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nac3/nac3artiq/src/lib.rs

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Rust
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use std::fs;
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use std::collections::{HashMap, HashSet};
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use std::sync::Arc;
use std::path::Path;
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use std::process::Command;
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use pyo3::prelude::*;
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use pyo3::exceptions;
use rustpython_parser::{ast, parser};
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use inkwell::{
passes::{PassManager, PassManagerBuilder},
targets::*,
OptimizationLevel,
};
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use nac3core::typecheck::type_inferencer::PrimitiveStore;
use nac3core::{
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codegen::{CodeGenTask, WithCall, WorkerRegistry, GenCall},
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symbol_resolver::SymbolResolver,
toplevel::{composer::TopLevelComposer, TopLevelContext, TopLevelDef},
typecheck::typedef::{FunSignature, FuncArg},
};
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mod symbol_resolver;
use symbol_resolver::*;
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#[derive(Clone, Copy)]
enum Isa {
RiscV,
CortexA9
}
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// TODO: do we really want unsendable?
// TopLevelComposer causes a lot of problems for Send.
#[pyclass(unsendable,name="NAC3")]
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struct Nac3 {
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isa: Isa,
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primitive: PrimitiveStore,
internal_resolver: Arc<ResolverInternal>,
resolver: Arc<Box<dyn SymbolResolver + Send + Sync>>,
composer: TopLevelComposer,
top_level: Option<Arc<TopLevelContext>>,
registered_module_ids: HashSet<u64>
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}
#[pymethods]
impl Nac3 {
#[new]
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fn new(isa: &str) -> PyResult<Self> {
let isa = match isa {
"riscv" => Isa::RiscV,
"cortexa9" => Isa::CortexA9,
_ => return Err(exceptions::PyValueError::new_err("invalid ISA"))
};
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let primitive: PrimitiveStore = TopLevelComposer::make_primitives().0;
let (composer, builtins_def, builtins_ty) = TopLevelComposer::new(vec![
("output_int".into(), FunSignature {
args: vec![FuncArg {
name: "x".into(),
ty: primitive.int32,
default_value: None,
}],
ret: primitive.none,
vars: HashMap::new(),
}),
]);
let internal_resolver: Arc<ResolverInternal> = ResolverInternal {
id_to_type: builtins_ty.into(),
id_to_def: builtins_def.into(),
class_names: Default::default(),
}.into();
let resolver = Arc::new(
Box::new(Resolver(internal_resolver.clone())) as Box<dyn SymbolResolver + Send + Sync>
);
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Ok(Nac3 {
isa,
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primitive,
internal_resolver,
resolver,
composer,
top_level: None,
registered_module_ids: HashSet::new()
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})
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}
fn register_module(&mut self, obj: PyObject) -> PyResult<()> {
let module_info = Python::with_gil(|py| -> PyResult<Option<(String, String)>> {
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let obj: &PyAny = obj.extract(py)?;
let builtins = PyModule::import(py, "builtins")?;
let id = builtins.getattr("id")?.call1((obj, ))?.extract()?;
if self.registered_module_ids.insert(id) {
Ok(Some((obj.getattr("__name__")?.extract()?, obj.getattr("__file__")?.extract()?)))
