mirrors/Odin
1
0
Fork 0
mirror of https://github.com/odin-lang/Odin.git synced 2025-12-29 09:24:33 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
fbac18ec008cc555262ff7380343cf229f2f5d34
Odin/src/tilde_expr.cpp
gingerBill bc99bacb21 Update Tilde
2023-12-13 12:38:01 +00:00

3961 lines
125 KiB
C++
Raw Blame History

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));
return cg_value(tb_inst_get_symbol_address(p->func, value.symbol), value.type);
} else if (value.kind == cgValue_Addr) {
// TODO(bill): Is this a good idea?
// this converts an lvalue to an rvalue if trivially possible
TB_DataType dt = cg_data_type(value.type);
if (!TB_IS_VOID_TYPE(dt)) {
TB_CharUnits align = cast(TB_CharUnits)type_align_of(value.type);
return cg_value(tb_inst_load(p->func, dt, value.node, align, false), value.type);
}
}
return value;
}
gb_internal cgValue cg_emit_select(cgProcedure *p, cgValue const &cond, cgValue const &x, cgValue const &y) {
GB_ASSERT(x.kind == y.kind);
GB_ASSERT(cond.kind == cgValue_Value);
cgValue res = x;
res.node = tb_inst_select(p->func, cond.node, x.node, y.node);
return res;
}
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_function_attrib_variable(p->func, c.addr.node, nullptr, -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 cgValue cg_get_using_variable(cgProcedure *p, Entity *e) {
GB_ASSERT(e->kind == Entity_Variable && e->flags & EntityFlag_Using);
String name = e->token.string;
Entity *parent = e->using_parent;
Selection sel = lookup_field(parent->type, name, false);
GB_ASSERT(sel.entity != nullptr);
cgValue *pv = map_get(&p->module->values, parent);
cgValue v = {};
if (pv == nullptr && parent->flags & EntityFlag_SoaPtrField) {
// NOTE(bill): using SOA value (probably from for-in statement)
GB_PANIC("TODO(bill): cg_get_soa_variable_addr");
// cgAddr parent_addr = cg_get_soa_variable_addr(p, parent);
// v = cg_addr_get_ptr(p, parent_addr);
} else if (pv != nullptr) {
v = *pv;
} else {
GB_ASSERT_MSG(e->using_expr != nullptr, "%.*s %.*s", LIT(e->token.string), LIT(name));
v = cg_build_addr_ptr(p, e->using_expr);
}
GB_ASSERT(v.node != nullptr);
GB_ASSERT_MSG(parent->type == type_deref(v.type), "%s %s", type_to_string(parent->type), type_to_string(v.type));
cgValue ptr = cg_emit_deep_field_gep(p, v, sel);
// if (parent->scope) {
// if ((parent->scope->flags & (ScopeFlag_File|ScopeFlag_Pkg)) == 0) {
// cg_add_debug_local_variable(p, ptr.value, e->type, e->token);
// }
// } else {
// cg_add_debug_local_variable(p, ptr.value, e->type, e->token);
// }
return ptr;
}
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) {
// NOTE(bill): Calculate the using variable every time
v = cg_get_using_variable(p, e);
} else if (e->flags & EntityFlag_SoaPtrField) {
return map_must_get(&p->soa_values_map, 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_emit_union_tag_ptr(cgProcedure *p, cgValue const &parent_ptr) {
Type *t = parent_ptr.type;
Type *ut = base_type(type_deref(t));
GB_ASSERT_MSG(is_type_pointer(t), "%s", type_to_string(t));
GB_ASSERT_MSG(ut->kind == Type_Union, "%s", type_to_string(t));
GB_ASSERT(!is_type_union_maybe_pointer_original_alignment(ut));
GB_ASSERT(!is_type_union_maybe_pointer(ut));
GB_ASSERT(type_size_of(ut) > 0);
Type *tag_type = union_tag_type(ut);
i64 tag_offset = ut->Union.variant_block_size;
GB_ASSERT(parent_ptr.kind == cgValue_Value);
TB_Node *ptr = parent_ptr.node;
TB_Node *tag_ptr = tb_inst_member_access(p->func, ptr, tag_offset);
return cg_value(tag_ptr, alloc_type_pointer(tag_type));
}
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_MSG(!TB_IS_VOID_TYPE(dt), "%d %s -> %s", dt.type, type_to_string(value.type), type_to_string(type));
value.type = type;
if (value.node->dt.raw != dt.raw) {
switch (value.node->dt.type) {
case TB_INT:
switch (value.node->dt.type) {
case TB_INT:
break;
case TB_FLOAT:
value.node = tb_inst_bitcast(p->func, value.node, dt);
break;
case TB_PTR:
value.node = tb_inst_int2ptr(p->func, value.node);
break;
}
break;
case TB_FLOAT:
switch (value.node->dt.type) {
case TB_INT:
value.node = tb_inst_bitcast(p->func, value.node, dt);
break;
case TB_FLOAT:
break;
case TB_PTR:
value.node = tb_inst_bitcast(p->func, value.node, TB_TYPE_INTPTR);
value.node = tb_inst_int2ptr(p->func, value.node);
break;
}
break;
case TB_PTR:
switch (value.node->dt.type) {
case TB_INT:
value.node = tb_inst_ptr2int(p->func, value.node, dt);
break;
case TB_FLOAT:
value.node = tb_inst_ptr2int(p->func, value.node, TB_TYPE_INTPTR);
value.node = tb_inst_bitcast(p->func, value.node, dt);
break;
case TB_PTR:
break;
}
break;
}
}
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);
// TODO(bill): bswap
// value.node = tb_inst_bswap(p->func, value.node);
return cg_emit_transmute(p, value, end_type);
}
gb_internal cgValue cg_emit_comp_records(cgProcedure *p, TokenKind op_kind, cgValue left, cgValue right, Type *type) {
GB_ASSERT((is_type_struct(type) || is_type_union(type)) && is_type_comparable(type));
cgValue left_ptr = cg_address_from_load_or_generate_local(p, left);
cgValue right_ptr = cg_address_from_load_or_generate_local(p, right);
cgValue res = {};
if (type_size_of(type) == 0) {
switch (op_kind) {
case Token_CmpEq:
return cg_const_bool(p, t_bool, true);
case Token_NotEq:
return cg_const_bool(p, t_bool, false);
}
GB_PANIC("invalid operator");
}
TEMPORARY_ALLOCATOR_GUARD();
if (is_type_simple_compare(type)) {
// TODO(bill): Test to see if this is actually faster!!!!
auto args = slice_make<cgValue>(temporary_allocator(), 3);
args[0] = cg_emit_conv(p, left_ptr, t_rawptr);
args[1] = cg_emit_conv(p, right_ptr, t_rawptr);
args[2] = cg_const_int(p, t_int, type_size_of(type));
res = cg_emit_runtime_call(p, "memory_equal", args);
} else {
cgProcedure *equal_proc = cg_equal_proc_for_type(p->module, type);
cgValue value = cg_value(tb_inst_get_symbol_address(p->func, equal_proc->symbol), equal_proc->type);
auto args = slice_make<cgValue>(temporary_allocator(), 2);
args[0] = cg_emit_conv(p, left_ptr, t_rawptr);
args[1] = cg_emit_conv(p, right_ptr, t_rawptr);
res = cg_emit_call(p, value, args);
}
if (op_kind == Token_NotEq) {
res = cg_emit_unary_arith(p, Token_Not, res, res.type);
}
return res;
}
gb_internal cgValue cg_emit_comp(cgProcedure *p, TokenKind op_kind, cgValue left, cgValue right) {
GB_ASSERT(gb_is_between(op_kind, Token__ComparisonBegin+1, Token__ComparisonEnd-1));
Type *a = core_type(left.type);
Type *b = core_type(right.type);
cgValue nil_check = {};
if (is_type_array_like(left.type) || is_type_array_like(right.type)) {
// don't do `nil` check if it is array-like
} else if (is_type_untyped_nil(left.type)) {
nil_check = cg_emit_comp_against_nil(p, op_kind, right);
} else if (is_type_untyped_nil(right.type)) {
nil_check = cg_emit_comp_against_nil(p, op_kind, left);
}
if (nil_check.node != nullptr) {
return nil_check;
}
if (are_types_identical(a, b)) {
// NOTE(bill): No need for a conversion
} /*else if (cg_is_const(left) || cg_is_const_nil(left)) {
left = cg_emit_conv(p, left, right.type);
} else if (cg_is_const(right) || cg_is_const_nil(right)) {
right = cg_emit_conv(p, right, left.type);
}*/ else {
Type *lt = left.type;
Type *rt = right.type;
lt = left.type;
rt = right.type;
i64 ls = type_size_of(lt);
i64 rs = type_size_of(rt);
// NOTE(bill): Quick heuristic, larger types are usually the target type
if (ls < rs) {
left = cg_emit_conv(p, left, rt);
} else if (ls > rs) {
right = cg_emit_conv(p, right, lt);
} else {
if (is_type_union(rt)) {
left = cg_emit_conv(p, left, rt);
} else {
right = cg_emit_conv(p, right, lt);
}
}
}
a = core_type(left.type);
b = core_type(right.type);
left = cg_flatten_value(p, left);
right = cg_flatten_value(p, right);
if (is_type_matrix(a) && (op_kind == Token_CmpEq || op_kind == Token_NotEq)) {
GB_PANIC("TODO(bill): cg_emit_comp matrix");
// Type *tl = base_type(a);
// lbValue lhs = lb_address_from_load_or_generate_local(p, left);
// lbValue rhs = lb_address_from_load_or_generate_local(p, right);
// // TODO(bill): Test to see if this is actually faster!!!!
