blob: 1427cf2d40d781a0c21d96d74736231bc00cca7f [file] [log] [blame]
// Part of the Crubit project, under the Apache License v2.0 with LLVM
// Exceptions. See /LICENSE for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
#include "rs_bindings_from_cc/ir.h"
#include <optional>
#include <ostream>
#include <string>
#include <utility>
#include <variant>
#include <vector>
#include "absl/log/check.h"
#include "absl/strings/str_cat.h"
#include "absl/strings/string_view.h"
#include "common/string_type.h"
#include "common/strong_int.h"
#include "clang/AST/Type.h"
#include "llvm/Support/JSON.h"
namespace crubit {
template <class T>
llvm::json::Value toJSON(const T& t) {
return t.ToJson();
}
template <typename TTag, typename TInt>
llvm::json::Value toJSON(const crubit::StrongInt<TTag, TInt> strong_int) {
return llvm::json::Value(strong_int.value());
}
template <typename TTag>
llvm::json::Value toJSON(const crubit::StringType<TTag> string_type) {
return llvm::json::Value(string_type.value());
}
template <class T>
llvm::json::Value toJSON(const absl::StatusOr<T>& t) {
if (t.ok()) {
return llvm::json::Object{{"Ok", *t}};
}
return llvm::json::Object{{"Err", std::string(t.status().message())}};
}
llvm::json::Value HeaderName::ToJson() const {
return llvm::json::Object{
{"name", name_},
};
}
llvm::json::Value LifetimeName::ToJson() const {
return llvm::json::Object{
{"name", name},
{"id", id},
};
}
llvm::json::Value RsType::ToJson() const {
return llvm::json::Object{
{"name", decl_id.has_value() ? llvm::json::Value(nullptr)
: llvm::json::Value(name)},
{"lifetime_args", lifetime_args},
{"type_args", type_args},
{"unknown_attr", unknown_attr},
{"decl_id", decl_id},
};
}
llvm::json::Value CcType::ToJson() const {
return llvm::json::Object{
{"name", decl_id.has_value() ? llvm::json::Value(nullptr)
: llvm::json::Value(name)},
{"is_const", is_const},
{"type_args", type_args},
{"decl_id", decl_id},
};
}
namespace {
enum class ValueCategory { kLvalue, kRvalue };
MappedType PointerOrReferenceTo(
MappedType pointee_type, absl::string_view cc_ptr_name,
ValueCategory value_category, std::optional<LifetimeId> lifetime,
std::optional<clang::RefQualifierKind> ref_qualifier_kind, bool nullable) {
bool has_lifetime = lifetime.has_value();
absl::string_view rs_name;
if (value_category == ValueCategory::kLvalue) {
if (has_lifetime) {
if (ref_qualifier_kind.has_value() &&
ref_qualifier_kind.value() == clang::RefQualifierKind::RQ_RValue) {
rs_name = pointee_type.cc_type.is_const ? internal::kRustRvalueRefConst
: internal::kRustRvalueRefMut;
} else {
rs_name = pointee_type.cc_type.is_const ? internal::kRustRefConst
: internal::kRustRefMut;
}
} else {
rs_name = pointee_type.cc_type.is_const ? internal::kRustPtrConst
: internal::kRustPtrMut;
}
} else {
CHECK(has_lifetime);
rs_name = pointee_type.cc_type.is_const ? internal::kRustRvalueRefConst
: internal::kRustRvalueRefMut;
}
auto pointer_type =
MappedType::Simple(std::string(rs_name), std::string(cc_ptr_name));
if (has_lifetime) {
pointer_type.rs_type.lifetime_args.push_back(*std::move(lifetime));
}
pointer_type.rs_type.type_args.push_back(std::move(pointee_type.rs_type));
if (has_lifetime && nullable) {
pointer_type.rs_type =
RsType{.name = "Option", .type_args = {pointer_type.rs_type}};
}
pointer_type.cc_type.type_args.push_back(std::move(pointee_type.cc_type));
return pointer_type;
}
} // namespace
MappedType MappedType::PointerTo(
MappedType pointee_type, std::optional<LifetimeId> lifetime,
std::optional<clang::RefQualifierKind> ref_qualifier_kind, bool nullable) {
return PointerOrReferenceTo(std::move(pointee_type), internal::kCcPtr,
ValueCategory::kLvalue, lifetime,
ref_qualifier_kind, nullable);
}
MappedType MappedType::LValueReferenceTo(MappedType pointee_type,
std::optional<LifetimeId> lifetime) {
return PointerOrReferenceTo(std::move(pointee_type), internal::kCcLValueRef,
ValueCategory::kLvalue, lifetime,
/*ref_qualifier_kind=*/std::nullopt,
/*nullable=*/false);
}