} else {
Ok(None)
}
})?;
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if let Some((module_name, source_file)) = module_info {
let source = fs::read_to_string(source_file).map_err(|e|
exceptions::PyIOError::new_err(format!("failed to read input file: {}", e)))?;
let parser_result = parser::parse_program(&source).map_err(|e|
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exceptions::PySyntaxError::new_err(format!("failed to parse host object source: {}", e)))?;
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for mut stmt in parser_result.into_iter() {
let include = match stmt.node {
ast::StmtKind::ClassDef { ref decorator_list, ref mut body, .. } => {
let kernels = decorator_list.iter().any(|decorator| if let ast::ExprKind::Name { id, .. } = decorator.node
{ id.to_string() == "kernel" || id.to_string() == "portable" } else { false });
body.retain(|stmt| {
if let ast::StmtKind::FunctionDef { ref decorator_list, .. } = stmt.node {
decorator_list.iter().any(|decorator| if let ast::ExprKind::Name { id, .. } = decorator.node
{ id.to_string() == "kernel" || id.to_string() == "portable" } else { false })
} else {
true
}
});
kernels
},
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ast::StmtKind::FunctionDef { ref decorator_list, .. } => {
decorator_list.iter().any(|decorator| if let ast::ExprKind::Name { id, .. } = decorator.node
{ id.to_string() == "extern" || id.to_string() == "portable" } else { false })
},
_ => false
};
if include {
let (name, def_id, ty) = self.composer.register_top_level(
stmt,
Some(self.resolver.clone()),
module_name.clone(),
).unwrap();
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self.internal_resolver.add_id_def(name.clone(), def_id);
if let Some(ty) = ty {
self.internal_resolver.add_id_type(name, ty);
}
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}
}
}
Ok(())
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}
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fn analyze(&mut self) -> PyResult<()> {
self.composer.start_analysis(true).unwrap();
self.top_level = Some(Arc::new(self.composer.make_top_level_context()));
Ok(())
}
fn compile_method(&mut self, class_name: String, method_name: String) -> PyResult<()> {
let top_level = self.top_level.as_ref().unwrap();
let instance = {
let defs = top_level.definitions.read();
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let class_def = defs[self.resolver.get_identifier_def(class_name.into()).unwrap().0].write();
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let mut method_def = if let TopLevelDef::Class { methods, .. } = &*class_def {
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if let Some((_name, _unification_key, definition_id)) = methods.iter().find(|method| method.0.to_string() == method_name) {
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defs[definition_id.0].write()
} else {
return Err(exceptions::PyValueError::new_err("method not found"));
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}
} else {
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return Err(exceptions::PyTypeError::new_err("parent object is not a class"));
};
// FIXME: what is this for? What happens if the kernel is called twice?
if let TopLevelDef::Function {
instance_to_stmt,
instance_to_symbol,
..
} = &mut *method_def
{
instance_to_symbol.insert("".to_string(), method_name.clone());
instance_to_stmt[""].clone()
} else {
unreachable!()
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}
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};
let signature = FunSignature {
args: vec![],
ret: self.primitive.none,
vars: HashMap::new(),
};
let task = CodeGenTask {
subst: Default::default(),
symbol_name: "__modinit__".to_string(),
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body: instance.body,
signature,
resolver: self.resolver.clone(),
unifier: top_level.unifiers.read()[instance.unifier_id].clone(),
calls: instance.calls,
};
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let isa = self.isa;
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let f = Arc::new(WithCall::new(Box::new(move |module| {
let builder = PassManagerBuilder::create();
builder.set_optimization_level(OptimizationLevel::Aggressive);
let passes = PassManager::create(());
builder.populate_module_pass_manager(&passes);
passes.run_on(module);
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let (triple, features) = match isa {
Isa::RiscV => (TargetTriple::create("riscv32-unknown-linux"), "+a,+m"),
Isa::CortexA9 => (TargetTriple::create("armv7-unknown-linux-gnueabihf"), "+dsp,+fp16,+neon,+vfp3"),
};
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let target =
Target::from_triple(&triple).expect("couldn't create target from target triple");
let target_machine = target
.create_target_machine(
&triple,
"",
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features,
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OptimizationLevel::Default,
RelocMode::PIC,
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CodeModel::Default,
)
.expect("couldn't create target machine");
target_machine
.write_to_file(module, FileType::Object, Path::new(&format!("{}.o", module.get_name().to_str().unwrap())))
.expect("couldn't write module to file");
})));
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let external_codegen = Arc::new(GenCall::new(Box::new(|_, _, _, _| unimplemented!()), HashSet::new()));
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let thread_names: Vec<String> = (0..4).map(|i| format!("module{}", i)).collect();
let threads: Vec<_> = thread_names.iter().map(|s| s.as_str()).collect();
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let (registry, handles) = WorkerRegistry::create_workers(&threads, top_level.clone(), f, external_codegen);
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registry.add_task(task);
registry.wait_tasks_complete(handles);
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let mut linker_args = vec![
"-shared".to_string(),
"--eh-frame-hdr".to_string(),
"-Tkernel.ld".to_string(),
"-x".to_string(),
"-o".to_string(),
"module.elf".to_string()
];
linker_args.extend(thread_names.iter().map(|name| name.to_owned() + ".o"));
if let Ok(linker_status) = Command::new("ld.lld").args(linker_args).status() {
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if !linker_status.success() {
return Err(exceptions::PyRuntimeError::new_err("failed to start linker"));
}
} else {
return Err(exceptions::PyRuntimeError::new_err("linker returned non-zero status code"));
}
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Ok(())
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}
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}
#[pymodule]
fn nac3artiq(_py: Python, m: &PyModule) -> PyResult<()> {
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Target::initialize_all(&InitializationConfig::default());
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m.add_class::<Nac3>()?;
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Ok(())
}