floats
Ondřej Hruška 4 years ago
parent ba0e3d0fd2
commit 1d444fd516
Signed by untrusted user: MightyPork
GPG Key ID: 2C5FD5035250423D
  1. 57
      crsn/src/asm/instr/flatten.rs
  2. 4
      crsn/src/asm/instr/mod.rs
  3. 165
      crsn/src/asm/instr/op.rs
  4. 11
      crsn/src/asm/mod.rs
  5. 3
      crsn/src/asm/parse/arg_parser.rs
  6. 4
      crsn/src/asm/parse/mod.rs
  7. 2
      crsn/src/asm/parse/parse_instr.rs
  8. 38
      crsn/src/asm/parse/parse_op.rs
  9. 104
      crsn/src/runtime/exec/mod.rs
  10. 2
      crsn/src/runtime/fault.rs
  11. 39
      crsn/src/runtime/program.rs
  12. 5
      crsn/src/runtime/run_thread.rs
  13. 7
      crsn_arith/src/exec.rs
  14. 7
      launcher/src/main.rs

@ -4,15 +4,15 @@ use std::sync::atomic::AtomicU32;
use crate::asm::data::{Rd, SrcDisp}; use crate::asm::data::{Rd, SrcDisp};
use crate::asm::data::literal::{Label, Value}; use crate::asm::data::literal::{Label, Value};
use crate::asm::error::{AsmError, Error}; use crate::asm::error::{AsmError, Error};
use crate::asm::instr::{Cond, OpWrapper, Instr, Op, Routine}; use crate::asm::instr::{Cond, Instr, Op, Routine};
/// A trait for something that can turn into multiple instructions /// A trait for something that can turn into multiple instructions
pub trait Flatten { pub trait Flatten {
fn flatten(self, label_num: &AtomicU32) -> Result<Vec<OpWrapper>, Error>; fn flatten(self, label_num: &AtomicU32) -> Result<Vec<Op>, Error>;
} }
impl Flatten for Instr { impl Flatten for Instr {
fn flatten(self, label_num: &AtomicU32) -> Result<Vec<OpWrapper>, Error> { fn flatten(self, label_num: &AtomicU32) -> Result<Vec<Op>, Error> {
let mut ops = vec![self.op]; let mut ops = vec![self.op];
if let Some(branches) = self.branches { if let Some(branches) = self.branches {
@ -29,18 +29,18 @@ impl Flatten for Instr {
} else { } else {
Label::unique(label_num) Label::unique(label_num)
}; };
ops.push(OpWrapper::JumpIf(!cond, next_lbl.clone())); ops.push(Op::JumpIf(!cond, next_lbl.clone()));
for branch_instr in branch { for branch_instr in branch {
ops.extend(branch_instr.flatten(label_num)?); ops.extend(branch_instr.flatten(label_num)?);
} }
if cnt != branch_count - 1 { if cnt != branch_count - 1 {
ops.push(OpWrapper::Jump(end_lbl.clone())); ops.push(Op::Jump(end_lbl.clone()));
ops.push(OpWrapper::Label(next_lbl)); ops.push(Op::Label(next_lbl));
} }
} }
ops.push(OpWrapper::Label(end_lbl)); ops.push(Op::Label(end_lbl));
} }
Ok(ops) Ok(ops)
@ -48,7 +48,7 @@ impl Flatten for Instr {
} }
impl Flatten for Routine { impl Flatten for Routine {
fn flatten(self, label_num: &AtomicU32) -> Result<Vec<OpWrapper>, Error> { fn flatten(self, label_num: &AtomicU32) -> Result<Vec<Op>, Error> {
let mut ops = vec![ let mut ops = vec![
Op::Routine(self.name.clone()).into(), Op::Routine(self.name.clone()).into(),
]; ];
@ -61,44 +61,3 @@ impl Flatten for Routine {
Ok(ops) Ok(ops)
} }
} }
/// Convert jumps to relative skips
pub fn lower(ops: Vec<OpWrapper>) -> Result<Vec<Op>, Error> {
let mut label_positions = HashMap::<Label, usize>::new();
for (n, op) in ops.iter().enumerate() {
if let OpWrapper::Label(name) = op {
label_positions.insert(name.clone(), n - label_positions.len());
}
}
let mut cleaned = vec![];
let mut skipped = 0;
for (n, op) in ops.into_iter().enumerate() {
match op {
OpWrapper::Label(_) => {
skipped += 1;
}
OpWrapper::Jump(target) => {
if let Some(dest) = label_positions.get(&target) {
let skip = *dest as isize - n as isize + skipped;
cleaned.push(Op::Skip(Rd::new(SrcDisp::Immediate(skip as Value))));
} else {
return Err(Error::Asm(AsmError::LabelNotDefined(target)));
}
}
OpWrapper::JumpIf(cond, target) => {
if let Some(dest) = label_positions.get(&target) {
let skip = *dest as isize - n as isize + skipped;
cleaned.push(Op::SkipIf(cond, Rd::new(SrcDisp::Immediate(skip as Value))));
} else {
return Err(Error::Asm(AsmError::LabelNotDefined(target)));
}
}
OpWrapper::Op(op) => {
cleaned.push(op);
}
}
}
Ok(cleaned)
}

