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implement bit copy and swap with any size and offset using a special new syntax

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floats
Ondřej Hruška 4 years ago
parent 2d4f6b4af1
commit e0e45bd223
Signed by untrusted user: MightyPork
GPG Key ID: 2C5FD5035250423D
6 changed files with 203 additions and 69 deletions
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  1. 35
      README.md
  2. 86
      crsn/src/builtin/defs.rs
  3. 36
      crsn/src/builtin/exec.rs
  4. 69
      crsn/src/builtin/parse.rs
  5. 7
      crsn/src/module/mod.rs
  6. 39
      examples/ldbits.csn

35
README.md
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@ -314,17 +314,29 @@ Jumping to a label is always safer than a manual skip.
; Copy a value
(ld Wr Rd)
; Copy a value N times. This is useful when used with stream handles or buffers.
(ldn Wr Rd Rd:count)
; Copy 32 bits of a value
(ld32 Wr Rd)
; Copy lower XX bits (the rest is untouched)
(ldXX RW Rd)
; Copy XX bits to bit YY and up
; Example: (ld32/32 r1 r0) ; copy lower 32 bits of r0 to upper 32 bits of r1
;
; Rd: ##############<-- X -->
; |<-Y->
; Wr: ########<-- xY -->######
(ldXX/YY RW Rd)
; Copy XX bits at ZZ to bit YY and up
; Example: (ld32/32/16 r1 r0) ; copy bits 16-47 (32 bits) of r0 to bits 32-63
;
; |<--Z--->
; Rd: #####<-- X -->#########
; |<-Y->
; Wr: ########<-- X -->######
(ldXX/YY/ZZ RW Rd)
; Copy 16 bits of a value
(ld16 Wr Rd)
; Copy 8 bits of a value
(ld8 Wr Rd)
; Copy a value N times. This is useful when used with stream handles or buffers.
(ldn Wr Rd Rd:count)
; Write a sequence of values, or all codepoints from a string, into the destination.
; This is most useful with object handles, such as a buffer or @cout.
@ -339,6 +351,11 @@ Jumping to a label is always safer than a manual skip.
; Exchange two register's values
(xch RW RW)
; Exchange bits in two registers (see ldXX/YY/ZZ for reference and diagrams)
(xchXX RW RW)
(xchXX/YY RW RW)
(xchXX/YY/ZZ RW RW)
; Store status flags to a register
(stf Wr)

86
crsn/src/builtin/defs.rs
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@ -4,6 +4,10 @@ use crate::asm::data::{Rd, RdObj, Wr, RdWr};
use crate::asm::data::literal::{DebugMsg, Label, RoutineName};
use crate::asm::instr::Op;
use crate::asm::instr::op::OpKind;
use std::fmt::{Display, Formatter};
use std::fmt;
use crate::asm::error::CrsnError;
use crate::asm::patches::ErrWithPos;
#[derive(Debug)]
pub enum Barrier {
@ -37,6 +41,78 @@ pub enum LdsValue {
Chars(String),
}
#[derive(Clone, Copy, Debug, PartialEq)]
pub struct BitSlice {
pub width: u32,
pub src_pos: u32,
pub dst_pos: u32
}
impl Display for BitSlice {
fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
if self.is_full() {
return Ok(());
}
write!(f, "{}", self.width)?;
if self.src_pos != 0 || self.dst_pos != 0 {
write!(f, "/{}", self.dst_pos)?;
}
if self.src_pos != 0 {
write!(f, "/{}", self.src_pos)?;
}
Ok(())
}
}
impl Default for BitSlice {
fn default() -> Self {
Self {
width: 64,
src_pos: 0,
dst_pos: 0
}
}
}
impl BitSlice {
pub fn full() -> Self {
Self::default()
}
pub fn parse(src: &str, pos: &SourcePosition) -> Result<Option<Self>, CrsnError> {
if !src.starts_with(|c: char| c.is_ascii_digit()) {
return Ok(None);
}
// We have a opXX, opXX/YY, or opXX/YY/ZZ
let mut numbers : Vec<u32> = vec![];
for p in src.split('/') {
numbers.push(p.parse().err_pos(pos)?);
}
let slice = BitSlice {
width: numbers[0],
src_pos: numbers.get(2).copied().unwrap_or(0),
dst_pos: numbers.get(1).copied().unwrap_or(0)
};
// Validation
if slice.src_pos + slice.width > 64 {
return Err(CrsnError::Parse("Invalid source bit slice".into(), pos.clone()));
}
if slice.dst_pos + slice.width > 64 {
return Err(CrsnError::Parse("Invalid destination bit slice".into(), pos.clone()));
}
Ok(Some(slice))
}
pub fn is_full(self) -> bool {
self.width == 64
}
}
#[derive(Debug)]
pub enum BuiltinOp {
/// Do nothing (costs one cycle)
@ -79,18 +155,14 @@ pub enum BuiltinOp {
Delete(RdObj),
/// Move a value
Load { dst: Wr, src: Rd },
/// Move lower 32 bits
Load32 { dst: RdWr, src: Rd },
/// Move lower 16 bits
Load16 { dst: RdWr, src: Rd },
/// Move lower 8 bits
Load8 { dst: RdWr, src: Rd },
/// Move bits of a value
LoadBits { dst: RdWr, src: Rd, slice: BitSlice },
/// Move N values
LoadMultiple { dst: Wr, src: Rd, count: Rd },
/// Move values from a string or integer list
LoadSequence { dst: Wr, value: LdsValue },
/// Swap two registers
Exchange { a: RdWr, b: RdWr },
Exchange { a: RdWr, b: RdWr, slice : BitSlice },
/// Store runtime status to a register
StoreFlags { dst: Wr },
/// Load runtime status from a register

