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gb_internal cgValue cg_flatten_value(cgProcedure *p, cgValue value) {
GB_ASSERT(value.kind != cgValue_Multi);
if (value.kind == cgValue_Symbol) {
GB_ASSERT(is_type_internally_pointer_like(value.type));
value = cg_value(tb_inst_get_symbol_address(p->func, value.symbol), value.type);
}
return value;
}
gb_internal bool cg_is_expr_untyped_const(Ast *expr) {
auto const &tv = type_and_value_of_expr(expr);
if (is_type_untyped(tv.type)) {
return tv.value.kind != ExactValue_Invalid;
}
return false;
}
gb_internal cgValue cg_expr_untyped_const_to_typed(cgProcedure *p, Ast *expr, Type *t) {
GB_ASSERT(is_type_typed(t));
auto const &tv = type_and_value_of_expr(expr);
return cg_const_value(p, t, tv.value);
}
gb_internal cgContextData *cg_push_context_onto_stack(cgProcedure *p, cgAddr ctx) {
ctx.kind = cgAddr_Context;
cgContextData *cd = array_add_and_get(&p->context_stack);
cd->ctx = ctx;
cd->scope_index = p->scope_index;
return cd;
}
gb_internal cgAddr cg_find_or_generate_context_ptr(cgProcedure *p) {
if (p->context_stack.count > 0) {
return p->context_stack[p->context_stack.count-1].ctx;
}
Type *pt = base_type(p->type);
GB_ASSERT(pt->kind == Type_Proc);
GB_ASSERT(pt->Proc.calling_convention != ProcCC_Odin);
cgAddr c = cg_add_local(p, t_context, nullptr, true);
tb_node_append_attrib(c.addr.node, tb_function_attrib_variable(p->func, -1, "context", cg_debug_type(p->module, t_context)));
c.kind = cgAddr_Context;
// lb_emit_init_context(p, c);
cg_push_context_onto_stack(p, c);
// lb_add_debug_context_variable(p, c);
return c;
}
gb_internal cgValue cg_find_value_from_entity(cgModule *m, Entity *e) {
e = strip_entity_wrapping(e);
GB_ASSERT(e != nullptr);
GB_ASSERT(e->token.string != "_");
if (e->kind == Entity_Procedure) {
return cg_find_procedure_value_from_entity(m, e);
}
cgValue *found = nullptr;
rw_mutex_shared_lock(&m->values_mutex);
found = map_get(&m->values, e);
rw_mutex_shared_unlock(&m->values_mutex);
if (found) {
return *found;
}
GB_PANIC("\n\tError in: %s, missing value '%.*s'\n", token_pos_to_string(e->token.pos), LIT(e->token.string));
return {};
}
gb_internal cgAddr cg_build_addr_from_entity(cgProcedure *p, Entity *e, Ast *expr) {
GB_ASSERT(e != nullptr);
if (e->kind == Entity_Constant) {
Type *t = default_type(type_of_expr(expr));
cgValue v = cg_const_value(p, t, e->Constant.value);
GB_PANIC("TODO(bill): cg_add_global_generated");
// return cg_add_global_generated(p->module, t, v);
return {};
}
cgAddr *local_found = map_get(&p->variable_map, e);
if (local_found) {
return *local_found;
}
cgValue v = {};
cgModule *m = p->module;
rw_mutex_lock(&m->values_mutex);
cgValue *found = map_get(&m->values, e);
rw_mutex_unlock(&m->values_mutex);
if (found) {
v = *found;
} else if (e->kind == Entity_Variable && e->flags & EntityFlag_Using) {
GB_PANIC("TODO(bill): cg_get_using_variable");
// NOTE(bill): Calculate the using variable every time
// v = cg_get_using_variable(p, e);
} else if (e->flags & EntityFlag_SoaPtrField) {
GB_PANIC("TODO(bill): cg_get_soa_variable_addr");
// return cg_get_soa_variable_addr(p, e);
}
if (v.node == nullptr) {
cgValue v = cg_find_value_from_entity(m, e);
v = cg_flatten_value(p, v);
return cg_addr(v);
}
return cg_addr(v);
}
gb_internal cgValue cg_typeid(cgModule *m, Type *t) {
GB_ASSERT("TODO(bill): cg_typeid");
return {};
}
gb_internal cgValue cg_correct_endianness(cgProcedure *p, cgValue value) {
Type *src = core_type(value.type);
GB_ASSERT(is_type_integer(src) || is_type_float(src));
if (is_type_different_to_arch_endianness(src)) {
GB_PANIC("TODO(bill): cg_correct_endianness");
// Type *platform_src_type = integer_endian_type_to_platform_type(src);
// value = cg_emit_byte_swap(p, value, platform_src_type);
}
return value;
}
gb_internal cgValue cg_emit_transmute(cgProcedure *p, cgValue value, Type *type) {
GB_ASSERT(type_size_of(value.type) == type_size_of(type));
value = cg_flatten_value(p, value);
if (are_types_identical(value.type, type)) {
return value;
}
if (are_types_identical(core_type(value.type), core_type(type))) {
value.type = type;
return value;
}
i64 src_align = type_align_of(value.type);
i64 dst_align = type_align_of(type);
if (dst_align > src_align) {
cgAddr local = cg_add_local(p, type, nullptr, false);
cgValue dst = local.addr;
dst.type = alloc_type_pointer(value.type);
cg_emit_store(p, dst, value);
return cg_addr_load(p, local);
}
TB_DataType dt = cg_data_type(type);
switch (value.kind) {
case cgValue_Value:
GB_ASSERT(!TB_IS_VOID_TYPE(dt));
value.type = type;
value.node = tb_inst_bitcast(p->func, value.node, dt);
return value;
case cgValue_Addr:
value.type = type;
return value;
case cgValue_Symbol:
GB_PANIC("should be handled above");
break;
case cgValue_Multi:
GB_PANIC("cannot transmute multiple values at once");
break;
}
return value;
}
gb_internal cgValue cg_emit_byte_swap(cgProcedure *p, cgValue value, Type *end_type) {
GB_ASSERT(type_size_of(value.type) == type_size_of(end_type));
if (type_size_of(value.type) < 2) {
return value;
}
if (is_type_float(value.type)) {
i64 sz = type_size_of(value.type);
Type *integer_type = nullptr;
switch (sz) {
case 2: integer_type = t_u16; break;
case 4: integer_type = t_u32; break;
case 8: integer_type = t_u64; break;
}
GB_ASSERT(integer_type != nullptr);
value = cg_emit_transmute(p, value, integer_type);
}
GB_ASSERT(value.kind == cgValue_Value);
value.node = tb_inst_bswap(p->func, value.node);
return cg_emit_transmute(p, value, end_type);
}
gb_internal cgValue cg_emit_conv(cgProcedure *p, cgValue value, Type *t) {
t = reduce_tuple_to_single_type(t);
value = cg_flatten_value(p, value);
Type *src_type = value.type;
if (are_types_identical(t, src_type)) {
return value;
}
if (is_type_untyped_uninit(src_type)) {
// return cg_const_undef(m, t);
return cg_const_nil(p, t);
}
if (is_type_untyped_nil(src_type)) {
return cg_const_nil(p, t);
}
Type *src = core_type(src_type);
Type *dst = core_type(t);
GB_ASSERT(src != nullptr);
GB_ASSERT(dst != nullptr);
if (are_types_identical(src, dst)) {
return cg_emit_transmute(p, value, t);
}
TB_DataType st = cg_data_type(src);
TB_DataType dt = cg_data_type(t);
if (is_type_integer(src) && is_type_integer(dst)) {
GB_ASSERT(src->kind == Type_Basic &&
dst->kind == Type_Basic);
GB_ASSERT(value.kind == cgValue_Value);
i64 sz = type_size_of(default_type(src));
i64 dz = type_size_of(default_type(dst));
if (sz == dz) {
if (dz > 1 && !types_have_same_internal_endian(src, dst)) {
return cg_emit_byte_swap(p, value, t);
}
value.type = t;
return value;
}
if (sz > 1 && is_type_different_to_arch_endianness(src)) {