// auto args = array_make<lbValue>(permanent_allocator(), 3);
// args[0] = lb_emit_conv(p, lhs, t_rawptr);
// args[1] = lb_emit_conv(p, rhs, t_rawptr);
// args[2] = lb_const_int(p->module, t_int, type_size_of(tl));
// lbValue val = lb_emit_runtime_call(p, "memory_compare", args);
// lbValue res = lb_emit_comp(p, op_kind, val, lb_const_nil(p->module, val.type));
// return lb_emit_conv(p, res, t_bool);
}
if (is_type_array_like(a)) {
GB_PANIC("TODO(bill): cg_emit_comp is_type_array_like");
// Type *tl = base_type(a);
// lbValue lhs = lb_address_from_load_or_generate_local(p, left);
// lbValue rhs = lb_address_from_load_or_generate_local(p, right);
// TokenKind cmp_op = Token_And;
// lbValue res = lb_const_bool(p->module, t_bool, true);
// if (op_kind == Token_NotEq) {
// res = lb_const_bool(p->module, t_bool, false);
// cmp_op = Token_Or;
// } else if (op_kind == Token_CmpEq) {
// res = lb_const_bool(p->module, t_bool, true);
// cmp_op = Token_And;
// }
// bool inline_array_arith = lb_can_try_to_inline_array_arith(tl);
// i32 count = 0;
// switch (tl->kind) {
// case Type_Array: count = cast(i32)tl->Array.count; break;
// case Type_EnumeratedArray: count = cast(i32)tl->EnumeratedArray.count; break;
// }
// if (inline_array_arith) {
// // inline
// lbAddr val = lb_add_local_generated(p, t_bool, false);
// lb_addr_store(p, val, res);
// for (i32 i = 0; i < count; i++) {
// lbValue x = lb_emit_load(p, lb_emit_array_epi(p, lhs, i));
// lbValue y = lb_emit_load(p, lb_emit_array_epi(p, rhs, i));
// lbValue cmp = lb_emit_comp(p, op_kind, x, y);
// lbValue new_res = lb_emit_arith(p, cmp_op, lb_addr_load(p, val), cmp, t_bool);
// lb_addr_store(p, val, lb_emit_conv(p, new_res, t_bool));
// }
// return lb_addr_load(p, val);
// } else {
// if (is_type_simple_compare(tl) && (op_kind == Token_CmpEq || op_kind == Token_NotEq)) {
// // TODO(bill): Test to see if this is actually faster!!!!
// auto args = array_make<lbValue>(permanent_allocator(), 3);
// args[0] = lb_emit_conv(p, lhs, t_rawptr);
// args[1] = lb_emit_conv(p, rhs, t_rawptr);
// args[2] = lb_const_int(p->module, t_int, type_size_of(tl));
// lbValue val = lb_emit_runtime_call(p, "memory_compare", args);
// lbValue res = lb_emit_comp(p, op_kind, val, lb_const_nil(p->module, val.type));
// return lb_emit_conv(p, res, t_bool);
// } else {
// lbAddr val = lb_add_local_generated(p, t_bool, false);
// lb_addr_store(p, val, res);
// auto loop_data = lb_loop_start(p, count, t_i32);
// {
// lbValue i = loop_data.idx;
// lbValue x = lb_emit_load(p, lb_emit_array_ep(p, lhs, i));
// lbValue y = lb_emit_load(p, lb_emit_array_ep(p, rhs, i));
// lbValue cmp = lb_emit_comp(p, op_kind, x, y);
// lbValue new_res = lb_emit_arith(p, cmp_op, lb_addr_load(p, val), cmp, t_bool);
// lb_addr_store(p, val, lb_emit_conv(p, new_res, t_bool));
// }
// lb_loop_end(p, loop_data);
// return lb_addr_load(p, val);
// }
// }
}
if ((is_type_struct(a) || is_type_union(a)) && is_type_comparable(a)) {
return cg_emit_comp_records(p, op_kind, left, right, a);
}
if ((is_type_struct(b) || is_type_union(b)) && is_type_comparable(b)) {
return cg_emit_comp_records(p, op_kind, left, right, b);
}
if (is_type_string(a)) {
if (is_type_cstring(a)) {
left = cg_emit_conv(p, left, t_string);
right = cg_emit_conv(p, right, t_string);
}
char const *runtime_procedure = nullptr;
switch (op_kind) {
case Token_CmpEq: runtime_procedure = "string_eq"; break;
case Token_NotEq: runtime_procedure = "string_ne"; break;
case Token_Lt: runtime_procedure = "string_lt"; break;
case Token_Gt: runtime_procedure = "string_gt"; break;
case Token_LtEq: runtime_procedure = "string_le"; break;
case Token_GtEq: runtime_procedure = "string_gt"; break;
}
GB_ASSERT(runtime_procedure != nullptr);
auto args = slice_make<cgValue>(permanent_allocator(), 2);
args[0] = left;
args[1] = right;
return cg_emit_runtime_call(p, runtime_procedure, args);
}
if (is_type_complex(a)) {
char const *runtime_procedure = "";
i64 sz = 8*type_size_of(a);
switch (sz) {
case 32:
switch (op_kind) {
case Token_CmpEq: runtime_procedure = "complex32_eq"; break;
case Token_NotEq: runtime_procedure = "complex32_ne"; break;
}
break;
case 64:
switch (op_kind) {
case Token_CmpEq: runtime_procedure = "complex64_eq"; break;
case Token_NotEq: runtime_procedure = "complex64_ne"; break;
}
break;
case 128:
switch (op_kind) {
case Token_CmpEq: runtime_procedure = "complex128_eq"; break;
case Token_NotEq: runtime_procedure = "complex128_ne"; break;
}
break;
}
GB_ASSERT(runtime_procedure != nullptr);
GB_PANIC("TODO(bill): cg_emit_runtime_call");
// auto args = array_make<lbValue>(permanent_allocator(), 2);
// args[0] = left;
// args[1] = right;
// return lb_emit_runtime_call(p, runtime_procedure, args);
}
if (is_type_quaternion(a)) {
char const *runtime_procedure = "";
i64 sz = 8*type_size_of(a);
switch (sz) {
case 64:
switch (op_kind) {
case Token_CmpEq: runtime_procedure = "quaternion64_eq"; break;
case Token_NotEq: runtime_procedure = "quaternion64_ne"; break;
}
break;
case 128:
switch (op_kind) {
case Token_CmpEq: runtime_procedure = "quaternion128_eq"; break;
case Token_NotEq: runtime_procedure = "quaternion128_ne"; break;
}
break;
case 256:
switch (op_kind) {
case Token_CmpEq: runtime_procedure = "quaternion256_eq"; break;
case Token_NotEq: runtime_procedure = "quaternion256_ne"; break;
}
break;
}
GB_ASSERT(runtime_procedure != nullptr);
GB_PANIC("TODO(bill): cg_emit_runtime_call");
// auto args = array_make<lbValue>(permanent_allocator(), 2);
// args[0] = left;
// args[1] = right;
// return lb_emit_runtime_call(p, runtime_procedure, args);
}
if (is_type_bit_set(a)) {
switch (op_kind) {
case Token_Lt:
case Token_LtEq:
case Token_Gt:
case Token_GtEq:
{
Type *it = bit_set_to_int(a);
cgValue lhs = cg_emit_transmute(p, left, it);
cgValue rhs = cg_emit_transmute(p, right, it);
cgValue res = cg_emit_arith(p, Token_And, lhs, rhs, it);
GB_ASSERT(lhs.kind == cgValue_Value);
GB_ASSERT(rhs.kind == cgValue_Value);
GB_ASSERT(res.kind == cgValue_Value);
if (op_kind == Token_Lt || op_kind == Token_LtEq) {
// (lhs & rhs) == lhs
