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No commits in common. "c5ae0e7c36c233ac7840b7ce1f9f15e4f2dd328b" and "8532bf5206d871987faffca95261f73d9a4efcdb" have entirely different histories.
c5ae0e7c36
...
8532bf5206
|
@ -14,8 +14,8 @@ indexmap = "2.2"
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parking_lot = "0.12"
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rayon = "1.8"
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nac3parser = { path = "../nac3parser" }
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strum = "0.26"
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strum_macros = "0.26"
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strum = "0.26.2"
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strum_macros = "0.26.4"
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[dependencies.inkwell]
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version = "0.4"
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|
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@ -9,7 +9,7 @@ use crate::{
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irrt::*,
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llvm_intrinsics::{
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call_expect, call_float_floor, call_float_pow, call_float_powi, call_int_smax,
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call_int_umin, call_memcpy_generic,
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call_memcpy_generic,
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},
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need_sret, numpy,
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stmt::{
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@ -40,7 +40,6 @@ use nac3parser::ast::{
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self, Boolop, Cmpop, Comprehension, Constant, Expr, ExprKind, Location, Operator, StrRef,
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Unaryop,
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};
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use std::cmp::min;
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use std::iter::{repeat, repeat_with};
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use std::{collections::HashMap, convert::TryInto, iter::once, iter::zip};
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@ -2025,115 +2024,6 @@ pub fn gen_cmpop_expr_with_values<'ctx, G: CodeGenerator>(
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_ => unreachable!(),
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};
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ctx.builder.build_float_compare(op, lhs, rhs, "cmp").unwrap()
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} else if left_ty == ctx.primitives.str {
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assert!(ctx.unifier.unioned(left_ty, right_ty));
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let llvm_i1 = ctx.ctx.bool_type();
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let llvm_i32 = ctx.ctx.i32_type();
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let llvm_usize = generator.get_size_type(ctx.ctx);
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let lhs = lhs.into_struct_value();
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let rhs = rhs.into_struct_value();
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let plhs = generator.gen_var_alloc(ctx, lhs.get_type().into(), None).unwrap();
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ctx.builder.build_store(plhs, lhs).unwrap();
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let prhs = generator.gen_var_alloc(ctx, lhs.get_type().into(), None).unwrap();
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ctx.builder.build_store(prhs, rhs).unwrap();
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let lhs_len = ctx.build_in_bounds_gep_and_load(
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plhs,
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&[llvm_i32.const_zero(), llvm_i32.const_int(1, false)],
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None,
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).into_int_value();
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let rhs_len = ctx.build_in_bounds_gep_and_load(
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prhs,
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&[llvm_i32.const_zero(), llvm_i32.const_int(1, false)],
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None,
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).into_int_value();
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let len = call_int_umin(ctx, lhs_len, rhs_len, None);
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let current_bb = ctx.builder.get_insert_block().unwrap();
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let post_foreach_cmp = ctx.ctx.insert_basic_block_after(current_bb, "foreach.cmp.end");
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ctx.builder.position_at_end(post_foreach_cmp);
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let cmp_phi = ctx.builder.build_phi(llvm_i1, "").unwrap();
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ctx.builder.position_at_end(current_bb);
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gen_for_callback_incrementing(
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generator,
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ctx,
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None,
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llvm_usize.const_zero(),
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(len, false),
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|generator, ctx, _, i| {
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let lhs_char = {
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let plhs_data = ctx.build_in_bounds_gep_and_load(
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plhs,
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&[llvm_i32.const_zero(), llvm_i32.const_zero()],
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None,
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).into_pointer_value();
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ctx.build_in_bounds_gep_and_load(
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plhs_data,
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&[i],
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None
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).into_int_value()
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};
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let rhs_char = {
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let prhs_data = ctx.build_in_bounds_gep_and_load(
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prhs,
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&[llvm_i32.const_zero(), llvm_i32.const_zero()],
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None,
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).into_pointer_value();
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ctx.build_in_bounds_gep_and_load(
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prhs_data,
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&[i],
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None
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).into_int_value()
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};
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gen_if_callback(
