Add a TailRecipe.rex() method which creates an encoding recipe with a
REX prefix.
Define I64 encodings with REX.W for i64 operations and with/without REX
for i32 ops. Only test the with-REX encodings for now. We don't yet have
an instruction shrinking pass that can select the non-REX encodings.
This is just a rough sketch to get us started. There are bound to be
some issues.
This also legalizes signatures for x86-32, but probably not correctly.
It's basically implementing the x86-64 ABI for 32-bit.
* Function names should start with %
* Create FunctionName from string
* Implement displaying of FunctionName as %nnnn with fallback to #xxxx
* Run rustfmt and fix FunctionName::with_string in parser
* Implement FunctionName::new as a generic function
* Binary function names should start with #
* Implement NameRepr for function name
* Fix examples in docs to reflect that function names start with %
* Rebase and fix filecheck tests
We don't support the full set of Intel addressing modes yet. So far we
have:
- Register indirect, no displacement.
- Register indirect, 8-bit signed displacement.
- Register indirect, 32-bit signed displacement.
The SIB addressing modes will need new Cretonne instruction formats to
represent.
These instructions have a fixed register constraint; the shift amount is
passed in CL.
Add meta language syntax so a fixed register can be specified as
"GPR.rcx".
Tabulate the Intel opcode representations and implement an OP() function
which computes the encoding bits.
Implement the single-byte opcode with a reg-reg ModR/M byte.
