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Forward declared type
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This commit is contained in:
David Gonzalez Martin 2025-05-23 20:02:10 -06:00
parent 5de4ba76f5
commit d62305b10a
9 changed files with 2113 additions and 520 deletions
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2
CMakeLists.txt
View File

@ -48,5 +48,3 @@ target_link_libraries(bb PUBLIC
)
target_compile_options(bb PRIVATE -Wall -Wextra -pedantic -Wpedantic -Werror -Wno-c99-extensions -Wno-unused-function -Wno-missing-designated-field-initializers -funsigned-char -fwrapv -fno-strict-aliasing)
# target_compile_options(bb PRIVATE -fsanitize=address)
# target_link_options(bb PRIVATE -fsanitize=address)

907
src/compiler.bbb
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File diff suppressed because it is too large Load Diff

25
src/compiler.cpp
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@ -2,6 +2,7 @@
fn void compile(Arena* arena, Options options)
{
Module module;
auto base_allocation_type_count = i128_offset + // 64 * 2 for basic integer types
2 + // u128, s128
2; // void, noreturn
@ -32,6 +33,7 @@ fn void compile(Arena* arena, Options options)
},
.id = TypeId::integer,
.name = name,
.scope = &module.scope,
};
if (previous) previous->next = type_it;
previous = type_it;
@ -50,6 +52,7 @@ fn void compile(Arena* arena, Options options)
.id = TypeId::integer,
.name = name,
.next = previous,
.scope = &module.scope,
};
if (previous) previous->next = type_it;
previous = type_it;
@ -67,18 +70,22 @@ fn void compile(Arena* arena, Options options)
.id = TypeId::void_type,
.name = string_literal("void"),
.next = noreturn_type,
.scope = &module.scope,
};
*noreturn_type = {
.id = TypeId::noreturn,
.name = string_literal("noreturn"),
.scope = &module.scope,
};
auto module = Module{
module = Module{
.arena = arena,
.content = options.content,
.first_type = base_type_allocation.pointer,
.last_type = noreturn_type,
.scope = {
.types = {
.first = base_type_allocation.pointer,
.last = noreturn_type,
},
.kind = ScopeKind::global,
},
.name = options.name,
@ -306,8 +313,12 @@ global_variable String names[] =
string_literal("noreturn_macro"),
string_literal("generic_pointer_array"),
string_literal("self_referential_struct"), // TODO
// string_literal("forward_declared_type"),
string_literal("self_referential_struct"),
string_literal("forward_declared_type"),
string_literal("enum_array"),
string_literal("opaque"),
string_literal("basic_struct_passing"),
};
void entry_point(Slice<const char*> arguments, Slice<char* const> environment)
@ -382,7 +393,7 @@ void entry_point(Slice<const char*> arguments, Slice<char* const> environment)
if (arguments.length >= 5)
{
auto has_debug_info_string = c_string_to_slice(arguments[3]);
auto has_debug_info_string = c_string_to_slice(arguments[4]);
if (has_debug_info_string.equal(string_literal("true")))
{
has_debug_info = true;
@ -488,7 +499,7 @@ void entry_point(Slice<const char*> arguments, Slice<char* const> environment)
auto success = execution.termination_kind == TerminationKind::exit && execution.termination_code == 0;
if (!success)
{
print(string_literal("Standalone test failed: "));
print(string_literal("Self-hosted test failed: "));
print(name);
print(string_literal("\n"));
bb_fail();