Type *platform_src_type = integer_endian_type_to_platform_type(src);
value = cg_emit_byte_swap(p, value, platform_src_type);
}
TB_Node* (*op)(TB_Function* f, TB_Node* src, TB_DataType dt) = tb_inst_trunc;
if (dz < sz) {
op = tb_inst_trunc;
} else if (dz == sz) {
op = tb_inst_bitcast;
} else if (dz > sz) {
op = is_type_unsigned(src) ? tb_inst_zxt : tb_inst_sxt; // zero extent
}
if (dz > 1 && is_type_different_to_arch_endianness(dst)) {
Type *platform_dst_type = integer_endian_type_to_platform_type(dst);
cgValue res = cg_value(op(p->func, value.node, cg_data_type(platform_dst_type)), platform_dst_type);
return cg_emit_byte_swap(p, res, t);
} else {
return cg_value(op(p->func, value.node, dt), t);
}
}
// boolean -> boolean/integer
if (is_type_boolean(src) && (is_type_boolean(dst) || is_type_integer(dst))) {
TB_Node *v = tb_inst_cmp_ne(p->func, value.node, tb_inst_uint(p->func, st, 0));
return cg_value(tb_inst_zxt(p->func, v, dt), t);
}
// integer -> boolean
if (is_type_integer(src) && is_type_boolean(dst)) {
TB_Node *v = tb_inst_cmp_ne(p->func, value.node, tb_inst_uint(p->func, st, 0));
return cg_value(tb_inst_zxt(p->func, v, dt), t);
}
if (is_type_cstring(src) && is_type_u8_ptr(dst)) {
return cg_emit_transmute(p, value, dst);
}
if (is_type_u8_ptr(src) && is_type_cstring(dst)) {
return cg_emit_transmute(p, value, dst);
}
if (is_type_cstring(src) && is_type_u8_multi_ptr(dst)) {
return cg_emit_transmute(p, value, dst);
}
if (is_type_u8_multi_ptr(src) && is_type_cstring(dst)) {
return cg_emit_transmute(p, value, dst);
}
if (is_type_cstring(src) && is_type_rawptr(dst)) {
return cg_emit_transmute(p, value, dst);
}
if (is_type_rawptr(src) && is_type_cstring(dst)) {
return cg_emit_transmute(p, value, dst);
}
if (are_types_identical(src, t_cstring) && are_types_identical(dst, t_string)) {
GB_PANIC("TODO(bill): cstring_to_string call");
// TEMPORARY_ALLOCATOR_GUARD();
// lbValue c = lb_emit_conv(p, value, t_cstring);
// auto args = array_make<lbValue>(temporary_allocator(), 1);
// args[0] = c;
// lbValue s = lb_emit_runtime_call(p, "cstring_to_string", args);
// return lb_emit_conv(p, s, dst);
}
// float -> float
if (is_type_float(src) && is_type_float(dst)) {
i64 sz = type_size_of(src);
i64 dz = type_size_of(dst);
if (sz == 2 || dz == 2) {
GB_PANIC("TODO(bill): f16 conversions");
}
if (dz == sz) {
if (types_have_same_internal_endian(src, dst)) {
return cg_value(value.node, t);
} else {
return cg_emit_byte_swap(p, value, t);
}
}
if (is_type_different_to_arch_endianness(src) || is_type_different_to_arch_endianness(dst)) {
Type *platform_src_type = integer_endian_type_to_platform_type(src);
Type *platform_dst_type = integer_endian_type_to_platform_type(dst);
cgValue res = {};
res = cg_emit_conv(p, value, platform_src_type);
res = cg_emit_conv(p, res, platform_dst_type);
if (is_type_different_to_arch_endianness(dst)) {
res = cg_emit_byte_swap(p, res, t);
}
return cg_emit_conv(p, res, t);
}
if (dz >= sz) {
return cg_value(tb_inst_fpxt(p->func, value.node, dt), t);
}
return cg_value(tb_inst_trunc(p->func, value.node, dt), t);
}
if (is_type_complex(src) && is_type_complex(dst)) {
GB_PANIC("TODO(bill): complex -> complex");
}
if (is_type_quaternion(src) && is_type_quaternion(dst)) {
// @QuaternionLayout
GB_PANIC("TODO(bill): quaternion -> quaternion");
}
if (is_type_integer(src) && is_type_complex(dst)) {
GB_PANIC("TODO(bill): int -> complex");
}
if (is_type_float(src) && is_type_complex(dst)) {
GB_PANIC("TODO(bill): float -> complex");
}
if (is_type_integer(src) && is_type_quaternion(dst)) {
GB_PANIC("TODO(bill): int -> quaternion");
}
if (is_type_float(src) && is_type_quaternion(dst)) {
GB_PANIC("TODO(bill): float -> quaternion");
}
if (is_type_complex(src) && is_type_quaternion(dst)) {
GB_PANIC("TODO(bill): complex -> quaternion");
}
// float <-> integer
if (is_type_float(src) && is_type_integer(dst)) {
if (is_type_different_to_arch_endianness(src) || is_type_different_to_arch_endianness(dst)) {
Type *platform_src_type = integer_endian_type_to_platform_type(src);
Type *platform_dst_type = integer_endian_type_to_platform_type(dst);
cgValue res = {};
res = cg_emit_conv(p, value, platform_src_type);
res = cg_emit_conv(p, res, platform_dst_type);
return cg_emit_conv(p, res, t);
}
// if (is_type_integer_128bit(dst)) {
// TEMPORARY_ALLOCATOR_GUARD();
// auto args = array_make<lbValue>(temporary_allocator(), 1);
// args[0] = value;
// char const *call = "fixunsdfdi";
// if (is_type_unsigned(dst)) {
// call = "fixunsdfti";
// }
// lbValue res_i128 = lb_emit_runtime_call(p, call, args);
// return lb_emit_conv(p, res_i128, t);
// }
bool is_signed = !is_type_unsigned(dst);
return cg_value(tb_inst_float2int(p->func, value.node, dt, is_signed), t);
}
if (is_type_integer(src) && is_type_float(dst)) {
if (is_type_different_to_arch_endianness(src) || is_type_different_to_arch_endianness(dst)) {
Type *platform_src_type = integer_endian_type_to_platform_type(src);
Type *platform_dst_type = integer_endian_type_to_platform_type(dst);
cgValue res = {};
res = cg_emit_conv(p, value, platform_src_type);
res = cg_emit_conv(p, res, platform_dst_type);
if (is_type_different_to_arch_endianness(dst)) {
res = cg_emit_byte_swap(p, res, t);
}
return cg_emit_conv(p, res, t);
}
// if (is_type_integer_128bit(src)) {
// TEMPORARY_ALLOCATOR_GUARD();
// auto args = array_make<lbValue>(temporary_allocator(), 1);
// args[0] = value;
// char const *call = "floattidf";
// if (is_type_unsigned(src)) {
// call = "floattidf_unsigned";
// }
// lbValue res_f64 = lb_emit_runtime_call(p, call, args);
// return lb_emit_conv(p, res_f64, t);
// }
bool is_signed = !is_type_unsigned(dst);
return cg_value(tb_inst_int2float(p->func, value.node, dt, is_signed), t);
}
if (is_type_simd_vector(dst)) {
GB_PANIC("TODO(bill): ? -> #simd vector");
}
// Pointer <-> uintptr
if (is_type_pointer(src) && is_type_uintptr(dst)) {
return cg_value(tb_inst_ptr2int(p->func, value.node, dt), t);
}
if (is_type_uintptr(src) && is_type_pointer(dst)) {
return cg_value(tb_inst_int2ptr(p->func, value.node), t);
}
if (is_type_multi_pointer(src) && is_type_uintptr(dst)) {
return cg_value(tb_inst_ptr2int(p->func, value.node, dt), t);
}
if (is_type_uintptr(src) && is_type_multi_pointer(dst)) {
return cg_value(tb_inst_int2ptr(p->func, value.node), t);
}
if (is_type_union(dst)) {
GB_PANIC("TODO(bill): ? -> union");
}
// NOTE(bill): This has to be done before 'Pointer <-> Pointer' as it's
// subtype polymorphism casting
if (check_is_assignable_to_using_subtype(src_type, t)) {
GB_PANIC("TODO(bill): ? -> subtyping");
}
// Pointer <-> Pointer
if (is_type_pointer(src) && is_type_pointer(dst)) {
