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|
//! Implementation of Chalk debug helper functions using TLS.
use std::fmt;
use chalk_ir::{AliasTy, GenericArg, Goal, Goals, Lifetime, ProgramClauseImplication, TypeName};
use itertools::Itertools;
use super::{from_chalk, Interner};
use crate::{db::HirDatabase, CallableDefId, TypeCtor};
use hir_def::{AdtId, AssocContainerId, DefWithBodyId, Lookup, TypeAliasId};
pub use unsafe_tls::{set_current_program, with_current_program};
pub struct DebugContext<'a>(&'a dyn HirDatabase);
impl DebugContext<'_> {
pub fn debug_struct_id(
&self,
id: super::AdtId,
f: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
let type_ctor: TypeCtor = from_chalk(self.0, TypeName::Adt(id));
match type_ctor {
TypeCtor::Bool => write!(f, "bool")?,
TypeCtor::Char => write!(f, "char")?,
TypeCtor::Int(t) => write!(f, "{}", t)?,
TypeCtor::Float(t) => write!(f, "{}", t)?,
TypeCtor::Str => write!(f, "str")?,
TypeCtor::Slice => write!(f, "slice")?,
TypeCtor::Array => write!(f, "array")?,
TypeCtor::RawPtr(m) => write!(f, "*{}", m.as_keyword_for_ptr())?,
TypeCtor::Ref(m) => write!(f, "&{}", m.as_keyword_for_ref())?,
TypeCtor::Never => write!(f, "!")?,
TypeCtor::Tuple { .. } => {
write!(f, "()")?;
}
TypeCtor::FnPtr { .. } => {
write!(f, "fn")?;
}
TypeCtor::FnDef(def) => {
let name = match def {
CallableDefId::FunctionId(ff) => self.0.function_data(ff).name.clone(),
CallableDefId::StructId(s) => self.0.struct_data(s).name.clone(),
CallableDefId::EnumVariantId(e) => {
let enum_data = self.0.enum_data(e.parent);
enum_data.variants[e.local_id].name.clone()
}
};
match def {
CallableDefId::FunctionId(_) => write!(f, "{{fn {}}}", name)?,
CallableDefId::StructId(_) | CallableDefId::EnumVariantId(_) => {
write!(f, "{{ctor {}}}", name)?
}
}
}
TypeCtor::Adt(def_id) => {
let name = match def_id {
AdtId::StructId(it) => self.0.struct_data(it).name.clone(),
AdtId::UnionId(it) => self.0.union_data(it).name.clone(),
AdtId::EnumId(it) => self.0.enum_data(it).name.clone(),
};
write!(f, "{}", name)?;
}
TypeCtor::AssociatedType(type_alias) => {
let trait_ = match type_alias.lookup(self.0.upcast()).container {
AssocContainerId::TraitId(it) => it,
_ => panic!("not an associated type"),
};
let trait_name = self.0.trait_data(trait_).name.clone();
let name = self.0.type_alias_data(type_alias).name.clone();
write!(f, "{}::{}", trait_name, name)?;
}
TypeCtor::OpaqueType(opaque_ty_id) => match opaque_ty_id {
crate::OpaqueTyId::ReturnTypeImplTrait(func, idx) => {
write!(f, "{{impl trait {} of {:?}}}", idx, func)?;
}
},
TypeCtor::Closure { def, expr } => {
write!(f, "{{closure {:?} in ", expr.into_raw())?;
match def {
DefWithBodyId::FunctionId(func) => {
write!(f, "fn {}", self.0.function_data(func).name)?
}
DefWithBodyId::StaticId(s) => {
if let Some(name) = self.0.static_data(s).name.as_ref() {
write!(f, "body of static {}", name)?;
} else {
write!(f, "body of unnamed static {:?}", s)?;
}
}
DefWithBodyId::ConstId(c) => {
if let Some(name) = self.0.const_data(c).name.as_ref() {
write!(f, "body of const {}", name)?;
} else {
write!(f, "body of unnamed const {:?}", c)?;
}
}
};
write!(f, "}}")?;
}
}
Ok(())
}
pub fn debug_trait_id(
&self,
id: super::TraitId,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
let trait_: hir_def::TraitId = from_chalk(self.0, id);
let trait_data = self.0.trait_data(trait_);
write!(fmt, "{}", trait_data.name)
}
pub fn debug_assoc_type_id(
&self,
id: super::AssocTypeId,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
let type_alias: TypeAliasId = from_chalk(self.0, id);
let type_alias_data = self.0.type_alias_data(type_alias);
let trait_ = match type_alias.lookup(self.0.upcast()).container {
AssocContainerId::TraitId(t) => t,
_ => panic!("associated type not in trait"),
};
let trait_data = self.0.trait_data(trait_);
write!(fmt, "{}::{}", trait_data.name, type_alias_data.name)
}
pub fn debug_opaque_ty_id(
&self,
opaque_ty_id: chalk_ir::OpaqueTyId<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
fmt.debug_struct("OpaqueTyId").field("index", &opaque_ty_id.0).finish()
}
pub fn debug_alias(
&self,
alias_ty: &AliasTy<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
match alias_ty {
AliasTy::Projection(projection_ty) => self.debug_projection_ty(projection_ty, fmt),
AliasTy::Opaque(opaque_ty) => self.debug_opaque_ty(opaque_ty, fmt),
}
}
pub fn debug_projection_ty(
&self,
projection_ty: &chalk_ir::ProjectionTy<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
let type_alias: TypeAliasId = from_chalk(self.0, projection_ty.associated_ty_id);
let type_alias_data = self.0.type_alias_data(type_alias);
let trait_ = match type_alias.lookup(self.0.upcast()).container {
AssocContainerId::TraitId(t) => t,
_ => panic!("associated type not in trait"),
};
let trait_data = self.0.trait_data(trait_);
let params = projection_ty.substitution.as_slice(&Interner);