137
src/compiler.hpp
View File

@ -1,7 +1,7 @@
#pragma once
#include <lib.hpp>
#include <llvm-c/Types.h>
#include <llvm-c/TargetMachine.h>
#define report_error() trap()
enum class Command
@ -314,6 +314,8 @@ enum class TypeId
unresolved,
vector,
floating_point,
enum_array,
opaque,
};
struct TypeInteger
@ -448,6 +450,13 @@ struct LLVMType
LLVMMetadataRef debug;
};
struct TypeEnumArray
{
Type* enum_type;
Type* element_type;
Type* next;
};
struct Type
{
union
@ -461,10 +470,12 @@ struct Type
TypeBits bits;
TypeAlias alias;
TypeUnion union_type;
TypeEnumArray enum_array;
};
TypeId id;
String name;
Type* next;
Scope* scope;
LLVMType llvm;
};
@ -528,6 +539,17 @@ fn u64 get_byte_size(Type* type)
auto result = type->union_type.byte_size;
return result;
} break;
case TypeId::enum_array:
{
auto enum_type = type->enum_array.enum_type;
assert(enum_type->id == TypeId::enumerator);
auto element_count = enum_type->enumerator.fields.length;
auto element_type = type->enum_array.element_type;
auto element_size = get_byte_size(element_type);
auto result = element_size * element_count;
return result;
} break;
default: trap();
}
}
@ -575,6 +597,10 @@ fn u32 get_byte_alignment(Type* type)
{
return get_byte_alignment(type->alias.type);
} break;
case TypeId::enum_array:
{
return get_byte_alignment(type->enum_array.element_type);
} break;
default: trap();
}
}
@ -590,6 +616,12 @@ fn u64 get_bit_size(Type* type)
}
}
struct TypeList
{
Type* first;
Type* last;
};
enum class ScopeKind
{
global,
@ -602,6 +634,7 @@ enum class ScopeKind
struct Scope
{
TypeList types;
Scope* parent;
u32 line;
u32 column;
@ -609,6 +642,13 @@ struct Scope
LLVMMetadataRef llvm;
};
struct SourceLocation
{
Scope* scope;
u32 line;
u32 column;
};
enum class StatementId
{
local,
@ -878,10 +918,18 @@ struct ValueVaArg
Type* type;
};
struct AggregateInitializationElement
{
String name;
Value* value;
u32 line;
u32 column;
};
struct ValueAggregateInitialization
{
Slice<String> names;
Slice<Value*> values;
Slice<AggregateInitializationElement> elements;
Scope* scope;
bool is_constant;
bool zero;
};
@ -920,6 +968,7 @@ struct MacroDeclaration
{
Slice<Argument> arguments;
Slice<ConstantArgument> constant_arguments;
TypeList types;
Type* return_type;
Block* block;
String name;
@ -987,6 +1036,7 @@ struct Value
case ValueId::enum_literal:
case ValueId::unary_type:
case ValueId::string_literal:
case ValueId::zero:
return true;
case ValueId::unary:
case ValueId::binary:
@ -1103,6 +1153,8 @@ struct ModuleLLVM
LLVMBuilderRef builder;
LLVMDIBuilderRef di_builder;
LLVMMetadataRef file;
LLVMTargetMachineRef target_machine;
LLVMTargetDataRef target_data;
LLVMMetadataRef compile_unit;
LLVMTypeRef pointer_type;
LLVMTypeRef void_type;
@ -1126,9 +1178,8 @@ struct Module
Type* first_slice_type;
Type* first_pair_struct_type;
Type* first_array_type;
Type* first_enum_array_type;
Type* first_type;
Type* last_type;
Type* va_list_type;
Value* void_value;
@ -1167,7 +1218,7 @@ fn Type* integer_type(Module* module, TypeInteger integer)
assert(integer.bit_count > 1);
}
auto index = integer.bit_count == 128 ? (i128_offset + integer.is_signed) : (integer.bit_count - 1 + (64 * integer.is_signed));
auto* result_type = module->first_type + index;
auto* result_type = module->scope.types.first + index;
assert(result_type->id == TypeId::integer);
assert(result_type->integer.bit_count == integer.bit_count);
assert(result_type->integer.is_signed == integer.is_signed);
@ -1176,7 +1227,7 @@ fn Type* integer_type(Module* module, TypeInteger integer)
fn Type* void_type(Module* module)
{
return module->first_type + void_offset;
return module->scope.types.first + void_offset;
}
fn Type* noreturn_type(Module* module)
@ -1228,16 +1279,20 @@ fn Type* type_allocate_init(Module* module, Type type)
auto* result = &arena_allocate<Type>(module->arena, 1)[0];
*result = type;
if (module->last_type)
auto scope = type.scope;
assert(scope);
if (scope->types.last)
{
module->last_type->next = result;
module->last_type = result;
assert(scope->types.first);
scope->types.last->next = result;
scope->types.last = result;
}
else
{
assert(!module->first_type);
module->first_type = result;
module->last_type = result;
assert(!scope->types.first);
scope->types.first = result;
scope->types.last = result;
}
return result;
@ -1310,6 +1365,7 @@ fn Type* get_pointer_type(Module* module, Type* element_type)
},
.id = TypeId::pointer,
.name = arena_join_string(module->arena, array_to_slice(name_parts)),
.scope = element_type->scope,
});
if (last_pointer_type)
@ -1394,6 +1450,7 @@ fn Type* get_slice_type(Module* module, Type* element_type)
},
.id = TypeId::structure,
.name = arena_join_string(module->arena, array_to_slice(name_parts)),
.scope = element_type->scope,
});
if (last_slice_type)
@ -1469,6 +1526,7 @@ fn Type* get_array_type(Module* module, Type* element_type, u64 element_count)
},
.id = TypeId::array,
.name = array_name(module, element_type, element_count),
.scope = element_type->scope,
});
if (last_array_type)
@ -1714,5 +1772,58 @@ fn Local* new_local(Module* module, Scope* scope)
return result;
}
fn Type* get_enum_array_type(Module* module, Type* enum_type, Type* element_type)
{
assert(enum_type);
assert(element_type);
Type* last_enum_type = module->first_enum_array_type;
if (last_enum_type)
{
while (1)
{
assert(last_enum_type->id == TypeId::enum_array);
if (last_enum_type->enum_array.enum_type == enum_type && last_enum_type->enum_array.element_type == element_type)
{
return last_enum_type;
}
if (!last_enum_type->enum_array.next)
{
break;
}
last_enum_type = last_enum_type->enum_array.next;
}
}
String name_parts[] = {
string_literal("enum_array["),
enum_type->name,
string_literal("]("),
element_type->name,
string_literal(")"),
};
assert(enum_type->scope);
assert(element_type->scope);
auto scope = element_type->scope->kind == ScopeKind::global ? enum_type->scope : element_type->scope;
auto enum_array_type = type_allocate_init(module, {
.enum_array = {
.enum_type = enum_type,
.element_type = element_type,
},
.id = TypeId::enum_array,
.name = arena_join_string(module->arena, array_to_slice(name_parts)),
.scope = scope,
});
return enum_array_type;
}
void parse(Module* module);
void emit(Module* module);