return cg_value(tb_inst_bitcast(p->func, value.node, dt), t);
}
if (is_type_multi_pointer(src) && is_type_pointer(dst)) {
return cg_value(tb_inst_bitcast(p->func, value.node, dt), t);
}
if (is_type_pointer(src) && is_type_multi_pointer(dst)) {
return cg_value(tb_inst_bitcast(p->func, value.node, dt), t);
}
if (is_type_multi_pointer(src) && is_type_multi_pointer(dst)) {
return cg_value(tb_inst_bitcast(p->func, value.node, dt), t);
}
// proc <-> proc
if (is_type_proc(src) && is_type_proc(dst)) {
return cg_value(tb_inst_bitcast(p->func, value.node, dt), t);
}
// pointer -> proc
if (is_type_pointer(src) && is_type_proc(dst)) {
return cg_value(tb_inst_bitcast(p->func, value.node, dt), t);
}
// proc -> pointer
if (is_type_proc(src) && is_type_pointer(dst)) {
return cg_value(tb_inst_bitcast(p->func, value.node, dt), t);
}
// []byte/[]u8 <-> string
if (is_type_u8_slice(src) && is_type_string(dst)) {
return cg_emit_transmute(p, value, t);
}
if (is_type_string(src) && is_type_u8_slice(dst)) {
return cg_emit_transmute(p, value, t);
}
if (is_type_matrix(dst) && !is_type_matrix(src)) {
GB_PANIC("TODO(bill): !matrix -> matrix");
}
if (is_type_matrix(dst) && is_type_matrix(src)) {
GB_PANIC("TODO(bill): matrix -> matrix");
}
if (is_type_any(dst)) {
GB_PANIC("TODO(bill): ? -> any");
}
i64 src_sz = type_size_of(src);
i64 dst_sz = type_size_of(dst);
if (src_sz == dst_sz) {
// bit_set <-> integer
if (is_type_integer(src) && is_type_bit_set(dst)) {
cgValue v = cg_emit_conv(p, value, bit_set_to_int(dst));
return cg_emit_transmute(p, v, t);
}
if (is_type_bit_set(src) && is_type_integer(dst)) {
cgValue bs = cg_emit_transmute(p, value, bit_set_to_int(src));
return cg_emit_conv(p, bs, dst);
}
// typeid <-> integer
if (is_type_integer(src) && is_type_typeid(dst)) {
return cg_emit_transmute(p, value, dst);
}
if (is_type_typeid(src) && is_type_integer(dst)) {
return cg_emit_transmute(p, value, dst);
}
}
if (is_type_untyped(src)) {
if (is_type_string(src) && is_type_string(dst)) {
cgAddr result = cg_add_local(p, t, nullptr, false);
cg_addr_store(p, result, value);
return cg_addr_load(p, result);
}
}
gb_printf_err("%.*s\n", LIT(p->name));
gb_printf_err("cg_emit_conv: src -> dst\n");
gb_printf_err("Not Identical %s != %s\n", type_to_string(src_type), type_to_string(t));
gb_printf_err("Not Identical %s != %s\n", type_to_string(src), type_to_string(dst));
gb_printf_err("Not Identical %p != %p\n", src_type, t);
gb_printf_err("Not Identical %p != %p\n", src, dst);
GB_PANIC("Invalid type conversion: '%s' to '%s' for procedure '%.*s'",
type_to_string(src_type), type_to_string(t),
LIT(p->name));
return {};
}
gb_internal cgValue cg_emit_arith(cgProcedure *p, TokenKind op, cgValue lhs, cgValue rhs, Type *type) {
if (is_type_array_like(lhs.type) || is_type_array_like(rhs.type)) {
GB_PANIC("TODO(bill): cg_emit_arith_array");
} else if (is_type_matrix(lhs.type) || is_type_matrix(rhs.type)) {
GB_PANIC("TODO(bill): cg_emit_arith_matrix");
} else if (is_type_complex(type)) {
GB_PANIC("TODO(bill): cg_emit_arith complex");
} else if (is_type_quaternion(type)) {
GB_PANIC("TODO(bill): cg_emit_arith quaternion");
}
lhs = cg_flatten_value(p, cg_emit_conv(p, lhs, type));
rhs = cg_flatten_value(p, cg_emit_conv(p, rhs, type));
GB_ASSERT(lhs.kind == cgValue_Value);
GB_ASSERT(rhs.kind == cgValue_Value);
if (is_type_integer(type) && is_type_different_to_arch_endianness(type)) {
switch (op) {
case Token_AndNot:
case Token_And:
case Token_Or:
case Token_Xor:
goto handle_op;
}
Type *platform_type = integer_endian_type_to_platform_type(type);
cgValue x = cg_emit_byte_swap(p, lhs, integer_endian_type_to_platform_type(lhs.type));
cgValue y = cg_emit_byte_swap(p, rhs, integer_endian_type_to_platform_type(rhs.type));
cgValue res = cg_emit_arith(p, op, x, y, platform_type);
return cg_emit_byte_swap(p, res, type);
}
if (is_type_float(type) && is_type_different_to_arch_endianness(type)) {
Type *platform_type = integer_endian_type_to_platform_type(type);
cgValue x = cg_emit_conv(p, lhs, integer_endian_type_to_platform_type(lhs.type));
cgValue y = cg_emit_conv(p, rhs, integer_endian_type_to_platform_type(rhs.type));
cgValue res = cg_emit_arith(p, op, x, y, platform_type);
return cg_emit_byte_swap(p, res, type);
}
handle_op:;
// NOTE(bill): Bit Set Aliases for + and -
if (is_type_bit_set(type)) {
switch (op) {
case Token_Add: op = Token_Or; break;
case Token_Sub: op = Token_AndNot; break;
}
}
TB_ArithmeticBehavior arith_behavior = cast(TB_ArithmeticBehavior)50;
Type *integral_type = type;
if (is_type_simd_vector(integral_type)) {
GB_PANIC("TODO(bill): cg_emit_arith #simd vector");
// integral_type = core_array_type(integral_type);
}
switch (op) {
case Token_Add:
if (is_type_float(integral_type)) {
return cg_value(tb_inst_fadd(p->func, lhs.node, rhs.node), type);
}
return cg_value(tb_inst_add(p->func, lhs.node, rhs.node, arith_behavior), type);
case Token_Sub:
if (is_type_float(integral_type)) {
return cg_value(tb_inst_fsub(p->func, lhs.node, rhs.node), type);
}
return cg_value(tb_inst_sub(p->func, lhs.node, rhs.node, arith_behavior), type);
case Token_Mul:
if (is_type_float(integral_type)) {
return cg_value(tb_inst_fmul(p->func, lhs.node, rhs.node), type);
}
return cg_value(tb_inst_mul(p->func, lhs.node, rhs.node, arith_behavior), type);
case Token_Quo:
if (is_type_float(integral_type)) {
return cg_value(tb_inst_fdiv(p->func, lhs.node, rhs.node), type);
}
return cg_value(tb_inst_div(p->func, lhs.node, rhs.node, !is_type_unsigned(integral_type)), type);
case Token_Mod:
if (is_type_float(integral_type)) {
GB_PANIC("TODO(bill): float %% float");
}
return cg_value(tb_inst_mod(p->func, lhs.node, rhs.node, !is_type_unsigned(integral_type)), type);
case Token_ModMod:
if (is_type_unsigned(integral_type)) {
return cg_value(tb_inst_mod(p->func, lhs.node, rhs.node, false), type);
} else {
TB_Node *a = tb_inst_mod(p->func, lhs.node, rhs.node, true);
TB_Node *b = tb_inst_add(p->func, a, rhs.node, arith_behavior);
TB_Node *c = tb_inst_mod(p->func, b, rhs.node, true);
return cg_value(c, type);
}
case Token_And:
return cg_value(tb_inst_and(p->func, lhs.node, rhs.node), type);
case Token_Or:
return cg_value(tb_inst_or(p->func, lhs.node, rhs.node), type);
case Token_Xor:
return cg_value(tb_inst_xor(p->func, lhs.node, rhs.node), type);
case Token_Shl:
{
rhs = cg_emit_conv(p, rhs, lhs.type);
TB_DataType dt = cg_data_type(lhs.type);
TB_Node *lhsval = lhs.node;
TB_Node *bits = rhs.node;
TB_Node *bit_size = tb_inst_uint(p->func, dt, 8*type_size_of(lhs.type));
TB_Node *zero = tb_inst_uint(p->func, dt, 0);
TB_Node *width_test = tb_inst_cmp_ilt(p->func, bits, bit_size, false);