MappedType MappedType::RValueReferenceTo(MappedType pointee_type,
LifetimeId lifetime) {
return PointerOrReferenceTo(std::move(pointee_type), internal::kCcRValueRef,
ValueCategory::kRvalue, lifetime,
/*ref_qualifier_kind=*/std::nullopt,
/*nullable=*/false);
}
MappedType MappedType::FuncPtr(absl::string_view cc_call_conv,
absl::string_view rs_abi,
std::optional<LifetimeId> lifetime,
MappedType return_type,
std::vector<MappedType> param_types) {
MappedType result = FuncRef(cc_call_conv, rs_abi, lifetime,
std::move(return_type), std::move(param_types));
CHECK_EQ(result.cc_type.name, internal::kCcLValueRef);
result.cc_type.name = std::string(internal::kCcPtr);
RsType rs_func_ptr_type = std::move(result.rs_type);
CHECK(rs_func_ptr_type.name.substr(0, internal::kRustFuncPtr.length()) ==
internal::kRustFuncPtr);
result.rs_type =
RsType{.name = "Option", .type_args = {std::move(rs_func_ptr_type)}};
return result;
}
MappedType MappedType::FuncRef(absl::string_view cc_call_conv,
absl::string_view rs_abi,
std::optional<LifetimeId> lifetime,
MappedType return_type,
std::vector<MappedType> param_types) {
std::vector<MappedType> type_args = std::move(param_types);
type_args.push_back(std::move(return_type));
std::vector<CcType> cc_type_args;
std::vector<RsType> rs_type_args;
cc_type_args.reserve(type_args.size());
rs_type_args.reserve(type_args.size());
for (MappedType& type_arg : type_args) {
cc_type_args.push_back(std::move(type_arg.cc_type));
rs_type_args.push_back(std::move(type_arg.rs_type));
}
CcType cc_func_value_type = CcType{
.name = absl::StrCat(internal::kCcFuncValue, " ", cc_call_conv),
.type_args = std::move(cc_type_args),
};
CcType cc_func_ref_type = CcType{.name = std::string(internal::kCcLValueRef),
.type_args = {cc_func_value_type}};
// Rust cannot express a function *value* type, only function pointer types.
RsType rs_func_ptr_type = RsType{
.name = absl::StrCat(internal::kRustFuncPtr, " ", rs_abi),
.type_args = std::move(rs_type_args),
};
if (lifetime.has_value())
rs_func_ptr_type.lifetime_args.push_back(*std::move(lifetime));
return MappedType{
.rs_type = std::move(rs_func_ptr_type),
.cc_type = std::move(cc_func_ref_type),
};
}
llvm::json::Value MappedType::ToJson() const {
return llvm::json::Object{
{"rs_type", rs_type},
{"cc_type", cc_type},
};
}
llvm::json::Value Identifier::ToJson() const {
return llvm::json::Object{
{"identifier", identifier_},
};
}
llvm::json::Value IntegerConstant::ToJson() const {
return llvm::json::Object{
{"is_negative", is_negative_},
{"wrapped_value", wrapped_value_},
};
}
llvm::json::Value Operator::ToJson() const {
return llvm::json::Object{
{"name", name_},
};
}
static std::string SpecialNameToString(SpecialName special_name) {
switch (special_name) {
case SpecialName::kDestructor:
return "Destructor";
case SpecialName::kConstructor:
return "Constructor";
}
}
llvm::json::Value toJSON(const UnqualifiedIdentifier& unqualified_identifier) {
if (auto* id = std::get_if<Identifier>(&unqualified_identifier)) {
return llvm::json::Object{
{"Identifier", *id},
};
} else if (auto* op = std::get_if<Operator>(&unqualified_identifier)) {
return llvm::json::Object{
{"Operator", *op},
};
} else {
SpecialName special_name = std::get<SpecialName>(unqualified_identifier);
return llvm::json::Object{
{SpecialNameToString(special_name), nullptr},
};
}
}
llvm::json::Value FuncParam::ToJson() const {
return llvm::json::Object{
{"type", type},
{"identifier", identifier},
{"unknown_attr", unknown_attr},
};
}
std::ostream& operator<<(std::ostream& o, const SpecialName& special_name) {
return o << SpecialNameToString(special_name);
}
llvm::json::Value MemberFuncMetadata::InstanceMethodMetadata::ToJson() const {
const char* reference_str = nullptr;
switch (reference) {
case MemberFuncMetadata::kLValue:
reference_str = "LValue";
break;
case MemberFuncMetadata::kRValue:
reference_str = "RValue";
break;
case MemberFuncMetadata::kUnqualified:
reference_str = "Unqualified";
break;
}
return llvm::json::Object{
