================
@@ -302,6 +303,256 @@ bool CompilerType::IsBeingDefined() const {
return false;
}
+bool CompilerType::IsSmartPtrType() const {
+ // These regular expressions cover shared, unique and weak pointers both from
+ // stdlibc++ and libc+++.
+
+ static llvm::Regex k_libcxx_std_unique_ptr_regex(
+ "^std::__[[:alnum:]]+::unique_ptr<.+>(( )?&)?$");
+ static llvm::Regex k_libcxx_std_shared_ptr_regex(
+ "^std::__[[:alnum:]]+::shared_ptr<.+>(( )?&)?$");
+ static llvm::Regex k_libcxx_std_weak_ptr_regex(
+ "^std::__[[:alnum:]]+::weak_ptr<.+>(( )?&)?$");
+ //
+ static llvm::Regex k_libcxx_std_unique_ptr_regex_2(
+ "^std::unique_ptr<.+>(( )?&)?$");
+ static llvm::Regex k_libcxx_std_shared_ptr_regex_2(
+ "^std::shared_ptr<.+>(( )?&)?$");
+ static llvm::Regex k_libcxx_std_weak_ptr_regex_2(
+ "^std::weak_ptr<.+>(( )?&)?$");
+ //
+ llvm::StringRef name = GetTypeName();
+ return k_libcxx_std_unique_ptr_regex.match(name) ||
+ k_libcxx_std_shared_ptr_regex.match(name) ||
+ k_libcxx_std_weak_ptr_regex.match(name) ||
+ k_libcxx_std_unique_ptr_regex_2.match(name) ||
+ k_libcxx_std_shared_ptr_regex_2.match(name) ||
+ k_libcxx_std_weak_ptr_regex_2.match(name);
+}
+
+bool CompilerType::IsInteger() const {
+ // This is used when you don't care about the signedness of the integer.
+ bool is_signed;
+ return IsIntegerType(is_signed);
+}
+
+bool CompilerType::IsFloat() const {
+ uint32_t count = 0;
+ bool is_complex = false;
+ return IsFloatingPointType(count, is_complex);
+}
+
+bool CompilerType::IsEnumerationType() const {
+ // This is used when you don't care about the signedness of the enum.
+ bool is_signed;
+ return IsEnumerationType(is_signed);
+}
+
+bool CompilerType::IsUnscopedEnumerationType() const {
+ return IsEnumerationType() && !IsScopedEnumerationType();
+}
+
+bool CompilerType::IsIntegerOrUnscopedEnumerationType() const {
+ return IsInteger() || IsUnscopedEnumerationType();
+}
+
+bool CompilerType::IsSigned() const {
+ if (IsEnumerationType()) {
+ return IsEnumerationIntegerTypeSigned();
+ }
+ return GetTypeInfo() & lldb::eTypeIsSigned;
+}
+
+bool CompilerType::IsNullPtrType() const {
+ return GetCanonicalType().GetBasicTypeEnumeration() ==
+ lldb::eBasicTypeNullPtr;
+}
+
+bool CompilerType::IsBoolean() const {
+ return GetCanonicalType().GetBasicTypeEnumeration() == lldb::eBasicTypeBool;
+}
+
+bool CompilerType::IsEnumerationIntegerTypeSigned() const {
+ if (IsValid()) {
+ return GetEnumerationIntegerType().GetTypeInfo() & lldb::eTypeIsSigned;
+ }
+ return false;
+}
+
+bool CompilerType::IsScalarOrUnscopedEnumerationType() const {
+ return IsScalarType() || IsUnscopedEnumerationType();
+}
+
+bool CompilerType::IsPromotableIntegerType() const {
+ // Unscoped enums are always considered as promotable, even if their
+ // underlying type does not need to be promoted (e.g. "int").
+ if (IsUnscopedEnumerationType()) {
+ return true;
+ }
+
+ switch (GetCanonicalType().GetBasicTypeEnumeration()) {
+ case lldb::eBasicTypeBool:
+ case lldb::eBasicTypeChar:
+ case lldb::eBasicTypeSignedChar:
+ case lldb::eBasicTypeUnsignedChar:
+ case lldb::eBasicTypeShort:
+ case lldb::eBasicTypeUnsignedShort:
+ case lldb::eBasicTypeWChar:
+ case lldb::eBasicTypeSignedWChar:
+ case lldb::eBasicTypeUnsignedWChar:
+ case lldb::eBasicTypeChar16:
+ case lldb::eBasicTypeChar32:
+ return true;
+
+ default:
+ return false;
+ }
+}
+
+bool CompilerType::IsPointerToVoid() const {
+ if (!IsValid())
+ return false;
+
+ return IsPointerType() &&
+ GetPointeeType().GetBasicTypeEnumeration() == lldb::eBasicTypeVoid;
+}
+
+bool CompilerType::IsRecordType() const {
+ if (!IsValid())
+ return false;
+
+ return GetCanonicalType().GetTypeClass() &
+ (lldb::eTypeClassClass | lldb::eTypeClassStruct |
+ lldb::eTypeClassUnion);
+}
+
+// Checks whether `target_base` is a virtual base of `type` (direct or
+// indirect). If it is, stores the first virtual base type on the path from
+// `type` to `target_type`.
+bool CompilerType::IsVirtualBase(CompilerType target_base,
+ CompilerType *virtual_base,
+ bool carry_virtual) const {
+ if (CompareTypes(target_base)) {
+ return carry_virtual;
+ }
+
+ if (!carry_virtual) {
+ uint32_t num_virtual_bases = GetNumVirtualBaseClasses();
+ for (uint32_t i = 0; i < num_virtual_bases; ++i) {
+ uint32_t bit_offset;
+ auto base = GetVirtualBaseClassAtIndex(i, &bit_offset);
+ if (base.IsVirtualBase(target_base, virtual_base,
+ /*carry_virtual*/ true)) {
+ if (virtual_base) {
+ *virtual_base = base;
+ }
+ return true;
+ }
+ }
+ }
+
+ uint32_t num_direct_bases = GetNumDirectBaseClasses();
+ for (uint32_t i = 0; i < num_direct_bases; ++i) {
+ uint32_t bit_offset;
+ auto base = GetDirectBaseClassAtIndex(i, &bit_offset);
+ if (base.IsVirtualBase(target_base, virtual_base, carry_virtual)) {
+ return true;
+ }
+ }
+
+ return false;
+}
+
+bool CompilerType::IsContextuallyConvertibleToBool() const {
+ return IsScalarType() || IsUnscopedEnumerationType() || IsPointerType() ||
+ IsNullPtrType() || IsArrayType();
+}
+
+bool CompilerType::IsBasicType() const {
+ return GetCanonicalType().GetBasicTypeEnumeration() !=
+ lldb::eBasicTypeInvalid;
+}
+
+std::string CompilerType::TypeDescription() {
+ auto name = GetTypeName();
+ auto canonical_name = GetCanonicalType().GetTypeName();
+ if (name.IsEmpty() || canonical_name.IsEmpty()) {
+ return "''"; // should not happen
----------------
JDevlieghere wrote:
Should not happen as in we can guarantee that (in which case this should be an
`assert`) or as in this would only happen for broken input?
https://github.com/llvm/llvm-project/pull/73472
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