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generator,
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ctx,
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|_, ctx| {
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Ok(ctx.builder.build_int_compare(IntPredicate::NE, lhs_char, rhs_char, "").unwrap())
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},
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|_, ctx| {
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let bb = ctx.builder.get_insert_block().unwrap();
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cmp_phi.add_incoming(&[(&llvm_i1.const_zero(), bb)]);
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ctx.builder.build_unconditional_branch(post_foreach_cmp).unwrap();
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Ok(())
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},
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|_, _| Ok(()),
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)?;
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Ok(())
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},
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llvm_usize.const_int(1, false),
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)?;
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let bb = ctx.builder.get_insert_block().unwrap();
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let is_len_eq = ctx.builder.build_int_compare(
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IntPredicate::EQ,
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lhs_len,
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rhs_len,
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"",
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).unwrap();
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cmp_phi.add_incoming(&[(&is_len_eq, bb)]);
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ctx.builder.build_unconditional_branch(post_foreach_cmp).unwrap();
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ctx.builder.position_at_end(post_foreach_cmp);
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let cmp_phi = cmp_phi.as_basic_value().into_int_value();
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// Invert the final value if __ne__
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if *op == Cmpop::NotEq {
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ctx.builder.build_not(cmp_phi, "").unwrap()
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} else {
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cmp_phi
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}
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} else if [left_ty, right_ty]
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.iter()
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.any(|ty| ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::List.id()))
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@ -2304,121 +2194,8 @@ pub fn gen_cmpop_expr_with_values<'ctx, G: CodeGenerator>(
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};
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gen_list_cmpop(generator, ctx)?
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} else if [left_ty, right_ty].iter().any(|ty| matches!(&*ctx.unifier.get_ty_immutable(*ty), TypeEnum::TTuple { .. })) {
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let TypeEnum::TTuple { ty: left_tys, .. } = &*ctx.unifier.get_ty_immutable(left_ty) else {
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return Err(format!("'{}' not supported between instances of '{}' and '{}'", op.op_info().symbol, ctx.unifier.stringify(left_ty), ctx.unifier.stringify(right_ty)))
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};
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let TypeEnum::TTuple { ty: right_tys, .. } = &*ctx.unifier.get_ty_immutable(right_ty) else {
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return Err(format!("'{}' not supported between instances of '{}' and '{}'", op.op_info().symbol, ctx.unifier.stringify(left_ty), ctx.unifier.stringify(right_ty)))
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};
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if ![Cmpop::Eq, Cmpop::NotEq].contains(op) {
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todo!("Only __eq__ and __ne__ is implemented for tuples")
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}
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let llvm_i1 = ctx.ctx.bool_type();
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let llvm_i32 = ctx.ctx.i32_type();
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// Assume `true` by default
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let cmp_addr = generator.gen_var_alloc(ctx, llvm_i1.into(), None).unwrap();
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ctx.builder.build_store(cmp_addr, llvm_i1.const_all_ones()).unwrap();
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let current_bb = ctx.builder.get_insert_block().unwrap();
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let post_foreach_cmp = ctx.ctx.insert_basic_block_after(current_bb, "foreach.cmp.end");
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ctx.builder.position_at_end(post_foreach_cmp);
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let cmp_phi = ctx.builder.build_phi(llvm_i1, "").unwrap();
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ctx.builder.position_at_end(current_bb);
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// Generate comparison between each element
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let min_len = min(left_tys.len(), right_tys.len());
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for i in 0..min_len {
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let current_bb = ctx.builder.get_insert_block().unwrap();
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let bb = ctx.ctx.insert_basic_block_after(current_bb, &format!("foreach.cmp.tuple.{i}e"));
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ctx.builder.build_unconditional_branch(bb).unwrap();
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ctx.builder.position_at_end(bb);
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let left_ty = left_tys[i];
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let left_elem = {
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let plhs = generator.gen_var_alloc(ctx, lhs.get_type(), None).unwrap();
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ctx.builder.build_store(plhs, *lhs).unwrap();
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ctx.build_in_bounds_gep_and_load(
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plhs,
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&[llvm_i32.const_zero(), llvm_i32.const_int(i as u64, false)],
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None,
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)
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};
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let right_ty = right_tys[i];
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let right_elem = {
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let prhs = generator.gen_var_alloc(ctx, rhs.get_type(), None).unwrap();
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ctx.builder.build_store(prhs, *rhs).unwrap();
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ctx.build_in_bounds_gep_and_load(