res = cg_value(tb_inst_cmp_eq(p->func, res.node, lhs.node), t_bool);
} else if (op_kind == Token_Gt || op_kind == Token_GtEq) {
// (lhs & rhs) == rhs
res = cg_value(tb_inst_cmp_eq(p->func, res.node, rhs.node), t_bool);
}
// NOTE(bill): Strict subsets
if (op_kind == Token_Lt || op_kind == Token_Gt) {
// res &~ (lhs == rhs)
cgValue eq = cg_value(tb_inst_cmp_eq(p->func, lhs.node, rhs.node), t_bool);
res = cg_emit_arith(p, Token_AndNot, res, eq, t_bool);
}
return res;
}
case Token_CmpEq:
GB_ASSERT(left.kind == cgValue_Value);
GB_ASSERT(right.kind == cgValue_Value);
return cg_value(tb_inst_cmp_eq(p->func, left.node, right.node), t_bool);
case Token_NotEq:
GB_ASSERT(left.kind == cgValue_Value);
GB_ASSERT(right.kind == cgValue_Value);
return cg_value(tb_inst_cmp_ne(p->func, left.node, right.node), t_bool);
}
}
if (op_kind != Token_CmpEq && op_kind != Token_NotEq) {
Type *t = left.type;
if (is_type_integer(t) && is_type_different_to_arch_endianness(t)) {
Type *platform_type = integer_endian_type_to_platform_type(t);
cgValue x = cg_emit_byte_swap(p, left, platform_type);
cgValue y = cg_emit_byte_swap(p, right, platform_type);
left = x;
right = y;
} else if (is_type_float(t) && is_type_different_to_arch_endianness(t)) {
Type *platform_type = integer_endian_type_to_platform_type(t);
cgValue x = cg_emit_conv(p, left, platform_type);
cgValue y = cg_emit_conv(p, right, platform_type);
left = x;
right = y;
}
}
a = core_type(left.type);
b = core_type(right.type);
if (is_type_integer(a) ||
is_type_boolean(a) ||
is_type_pointer(a) ||
is_type_multi_pointer(a) ||
is_type_proc(a) ||
is_type_enum(a) ||
is_type_typeid(a)) {
TB_Node *lhs = left.node;
TB_Node *rhs = right.node;
TB_Node *res = nullptr;
bool is_signed = is_type_integer(left.type) && !is_type_unsigned(left.type);
switch (op_kind) {
case Token_CmpEq: res = tb_inst_cmp_eq(p->func, lhs, rhs); break;
case Token_NotEq: res = tb_inst_cmp_ne(p->func, lhs, rhs); break;
case Token_Gt: res = tb_inst_cmp_igt(p->func, lhs, rhs, is_signed); break;
case Token_GtEq: res = tb_inst_cmp_ige(p->func, lhs, rhs, is_signed); break;
case Token_Lt: res = tb_inst_cmp_ilt(p->func, lhs, rhs, is_signed); break;
case Token_LtEq: res = tb_inst_cmp_ile(p->func, lhs, rhs, is_signed); break;
}
GB_ASSERT(res != nullptr);
return cg_value(res, t_bool);
} else if (is_type_float(a)) {
TB_Node *lhs = left.node;
TB_Node *rhs = right.node;
TB_Node *res = nullptr;
switch (op_kind) {
case Token_CmpEq: res = tb_inst_cmp_eq(p->func, lhs, rhs); break;
case Token_NotEq: res = tb_inst_cmp_ne(p->func, lhs, rhs); break;
case Token_Gt: res = tb_inst_cmp_fgt(p->func, lhs, rhs); break;
case Token_GtEq: res = tb_inst_cmp_fge(p->func, lhs, rhs); break;
case Token_Lt: res = tb_inst_cmp_flt(p->func, lhs, rhs); break;
case Token_LtEq: res = tb_inst_cmp_fle(p->func, lhs, rhs); break;
}
GB_ASSERT(res != nullptr);
return cg_value(res, t_bool);
} else if (is_type_simd_vector(a)) {
GB_PANIC("TODO(bill): #simd vector");
// LLVMValueRef mask = nullptr;
// Type *elem = base_array_type(a);
// if (is_type_float(elem)) {
// LLVMRealPredicate pred = {};
// switch (op_kind) {
// case Token_CmpEq: pred = LLVMRealOEQ; break;
// case Token_NotEq: pred = LLVMRealONE; break;
// }
// mask = LLVMBuildFCmp(p->builder, pred, left.value, right.value, "");
// } else {
// LLVMIntPredicate pred = {};
// switch (op_kind) {
// case Token_CmpEq: pred = LLVMIntEQ; break;
// case Token_NotEq: pred = LLVMIntNE; break;
// }
// mask = LLVMBuildICmp(p->builder, pred, left.value, right.value, "");
// }
// GB_ASSERT_MSG(mask != nullptr, "Unhandled comparison kind %s (%s) %.*s %s (%s)", type_to_string(left.type), type_to_string(base_type(left.type)), LIT(token_strings[op_kind]), type_to_string(right.type), type_to_string(base_type(right.type)));
// /* NOTE(bill, 2022-05-28):
// Thanks to Per Vognsen, sign extending <N x i1> to
// a vector of the same width as the input vector, bit casting to an integer,
// and then comparing against zero is the better option
// See: https://lists.llvm.org/pipermail/llvm-dev/2012-September/053046.html
// // Example assuming 128-bit vector
// %1 = <4 x float> ...
// %2 = <4 x float> ...
// %3 = fcmp oeq <4 x float> %1, %2
// %4 = sext <4 x i1> %3 to <4 x i32>
// %5 = bitcast <4 x i32> %4 to i128
// %6 = icmp ne i128 %5, 0
// br i1 %6, label %true1, label %false2
// This will result in 1 cmpps + 1 ptest + 1 br
// (even without SSE4.1, contrary to what the mail list states, because of pmovmskb)
// */
// unsigned count = cast(unsigned)get_array_type_count(a);
// unsigned elem_sz = cast(unsigned)(type_size_of(elem)*8);
// LLVMTypeRef mask_type = LLVMVectorType(LLVMIntTypeInContext(p->module->ctx, elem_sz), count);
// mask = LLVMBuildSExtOrBitCast(p->builder, mask, mask_type, "");
// LLVMTypeRef mask_int_type = LLVMIntTypeInContext(p->module->ctx, cast(unsigned)(8*type_size_of(a)));
// LLVMValueRef mask_int = LLVMBuildBitCast(p->builder, mask, mask_int_type, "");
// res.value = LLVMBuildICmp(p->builder, LLVMIntNE, mask_int, LLVMConstNull(LLVMTypeOf(mask_int)), "");
// return res;
}
GB_PANIC("Unhandled comparison kind %s (%s) %.*s %s (%s)", type_to_string(left.type), type_to_string(base_type(left.type)), LIT(token_strings[op_kind]), type_to_string(right.type), type_to_string(base_type(right.type)));
return {};
}
gb_internal cgValue cg_emit_comp_against_nil(cgProcedure *p, TokenKind op_kind, cgValue x) {
GB_ASSERT(op_kind == Token_CmpEq || op_kind == Token_NotEq);
x = cg_flatten_value(p, x);
cgValue res = {};
Type *t = x.type;
TB_DataType dt = cg_data_type(t);
Type *bt = base_type(t);
TypeKind type_kind = bt->kind;
switch (type_kind) {
case Type_Basic:
switch (bt->Basic.kind) {
case Basic_rawptr:
case Basic_cstring:
GB_ASSERT(x.kind == cgValue_Value);
if (op_kind == Token_CmpEq) {
return cg_value(tb_inst_cmp_eq(p->func, x.node, tb_inst_uint(p->func, dt, 0)), t_bool);
} else if (op_kind == Token_NotEq) {
return cg_value(tb_inst_cmp_ne(p->func, x.node, tb_inst_uint(p->func, dt, 0)), t_bool);
}
break;
case Basic_any:
{
GB_ASSERT(x.kind == cgValue_Addr);
// // TODO(bill): is this correct behaviour for nil comparison for any?
