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I was wondering if integer overflow is defined in VHDL. I wasn't able to find anything in the 2002 Specification.

As an example (Note, this might not compile, it's just a generic example...):

entity foo is port (
    clk : std_logic
end entity;

architecture rtl of foo is
    signal x : integer range 0 to 2 := 0;
    process (clk)
        if rising_edge(clk) then
            x <= x + 1;
        end if;
    end process;
end architecture;

It's clear that x will go from 0 to 1, and then to 2. Is it defined what will happen on the next increment? Is that undefined behavior?

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up vote 3 down vote accepted

for a test bench for rtl of foo in ghdl:

ghdl -r foo_tb
ghdl:error: bound check failed (#4)
ghdl:error: simulation failed

From IEEE 1076-1993:

7.2.4 Adding operators

The adding operators + and - are predefined for any numeric type and have their conventional mathematical meaning.


In all cases, it is an error if either bound of the index subtype of the result does not belong to the index subtype of the type of the result, unless the result is a null array. It is also an error if any element of the result does not belong to the element subtype of the type of the result.


Numeric types include integer, floating point and physical types. A subtype is a type (integer in this case) constrained (for the declaration of x, 0 to 2). The range index from the adding operator result is out of range for the subtype given by the range constraint in the declaration of signal x passed as the left hand side argument to the adding operator. The element of the result (in this case 3) doesn't belong to the element subtype of x (0 to 2).

The short answer is that it will generate an error. A run-time error causes the simulation to terminate for an LRM compliant implementation. As you can see from the ghdl example there is no standard way of reporting errors.

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Any decent simulator will stop there with an error message pointing precisely at the addition that overflowed. (Xilinx Isim is only a decent simulator if you remember to turn the checks ON, last time I looked)

Spooky if you've done too much C programming over the years!

Synthesis will do whatever saves hardware, (in this case with no outputs, optimise X and the process away completely!) so it's best to catch this sort of bug in simulation.

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Integer overflow (and underflow) is implementation-defined behavior in VHDL. I can't quote the spec at the moment, but if you read closely you will see that almost everything about integer ranges is implementation-defined beyond a minimum supported range (-2**31 to 2**31).

Most VHDL implementations on 32-bit machines actually behave as if they were 32-bit 2's completement integers (e.g. how machine integers behave on those platforms) and 64-bit implementations generally have 64-bit integers, but you can't count on this.

For your specific example, if you are using an integer subtype with a range, if you try to assign a value outside of that range it is an error and will generate an assertion at runtime. (Synthesizers, on the other hand, will do whatever weird thing they want -- usually they WILL overflow as if it were a 2's complement integer).

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I'm more concerned about synthesis on fpgas. But it appears that the consensus is that it is implementation defined. Thanks! – Bill Lynch Nov 19 '12 at 16:28
@sharth for synthesis, you pretty much want to always use the unsigned and signed types from ieee.numeric_std 100% intead of integer for any place where you are expecting well-defined overflow semantics (and for any time you need a specific number of bits, etc). – wjl Nov 20 '12 at 1:39

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