Copyright | (c) Levent Erkok |
---|---|
License | BSD3 |
Maintainer | erkokl@gmail.com |
Stability | experimental |
Safe Haskell | None |
Language | Haskell2010 |
Demonstrates the use of uninterpreted functions for the purposes of code generation. This facility is important when we want to take advantage of native libraries in the target platform, or when we'd like to hand-generate code for certain functions for various purposes, such as efficiency, or reliability.
Documentation
shiftLeft :: SWord32 -> SWord32 -> SWord32 Source #
A definition of shiftLeft that can deal with variable length shifts.
(Note that the `shiftL`
method from the Bits
class requires an Int
shift
amount.) Unfortunately, this'll generate rather clumsy C code due to the
use of tables etc., so we uninterpret it for code generation purposes
using the cgUninterpret
function.
tstShiftLeft :: SWord32 -> SWord32 -> SWord32 -> SWord32 Source #
Test function that uses shiftLeft defined above. When used as a normal Haskell function or in verification the definition is fully used, i.e., no uninterpretation happens. To wit, we have:
>>>
tstShiftLeft 3 4 5
224 :: SWord32
>>>
prove $ \x y -> tstShiftLeft x y 0 .== x + y
Q.E.D.
Generate C code for "tstShiftLeft". In this case, SBV will *use* the user given definition
verbatim, instead of generating code for it. (Also see the functions cgAddDecl
, cgAddLDFlags
,
and cgAddPrototype
.)