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llvm_backend_debug.cpp
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llvm_backend_debug.cpp
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gb_internal LLVMMetadataRef lb_get_llvm_metadata(lbModule *m, void *key) {
if (key == nullptr) {
return nullptr;
}
mutex_lock(&m->debug_values_mutex);
auto found = map_get(&m->debug_values, key);
mutex_unlock(&m->debug_values_mutex);
if (found) {
return *found;
}
return nullptr;
}
gb_internal void lb_set_llvm_metadata(lbModule *m, void *key, LLVMMetadataRef value) {
if (key != nullptr) {
mutex_lock(&m->debug_values_mutex);
map_set(&m->debug_values, key, value);
mutex_unlock(&m->debug_values_mutex);
}
}
gb_internal LLVMMetadataRef lb_get_current_debug_scope(lbProcedure *p) {
GB_ASSERT_MSG(p->debug_info != nullptr, "missing debug information for %.*s", LIT(p->name));
for (isize i = p->scope_stack.count-1; i >= 0; i--) {
Scope *s = p->scope_stack[i];
LLVMMetadataRef md = lb_get_llvm_metadata(p->module, s);
if (md) {
return md;
}
}
return p->debug_info;
}
gb_internal LLVMMetadataRef lb_debug_location_from_token_pos(lbProcedure *p, TokenPos pos) {
LLVMMetadataRef scope = lb_get_current_debug_scope(p);
GB_ASSERT_MSG(scope != nullptr, "%.*s", LIT(p->name));
return LLVMDIBuilderCreateDebugLocation(p->module->ctx, cast(unsigned)pos.line, cast(unsigned)pos.column, scope, nullptr);
}
gb_internal LLVMMetadataRef lb_debug_location_from_ast(lbProcedure *p, Ast *node) {
GB_ASSERT(node != nullptr);
return lb_debug_location_from_token_pos(p, ast_token(node).pos);
}
gb_internal LLVMMetadataRef lb_debug_end_location_from_ast(lbProcedure *p, Ast *node) {
GB_ASSERT(node != nullptr);
return lb_debug_location_from_token_pos(p, ast_end_token(node).pos);
}
gb_internal LLVMMetadataRef lb_debug_type_internal_proc(lbModule *m, Type *type) {
i64 size = type_size_of(type); // Check size
gb_unused(size);
GB_ASSERT(type != t_invalid);
/* unsigned const ptr_size = cast(unsigned)build_context.ptr_size;
unsigned const ptr_bits = cast(unsigned)(8*build_context.ptr_size); */
GB_ASSERT(type->kind == Type_Proc);
unsigned parameter_count = 1;
for (i32 i = 0; i < type->Proc.param_count; i++) {
Entity *e = type->Proc.params->Tuple.variables[i];
if (e->kind == Entity_Variable) {
parameter_count += 1;
}
}
LLVMMetadataRef *parameters = gb_alloc_array(permanent_allocator(), LLVMMetadataRef, parameter_count);
unsigned param_index = 0;
if (type->Proc.result_count == 0) {
parameters[param_index++] = nullptr;
} else {
parameters[param_index++] = lb_debug_type(m, type->Proc.results);
}
LLVMMetadataRef file = nullptr;
for (i32 i = 0; i < type->Proc.param_count; i++) {
Entity *e = type->Proc.params->Tuple.variables[i];
if (e->kind != Entity_Variable) {
continue;
}
parameters[param_index] = lb_debug_type(m, e->type);
param_index += 1;
}
LLVMDIFlags flags = LLVMDIFlagZero;
if (type->Proc.diverging) {
flags = LLVMDIFlagNoReturn;
}
return LLVMDIBuilderCreateSubroutineType(m->debug_builder, file, parameters, parameter_count, flags);
}
gb_internal LLVMMetadataRef lb_debug_struct_field(lbModule *m, String const &name, Type *type, u64 offset_in_bits) {
unsigned field_line = 1;
LLVMDIFlags field_flags = LLVMDIFlagZero;
AstPackage *pkg = m->info->runtime_package;
GB_ASSERT(pkg->files.count != 0);
LLVMMetadataRef file = lb_get_llvm_metadata(m, pkg->files[0]);
LLVMMetadataRef scope = file;
return LLVMDIBuilderCreateMemberType(m->debug_builder, scope, cast(char const *)name.text, name.len, file, field_line,
8*cast(u64)type_size_of(type), 8*cast(u32)type_align_of(type), offset_in_bits,
field_flags, lb_debug_type(m, type)
);
}
gb_internal LLVMMetadataRef lb_debug_basic_struct(lbModule *m, String const &name, u64 size_in_bits, u32 align_in_bits, LLVMMetadataRef *elements, unsigned element_count) {
AstPackage *pkg = m->info->runtime_package;
GB_ASSERT(pkg->files.count != 0);
LLVMMetadataRef file = lb_get_llvm_metadata(m, pkg->files[0]);
LLVMMetadataRef scope = file;
return LLVMDIBuilderCreateStructType(m->debug_builder, scope, cast(char const *)name.text, name.len, file, 1, size_in_bits, align_in_bits, LLVMDIFlagZero, nullptr, elements, element_count, 0, nullptr, "", 0);
}
gb_internal LLVMMetadataRef lb_debug_type_basic_type(lbModule *m, String const &name, u64 size_in_bits, LLVMDWARFTypeEncoding encoding, LLVMDIFlags flags = LLVMDIFlagZero) {