TB_Node *res = tb_inst_shl(p->func, lhsval, bits, arith_behavior);
res = tb_inst_select(p->func, width_test, res, zero);
return cg_value(res, type);
}
case Token_Shr:
{
rhs = cg_emit_conv(p, rhs, lhs.type);
TB_DataType dt = cg_data_type(lhs.type);
TB_Node *lhsval = lhs.node;
TB_Node *bits = rhs.node;
TB_Node *bit_size = tb_inst_uint(p->func, dt, 8*type_size_of(lhs.type));
TB_Node *zero = tb_inst_uint(p->func, dt, 0);
TB_Node *width_test = tb_inst_cmp_ilt(p->func, bits, bit_size, false);
TB_Node *res = nullptr;
if (is_type_unsigned(integral_type)) {
res = tb_inst_shr(p->func, lhsval, bits);
} else {
res = tb_inst_sar(p->func, lhsval, bits);
}
res = tb_inst_select(p->func, width_test, res, zero);
return cg_value(res, type);
}
case Token_AndNot:
return cg_value(tb_inst_and(p->func, lhs.node, tb_inst_not(p->func, rhs.node)), type);
}
GB_PANIC("unhandled operator of cg_emit_arith");
return {};
}
gb_internal cgAddr cg_build_addr_slice_expr(cgProcedure *p, Ast *expr) {
ast_node(se, SliceExpr, expr);
cgValue low = cg_const_int(p, t_int, 0);
cgValue high = {};
if (se->low != nullptr) {
low = cg_correct_endianness(p, cg_build_expr(p, se->low));
}
if (se->high != nullptr) {
high = cg_correct_endianness(p, cg_build_expr(p, se->high));
}
bool no_indices = se->low == nullptr && se->high == nullptr;
gb_unused(no_indices);
cgAddr addr = cg_build_addr(p, se->expr);
cgValue base = cg_addr_load(p, addr);
Type *type = base_type(base.type);
if (is_type_pointer(type)) {
type = base_type(type_deref(type));
addr = cg_addr(base);
base = cg_addr_load(p, addr);
}
switch (type->kind) {
case Type_Slice: {
// Type *slice_type = type;
// cgValue len = cg_slice_len(p, base);
// if (high.value == nullptr) high = len;
// if (!no_indices) {
// cg_emit_slice_bounds_check(p, se->open, low, high, len, se->low != nullptr);
// }
// cgValue elem = cg_emit_ptr_offset(p, cg_slice_elem(p, base), low);
// cgValue new_len = cg_emit_arith(p, Token_Sub, high, low, t_int);
// cgAddr slice = cg_add_local_generated(p, slice_type, false);
// cg_fill_slice(p, slice, elem, new_len);
// return slice;
GB_PANIC("cg_build_addr_slice_expr Type_Slice");
break;
}
case Type_RelativeSlice:
GB_PANIC("TODO(bill): Type_RelativeSlice should be handled above already on the cg_addr_load");
break;
case Type_DynamicArray: {
// Type *elem_type = type->DynamicArray.elem;
// Type *slice_type = alloc_type_slice(elem_type);
// lbValue len = lb_dynamic_array_len(p, base);
// if (high.value == nullptr) high = len;
// if (!no_indices) {
// lb_emit_slice_bounds_check(p, se->open, low, high, len, se->low != nullptr);
// }
// lbValue elem = lb_emit_ptr_offset(p, lb_dynamic_array_elem(p, base), low);
// lbValue new_len = lb_emit_arith(p, Token_Sub, high, low, t_int);
// lbAddr slice = lb_add_local_generated(p, slice_type, false);
// lb_fill_slice(p, slice, elem, new_len);
// return slice;
GB_PANIC("cg_build_addr_slice_expr Type_DynamicArray");
break;
}
case Type_MultiPointer: {
Type *res_type = type_of_expr(expr);
if (se->high == nullptr) {
cgAddr res = cg_add_local(p, res_type, nullptr, false);
GB_ASSERT(base.kind == cgValue_Value);
GB_ASSERT(low.kind == cgValue_Value);
i64 stride = type_size_of(type->MultiPointer.elem);
cgValue offset = cg_value(tb_inst_array_access(p->func, base.node, low.node, stride), base.type);
cg_addr_store(p, res, offset);
return res;
} else {
cgAddr res = cg_add_local(p, res_type, nullptr, true);
low = cg_emit_conv(p, low, t_int);
high = cg_emit_conv(p, high, t_int);
// cg_emit_multi_pointer_slice_bounds_check(p, se->open, low, high);
i64 stride = type_size_of(type->MultiPointer.elem);
TB_Node *offset = tb_inst_array_access(p->func, base.node, low.node, stride);
TB_Node *len = tb_inst_sub(p->func, high.node, low.node, cast(TB_ArithmeticBehavior)0);
TB_Node *data_ptr = tb_inst_member_access(p->func, res.addr.node, type_offset_of(res_type, 0));
TB_Node *len_ptr = tb_inst_member_access(p->func, res.addr.node, type_offset_of(res_type, 1));
tb_inst_store(p->func, TB_TYPE_PTR, data_ptr, offset, cast(TB_CharUnits)build_context.ptr_size, false);
tb_inst_store(p->func, TB_TYPE_INT, len_ptr, len, cast(TB_CharUnits)build_context.int_size, false);
return res;
}
}
case Type_Array: {
// Type *slice_type = alloc_type_slice(type->Array.elem);
// lbValue len = lb_const_int(p->module, t_int, type->Array.count);
// if (high.value == nullptr) high = len;
// bool low_const = type_and_value_of_expr(se->low).mode == Addressing_Constant;
// bool high_const = type_and_value_of_expr(se->high).mode == Addressing_Constant;
// if (!low_const || !high_const) {
// if (!no_indices) {
// lb_emit_slice_bounds_check(p, se->open, low, high, len, se->low != nullptr);
// }
// }
// lbValue elem = lb_emit_ptr_offset(p, lb_array_elem(p, lb_addr_get_ptr(p, addr)), low);
// lbValue new_len = lb_emit_arith(p, Token_Sub, high, low, t_int);
// lbAddr slice = lb_add_local_generated(p, slice_type, false);
// lb_fill_slice(p, slice, elem, new_len);
// return slice;
GB_PANIC("cg_build_addr_slice_expr Type_Array");
break;
}
case Type_Basic: {
// GB_ASSERT(type == t_string);
// lbValue len = lb_string_len(p, base);
// if (high.value == nullptr) high = len;
// if (!no_indices) {
// lb_emit_slice_bounds_check(p, se->open, low, high, len, se->low != nullptr);
// }
// lbValue elem = lb_emit_ptr_offset(p, lb_string_elem(p, base), low);
// lbValue new_len = lb_emit_arith(p, Token_Sub, high, low, t_int);
// lbAddr str = lb_add_local_generated(p, t_string, false);
// lb_fill_string(p, str, elem, new_len);
// return str;
GB_PANIC("cg_build_addr_slice_expr Type_Basic");
break;
}
case Type_Struct:
// if (is_type_soa_struct(type)) {
// lbValue len = lb_soa_struct_len(p, lb_addr_get_ptr(p, addr));
// if (high.value == nullptr) high = len;
// if (!no_indices) {
// lb_emit_slice_bounds_check(p, se->open, low, high, len, se->low != nullptr);
// }
// #if 1
// lbAddr dst = lb_add_local_generated(p, type_of_expr(expr), true);
// if (type->Struct.soa_kind == StructSoa_Fixed) {
// i32 field_count = cast(i32)type->Struct.fields.count;
// for (i32 i = 0; i < field_count; i++) {
// lbValue field_dst = lb_emit_struct_ep(p, dst.addr, i);
// lbValue field_src = lb_emit_struct_ep(p, lb_addr_get_ptr(p, addr), i);
// field_src = lb_emit_array_ep(p, field_src, low);
// lb_emit_store(p, field_dst, field_src);
// }
// lbValue len_dst = lb_emit_struct_ep(p, dst.addr, field_count);
// lbValue new_len = lb_emit_arith(p, Token_Sub, high, low, t_int);
// lb_emit_store(p, len_dst, new_len);
// } else if (type->Struct.soa_kind == StructSoa_Slice) {
// if (no_indices) {
// lb_addr_store(p, dst, base);
