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I noticed, one interesting thing.
Java's Integer.MAX_VALUE is 0x7fffffff (2147483647)
Kotlin's Int.MAX_VALUE is 2147483647
but if you write
in Java:
int value = 0xFFFFFFFF; //everything is fine (but printed value is '-1')
in Kotlin:
val value: Int = 0xFFFFFFFF //You get exception The integer literal does not conform to the expected type Int

Interesting right? So you're able to do something like new java.awt.Color(0xFFFFFFFF, true) in Java but not in Kotlin.

Color class works with that int on "binary" level, so everything works fine for both platforms with all constructors (Color(int rgba) or Color(int r, int g, int b, int a)).
Only workaround which I found for kotlin is java.awt.Color(0xFFFFFFFF.toInt(), true).

Any idea why is it like this in Kotlin?

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9
  • 1
    I think Java automatically widens the number, Int to Long. --- See kotlinlang.org/docs/reference/basic-types.html --- and also see java2s.com/Tutorial/SCJP/0080__Type-Casting/… --- In Kotlin you have to do it explicitly, no language automatism to save you from having chosen a too narrow type.
    – Mörre
    Nov 23, 2017 at 20:29
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    @Mörre 0xFFFFFFFF is a valid two's complement representation of -1 as an int. The difference between the two languages is that Kotlin literals don't seem to accept two's complement notation; the literal 0x80000000 is an error (in Java, it's Integer.MIN_VALUE). In other words, you must use a unary - operator to represent negative literals. Although I can't find any specific mention of this in the spec of either language.
    – bcsb1001
    Nov 23, 2017 at 20:37
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    @Mörre Because there is no widening conversion happening, which you seem to suggest there is.
    – bcsb1001
    Nov 23, 2017 at 20:40
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    @Mörre There's no widening in applying an int value to an int field.
    – shmosel
    Nov 23, 2017 at 20:42
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    See discuss.kotlinlang.org/t/when-does-bit-fiddling-come-to-kotlin/… - The current master plan is (...) have large hex constants have unsigned types (i.e. 0xFFFFFFFF is not a negative Int, but an unsigned Int, i.e. UInt). It's coming from wanting to protect you from unexpected overflow nuances, but 99.9% of the time you use hex you probably care about the bits, not the actual value.
    – Mark Peters
    Nov 23, 2017 at 20:56

3 Answers 3

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6

This is partially answered here:

In Kotlin you need to prepend the - sign to denote negative Int which is not true in Java.

So it seems that Java will interpret hex literals as signed, whereas Kotlin will treat them as unsigned.

The negation would have to be done manually.

Small aside: JetBrains' Kotlin converter actually converts

int a = 0xffffffff;

to

var a = -0x1

but this may just be it realizing exactly what you have noticed.

The part of the spec for hexadecimal literals doesn't mention this at all, however.

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3

I think, this problem should be solved by Kotlin 1.3 and UInt See more here: https://kotlinlang.org/docs/reference/whatsnew13.html#unsigned-integers

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0

The explanation is in the reference docs:

Due to different representations, smaller types are not subtypes of bigger ones. If they were, we would have troubles of the following sort:

// Hypothetical code, does not actually compile:
val a: Int? = 1 // A boxed Int (java.lang.Integer)
val b: Long? = a // implicit conversion yields a boxed Long (java.lang.Long)
print(a == b) // Surprise! This prints "false" as Long's equals()
              // check for other part to be Long as well

So not only identity, but even equality would have been lost silently all over the place.

As a consequence, smaller types are NOT implicitly converted to bigger types. This means that we cannot assign a value of type Byte to an Int variable without an explicit conversion.

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    This isn't the question. In Java, 0xFFFFFFFF would still be an int. Additionally int is definitely not larger than long
    – Salem
    Nov 23, 2017 at 20:38
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    Yes, I am sure. 0xFFFFFFFF when interpreted as signed is clearly -1 (and is 32 bits).
    – Salem
    Nov 23, 2017 at 20:44
  • Does this comment from that linked answer help? "You can write int i = (int)Long.MAX_VALUE; and it will be -1. I agree that it is weird, because compiler complains on int i = 4294967295; but doesn't complain on int i = 0xffffffff;. I think, basically this is because 0x... is treated as a bit sequence and then is casted to the desired type."
    – Paul Hicks
    Nov 23, 2017 at 20:46
  • But fair call, this answer doesn't cover the question. I'll leave it to accrue downvotes :)
    – Paul Hicks
    Nov 23, 2017 at 20:47
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    That comment is actually exactly my point. 0xFFFFFFFF is an int. Same as 0b11111111111111111111111111111111, when treated as a 32 bit integer the high bit is 1 and due to representation of signed integers this has a value of -1. When treated as any wider type (i.e. 0xFFFFFFFFL) the value is of course positive, though (see this answer)
    – Salem
    Nov 23, 2017 at 20:48

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