cgValue data = cg_emit_struct_ev(p, x, 0);
cgValue id = cg_emit_struct_ev(p, x, 1);
if (op_kind == Token_CmpEq) {
TB_Node *a = tb_inst_cmp_eq(p->func, data.node, tb_inst_uint(p->func, data.node->dt, 0));
TB_Node *b = tb_inst_cmp_eq(p->func, id.node, tb_inst_uint(p->func, id.node->dt, 0));
TB_Node *c = tb_inst_or(p->func, a, b);
return cg_value(c, t_bool);
} else if (op_kind == Token_NotEq) {
TB_Node *a = tb_inst_cmp_ne(p->func, data.node, tb_inst_uint(p->func, data.node->dt, 0));
TB_Node *b = tb_inst_cmp_ne(p->func, id.node, tb_inst_uint(p->func, id.node->dt, 0));
TB_Node *c = tb_inst_and(p->func, a, b);
return cg_value(c, t_bool);
}
}
break;
case Basic_typeid:
cgValue invalid_typeid = cg_const_value(p, t_typeid, exact_value_i64(0));
return cg_emit_comp(p, op_kind, x, invalid_typeid);
}
break;
case Type_Enum:
case Type_Pointer:
case Type_MultiPointer:
case Type_Proc:
case Type_BitSet:
GB_ASSERT(x.kind == cgValue_Value);
if (op_kind == Token_CmpEq) {
return cg_value(tb_inst_cmp_eq(p->func, x.node, tb_inst_uint(p->func, dt, 0)), t_bool);
} else if (op_kind == Token_NotEq) {
return cg_value(tb_inst_cmp_ne(p->func, x.node, tb_inst_uint(p->func, dt, 0)), t_bool);
}
break;
case Type_Slice:
case Type_DynamicArray:
case Type_Map:
{
// NOTE(bill): all of their data "pointer-like" fields are at the 0-index
cgValue data = cg_emit_struct_ev(p, x, 0);
if (op_kind == Token_CmpEq) {
TB_Node *a = tb_inst_cmp_eq(p->func, data.node, tb_inst_uint(p->func, data.node->dt, 0));
return cg_value(a, t_bool);
} else if (op_kind == Token_NotEq) {
TB_Node *a = tb_inst_cmp_ne(p->func, data.node, tb_inst_uint(p->func, data.node->dt, 0));
return cg_value(a, t_bool);
}
}
break;
case Type_Union:
{
if (type_size_of(t) == 0) {
return cg_const_bool(p, t_bool, op_kind == Token_CmpEq);
} else if (is_type_union_maybe_pointer(t)) {
cgValue tag = cg_emit_transmute(p, x, t_rawptr);
return cg_emit_comp_against_nil(p, op_kind, tag);
} else {
GB_ASSERT("TODO(bill): cg_emit_union_tag_value");
// cgValue tag = cg_emit_union_tag_value(p, x);
// return cg_emit_comp(p, op_kind, tag, cg_zero(p->module, tag.type));
}
}
break;
case Type_Struct:
GB_PANIC("TODO(bill): cg_emit_struct_ev");
// if (is_type_soa_struct(t)) {
// Type *bt = base_type(t);
// if (bt->Struct.soa_kind == StructSoa_Slice) {
// LLVMValueRef the_value = {};
// if (bt->Struct.fields.count == 0) {
// cgValue len = cg_soa_struct_len(p, x);
// the_value = len.value;
// } else {
// cgValue first_field = cg_emit_struct_ev(p, x, 0);
// the_value = first_field.value;
// }
// if (op_kind == Token_CmpEq) {
// res.value = LLVMBuildIsNull(p->builder, the_value, "");
// return res;
// } else if (op_kind == Token_NotEq) {
// res.value = LLVMBuildIsNotNull(p->builder, the_value, "");
// return res;
// }
// } else if (bt->Struct.soa_kind == StructSoa_Dynamic) {
// LLVMValueRef the_value = {};
// if (bt->Struct.fields.count == 0) {
// cgValue cap = cg_soa_struct_cap(p, x);
// the_value = cap.value;
// } else {
// cgValue first_field = cg_emit_struct_ev(p, x, 0);
// the_value = first_field.value;
// }
// if (op_kind == Token_CmpEq) {
// res.value = LLVMBuildIsNull(p->builder, the_value, "");
// return res;
// } else if (op_kind == Token_NotEq) {
// res.value = LLVMBuildIsNotNull(p->builder, the_value, "");
// return res;
// }
// }
// } else if (is_type_struct(t) && type_has_nil(t)) {
// auto args = array_make<cgValue>(permanent_allocator(), 2);
// cgValue lhs = cg_address_from_load_or_generate_local(p, x);
// args[0] = cg_emit_conv(p, lhs, t_rawptr);
// args[1] = cg_const_int(p->module, t_int, type_size_of(t));
// cgValue val = cg_emit_runtime_call(p, "memory_compare_zero", args);
// cgValue res = cg_emit_comp(p, op_kind, val, cg_const_int(p->module, t_int, 0));
// return res;
// }
break;
}
GB_PANIC("Unknown handled type: %s -> %s", type_to_string(t), type_to_string(bt));
return {};
}
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);
if (value.kind == cgValue_Value && !TB_IS_VOID_TYPE(value.node->dt)) {
st = value.node->dt;
}
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)) {
TEMPORARY_ALLOCATOR_GUARD();
cgValue c = cg_emit_conv(p, value, t_cstring);
auto args = slice_make<cgValue>(temporary_allocator(), 1);
args[0] = c;
cgValue s = cg_emit_runtime_call(p, "cstring_to_string", args);
return cg_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(value.node, t);
}
if (is_type_multi_pointer(src) && is_type_pointer(dst)) {
return cg_value(value.node, t);
}
if (is_type_pointer(src) && is_type_multi_pointer(dst)) {
return cg_value(value.node, t);
}
if (is_type_multi_pointer(src) && is_type_multi_pointer(dst)) {
return cg_value(value.node, t);
}
// proc <-> proc
if (is_type_proc(src) && is_type_proc(dst)) {
return cg_value(value.node, t);
}
// pointer -> proc
if (is_type_pointer(src) && is_type_proc(dst)) {
return cg_value(value.node, t);
}
// proc -> pointer
if (is_type_proc(src) && is_type_pointer(dst)) {
return cg_value(value.node, 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)) {
if (is_type_untyped_nil(src) ||
is_type_untyped_uninit(src)) {
return cg_const_nil(p, t);
}
cgAddr result = cg_add_local(p, t, nullptr, false);
Type *st = default_type(src_type);
cgValue data = cg_address_from_load_or_generate_local(p, value);
GB_ASSERT(is_type_pointer(data.type));
GB_ASSERT(is_type_typed(st));
data = cg_emit_conv(p, data, t_rawptr);
if (p->name == "main@main") {
GB_PANIC("HERE %s %llu", type_to_string(st), cg_typeid_as_u64(p->module, value.type));
}
cgValue id = cg_typeid(p, st);
cgValue data_ptr = cg_emit_struct_ep(p, result.addr, 0);
cgValue id_ptr = cg_emit_struct_ep(p, result.addr, 1);
cg_emit_store(p, data_ptr, data);
cg_emit_store(p, id_ptr, id);
return cg_addr_load(p, result);
}
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)0;
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 void cg_fill_slice(cgProcedure *p, cgAddr const &slice, cgValue data, cgValue len) {
cgValue slice_ptr = cg_addr_get_ptr(p, slice);
cgValue data_ptr = cg_emit_struct_ep(p, slice_ptr, 0);
cgValue len_ptr = cg_emit_struct_ep(p, slice_ptr, 1);
data = cg_emit_conv(p, data, type_deref(data_ptr.type));
len = cg_emit_conv(p, len, t_int);
cg_emit_store(p, data_ptr, data);
cg_emit_store(p, len_ptr, len);
}
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_Basic:
case Type_Slice: {
if (type->kind == Type_Basic) {
GB_ASSERT(type->Basic.kind == Basic_string);
}
Type *slice_type = type;
if (high.node == nullptr) {
cgValue len = cg_builtin_len(p, base);
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_builtin_raw_data(p, base), low);
cgValue new_len = cg_emit_arith(p, Token_Sub, high, low, t_int);
cgAddr slice = cg_add_local(p, slice_type, nullptr, true);
cg_fill_slice(p, slice, elem, new_len);
return slice;
}
case Type_RelativeMultiPointer:
GB_PANIC("TODO(bill): Type_RelativeMultiPointer 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 = type_of_expr(expr);
GB_ASSERT(is_type_slice(slice_type));
cgValue len = cg_const_int(p, t_int, type->Array.count);
if (high.node == 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);
// }
// }
cgValue elem = cg_emit_ptr_offset(p, cg_builtin_raw_data(p, cg_addr_get_ptr(p, addr)), low);
cgValue new_len = cg_emit_arith(p, Token_Sub, high, low, t_int);
cgAddr slice = cg_add_local(p, slice_type, nullptr, true);
cg_fill_slice(p, slice, elem, new_len);
return slice;
}
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 void cg_emit_if(cgProcedure *p, cgValue const &cond, TB_Node *true_region, TB_Node *false_region) {
GB_ASSERT(cond.kind == cgValue_Value);
tb_inst_if(p->func, cond.node, true_region, false_region);
}
struct cgLoopData {
cgAddr index_addr;
cgValue index;
TB_Node *body;
TB_Node *done;
TB_Node *loop;
