3 files changed, 79 insertions, 8 deletions
diff --git a/crates/hir_def/src/body/lower.rs b/crates/hir_def/src/body/lower.rs
index 9f278d35b..2a7e0205f 100644
--- a/crates/hir_def/src/body/lower.rs
+++ b/crates/hir_def/src/body/lower.rs
@@ -1006,23 +1006,27 @@ impl From<ast::BinOp> for BinaryOp {
 impl From<ast::LiteralKind> for Literal {
    fn from(ast_lit_kind: ast::LiteralKind) -> Self {
        match ast_lit_kind {
+            // FIXME: these should have actual values filled in, but unsure on perf impact
            LiteralKind::IntNumber(lit) => {
                if let builtin @ Some(_) = lit.suffix().and_then(BuiltinFloat::from_suffix) {
                    return Literal::Float(Default::default(), builtin);
                } else if let builtin @ Some(_) =
                    lit.suffix().and_then(|it| BuiltinInt::from_suffix(&it))
                {
-                    Literal::Int(Default::default(), builtin)
+                    Literal::Int(lit.value().unwrap_or(0) as i128, builtin)
                } else {
                    let builtin = lit.suffix().and_then(|it| BuiltinUint::from_suffix(&it));
-                    Literal::Uint(Default::default(), builtin)
+                    Literal::Uint(lit.value().unwrap_or(0), builtin)
                }
            }
            LiteralKind::FloatNumber(lit) => {
                let ty = lit.suffix().and_then(|it| BuiltinFloat::from_suffix(&it));
                Literal::Float(Default::default(), ty)
            }
-            LiteralKind::ByteString(_) => Literal::ByteString(Default::default()),
+            LiteralKind::ByteString(bs) => {
+                let text = bs.value().map(Vec::from).unwrap_or_else(Default::default);
+                Literal::ByteString(text)
+            }
            LiteralKind::String(_) => Literal::String(Default::default()),
            LiteralKind::Byte => Literal::Uint(Default::default(), Some(BuiltinUint::U8)),
            LiteralKind::Bool(val) => Literal::Bool(val),
diff --git a/crates/hir_def/src/expr.rs b/crates/hir_def/src/expr.rs
index 0c3b41080..2ba619d23 100644
--- a/crates/hir_def/src/expr.rs
+++ b/crates/hir_def/src/expr.rs
@@ -43,8 +43,8 @@ pub enum Literal {
    ByteString(Vec<u8>),
    Char(char),
    Bool(bool),
-    Int(u64, Option<BuiltinInt>),
+    Int(i128, Option<BuiltinInt>),
-    Uint(u64, Option<BuiltinUint>),
+    Uint(u128, Option<BuiltinUint>),
    Float(u64, Option<BuiltinFloat>), // FIXME: f64 is not Eq
 }
diff --git a/crates/hir_def/src/type_ref.rs b/crates/hir_def/src/type_ref.rs
index ea29da5da..9e44547cb 100644
--- a/crates/hir_def/src/type_ref.rs
+++ b/crates/hir_def/src/type_ref.rs
@@ -2,6 +2,7 @@
 //! be directly created from an ast::TypeRef, without further queries.
 use hir_expand::{name::Name, AstId, InFile};
+use std::convert::TryInto;
 use syntax::ast;
 use crate::{body::LowerCtx, path::Path};
@@ -79,7 +80,9 @@ pub enum TypeRef {
    Path(Path),
    RawPtr(Box<TypeRef>, Mutability),
    Reference(Box<TypeRef>, Option<LifetimeRef>, Mutability),
-    Array(Box<TypeRef> /*, Expr*/),
+    // FIXME: for full const generics, the latter element (length) here is going to have to be an
+    // expression that is further lowered later in hir_ty.
+    Array(Box<TypeRef>, ConstScalar),
    Slice(Box<TypeRef>),
    /// A fn pointer. Last element of the vector is the return type.