{"reference", reference_str},
{"is_const", is_const},
{"is_virtual", is_virtual},
};
}
llvm::json::Value MemberFuncMetadata::ToJson() const {
return llvm::json::Object{
{"record_id", record_id},
{"instance_method_metadata", instance_method_metadata},
};
}
llvm::json::Value TypeMapOverride::ToJson() const {
llvm::json::Object override{
{"rs_name", rs_name},
{"cc_name", cc_name},
{"owning_target", owning_target},
{"is_same_abi", is_same_abi},
{"id", id},
};
if (size_align.has_value()) {
override.insert({"size_align", size_align->ToJson()});
}
return llvm::json::Object{
{"TypeMapOverride", std::move(override)},
};
}
llvm::json::Value UseMod::ToJson() const {
llvm::json::Object use_mod{
{"path", path},
{"mod_name", mod_name},
{"id", id},
};
return llvm::json::Object{
{"UseMod", std::move(use_mod)},
};
}
llvm::json::Value Func::ToJson() const {
llvm::json::Object func{
{"name", name},
{"owning_target", owning_target},
{"doc_comment", doc_comment},
{"mangled_name", mangled_name},
{"return_type", return_type},
{"params", params},
{"lifetime_params", lifetime_params},
{"is_inline", is_inline},
{"member_func_metadata", member_func_metadata},
{"is_extern_c", is_extern_c},
{"is_noreturn", is_noreturn},
{"nodiscard", nodiscard},
{"deprecated", deprecated},
{"has_c_calling_convention", has_c_calling_convention},
{"is_member_or_descendant_of_class_template",
is_member_or_descendant_of_class_template},
{"source_loc", source_loc},
{"id", id},
{"enclosing_item_id", enclosing_item_id},
{"adl_enclosing_record", adl_enclosing_record},
};
return llvm::json::Object{
{"Func", std::move(func)},
};
}
static std::string AccessToString(AccessSpecifier access) {
switch (access) {
case kPublic:
return "Public";
case kProtected:
return "Protected";
case kPrivate:
return "Private";
}
}
std::ostream& operator<<(std::ostream& o, const AccessSpecifier& access) {
return o << AccessToString(access);
}
llvm::json::Value Field::ToJson() const {
return llvm::json::Object{
{"identifier", identifier},
{"doc_comment", doc_comment},
{"type", type},
{"access", AccessToString(access)},
{"offset", offset},
{"size", size},
{"unknown_attr", unknown_attr},
{"is_no_unique_address", is_no_unique_address},
{"is_bitfield", is_bitfield},
{"is_inheritable", is_inheritable},
};
}
llvm::json::Value toJSON(const SpecialMemberFunc& f) {
switch (f) {
case SpecialMemberFunc::kTrivial:
return "Trivial";
case SpecialMemberFunc::kNontrivialMembers:
return "NontrivialMembers";
case SpecialMemberFunc::kNontrivialUserDefined:
return "NontrivialUserDefined";
case SpecialMemberFunc::kUnavailable:
return "Unavailable";
}
}
llvm::json::Value BaseClass::ToJson() const {
return llvm::json::Object{
{"base_record_id", base_record_id},
{"offset", offset},
};
}
static std::string RecordTypeToString(RecordType record_type) {
switch (record_type) {
case kStruct:
return "Struct";
case kUnion:
return "Union";
case kClass:
return "Class";
}
}
std::ostream& operator<<(std::ostream& o, const RecordType& record_type) {
return o << RecordTypeToString(record_type);
}
llvm::json::Value IncompleteRecord::ToJson() const {
llvm::json::Object record{
{"cc_name", cc_name},
{"rs_name", rs_name},
{"id", id},
{"owning_target", owning_target},
{"unknown_attr", unknown_attr},
{"record_type", RecordTypeToString(record_type)},
{"enclosing_item_id", enclosing_item_id},
};
return llvm::json::Object{
{"IncompleteRecord", std::move(record)},
};
}
llvm::json::Value SizeAlign::ToJson() const {
return llvm::json::Object{
{"size", size},
{"alignment", alignment},
};
}
llvm::json::Value Record::ToJson() const {
std::vector<llvm::json::Value> json_item_ids;
json_item_ids.reserve(child_item_ids.size());
for (const auto& id : child_item_ids) {
json_item_ids.push_back(id.value());
}
llvm::json::Object record{
{"rs_name", rs_name},
{"cc_name", cc_name},
{"mangled_cc_name", mangled_cc_name},
{"id", id},
{"owning_target", owning_target},
{"defining_target", defining_target},
{"unknown_attr", unknown_attr},