};
gb_internal cgLoopData cg_loop_start(cgProcedure *p, isize count, Type *index_type) {
cgLoopData data = {};
cgValue max = cg_const_int(p, index_type, count);
data.index_addr = cg_add_local(p, index_type, nullptr, true);
data.body = cg_control_region(p, "loop_body");
data.done = cg_control_region(p, "loop_done");
data.loop = cg_control_region(p, "loop_loop");
cg_emit_goto(p, data.loop);
tb_inst_set_control(p->func, data.loop);
data.index = cg_addr_load(p, data.index_addr);
cgValue cond = cg_emit_comp(p, Token_Lt, data.index, max);
cg_emit_if(p, cond, data.body, data.done);
tb_inst_set_control(p->func, data.body);
return data;
}
gb_internal void cg_loop_end(cgProcedure *p, cgLoopData const &data) {
if (data.index_addr.addr.node != nullptr) {
cg_emit_increment(p, data.index_addr.addr);
cg_emit_goto(p, data.loop);
tb_inst_set_control(p->func, data.done);
}
}
gb_internal void cg_build_try_lhs_rhs(cgProcedure *p, Ast *arg, Type *final_type, cgValue *lhs_, cgValue *rhs_) {
cgValue lhs = {};
cgValue rhs = {};
cgValue value = cg_build_expr(p, arg);
if (value.kind == cgValue_Multi) {
auto const &values = value.multi->values;
if (values.count == 2) {
lhs = values[0];
rhs = values[1];
} else {
rhs = values[values.count-1];
if (values.count > 1) {
lhs = cg_value_multi(slice(values, 0, values.count-1), final_type);
}
}
} else {
rhs = value;
}
GB_ASSERT(rhs.node != nullptr);
if (lhs_) *lhs_ = lhs;
if (rhs_) *rhs_ = rhs;
}
gb_internal cgValue cg_emit_try_has_value(cgProcedure *p, cgValue rhs) {
cgValue has_value = {};
if (is_type_boolean(rhs.type)) {
has_value = rhs;
} else {
GB_ASSERT_MSG(type_has_nil(rhs.type), "%s", type_to_string(rhs.type));
has_value = cg_emit_comp_against_nil(p, Token_CmpEq, rhs);
}
GB_ASSERT(has_value.node != nullptr);
return has_value;
}
gb_internal cgValue cg_build_or_return(cgProcedure *p, Ast *arg, Type *final_type) {
cgValue lhs = {};
cgValue rhs = {};
cg_build_try_lhs_rhs(p, arg, final_type, &lhs, &rhs);
TB_Node *return_region = cg_control_region(p, "or_return_return");
TB_Node *continue_region = cg_control_region(p, "or_return_continue");
cgValue cond = cg_emit_try_has_value(p, rhs);
cg_emit_if(p, cond, continue_region, return_region);
tb_inst_set_control(p->func, return_region);
{
Type *proc_type = base_type(p->type);
Type *results = proc_type->Proc.results;
GB_ASSERT(results != nullptr && results->kind == Type_Tuple);
TypeTuple *tuple = &results->Tuple;
GB_ASSERT(tuple->variables.count != 0);
Entity *end_entity = tuple->variables[tuple->variables.count-1];
rhs = cg_emit_conv(p, rhs, end_entity->type);
if (p->type->Proc.has_named_results) {
GB_ASSERT(end_entity->token.string.len != 0);
// NOTE(bill): store the named values before returning
cgAddr found = map_must_get(&p->variable_map, end_entity);
cg_addr_store(p, found, rhs);
cg_build_return_stmt(p, {});
} else {
GB_ASSERT(tuple->variables.count == 1);
Slice<cgValue> results = {};
results.data = &rhs;
results.count = 1;;
cg_build_return_stmt_internal(p, results);
}
}
tb_inst_set_control(p->func, continue_region);
if (final_type != nullptr && !is_type_tuple(final_type)) {
return cg_emit_conv(p, lhs, final_type);
}
return {};
}
gb_internal cgValue cg_build_or_else(cgProcedure *p, Ast *arg, Ast *else_expr, Type *final_type) {
if (arg->state_flags & StateFlag_DirectiveWasFalse) {
return cg_build_expr(p, else_expr);
}
cgValue lhs = {};
cgValue rhs = {};
cg_build_try_lhs_rhs(p, arg, final_type, &lhs, &rhs);
GB_ASSERT(else_expr != nullptr);
if (is_diverging_expr(else_expr)) {
TB_Node *then = cg_control_region(p, "or_else_then");
TB_Node *else_ = cg_control_region(p, "or_else_else");
cg_emit_if(p, cg_emit_try_has_value(p, rhs), then, else_);
// NOTE(bill): else block needs to be straight afterwards to make sure that the actual value is used
// from the then block
tb_inst_set_control(p->func, else_);
cg_build_expr(p, else_expr);
tb_inst_set_control(p->func, then);
return cg_emit_conv(p, lhs, final_type);
} else {
TB_Node *incoming_values[2] = {};
TB_Node *incoming_regions[2] = {};
TB_Node *then = cg_control_region(p, "or_else_then");
TB_Node *done = cg_control_region(p, "or_else_done"); // NOTE(bill): Append later
TB_Node *else_ = cg_control_region(p, "or_else_else");
cg_emit_if(p, cg_emit_try_has_value(p, rhs), then, else_);
tb_inst_set_control(p->func, then);
cgValue x = cg_emit_conv(p, lhs, final_type);
incoming_values[0] = x.node;
incoming_regions[0] = tb_inst_get_control(p->func);
tb_inst_goto(p->func, done);
tb_inst_set_control(p->func, else_);
cgValue y = cg_emit_conv(p, cg_build_expr(p, else_expr), final_type);
incoming_values[1] = y.node;
incoming_regions[1] = tb_inst_get_control(p->func);
tb_inst_goto(p->func, done);
tb_inst_set_control(p->func, done);
GB_ASSERT(x.kind == y.kind);
GB_ASSERT(incoming_values[0]->dt.raw == incoming_values[1]->dt.raw);
cgValue res = {};
res.kind = x.kind;
res.type = final_type;
res.node = tb_inst_incomplete_phi(p->func, incoming_values[0]->dt, done, 2);
tb_inst_add_phi_operand(p->func, res.node, incoming_regions[0], incoming_values[0]);
tb_inst_add_phi_operand(p->func, res.node, incoming_regions[1], incoming_values[1]);
return res;
}
}
gb_internal isize cg_control_region_pred_count(TB_Node *region) {
GB_ASSERT(region->type == TB_REGION);
GB_ASSERT(region->input_count > 0);
return region->input_count;
}
gb_internal cgValue cg_build_logical_binary_expr(cgProcedure *p, TokenKind op, Ast *left, Ast *right, Type *final_type) {
TB_Node *rhs = cg_control_region(p, "logical_cmp_rhs");
TB_Node *done = cg_control_region(p, "logical_cmp_done");
cgValue short_circuit = {};
if (op == Token_CmpAnd) {
cg_build_cond(p, left, rhs, done);
short_circuit = cg_const_bool(p, t_bool, false);
} else if (op == Token_CmpOr) {
cg_build_cond(p, left, done, rhs);
short_circuit = cg_const_bool(p, t_bool, true);
}
if (rhs->input_count == 0) {
tb_inst_set_control(p->func, done);
return cg_emit_conv(p, short_circuit, final_type);
}
if (done->input_count == 0) {
tb_inst_set_control(p->func, rhs);
return cg_build_expr(p, right);
}
tb_inst_set_control(p->func, rhs);
cgValue edge = cg_build_expr(p, right);
TB_Node *edge_region = tb_inst_get_control(p->func);
tb_inst_goto(p->func, done);
tb_inst_set_control(p->func, done);
TB_DataType dt = edge.node->dt;
TB_Node *phi = tb_inst_incomplete_phi(p->func, dt, done, done->input_count);
for (size_t i = 0; i < done->input_count; i++) {
TB_Node *val = short_circuit.node;
TB_Node *region = done->inputs[i];
if (region == edge_region) {
val = edge.node;
}
tb_inst_add_phi_operand(p->func, phi, region, val);
}
return cg_emit_conv(p, cg_value(phi, t_bool), final_type);
}
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:
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, be->left->tav.type);
}
if (be->right->tav.mode == Addressing_Type) {
right = cg_typeid(p, 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);
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:
return cg_build_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:
{
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_cond(cgProcedure *p, Ast *cond, TB_Node *true_block, TB_Node *false_block) {
cond = unparen_expr(cond);
GB_ASSERT(cond != nullptr);
GB_ASSERT(true_block != nullptr);
GB_ASSERT(false_block != nullptr);
// Use to signal not to do compile time short circuit for consts
cgValue no_comptime_short_circuit = {};
switch (cond->kind) {
case_ast_node(ue, UnaryExpr, cond);
if (ue->op.kind == Token_Not) {
cgValue cond_val = cg_build_cond(p, ue->expr, false_block, true_block);
return cond_val;
// if (cond_val.value && LLVMIsConstant(cond_val.value)) {
// return cg_const_bool(p->module, cond_val.type, LLVMConstIntGetZExtValue(cond_val.value) == 0);
// }