@ -1,7 +1,5 @@
pub use cond::Cond; pub use cond::Cond;
pub use flatten::Flatten; pub use flatten::Flatten;
pub use flatten::lower;
pub use op::OpWrapper;
pub use op::Op; pub use op::Op;
use crate::asm::data::literal::RoutineName; use crate::asm::data::literal::RoutineName;
@ -13,7 +11,7 @@ mod flatten;
/// A higher-level instruction /// A higher-level instruction
#[derive(Debug)] #[derive(Debug)]
pub struct Instr { pub struct Instr {
pub op: OpWrapper, pub op: Op,
pub branches: Option<Vec<(Cond, Vec<Instr>)>>, pub branches: Option<Vec<(Cond, Vec<Instr>)>>,
} }

@ -6,6 +6,7 @@ use crate::asm::data::{
Rd, Rd,
Wr, Wr,
}; };
use crate::asm::data::literal::Addr;
use crate::asm::error::Error; use crate::asm::error::Error;
use crate::asm::instr::Cond; use crate::asm::instr::Cond;
use crate::asm::parse::arg_parser::ArgParser; use crate::asm::parse::arg_parser::ArgParser;
@ -15,22 +16,15 @@ use crate::runtime::program::Program;
/// A higher level simple opration /// A higher level simple opration
#[derive(Debug)] #[derive(Debug)]
pub enum OpWrapper { pub enum Op {
/// Do nothing
Nop,
/// Mark a jump target. /// Mark a jump target.
Label(Label), Label(Label),
/// Jump to a label /// Jump to a label
Jump(Label), Jump(Label),
/// Jump to a label if a flag is set /// Jump to a label if a flag is set
JumpIf(Cond, Label), JumpIf(Cond, Label),
/// Low level op
Op(Op),
}
/// A low level instruction
#[derive(Debug)]
pub enum Op {
/// Do nothing
Nop,
/// Mark a far jump target (can be jumped to from another routine). /// Mark a far jump target (can be jumped to from another routine).
/// This label is preserved in optimized code. /// This label is preserved in optimized code.
FarLabel(Label), FarLabel(Label),
@ -58,23 +52,16 @@ pub enum Op {
StoreStatus { dst: Wr }, StoreStatus { dst: Wr },
/// Load runtime status from a register /// Load runtime status from a register
LoadStatus { src: Rd }, LoadStatus { src: Rd },
/// Instruction added by an extension
Extension(Box<dyn OpTrait>), Extension(Box<dyn OpTrait>),
} }
/// Make "into" work
impl From<Op> for OpWrapper {
fn from(op: Op) -> Self {
OpWrapper::Op(op)
}
}
pub trait OpTrait: Debug + Send + Sync + 'static { pub trait OpTrait: Debug + Send + Sync + 'static {
fn execute(&self, program: &Program, call_stack: &mut CallStack, frame: &mut StackFrame) -> Result<(), Fault>; fn execute(&self, program: &Program, call_stack: &mut CallStack, frame: &mut StackFrame) -> Result<EvalRes, Fault>;
} }
pub enum ParseOpResult { pub enum ParseOpResult {
Parsed(Box<dyn OpTrait + Send>), Parsed(Box<dyn OpTrait>),
Unknown(ArgParser), Unknown(ArgParser),
} }
@ -89,3 +76,141 @@ pub trait AsmModule: Debug + Send + 'static {
/// If the instruction keyword is not recognized, return Unknown with the unchanged argument list. /// If the instruction keyword is not recognized, return Unknown with the unchanged argument list.