36
crsn/src/builtin/exec.rs
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@ -119,27 +119,12 @@ impl OpTrait for BuiltinOp {
}
state.update_status(last);
}
BuiltinOp::Load32 { dst, src } => {
BuiltinOp::LoadBits { dst, src, slice, } => {
state.clear_status();
let new = state.read(src)?;
let old = state.read(dst)?;
let val = (old & !0xFFFFFFFF) | (new & 0xFFFFFFFF);
state.update_status(val);
state.write(dst, val)?;
}
BuiltinOp::Load16 { dst, src } => {
state.clear_status();
let new = state.read(src)?;
let old = state.read(dst)?;
let val = (old & !0xFFFF) | (new & 0xFFFF);
state.update_status(val);
state.write(dst, val)?;
}
BuiltinOp::Load8 { dst, src } => {
state.clear_status();
let new = state.read(src)?;
let old = state.read(dst)?;
let val = (old & !0xFF) | (new & 0xFF);
let ones : u64 = (1 << slice.width) - 1;
let val = (old & !(ones << slice.dst_pos)) | (((new & (ones << slice.src_pos)) >> slice.src_pos) << slice.dst_pos);
state.update_status(val);
state.write(dst, val)?;
}
@ -173,11 +158,20 @@ impl OpTrait for BuiltinOp {
}
}
}
BuiltinOp::Exchange { a, b } => {
BuiltinOp::Exchange { a, b, slice } => {
let aa = state.read(a)?;
let bb = state.read(b)?;
state.write(a, bb)?;
state.write(b, aa)?;
if slice.is_full() {
state.write(a, bb)?;
state.write(b, aa)?;
} else {
let ones: u64 = (1 << slice.width) - 1;
let aa2 = (aa & !(ones << slice.dst_pos)) | (((bb & (ones << slice.src_pos)) >> slice.src_pos) << slice.dst_pos);
let bb2 = (bb & !(ones << slice.src_pos)) | (((aa & (ones << slice.dst_pos)) >> slice.dst_pos) << slice.src_pos);
state.write(a, aa2)?;
state.write(b, bb2)?;
}
}
BuiltinOp::StoreFlags { dst } => {
let packed = state.frame.status.store();