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prhs,
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&[llvm_i32.const_zero(), llvm_i32.const_int(i as u64, false)],
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None,
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)
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};
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gen_if_callback(
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generator,
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ctx,
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|generator, ctx| {
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// Defer the `not` operation until the end - a != b <=> !(a == b)
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let op = if *op == Cmpop::NotEq { Cmpop::Eq } else { *op };
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let cmp = gen_cmpop_expr_with_values(
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generator,
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ctx,
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(Some(left_ty), left_elem),
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&[op],
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&[(Some(right_ty), right_elem)],
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)
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.transpose()
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.unwrap()
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.and_then(|v| {
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v.to_basic_value_enum(ctx, generator, ctx.primitives.bool)
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})
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.map(BasicValueEnum::into_int_value)?;
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Ok(ctx.builder.build_not(cmp, "").unwrap())
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},
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|_, ctx| {
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let bb = ctx.builder.get_insert_block().unwrap();
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cmp_phi.add_incoming(&[(&llvm_i1.const_zero(), bb)]);
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ctx.builder.build_unconditional_branch(post_foreach_cmp).unwrap();
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Ok(())
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},
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|_, _| Ok(()),
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)?;
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}
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// Length of tuples is checked last as operators do not short-circuit by tuple
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// length in Python:
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//
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// >>> (1, 2) < ("a",)
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// TypeError: '<' not supported between instances of 'int' and 'str'
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let bb = ctx.builder.get_insert_block().unwrap();
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let is_len_eq = llvm_i1.const_int(
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u64::from(left_tys.len() == right_tys.len()),
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false,
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);
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cmp_phi.add_incoming(&[(&is_len_eq, bb)]);
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ctx.builder.build_unconditional_branch(post_foreach_cmp).unwrap();
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ctx.builder.position_at_end(post_foreach_cmp);
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let cmp_phi = cmp_phi.as_basic_value().into_int_value();
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// Invert the final value if __ne__
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if *op == Cmpop::NotEq {
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ctx.builder.build_not(cmp_phi, "").unwrap()
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} else {
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cmp_phi
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}
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} else if [left_ty, right_ty].iter().any(|ty| matches!(&*ctx.unifier.get_ty_immutable(*ty), TypeEnum::TVar { .. })) {
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if ctx.registry.llvm_options.opt_level == OptimizationLevel::None {
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if ctx.registry.llvm_options.opt_level != OptimizationLevel::None {
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ctx.make_assert(
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generator,
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ctx.ctx.bool_type().const_all_ones(),
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|
@ -2431,10 +2208,7 @@ pub fn gen_cmpop_expr_with_values<'ctx, G: CodeGenerator>(
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ctx.ctx.bool_type().get_poison()
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} else {
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return Err(format!("'{}' not supported between instances of '{}' and '{}'",
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op.op_info().symbol,
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ctx.unifier.stringify(left_ty),
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ctx.unifier.stringify(right_ty)))
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unimplemented!()
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};
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Ok(prev?.map(|v| ctx.builder.build_and(v, current, "cmp").unwrap()).or(Some(current)))
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|
|
|
@ -568,8 +568,7 @@ pub fn call_j0<'ctx>(ctx: &CodeGenContext<'ctx, '_>, v: FloatValue<'ctx>) -> Flo
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///
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/// * `dims` - An [`ArrayLikeIndexer`] containing the size of each dimension.
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/// * `range` - The dimension index to begin and end (exclusively) calculating the dimensions for,
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/// or [`None`] if starting from the first dimension and ending at the last dimension
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/// respectively.
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/// or [`None`] if starting from the first dimension and ending at the last dimension respectively.
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pub fn call_ndarray_calc_size<'ctx, G, Dims>(
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generator: &G,
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ctx: &CodeGenContext<'ctx, '_>,
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|
|
|
@ -206,8 +206,7 @@ pub fn call_memcpy_generic<'ctx>(
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/// * `$name:ident`: Optional name to be assigned to the llvm build call (Option<&str>)
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/// * `$llvm_name:literal`: Name of underlying llvm intrinsic function
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/// * `$map_fn:ident`: Mapping function to be applied on `BasicValue` (`BasicValue` -> Function Return Type).