fn parse_op(&self, keyword: &str, arg_tokens: ArgParser) -> Result<ParseOpResult, Error>; fn parse_op(&self, keyword: &str, arg_tokens: ArgParser) -> Result<ParseOpResult, Error>;
} }
pub type CyclesSpent = usize;
#[derive(Debug)]
pub struct EvalRes {
pub cycles: CyclesSpent,
pub advance: i64,
}
impl Default for EvalRes {
fn default() -> Self {
Self {
cycles: 1,
advance: 1,
}
}
}
impl OpTrait for Op {
fn execute(&self, program: &Program, call_stack: &mut CallStack, frame: &mut StackFrame) -> Result<EvalRes, Fault> {
let mut res = EvalRes::default();
match self {
Op::Nop => {}
Op::Label(_) | Op::FarLabel(_) | Op::Routine(_) => {
/* this is nop, but without any cost - just markers */
res.cycles = 0;
}
Op::Barrier(msg) => {
return Err(Fault::Barrier {
msg: msg.clone().unwrap_or_else(|| "BARRIER".into())
});
}
Op::Fault(msg) => {
return Err(Fault::FaultInstr {
msg: msg.clone().unwrap_or_else(|| "FAULT".into())
});
}
Op::FarJump(name) => {
match program.find_far_label(name) {
Ok(pos) => {
frame.pc = pos;
}
Err(e) => {
return Err(e);
}
}
}
Op::Jump(name) => {
match program.find_local_label(frame.pc, name) {
Ok(pos) => {
frame.pc = pos;
}
Err(e) => {
return Err(e);
}
}
}
Op::JumpIf(cond, name) => {
if frame.status.test(*cond) {
match program.find_local_label(frame.pc, name) {
Ok(pos) => {
frame.pc = pos;
}
Err(e) => {
return Err(e);
}
}
}
}
Op::Call(name, args) => {
match program.find_routine(&name) {
Ok(pos) => {
let mut values = Vec::with_capacity(args.len());
for arg in args {
values.push(frame.read(*arg)?);
}
let mut frame2 = StackFrame::new(pos, &values);
std::mem::swap(frame, &mut frame2);
call_stack.push(frame2);
res.advance = 0;
}
Err(e) => {
return Err(e);
}
}
}
Op::Ret(retvals) => {
match call_stack.pop() {
Some(previous) => {
let mut values = Vec::with_capacity(retvals.len());
for arg in retvals {
values.push(frame.read(*arg)?);
}
*frame = previous;
frame.set_retvals(&values);
}
None => {
return Err(Fault::CallStackUnderflow);
}
}
}
Op::Skip(val) => {
let steps = frame.read(*val)?;
res.advance = i64::from_ne_bytes(steps.to_ne_bytes());
program.validate_jump(frame.pc, Addr((frame.pc.0 as i64 + res.advance) as u64))?;
}
Op::SkipIf(cond, val) => {
if frame.status.test(*cond) {
let steps = frame.read(*val)?;
res.advance = i64::from_ne_bytes(steps.to_ne_bytes());
program.validate_jump(frame.pc, Addr((frame.pc.0 as i64 + res.advance) as u64))?;
}
}
Op::Move { dst, src } => {
frame.status.clear();
let val = frame.read(*src)?;
frame.status.update(val);
frame.write(*dst, val)?;
}
Op::StoreStatus { dst } => {
let packed = frame.status.store();
frame.write(*dst, packed)?;
}
Op::LoadStatus { src } => {
let x = frame.read(*src)?;
frame.status.load(x);
}
Op::Extension(xop) => {
xop.execute(&program, call_stack, frame)?;
}
}
Ok(res)
}
}