1082
src/emitter.cpp
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File diff suppressed because it is too large Load Diff

302
src/parser.cpp
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@ -450,7 +450,6 @@ fn u64 parse_integer_decimal_assume_valid(String string)
fn Value* parse_value(Module* module, Scope* scope, ValueBuilder builder);
fn Type* parse_type(Module* module, Scope* scope)
{
auto start_character = module->content[module->offset];
@ -465,6 +464,20 @@ fn Type* parse_type(Module* module, Scope* scope)
{
return noreturn_type(module);
}
else if (identifier.equal(string_literal("enum_array")))
{
skip_space(module);
expect_character(module, left_bracket);
auto enum_type = parse_type(module, scope);
expect_character(module, right_bracket);
expect_character(module, left_parenthesis);
auto element_type = parse_type(module, scope);
expect_character(module, right_parenthesis);
auto enum_array_type = get_enum_array_type(module, enum_type, element_type);
return enum_array_type;
}
else
{
auto is_int_type = identifier.length > 1 && (identifier[0] == 's' || identifier[0] == 'u');
@ -505,12 +518,19 @@ fn Type* parse_type(Module* module, Scope* scope)
}
else
{
for (Type* type = module->first_type; type; type = type->next)
assert(scope);
auto it_scope = scope;
while (it_scope)
{
if (identifier.equal(type->name))
for (Type* type = it_scope->types.first; type; type = type->next)
{
return type;
if (identifier.equal(type->name))
{
return type;
}
}
it_scope = it_scope->parent;
}
report_error();
@ -1191,6 +1211,89 @@ fn Token tokenize(Module* module)
fn Value* parse_value(Module* module, Scope* scope, ValueBuilder builder);
fn Value* parse_aggregate_initialization(Module* module, Scope* scope, ValueBuilder builder, u8 end_ch)
{
skip_space(module);
u64 field_count = 0;
AggregateInitializationElement element_buffer[64];
bool zero = false;
while (1)
{
skip_space(module);
if (consume_character_if_match(module, end_ch))
{
break;
}
auto field_index = field_count;
if (consume_character_if_match(module, '.'))
{
auto name = parse_identifier(module);
skip_space(module);
expect_character(module, '=');
skip_space(module);
auto line = get_line(module);
auto column = get_column(module);
auto value = parse_value(module, scope, {});
skip_space(module);
consume_character_if_match(module, ',');
element_buffer[field_index] = {
.name = name,
.value = value,
.line = line,
.column = column,
};
}
else
{
auto token = tokenize(module);
zero = token.id == TokenId::value_keyword && token.value_keyword == ValueKeyword::zero;
if (zero)
{
skip_space(module);
if (consume_character_if_match(module, ','))
{
skip_space(module);
}
expect_character(module, right_brace);
break;
}
else
{
report_error();
}
}
field_count += 1;
}
auto elements = arena_allocate<AggregateInitializationElement>(module->arena, field_count);
memcpy(elements.pointer, element_buffer, sizeof(element_buffer[0]) * field_count);
auto result = new_value(module);
*result = {
.aggregate_initialization = {
.elements = elements,
.scope = scope,
.is_constant = false,
.zero = zero,
},
.id = ValueId::aggregate_initialization,
.kind = builder.kind,
};
return result;
}
fn Value* parse_precedence(Module* module, Scope* scope, ValueBuilder builder);
fn Value* parse_left(Module* module, Scope* scope, ValueBuilder builder)
{
@ -1422,33 +1525,42 @@ fn Value* parse_left(Module* module, Scope* scope, ValueBuilder builder)
u64 element_count = 0;
Value* value_buffer[64];
while (1)
{
skip_space(module);
skip_space(module);
if (consume_character_if_match(module, right_bracket))
if (module->content[module->offset] == '.')
{
result = parse_aggregate_initialization(module, scope, builder, right_bracket);
