forked from M-Labs/nac3
parent
b638d1b4b0
commit
4a65d82db5
1
Cargo.lock
generated
1
Cargo.lock
generated
@ -513,6 +513,7 @@ dependencies = [
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"nac3parser",
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"parking_lot",
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"rayon",
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"regex",
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"test-case",
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]
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@ -21,6 +21,7 @@ use parking_lot::{Mutex, RwLock};
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use nac3core::{
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codegen::{concrete_type::ConcreteTypeStore, CodeGenTask, WithCall, WorkerRegistry},
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codegen::irrt::load_irrt,
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symbol_resolver::SymbolResolver,
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toplevel::{composer::{TopLevelComposer, ComposerConfig}, DefinitionId, GenCall, TopLevelDef},
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typecheck::typedef::{FunSignature, FuncArg},
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@ -588,6 +589,8 @@ impl Nac3 {
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main.link_in_module(other)
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.map_err(|err| exceptions::PyRuntimeError::new_err(err.to_string()))?;
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}
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main.link_in_module(load_irrt(&context))
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.map_err(|err| exceptions::PyRuntimeError::new_err(err.to_string()))?;
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let mut function_iter = main.get_first_function();
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while let Some(func) = function_iter {
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@ -20,3 +20,6 @@ features = ["llvm13-0", "target-x86", "target-arm", "target-riscv", "no-libffi-l
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test-case = "1.2.0"
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indoc = "1.0"
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insta = "1.5"
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[build-dependencies]
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regex = "1"
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54
nac3core/build.rs
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54
nac3core/build.rs
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@ -0,0 +1,54 @@
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use regex::Regex;
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use std::{
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env,
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io::Write,
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process::{Command, Stdio},
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};
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fn main() {
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let out_dir = env::var("OUT_DIR").unwrap();
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const FILE: &str = "src/codegen/irrt/irrt.c";
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println!("cargo:rerun-if-changed={}", FILE);
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const FLAG: &[&str] = &[
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FILE,
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"-O3",
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"-emit-llvm",
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"-S",
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"-Wall",
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"-Wextra",
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"-Wno-implicit-function-declaration",
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"-o",
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"-",
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];
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let output = Command::new("clang")
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.args(FLAG)
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.output()
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.map(|o| {
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assert!(o.status.success(), "{}", std::str::from_utf8(&o.stderr).unwrap());
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o
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})
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.unwrap();
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let output = std::str::from_utf8(&output.stdout).unwrap();
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let mut filtered_output = String::with_capacity(output.len());
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let regex_filter = regex::Regex::new(r"(?ms:^define.*?\}$)|(?m:^declare.*?$)").unwrap();
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for f in regex_filter.captures_iter(output) {
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assert!(f.len() == 1);
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filtered_output.push_str(&f[0]);
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filtered_output.push('\n');
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}
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let filtered_output = Regex::new("(#\\d+)|(, *![0-9A-Za-z.]+)|(![0-9A-Za-z.]+)|(!\".*?\")")
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.unwrap()
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.replace_all(&filtered_output, "");
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let mut llvm_as = Command::new("llvm-as")
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.stdin(Stdio::piped())
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.arg("-o")
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.arg(&format!("{}/irrt.bc", out_dir))
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.spawn()
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.unwrap();
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llvm_as.stdin.as_mut().unwrap().write_all(filtered_output.as_bytes()).unwrap();
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assert!(llvm_as.wait().unwrap().success())
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}
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@ -3,7 +3,9 @@ use std::{collections::HashMap, convert::TryInto, iter::once};
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use crate::{
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codegen::{
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concrete_type::{ConcreteFuncArg, ConcreteTypeEnum, ConcreteTypeStore},
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get_llvm_type, CodeGenContext, CodeGenTask,
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get_llvm_type,
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irrt::integer_power,
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CodeGenContext, CodeGenTask,
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},
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symbol_resolver::{SymbolValue, ValueEnum},
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toplevel::{DefinitionId, TopLevelDef},
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@ -186,8 +188,8 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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Operator::LShift => self.builder.build_left_shift(lhs, rhs, "lshift").into(),
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Operator::RShift => self.builder.build_right_shift(lhs, rhs, true, "rshift").into(),
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Operator::FloorDiv => self.builder.build_int_signed_div(lhs, rhs, "floordiv").into(),
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Operator::Pow => integer_power(self, lhs, rhs).into(),
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// special implementation?