@ -1,5 +1,8 @@
use crate::asm::instr::{lower, Op}; use std::sync::Arc;
use crate::asm::instr::Op;
use crate::asm::instr::op::AsmModule; use crate::asm::instr::op::AsmModule;
use crate::runtime::program::Program;
pub mod data; pub mod data;
pub mod error; pub mod error;
@ -8,7 +11,7 @@ pub mod parse;
pub mod patches; pub mod patches;
/// Parse a program from string and assemble a low level instruction sequence from it. /// Parse a program from string and assemble a low level instruction sequence from it.
pub fn assemble(source: &str, parsers: &[Box<dyn AsmModule>]) -> Result<Vec<Op>, error::Error> { pub fn assemble(source: &str, parsers: &[Box<dyn AsmModule>]) -> Result<Arc<Program>, error::Error> {
let parsed = parse::parse(source, parsers)?; let ops = parse::parse(source, parsers)?;
Ok(lower(parsed)?) Ok(Program::new(ops))
} }

@ -1,4 +1,5 @@
use sexp::Sexp; use sexp::Sexp;
use crate::asm::data::{Rd, Wr}; use crate::asm::data::{Rd, Wr};
use crate::asm::parse::parse_data::{parse_rd, parse_wr}; use crate::asm::parse::parse_data::{parse_rd, parse_wr};
use crate::asm::parse::sexp_expect::expect_string_atom; use crate::asm::parse::sexp_expect::expect_string_atom;
@ -24,7 +25,7 @@ impl ArgParser {
args.reverse(); args.reverse();
Self { Self {
orig_len: args.len(), orig_len: args.len(),
args args,
} }
} }

@ -4,7 +4,7 @@ pub use parse_instr::parse_instructions;
use parse_routines::parse_routines; use parse_routines::parse_routines;
use crate::asm::error::Error; use crate::asm::error::Error;
use crate::asm::instr::{Flatten, OpWrapper, Routine}; use crate::asm::instr::{Flatten, Op, Routine};
use crate::asm::instr::op::AsmModule; use crate::asm::instr::op::AsmModule;
use crate::asm::parse::sexp_expect::expect_list; use crate::asm::parse::sexp_expect::expect_list;
@ -17,7 +17,7 @@ mod parse_op;
pub mod arg_parser; pub mod arg_parser;
pub fn parse(source: &str, parsers: &[Box<dyn AsmModule>]) -> Result<Vec<OpWrapper>, Error> { pub fn parse(source: &str, parsers: &[Box<dyn AsmModule>]) -> Result<Vec<Op>, Error> {
let root = sexp::parse(source)?; let root = sexp::parse(source)?;
let subs: Vec<Routine> = parse_routines(expect_list(Some(root), true)?, parsers)?; let subs: Vec<Routine> = parse_routines(expect_list(Some(root), true)?, parsers)?;

@ -3,12 +3,12 @@ use sexp::Sexp;
use crate::asm::error::Error; use crate::asm::error::Error;
use crate::asm::instr::Instr; use crate::asm::instr::Instr;
use crate::asm::instr::op::AsmModule; use crate::asm::instr::op::AsmModule;
use crate::asm::parse::arg_parser::ArgParser;
use crate::asm::parse::parse_cond::parse_cond_branch; use crate::asm::parse::parse_cond::parse_cond_branch;
use crate::asm::parse::sexp_expect::{expect_list, expect_string_atom}; use crate::asm::parse::sexp_expect::{expect_list, expect_string_atom};
use crate::asm::patches::SexpIsA; use crate::asm::patches::SexpIsA;
use super::parse_op::parse_op; use super::parse_op::parse_op;
use crate::asm::parse::arg_parser::ArgParser;
pub fn parse_instructions(instrs: Vec<Sexp>, parsers: &[Box<dyn AsmModule>]) -> Result<Vec<Instr>, Error> { pub fn parse_instructions(instrs: Vec<Sexp>, parsers: &[Box<dyn AsmModule>]) -> Result<Vec<Instr>, Error> {
let mut parsed = vec![]; let mut parsed = vec![];