LLVMMetadataRef basic_type = LLVMDIBuilderCreateBasicType(m->debug_builder, cast(char const *)name.text, name.len, size_in_bits, encoding, flags);
#if 1
LLVMMetadataRef final_decl = LLVMDIBuilderCreateTypedef(m->debug_builder, basic_type, cast(char const *)name.text, name.len, nullptr, 0, nullptr, cast(u32)size_in_bits);
return final_decl;
#else
return basic_type;
#endif
}
gb_internal LLVMMetadataRef lb_debug_type_internal(lbModule *m, Type *type) {
i64 size = type_size_of(type); // Check size
gb_unused(size);
GB_ASSERT(type != t_invalid);
/* unsigned const ptr_size = cast(unsigned)build_context.ptr_size; */
unsigned const int_bits = cast(unsigned)(8*build_context.int_size);
unsigned const ptr_bits = cast(unsigned)(8*build_context.ptr_size);
switch (type->kind) {
case Type_Basic:
switch (type->Basic.kind) {
case Basic_llvm_bool: return lb_debug_type_basic_type(m, str_lit("llvm bool"), 1, LLVMDWARFTypeEncoding_Boolean);
case Basic_bool: return lb_debug_type_basic_type(m, str_lit("bool"), 8, LLVMDWARFTypeEncoding_Boolean);
case Basic_b8: return lb_debug_type_basic_type(m, str_lit("b8"), 8, LLVMDWARFTypeEncoding_Boolean);
case Basic_b16: return lb_debug_type_basic_type(m, str_lit("b16"), 16, LLVMDWARFTypeEncoding_Boolean);
case Basic_b32: return lb_debug_type_basic_type(m, str_lit("b32"), 32, LLVMDWARFTypeEncoding_Boolean);
case Basic_b64: return lb_debug_type_basic_type(m, str_lit("b64"), 64, LLVMDWARFTypeEncoding_Boolean);
case Basic_i8: return lb_debug_type_basic_type(m, str_lit("i8"), 8, LLVMDWARFTypeEncoding_Signed);
case Basic_u8: return lb_debug_type_basic_type(m, str_lit("u8"), 8, LLVMDWARFTypeEncoding_Unsigned);
case Basic_i16: return lb_debug_type_basic_type(m, str_lit("i16"), 16, LLVMDWARFTypeEncoding_Signed);
case Basic_u16: return lb_debug_type_basic_type(m, str_lit("u16"), 16, LLVMDWARFTypeEncoding_Unsigned);
case Basic_i32: return lb_debug_type_basic_type(m, str_lit("i32"), 32, LLVMDWARFTypeEncoding_Signed);
case Basic_u32: return lb_debug_type_basic_type(m, str_lit("u32"), 32, LLVMDWARFTypeEncoding_Unsigned);
case Basic_i64: return lb_debug_type_basic_type(m, str_lit("i64"), 64, LLVMDWARFTypeEncoding_Signed);
case Basic_u64: return lb_debug_type_basic_type(m, str_lit("u64"), 64, LLVMDWARFTypeEncoding_Unsigned);
case Basic_i128: return lb_debug_type_basic_type(m, str_lit("i128"), 128, LLVMDWARFTypeEncoding_Signed);
case Basic_u128: return lb_debug_type_basic_type(m, str_lit("u128"), 128, LLVMDWARFTypeEncoding_Unsigned);
case Basic_rune: return lb_debug_type_basic_type(m, str_lit("rune"), 32, LLVMDWARFTypeEncoding_Utf);
case Basic_f16: return lb_debug_type_basic_type(m, str_lit("f16"), 16, LLVMDWARFTypeEncoding_Float);
case Basic_f32: return lb_debug_type_basic_type(m, str_lit("f32"), 32, LLVMDWARFTypeEncoding_Float);
case Basic_f64: return lb_debug_type_basic_type(m, str_lit("f64"), 64, LLVMDWARFTypeEncoding_Float);
case Basic_int: return lb_debug_type_basic_type(m, str_lit("int"), int_bits, LLVMDWARFTypeEncoding_Signed);
case Basic_uint: return lb_debug_type_basic_type(m, str_lit("uint"), int_bits, LLVMDWARFTypeEncoding_Unsigned);
case Basic_uintptr: return lb_debug_type_basic_type(m, str_lit("uintptr"), ptr_bits, LLVMDWARFTypeEncoding_Unsigned);
case Basic_typeid:
return lb_debug_type_basic_type(m, str_lit("typeid"), ptr_bits, LLVMDWARFTypeEncoding_Unsigned);
// Endian Specific Types
case Basic_i16le: return lb_debug_type_basic_type(m, str_lit("i16le"), 16, LLVMDWARFTypeEncoding_Signed, LLVMDIFlagLittleEndian);
case Basic_u16le: return lb_debug_type_basic_type(m, str_lit("u16le"), 16, LLVMDWARFTypeEncoding_Unsigned, LLVMDIFlagLittleEndian);
case Basic_i32le: return lb_debug_type_basic_type(m, str_lit("i32le"), 32, LLVMDWARFTypeEncoding_Signed, LLVMDIFlagLittleEndian);
case Basic_u32le: return lb_debug_type_basic_type(m, str_lit("u32le"), 32, LLVMDWARFTypeEncoding_Unsigned, LLVMDIFlagLittleEndian);
case Basic_i64le: return lb_debug_type_basic_type(m, str_lit("i64le"), 64, LLVMDWARFTypeEncoding_Signed, LLVMDIFlagLittleEndian);
case Basic_u64le: return lb_debug_type_basic_type(m, str_lit("u64le"), 64, LLVMDWARFTypeEncoding_Unsigned, LLVMDIFlagLittleEndian);
case Basic_i128le: return lb_debug_type_basic_type(m, str_lit("i128le"), 128, LLVMDWARFTypeEncoding_Signed, LLVMDIFlagLittleEndian);
case Basic_u128le: return lb_debug_type_basic_type(m, str_lit("u128le"), 128, LLVMDWARFTypeEncoding_Unsigned, LLVMDIFlagLittleEndian);