    Fn(Vec<TypeRef>, bool /*varargs*/),
@@ -140,7 +143,16 @@ impl TypeRef {
                TypeRef::RawPtr(Box::new(inner_ty), mutability)
            }
            ast::Type::ArrayType(inner) => {
-                TypeRef::Array(Box::new(TypeRef::from_ast_opt(&ctx, inner.ty())))
+                // FIXME: This is a hack. We should probably reuse the machinery of
+                // `hir_def::body::lower` to lower this into an `Expr` and then evaluate it at the
+                // `hir_ty` level, which would allow knowing the type of:
+                // let v: [u8; 2 + 2] = [0u8; 4];
+                let len = inner
+                    .expr()
+                    .map(ConstScalar::usize_from_literal_expr)
+                    .unwrap_or(ConstScalar::Unknown);
+                TypeRef::Array(Box::new(TypeRef::from_ast_opt(&ctx, inner.ty())), len)
            }
            ast::Type::SliceType(inner) => {
                TypeRef::Slice(Box::new(TypeRef::from_ast_opt(&ctx, inner.ty())))
@@ -212,7 +224,7 @@ impl TypeRef {
                }
                TypeRef::RawPtr(type_ref, _)
                | TypeRef::Reference(type_ref, ..)
-                | TypeRef::Array(type_ref)
+                | TypeRef::Array(type_ref, _)
                | TypeRef::Slice(type_ref) => go(&type_ref, f),
                TypeRef::ImplTrait(bounds) | TypeRef::DynTrait(bounds) => {
                    for bound in bounds {
@@ -298,3 +310,58 @@ impl TypeBound {
        }
    }
 }
+/// A concrete constant value
+#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
+pub enum ConstScalar {
+    // for now, we only support the trivial case of constant evaluating the length of an array
+    // Note that this is u64 because the target usize may be bigger than our usize
+    Usize(u64),
+    /// Case of an unknown value that rustc might know but we don't
+    // FIXME: this is a hack to get around chalk not being able to represent unevaluatable
+    // constants
+    // https://github.com/rust-analyzer/rust-analyzer/pull/8813#issuecomment-840679177
+    // https://rust-lang.zulipchat.com/#narrow/stream/144729-wg-traits/topic/Handling.20non.20evaluatable.20constants'.20equality/near/238386348
+    Unknown,
+}
+impl std::fmt::Display for ConstScalar {
+    fn fmt(&self, fmt: &mut std::fmt::Formatter<'_>) -> Result<(), std::fmt::Error> {
+        match self {
+            ConstScalar::Usize(us) => write!(fmt, "{}", us),
+            ConstScalar::Unknown => write!(fmt, "_"),
+        }
+    }
+}
+impl ConstScalar {
+    /// Gets a target usize out of the ConstScalar
+    pub fn as_usize(&self) -> Option<u64> {
+        match self {
+            &ConstScalar::Usize(us) => Some(us),
+            _ => None,
+        }
+    }
+    // FIXME: as per the comments on `TypeRef::Array`, this evaluation should not happen at this
+    // parse stage.
+    fn usize_from_literal_expr(expr: ast::Expr) -> ConstScalar {
+        match expr {
+            ast::Expr::Literal(lit) => {
+                let lkind = lit.kind();
+                match lkind {
+                    ast::LiteralKind::IntNumber(num)
+                        if num.suffix() == None || num.suffix() == Some("usize") =>
+                    {
+                        num.value().and_then(|v| v.try_into().ok())
+                    }
+                    _ => None,
+                }
+            }
+            _ => None,
+        }
+        .map(ConstScalar::Usize)
+        .unwrap_or(ConstScalar::Unknown)
+    }
+}

diff --git a/crates/hir_def/src/body/lower.rs b/crates/hir_def/src/body/lower.rs index 9f278d35b..2a7e0205f 100644 --- a/crates/hir_def/src/body/lower.rs +++ b/crates/hir_def/src/body/lower.rs
@@ -1006,23 +1006,27 @@ impl From<ast::BinOp> for BinaryOp {
1006	impl From<ast::LiteralKind> for Literal {	1006	impl From<ast::LiteralKind> for Literal {
1007	fn from(ast_lit_kind: ast::LiteralKind) -> Self {	1007	fn from(ast_lit_kind: ast::LiteralKind) -> Self {