}
else
{
while (1)
{
break;
skip_space(module);
if (consume_character_if_match(module, right_bracket))
{
break;
}
auto value = parse_value(module, scope, {});
value_buffer[element_count] = value;
element_count += 1;
consume_character_if_match(module, ',');
}
auto value = parse_value(module, scope, {});
value_buffer[element_count] = value;
element_count += 1;
auto values = new_value_array(module, element_count);
memcpy(values.pointer, value_buffer, element_count * sizeof(Value*));
consume_character_if_match(module, ',');
result = new_value(module);
*result = {
.array_initialization = {
.values = values,
.is_constant = false, // This is analyzed later
},
.id = ValueId::array_initialization,
};
}
auto values = new_value_array(module, element_count);
memcpy(values.pointer, value_buffer, element_count * sizeof(Value*));
result = new_value(module);
*result = {
.array_initialization = {
.values = values,
.is_constant = false, // This is analyzed later
},
.id = ValueId::array_initialization,
};
} break;
case TokenId::dot:
{
@ -1477,76 +1589,7 @@ fn Value* parse_left(Module* module, Scope* scope, ValueBuilder builder)
} break;
case TokenId::left_brace:
{
skip_space(module);
u64 field_count = 0;
String name_buffer[64];
Value* value_buffer[64];
bool zero = false;
while (1)
{
skip_space(module);
if (consume_character_if_match(module, right_brace))
{
break;
}
auto field_index = field_count;
if (consume_character_if_match(module, '.'))
{
auto name = parse_identifier(module);
name_buffer[field_index] = name;
skip_space(module);
expect_character(module, '=');
skip_space(module);
auto value = parse_value(module, scope, {});
value_buffer[field_index] = value;
skip_space(module);
consume_character_if_match(module, ',');
}
else
{
auto token = tokenize(module);
zero = token.id == TokenId::value_keyword && token.value_keyword == ValueKeyword::zero;
if (zero)
{
skip_space(module);
if (consume_character_if_match(module, ','))
{
skip_space(module);
}
expect_character(module, right_brace);
break;
}
else
{
report_error();
}
}
field_count += 1;
}
auto names = arena_allocate<String>(module->arena, field_count);
memcpy(names.pointer, name_buffer, sizeof(String) * field_count);
auto values = new_value_array(module, field_count);
memcpy(values.pointer, value_buffer, sizeof(Value*) * field_count);
result = new_value(module);
*result = {
.aggregate_initialization = {
.names = names,
.values = values,
.is_constant = false,
.zero = zero,
},
.id = ValueId::aggregate_initialization,
};
result = parse_aggregate_initialization(module, scope, builder, right_brace);
} break;
case TokenId::value_keyword:
{
@ -2731,7 +2774,7 @@ void parse(Module* module)
last_global = last_global->next;
}
Type* type_it = module->first_type;
Type* type_it = module->scope.types.first;
Type* forward_declaration = 0;
while (type_it)
{
@ -2779,6 +2822,7 @@ void parse(Module* module)
enumerator,
function,
macro,
opaque,
structure,
typealias,
union_type,
@ -2798,6 +2842,7 @@ void parse(Module* module)
string_literal("enum"),
string_literal("fn"),
string_literal("macro"),
string_literal("opaque"),
string_literal("struct"),
string_literal("typealias"),
string_literal("union"),
@ -2904,6 +2949,7 @@ void parse(Module* module)
},
.id = TypeId::bits,
.name = global_name,
.scope = &module->scope,
});
unused(bits_type);
} break;
@ -3018,6 +3064,7 @@ void parse(Module* module)
},
.id = TypeId::enumerator,
.name = global_name,
.scope = &module->scope,
});
unused(enum_type);
@ -3189,6 +3236,7 @@ void parse(Module* module)
},
.id = TypeId::function,
.name = string_literal(""),
.scope = &module->scope,
});
auto storage = new_value(module);