write!(fmt, "<{:?} as {}", ¶ms[0], trait_data.name,)?;
if params.len() > 1 {
write!(
fmt,
"<{}>",
¶ms[1..].iter().format_with(", ", |x, f| f(&format_args!("{:?}", x))),
)?;
}
write!(fmt, ">::{}", type_alias_data.name)
}
pub fn debug_opaque_ty(
&self,
opaque_ty: &chalk_ir::OpaqueTy<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
write!(fmt, "{:?}", opaque_ty.opaque_ty_id)
}
pub fn debug_ty(
&self,
ty: &chalk_ir::Ty<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
write!(fmt, "{:?}", ty.data(&Interner))
}
pub fn debug_lifetime(
&self,
lifetime: &Lifetime<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
write!(fmt, "{:?}", lifetime.data(&Interner))
}
pub fn debug_generic_arg(
&self,
parameter: &GenericArg<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
write!(fmt, "{:?}", parameter.data(&Interner).inner_debug())
}
pub fn debug_goal(
&self,
goal: &Goal<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
let goal_data = goal.data(&Interner);
write!(fmt, "{:?}", goal_data)
}
pub fn debug_goals(
&self,
goals: &Goals<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
write!(fmt, "{:?}", goals.debug(&Interner))
}
pub fn debug_program_clause_implication(
&self,
pci: &ProgramClauseImplication<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
write!(fmt, "{:?}", pci.debug(&Interner))
}
pub fn debug_application_ty(
&self,
application_ty: &chalk_ir::ApplicationTy<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
write!(fmt, "{:?}", application_ty.debug(&Interner))
}
pub fn debug_substitution(
&self,
substitution: &chalk_ir::Substitution<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
write!(fmt, "{:?}", substitution.debug(&Interner))
}
pub fn debug_separator_trait_ref(
&self,
separator_trait_ref: &chalk_ir::SeparatorTraitRef<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
write!(fmt, "{:?}", separator_trait_ref.debug(&Interner))
}
pub fn debug_fn_def_id(
&self,
fn_def_id: chalk_ir::FnDefId<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> Result<(), fmt::Error> {
let def: CallableDefId = from_chalk(self.0, fn_def_id);
let name = match def {
CallableDefId::FunctionId(ff) => self.0.function_data(ff).name.clone(),
CallableDefId::StructId(s) => self.0.struct_data(s).name.clone(),
CallableDefId::EnumVariantId(e) => {
let enum_data = self.0.enum_data(e.parent);
enum_data.variants[e.local_id].name.clone()
}
};
match def {
CallableDefId::FunctionId(_) => write!(fmt, "{{fn {}}}", name),
CallableDefId::StructId(_) | CallableDefId::EnumVariantId(_) => {
write!(fmt, "{{ctor {}}}", name)
}
}
}
pub fn debug_const(
&self,
_constant: &chalk_ir::Const<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> fmt::Result {
write!(fmt, "const")
}
pub fn debug_variable_kinds(
&self,
variable_kinds: &chalk_ir::VariableKinds<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> fmt::Result {
write!(fmt, "{:?}", variable_kinds.as_slice(&Interner))
}
pub fn debug_variable_kinds_with_angles(
&self,
variable_kinds: &chalk_ir::VariableKinds<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> fmt::Result {
write!(fmt, "{:?}", variable_kinds.inner_debug(&Interner))
}
pub fn debug_canonical_var_kinds(
&self,
canonical_var_kinds: &chalk_ir::CanonicalVarKinds<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> fmt::Result {
write!(fmt, "{:?}", canonical_var_kinds.as_slice(&Interner))
}
pub fn debug_program_clause(
&self,
clause: &chalk_ir::ProgramClause<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> fmt::Result {
write!(fmt, "{:?}", clause.data(&Interner))
}
pub fn debug_program_clauses(
&self,
clauses: &chalk_ir::ProgramClauses<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> fmt::Result {
write!(fmt, "{:?}", clauses.as_slice(&Interner))
}
pub fn debug_quantified_where_clauses(
&self,
clauses: &chalk_ir::QuantifiedWhereClauses<Interner>,
fmt: &mut fmt::Formatter<'_>,
) -> fmt::Result {
write!(fmt, "{:?}", clauses.as_slice(&Interner))
}
}
mod unsafe_tls {
use super::DebugContext;
use crate::db::HirDatabase;
use scoped_tls::scoped_thread_local;
scoped_thread_local!(static PROGRAM: DebugContext);
pub fn with_current_program<R>(
op: impl for<'a> FnOnce(Option<&'a DebugContext<'a>>) -> R,
) -> R {
if PROGRAM.is_set() {
PROGRAM.with(|prog| op(Some(prog)))
} else {
op(None)
}
}
pub fn set_current_program<OP, R>(p: &dyn HirDatabase, op: OP) -> R
where
OP: FnOnce() -> R,
{
let ctx = DebugContext(p);
// we're transmuting the lifetime in the DebugContext to static. This is
// fine because we only keep the reference for the lifetime of this
// function, *and* the only way to access the context is through
// `with_current_program`, which hides the lifetime through the `for`
// type.
let static_p: &DebugContext<'static> =
unsafe { std::mem::transmute::<&DebugContext, &DebugContext<'static>>(&ctx) };
PROGRAM.set(static_p, || op())
}
}
|