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/// Use `BasicValueEnum::into_int_value` for Integer return type and
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/// `BasicValueEnum::into_float_value` for Float return type
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/// Use `BasicValueEnum::into_int_value` for Integer return type and `BasicValueEnum::into_float_value` for Float return type
|
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/// * `$llvm_ty:ident`: Type of first operand
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/// * `,($val:ident)*`: Comma separated list of operands
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macro_rules! generate_llvm_intrinsic_fn_body {
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|
|
|
@ -580,11 +580,11 @@ fn get_llvm_abi_type<'ctx, G: CodeGenerator + ?Sized>(
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) -> BasicTypeEnum<'ctx> {
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// If the type is used in the definition of a function, return `i1` instead of `i8` for ABI
|
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// consistency.
|
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if unifier.unioned(ty, primitives.bool) {
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return if unifier.unioned(ty, primitives.bool) {
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ctx.bool_type().into()
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} else {
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get_llvm_type(ctx, module, generator, unifier, top_level, type_cache, ty)
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}
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||||
};
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}
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/// Whether `sret` is needed for a return value with type `ty`.
|
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|
|
|
@ -2144,8 +2144,7 @@ pub fn ndarray_transpose<'ctx, G: CodeGenerator + ?Sized>(
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/// 1. A list of `int32`; e.g., `np.reshape(arr, [600, -1, 3])`
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/// 2. A tuple of `int32`; e.g., `np.reshape(arr, (-1, 800, 3))`
|
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/// 3. A scalar `int32`; e.g., `np.reshape(arr, 3)`
|
||||
///
|
||||
/// Note that unlike other generating functions, one of the dimensions in the shape can be negative.
|
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/// Note that unlike other generating functions, one of the dimesions in the shape can be negative
|
||||
pub fn ndarray_reshape<'ctx, G: CodeGenerator + ?Sized>(
|
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generator: &mut G,
|
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ctx: &mut CodeGenContext<'ctx, '_>,
|
||||
|
|
|
@ -680,7 +680,6 @@ pub fn set_primitives_magic_methods(store: &PrimitiveStore, unifier: &mut Unifie
|
|||
bool: bool_t,
|
||||
uint32: uint32_t,
|
||||
uint64: uint64_t,
|
||||
str: str_t,
|
||||
list: list_t,
|
||||
ndarray: ndarray_t,
|
||||
..
|
||||
|
@ -726,9 +725,6 @@ pub fn set_primitives_magic_methods(store: &PrimitiveStore, unifier: &mut Unifie
|
|||
impl_sign(unifier, store, bool_t, Some(int32_t));
|
||||
impl_eq(unifier, store, bool_t, &[bool_t, ndarray_bool_t], None);
|
||||
|
||||
/* str ========= */
|
||||
impl_cmpop(unifier, store, str_t, &[str_t], &[Cmpop::Eq, Cmpop::NotEq], Some(bool_t));
|
||||
|
||||
/* list ======== */
|
||||
impl_binop(unifier, store, list_t, &[list_t], Some(list_t), &[Operator::Add]);
|
||||
impl_binop(unifier, store, list_t, &[int32_t, int64_t], Some(list_t), &[Operator::Mult]);
|
||||
|
|
|
@ -1,11 +1,3 @@
|
|||
use super::magic_methods::{Binop, HasOpInfo};
|
||||
use super::type_error::{TypeError, TypeErrorKind};
|
||||
use super::unification_table::{UnificationKey, UnificationTable};
|
||||
use crate::symbol_resolver::SymbolValue;
|
||||
use crate::toplevel::helper::PrimDef;
|
||||
use crate::toplevel::{DefinitionId, TopLevelContext, TopLevelDef};
|
||||
use crate::typecheck::magic_methods::OpInfo;
|
||||
use crate::typecheck::type_inferencer::PrimitiveStore;
|
||||
use indexmap::IndexMap;
|
||||
use itertools::{repeat_n, Itertools};
|
||||
use nac3parser::ast::{Cmpop, Location, StrRef, Unaryop};
|
||||
|
@ -17,6 +9,15 @@ use std::rc::Rc;
|
|||
use std::sync::{Arc, Mutex};
|
||||
use std::{borrow::Cow, collections::HashSet};
|
||||
|
||||
use super::magic_methods::Binop;
|
||||
use super::type_error::{TypeError, TypeErrorKind};
|
||||
use super::unification_table::{UnificationKey, UnificationTable};
|
||||
use crate::symbol_resolver::SymbolValue;
|
||||
use crate::toplevel::helper::PrimDef;
|
||||
use crate::toplevel::{DefinitionId, TopLevelContext, TopLevelDef};
|
||||
use crate::typecheck::magic_methods::OpInfo;
|
||||
use crate::typecheck::type_inferencer::PrimitiveStore;
|
||||
|
||||
#[cfg(test)]
|
||||
mod test;
|
||||
|
||||
|
@ -1007,18 +1008,8 @@ impl Unifier {
|
|||
self.unify_impl(v.ty, ty[ind as usize], false)
|
||||
.map_err(|e| e.at(v.loc))?;
|
||||
}
|
||||
RecordKey::Str(s) => {
|
||||
let tuple_fns = [
|
||||
Cmpop::Eq.op_info().method_name,
|
||||
Cmpop::NotEq.op_info().method_name,
|
||||
];
|
||||
|
||||
if !tuple_fns.into_iter().any(|op| s.to_string() == op) {
|
||||
return Err(TypeError::new(
|
||||
TypeErrorKind::NoSuchField(*k, b),
|
||||
v.loc,
|
||||
));
|
||||
}
|
||||
RecordKey::Str(_) => {
|
||||
return Err(TypeError::new(TypeErrorKind::NoSuchField(*k, b), v.loc))
|
||||
}
|
||||
}
|
||||
}
|
||||
|
|
|
@ -1,30 +0,0 @@
|
|||
@extern
|
||||
def output_bool(x: bool):
|
||||
...