// } else {
// i32 field_count = cast(i32)type->Struct.fields.count - 1;
// for (i32 i = 0; i < field_count; i++) {
// lbValue field_dst = lb_emit_struct_ep(p, dst.addr, i);
// lbValue field_src = lb_emit_struct_ev(p, base, i);
// field_src = lb_emit_ptr_offset(p, field_src, low);
// lb_emit_store(p, field_dst, field_src);
// }
// lbValue len_dst = lb_emit_struct_ep(p, dst.addr, field_count);
// lbValue new_len = lb_emit_arith(p, Token_Sub, high, low, t_int);
// lb_emit_store(p, len_dst, new_len);
// }
// } else if (type->Struct.soa_kind == StructSoa_Dynamic) {
// i32 field_count = cast(i32)type->Struct.fields.count - 3;
// for (i32 i = 0; i < field_count; i++) {
// lbValue field_dst = lb_emit_struct_ep(p, dst.addr, i);
// lbValue field_src = lb_emit_struct_ev(p, base, i);
// field_src = lb_emit_ptr_offset(p, field_src, low);
// lb_emit_store(p, field_dst, field_src);
// }
// lbValue len_dst = lb_emit_struct_ep(p, dst.addr, field_count);
// lbValue new_len = lb_emit_arith(p, Token_Sub, high, low, t_int);
// lb_emit_store(p, len_dst, new_len);
// }
// return dst;
// #endif
// }
GB_PANIC("cg_build_addr_slice_expr Type_Struct");
break;
}
GB_PANIC("Unknown slicable type");
return {};
}
gb_internal cgValue cg_emit_unary_arith(cgProcedure *p, TokenKind op, cgValue x, Type *type) {
switch (op) {
case Token_Add:
return x;
case Token_Not: // Boolean not
case Token_Xor: // Bitwise not
case Token_Sub: // Number negation
break;
case Token_Pointer:
GB_PANIC("This should be handled elsewhere");
break;
}
x = cg_flatten_value(p, x);
if (is_type_array_like(x.type)) {
GB_PANIC("TODO(bill): cg_emit_unary_arith is_type_array_like");
// // IMPORTANT TODO(bill): This is very wasteful with regards to stack memory
// Type *tl = base_type(x.type);
// cgValue val = cg_address_from_load_or_generate_local(p, x);
// GB_ASSERT(is_type_array_like(type));
// Type *elem_type = base_array_type(type);
// // NOTE(bill): Doesn't need to be zero because it will be initialized in the loops
// cgAddr res_addr = cg_add_local(p, type, nullptr, false);
// cgValue res = cg_addr_get_ptr(p, res_addr);
// bool inline_array_arith = cg_can_try_to_inline_array_arith(type);
// i32 count = cast(i32)get_array_type_count(tl);
// LLVMTypeRef vector_type = nullptr;
// if (op != Token_Not && cg_try_vector_cast(p->module, val, &vector_type)) {
// LLVMValueRef vp = LLVMBuildPointerCast(p->builder, val.value, LLVMPointerType(vector_type, 0), "");
// LLVMValueRef v = LLVMBuildLoad2(p->builder, vector_type, vp, "");
// LLVMValueRef opv = nullptr;
// switch (op) {
// case Token_Xor:
// opv = LLVMBuildNot(p->builder, v, "");
// break;
// case Token_Sub:
// if (is_type_float(elem_type)) {
// opv = LLVMBuildFNeg(p->builder, v, "");
// } else {
// opv = LLVMBuildNeg(p->builder, v, "");
// }
// break;
// }
// if (opv != nullptr) {
// LLVMSetAlignment(res.value, cast(unsigned)cg_alignof(vector_type));
// LLVMValueRef res_ptr = LLVMBuildPointerCast(p->builder, res.value, LLVMPointerType(vector_type, 0), "");
// LLVMBuildStore(p->builder, opv, res_ptr);
// return cg_emit_conv(p, cg_emit_load(p, res), type);
// }
// }
// if (inline_array_arith) {
// // inline
// for (i32 i = 0; i < count; i++) {
// cgValue e = cg_emit_load(p, cg_emit_array_epi(p, val, i));
// cgValue z = cg_emit_unary_arith(p, op, e, elem_type);
// cg_emit_store(p, cg_emit_array_epi(p, res, i), z);
// }
// } else {
// auto loop_data = cg_loop_start(p, count, t_i32);
// cgValue e = cg_emit_load(p, cg_emit_array_ep(p, val, loop_data.idx));
// cgValue z = cg_emit_unary_arith(p, op, e, elem_type);
// cg_emit_store(p, cg_emit_array_ep(p, res, loop_data.idx), z);
// cg_loop_end(p, loop_data);
// }
// return cg_emit_load(p, res);
}
if (op == Token_Xor) {
GB_ASSERT(x.kind == cgValue_Value);
cgValue cmp = cg_value(tb_inst_not(p->func, x.node), x.type);
return cg_emit_conv(p, cmp, type);
}
if (op == Token_Not) {
TB_Node *zero = cg_const_nil(p, x.type).node;
cgValue cmp = cg_value(tb_inst_cmp_ne(p->func, x.node, zero), x.type);
return cg_emit_conv(p, cmp, type);
}
if (op == Token_Sub && is_type_integer(type) && is_type_different_to_arch_endianness(type)) {
Type *platform_type = integer_endian_type_to_platform_type(type);
cgValue v = cg_emit_byte_swap(p, x, platform_type);
cgValue res = cg_value(tb_inst_neg(p->func, v.node), platform_type);
return cg_emit_byte_swap(p, res, type);
}
if (op == Token_Sub && is_type_float(type) && is_type_different_to_arch_endianness(type)) {
Type *platform_type = integer_endian_type_to_platform_type(type);
cgValue v = cg_emit_byte_swap(p, x, platform_type);
cgValue res = cg_value(tb_inst_neg(p->func, v.node), platform_type);
return cg_emit_byte_swap(p, res, type);
}
cgValue res = {};
if (op == Token_Sub) { // Number negation
if (is_type_integer(x.type)) {
res = cg_value(tb_inst_neg(p->func, x.node), x.type);
} else if (is_type_float(x.type)) {
res = cg_value(tb_inst_neg(p->func, x.node), x.type);
} else if (is_type_complex(x.type)) {
GB_PANIC("TODO(bill): neg complex");
// LLVMValueRef v0 = LLVMBuildFNeg(p->builder, LLVMBuildExtractValue(p->builder, x.value, 0, ""), "");
// LLVMValueRef v1 = LLVMBuildFNeg(p->builder, LLVMBuildExtractValue(p->builder, x.value, 1, ""), "");
// cgAddr addr = cg_add_local_generated(p, x.type, false);
// LLVMTypeRef type = llvm_addr_type(p->module, addr.addr);
// LLVMBuildStore(p->builder, v0, LLVMBuildStructGEP2(p->builder, type, addr.addr.value, 0, ""));
// LLVMBuildStore(p->builder, v1, LLVMBuildStructGEP2(p->builder, type, addr.addr.value, 1, ""));
// return cg_addr_load(p, addr);
} else if (is_type_quaternion(x.type)) {
GB_PANIC("TODO(bill): neg quaternion");
// LLVMValueRef v0 = LLVMBuildFNeg(p->builder, LLVMBuildExtractValue(p->builder, x.value, 0, ""), "");
// LLVMValueRef v1 = LLVMBuildFNeg(p->builder, LLVMBuildExtractValue(p->builder, x.value, 1, ""), "");
// LLVMValueRef v2 = LLVMBuildFNeg(p->builder, LLVMBuildExtractValue(p->builder, x.value, 2, ""), "");
// LLVMValueRef v3 = LLVMBuildFNeg(p->builder, LLVMBuildExtractValue(p->builder, x.value, 3, ""), "");
// cgAddr addr = cg_add_local_generated(p, x.type, false);
// LLVMTypeRef type = llvm_addr_type(p->module, addr.addr);
// LLVMBuildStore(p->builder, v0, LLVMBuildStructGEP2(p->builder, type, addr.addr.value, 0, ""));
// LLVMBuildStore(p->builder, v1, LLVMBuildStructGEP2(p->builder, type, addr.addr.value, 1, ""));
// LLVMBuildStore(p->builder, v2, LLVMBuildStructGEP2(p->builder, type, addr.addr.value, 2, ""));
// LLVMBuildStore(p->builder, v3, LLVMBuildStructGEP2(p->builder, type, addr.addr.value, 3, ""));
// return cg_addr_load(p, addr);
} else if (is_type_simd_vector(x.type)) {