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Operator::Pow => unimplemented!(),
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Operator::MatMult => unreachable!(),
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}
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}
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@ -205,6 +207,7 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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} else {
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unreachable!()
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};
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let float = self.ctx.f64_type();
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match op {
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Operator::Add => self.builder.build_float_add(lhs, rhs, "fadd").into(),
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Operator::Sub => self.builder.build_float_sub(lhs, rhs, "fsub").into(),
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@ -215,7 +218,6 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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let div = self.builder.build_float_div(lhs, rhs, "fdiv");
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let floor_intrinsic =
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self.module.get_function("llvm.floor.f64").unwrap_or_else(|| {
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let float = self.ctx.f64_type();
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let fn_type = float.fn_type(&[float.into()], false);
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self.module.add_function("llvm.floor.f64", fn_type, None)
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});
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@ -225,6 +227,16 @@ impl<'ctx, 'a> CodeGenContext<'ctx, 'a> {
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.left()
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.unwrap()
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}
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Operator::Pow => {
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let pow_intrinsic = self.module.get_function("llvm.pow.f64").unwrap_or_else(|| {
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let fn_type = float.fn_type(&[float.into(), float.into()], false);
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self.module.add_function("llvm.pow.f64", fn_type, None)
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});
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self.builder
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.build_call(pow_intrinsic, &[lhs.into(), rhs.into()], "f_pow")
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.try_as_basic_value()
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.unwrap_left()
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}
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// special implementation?
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_ => unimplemented!(),
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}
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@ -630,6 +642,47 @@ pub fn gen_comprehension<'ctx, 'a, G: CodeGenerator>(
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}
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}
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pub fn gen_binop_expr<'ctx, 'a, G: CodeGenerator>(
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generator: &mut G,
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ctx: &mut CodeGenContext<'ctx, 'a>,
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left: &Expr<Option<Type>>,
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op: &Operator,
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right: &Expr<Option<Type>>,
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) -> ValueEnum<'ctx> {
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let ty1 = ctx.unifier.get_representative(left.custom.unwrap());
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let ty2 = ctx.unifier.get_representative(right.custom.unwrap());
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let left = generator.gen_expr(ctx, left).unwrap().to_basic_value_enum(ctx, generator);
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let right = generator.gen_expr(ctx, right).unwrap().to_basic_value_enum(ctx, generator);
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// we can directly compare the types, because we've got their representatives
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// which would be unchanged until further unification, which we would never do
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// when doing code generation for function instances
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if ty1 == ty2 && [ctx.primitives.int32, ctx.primitives.int64].contains(&ty1) {
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ctx.gen_int_ops(op, left, right)
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} else if ty1 == ty2 && ctx.primitives.float == ty1 {
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ctx.gen_float_ops(op, left, right)
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} else if ty1 == ctx.primitives.float && ty2 == ctx.primitives.int32 {
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// Pow is the only operator that would pass typecheck between float and int
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assert!(*op == Operator::Pow);
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// TODO: throw exception when rhs is out of i16 bound
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// since llvm intrinsic only support to i16 for f64
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let i16_t = ctx.ctx.i16_type();
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let pow_intr = ctx.module.get_function("llvm.powi.f64.i16").unwrap_or_else(|| {
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let f64_t = ctx.ctx.f64_type();
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let ty = f64_t.fn_type(&[f64_t.into(), i16_t.into()], false);
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ctx.module.add_function("llvm.powi.f64.i16", ty, None)
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});
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let right = ctx.builder.build_int_truncate(right.into_int_value(), i16_t, "r_pow");
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ctx.builder
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.build_call(pow_intr, &[left.into(), right.into()], "f_pow_i")
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.try_as_basic_value()
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.unwrap_left()
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} else {
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unimplemented!()
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}
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.into()
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}
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pub fn gen_expr<'ctx, 'a, G: CodeGenerator>(