case Basic_f16le: return lb_debug_type_basic_type(m, str_lit("f16le"), 16, LLVMDWARFTypeEncoding_Float, LLVMDIFlagLittleEndian);
case Basic_f32le: return lb_debug_type_basic_type(m, str_lit("f32le"), 32, LLVMDWARFTypeEncoding_Float, LLVMDIFlagLittleEndian);
case Basic_f64le: return lb_debug_type_basic_type(m, str_lit("f64le"), 64, LLVMDWARFTypeEncoding_Float, LLVMDIFlagLittleEndian);
case Basic_i16be: return lb_debug_type_basic_type(m, str_lit("i16be"), 16, LLVMDWARFTypeEncoding_Signed, LLVMDIFlagBigEndian);
case Basic_u16be: return lb_debug_type_basic_type(m, str_lit("u16be"), 16, LLVMDWARFTypeEncoding_Unsigned, LLVMDIFlagBigEndian);
case Basic_i32be: return lb_debug_type_basic_type(m, str_lit("i32be"), 32, LLVMDWARFTypeEncoding_Signed, LLVMDIFlagBigEndian);
case Basic_u32be: return lb_debug_type_basic_type(m, str_lit("u32be"), 32, LLVMDWARFTypeEncoding_Unsigned, LLVMDIFlagBigEndian);
case Basic_i64be: return lb_debug_type_basic_type(m, str_lit("i64be"), 64, LLVMDWARFTypeEncoding_Signed, LLVMDIFlagBigEndian);
case Basic_u64be: return lb_debug_type_basic_type(m, str_lit("u64be"), 64, LLVMDWARFTypeEncoding_Unsigned, LLVMDIFlagBigEndian);
case Basic_i128be: return lb_debug_type_basic_type(m, str_lit("i128be"), 128, LLVMDWARFTypeEncoding_Signed, LLVMDIFlagBigEndian);
case Basic_u128be: return lb_debug_type_basic_type(m, str_lit("u128be"), 128, LLVMDWARFTypeEncoding_Unsigned, LLVMDIFlagBigEndian);
case Basic_f16be: return lb_debug_type_basic_type(m, str_lit("f16be"), 16, LLVMDWARFTypeEncoding_Float, LLVMDIFlagLittleEndian);
case Basic_f32be: return lb_debug_type_basic_type(m, str_lit("f32be"), 32, LLVMDWARFTypeEncoding_Float, LLVMDIFlagLittleEndian);
case Basic_f64be: return lb_debug_type_basic_type(m, str_lit("f64be"), 64, LLVMDWARFTypeEncoding_Float, LLVMDIFlagLittleEndian);
case Basic_complex32:
{
LLVMMetadataRef elements[2] = {};
elements[0] = lb_debug_struct_field(m, str_lit("real"), t_f16, 0);
elements[1] = lb_debug_struct_field(m, str_lit("imag"), t_f16, 4);
return lb_debug_basic_struct(m, str_lit("complex32"), 64, 32, elements, gb_count_of(elements));
}
case Basic_complex64:
{
LLVMMetadataRef elements[2] = {};
elements[0] = lb_debug_struct_field(m, str_lit("real"), t_f32, 0);
elements[1] = lb_debug_struct_field(m, str_lit("imag"), t_f32, 4);
return lb_debug_basic_struct(m, str_lit("complex64"), 64, 32, elements, gb_count_of(elements));
}
case Basic_complex128:
{
LLVMMetadataRef elements[2] = {};
elements[0] = lb_debug_struct_field(m, str_lit("real"), t_f64, 0);
elements[1] = lb_debug_struct_field(m, str_lit("imag"), t_f64, 8);
return lb_debug_basic_struct(m, str_lit("complex128"), 128, 64, elements, gb_count_of(elements));
}
case Basic_quaternion64:
{
LLVMMetadataRef elements[4] = {};
elements[0] = lb_debug_struct_field(m, str_lit("imag"), t_f16, 0);
elements[1] = lb_debug_struct_field(m, str_lit("jmag"), t_f16, 4);
elements[2] = lb_debug_struct_field(m, str_lit("kmag"), t_f16, 8);
elements[3] = lb_debug_struct_field(m, str_lit("real"), t_f16, 12);
return lb_debug_basic_struct(m, str_lit("quaternion64"), 128, 32, elements, gb_count_of(elements));
}
case Basic_quaternion128:
{
LLVMMetadataRef elements[4] = {};
elements[0] = lb_debug_struct_field(m, str_lit("imag"), t_f32, 0);
elements[1] = lb_debug_struct_field(m, str_lit("jmag"), t_f32, 4);
elements[2] = lb_debug_struct_field(m, str_lit("kmag"), t_f32, 8);
elements[3] = lb_debug_struct_field(m, str_lit("real"), t_f32, 12);
return lb_debug_basic_struct(m, str_lit("quaternion128"), 128, 32, elements, gb_count_of(elements));
}
case Basic_quaternion256:
{
LLVMMetadataRef elements[4] = {};
elements[0] = lb_debug_struct_field(m, str_lit("imag"), t_f64, 0);
elements[1] = lb_debug_struct_field(m, str_lit("jmag"), t_f64, 8);
elements[2] = lb_debug_struct_field(m, str_lit("kmag"), t_f64, 16);
elements[3] = lb_debug_struct_field(m, str_lit("real"), t_f64, 24);
return lb_debug_basic_struct(m, str_lit("quaternion256"), 256, 32, elements, gb_count_of(elements));
}
case Basic_rawptr:
{
LLVMMetadataRef void_type = lb_debug_type_basic_type(m, str_lit("void"), 8, LLVMDWARFTypeEncoding_Unsigned);
return LLVMDIBuilderCreatePointerType(m->debug_builder, void_type, ptr_bits, ptr_bits, LLVMDWARFTypeEncoding_Address, "rawptr", 6);
}
case Basic_string:
{
LLVMMetadataRef elements[2] = {};
elements[0] = lb_debug_struct_field(m, str_lit("data"), t_u8_ptr, 0);
elements[1] = lb_debug_struct_field(m, str_lit("len"), t_int, int_bits);