GB_PANIC("TODO(bill): neg simd");
// Type *elem = base_array_type(x.type);
// if (is_type_float(elem)) {
// res.value = LLVMBuildFNeg(p->builder, x.value, "");
// } else {
// res.value = LLVMBuildNeg(p->builder, x.value, "");
// }
} else if (is_type_matrix(x.type)) {
GB_PANIC("TODO(bill): neg matrix");
// cgValue zero = {};
// zero.value = LLVMConstNull(cg_type(p->module, type));
// zero.type = type;
// return cg_emit_arith_matrix(p, Token_Sub, zero, x, type, true);
} else {
GB_PANIC("Unhandled type %s", type_to_string(x.type));
}
res.type = x.type;
return res;
}
return res;
}
gb_internal cgValue cg_build_binary_expr(cgProcedure *p, Ast *expr) {
ast_node(be, BinaryExpr, expr);
TypeAndValue tv = type_and_value_of_expr(expr);
if (is_type_matrix(be->left->tav.type) || is_type_matrix(be->right->tav.type)) {
cgValue left = cg_build_expr(p, be->left);
cgValue right = cg_build_expr(p, be->right);
GB_PANIC("TODO(bill): cg_emit_arith_matrix");
// return cg_emit_arith_matrix(p, be->op.kind, left, right, default_type(tv.type), false);
}
switch (be->op.kind) {
case Token_Add:
case Token_Sub:
case Token_Mul:
case Token_Quo:
case Token_Mod:
case Token_ModMod:
case Token_And:
case Token_Or:
case Token_Xor:
case Token_AndNot: {
Type *type = default_type(tv.type);
cgValue left = cg_build_expr(p, be->left);
cgValue right = cg_build_expr(p, be->right);
return cg_emit_arith(p, be->op.kind, left, right, type);
}
case Token_Shl:
case Token_Shr: {
cgValue left, right;
Type *type = default_type(tv.type);
left = cg_build_expr(p, be->left);
if (cg_is_expr_untyped_const(be->right)) {
// NOTE(bill): RHS shift operands can still be untyped
// Just bypass the standard cg_build_expr
right = cg_expr_untyped_const_to_typed(p, be->right, type);
} else {
right = cg_build_expr(p, be->right);
}
return cg_emit_arith(p, be->op.kind, left, right, type);
}
case Token_CmpEq:
case Token_NotEq:
GB_PANIC("TODO(bill): comparisons");
// if (is_type_untyped_nil(be->right->tav.type)) {
// // `x == nil` or `x != nil`
// cgValue left = cg_build_expr(p, be->left);
// cgValue cmp = cg_emit_comp_against_nil(p, be->op.kind, left);
// Type *type = default_type(tv.type);
// return cg_emit_conv(p, cmp, type);
// } else if (is_type_untyped_nil(be->left->tav.type)) {
// // `nil == x` or `nil != x`
// cgValue right = cg_build_expr(p, be->right);
// cgValue cmp = cg_emit_comp_against_nil(p, be->op.kind, right);
// Type *type = default_type(tv.type);
// return cg_emit_conv(p, cmp, type);
// } else if (cg_is_empty_string_constant(be->right)) {
// // `x == ""` or `x != ""`
// cgValue s = cg_build_expr(p, be->left);
// s = cg_emit_conv(p, s, t_string);
// cgValue len = cg_string_len(p, s);
// cgValue cmp = cg_emit_comp(p, be->op.kind, len, cg_const_int(p->module, t_int, 0));
// Type *type = default_type(tv.type);
// return cg_emit_conv(p, cmp, type);
// } else if (cg_is_empty_string_constant(be->left)) {
// // `"" == x` or `"" != x`
// cgValue s = cg_build_expr(p, be->right);
// s = cg_emit_conv(p, s, t_string);
// cgValue len = cg_string_len(p, s);
// cgValue cmp = cg_emit_comp(p, be->op.kind, len, cg_const_int(p->module, t_int, 0));
// Type *type = default_type(tv.type);
// return cg_emit_conv(p, cmp, type);
// }
/*fallthrough*/
case Token_Lt:
case Token_LtEq:
case Token_Gt:
case Token_GtEq:
{
cgValue left = {};
cgValue right = {};
if (be->left->tav.mode == Addressing_Type) {
left = cg_typeid(p->module, be->left->tav.type);
}
if (be->right->tav.mode == Addressing_Type) {
right = cg_typeid(p->module, be->right->tav.type);
}
if (left.node == nullptr) left = cg_build_expr(p, be->left);
if (right.node == nullptr) right = cg_build_expr(p, be->right);
GB_PANIC("TODO(bill): cg_emit_comp");
// cgValue cmp = cg_emit_comp(p, be->op.kind, left, right);
// Type *type = default_type(tv.type);
// return cg_emit_conv(p, cmp, type);
}
case Token_CmpAnd:
case Token_CmpOr:
GB_PANIC("TODO(bill): cg_emit_logical_binary_expr");
// return cg_emit_logical_binary_expr(p, be->op.kind, be->left, be->right, tv.type);
case Token_in:
case Token_not_in:
{
cgValue left = cg_build_expr(p, be->left);
cgValue right = cg_build_expr(p, be->right);
Type *rt = base_type(right.type);
if (is_type_pointer(rt)) {
right = cg_emit_load(p, right);
rt = base_type(type_deref(rt));
}
switch (rt->kind) {
case Type_Map:
{
GB_PANIC("TODO(bill): in/not_in for maps");
// cgValue map_ptr = cg_address_from_load_or_generate_local(p, right);
// cgValue key = left;
// cgValue ptr = cg_internal_dynamic_map_get_ptr(p, map_ptr, key);
// if (be->op.kind == Token_in) {
// return cg_emit_conv(p, cg_emit_comp_against_nil(p, Token_NotEq, ptr), t_bool);
// } else {
// return cg_emit_conv(p, cg_emit_comp_against_nil(p, Token_CmpEq, ptr), t_bool);
// }
}
break;
case Type_BitSet:
{
Type *key_type = rt->BitSet.elem;
GB_ASSERT(are_types_identical(left.type, key_type));
Type *it = bit_set_to_int(rt);
left = cg_emit_conv(p, left, it);
if (is_type_different_to_arch_endianness(it)) {
left = cg_emit_byte_swap(p, left, integer_endian_type_to_platform_type(it));
}
cgValue lower = cg_const_value(p, left.type, exact_value_i64(rt->BitSet.lower));
cgValue key = cg_emit_arith(p, Token_Sub, left, lower, left.type);
cgValue bit = cg_emit_arith(p, Token_Shl, cg_const_int(p, left.type, 1), key, left.type);
bit = cg_emit_conv(p, bit, it);
cgValue old_value = cg_emit_transmute(p, right, it);
cgValue new_value = cg_emit_arith(p, Token_And, old_value, bit, it);
GB_PANIC("TODO(bill): cg_emit_comp");
// TokenKind op = (be->op.kind == Token_in) ? Token_NotEq : Token_CmpEq;
// return cg_emit_conv(p, cg_emit_comp(p, op, new_value, cg_const_int(p, new_value.type, 0)), t_bool);
}
break;
default:
GB_PANIC("Invalid 'in' type");
}
break;
}
break;
default:
GB_PANIC("Invalid binary expression");
break;
}
return {};
}
gb_internal cgValue cg_build_expr_internal(cgProcedure *p, Ast *expr);
gb_internal cgValue cg_build_expr(cgProcedure *p, Ast *expr) {
u16 prev_state_flags = p->state_flags;
defer (p->state_flags = prev_state_flags);
if (expr->state_flags != 0) {
u16 in = expr->state_flags;
u16 out = p->state_flags;
if (in & StateFlag_bounds_check) {
out |= StateFlag_bounds_check;
out &= ~StateFlag_no_bounds_check;
} else if (in & StateFlag_no_bounds_check) {
out |= StateFlag_no_bounds_check;
out &= ~StateFlag_bounds_check;
}
if (in & StateFlag_type_assert) {
out |= StateFlag_type_assert;
out &= ~StateFlag_no_type_assert;
} else if (in & StateFlag_no_type_assert) {
out |= StateFlag_no_type_assert;
out &= ~StateFlag_type_assert;
}
p->state_flags = out;
}
// IMPORTANT NOTE(bill):
// Selector Call Expressions (foo->bar(...))