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generator: &mut G,
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ctx: &mut CodeGenContext<'ctx, 'a>,
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@ -766,24 +819,7 @@ pub fn gen_expr<'ctx, 'a, G: CodeGenerator>(
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phi.add_incoming(&[(&a, a_bb), (&b, b_bb)]);
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phi.as_basic_value().into()
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}
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ExprKind::BinOp { op, left, right } => {
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let ty1 = ctx.unifier.get_representative(left.custom.unwrap());
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let ty2 = ctx.unifier.get_representative(right.custom.unwrap());
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let left = generator.gen_expr(ctx, left).unwrap().to_basic_value_enum(ctx, generator);
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let right = generator.gen_expr(ctx, right).unwrap().to_basic_value_enum(ctx, generator);
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// we can directly compare the types, because we've got their representatives
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// which would be unchanged until further unification, which we would never do
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// when doing code generation for function instances
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if ty1 == ty2 && [ctx.primitives.int32, ctx.primitives.int64].contains(&ty1) {
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ctx.gen_int_ops(op, left, right)
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} else if ty1 == ty2 && ctx.primitives.float == ty1 {
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ctx.gen_float_ops(op, left, right)
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} else {
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unimplemented!()
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}
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.into()
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}
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ExprKind::BinOp { op, left, right } => gen_binop_expr(generator, ctx, left, op, right),
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ExprKind::UnaryOp { op, operand } => {
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let ty = ctx.unifier.get_representative(operand.custom.unwrap());
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let val = generator.gen_expr(ctx, operand).unwrap().to_basic_value_enum(ctx, generator);
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25
nac3core/src/codegen/irrt/irrt.c
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25
nac3core/src/codegen/irrt/irrt.c
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@ -0,0 +1,25 @@
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typedef _ExtInt(8) int8_t;
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typedef unsigned _ExtInt(8) uint8_t;
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typedef _ExtInt(32) int32_t;
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typedef unsigned _ExtInt(32) uint32_t;
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typedef _ExtInt(64) int64_t;
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typedef unsigned _ExtInt(64) uint64_t;
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// adapted from GNU Scientific Library: https://git.savannah.gnu.org/cgit/gsl.git/tree/sys/pow_int.c
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// need to make sure `exp >= 0` before calling this function
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#define DEF_INT_EXP(T) T __nac3_irrt_int_exp_##T( \
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T base, \
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T exp \
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) { \
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T res = (T)1; \
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/* repeated squaring method */ \
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do { \
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if (exp & 1) res *= base; /* for n odd */ \
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exp >>= 1; \
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base *= base; \
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} while (exp); \
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return res; \
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} \
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DEF_INT_EXP(int32_t)
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DEF_INT_EXP(int64_t)
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48
nac3core/src/codegen/irrt/mod.rs
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48
nac3core/src/codegen/irrt/mod.rs
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@ -0,0 +1,48 @@
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use super::CodeGenContext;
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use inkwell::{
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context::Context,
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attributes::AttributeLoc,
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memory_buffer::MemoryBuffer,
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module::Module,
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values::IntValue,
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};
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pub fn load_irrt<'ctx>(ctx: &'ctx Context) -> Module<'ctx> {
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let bitcode_buf = MemoryBuffer::create_from_memory_range(
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include_bytes!(concat!(env!("OUT_DIR"), "/irrt.bc")),
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"irrt_bitcode_buffer",
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);
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let irrt_mod = Module::parse_bitcode_from_buffer(&bitcode_buf, ctx).unwrap();
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// add alwaysinline attributes to power function to help them get inlined
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// alwaysinline enum = 1, see release/13.x/llvm/include/llvm/IR/Attributes.td
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for symbol in &["__nac3_irrt_int_exp_int32_t", "__nac3_irrt_int_exp_int64_t"] {
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let function = irrt_mod.get_function(symbol).unwrap();
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function.add_attribute(AttributeLoc::Function, ctx.create_enum_attribute(1, 0));
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}
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return irrt_mod;
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}
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// repeated squaring method adapted from GNU Scientific Library:
