holey-bytes/hbbytecode/src/lib.rs
2023-08-08 03:03:15 +02:00

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#![no_std]
mod gen_valider;
macro_rules! constmod {
($vis:vis $mname:ident($repr:ty) {
$(#![doc = $mdoc:literal])?
$($cname:ident = $val:expr $(,$doc:literal)?;)*
}) => {
$(#[doc = $mdoc])?
$vis mod $mname {
$(
$(#[doc = $doc])?
pub const $cname: $repr = $val;
)*
}
};
}
#[allow(rustdoc::invalid_rust_codeblocks)]
/// Invoke macro with bytecode definition
/// # Input syntax
/// ```no_run
/// macro!(
/// INSTRUCTION_TYPE(p0: TYPE, p1: TYPE, …)
/// => [INSTRUCTION_A, INSTRUCTION_B, …],
/// …
/// );
/// ```
/// - Instruction type determines opcode-generic, instruction-type-specific
/// function. Name: `i_param_INSTRUCTION_TYPE`
/// - Per-instructions there will be generated opcode-specific functions calling the generic ones
/// - Operand types
/// - R: Register (u8)
/// - I: Immediate
/// - L: Memory load / store size (u16)
/// - Other types are identity-mapped
///
/// # BRC special-case
/// BRC's 3rd operand is plain byte, not a register. Encoding is the same, but for some cases it may matter.
///
/// Please, if you distinguish in your API between byte and register, special case this one.
///
/// Sorry for that :(
#[macro_export]
macro_rules! invoke_with_def {
($macro:path) => {
$macro!(
bbbb(p0: R, p1: R, p2: R, p3: R)
=> [DIR, DIRF, FMAF],
bbb(p0: R, p1: R, p2: R)
=> [ADD, SUB, MUL, AND, OR, XOR, SL, SR, SRS, CMP, CMPU, BRC, ADDF, SUBF, MULF],
bbdh(p0: R, p1: R, p2: I, p3: L)
=> [LD, ST],
bbd(p0: R, p1: R, p2: I)
=> [ADDI, MULI, ANDI, ORI, XORI, CMPI, CMPUI, BMC, JAL, JEQ, JNE, JLT, JGT, JLTU,
JGTU, ADDFI, MULFI],
bbw(p0: R, p1: R, p2: u32)
=> [SLI, SRI, SRSI],
bb(p0: R, p1: R)
=> [NEG, NOT, CP, SWA, NEGF, ITF, FTI],
bd(p0: R, p1: I)
=> [LI],
n()
=> [UN, NOP, ECALL],
);
};
}
invoke_with_def!(gen_valider::gen_valider);
constmod!(pub opcode(u8) {
//! Opcode constant module
UN = 0, "N; Raises a trap";
NOP = 1, "N; Do nothing";
ADD = 2, "BBB; #0 ← #1 + #2";
SUB = 3, "BBB; #0 ← #1 - #2";
MUL = 4, "BBB; #0 ← #1 × #2";
AND = 5, "BBB; #0 ← #1 & #2";
OR = 6, "BBB; #0 ← #1 | #2";
XOR = 7, "BBB; #0 ← #1 ^ #2";
SL = 8, "BBB; #0 ← #1 « #2";
SR = 9, "BBB; #0 ← #1 » #2";
SRS = 10, "BBB; #0 ← #1 » #2 (signed)";
CMP = 11, "BBB; #0 ← #1 <=> #2";
CMPU = 12, "BBB; #0 ← #1 <=> #2 (unsigned)";
DIR = 13, "BBBB; #0 ← #2 / #3, #1 ← #2 % #3";
NEG = 14, "BB; #0 ← -#1";
NOT = 15, "BB; #0 ← !#1";
ADDI = 16, "BBD; #0 ← #1 + imm #2";
MULI = 17, "BBD; #0 ← #1 × imm #2";
ANDI = 18, "BBD; #0 ← #1 & imm #2";
ORI = 19, "BBD; #0 ← #1 | imm #2";
XORI = 20, "BBD; #0 ← #1 ^ imm #2";
SLI = 21, "BBW; #0 ← #1 « imm #2";
SRI = 22, "BBW; #0 ← #1 » imm #2";
SRSI = 23, "BBW; #0 ← #1 » imm #2 (signed)";
CMPI = 24, "BBD; #0 ← #1 <=> imm #2";
CMPUI = 25, "BBD; #0 ← #1 <=> imm #2 (unsigned)";
CP = 26, "BB; Copy #0 ← #1";
SWA = 27, "BB; Swap #0 and #1";
LI = 28, "BD; #0 ← imm #1";
LD = 29, "BBDB; #0 ← [#1 + imm #3], imm #4 bytes, overflowing";
ST = 30, "BBDB; [#1 + imm #3] ← #0, imm #4 bytes, overflowing";
BMC = 31, "BBD; [#0] ← [#1], imm #2 bytes";
BRC = 32, "BBB; #0 ← #1, imm #2 registers";
JAL = 33, "BD; Copy PC to #0 and unconditional jump [#1 + imm #2]";
JEQ = 34, "BBD; if #0 = #1 → jump imm #2";
JNE = 35, "BBD; if #0 ≠ #1 → jump imm #2";
JLT = 36, "BBD; if #0 < #1 → jump imm #2";
JGT = 37, "BBD; if #0 > #1 → jump imm #2";
JLTU = 38, "BBD; if #0 < #1 → jump imm #2 (unsigned)";
JGTU = 39, "BBD; if #0 > #1 → jump imm #2 (unsigned)";
ECALL = 40, "N; Issue system call";
ADDF = 41, "BBB; #0 ← #1 +. #2";
SUBF = 42, "BBB; #0 ← #1 -. #2";
MULF = 43, "BBB; #0 ← #1 +. #2";
DIRF = 44, "BBBB; #0 ← #2 / #3, #1 ← #2 % #3";
FMAF = 45, "BBBB; #0 ← (#1 * #2) + #3";
NEGF = 46, "BB; #0 ← -#1";
ITF = 47, "BB; #0 ← #1 as float";
FTI = 48, "BB; #0 ← #1 as int";
ADDFI = 49, "BBD; #0 ← #1 +. imm #2";
MULFI = 50, "BBD; #0 ← #1 *. imm #2";
});
#[repr(packed)]
pub struct ParamBBBB(pub u8, pub u8, pub u8, pub u8);
#[repr(packed)]
pub struct ParamBBB(pub u8, pub u8, pub u8);
#[repr(packed)]
pub struct ParamBBDH(pub u8, pub u8, pub u64, pub u16);
#[repr(packed)]
pub struct ParamBBD(pub u8, pub u8, pub u64);
#[repr(packed)]
pub struct ParamBBW(pub u8, pub u8, pub u32);
#[repr(packed)]
pub struct ParamBB(pub u8, pub u8);
#[repr(packed)]
pub struct ParamBD(pub u8, pub u64);
/// # Safety
/// Has to be valid to be decoded from bytecode.
pub unsafe trait OpParam {}
unsafe impl OpParam for ParamBBBB {}
unsafe impl OpParam for ParamBBB {}
unsafe impl OpParam for ParamBBDH {}
unsafe impl OpParam for ParamBBD {}
unsafe impl OpParam for ParamBBW {}
unsafe impl OpParam for ParamBB {}
unsafe impl OpParam for ParamBD {}
unsafe impl OpParam for u64 {}
unsafe impl OpParam for () {}