69
crsn/src/builtin/parse.rs
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@ -8,7 +8,7 @@ use crate::asm::parse::arg_parser::TokenParser;
use crate::asm::parse::parse_data::{parse_constant_name, parse_label, parse_label_str, parse_rd, parse_reg_alias, parse_value};
use crate::asm::parse::sexp_expect::{expect_any_string_atom};
use crate::asm::patches::ErrWithPos;
use crate::builtin::defs::{Barrier, BuiltinOp, SleepUnit, LdsValue};
use crate::builtin::defs::{Barrier, BuiltinOp, SleepUnit, LdsValue, BitSlice};
use crate::module::ParseRes;
use crate::utils::A;
use crate::asm::data::{Rd, RdData, RdObj};
@ -190,27 +190,6 @@ pub(crate) fn parse_op<'a>(op_pos: &SourcePosition, keyword: &str, mut args: Tok
}
}
"ld32" => {
BuiltinOp::Load32 {
dst: args.next_rdwr()?,
src: args.next_rd()?,
}
}
"ld16" => {
BuiltinOp::Load16 {
dst: args.next_rdwr()?,
src: args.next_rd()?,
}
}
"ld8" => {
BuiltinOp::Load8 {
dst: args.next_rdwr()?,
src: args.next_rd()?,
}
}
"ldn" => {
BuiltinOp::LoadMultiple {
dst: args.next_wr()?,
@ -263,6 +242,7 @@ pub(crate) fn parse_op<'a>(op_pos: &SourcePosition, keyword: &str, mut args: Tok
BuiltinOp::Exchange {
a: args.next_rdwr()?,
b: args.next_rdwr()?,
slice: BitSlice::full(),
}
}
@ -296,6 +276,26 @@ pub(crate) fn parse_op<'a>(op_pos: &SourcePosition, keyword: &str, mut args: Tok
}
other => {
if let Some(s) = other.strip_prefix("ld") {
if let Some(slice) = BitSlice::parse(s, op_pos)? {
return Ok(ParseRes::builtin(BuiltinOp::LoadBits {
dst: args.next_rdwr()?,
src: args.next_rd()?,
slice,
}));
}
}
if let Some(s) = other.strip_prefix("xch") {
if let Some(slice) = BitSlice::parse(s, op_pos)? {
return Ok(ParseRes::builtin(BuiltinOp::Exchange {
a: args.next_rdwr()?,
b: args.next_rdwr()?,
slice,
}));
}
}
if other.starts_with(':') {
BuiltinOp::Label(parse_label_str(other, &op_pos)?)
} else {
@ -378,21 +378,21 @@ pub(crate) fn to_sexp(op: &BuiltinOp) -> Sexp {
}
}
BuiltinOp::Delete(obj) => sexp::list(&[A("del"), A(obj)]),
BuiltinOp::Load { dst, src } => sexp::list(&[A("ld"), A(dst), A(src)]),
BuiltinOp::Load32 { dst, src } => sexp::list(&[A("ld32"), A(dst), A(src)]),
BuiltinOp::Load16 { dst, src } => sexp::list(&[A("ld16"), A(dst), A(src)]),
BuiltinOp::Load8 { dst, src } => sexp::list(&[A("ld8"), A(dst), A(src)]),
BuiltinOp::Load { dst, src, } => {
sexp::list(&[A("ld"), A(dst), A(src)])
},
BuiltinOp::LoadBits { dst, src, slice, } => {
sexp::list(&[A(format!("ld{}", slice)), A(dst), A(src)])
},
BuiltinOp::LoadMultiple { dst, src, count } => sexp::list(&[A("ldn"), A(dst), A(src), A(count)]),
BuiltinOp::Exchange { a, b } => sexp::list(&[A("xch"), A(a), A(b)]),
BuiltinOp::Exchange { a, b, slice } => sexp::list(&[A(format!("xch{}", slice)), A(a), A(b)]),
BuiltinOp::StoreFlags { dst } => sexp::list(&[A("stf"), A(dst)]),
BuiltinOp::LoadFlags { src } => sexp::list(&[A("ldf"), A(src)]),
BuiltinOp::LoadSequence { dst, value } => {
match value {
LdsValue::Values(vals) => {
let mut vals: Vec<_> = vals.iter().map(A).collect();
vals.insert(0, A(dst));
vals.insert(0, A("lds"));
sexp::list(&vals)
let vals: Vec<_> = vals.iter().map(A).collect();
sexp::list(&[A("lds"), A(dst), sexp::list(&vals)])
}
LdsValue::Chars(str) => {
sexp::list(&[A("lds"), A(dst), atom_qs(str)])
@ -469,15 +469,20 @@ mod test {
("(fault kur*a)", "(fault kur*a)"),
("(fault \"do pr*ele\")", "(fault \"do pr*ele\")"),
("(xch r0 r1)", "(xch r0 r1)"),
("(xch32 r0 r1)", "(xch32 r0 r1)"),
("(xch32/8/16 r0 r1)", "(xch32/8/16 r0 r1)"),
("(ld r0 r0)", "(ld r0 r0)"),
("(ld8 r0 r1)", "(ld8 r0 r1)"),
("(ld16 r0 r1)", "(ld16 r0 r1)"),
("(ld32 r0 r1)", "(ld32 r0 r1)"),
("(ld32/32 r0 r1)", "(ld32/32 r0 r1)"),
("(ld32/32/5 r0 r1)", "(ld32/32/5 r0 r1)"),
("(ld32/0/16 r0 r1)", "(ld32/0/16 r0 r1)"),
("(ld r0 156)", "(ld r0 156)"),
("(ld _ -32767)", "(ld _ -32767)"),
("(ldn _ @r0 7)", "(ldn _ @r0 7)"),
("(lds @r0 \"ahoj jak se mas\")", "(lds @r0 \"ahoj jak se mas\")"),
("(lds @r0 (1 2 3 4 0x123 r6))", "(lds @r0 (1 2 3 4 0x123 r6))"),
("(lds @r0 (1 2 3 4 0x123 r6))", "(lds @r0 (1 2 3 4 291 r6))"),
("(stf r0)", "(stf r0)"),
("(ldf r0)", "(ldf r0)"),
("(far :label)", "(far :label)"),