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// https://git.savannah.gnu.org/cgit/gsl.git/tree/sys/pow_int.c
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pub fn integer_power<'ctx, 'a>(
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ctx: &mut CodeGenContext<'ctx, 'a>,
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base: IntValue<'ctx>,
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exp: IntValue<'ctx>,
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) -> IntValue<'ctx> {
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let symbol = match (base.get_type().get_bit_width(), exp.get_type().get_bit_width()) {
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(32, 32) => "__nac3_irrt_int_exp_int32_t",
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(64, 64) => "__nac3_irrt_int_exp_int64_t",
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_ => unreachable!(),
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};
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let base_type = base.get_type();
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let pow_fun = ctx.module.get_function(symbol).unwrap_or_else(|| {
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let fn_type = base_type.fn_type(&[base_type.into(), base_type.into()], false);
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ctx.module.add_function(symbol, fn_type, None)
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});
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// TODO: throw exception when exp < 0
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ctx.builder
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.build_call(pow_fun, &[base.into(), exp.into()], "call_int_pow")
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.try_as_basic_value()
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.unwrap_left()
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.into_int_value()
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}
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@ -31,6 +31,7 @@ pub mod concrete_type;
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pub mod expr;
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mod generator;
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pub mod stmt;
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pub mod irrt;
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#[cfg(test)]
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mod test;
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@ -1,7 +1,10 @@
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use super::{
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super::symbol_resolver::ValueEnum, expr::destructure_range, CodeGenContext, CodeGenerator,
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};
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use crate::typecheck::typedef::Type;
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use crate::{
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codegen::expr::gen_binop_expr,
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typecheck::typedef::Type,
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};
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use inkwell::{
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types::BasicTypeEnum,
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values::{BasicValue, BasicValueEnum, PointerValue},
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@ -417,26 +420,8 @@ pub fn gen_stmt<'ctx, 'a, G: CodeGenerator>(
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StmtKind::For { .. } => return generator.gen_for(ctx, stmt),
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StmtKind::With { .. } => return generator.gen_with(ctx, stmt),
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StmtKind::AugAssign { target, op, value, .. } => {
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let value = {
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let ty1 = ctx.unifier.get_representative(target.custom.unwrap());
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let ty2 = ctx.unifier.get_representative(value.custom.unwrap());
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let left =
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generator.gen_expr(ctx, target).unwrap().to_basic_value_enum(ctx, generator);
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let right =
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generator.gen_expr(ctx, value).unwrap().to_basic_value_enum(ctx, generator);
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// we can directly compare the types, because we've got their representatives
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// which would be unchanged until further unification, which we would never do
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// when doing code generation for function instances
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if ty1 == ty2 && [ctx.primitives.int32, ctx.primitives.int64].contains(&ty1) {
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ctx.gen_int_ops(op, left, right)
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} else if ty1 == ty2 && ctx.primitives.float == ty1 {
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ctx.gen_float_ops(op, left, right)
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} else {
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unimplemented!()
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}
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};
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generator.gen_assign(ctx, target, value.into());
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let value = gen_binop_expr(generator, ctx, target, op, value);
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generator.gen_assign(ctx, target, value);
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}
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_ => unimplemented!(),
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};
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@ -183,7 +183,7 @@ pub fn impl_cmpop(
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}
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}
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/// Add, Sub, Mult, Pow
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/// Add, Sub, Mult
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pub fn impl_basic_arithmetic(
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unifier: &mut Unifier,
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store: &PrimitiveStore,
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@ -201,6 +201,7 @@ pub fn impl_basic_arithmetic(
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)
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}
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/// Pow
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pub fn impl_pow(
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unifier: &mut Unifier,
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store: &PrimitiveStore,
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Block a user