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In one of the projects at my university I am working directly with Java bytecode.

After browsing the list of instructions available for the JVM (http://en.wikipedia.org/wiki/Java_bytecode_instruction_listings) I saw that there is no such thing as [b|c|s]store, only istore for storing integers in a local variable. Does it mean that if in my program I write:

short a;
int b;

I am not saving any memory, because every local variable entry occupies 4 bytes?

I was always under the impression that using short or byte types will save some memory at runtime.

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That sounds correct. You still get the savings using byte[]s, however. –  Matt Ball Jun 13 '13 at 18:51
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3 Answers 3

up vote 12 down vote accepted

This is explained in section 2.11.1 of the JVMS:

Note that most instructions [...] do not have forms for the integral types byte, char, and short. None have forms for the boolean type. A compiler encodes loads of literal values of types byte and short using Java Virtual Machine instructions that sign-extend those values to values of type int at compile-time or run-time. [...] Thus, most operations on values of actual types boolean, byte, char, and short are correctly performed by instructions operating on values of computational type int.

It is justified thus:

Given the Java Virtual Machine's one-byte opcode size, encoding types into opcodes places pressure on the design of its instruction set. If each typed instruction supported all of the Java Virtual Machine's run-time data types, there would be more instructions than could be represented in a byte. Instead, the instruction set of the Java Virtual Machine provides a reduced level of type support for certain operations. In other words, the instruction set is intentionally not orthogonal. Separate instructions can be used to convert between unsupported and supported data types as necessary.

However, whilst this applies to load/store of stack variables, it doesn't apply to load/store into primitive arrays; there are opcodes for all primitive types.

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You are not saving any memory using a local int vs long as these are likely to be in 64-bit registers. Note: how the byte code is laid out and how the code is actually run is not the same.

Saving two bytes is not important on any new hardware. The value of 2 bytes is less than 1/1000 the time it takes you to blink even if you are on minimum wage.

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I know that I will not save any significant memory, I was just curious about this case. –  Andna Jun 13 '13 at 18:55
Although if you have billions of 2-bytes savings, it might get more interesting... But I agree, usually it doesn't make sense to to waste your time thinking about a few bytes on modern systems. –  brimborium Jun 13 '13 at 18:57
Yes but in an embedded environment, those bytes can/will add up, making this important. –  SnakeDoc Jun 13 '13 at 19:17
@SnakeDoc They can add up if you have enough of them in any system. Even in embedded systems using a 16-bit register instead of a 32-bit one is unlikely to make much difference. –  Peter Lawrey Jun 14 '13 at 0:10
@PeterLawrey Right, in embedded you're likely more worried about excessive object instanciations instead of primatives, When your working with a system that has only 128MB of RAM available between the OS and any user software, then this sort of stuff would be more up front in your thinking instead of normal desktop development where memory consumption likely doesn't even cross your mind (unless you run into significant performance bottlenecks). Different focuses. –  SnakeDoc Jun 14 '13 at 19:52
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It seems like this is not the case based on the Java tutorials:

  • short: The short data type is a 16-bit signed two's complement integer. It has a minimum value of -32,768 and a maximum value of 32,767 (inclusive). As with byte, the same guidelines apply: you can use a short to save memory in large arrays, in situations where the memory savings actually matters.
  • int: The int data type is a 32-bit signed two's complement integer. It has a minimum value of -2,147,483,648 and a maximum value of 2,147,483,647 (inclusive). For integral values, this data type is generally the default choice unless there is a reason (like the above) to choose something else. This data type will most likely be large enough for the numbers your program will use, but if you need a wider range of values, use long instead.

However, what you say also sounds correct, so I am not really sure what is the truth.

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The statement refers to bytecode instructions, not datatypes. There is no contradiction here. –  EJP Jun 13 '13 at 19:05
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