@ -3255,15 +3303,25 @@ void parse(Module* module)
} break;
case GlobalKeyword::macro:
{
Type* type_argument_buffer[64];
u64 type_argument_count = 0;
unused(type_argument_buffer);
unused(type_argument_count);
ConstantArgument constant_argument_buffer[64];
u64 constant_argument_count = 0;
auto is_generic = consume_character_if_match(module, left_bracket);
auto macro_declaration = &arena_allocate<MacroDeclaration>(module->arena, 1)[0];
*macro_declaration = {
.arguments = {},
.constant_arguments = {},
.return_type = 0,
.block = 0,
.name = global_name,
.scope = {
.parent = scope,
.line = global_line,
.column = global_column,
.kind = ScopeKind::macro_declaration,
},
};
if (is_generic)
{
@ -3293,6 +3351,7 @@ void parse(Module* module)
auto ty = type_allocate_init(module, {
.id = TypeId::unresolved,
.name = argument_name,
.scope = &macro_declaration->scope,
});
constant_argument_buffer[constant_argument_index] = {
@ -3322,23 +3381,8 @@ void parse(Module* module)
assert(constant_argument_count == 0);
}
auto constant_arguments = arena_allocate<ConstantArgument>(module->arena, constant_argument_count);
memcpy(constant_arguments.pointer, constant_argument_buffer, sizeof(constant_argument_buffer[0]) * constant_argument_count);
auto macro_declaration = &arena_allocate<MacroDeclaration>(module->arena, 1)[0];
*macro_declaration = {
.arguments = {},
.constant_arguments = constant_arguments,
.return_type = 0,
.block = 0,
.name = global_name,
.scope = {
.parent = scope,
.line = global_line,
.column = global_column,
.kind = ScopeKind::macro_declaration,
},
};
macro_declaration->constant_arguments = arena_allocate<ConstantArgument>(module->arena, constant_argument_count);
memcpy(macro_declaration->constant_arguments.pointer, constant_argument_buffer, sizeof(constant_argument_buffer[0]) * constant_argument_count);
if (module->last_macro_declaration)
{
@ -3432,6 +3476,7 @@ void parse(Module* module)
struct_type = type_allocate_init(module, {
.id = TypeId::forward_declaration,
.name = global_name,
.scope = &module->scope,
});
}
@ -3485,6 +3530,9 @@ void parse(Module* module)
field_count += 1;
}
byte_size = align_forward(byte_size, byte_alignment);
assert(byte_size % byte_alignment == 0);
skip_space(module);
consume_character_if_match(module, ';');
@ -3523,6 +3571,7 @@ void parse(Module* module)
},
.id = TypeId::alias,
.name = global_name,
.scope = scope,
});
unused(alias_type);
} break;
@ -3541,6 +3590,7 @@ void parse(Module* module)
union_type = type_allocate_init(module, {
.id = TypeId::forward_declaration,
.name = global_name,
.scope = &module->scope,
});
}
@ -3581,7 +3631,7 @@ void parse(Module* module)
.line = field_line,
};
biggest_field = byte_size > field_byte_size ? field_index : biggest_field;
biggest_field = field_byte_size > byte_size ? field_index : biggest_field;
byte_alignment = MAX(byte_alignment, field_byte_alignment);
byte_size = MAX(byte_size, field_byte_size);
@ -3596,6 +3646,9 @@ void parse(Module* module)
auto fields = arena_allocate<UnionField>(module->arena, field_count);
memcpy(fields.pointer, field_buffer, sizeof(field_buffer[0]) * field_count);
auto biggest_size = get_byte_size(fields[biggest_field].type);
assert(biggest_size == byte_size);
union_type->union_type = {
.fields = fields,
.byte_size = byte_size,
@ -3605,6 +3658,17 @@ void parse(Module* module)
};
union_type->id = TypeId::union_type;
} break;
case GlobalKeyword::opaque:
{
skip_space(module);
expect_character(module, ';');
auto opaque_type = type_allocate_init(module, {
.id = TypeId::opaque,
.name = global_name,
.scope = &module->scope,
});
unused(opaque_type);
} break;
case GlobalKeyword::count:
{
set_checkpoint(module, checkpoint);

