyInt(){
int ret;
System.out.print("Give me an Int: ");
try{
ret = Integer.parseInt(keyboard.NextLine());
}
catch(Exception e){
System.out.println("\nThere was an error try again.\n");
ret = GetMyInt();
}
return ret;
}
To avoid an exception, you can use Java's Format.parseObject method. The code below is basically a simplified version of Apache Common's IntegerValidator class.
public static boolean tryParse(String s, int[] result)
{
NumberFormat format = NumberFormat.getIntegerInstance();
ParsePosition position = new ParsePosition(0);
Object parsedValue = format.parseObject(s, position);
if (position.getErrorIndex() > -1)
{
return false;
}
if (position.getIndex() < s.length())
{
return false;
}
result[0] = ((Long) parsedValue).intValue();
return true;
}
You can either use AtomicInteger or the int[] array trick depending upon your preference.
Here is my test that uses it -
int[] i = new int[1];
Assert.assertTrue(IntUtils.tryParse("123", i));
Assert.assertEquals(123, i[0]);
I was also having the same problem. This is a method I wrote to ask the user for an input and not accept the input unless its an integer. Please note that I am a beginner so if the code is not working as expected, blame my inexperience !
private int numberValue(String value, boolean val) throws IOException {
//prints the value passed by the code implementer
System.out.println(value);
//returns 0 is val is passed as false
Object num = 0;
while (val) {
num = br.readLine();
try {
Integer numVal = Integer.parseInt((String) num);
if (numVal instanceof Integer) {
val = false;
num = numVal;
}
} catch (Exception e) {
System.out.println("Error. Please input a valid number :-");
}
}
return ((Integer) num).intValue();
}
This is an answer to question 8391979, "Does java have a int.tryparse that doesn't throw an exception for bad data? [duplicate]" which is closed and linked to this question.
Edit 2016 08 17: Added ltrimZeroes methods and called them in tryParse(). Without leading zeroes in numberString may give false results (see comments in code). There is now also public static String ltrimZeroes(String numberString) method which works for positive and negative "numbers"(END Edit)
Below you find a rudimentary Wrapper (boxing) class for int with an highly speed optimized tryParse() method (similar as in C#) which parses the string itself and is a little bit faster than Integer.parseInt(String s) from Java:
public class IntBoxSimple {
// IntBoxSimple - Rudimentary class to implement a C#-like tryParse() method for int
// A full blown IntBox class implementation can be found in my Github project
// Copyright (c) 2016, Peter Sulzer, Fürth
// Program is published under the GNU General Public License (GPL) Version 1 or newer
protected int _n; // this "boxes" the int value
// BEGIN The following statements are only executed at the
// first instantiation of an IntBox (i. e. only once) or
// already compiled into the code at compile time:
public static final int MAX_INT_LEN =
String.valueOf(Integer.MAX_VALUE).length();
public static final int MIN_INT_LEN =
String.valueOf(Integer.MIN_VALUE).length();
public static final int MAX_INT_LASTDEC =
Integer.parseInt(String.valueOf(Integer.MAX_VALUE).substring(1));
public static final int MAX_INT_FIRSTDIGIT =
Integer.parseInt(String.valueOf(Integer.MAX_VALUE).substring(0, 1));
public static final int MIN_INT_LASTDEC =
-Integer.parseInt(String.valueOf(Integer.MIN_VALUE).substring(2));
public static final int MIN_INT_FIRSTDIGIT =
Integer.parseInt(String.valueOf(Integer.MIN_VALUE).substring(1,2));
// END The following statements...
// ltrimZeroes() methods added 2016 08 16 (are required by tryParse() methods)
public static String ltrimZeroes(String s) {
if (s.charAt(0) == '-')
return ltrimZeroesNegative(s);
else
return ltrimZeroesPositive(s);
}
protected static String ltrimZeroesNegative(String s) {
int i=1;
for ( ; s.charAt(i) == '0'; i++);
return ("-"+s.substring(i));
}
protected static String ltrimZeroesPositive(String s) {
int i=0;
for ( ; s.charAt(i) == '0'; i++);
return (s.substring(i));
}
public static boolean tryParse(String s,IntBoxSimple intBox) {
if (intBox == null)
// intBoxSimple=new IntBoxSimple(); // This doesn't work, as
// intBoxSimple itself is passed by value and cannot changed
// for the caller. I. e. "out"-arguments of C# cannot be simulated in Java.