{"doc_comment", doc_comment},
{"source_loc", source_loc},
{"unambiguous_public_bases", unambiguous_public_bases},
{"fields", fields},
{"lifetime_params", lifetime_params},
{"size_align", size_align.ToJson()},
{"is_derived_class", is_derived_class},
{"override_alignment", override_alignment},
{"copy_constructor", copy_constructor},
{"move_constructor", move_constructor},
{"destructor", destructor},
{"is_trivial_abi", is_trivial_abi},
{"is_inheritable", is_inheritable},
{"is_abstract", is_abstract},
{"record_type", RecordTypeToString(record_type)},
{"is_aggregate", is_aggregate},
{"is_anon_record_with_typedef", is_anon_record_with_typedef},
{"child_item_ids", std::move(json_item_ids)},
{"enclosing_item_id", enclosing_item_id},
};
return llvm::json::Object{
{"Record", std::move(record)},
};
}
llvm::json::Value Enumerator::ToJson() const {
return llvm::json::Object{
{"identifier", identifier},
{"value", value},
{"unknown_attr", unknown_attr},
};
}
llvm::json::Value Enum::ToJson() const {
llvm::json::Object enum_ir{
{"identifier", identifier},
{"id", id},
{"owning_target", owning_target},
{"source_loc", source_loc},
{"underlying_type", underlying_type},
{"enumerators", enumerators},
{"unknown_attr", unknown_attr},
{"enclosing_item_id", enclosing_item_id},
};
return llvm::json::Object{
{"Enum", std::move(enum_ir)},
};
}
llvm::json::Value TypeAlias::ToJson() const {
llvm::json::Object type_alias{
{"identifier", identifier},
{"id", id},
{"owning_target", owning_target},
{"unknown_attr", unknown_attr},
{"doc_comment", doc_comment},
{"underlying_type", underlying_type},
{"source_loc", source_loc},
{"enclosing_item_id", enclosing_item_id},
};
return llvm::json::Object{
{"TypeAlias", std::move(type_alias)},
};
}
llvm::json::Value UnsupportedItem::ToJson() const {
llvm::json::Object unsupported{
{"name", name},
{"message", message},
{"source_loc", source_loc},
{"id", id},
};
return llvm::json::Object{
{"UnsupportedItem", std::move(unsupported)},
};
}
llvm::json::Value Comment::ToJson() const {
llvm::json::Object comment{
{"text", text},
{"id", id},
};
comment["id"] = id.value();
return llvm::json::Object{
{"Comment", std::move(comment)},
};
}
llvm::json::Value Namespace::ToJson() const {
std::vector<llvm::json::Value> json_item_ids;
json_item_ids.reserve(child_item_ids.size());
for (const auto& id : child_item_ids) {
json_item_ids.push_back(id.value());
}
llvm::json::Object ns{
{"name", name},
{"id", id},
{"canonical_namespace_id", canonical_namespace_id},
{"unknown_attr", unknown_attr},
{"owning_target", owning_target},
{"child_item_ids", std::move(json_item_ids)},
{"enclosing_item_id", enclosing_item_id},
{"is_inline", is_inline},
};
return llvm::json::Object{
{"Namespace", std::move(ns)},
};
}
llvm::json::Value IR::ToJson() const {
std::vector<llvm::json::Value> json_items;
json_items.reserve(items.size());
for (const auto& item : items) {
std::visit([&](auto&& item) { json_items.push_back(item.ToJson()); }, item);
}
CHECK_EQ(json_items.size(), items.size());
std::vector<llvm::json::Value> top_level_ids;
top_level_ids.reserve(top_level_item_ids.size());
for (const auto& id : top_level_item_ids) {
top_level_ids.push_back(id.value());
}
llvm::json::Object features_json;
for (const auto& [target, features] : crubit_features) {
std::vector<llvm::json::Value> feature_array;
for (const std::string& feature : features) {
feature_array.push_back(feature);
}
features_json[target.value()] = std::move(feature_array);
}
llvm::json::Object result{
{"public_headers", public_headers},
{"current_target", current_target},
{"items", std::move(json_items)},
{"top_level_item_ids", std::move(top_level_ids)},
{"crubit_features", std::move(features_json)},
};
if (!crate_root_path.empty()) {
result["crate_root_path"] = crate_root_path;
}
return std::move(result);
}
std::string ItemToString(const IR::Item& item) {
return std::visit(
[&](auto&& item) { return llvm::formatv("{0}", item.ToJson()); }, item);
}
} // namespace crubit