Don't do that.

The contract for `hashCode()`

says that two objects that are equal must have the same hashcode. It doesn't guarantee anything for objects that are not equal. What this means is that you could have two objects that are completely different but, by chance, happen to have the same hashcode, thus breaking your `equals()`

.

It is not hard to get hashcode collisions between strings. Consider the core loop from the JDK 8 `String.hashCode()`

implementation:

```
for (int i = 0; i < value.length; i++) {
h = 31 * h + val[i];
}
```

Where the initial value for `h`

is `0`

and `val[i]`

is the numerical value for the character in the *ith* position in the given string. If we take, for example, a string of length 3, this loop can be written as:

```
h = 31 * (31 * val[0] + val[1]) + val[2];
```

If we choose an arbitrary string, such as `"abZ"`

, we have:

```
h("abZ") = 31 * (31 * 'a' + 'b') + 'Z'
h("abZ") = 31 * (31 * 97 + 98) + 90
h("abZ") = 96345
```

Then we can subtract `1`

from `val[1]`

while adding `31`

to `val[2]`

, which gives us the string `"aay"`

:

```
h("aay") = 31 * (31 * 'a' + 'a') + 'y'
h("aay") = 31 * (31 * 97 + 97) + 121
h("aay") = 96345
```

Resulting in a collision: `h("abZ") == h("aay") == 96345`

.

Also, note that your `equals()`

implementation does not check if you are comparing objects of the same type. So, supposing you had `this.hashCode() == 96345`

, the following statement would return `true`

:

```
yourObject.equals(Integer.valueOf(96345))
```

Which is probably not what you want.

`#equals()`

,`#hashCode()`

and`#toString()`

for you, so you don't have to care about that. – Tom Apr 27 '15 at 18:50