// must only evaluate `foo` once as it gets transformed into
// `foo.bar(foo, ...)`
// And if `foo` is a procedure call or something more complex, storing the value
// once is a very good idea
// If a stored value is found, it must be removed from the cache
if (expr->state_flags & StateFlag_SelectorCallExpr) {
// cgValue *pp = map_get(&p->selector_values, expr);
// if (pp != nullptr) {
// cgValue res = *pp;
// map_remove(&p->selector_values, expr);
// return res;
// }
// cgAddr *pa = map_get(&p->selector_addr, expr);
// if (pa != nullptr) {
// cgAddr res = *pa;
// map_remove(&p->selector_addr, expr);
// return cg_addr_load(p, res);
// }
}
cgValue res = cg_build_expr_internal(p, expr);
if (res.kind == cgValue_Symbol) {
GB_ASSERT(is_type_internally_pointer_like(res.type));
res = cg_value(tb_inst_get_symbol_address(p->func, res.symbol), res.type);
}
if (expr->state_flags & StateFlag_SelectorCallExpr) {
// map_set(&p->selector_values, expr, res);
}
return res;
}
gb_internal cgValue cg_build_expr_internal(cgProcedure *p, Ast *expr) {
cgModule *m = p->module;
expr = unparen_expr(expr);
TokenPos expr_pos = ast_token(expr).pos;
TypeAndValue tv = type_and_value_of_expr(expr);
Type *type = type_of_expr(expr);
GB_ASSERT_MSG(tv.mode != Addressing_Invalid, "invalid expression '%s' (tv.mode = %d, tv.type = %s) @ %s\n Current Proc: %.*s : %s", expr_to_string(expr), tv.mode, type_to_string(tv.type), token_pos_to_string(expr_pos), LIT(p->name), type_to_string(p->type));
if (tv.value.kind != ExactValue_Invalid) {
// NOTE(bill): The commented out code below is just for debug purposes only
// if (is_type_untyped(type)) {
// gb_printf_err("%s %s : %s @ %p\n", token_pos_to_string(expr_pos), expr_to_string(expr), type_to_string(expr->tav.type), expr);
// GB_PANIC("%s\n", type_to_string(tv.type));
// }
// NOTE(bill): Short on constant values
return cg_const_value(p, type, tv.value);
} else if (tv.mode == Addressing_Type) {
// NOTE(bill, 2023-01-16): is this correct? I hope so at least
return cg_typeid(m, tv.type);
}
switch (expr->kind) {
case_ast_node(bl, BasicLit, expr);
TokenPos pos = bl->token.pos;
GB_PANIC("Non-constant basic literal %s - %.*s", token_pos_to_string(pos), LIT(token_strings[bl->token.kind]));
case_end;
case_ast_node(bd, BasicDirective, expr);
TokenPos pos = bd->token.pos;
GB_PANIC("Non-constant basic literal %s - %.*s", token_pos_to_string(pos), LIT(bd->name.string));
case_end;
case_ast_node(i, Ident, expr);
Entity *e = entity_from_expr(expr);
e = strip_entity_wrapping(e);
GB_ASSERT_MSG(e != nullptr, "%s in %.*s %p", expr_to_string(expr), LIT(p->name), expr);
if (e->kind == Entity_Builtin) {
Token token = ast_token(expr);
GB_PANIC("TODO(bill): lb_build_expr Entity_Builtin '%.*s'\n"
"\t at %s", LIT(builtin_procs[e->Builtin.id].name),
token_pos_to_string(token.pos));
return {};
} else if (e->kind == Entity_Nil) {
GB_PANIC("TODO: cg_find_ident nil");
// TODO(bill): is this correct?
return cg_value(cast(TB_Node *)nullptr, e->type);
}
GB_ASSERT(e->kind != Entity_ProcGroup);
cgAddr *addr = map_get(&p->variable_map, e);
if (addr) {
return cg_addr_load(p, *addr);
}
// return cg_find_ident(p, m, e, expr);
GB_PANIC("TODO: cg_find_ident");
return {};
case_end;
case_ast_node(i, Implicit, expr);
return cg_addr_load(p, cg_build_addr(p, expr));
case_end;
case_ast_node(u, Uninit, expr);
if (is_type_untyped(type)) {
return cg_value(cast(TB_Node *)nullptr, t_untyped_uninit);
}
return cg_value(tb_inst_poison(p->func), type);
case_end;
case_ast_node(de, DerefExpr, expr);
return cg_addr_load(p, cg_build_addr(p, expr));
case_end;
case_ast_node(se, SelectorExpr, expr);
TypeAndValue tav = type_and_value_of_expr(expr);
GB_ASSERT(tav.mode != Addressing_Invalid);
return cg_addr_load(p, cg_build_addr(p, expr));
case_end;
case_ast_node(ise, ImplicitSelectorExpr, expr);
TypeAndValue tav = type_and_value_of_expr(expr);
GB_ASSERT(tav.mode == Addressing_Constant);
return cg_const_value(p, type, tv.value);
case_end;
case_ast_node(se, SelectorCallExpr, expr);
GB_ASSERT(se->modified_call);
return cg_build_call_expr(p, se->call);
case_end;
case_ast_node(i, CallExpr, expr);
return cg_build_call_expr(p, expr);
case_end;
case_ast_node(te, TernaryIfExpr, expr);
GB_PANIC("TODO(bill): TernaryIfExpr");
case_end;
case_ast_node(te, TernaryWhenExpr, expr);
TypeAndValue tav = type_and_value_of_expr(te->cond);
GB_ASSERT(tav.mode == Addressing_Constant);
GB_ASSERT(tav.value.kind == ExactValue_Bool);
if (tav.value.value_bool) {
return cg_build_expr(p, te->x);
} else {
return cg_build_expr(p, te->y);
}
case_end;
case_ast_node(tc, TypeCast, expr);
cgValue e = cg_build_expr(p, tc->expr);
switch (tc->token.kind) {
case Token_cast:
return cg_emit_conv(p, e, type);
case Token_transmute:
return cg_emit_transmute(p, e, type);
}
GB_PANIC("Invalid AST TypeCast");
case_end;
case_ast_node(ac, AutoCast, expr);
cgValue value = cg_build_expr(p, ac->expr);
return cg_emit_conv(p, value, type);
case_end;
case_ast_node(se, SliceExpr, expr);
if (is_type_slice(type_of_expr(se->expr))) {
// NOTE(bill): Quick optimization
if (se->high == nullptr &&
(se->low == nullptr || cg_is_expr_constant_zero(se->low))) {
return cg_build_expr(p, se->expr);
}
}
return cg_addr_load(p, cg_build_addr(p, expr));
case_end;
case_ast_node(ie, IndexExpr, expr);
return cg_addr_load(p, cg_build_addr(p, expr));
case_end;
case_ast_node(ie, MatrixIndexExpr, expr);
return cg_addr_load(p, cg_build_addr(p, expr));
case_end;
case_ast_node(ue, UnaryExpr, expr);
if (ue->op.kind == Token_And) {
GB_PANIC("TODO(bill): cg_build_unary_and");
// return cg_build_unary_and(p, expr);
}
cgValue v = cg_build_expr(p, ue->expr);
return cg_emit_unary_arith(p, ue->op.kind, v, type);
case_end;
case_ast_node(be, BinaryExpr, expr);
return cg_build_binary_expr(p, expr);
case_end;
}
GB_PANIC("TODO(bill): cg_build_expr_internal %.*s", LIT(ast_strings[expr->kind]));
return {};
}
gb_internal cgAddr cg_build_addr_internal(cgProcedure *p, Ast *expr);
gb_internal cgAddr cg_build_addr(cgProcedure *p, Ast *expr) {
expr = unparen_expr(expr);
// IMPORTANT NOTE(bill):
// Selector Call Expressions (foo->bar(...))