return lb_debug_basic_struct(m, str_lit("string"), 2*int_bits, int_bits, elements, gb_count_of(elements));
}
case Basic_cstring:
{
LLVMMetadataRef char_type = lb_debug_type_basic_type(m, str_lit("char"), 8, LLVMDWARFTypeEncoding_Unsigned);
return LLVMDIBuilderCreatePointerType(m->debug_builder, char_type, ptr_bits, ptr_bits, 0, "cstring", 7);
}
case Basic_any:
{
LLVMMetadataRef elements[2] = {};
elements[0] = lb_debug_struct_field(m, str_lit("data"), t_rawptr, 0);
elements[1] = lb_debug_struct_field(m, str_lit("id"), t_typeid, ptr_bits);
return lb_debug_basic_struct(m, str_lit("any"), 2*ptr_bits, ptr_bits, elements, gb_count_of(elements));
}
// Untyped types
case Basic_UntypedBool: GB_PANIC("Basic_UntypedBool"); break;
case Basic_UntypedInteger: GB_PANIC("Basic_UntypedInteger"); break;
case Basic_UntypedFloat: GB_PANIC("Basic_UntypedFloat"); break;
case Basic_UntypedComplex: GB_PANIC("Basic_UntypedComplex"); break;
case Basic_UntypedQuaternion: GB_PANIC("Basic_UntypedQuaternion"); break;
case Basic_UntypedString: GB_PANIC("Basic_UntypedString"); break;
case Basic_UntypedRune: GB_PANIC("Basic_UntypedRune"); break;
case Basic_UntypedNil: GB_PANIC("Basic_UntypedNil"); break;
case Basic_UntypedUninit: GB_PANIC("Basic_UntypedUninit"); break;
default: GB_PANIC("Basic Unhandled"); break;
}
break;
case Type_Named:
GB_PANIC("Type_Named should be handled in lb_debug_type separately");
case Type_SoaPointer:
return LLVMDIBuilderCreatePointerType(m->debug_builder, lb_debug_type(m, type->SoaPointer.elem), int_bits, int_bits, 0, nullptr, 0);
case Type_Pointer:
return LLVMDIBuilderCreatePointerType(m->debug_builder, lb_debug_type(m, type->Pointer.elem), ptr_bits, ptr_bits, 0, nullptr, 0);
case Type_MultiPointer:
return LLVMDIBuilderCreatePointerType(m->debug_builder, lb_debug_type(m, type->MultiPointer.elem), ptr_bits, ptr_bits, 0, nullptr, 0);
case Type_Array: {
LLVMMetadataRef subscripts[1] = {};
subscripts[0] = LLVMDIBuilderGetOrCreateSubrange(m->debug_builder,
0ll,
type->Array.count
);
return LLVMDIBuilderCreateArrayType(m->debug_builder,
8*cast(uint64_t)type_size_of(type),
8*cast(unsigned)type_align_of(type),
lb_debug_type(m, type->Array.elem),
subscripts, gb_count_of(subscripts));
}
case Type_EnumeratedArray: {
LLVMMetadataRef subscripts[1] = {};
subscripts[0] = LLVMDIBuilderGetOrCreateSubrange(m->debug_builder,
0ll,
type->EnumeratedArray.count
);
LLVMMetadataRef array_type = LLVMDIBuilderCreateArrayType(m->debug_builder,
8*cast(uint64_t)type_size_of(type),
8*cast(unsigned)type_align_of(type),
lb_debug_type(m, type->EnumeratedArray.elem),
subscripts, gb_count_of(subscripts));
gbString name = type_to_string(type, temporary_allocator());
return LLVMDIBuilderCreateTypedef(m->debug_builder, array_type, name, gb_string_length(name), nullptr, 0, nullptr, cast(u32)(8*type_align_of(type)));
}
case Type_Struct:
case Type_Union:
case Type_Slice:
case Type_DynamicArray:
case Type_Map:
case Type_BitSet:
{
unsigned tag = DW_TAG_structure_type;
if (is_type_raw_union(type) || is_type_union(type)) {
tag = DW_TAG_union_type;
}
u64 size_in_bits = cast(u64)(8*type_size_of(type));
u32 align_in_bits = cast(u32)(8*type_size_of(type));
LLVMDIFlags flags = LLVMDIFlagZero;
LLVMMetadataRef temp_forward_decl = LLVMDIBuilderCreateReplaceableCompositeType(
m->debug_builder, tag, "", 0, nullptr, nullptr, 0, 0, size_in_bits, align_in_bits, flags, "", 0
);
lbIncompleteDebugType idt = {};
idt.type = type;
idt.metadata = temp_forward_decl;
array_add(&m->debug_incomplete_types, idt);
lb_set_llvm_metadata(m, type, temp_forward_decl);
return temp_forward_decl;
}
case Type_Enum:
{
LLVMMetadataRef scope = nullptr;
LLVMMetadataRef file = nullptr;
unsigned line = 0;
unsigned element_count = cast(unsigned)type->Enum.fields.count;
LLVMMetadataRef *elements = gb_alloc_array(permanent_allocator(), LLVMMetadataRef, element_count);
Type *bt = base_enum_type(type);
LLVMBool is_unsigned = is_type_unsigned(bt);
for (unsigned i = 0; i < element_count; i++) {
Entity *f = type->Enum.fields[i];
GB_ASSERT(f->kind == Entity_Constant);
String name = f->token.string;
i64 value = exact_value_to_i64(f->Constant.value);
elements[i] = LLVMDIBuilderCreateEnumerator(m->debug_builder, cast(char const *)name.text, cast(size_t)name.len, value, is_unsigned);
}
LLVMMetadataRef class_type = lb_debug_type(m, bt);
return LLVMDIBuilderCreateEnumerationType(m->debug_builder, scope, "", 0, file, line, 8*type_size_of(type), 8*cast(unsigned)type_align_of(type), elements, element_count, class_type);
