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I am porting some SystemVerilog code to SystemC/C++. I am using std::bitset to represent bit vectors, but I can see already it falls short of providing methods to access a slice.

For example, if I want to set reg1 to bits 4-8 of reg2 with the SystemVerilog code:

bit [3:0] reg1;
bit [15:0] reg2;
reg1 = reg2[7:4];

How could I do this with std::bitset?

bitset<4> reg1;
bitset<16> reg2;
reg1[0] = reg2[4];
reg1[1] = reg2[5];
reg1[2] = reg2[6];
reg1[3] = reg2[7];

Is there a better way?

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I would write a function subbit(const std::bitset<N>& bits, size_t begin, size_t end) that masks out the bits you want, shifts them to the right so begin is at bit 0, etc., then return that value. Where it goes is up to you. –  GManNickG Nov 2 '12 at 19:44
    
Note there is a fundamental dissonance here: the range could be specified at run-time but the bitset size is specified at compile-time. Unless you guarantee the range is denoted by integral-constant expressions, you can't say for sure (without a run-time check) the resulting range is small enough to fit in the destination bitset. That is, you have to check at runtime that end - begin <= N. You could provide an alternate function subbit_c<B, E>(std::bitset<N>) -> std::bitset<E - B> to ensure matching types. –  GManNickG Nov 2 '12 at 19:45

2 Answers 2

up vote 4 down vote accepted

Now you are using SystemC, why don't you use sc_bv<> to represent HDL signals natively? Because SystemC has a set of data type to represent HDL bit/logic-wise and word logical operators, it should be more easy to mapping SystemVerilog/Verilog data types to C/C++ code.

sc_bv<4> reg1;
sc_bv<16> reg2;
reg1 = reg2.range(7,4);
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Thanks, I did not know about sc_bv, I will check it out. –  Rich Nov 6 '12 at 12:28
    
Yes so far this is doing just what I want. Also it supports both constant and variable ranges. –  Rich Nov 6 '12 at 14:04

If your want to operate on bitsets - then use to_string function:

bitset<4> reg1;
bitset<16> reg2;
reg1 = bitset<4>(reg2.to_string().substr(4,4));

This is not very efficient way, but should work.

If you do not have bitsets bigger than 32 or 64 bits - then use version with to_ulong or to_ullong - it should be more efficient.

Also consider to use std::vector<bool> instead of std::bitset<>. Folks here have tendency to make downvote every time they see std::vector<bool>, but it could be more efficient here:

vector<bool> reg1(4);
vector<bool> reg2(16);
reg1.assign(reg2.begin() + 4, reg2.begin() + 8);
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