// must only evaluate `foo` once as it gets transformed into
// `foo.bar(foo, ...)`
// And if `foo` is a procedure call or something more complex, storing the value
// once is a very good idea
// If a stored value is found, it must be removed from the cache
if (expr->state_flags & StateFlag_SelectorCallExpr) {
// lbAddr *pp = map_get(&p->selector_addr, expr);
// if (pp != nullptr) {
// lbAddr res = *pp;
// map_remove(&p->selector_addr, expr);
// return res;
// }
}
cgAddr addr = cg_build_addr_internal(p, expr);
if (expr->state_flags & StateFlag_SelectorCallExpr) {
// map_set(&p->selector_addr, expr, addr);
}
return addr;
}
gb_internal cgAddr cg_build_addr_internal(cgProcedure *p, Ast *expr) {
switch (expr->kind) {
case_ast_node(i, Implicit, expr);
cgAddr v = {};
switch (i->kind) {
case Token_context:
v = cg_find_or_generate_context_ptr(p);
break;
}
GB_ASSERT(v.addr.node != nullptr);
return v;
case_end;
case_ast_node(i, Ident, expr);
if (is_blank_ident(expr)) {
cgAddr val = {};
return val;
}
String name = i->token.string;
Entity *e = entity_of_node(expr);
return cg_build_addr_from_entity(p, e, expr);
case_end;
case_ast_node(se, SliceExpr, expr);
return cg_build_addr_slice_expr(p, expr);
case_end;
case_ast_node(se, SelectorExpr, expr);
Ast *sel_node = unparen_expr(se->selector);
if (sel_node->kind != Ast_Ident) {
GB_PANIC("Unsupported selector expression");
}
String selector = sel_node->Ident.token.string;
TypeAndValue tav = type_and_value_of_expr(se->expr);
if (tav.mode == Addressing_Invalid) {
// NOTE(bill): Imports
Entity *imp = entity_of_node(se->expr);
if (imp != nullptr) {
GB_ASSERT(imp->kind == Entity_ImportName);
}
return cg_build_addr(p, unparen_expr(se->selector));
}
Type *type = base_type(tav.type);
if (tav.mode == Addressing_Type) { // Addressing_Type
Selection sel = lookup_field(tav.type, selector, true);
if (sel.pseudo_field) {
GB_ASSERT(sel.entity->kind == Entity_Procedure);
return cg_addr(cg_find_value_from_entity(p->module, sel.entity));
}
GB_PANIC("Unreachable %.*s", LIT(selector));
}
if (se->swizzle_count > 0) {
Type *array_type = base_type(type_deref(tav.type));
GB_ASSERT(array_type->kind == Type_Array);
u8 swizzle_count = se->swizzle_count;
u8 swizzle_indices_raw = se->swizzle_indices;
u8 swizzle_indices[4] = {};
for (u8 i = 0; i < swizzle_count; i++) {
u8 index = swizzle_indices_raw>>(i*2) & 3;
swizzle_indices[i] = index;
}
cgValue a = {};
if (is_type_pointer(tav.type)) {
a = cg_build_expr(p, se->expr);
} else {
cgAddr addr = cg_build_addr(p, se->expr);
a = cg_addr_get_ptr(p, addr);
}
GB_ASSERT(is_type_array(expr->tav.type));
GB_PANIC("TODO(bill): cg_addr_swizzle");
// return cg_addr_swizzle(a, expr->tav.type, swizzle_count, swizzle_indices);
}
Selection sel = lookup_field(type, selector, false);
GB_ASSERT(sel.entity != nullptr);
if (sel.pseudo_field) {
GB_ASSERT(sel.entity->kind == Entity_Procedure);
Entity *e = entity_of_node(sel_node);
return cg_addr(cg_find_value_from_entity(p->module, e));
}
{
cgAddr addr = cg_build_addr(p, se->expr);
if (addr.kind == cgAddr_Map) {
cgValue v = cg_addr_load(p, addr);
cgValue a = cg_address_from_load_or_generate_local(p, v);
a = cg_emit_deep_field_gep(p, a, sel);
return cg_addr(a);
} else if (addr.kind == cgAddr_Context) {
GB_ASSERT(sel.index.count > 0);
if (addr.ctx.sel.index.count >= 0) {
sel = selection_combine(addr.ctx.sel, sel);
}
addr.ctx.sel = sel;
addr.kind = cgAddr_Context;
return addr;
} else if (addr.kind == cgAddr_SoaVariable) {
cgValue index = addr.soa.index;
i64 first_index = sel.index[0];
Selection sub_sel = sel;
sub_sel.index.data += 1;
sub_sel.index.count -= 1;
cgValue arr = cg_emit_struct_ep(p, addr.addr, first_index);
Type *t = base_type(type_deref(addr.addr.type));
GB_ASSERT(is_type_soa_struct(t));
// TODO(bill): bounds checking for soa variable
// if (addr.soa.index_expr != nullptr && (!cg_is_const(addr.soa.index) || t->Struct.soa_kind != StructSoa_Fixed)) {
// cgValue len = cg_soa_struct_len(p, addr.addr);
// cg_emit_bounds_check(p, ast_token(addr.soa.index_expr), addr.soa.index, len);
// }
cgValue item = {};
if (t->Struct.soa_kind == StructSoa_Fixed) {
item = cg_emit_array_ep(p, arr, index);
} else {
item = cg_emit_ptr_offset(p, cg_emit_load(p, arr), index);
}
if (sub_sel.index.count > 0) {
item = cg_emit_deep_field_gep(p, item, sub_sel);
}
return cg_addr(item);
} else if (addr.kind == cgAddr_Swizzle) {
GB_ASSERT(sel.index.count > 0);
// NOTE(bill): just patch the index in place
sel.index[0] = addr.swizzle.indices[sel.index[0]];
} else if (addr.kind == cgAddr_SwizzleLarge) {
GB_ASSERT(sel.index.count > 0);
// NOTE(bill): just patch the index in place
sel.index[0] = addr.swizzle.indices[sel.index[0]];
}
cgValue a = cg_addr_get_ptr(p, addr);
a = cg_emit_deep_field_gep(p, a, sel);
return cg_addr(a);
}
case_end;
}
TokenPos token_pos = ast_token(expr).pos;
GB_PANIC("Unexpected address expression\n"
"\tAst: %.*s @ "
"%s\n",
LIT(ast_strings[expr->kind]),
token_pos_to_string(token_pos));
return {};
}
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