}
case Type_Tuple:
if (type->Tuple.variables.count == 1) {
return lb_debug_type(m, type->Tuple.variables[0]->type);
} else {
type_set_offsets(type);
LLVMMetadataRef parent_scope = nullptr;
LLVMMetadataRef scope = nullptr;
LLVMMetadataRef file = nullptr;
unsigned line = 0;
u64 size_in_bits = 8*cast(u64)type_size_of(type);
u32 align_in_bits = 8*cast(u32)type_align_of(type);
LLVMDIFlags flags = LLVMDIFlagZero;
unsigned element_count = cast(unsigned)type->Tuple.variables.count;
LLVMMetadataRef *elements = gb_alloc_array(permanent_allocator(), LLVMMetadataRef, element_count);
for (unsigned i = 0; i < element_count; i++) {
Entity *f = type->Tuple.variables[i];
GB_ASSERT(f->kind == Entity_Variable);
String name = f->token.string;
unsigned field_line = 0;
LLVMDIFlags field_flags = LLVMDIFlagZero;
u64 offset_in_bits = 8*cast(u64)type->Tuple.offsets[i];
elements[i] = LLVMDIBuilderCreateMemberType(m->debug_builder, scope, cast(char const *)name.text, name.len, file, field_line,
8*cast(u64)type_size_of(f->type), 8*cast(u32)type_align_of(f->type), offset_in_bits,
field_flags, lb_debug_type(m, f->type)
);
}
return LLVMDIBuilderCreateStructType(m->debug_builder, parent_scope, "", 0, file, line,
size_in_bits, align_in_bits, flags,
nullptr, elements, element_count, 0, nullptr,
"", 0
);
}
case Type_Proc:
{
LLVMMetadataRef proc_underlying_type = lb_debug_type_internal_proc(m, type);
LLVMMetadataRef pointer_type = LLVMDIBuilderCreatePointerType(m->debug_builder, proc_underlying_type, ptr_bits, ptr_bits, 0, nullptr, 0);
gbString name = type_to_string(type, temporary_allocator());
return LLVMDIBuilderCreateTypedef(m->debug_builder, pointer_type, name, gb_string_length(name), nullptr, 0, nullptr, cast(u32)(8*type_align_of(type)));
}
break;
case Type_SimdVector:
{
LLVMMetadataRef elem = lb_debug_type(m, type->SimdVector.elem);
LLVMMetadataRef subscripts[1] = {};
subscripts[0] = LLVMDIBuilderGetOrCreateSubrange(m->debug_builder,
0ll,
type->SimdVector.count
);
return LLVMDIBuilderCreateVectorType(
m->debug_builder,
8*cast(unsigned)type_size_of(type), 8*cast(unsigned)type_align_of(type),
elem, subscripts, gb_count_of(subscripts));
}
case Type_RelativePointer: {
LLVMMetadataRef base_integer = lb_debug_type(m, type->RelativePointer.base_integer);
gbString name = type_to_string(type, temporary_allocator());
return LLVMDIBuilderCreateTypedef(m->debug_builder, base_integer, name, gb_string_length(name), nullptr, 0, nullptr, cast(u32)(8*type_align_of(type)));
}
case Type_RelativeMultiPointer: {
LLVMMetadataRef base_integer = lb_debug_type(m, type->RelativeMultiPointer.base_integer);
gbString name = type_to_string(type, temporary_allocator());
return LLVMDIBuilderCreateTypedef(m->debug_builder, base_integer, name, gb_string_length(name), nullptr, 0, nullptr, cast(u32)(8*type_align_of(type)));
}
case Type_Matrix: {
LLVMMetadataRef subscripts[1] = {};
subscripts[0] = LLVMDIBuilderGetOrCreateSubrange(m->debug_builder,
0ll,
matrix_type_total_internal_elems(type)
);
return LLVMDIBuilderCreateArrayType(m->debug_builder,
8*cast(uint64_t)type_size_of(type),
8*cast(unsigned)type_align_of(type),
lb_debug_type(m, type->Matrix.elem),
subscripts, gb_count_of(subscripts));
}
}
GB_PANIC("Invalid type %s", type_to_string(type));
return nullptr;
}
gb_internal LLVMMetadataRef lb_get_base_scope_metadata(lbModule *m, Scope *scope) {
LLVMMetadataRef found = nullptr;
for (;;) {
if (scope == nullptr) {
return nullptr;
}
if (scope->flags & ScopeFlag_Proc) {
found = lb_get_llvm_metadata(m, scope->procedure_entity);
if (found) {
return found;
}
}
if (scope->flags & ScopeFlag_File) {
found = lb_get_llvm_metadata(m, scope->file);
if (found) {
return found;
}
}
scope = scope->parent;
}
}
gb_internal LLVMMetadataRef lb_debug_type(lbModule *m, Type *type) {
GB_ASSERT(type != nullptr);
LLVMMetadataRef found = lb_get_llvm_metadata(m, type);
if (found != nullptr) {
return found;
}
MUTEX_GUARD(&m->debug_values_mutex);
if (type->kind == Type_Named) {
LLVMMetadataRef file = nullptr;
unsigned line = 0;
LLVMMetadataRef scope = nullptr;
if (type->Named.type_name != nullptr) {
Entity *e = type->Named.type_name;
scope = lb_get_base_scope_metadata(m, e->scope);
if (scope != nullptr) {
file = LLVMDIScopeGetFile(scope);
}
line = cast(unsigned)e->token.pos.line;
}
// TODO(bill): location data for Type_Named
u64 size_in_bits = 8*type_size_of(type);