// return no_comptime_short_circuit;
}
case_end;
case_ast_node(be, BinaryExpr, cond);
if (be->op.kind == Token_CmpAnd) {
TB_Node *block = cg_control_region(p, "cmp_and");
cg_build_cond(p, be->left, block, false_block);
tb_inst_set_control(p->func, block);
cg_build_cond(p, be->right, true_block, false_block);
return no_comptime_short_circuit;
} else if (be->op.kind == Token_CmpOr) {
TB_Node *block = cg_control_region(p, "cmp_or");
cg_build_cond(p, be->left, true_block, block);
tb_inst_set_control(p->func, block);
cg_build_cond(p, be->right, true_block, false_block);
return no_comptime_short_circuit;
}
case_end;
}
cgValue v = {};
if (cg_is_expr_untyped_const(cond)) {
v = cg_expr_untyped_const_to_typed(p, cond, t_bool);
} else {
v = cg_build_expr(p, cond);
}
cg_emit_if(p, v, true_block, false_block);
return v;
}
gb_internal cgValue cg_build_expr_internal(cgProcedure *p, Ast *expr);
gb_internal cgValue cg_build_expr(cgProcedure *p, Ast *expr) {
cg_set_debug_pos_from_node(p, 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_find_ident(cgProcedure *p, Entity *e, Ast *expr) {
cgAddr *found_addr = map_get(&p->variable_map, e);
if (found_addr) {
return cg_addr_load(p, *found_addr);
}
cgValue *found = nullptr;
rw_mutex_shared_lock(&p->module->values_mutex);
found = map_get(&p->module->values, e);
rw_mutex_shared_unlock(&p->module->values_mutex);
if (found) {
auto v = *found;
// NOTE(bill): This is because pointers are already pointers in LLVM
if (is_type_proc(v.type)) {
return v;
}
return cg_emit_load(p, v);
} else if (e != nullptr && e->kind == Entity_Variable) {
return cg_addr_load(p, cg_build_addr(p, expr));
}
if (e->kind == Entity_Procedure) {
return cg_find_procedure_value_from_entity(p->module, e);
}
String pkg = {};
if (e->pkg) {
pkg = e->pkg->name;
}
gb_printf_err("Error in: %s\n", token_pos_to_string(ast_token(expr).pos));
GB_PANIC("nullptr value for expression from identifier: %.*s.%.*s (%p) : %s @ %p", LIT(pkg), LIT(e->token.string), e, type_to_string(e->type), expr);
return {};
}
cgAddr cg_build_addr_compound_lit(cgProcedure *p, Ast *expr) {
struct cgCompoundLitElemTempData {
Ast * expr;
cgValue value;
i64 elem_index;
i64 elem_length;
cgValue gep;
};
auto const &populate = [](cgProcedure *p, Slice<Ast *> const &elems, Array<cgCompoundLitElemTempData> *temp_data, Type *compound_type) {
Type *bt = base_type(compound_type);
Type *et = nullptr;
switch (bt->kind) {
case Type_Array: et = bt->Array.elem; break;
case Type_EnumeratedArray: et = bt->EnumeratedArray.elem; break;
case Type_Slice: et = bt->Slice.elem; break;
case Type_BitSet: et = bt->BitSet.elem; break;
case Type_DynamicArray: et = bt->DynamicArray.elem; break;
case Type_SimdVector: et = bt->SimdVector.elem; break;
case Type_Matrix: et = bt->Matrix.elem; break;
}
GB_ASSERT(et != nullptr);
// NOTE(bill): Separate value, gep, store into their own chunks
for_array(i, elems) {
Ast *elem = elems[i];
if (elem->kind == Ast_FieldValue) {
ast_node(fv, FieldValue, elem);
if (is_ast_range(fv->field)) {
ast_node(ie, BinaryExpr, fv->field);
TypeAndValue lo_tav = ie->left->tav;
TypeAndValue hi_tav = ie->right->tav;
GB_ASSERT(lo_tav.mode == Addressing_Constant);
GB_ASSERT(hi_tav.mode == Addressing_Constant);
TokenKind op = ie->op.kind;
i64 lo = exact_value_to_i64(lo_tav.value);
i64 hi = exact_value_to_i64(hi_tav.value);
if (op != Token_RangeHalf) {
hi += 1;
}
cgValue value = cg_emit_conv(p, cg_build_expr(p, fv->value), et);
GB_ASSERT((hi-lo) > 0);
if (bt->kind == Type_Matrix) {
GB_PANIC("TODO(bill): Type_Matrix");
// for (i64 k = lo; k < hi; k++) {
// cgCompoundLitElemTempData data = {};
// data.value = value;
// data.elem_index = matrix_row_major_index_to_offset(bt, k);
// array_add(temp_data, data);
// }
} else {
enum {MAX_ELEMENT_AMOUNT = 32};
if ((hi-lo) <= MAX_ELEMENT_AMOUNT) {
for (i64 k = lo; k < hi; k++) {
cgCompoundLitElemTempData data = {};
data.value = value;
data.elem_index = k;
array_add(temp_data, data);
}
} else {
cgCompoundLitElemTempData data = {};
data.value = value;
data.elem_index = lo;
data.elem_length = hi-lo;
array_add(temp_data, data);
}
}
} else {
auto tav = fv->field->tav;
GB_ASSERT(tav.mode == Addressing_Constant);
i64 index = exact_value_to_i64(tav.value);
cgValue value = cg_emit_conv(p, cg_build_expr(p, fv->value), et);
GB_ASSERT(!is_type_tuple(value.type));
cgCompoundLitElemTempData data = {};
data.value = value;
data.expr = fv->value;
if (bt->kind == Type_Matrix) {
GB_PANIC("TODO(bill): Type_Matrix");
// data.elem_index = matrix_row_major_index_to_offset(bt, index);
} else {
data.elem_index = index;
}
array_add(temp_data, data);
}
} else {
// if (bt->kind != Type_DynamicArray && lb_is_elem_const(elem, et)) {
// continue;
// }
cgValue field_expr = cg_build_expr(p, elem);
GB_ASSERT(!is_type_tuple(field_expr.type));
cgValue ev = cg_emit_conv(p, field_expr, et);
cgCompoundLitElemTempData data = {};
data.value = ev;
if (bt->kind == Type_Matrix) {
GB_PANIC("TODO(bill): Type_Matrix");
// data.elem_index = matrix_row_major_index_to_offset(bt, i);
} else {
data.elem_index = i;
}
array_add(temp_data, data);
}
}
};
auto const &assign_array = [](cgProcedure *p, Array<cgCompoundLitElemTempData> const &temp_data) {
for (auto const &td : temp_data) if (td.value.node != nullptr) {
if (td.elem_length > 0) {
GB_PANIC("TODO(bill): range");
// auto loop_data = cg_loop_start(p, cast(isize)td.elem_length, t_i32);
// {
// cgValue dst = td.gep;
// dst = cg_emit_ptr_offset(p, dst, loop_data.idx);
// cg_emit_store(p, dst, td.value);
// }
// cg_loop_end(p, loop_data);
} else {
cg_emit_store(p, td.gep, td.value);
}
}
};
ast_node(cl, CompoundLit, expr);
Type *type = type_of_expr(expr);
Type *bt = base_type(type);
cgAddr v = {};
if (p->is_startup) {
v = cg_add_global(p, type, nullptr);
} else {
v = cg_add_local(p, type, nullptr, true);
}
if (cl->elems.count == 0) {
// No need to create it
return v;
}
TEMPORARY_ALLOCATOR_GUARD();
Type *et = nullptr;
switch (bt->kind) {
case Type_Array: et = bt->Array.elem; break;
case Type_EnumeratedArray: et = bt->EnumeratedArray.elem; break;
case Type_Slice: et = bt->Slice.elem; break;
case Type_BitSet: et = bt->BitSet.elem; break;
case Type_SimdVector: et = bt->SimdVector.elem; break;
case Type_Matrix: et = bt->Matrix.elem; break;
}
String proc_name = {};
if (p->entity) {
proc_name = p->entity->token.string;
}
TokenPos pos = ast_token(expr).pos;
switch (bt->kind) {
default: GB_PANIC("Unknown CompoundLit type: %s", type_to_string(type)); break;
case Type_Struct: {
TypeStruct *st = &bt->Struct;
cgValue comp_lit_ptr = cg_addr_get_ptr(p, v);
for_array(field_index, cl->elems) {
Ast *elem = cl->elems[field_index];
cgValue field_expr = {};
Entity *field = nullptr;
isize index = field_index;
if (elem->kind == Ast_FieldValue) {
ast_node(fv, FieldValue, elem);
String name = fv->field->Ident.token.string;
Selection sel = lookup_field(bt, name, false);
GB_ASSERT(!sel.indirect);
elem = fv->value;
if (sel.index.count > 1) {
cgValue dst = cg_emit_deep_field_gep(p, comp_lit_ptr, sel);
field_expr = cg_build_expr(p, elem);
field_expr = cg_emit_conv(p, field_expr, sel.entity->type);
cg_emit_store(p, dst, field_expr);
continue;
}
index = sel.index[0];
} else {
Selection sel = lookup_field_from_index(bt, st->fields[field_index]->Variable.field_index);
GB_ASSERT(sel.index.count == 1);
GB_ASSERT(!sel.indirect);
index = sel.index[0];
}
field = st->fields[index];
Type *ft = field->type;
field_expr = cg_build_expr(p, elem);
cgValue gep = {};
if (st->is_raw_union) {
gep = cg_emit_conv(p, comp_lit_ptr, alloc_type_pointer(ft));
} else {
gep = cg_emit_struct_ep(p, comp_lit_ptr, cast(i32)index);
}
Type *fet = field_expr.type;
GB_ASSERT(fet->kind != Type_Tuple);
// HACK TODO(bill): THIS IS A MASSIVE HACK!!!!
