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I want to know if the compiled code of a bool-to-int conversion contains a branch (jump) operation.

For example, given void func(bool b) and int i:

Is the compiled code of calling func(i) equivalent to the compiled code of func(i? 1:0)?

Or is there a more elaborate way for the compiler to perform this without the branch operation?


In other words, what code does the compiler generate in order to push 1 or 0 into the stack before jumping to the address of the function?

I assume that it really comes down to the architecture of the CPU at hand, and that some specific processors (certain DSPs, for example) may support this. So my question refers to "conventional" general-purpose CPUs (assuming that this definition is acceptable).

In terms of pure software, the question can also be phrased as: is there an efficient way for converting an integer value to 1 when it's not 0, and to 0 otherwise, without using a conditional statement?


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It depends on the platform and the compiler (neither of which you specified in the question BTW). The easiest way to check is to just generate (optimised) assembly from your code, e.g. gcc -O3 -S ... –  Paul R Mar 19 '14 at 8:32
That depends on the compiler used, and possibly on the optimization level too. –  Axel Mar 19 '14 at 8:32
!!i will do the trick... –  Jarod42 Mar 19 '14 at 8:52
Most CPUs can set the zero flag (ZF) based on the value in a register (perhaps by subtracting or XORng a value with itself), and some have the ability to move the ZF back into a general purpose integral register, or to conditionally move an arbitrary value based on ZF without any actual jump/call statement (e.g. to overwrite a default of 0 with 1 if ZF is set). So yes, it can be reasonably efficient and not involve a branch. –  Tony D Mar 19 '14 at 8:59
On x86 for example, the setne instruction can be used to set a register to 0 or 1 based on the ZF. –  Tony D Mar 19 '14 at 9:16

1 Answer 1

It's not your (compiler user) job too make built-in type conversion efficient. If the compiler is not dumb, it will make that sort of things as close as the CPU representation are.

For the most of the commercial CPU, bool and int are the exact same thing, and if(x) { ... } translate in bit-anding (or bit-oring, whichever is faster: they are normally immediate instructions) x with itself and make a conditional jump after the } if the zero flag is set. (not that this is just a trick to force the zero-flag computation, that is an immediate consequence of the arithmetic unit electronics)

variants are much more a matter of CPU electronics, than code. So don'care about it. ifs are not triggered by a bool, but by the last arithmetic operation result.

Whatever arithmetic operation held by a CPU produces a result ans set some flags that represent certain result attributes: if it is zero, if it produced a carry or borrow, if it has an odd or even number of bit set to 1 etc. Resut and Flags are two registers, and can be loaded and stored from/to memory.

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if(x) { ... } is not the scenario the question is about. The question asks very specifically how an integer might be tested and a register or the stack prepared with a 0 or 1 value in preparation for a function call expecting a bool argument. That's more complicated than checking the integer and using it to branch, and indeed the question focuses on not how efficient such a branch is, but whether one would be needed to prepare the register/stack for the call.... –  Tony D Mar 19 '14 at 9:21
The point is that there is no such a need, since every operation you'll do boils down to nothing in the most of the cases: a = bool(x) or a = !!x or a = (x!=0) if x is a built-in type are the same and do nothing else than making a = is_zero(x&x). –  Emilio Garavaglia Mar 19 '14 at 10:00
Ok - you've edited your comment above with mention of is_zero(x&x). Anyway, regarding "for the most of the commercial CPU, bool and int are exactly the same thing" - C++ compilers may use single byte bool variables, and make it an invariant that they're set 0 or 1 and not some other non-0 value that needs interpretation on read. Demonstated on ideone here and confirmed for VC++ on my PC. –  Tony D Mar 19 '14 at 10:28
If you have a better answer just write it! to me that's just useless nitpicking. –  Emilio Garavaglia Mar 19 '14 at 10:31
No, it replaces the value with the zero flag value (eventually inverted) as it was generated during the operation that produced the value. If that was not the last executed arithmetic operation, a dummy "no change" operation is made. The key point is the zero flag of the flag register in the CPU. –  Emilio Garavaglia Mar 19 '14 at 23:06

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