u32 align_in_bits = 8*cast(u32)type_align_of(type);
String name = type->Named.name;
char const *name_text = cast(char const *)name.text;
size_t name_len = cast(size_t)name.len;
unsigned tag = DW_TAG_structure_type;
if (is_type_raw_union(type) || is_type_union(type)) {
tag = DW_TAG_union_type;
}
LLVMDIFlags flags = LLVMDIFlagZero;
Type *bt = base_type(type->Named.base);
lbIncompleteDebugType idt = {};
idt.type = type;
switch (bt->kind) {
case Type_Enum:
{
unsigned line = 0;
unsigned element_count = cast(unsigned)bt->Enum.fields.count;
LLVMMetadataRef *elements = gb_alloc_array(permanent_allocator(), LLVMMetadataRef, element_count);
Type *ct = base_enum_type(type);
LLVMBool is_unsigned = is_type_unsigned(ct);
for (unsigned i = 0; i < element_count; i++) {
Entity *f = bt->Enum.fields[i];
GB_ASSERT(f->kind == Entity_Constant);
String name = f->token.string;
i64 value = exact_value_to_i64(f->Constant.value);
elements[i] = LLVMDIBuilderCreateEnumerator(m->debug_builder, cast(char const *)name.text, cast(size_t)name.len, value, is_unsigned);
}
LLVMMetadataRef class_type = lb_debug_type(m, ct);
return LLVMDIBuilderCreateEnumerationType(m->debug_builder, scope, name_text, name_len, file, line, 8*type_size_of(type), 8*cast(unsigned)type_align_of(type), elements, element_count, class_type);
}
default:
{
LLVMMetadataRef debug_bt = lb_debug_type(m, bt);
LLVMMetadataRef final_decl = LLVMDIBuilderCreateTypedef(m->debug_builder, debug_bt, name_text, name_len, file, line, scope, align_in_bits);
lb_set_llvm_metadata(m, type, final_decl);
return final_decl;
}
case Type_Slice:
case Type_DynamicArray:
case Type_Map:
case Type_Struct:
case Type_Union:
case Type_BitSet:
{
LLVMMetadataRef temp_forward_decl = LLVMDIBuilderCreateReplaceableCompositeType(
m->debug_builder, tag, name_text, name_len, nullptr, nullptr, 0, 0, size_in_bits, align_in_bits, flags, "", 0
);
idt.metadata = temp_forward_decl;
array_add(&m->debug_incomplete_types, idt);
lb_set_llvm_metadata(m, type, temp_forward_decl);
LLVMMetadataRef dummy = nullptr;
switch (bt->kind) {
case Type_Slice:
dummy = lb_debug_type(m, bt->Slice.elem);
dummy = lb_debug_type(m, alloc_type_pointer(bt->Slice.elem));
dummy = lb_debug_type(m, t_int);
break;
case Type_DynamicArray:
dummy = lb_debug_type(m, bt->DynamicArray.elem);
dummy = lb_debug_type(m, alloc_type_pointer(bt->DynamicArray.elem));
dummy = lb_debug_type(m, t_int);
dummy = lb_debug_type(m, t_allocator);
break;
case Type_Map:
dummy = lb_debug_type(m, bt->Map.key);
dummy = lb_debug_type(m, bt->Map.value);
dummy = lb_debug_type(m, t_int);
dummy = lb_debug_type(m, t_allocator);
dummy = lb_debug_type(m, t_uintptr);
break;
case Type_BitSet:
if (bt->BitSet.elem) dummy = lb_debug_type(m, bt->BitSet.elem);
if (bt->BitSet.underlying) dummy = lb_debug_type(m, bt->BitSet.underlying);
break;
}
return temp_forward_decl;
}
}
}
LLVMMetadataRef dt = lb_debug_type_internal(m, type);
lb_set_llvm_metadata(m, type, dt);
return dt;
}
gb_internal void lb_debug_complete_types(lbModule *m) {
unsigned const int_bits = cast(unsigned)(8*build_context.int_size);
for_array(debug_incomplete_type_index, m->debug_incomplete_types) {
TEMPORARY_ALLOCATOR_GUARD();
auto const &idt = m->debug_incomplete_types[debug_incomplete_type_index];
GB_ASSERT(idt.type != nullptr);
GB_ASSERT(idt.metadata != nullptr);
Type *t = idt.type;
Type *bt = base_type(t);
LLVMMetadataRef parent_scope = nullptr;
LLVMMetadataRef file = nullptr;
unsigned line_number = 0;
u64 size_in_bits = 8*type_size_of(t);
u32 align_in_bits = cast(u32)(8*type_align_of(t));
LLVMDIFlags flags = LLVMDIFlagZero;
LLVMMetadataRef derived_from = nullptr;
LLVMMetadataRef *elements = nullptr;
unsigned element_count = 0;
unsigned runtime_lang = 0; // Objective-C runtime version
char const *unique_id = "";
LLVMMetadataRef vtable_holder = nullptr;
size_t unique_id_len = 0;
LLVMMetadataRef record_scope = nullptr;
switch (bt->kind) {
case Type_Slice:
case Type_DynamicArray:
case Type_Map:
case Type_Struct:
case Type_Union:
case Type_BitSet: {
bool is_union = is_type_raw_union(bt) || is_type_union(bt);
String name = str_lit("<anonymous-struct>");
if (t->kind == Type_Named) {
name = t->Named.name;
if (t->Named.type_name && t->Named.type_name->pkg && t->Named.type_name->pkg->name.len != 0) {
name = concatenate3_strings(temporary_allocator(), t->Named.type_name->pkg->name, str_lit("."), t->Named.name);
}
LLVMMetadataRef file = nullptr;