if (is_type_union(ft) && !are_types_identical(fet, ft) && !is_type_untyped(fet)) {
GB_ASSERT_MSG(union_variant_index(ft, fet) >= 0, "%s", type_to_string(fet));
GB_PANIC("TODO(bill): cg_emit_store_union_variant");
// cg_emit_store_union_variant(p, gep, field_expr, fet);
} else {
cgValue fv = cg_emit_conv(p, field_expr, ft);
cg_emit_store(p, gep, fv);
}
}
return v;
}
case Type_Map: {
GB_ASSERT(!build_context.no_dynamic_literals);
GB_PANIC("TODO(bill): map literals");
// cgValue err = cg_dynamic_map_reserve(p, v.addr, 2*cl->elems.count, pos);
// gb_unused(err);
// for (Ast *elem : cl->elems) {
// ast_node(fv, FieldValue, elem);
// cgValue key = cg_build_expr(p, fv->field);
// cgValue value = cg_build_expr(p, fv->value);
// cg_internal_dynamic_map_set(p, v.addr, type, key, value, elem);
// }
break;
}
case Type_Array: {
auto temp_data = array_make<cgCompoundLitElemTempData>(temporary_allocator(), 0, cl->elems.count);
populate(p, cl->elems, &temp_data, type);
cgValue dst_ptr = cg_addr_get_ptr(p, v);
for_array(i, temp_data) {
i32 index = cast(i32)(temp_data[i].elem_index);
temp_data[i].gep = cg_emit_array_epi(p, dst_ptr, index);
}
assign_array(p, temp_data);
break;
}
case Type_EnumeratedArray: {
auto temp_data = array_make<cgCompoundLitElemTempData>(temporary_allocator(), 0, cl->elems.count);
populate(p, cl->elems, &temp_data, type);
cgValue dst_ptr = cg_addr_get_ptr(p, v);
i64 index_offset = exact_value_to_i64(*bt->EnumeratedArray.min_value);
for_array(i, temp_data) {
i32 index = cast(i32)(temp_data[i].elem_index - index_offset);
temp_data[i].gep = cg_emit_array_epi(p, dst_ptr, index);
}
assign_array(p, temp_data);
break;
}
case Type_Slice: {
isize count = gb_max(cl->elems.count, cl->max_count);
TB_CharUnits backing_size = cast(TB_CharUnits)(type_size_of(bt->Slice.elem) * count);
TB_CharUnits align = cast(TB_CharUnits)type_align_of(bt->Slice.elem);
TB_Node *backing = nullptr;
if (p->is_startup) {
TB_Global *global = tb_global_create(p->module->mod, 0, "", nullptr, TB_LINKAGE_PRIVATE);
tb_global_set_storage(p->module->mod, tb_module_get_data(p->module->mod), global, backing_size, align, 0);
backing = tb_inst_get_symbol_address(p->func, cast(TB_Symbol *)global);
} else {
backing = tb_inst_local(p->func, backing_size, align);
}
cgValue data = cg_value(backing, alloc_type_multi_pointer(bt->Slice.elem));
auto temp_data = array_make<cgCompoundLitElemTempData>(temporary_allocator(), 0, cl->elems.count);
populate(p, cl->elems, &temp_data, type);
for_array(i, temp_data) {
temp_data[i].gep = cg_emit_ptr_offset(p, data, cg_const_int(p, t_int, temp_data[i].elem_index));
}
assign_array(p, temp_data);
cg_fill_slice(p, v, data, cg_const_int(p, t_int, count));
return v;
}
case Type_DynamicArray: {
GB_ASSERT(!build_context.no_dynamic_literals);
Type *et = bt->DynamicArray.elem;
cgValue size = cg_const_int(p, t_int, type_size_of(et));
cgValue align = cg_const_int(p, t_int, type_align_of(et));
i64 item_count = gb_max(cl->max_count, cl->elems.count);
{
auto args = slice_make<cgValue>(temporary_allocator(), 5);
args[0] = cg_emit_conv(p, cg_addr_get_ptr(p, v), t_rawptr);
args[1] = size;
args[2] = align;
args[3] = cg_const_int(p, t_int, item_count);
args[4] = cg_emit_source_code_location_as_global(p, proc_name, pos);
cg_emit_runtime_call(p, "__dynamic_array_reserve", args);
}
Type *array_type = alloc_type_array(et, item_count);
cgAddr items_addr = cg_add_local(p, array_type, nullptr, true);
cgValue items = cg_addr_get_ptr(p, items_addr);
auto temp_data = array_make<cgCompoundLitElemTempData>(temporary_allocator(), 0, cl->elems.count);
populate(p, cl->elems, &temp_data, type);
for_array(i, temp_data) {
temp_data[i].gep = cg_emit_array_epi(p, items, temp_data[i].elem_index);
}
assign_array(p, temp_data);
{
auto args = slice_make<cgValue>(temporary_allocator(), 6);
args[0] = cg_emit_conv(p, v.addr, t_rawptr);
args[1] = size;
args[2] = align;
args[3] = cg_emit_conv(p, items, t_rawptr);
args[4] = cg_const_int(p, t_int, item_count);
args[5] = cg_emit_source_code_location_as_global(p, proc_name, pos);
cg_emit_runtime_call(p, "__dynamic_array_append", args);
}
break;
}
case Type_Basic: {
GB_ASSERT(is_type_any(bt));
String field_names[2] = {
str_lit("data"),
str_lit("id"),
};
Type *field_types[2] = {
t_rawptr,
t_typeid,
};
for_array(field_index, cl->elems) {
Ast *elem = cl->elems[field_index];
cgValue field_expr = {};
isize index = field_index;
if (elem->kind == Ast_FieldValue) {
ast_node(fv, FieldValue, elem);
Selection sel = lookup_field(bt, fv->field->Ident.token.string, false);
index = sel.index[0];
elem = fv->value;
} else {
TypeAndValue tav = type_and_value_of_expr(elem);
Selection sel = lookup_field(bt, field_names[field_index], false);
index = sel.index[0];
}
field_expr = cg_build_expr(p, elem);
GB_ASSERT(field_expr.type->kind != Type_Tuple);
Type *ft = field_types[index];
cgValue fv = cg_emit_conv(p, field_expr, ft);
cgValue gep = cg_emit_struct_ep(p, cg_addr_get_ptr(p, v), index);
cg_emit_store(p, gep, fv);
}
break;
}
case Type_BitSet: {
i64 sz = type_size_of(type);
if (sz == 0) {
return v;
}
cgValue lower = cg_const_value(p, t_int, exact_value_i64(bt->BitSet.lower));
Type *it = bit_set_to_int(bt);
cgValue one = cg_const_value(p, it, exact_value_i64(1));
for (Ast *elem : cl->elems) {
GB_ASSERT(elem->kind != Ast_FieldValue);
cgValue expr = cg_build_expr(p, elem);
GB_ASSERT(expr.type->kind != Type_Tuple);
cgValue e = cg_emit_conv(p, expr, it);
e = cg_emit_arith(p, Token_Sub, e, lower, it);
e = cg_emit_arith(p, Token_Shl, one, e, it);
cgValue old_value = cg_emit_transmute(p, cg_addr_load(p, v), it);
cgValue new_value = cg_emit_arith(p, Token_Or, old_value, e, it);
new_value = cg_emit_transmute(p, new_value, type);
cg_addr_store(p, v, new_value);
}
return v;
}
case Type_Matrix: {
auto temp_data = array_make<cgCompoundLitElemTempData>(temporary_allocator(), 0, cl->elems.count);
populate(p, cl->elems, &temp_data, type);
cgValue dst_ptr = cg_addr_get_ptr(p, v);
for_array(i, temp_data) {
temp_data[i].gep = cg_emit_array_epi(p, dst_ptr, temp_data[i].elem_index);
}
assign_array(p, temp_data);
break;
}
case Type_SimdVector: {
// auto temp_data = array_make<cgCompoundLitElemTempData>(temporary_allocator(), 0, cl->elems.count);
// populate(p, cl->elems, &temp_data, type);
// // TODO(bill): reduce the need for individual `insertelement` if a `shufflevector`
// // might be a better option
// for (auto const &td : temp_data) if (td.value.node != nullptr) {