return false; // so we simply return false
s=s.trim(); // leading and trailing whitespace is allowed for String s
int len=s.length();
int rslt=0, d, dfirst=0, i, j;
char c=s.charAt(0);
if (c == '-') {
if (len > MIN_INT_LEN) { // corrected (added) 2016 08 17
s = ltrimZeroesNegative(s);
len = s.length();
}
if (len >= MIN_INT_LEN) {
c = s.charAt(1);
if (!Character.isDigit(c))
return false;
dfirst = c-'0';
if (len > MIN_INT_LEN || dfirst > MIN_INT_FIRSTDIGIT)
return false;
}
for (i = len - 1, j = 1; i >= 2; --i, j *= 10) {
c = s.charAt(i);
if (!Character.isDigit(c))
return false;
rslt -= (c-'0')*j;
}
if (len < MIN_INT_LEN) {
c = s.charAt(i);
if (!Character.isDigit(c))
return false;
rslt -= (c-'0')*j;
} else {
if (dfirst >= MIN_INT_FIRSTDIGIT && rslt < MIN_INT_LASTDEC)
return false;
rslt -= dfirst * j;
}
} else {
if (len > MAX_INT_LEN) { // corrected (added) 2016 08 16
s = ltrimZeroesPositive(s);
len=s.length();
}
if (len >= MAX_INT_LEN) {
c = s.charAt(0);
if (!Character.isDigit(c))
return false;
dfirst = c-'0';
if (len > MAX_INT_LEN || dfirst > MAX_INT_FIRSTDIGIT)
return false;
}
for (i = len - 1, j = 1; i >= 1; --i, j *= 10) {
c = s.charAt(i);
if (!Character.isDigit(c))
return false;
rslt += (c-'0')*j;
}
if (len < MAX_INT_LEN) {
c = s.charAt(i);
if (!Character.isDigit(c))
return false;
rslt += (c-'0')*j;
}
if (dfirst >= MAX_INT_FIRSTDIGIT && rslt > MAX_INT_LASTDEC)
return false;
rslt += dfirst*j;
}
intBox._n=rslt;
return true;
}
// Get the value stored in an IntBoxSimple:
public int get_n() {
return _n;
}
public int v() { // alternative shorter version, v for "value"
return _n;
}
// Make objects of IntBoxSimple (needed as constructors are not public):
public static IntBoxSimple makeIntBoxSimple() {
return new IntBoxSimple();
}
public static IntBoxSimple makeIntBoxSimple(int integerNumber) {
return new IntBoxSimple(integerNumber);
}
// constructors are not public(!=:
protected IntBoxSimple() {} {
_n=0; // default value an IntBoxSimple holds
}
protected IntBoxSimple(int integerNumber) {
_n=integerNumber;
}
}
Test/example program for class IntBoxSimple:
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStreamReader;
public class IntBoxSimpleTest {
public static void main (String args[]) {
IntBoxSimple ibs = IntBoxSimple.makeIntBoxSimple();
String in = null;
BufferedReader br = new BufferedReader(new InputStreamReader(System.in));
do {
System.out.printf(
"Enter an integer number in the range %d to %d:%n",
Integer.MIN_VALUE, Integer.MAX_VALUE);
try { in = br.readLine(); } catch (IOException ex) {}
} while(! IntBoxSimple.tryParse(in, ibs));
System.out.printf("The number you have entered was: %d%n", ibs.v());
}
}
Try with regular expression and default parameters argument
public static int parseIntWithDefault(String str, int defaultInt) {
return str.matches("-?\\d+") ? Integer.parseInt(str) : defaultInt;
}
int testId = parseIntWithDefault("1001", 0);
System.out.print(testId); // 1001
int testId = parseIntWithDefault("test1001", 0);
System.out.print(testId); // 1001
int testId = parseIntWithDefault("-1001", 0);
System.out.print(testId); // -1001
int testId = parseIntWithDefault("test", 0);
System.out.print(testId); // 0
if you're using apache.commons.lang3 then by using NumberUtils:
int testId = NumberUtils.toInt("test", 0);
System.out.print(testId); // 0
I would like to throw in another proposal that works if one specifically requests integers: Simply use long and use Long.MIN_VALUE for error cases. This is similar to the approach that is used for chars in Reader where Reader.read() returns an integer in the range of a char or -1 if the reader is empty.
For Float and Double, NaN can be used in a similar way.
public static long parseInteger(String s) {
try {
return Integer.parseInt(s);
} catch (NumberFormatException e) {
return Long.MIN_VALUE;
}
}
// ...
long l = parseInteger("ABC");
if (l == Long.MIN_VALUE) {
// ... error
} else {
int i = (int) l;
}
You shouldn't use Exceptions to validate your values.
For single character there is a simple solution:
Character.isDigit()
For longer values it's better to use some utils. NumberUtils provided by Apache would work perfectly here:
NumberUtils.isNumber()
Please check https://commons.apache.org/proper/commons-lang/javadocs/api-2.6/org/apache/commons/lang/math/NumberUtils.html
You can use a Null-Object like so:
public class Convert {
@SuppressWarnings({"UnnecessaryBoxing"})
public static final Integer NULL = new Integer(0);
public static Integer convert(String integer) {
try {
return Integer.valueOf(integer);
} catch (NumberFormatException e) {
return NULL;
}
}
public static void main(String[] args) {
Integer a = convert("123");
System.out.println("a.equals(123) = " + a.equals(123));
System.out.println("a == NULL " + (a == NULL));
Integer b = convert("onetwothree");
System.out.println("b.equals(123) = " + b.equals(123));
System.out.println("b == NULL " + (b == NULL));
Integer c = convert("0");
System.out.println("equals(0) = " + c.equals(0));
System.out.println("c == NULL " + (c == NULL));
}
}
The result of main in this example is:
a.equals(123) = true
a == NULL false
b.equals(123) = false
b == NULL true
c.equals(0) = true
c == NULL false
This way you can always test for failed conversion but still work with the results as Integer instances. You might also want to tweak the number NULL represents (≠ 0).
来源:https://stackoverflow.com/questions/1486077/good-way-to-encapsulate-integer-parseint