# In Doom3's source code, why did they use bitshift to generate the number instead of hardcoding it?

Why did they do this:

``````Sys_SetPhysicalWorkMemory( 192 << 20, 1024 << 20 );   //Min = 201,326,592  Max = 1,073,741,824
``````

``````Sys_SetPhysicalWorkMemory( 201326592, 1073741824 );
``````

The article I got the code from

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Probably considered it more readable/understandable. If you were going to use constants, you'd probably want to at least express them in hex. – Jerry Coffin Jan 15 '13 at 4:37
Would you immediately recognise 201326592 as 192 Mi or 1073741824 as 1 Gi? It's impossible to tell at a glance how large those numbers are, or whether 201326592 is greater or smaller than 1073741824 - they just look random. – molbdnilo Jan 15 '13 at 8:55

A neat property is that shifting a value `<< 10` is the same as multiplying it by 1024 (1 KiB), and `<< 20` is 1024*1024, (1 MiB).

Shifting by successive powers of 10 yields all of our standard units of computer storage:

• `1 << 10` = 1 KiB (Kibibyte)
• `1 << 20` = 1 MiB (Mebibyte)
• `1 << 30` = 1 GiB (Gibibyte)
• ...

So that function is expressing its arguments to `Sys_SetPhysicalWorkMemory``(int minBytes, int maxBytes)` as 192 MB (min) and 1024 MB (max).

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Those are kibi and mebibytes, not kilo/mega. – Pubby Jan 15 '13 at 4:39
@Pubby Thanks. I was actually in the process of changing that when you pointed it out :-) The whole world hasn't caught on to the unambiguity that is the binary IEC binary prefixes yet, so thank you for suggesting it! – Jonathon Reinhart Jan 15 '13 at 4:46
why not define a macro `#define MEGA_BYTE << 20`? – TemplateRex Jan 15 '13 at 7:30
@Pubby, it's not at all uncommon for people to switch their definition of K/M depending on the context. The thing I find amusing is when people claim the disk manufacturers are "cheating" when they give capacity in G=1000000000 instead of G=1073741824; obviously they don't know their history. – Mark Ransom Jan 16 '13 at 5:21

I might be wrong (and I didn't study the source) , but I guess it's just for readability reasons.

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Self commenting code:

192 << 20 means 192 * 2^20 = 192 * 2^10 * 2^10 = 192 * 1024 * 1024 = 192 MByte

1024 << 20 means 1024 * 2^20 = 1 GByte

Computations on constants are optimized away so nothing is lost.

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+1 For words "self commenting". – SChepurin Jan 15 '13 at 6:59

I think the point (not mentioned yet) is that

All but the most basic compilers will do the shift at compilation time. Whenever you use operators with constant expressions, the compiler will be able to do this before the code is even generated. Note, that before constexpr and C++11, this did not extend to functions.

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Typically if you're going to quote something you should really cite/link to the source. Also, Eli did mention this exact thing. – Jonathon Reinhart Jan 16 '13 at 13:14