@ -1,20 +1,20 @@
use crate::asm::data::literal::{Label, RoutineName}; use crate::asm::data::literal::{Label, RoutineName};
use crate::asm::error::Error; use crate::asm::error::Error;
use crate::asm::instr::{Op, OpWrapper}; use crate::asm::instr::Op;
use crate::asm::instr::cond::parse_cond; use crate::asm::instr::cond::parse_cond;
use crate::asm::instr::op::{AsmModule, ParseOpResult}; use crate::asm::instr::op::{AsmModule, ParseOpResult};
use crate::asm::parse::arg_parser::ArgParser; use crate::asm::parse::arg_parser::ArgParser;
use crate::asm::parse::parse_data::{parse_label, parse_rd}; use crate::asm::parse::parse_data::{parse_label, parse_rd};
use crate::asm::parse::sexp_expect::expect_string_atom; use crate::asm::parse::sexp_expect::expect_string_atom;
pub fn parse_op(keyword: &str, far: bool, mut arg_tokens: ArgParser, parsers: &[Box<dyn AsmModule>]) -> Result<OpWrapper, Error> { pub fn parse_op(keyword: &str, far: bool, mut arg_tokens: ArgParser, parsers: &[Box<dyn AsmModule>]) -> Result<Op, Error> {
Ok(match keyword { Ok(match keyword {
"j" => { "j" => {
let dest = parse_label(arg_tokens.next())?; let dest = parse_label(arg_tokens.next())?;
if far { if far {
OpWrapper::Op(Op::FarJump(dest)) Op::FarJump(dest)
} else { } else {
OpWrapper::Jump(dest) Op::Jump(dest)
} }
} }
@ -25,7 +25,7 @@ pub fn parse_op(keyword: &str, far: bool, mut arg_tokens: ArgParser, parsers: &[
for t in arg_tokens { for t in arg_tokens {
args.push(parse_rd(Some(t))?); args.push(parse_rd(Some(t))?);
} }
OpWrapper::Op(Op::Call(dest, args)) Op::Call(dest, args)
} }
"ret" => { "ret" => {
@ -33,63 +33,63 @@ pub fn parse_op(keyword: &str, far: bool, mut arg_tokens: ArgParser, parsers: &[
for t in arg_tokens { for t in arg_tokens {
args.push(parse_rd(Some(t))?); args.push(parse_rd(Some(t))?);
} }
OpWrapper::Op(Op::Ret(args)) Op::Ret(args)
} }
"routine" => { "routine" => {
let dest = RoutineName(arg_tokens.next_string()?); let dest = RoutineName(arg_tokens.next_string()?);
OpWrapper::Op(Op::Routine(dest)) Op::Routine(dest)
} }
"s" => { "s" => {
OpWrapper::Op(Op::Skip(arg_tokens.next_rd()?)) Op::Skip(arg_tokens.next_rd()?)
} }
"sif" => { "sif" => {
let cond = parse_cond(&arg_tokens.next_string()?)?; let cond = parse_cond(&arg_tokens.next_string()?)?;
let offs = arg_tokens.next_rd()?; let offs = arg_tokens.next_rd()?;
OpWrapper::Op(Op::SkipIf(cond, offs)) Op::SkipIf(cond, offs)
} }
"jif" => { "jif" => {
let cond = parse_cond(&arg_tokens.next_string()?)?; let cond = parse_cond(&arg_tokens.next_string()?)?;
let dest = parse_label(arg_tokens.next())?; let dest = parse_label(arg_tokens.next())?;
OpWrapper::JumpIf(cond, dest) Op::JumpIf(cond, dest)
} }
"barrier" => { "barrier" => {
OpWrapper::Op(Op::Barrier(match arg_tokens.next() { Op::Barrier(match arg_tokens.next() {
None => None, None => None,
Some(s) => Some(expect_string_atom(Some(s))?.into()), Some(s) => Some(expect_string_atom(Some(s))?.into()),
})) })
} }
"fault" => { "fault" => {
OpWrapper::Op(Op::Fault(match arg_tokens.next() { Op::Fault(match arg_tokens.next() {
None => None, None => None,
Some(s) => Some(expect_string_atom(Some(s))?.into()), Some(s) => Some(expect_string_atom(Some(s))?.into()),
})) })
} }
"ld" => { "ld" => {
OpWrapper::Op(Op::Move { Op::Move {
dst: arg_tokens.next_wr()?, dst: arg_tokens.next_wr()?,
src: arg_tokens.next_rd()?, src: arg_tokens.next_rd()?,
}) }
} }
other => { other => {
if let Some(label) = other.strip_prefix(':') { if let Some(label) = other.strip_prefix(':') {
let label = Label::Named(label.to_string()); let label = Label::Named(label.to_string());
if far { if far {
OpWrapper::Op(Op::FarLabel(label)) Op::FarLabel(label)
} else { } else {
OpWrapper::Label(label) Op::Label(label)
} }
} else { } else {
for p in parsers { for p in parsers {
arg_tokens = match p.parse_op(keyword, arg_tokens) { arg_tokens = match p.parse_op(keyword, arg_tokens) {
Ok(ParseOpResult::Parsed(op)) => return Ok(OpWrapper::Op(Op::Extension(op))), Ok(ParseOpResult::Parsed(op)) => return Ok(Op::Extension(op)),
Ok(ParseOpResult::Unknown(to_reuse)) => { Ok(ParseOpResult::Unknown(to_reuse)) => {
if to_reuse.parsing_started() { if to_reuse.parsing_started() {
panic!("Module \"{}\" started parsing {}, but returned Unknown!", p.name(), keyword); panic!("Module \"{}\" started parsing {}, but returned Unknown!", p.name(), keyword);