|
||||
|
||||
|
||||
def str_eq():
|
||||
output_bool("" == "")
|
||||
output_bool("a" == "")
|
||||
output_bool("a" == "b")
|
||||
output_bool("b" == "a")
|
||||
output_bool("a" == "a")
|
||||
output_bool("test string" == "test string")
|
||||
output_bool("test string1" == "test string2")
|
||||
|
||||
|
||||
def str_ne():
|
||||
output_bool("" != "")
|
||||
output_bool("a" != "")
|
||||
output_bool("a" != "b")
|
||||
output_bool("b" != "a")
|
||||
output_bool("a" != "a")
|
||||
output_bool("test string" != "test string")
|
||||
output_bool("test string1" != "test string2")
|
||||
|
||||
|
||||
def run() -> int32:
|
||||
str_eq()
|
||||
str_ne()
|
||||
|
||||
return 0
|
|
@ -1,7 +1,3 @@
|
|||
@extern
|
||||
def output_bool(b: bool):
|
||||
...
|
||||
|
||||
@extern
|
||||
def output_int32_list(x: list[int32]):
|
||||
...
|
||||
|
@ -17,41 +13,6 @@ class A:
|
|||
self.a = a
|
||||
self.b = b
|
||||
|
||||
|
||||
def test_tuple_eq():
|
||||
# 0-len
|
||||
output_bool(() == ())
|
||||
# 1-len
|
||||
output_bool((1,) == ())
|
||||
output_bool(() == (1,))
|
||||
output_bool((1,) == (1,))
|
||||
output_bool((1,) == (2,))
|
||||
# # 2-len
|
||||
output_bool((1, 2) == ())
|
||||
output_bool(() == (1, 2))
|
||||
output_bool((1,) == (1, 2))
|
||||
output_bool((1, 2) == (1,))
|
||||
output_bool((2, 2) == (1, 2))
|
||||
output_bool((1, 2) == (2, 2))
|
||||
|
||||
|
||||
def test_tuple_ne():
|
||||
# 0-len
|
||||
output_bool(() != ())
|
||||
# 1-len
|
||||
output_bool((1,) != ())
|
||||
output_bool(() != (1,))
|
||||
output_bool((1,) != (1,))
|
||||
output_bool((1,) != (2,))
|
||||
# 2-len
|
||||
output_bool((1, 2) != ())
|
||||
output_bool(() != (1, 2))
|
||||
output_bool((1,) != (1, 2))
|
||||
output_bool((1, 2) != (1,))
|
||||
output_bool((2, 2) != (1, 2))
|
||||
output_bool((1, 2) != (2, 2))
|
||||
|
||||
|
||||
def run() -> int32:
|
||||
data = [0, 1, 2, 3]
|
||||
|
||||
|
@ -72,7 +33,4 @@ def run() -> int32:
|
|||
output_int32(len((1, 2, 3, 4)))
|
||||
output_int32(len((1, 2, 3, 4, 5)))
|
||||
|
||||
test_tuple_eq()
|
||||
test_tuple_ne()
|
||||
|
||||
return 0
|
Loading…
Reference in New Issue