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We know that Common Intermediate Language(CIL) or (MSIL) is an object oriented assembly language.

But does the Just In Time Compiler(JIT) really maps each of those instructions to underlying processor's opcodes?

And If so can we call CIL an assembly language and JIT an assembler

Note: Wikipedia doesn't list CIL as an assembly language in its list of assembly languages

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interesting question, I tryied to reply, but it is not so easy. I think you can't consider it an assembly language since tehre is no real cpu running it directly. –  Felice Pollano Jul 28 '12 at 12:41
@FelicePollano then CIL maybe a partial assembly language..:) –  Anirudha Jul 28 '12 at 12:47
Assembly language mnemonics correspond 1:1 with CPU specific machine code instructions. An assembler just maps the (sorta) human-readable assembly code to those instructions. This is definitely not the case with CIL. It's not partial, it just isn't - assembly language has a very clear definition. –  Jamie Treworgy Jul 28 '12 at 13:04
@jamietre you are right but then y people call it an Object Oriented Assembly language –  Anirudha Jul 28 '12 at 13:09
I'm not even sure if "object-oriented" is that important for CIL (even though the CLI's architecture clearly favours the OO paradigm). Its stack-based evaluation model is much more prominent, as is the emphasis on providing metadata besides bytecode. your typical assembly language wouldn't care about metadata at all. –  stakx Jul 28 '12 at 13:49
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3 Answers

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No, you can't call CIL an assembly language. Assembly is made up of mnemonics for the machine code instructions of a particular processor. A direct representation of the 1s and 0s that make the core execute code, but written in text to make it easy on a human. Which is very unlike CIL:

  • you can't buy a processor that executes CIL
  • CIL doesn't target a specific processor, the jitter does
  • CIL assumes a stack-based execution model, processors are primarily register based
  • CIL code is optimized from its original form
  • there is no one-to-one translation of a CIL instruction to a processor instruction

That last bullet is a key one, a design decision that makes CIL strongly different from bytecode is that CIL instructions are type-less. There is only one ADD instruction but processors have many versions of it. Specific ones that take byte, short, int, long, float and double operands. Required because different parts of the processor core are used to execute the add. The jitter picks the right one, based on the type of the operands it infers from previous CIL instructions.

Just like the + operator in the C# language, it also can work with different operands. Which really make the L in CIL significant, it is a Language. A simple one, but it is only simple to help make it easy to write a jitter for it.

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Why does it matter that a physical processor exists? What if someone makes a physical processor for the CIL bytecode in the future, will that suddenly make CIL an assembly language? Also, does this mean that MIXAL is not an assembly language? –  svick Jul 28 '12 at 15:59
Such a "what if" game isn't very productive. Fact is that there is no such processor, last part of my answer pointed out a likely reason why we still don't have one. Even Java isn't there, Jazelle doesn't execute all byte codes. I'll promise that as soon as I have one in my machine that lets me post to SO then I'll use it edit this answer. Could happen, let's see what Midori produces. –  Hans Passant Jul 28 '12 at 16:19
My point is that a definition that relies on the existence of some specific piece of hardware is silly. Specific hardware doesn't make an assembly language, the mechanics of its compilation do. –  svick Jul 28 '12 at 16:24
Hmm, no it does in the case of assembly. Your example of MIXAL requires an emulator, a chunk of software that emulates hardware. Knuth's fictitious processor in this case. That's only ever of academic interest (students learning MIPS for example), or interesting to execute ROMs of old games, emulators are too slow to ever be useful in general purpose computing. –  Hans Passant Jul 28 '12 at 16:36
So you're saying that MIX Assembly Language is not an assembly language and that Knuth doesn't know what “assembly language” means? –  svick Jul 28 '12 at 16:48
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This question is all about definitions, so let's define the terms properly. First, assembly language:

Assembly language is a low-level programming language for computers, microprocessors, microcontrollers, and other programmable devices in which each statement corresponds to a single machine language instruction. An assembly language is specific to a certain computer architecture, in contrast to most high-level programming languages, which generally are portable to multiple systems.

Now, CIL:

Common Intermediate Language is the lowest-level human-readable programming language defined by the Common Language Infrastructure (CLI) specification and is used by the .NET Framework and Mono. Languages which target a CLI-compatible runtime environment compile to CIL, which is assembled into an object code that has a bytecode-style format.

Okay, this part is technically not correct: for example C# compiler compiles directly to the bytecode, it doesn't go through CIL (the human-readable language), but theoretically, we can imagine that's what's happening.

With these two definitions, CIL is an assembly language, because each statement in it is compiled down to a single bytecode instruction. The fact that there is no physical computer that can execute that bytecode directly doesn't matter.

The definition says that each assembly language is “specific to a certain computer architecture”. In this case, the architecture is the CLR virtual machine.

About JIT: the JIT compiler can't be considered an assembler: it doesn't do the 1:1 translation from human-readable form to bytecode, ilasm does that.

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Virtual machines perform the JIT compile to specific machine instructions (x86, x64, ia64, etc). –  Peter Ritchie Jul 28 '12 at 13:54
@PeterRitchie Yeah, so? –  svick Jul 28 '12 at 14:13
Part of the OPs question asked about the JIT. –  Peter Ritchie Jul 28 '12 at 14:33
@PeterRitchie Right, thanks, I have added a short paragraphs about JIT. –  svick Jul 28 '12 at 15:26
@Anirudha What makes x86 machine code special? Assembler doesn't have to produce x86 code, for example the ARM also doesn't do that. And for example the some C compilers do produce x86 machine code, but they are not assemblers. Being assembler doesn't have anything to do with x86 machine code. –  svick Jul 28 '12 at 16:21
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The CIL is more a bytecode than an assembly language. In particular, it is not a textual human readable form, unlike assembler languages (Probably CIL also defines the format of bytecode files).

The MSIL JIT is an implementation of a virtual machine for that bytecode. How implementations (from Microsoft or from Mono) translate CIL into machine code is an implementation detail which should not really matter to you (and given that Microsoft VM is probably proprietary, then won't tell you how it is done). I think that Mono -a free software implementation of CIL- is using LLVM so probably don't translate each bytecode at a time but probably entire methods or functions.

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CIL does also have a human-readable form. –  svick Jul 28 '12 at 13:30
bytecode is a physical representation or a "compiled" version of CIL. CIL is not a bytecode. –  Peter Ritchie Jul 28 '12 at 13:54
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