@ -1,16 +1,10 @@
use crate::asm::data::literal::Addr; use crate::asm::data::literal::Addr;
use crate::asm::instr::Op; use crate::asm::instr::Op;
use crate::asm::instr::op::{EvalRes, OpTrait};
use crate::runtime::fault::Fault; use crate::runtime::fault::Fault;
use crate::runtime::frame::StackFrame; use crate::runtime::frame::StackFrame;
use crate::runtime::run_thread::RunThread; use crate::runtime::run_thread::RunThread;
pub type CyclesSpent = usize;
pub struct EvalRes {
pub cycles: u8,
pub advance: i64,
}
impl RunThread { impl RunThread {
// TODO unit tests // TODO unit tests
pub fn eval_op(&mut self) -> Result<EvalRes, Fault> { pub fn eval_op(&mut self) -> Result<EvalRes, Fault> {
@ -27,101 +21,7 @@ impl RunThread {
/* Operations can be given different execution times when run in slow mode. */ /* Operations can be given different execution times when run in slow mode. */
/* Presently, all that do anything use 1 cycle. */ /* Presently, all that do anything use 1 cycle. */
match op { op.execute(&self.program, &mut self.call_stack, frame)?;
Op::Nop => {}
Op::FarLabel(_) | Op::Routine(_) => {
/* this is nop, but without any cost - just markers */
cycles = 0;
}
Op::Barrier(msg) => {
return Err(Fault::Barrier {
msg: msg.clone().unwrap_or_else(|| "No msg".into())
});
}
Op::Fault(msg) => {
return Err(Fault::FaultInstr {
msg: msg.clone().unwrap_or_else(|| "No msg".into())
});
}
Op::FarJump(name) => {
debug!("Far jump to {}", name);
match self.program.find_far_label(name) {
Ok(pos) => {
debug!("label is at {}", pos);
self.frame.pc = pos;
}
Err(e) => {
return Err(e);
}
}
}
Op::Call(name, args) => {
debug!("Call routine {}", name);
match self.program.find_routine(name) {
Ok(pos) => {
debug!("routine is at {}", pos);
let mut values = Vec::with_capacity(args.len());
for arg in args {
values.push(self.frame.read(*arg)?);
}
let mut frame2 = StackFrame::new(pos, &values);
std::mem::swap(&mut self.frame, &mut frame2);
self.call_stack.push(frame2);
advance = 0;
}
Err(e) => {
return Err(e);
}
}
}
Op::Ret(retvals) => {
match self.call_stack.pop() {
Some(previous) => {
let mut values = Vec::with_capacity(retvals.len());
for arg in retvals {
values.push(frame.read(*arg)?);
}
*frame = previous;
frame.set_retvals(&values);
advance = 1; // advance past the call
}
None => {
return Err(Fault::CallStackUnderflow);
}
}
}
Op::Skip(val) => {
let steps = frame.read(*val)?;
advance = i64::from_ne_bytes(steps.to_ne_bytes());
self.program.validate_jump(frame.pc, Addr((frame.pc.0 as i64 + advance) as u64))?;
}
Op::SkipIf(cond, val) => {
if frame.status.test(*cond) {
let steps = frame.read(*val)?;
advance = i64::from_ne_bytes(steps.to_ne_bytes());
self.program.validate_jump(frame.pc, Addr((frame.pc.0 as i64 + advance) as u64))?;
}
}
Op::Move { dst, src } => {
frame.status.clear();
let val = frame.read(*src)?;
frame.status.update(val);
frame.write(*dst, val)?;
}
Op::Extension(xop) => {
xop.execute(&self.program, &mut self.call_stack, frame)?;
}
Op::StoreStatus { dst } => {
let packed = frame.status.store();
frame.write(*dst, packed)?;
}
Op::LoadStatus { src } => {
let x = frame.read(*src)?;
frame.status.load(x);
}
}
Ok(EvalRes { Ok(EvalRes {
cycles, cycles,