unsigned line = 0;
LLVMMetadataRef file_scope = nullptr;
if (t->Named.type_name != nullptr) {
Entity *e = t->Named.type_name;
file_scope = lb_get_llvm_metadata(m, e->scope);
if (file_scope != nullptr) {
file = LLVMDIScopeGetFile(file_scope);
}
line = cast(unsigned)e->token.pos.line;
}
// TODO(bill): location data for Type_Named
} else {
name = make_string_c(type_to_string(t, temporary_allocator()));
}
switch (bt->kind) {
case Type_Slice:
element_count = 2;
elements = gb_alloc_array(temporary_allocator(), LLVMMetadataRef, element_count);
#if defined(GB_SYSTEM_WINDOWS)
elements[0] = lb_debug_struct_field(m, str_lit("data"), alloc_type_pointer(bt->Slice.elem), 0*int_bits);
#else
// FIX HACK TODO(bill): For some reason this causes a crash in *nix systems due to the reference counting
// of the debug type information
elements[0] = lb_debug_struct_field(m, str_lit("data"), t_rawptr, 0*int_bits);
#endif
elements[1] = lb_debug_struct_field(m, str_lit("len"), t_int, 1*int_bits);
break;
case Type_DynamicArray:
element_count = 4;
elements = gb_alloc_array(temporary_allocator(), LLVMMetadataRef, element_count);
#if defined(GB_SYSTEM_WINDOWS)
elements[0] = lb_debug_struct_field(m, str_lit("data"), alloc_type_pointer(bt->DynamicArray.elem), 0*int_bits);
#else
// FIX HACK TODO(bill): For some reason this causes a crash in *nix systems due to the reference counting
// of the debug type information
elements[0] = lb_debug_struct_field(m, str_lit("data"), t_rawptr, 0*int_bits);
#endif
elements[1] = lb_debug_struct_field(m, str_lit("len"), t_int, 1*int_bits);
elements[2] = lb_debug_struct_field(m, str_lit("cap"), t_int, 2*int_bits);
elements[3] = lb_debug_struct_field(m, str_lit("allocator"), t_allocator, 3*int_bits);
break;
case Type_Map:
GB_ASSERT(t_raw_map != nullptr);
bt = base_type(t_raw_map);
/*fallthrough*/
case Type_Struct:
if (file == nullptr) {
if (bt->Struct.node) {
file = lb_get_llvm_metadata(m, bt->Struct.node->file());
line_number = cast(unsigned)ast_token(bt->Struct.node).pos.line;
}
}
type_set_offsets(bt);
{
isize element_offset = 0;
record_scope = lb_get_llvm_metadata(m, bt->Struct.scope);
switch (bt->Struct.soa_kind) {
case StructSoa_Slice: element_offset = 1; break;
case StructSoa_Dynamic: element_offset = 3; break;
}
element_count = cast(unsigned)(bt->Struct.fields.count + element_offset);
elements = gb_alloc_array(temporary_allocator(), LLVMMetadataRef, element_count);
isize field_size_bits = 8*type_size_of(bt) - element_offset*int_bits;
switch (bt->Struct.soa_kind) {
case StructSoa_Slice:
elements[0] = LLVMDIBuilderCreateMemberType(
m->debug_builder, record_scope,
".len", 4,
file, 0,
8*cast(u64)type_size_of(t_int), 8*cast(u32)type_align_of(t_int),
field_size_bits,
LLVMDIFlagZero, lb_debug_type(m, t_int)
);
break;
case StructSoa_Dynamic:
elements[0] = LLVMDIBuilderCreateMemberType(
m->debug_builder, record_scope,
".len", 4,
file, 0,
8*cast(u64)type_size_of(t_int), 8*cast(u32)type_align_of(t_int),
field_size_bits + 0*int_bits,
LLVMDIFlagZero, lb_debug_type(m, t_int)
);
elements[1] = LLVMDIBuilderCreateMemberType(
m->debug_builder, record_scope,
".cap", 4,
file, 0,
8*cast(u64)type_size_of(t_int), 8*cast(u32)type_align_of(t_int),
field_size_bits + 1*int_bits,
LLVMDIFlagZero, lb_debug_type(m, t_int)
);
elements[2] = LLVMDIBuilderCreateMemberType(
m->debug_builder, record_scope,
".allocator", 10,
file, 0,
8*cast(u64)type_size_of(t_int), 8*cast(u32)type_align_of(t_int),
field_size_bits + 2*int_bits,
LLVMDIFlagZero, lb_debug_type(m, t_allocator)
);
break;
}
for_array(j, bt->Struct.fields) {
Entity *f = bt->Struct.fields[j];
String fname = f->token.string;
unsigned field_line = 0;
LLVMDIFlags field_flags = LLVMDIFlagZero;
GB_ASSERT(bt->Struct.offsets != nullptr);
u64 offset_in_bits = 8*cast(u64)bt->Struct.offsets[j];
elements[element_offset+j] = LLVMDIBuilderCreateMemberType(
m->debug_builder, record_scope,
cast(char const *)fname.text, cast(size_t)fname.len,
file, field_line,
8*cast(u64)type_size_of(f->type), 8*cast(u32)type_align_of(f->type),
offset_in_bits,
field_flags, lb_debug_type(m, f->type)
);
}
}
break;
case Type_Union:
{
if (file == nullptr) {
GB_ASSERT(bt->Union.node != nullptr);
file = lb_get_llvm_metadata(m, bt->Union.node->file());
line_number = cast(unsigned)ast_token(bt->Union.node).pos.line;
}
isize index_offset = 1;
if (is_type_union_maybe_pointer(bt)) {
index_offset = 0;
}
record_scope = lb_get_llvm_metadata(m, bt->Union.scope);