1008	match ast_lit_kind {	1008	match ast_lit_kind {
		1009	// FIXME: these should have actual values filled in, but unsure on perf impact
1009	LiteralKind::IntNumber(lit) => {	1010	LiteralKind::IntNumber(lit) => {
1010	if let builtin @ Some(_) = lit.suffix().and_then(BuiltinFloat::from_suffix) {	1011	if let builtin @ Some(_) = lit.suffix().and_then(BuiltinFloat::from_suffix) {
1011	return Literal::Float(Default::default(), builtin);	1012	return Literal::Float(Default::default(), builtin);
1012	} else if let builtin @ Some(_) =	1013	} else if let builtin @ Some(_) =
1013	lit.suffix().and_then(\|it\| BuiltinInt::from_suffix(&it))	1014	lit.suffix().and_then(\|it\| BuiltinInt::from_suffix(&it))
1014	{	1015	{
1015	Literal::Int(Default::default(), builtin)	1016	Literal::Int(lit.value().unwrap_or(0) as i128, builtin)
1016	} else {	1017	} else {
1017	let builtin = lit.suffix().and_then(\|it\| BuiltinUint::from_suffix(&it));	1018	let builtin = lit.suffix().and_then(\|it\| BuiltinUint::from_suffix(&it));
1018	Literal::Uint(Default::default(), builtin)	1019	Literal::Uint(lit.value().unwrap_or(0), builtin)
1019	}	1020	}
1020	}	1021	}
1021	LiteralKind::FloatNumber(lit) => {	1022	LiteralKind::FloatNumber(lit) => {
1022	let ty = lit.suffix().and_then(\|it\| BuiltinFloat::from_suffix(&it));	1023	let ty = lit.suffix().and_then(\|it\| BuiltinFloat::from_suffix(&it));
1023	Literal::Float(Default::default(), ty)	1024	Literal::Float(Default::default(), ty)
1024	}	1025	}
1025	LiteralKind::ByteString(_) => Literal::ByteString(Default::default()),	1026	LiteralKind::ByteString(bs) => {
		1027	let text = bs.value().map(Vec::from).unwrap_or_else(Default::default);
		1028	Literal::ByteString(text)
		1029	}
1026	LiteralKind::String(_) => Literal::String(Default::default()),	1030	LiteralKind::String(_) => Literal::String(Default::default()),
1027	LiteralKind::Byte => Literal::Uint(Default::default(), Some(BuiltinUint::U8)),	1031	LiteralKind::Byte => Literal::Uint(Default::default(), Some(BuiltinUint::U8)),
1028	LiteralKind::Bool(val) => Literal::Bool(val),	1032	LiteralKind::Bool(val) => Literal::Bool(val),


diff --git a/crates/hir_def/src/expr.rs b/crates/hir_def/src/expr.rs index 0c3b41080..2ba619d23 100644 --- a/crates/hir_def/src/expr.rs +++ b/crates/hir_def/src/expr.rs
@@ -43,8 +43,8 @@ pub enum Literal {
43	ByteString(Vec<u8>),	43	ByteString(Vec<u8>),
44	Char(char),	44	Char(char),
45	Bool(bool),	45	Bool(bool),
46	Int(u64, Option<BuiltinInt>),	46	Int(i128, Option<BuiltinInt>),
47	Uint(u64, Option<BuiltinUint>),	47	Uint(u128, Option<BuiltinUint>),
48	Float(u64, Option<BuiltinFloat>), // FIXME: f64 is not Eq	48	Float(u64, Option<BuiltinFloat>), // FIXME: f64 is not Eq
49	}	49	}
50		50


diff --git a/crates/hir_def/src/type_ref.rs b/crates/hir_def/src/type_ref.rs index ea29da5da..9e44547cb 100644 --- a/crates/hir_def/src/type_ref.rs +++ b/crates/hir_def/src/type_ref.rs
@@ -2,6 +2,7 @@
2	//! be directly created from an ast::TypeRef, without further queries.	2	//! be directly created from an ast::TypeRef, without further queries.
3		3
4	use hir_expand::{name::Name, AstId, InFile};	4	use hir_expand::{name::Name, AstId, InFile};
		5	use std::convert::TryInto;
5	use syntax::ast;	6	use syntax::ast;
6		7
7	use crate::{body::LowerCtx, path::Path};	8	use crate::{body::LowerCtx, path::Path};
@@ -79,7 +80,9 @@ pub enum TypeRef {
79	Path(Path),	80	Path(Path),
80	RawPtr(Box<TypeRef>, Mutability),	81	RawPtr(Box<TypeRef>, Mutability),
81	Reference(Box<TypeRef>, Option<LifetimeRef>, Mutability),	82	Reference(Box<TypeRef>, Option<LifetimeRef>, Mutability),
82	Array(Box<TypeRef> /, Expr/),	83	// FIXME: for full const generics, the latter element (length) here is going to have to be an
		84	// expression that is further lowered later in hir_ty.
		85	Array(Box<TypeRef>, ConstScalar),
83	Slice(Box<TypeRef>),	86	Slice(Box<TypeRef>),
84	/// A fn pointer. Last element of the vector is the return type.	87	/// A fn pointer. Last element of the vector is the return type.