@ -49,7 +49,7 @@ pub enum Fault {
}, },
#[error("Jump to undefined far label: {label}")] #[error("Jump to undefined far label: {label}")]
NoSuchFarLabel { NoSuchLabel {
label: Label, label: Label,
}, },

@ -1,14 +1,13 @@
use std::collections::HashMap; use std::collections::HashMap;
use std::sync::Arc;
use crate::asm::data::literal::{Addr, Label, RoutineName}; use crate::asm::data::literal::{Addr, Label, RoutineName};
use crate::asm::instr::Op; use crate::asm::instr::Op;
use crate::runtime::fault::Fault; use crate::runtime::fault::Fault;
use std::sync::Arc;
#[derive(Debug)] #[derive(Debug)]
pub struct Program { pub struct Program {
ops: Vec<Op>, pub ops: Vec<Op>,
routines: HashMap<RoutineName, Addr>, routines: HashMap<RoutineName, Addr>,
far_labels: HashMap<Label, Addr>, far_labels: HashMap<Label, Addr>,
barriers: Vec<Addr>, barriers: Vec<Addr>,
@ -82,7 +81,39 @@ impl Program {
/// Find far label by name /// Find far label by name
pub fn find_far_label(&self, name: &Label) -> Result<Addr, Fault> { pub fn find_far_label(&self, name: &Label) -> Result<Addr, Fault> {
self.far_labels.get(name).copied() self.far_labels.get(name).copied()
.ok_or_else(|| Fault::NoSuchFarLabel { label: name.clone() }) .ok_or_else(|| Fault::NoSuchLabel { label: name.clone() })
}
/// Find local label by name (label within a boundary-delimited region).
/// If more than one such label exists, the outcome is undefined.
pub fn find_local_label(&self, pc: Addr, name: &Label) -> Result<Addr, Fault> {
// TODO more efficient impl with look-up
for at in (0..=pc.0).rev() {
match &self.ops[at as usize] {
Op::Label(lbl) if lbl == name => {
return Ok(at.into());
}
Op::Barrier(_) => {
break;
}
_ => {}
}
}
for at in pc.0..(self.ops.len() as u64) {
match &self.ops[at as usize] {
Op::Label(lbl) if lbl == name => {
return Ok(at.into());
}
Op::Barrier(_) => {
break;
}
_ => {}
}
}
Err(Fault::NoSuchLabel { label: name.clone() })
} }
} }