element_count = cast(unsigned)bt->Union.variants.count;
if (index_offset > 0) {
element_count += 1;
}
elements = gb_alloc_array(temporary_allocator(), LLVMMetadataRef, element_count);
if (index_offset > 0) {
Type *tag_type = union_tag_type(bt);
unsigned field_line = 0;
u64 offset_in_bits = 8*cast(u64)bt->Union.variant_block_size;
LLVMDIFlags field_flags = LLVMDIFlagZero;
elements[0] = LLVMDIBuilderCreateMemberType(
m->debug_builder, record_scope,
"tag", 3,
file, field_line,
8*cast(u64)type_size_of(tag_type), 8*cast(u32)type_align_of(tag_type),
offset_in_bits,
field_flags, lb_debug_type(m, tag_type)
);
}
for_array(j, bt->Union.variants) {
Type *variant = bt->Union.variants[j];
unsigned field_index = cast(unsigned)(index_offset+j);
char name[16] = {};
gb_snprintf(name, gb_size_of(name), "v%u", field_index);
isize name_len = gb_strlen(name);
unsigned field_line = 0;
LLVMDIFlags field_flags = LLVMDIFlagZero;
u64 offset_in_bits = 0;
elements[field_index] = LLVMDIBuilderCreateMemberType(
m->debug_builder, record_scope,
name, name_len,
file, field_line,
8*cast(u64)type_size_of(variant), 8*cast(u32)type_align_of(variant),
offset_in_bits,
field_flags, lb_debug_type(m, variant)
);
}
}
break;
case Type_BitSet:
{
if (file == nullptr) {
GB_ASSERT(bt->BitSet.node != nullptr);
file = lb_get_llvm_metadata(m, bt->BitSet.node->file());
line_number = cast(unsigned)ast_token(bt->BitSet.node).pos.line;
}
LLVMMetadataRef bit_set_field_type = lb_debug_type(m, t_bool);
LLVMMetadataRef scope = file;
Type *elem = base_type(bt->BitSet.elem);
if (elem->kind == Type_Enum) {
element_count = cast(unsigned)elem->Enum.fields.count;
elements = gb_alloc_array(temporary_allocator(), LLVMMetadataRef, element_count);
for_array(i, elem->Enum.fields) {
Entity *f = elem->Enum.fields[i];
GB_ASSERT(f->kind == Entity_Constant);
i64 val = exact_value_to_i64(f->Constant.value);
String name = f->token.string;
u64 offset_in_bits = cast(u64)(val - bt->BitSet.lower);
elements[i] = LLVMDIBuilderCreateBitFieldMemberType(
m->debug_builder,
scope,
cast(char const *)name.text, name.len,
file, line_number,
1,
offset_in_bits,
0,
LLVMDIFlagZero,
bit_set_field_type
);
}
} else {
char name[32] = {};
GB_ASSERT(is_type_integer(elem));
i64 count = bt->BitSet.upper - bt->BitSet.lower + 1;
GB_ASSERT(0 <= count);
element_count = cast(unsigned)count;
elements = gb_alloc_array(temporary_allocator(), LLVMMetadataRef, element_count);
for (unsigned i = 0; i < element_count; i++) {
u64 offset_in_bits = i;
i64 val = bt->BitSet.lower + cast(i64)i;
gb_snprintf(name, gb_count_of(name), "%lld", cast(long long)val);
elements[i] = LLVMDIBuilderCreateBitFieldMemberType(
m->debug_builder,
scope,
name, gb_strlen(name),
file, line_number,
1,
offset_in_bits,
0,
LLVMDIFlagZero,
bit_set_field_type
);
}
}
}
}
LLVMMetadataRef final_metadata = nullptr;
if (is_union) {
final_metadata = LLVMDIBuilderCreateUnionType(
m->debug_builder,
parent_scope,
cast(char const *)name.text, cast(size_t)name.len,
file, line_number,
size_in_bits, align_in_bits,
flags,
elements, element_count,
runtime_lang,
unique_id, unique_id_len
);
} else {
final_metadata = LLVMDIBuilderCreateStructType(
m->debug_builder,
parent_scope,
cast(char const *)name.text, cast(size_t)name.len,
file, line_number,
size_in_bits, align_in_bits,
flags,
derived_from,
elements, element_count,
runtime_lang,
vtable_holder,
unique_id, unique_id_len
);
}
LLVMMetadataReplaceAllUsesWith(idt.metadata, final_metadata);
lb_set_llvm_metadata(m, idt.type, final_metadata);
} break;
default:
GB_PANIC("invalid incomplete debug type");
break;
}
}
array_clear(&m->debug_incomplete_types);
}
gb_internal void lb_add_debug_local_variable(lbProcedure *p, LLVMValueRef ptr, Type *type, Token const &token) {
if (p->debug_info == nullptr) {
return;
}
if (type == nullptr) {
return;
}
if (type == t_invalid) {
return;
}
if (p->body == nullptr) {
return;
}
lbModule *m = p->module;
String const &name = token.string;
if (name == "" || name == "_") {
return;
}
if (lb_get_llvm_metadata(m, ptr) != nullptr) {
// Already been set
return;
}
AstFile *file = p->body->file();
LLVMMetadataRef llvm_scope = lb_get_current_debug_scope(p);
LLVMMetadataRef llvm_file = lb_get_llvm_metadata(m, file);
GB_ASSERT(llvm_scope != nullptr);
if (llvm_file == nullptr) {
llvm_file = LLVMDIScopeGetFile(llvm_scope);
}
if (llvm_file == nullptr) {
return;
}
unsigned alignment_in_bits = cast(unsigned)(8*type_align_of(type));