85	Fn(Vec<TypeRef>, bool /varargs/),	88	Fn(Vec<TypeRef>, bool /varargs/),
@@ -140,7 +143,16 @@ impl TypeRef {
140	TypeRef::RawPtr(Box::new(inner_ty), mutability)	143	TypeRef::RawPtr(Box::new(inner_ty), mutability)
141	}	144	}
142	ast::Type::ArrayType(inner) => {	145	ast::Type::ArrayType(inner) => {
143	TypeRef::Array(Box::new(TypeRef::from_ast_opt(&ctx, inner.ty())))	146	// FIXME: This is a hack. We should probably reuse the machinery of
		147	// `hir_def::body::lower` to lower this into an `Expr` and then evaluate it at the
		148	// `hir_ty` level, which would allow knowing the type of:
		149	// let v: [u8; 2 + 2] = [0u8; 4];
		150	let len = inner
		151	.expr()
		152	.map(ConstScalar::usize_from_literal_expr)
		153	.unwrap_or(ConstScalar::Unknown);
		154
		155	TypeRef::Array(Box::new(TypeRef::from_ast_opt(&ctx, inner.ty())), len)
144	}	156	}
145	ast::Type::SliceType(inner) => {	157	ast::Type::SliceType(inner) => {
146	TypeRef::Slice(Box::new(TypeRef::from_ast_opt(&ctx, inner.ty())))	158	TypeRef::Slice(Box::new(TypeRef::from_ast_opt(&ctx, inner.ty())))
@@ -212,7 +224,7 @@ impl TypeRef {
212	}	224	}
213	TypeRef::RawPtr(type_ref, _)	225	TypeRef::RawPtr(type_ref, _)
214	\| TypeRef::Reference(type_ref, ..)	226	\| TypeRef::Reference(type_ref, ..)
215	\| TypeRef::Array(type_ref)	227	\| TypeRef::Array(type_ref, _)
216	\| TypeRef::Slice(type_ref) => go(&type_ref, f),	228	\| TypeRef::Slice(type_ref) => go(&type_ref, f),
217	TypeRef::ImplTrait(bounds) \| TypeRef::DynTrait(bounds) => {	229	TypeRef::ImplTrait(bounds) \| TypeRef::DynTrait(bounds) => {
218	for bound in bounds {	230	for bound in bounds {
@@ -298,3 +310,58 @@ impl TypeBound {
298	}	310	}
299	}	311	}
300	}	312	}
		313
		314	/// A concrete constant value
		315	#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
		316	pub enum ConstScalar {
		317	// for now, we only support the trivial case of constant evaluating the length of an array
		318	// Note that this is u64 because the target usize may be bigger than our usize
		319	Usize(u64),
		320
		321	/// Case of an unknown value that rustc might know but we don't
		322	// FIXME: this is a hack to get around chalk not being able to represent unevaluatable
		323	// constants
		324	// https://github.com/rust-analyzer/rust-analyzer/pull/8813#issuecomment-840679177
		325	// https://rust-lang.zulipchat.com/#narrow/stream/144729-wg-traits/topic/Handling.20non.20evaluatable.20constants'.20equality/near/238386348
		326	Unknown,
		327	}
		328
		329	impl std::fmt::Display for ConstScalar {
		330	fn fmt(&self, fmt: &mut std::fmt::Formatter<'_>) -> Result<(), std::fmt::Error> {
		331	match self {
		332	ConstScalar::Usize(us) => write!(fmt, "{}", us),
		333	ConstScalar::Unknown => write!(fmt, "_"),
		334	}
		335	}
		336	}
		337
		338	impl ConstScalar {
		339	/// Gets a target usize out of the ConstScalar
		340	pub fn as_usize(&self) -> Option<u64> {
		341	match self {
		342	&ConstScalar::Usize(us) => Some(us),
		343	_ => None,
		344	}
		345	}
		346
		347	// FIXME: as per the comments on `TypeRef::Array`, this evaluation should not happen at this
		348	// parse stage.
		349	fn usize_from_literal_expr(expr: ast::Expr) -> ConstScalar {
		350	match expr {
		351	ast::Expr::Literal(lit) => {
		352	let lkind = lit.kind();
		353	match lkind {
		354	ast::LiteralKind::IntNumber(num)
		355	if num.suffix() == None \|\| num.suffix() == Some("usize") =>
		356	{
		357	num.value().and_then(\|v\| v.try_into().ok())
		358	}
		359	_ => None,
		360	}
		361	}
		362	_ => None,
		363	}
		364	.map(ConstScalar::Usize)
		365	.unwrap_or(ConstScalar::Unknown)
		366	}
		367	}