@ -1,14 +1,13 @@
use std::any::{Any, TypeId}; use std::any::{Any, TypeId};
use std::collections::HashMap; use std::collections::HashMap;
use std::sync::Arc;
use std::thread::JoinHandle; use std::thread::JoinHandle;
use std::time::Duration; use std::time::Duration;
use crate::asm::data::literal::Addr; use crate::asm::data::literal::Addr;
use crate::runtime::exec::EvalRes; use crate::asm::instr::op::EvalRes;
use crate::runtime::frame::{CallStack, StackFrame}; use crate::runtime::frame::{CallStack, StackFrame};
use crate::runtime::program::Program; use crate::runtime::program::Program;
use std::sync::Arc;
const CYCLE_TIME: Duration = Duration::from_millis(0); const CYCLE_TIME: Duration = Duration::from_millis(0);
//const CYCLE_TIME : Duration = Duration::from_millis(100); //const CYCLE_TIME : Duration = Duration::from_millis(100);

@ -2,7 +2,7 @@ use std::ops::Rem;
use num_traits::PrimInt; use num_traits::PrimInt;
use crsn::asm::instr::op::OpTrait; use crsn::asm::instr::op::{OpTrait, EvalRes};
use crsn::runtime::fault::Fault; use crsn::runtime::fault::Fault;
use crsn::runtime::frame::{CallStack, StackFrame}; use crsn::runtime::frame::{CallStack, StackFrame};
use crsn::runtime::program::Program; use crsn::runtime::program::Program;
@ -10,7 +10,8 @@ use crsn::runtime::program::Program;
use crate::defs::ArithOp; use crate::defs::ArithOp;
impl OpTrait for ArithOp { impl OpTrait for ArithOp {
fn execute(&self, _program: &Program, _call_stack: &mut CallStack, frame: &mut StackFrame) -> Result<(), Fault> { fn execute(&self, _program: &Program, _call_stack: &mut CallStack, frame: &mut StackFrame) -> Result<EvalRes, Fault> {
let eres = EvalRes::default();
match self { match self {
ArithOp::Test { a } => { ArithOp::Test { a } => {
frame.status.clear(); frame.status.clear();
@ -188,7 +189,7 @@ impl OpTrait for ArithOp {
} }
} }
Ok(()) Ok(eres)
} }
// //
} }

@ -45,7 +45,10 @@ fn main() {
let program = " let program = "
( (
(main (main
(j :lbl)
(ld _ arg0) (ld _ arg0)
(fault)
(:lbl)
(call fibo 5) (call fibo 5)
(ld r0 res0) (ld r0 res0)
) )
@ -69,12 +72,12 @@ fn main() {
let parsed = crsn::asm::assemble(program, parsers.as_slice()).unwrap(); let parsed = crsn::asm::assemble(program, parsers.as_slice()).unwrap();
debug!("---"); debug!("---");
for op in &parsed { for op in &parsed.ops {
debug!("{:?}", op); debug!("{:?}", op);
} }
debug!("---"); debug!("---");
let thread = RunThread::new(ThreadToken(0), Program::new(parsed), Addr(0), &[]); let thread = RunThread::new(ThreadToken(0), parsed, Addr(0), &[]);
thread.start().join().unwrap(); thread.start().join().unwrap();
} }

Loading…
Cancel
Save