140
tests/basic_struct_passing.bbb Normal file
View File

@ -0,0 +1,140 @@
CallingConvention = enum
{
c,
}
InlineBehavior = enum
{
default = 0,
always_inline = 1,
no_inline = 2,
inline_hint = 3,
}
FunctionAttributes = struct
{
inline_behavior: InlineBehavior,
naked: u1,
}
Type = struct;
TypeId = enum
{
void,
noreturn,
forward_declaration,
integer,
function,
pointer,
array,
enum,
struct,
bits,
alias,
union,
unresolved,
vector,
floating_point,
enum_array,
opaque,
}
TypeInteger = struct
{
bit_count: u32,
signed: u1,
}
TypePointer = struct
{
element_type: &Type,
next: &Type,
}
AbiRegisterCountSystemV = struct
{
gpr: u32,
sse: u32,
};
AbiRegisterCount = union
{
system_v: AbiRegisterCountSystemV,
};
AbiInformation = struct
{
foo: u32,
}
TypeFunction = struct
{
semantic_return_type: &Type,
semantic_argument_types: []&Type,
calling_convention: CallingConvention,
is_variable_arguments: u1,
abi_argument_types: []&Type,
abi_return_type: &Type,
available_registers: AbiRegisterCount,
argument_abis: []AbiInformation,
return_abi: AbiInformation,
}
TypeContent = union
{
integer: TypeInteger,
function: TypeFunction,
pointer: TypePointer,
}
Type = struct
{
content: TypeContent,
id: TypeId,
name: []u8,
next: &Type,
}
give_me_string = fn () []u8
{
return "foooo";
}
get_type = fn (src: &Type, type: Type) &Type
{
src.& = type;
return src;
}
require = fn (ok: u1) void
{
if (!ok) #trap();
}
[export] main = fn [cc(c)] () s32
{
>buffer: Type = undefined;
>pointer = &buffer;
require(pointer == &buffer);
require(pointer != zero);
>result = get_type(pointer, {
.content = {
.pointer = {
.element_type = pointer,
zero,
},
},
.id = .pointer,
.name = give_me_string(),
zero,
});
require(pointer != zero);
require(pointer == &buffer);
require(buffer.content.pointer.element_type == pointer);
require(buffer.id == .pointer);
return 0;
}

22
tests/enum_array.bbb Normal file
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@ -0,0 +1,22 @@
require = fn (ok: u1) void
{
if (!ok) #trap();
}
E = enum
{
a,
b,
c,
d,
}
[export] main = fn [cc(c)] () s32
{
>some_enum_array: enum_array[E](u32) = [ .a = 4, .b = 3, .c = 2, .d = 1 ];
require(some_enum_array[.a] == 4);
require(some_enum_array[.b] == 3);
require(some_enum_array[.c] == 2);
require(some_enum_array[.d] == 1);
return 0;
}

16
tests/opaque.bbb Normal file
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OpaqueType = opaque;
[extern] memcpy = fn [cc(c)] (destination: &s32, source: &s32, size: u64) &OpaqueType;
[export] main = fn [cc(c)] () s32
{
>destination: s32 = 1;
>source: s32 = 0;
>opaque_pointer = memcpy(&destination, &source, #byte_size(s32));
>pointer: &s32 = #pointer_cast(opaque_pointer);
if (pointer != &destination)
{
#trap();
}
return destination;
}