7
crsn/src/module/mod.rs
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@ -16,6 +16,7 @@ use crate::runtime::run_thread::ThreadInfo;
use std::sync::atomic::{AtomicU64, Ordering};
use std::sync::Arc;
use crate::asm::data::Wr;
use crate::builtin::defs::BuiltinOp;
mod eval_res;
@ -29,6 +30,12 @@ pub enum ParseRes<'a, T> {
Unknown(TokenParser<'a>),
}
impl ParseRes<'static, OpKind> {
pub fn builtin(op: BuiltinOp) -> ParseRes<'static, OpKind> {
Self::Parsed(OpKind::BuiltIn(op))
}
}
impl<'a> ParseRes<'a, OpKind> {
/// Helper to construct an extension op
pub fn ext(op: impl OpTrait) -> Self {

39
examples/ldbits.csn
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@ -0,0 +1,39 @@
(
(ld r0 0x11223344_55667788)
(ld32 r0 0xaabbccdd)
(cmp r0 0x11223344_aabbccdd (ne? (fault "1")))
(ld r0 0x11223344_55667788)
(ld8 r0 0xaabbccdd)
(cmp r0 0x11223344_556677dd (ne? (fault "2")))
(ld r0 0x11223344_55667788)
(ld4 r0 0xaabbccdd)
(cmp r0 0x11223344_5566778d (ne? (fault "3")))
(ld r0 0x11223344_55667788)
(ld32/32 r0 0xaabbccdd)
(cmp r0 0xaabbccdd_55667788 (ne? (fault "4")))
(ld r0 0x11223344_55667788)
(ld32/16/32 r0 0xaabbccdd_00000000)
(cmp r0 0x1122aabb_ccdd7788 (ne? (fault "5")))
(ld r0 0x11223344_55667788)
(ld r1 0xaabbccdd_eeff9900)
(xch32 r0 r1)
(cmp r0 0x11223344_eeff9900 (ne? (fault "6")))
(cmp r1 0xaabbccdd_55667788 (ne? (fault "6")))
(ld r0 0x11223344_55667788)
(ld r1 0xaabbccdd_eeff9900)
(xch16/32 r0 r1)
(cmp r0 0x11229900_55667788 (ne? (fault "7")))
(cmp r1 0xaabbccdd_eeff3344 (ne? (fault "7")))
(ld r0 0x11223344_55667788)
(ld r1 0xaabbccdd_eeff9900)
(xch16/32/16 r0 r1)
(cmp r0 0x1122eeff_55667788 (ne? (fault "7")))
(cmp r1 0xaabbccdd_33449900 (ne? (fault "7")))
)
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