// if (td.elem_length > 0) {
// for (i64 k = 0; k < td.elem_length; k++) {
// LLVMValueRef index = cg_const_int(p->module, t_u32, td.elem_index + k).value;
// vector_value.value = LLVMBuildInsertElement(p->builder, vector_value.value, td.value.value, index, "");
// }
// } else {
// LLVMValueRef index = cg_const_int(p->module, t_u32, td.elem_index).value;
// vector_value.value = LLVMBuildInsertElement(p->builder, vector_value.value, td.value.value, index, "");
// }
// }
break;
}
}
return v;
}
gb_internal cgValue cg_make_soa_pointer(cgProcedure *p, Type *type, cgValue const &addr, cgValue const &index) {
cgAddr v = cg_add_local(p, type, nullptr, true);
cgValue ptr = cg_emit_struct_ep(p, v.addr, 0);
cgValue idx = cg_emit_struct_ep(p, v.addr, 1);
cg_emit_store(p, ptr, addr);
cg_emit_store(p, idx, cg_emit_conv(p, index, t_int));
return cg_addr_load(p, v);
}
gb_internal cgValue cg_build_unary_and(cgProcedure *p, Ast *expr) {
ast_node(ue, UnaryExpr, expr);
auto tv = type_and_value_of_expr(expr);
Ast *ue_expr = unparen_expr(ue->expr);
if (ue_expr->kind == Ast_IndexExpr && tv.mode == Addressing_OptionalOkPtr && is_type_tuple(tv.type)) {
GB_PANIC("TODO(bill): &m[k]");
// Type *tuple = tv.type;
// Type *map_type = type_of_expr(ue_expr->IndexExpr.expr);
// Type *ot = base_type(map_type);
// Type *t = base_type(type_deref(ot));
// bool deref = t != ot;
// GB_ASSERT(t->kind == Type_Map);
// ast_node(ie, IndexExpr, ue_expr);
// cgValue map_val = cg_build_addr_ptr(p, ie->expr);
// if (deref) {
// map_val = cg_emit_load(p, map_val);
// }
// cgValue key = lb_build_expr(p, ie->index);
// key = lb_emit_conv(p, key, t->Map.key);
// lbAddr addr = lb_addr_map(map_val, key, t, alloc_type_pointer(t->Map.value));
// lbValue ptr = lb_addr_get_ptr(p, addr);
// lbValue ok = lb_emit_comp_against_nil(p, Token_NotEq, ptr);
// ok = lb_emit_conv(p, ok, tuple->Tuple.variables[1]->type);
// lbAddr res = lb_add_local_generated(p, tuple, false);
// lbValue gep0 = lb_emit_struct_ep(p, res.addr, 0);
// lbValue gep1 = lb_emit_struct_ep(p, res.addr, 1);
// lb_emit_store(p, gep0, ptr);
// lb_emit_store(p, gep1, ok);
// return lb_addr_load(p, res);
} else if (is_type_soa_pointer(tv.type)) {
ast_node(ie, IndexExpr, ue_expr);
cgValue addr = cg_build_addr_ptr(p, ie->expr);
cgValue index = cg_build_expr(p, ie->index);
if (!build_context.no_bounds_check) {
// TODO(bill): soa bounds checking
}
return cg_make_soa_pointer(p, tv.type, addr, index);
} else if (ue_expr->kind == Ast_CompoundLit) {
cgAddr addr = cg_build_addr_compound_lit(p, expr);
return addr.addr;
} else if (ue_expr->kind == Ast_TypeAssertion) {
GB_PANIC("TODO(bill): &v.(T)");
// if (is_type_tuple(tv.type)) {
// Type *tuple = tv.type;
// Type *ptr_type = tuple->Tuple.variables[0]->type;
// Type *ok_type = tuple->Tuple.variables[1]->type;
// ast_node(ta, TypeAssertion, ue_expr);
// TokenPos pos = ast_token(expr).pos;
// Type *type = type_of_expr(ue_expr);
// GB_ASSERT(!is_type_tuple(type));
// lbValue e = lb_build_expr(p, ta->expr);
// Type *t = type_deref(e.type);
// if (is_type_union(t)) {
// lbValue v = e;
// if (!is_type_pointer(v.type)) {
// v = lb_address_from_load_or_generate_local(p, v);
// }
// Type *src_type = type_deref(v.type);
// Type *dst_type = type;
// lbValue src_tag = {};
// lbValue dst_tag = {};
// if (is_type_union_maybe_pointer(src_type)) {
// src_tag = lb_emit_comp_against_nil(p, Token_NotEq, v);
// dst_tag = lb_const_bool(p->module, t_bool, true);
// } else {
// src_tag = lb_emit_load(p, lb_emit_union_tag_ptr(p, v));
// dst_tag = lb_const_union_tag(p->module, src_type, dst_type);
// }
// lbValue ok = lb_emit_comp(p, Token_CmpEq, src_tag, dst_tag);
// lbValue data_ptr = lb_emit_conv(p, v, ptr_type);
// lbAddr res = lb_add_local_generated(p, tuple, true);
// lbValue gep0 = lb_emit_struct_ep(p, res.addr, 0);
// lbValue gep1 = lb_emit_struct_ep(p, res.addr, 1);
// lb_emit_store(p, gep0, lb_emit_select(p, ok, data_ptr, lb_const_nil(p->module, ptr_type)));
// lb_emit_store(p, gep1, lb_emit_conv(p, ok, ok_type));
// return lb_addr_load(p, res);
// } else if (is_type_any(t)) {
// lbValue v = e;
// if (is_type_pointer(v.type)) {
// v = lb_emit_load(p, v);
// }
// lbValue data_ptr = lb_emit_conv(p, lb_emit_struct_ev(p, v, 0), ptr_type);
// lbValue any_id = lb_emit_struct_ev(p, v, 1);
// lbValue id = lb_typeid(p->module, type);
// lbValue ok = lb_emit_comp(p, Token_CmpEq, any_id, id);
// lbAddr res = lb_add_local_generated(p, tuple, false);
// lbValue gep0 = lb_emit_struct_ep(p, res.addr, 0);
// lbValue gep1 = lb_emit_struct_ep(p, res.addr, 1);
// lb_emit_store(p, gep0, lb_emit_select(p, ok, data_ptr, lb_const_nil(p->module, ptr_type)));
// lb_emit_store(p, gep1, lb_emit_conv(p, ok, ok_type));
// return lb_addr_load(p, res);
// } else {
// GB_PANIC("TODO(bill): type assertion %s", type_to_string(type));
// }
// } else {
// GB_ASSERT(is_type_pointer(tv.type));
// ast_node(ta, TypeAssertion, ue_expr);
// TokenPos pos = ast_token(expr).pos;
// Type *type = type_of_expr(ue_expr);
// GB_ASSERT(!is_type_tuple(type));
// lbValue e = lb_build_expr(p, ta->expr);
// Type *t = type_deref(e.type);
// if (is_type_union(t)) {
// lbValue v = e;
// if (!is_type_pointer(v.type)) {
// v = lb_address_from_load_or_generate_local(p, v);
// }
// Type *src_type = type_deref(v.type);
// Type *dst_type = type;
// if ((p->state_flags & StateFlag_no_type_assert) == 0) {
// lbValue src_tag = {};
// lbValue dst_tag = {};
// if (is_type_union_maybe_pointer(src_type)) {
// src_tag = lb_emit_comp_against_nil(p, Token_NotEq, v);
// dst_tag = lb_const_bool(p->module, t_bool, true);
// } else {
// src_tag = lb_emit_load(p, lb_emit_union_tag_ptr(p, v));
// dst_tag = lb_const_union_tag(p->module, src_type, dst_type);
// }
// isize arg_count = 6;
// if (build_context.no_rtti) {
// arg_count = 4;
// }
// lbValue ok = lb_emit_comp(p, Token_CmpEq, src_tag, dst_tag);
// auto args = array_make<lbValue>(permanent_allocator(), arg_count);
// args[0] = ok;
// args[1] = lb_find_or_add_entity_string(p->module, get_file_path_string(pos.file_id));
// args[2] = lb_const_int(p->module, t_i32, pos.line);
// args[3] = lb_const_int(p->module, t_i32, pos.column);
// if (!build_context.no_rtti) {
// args[4] = lb_typeid(p->module, src_type);
// args[5] = lb_typeid(p->module, dst_type);
// }
// lb_emit_runtime_call(p, "type_assertion_check", args);
// }
// lbValue data_ptr = v;
// return lb_emit_conv(p, data_ptr, tv.type);
// } else if (is_type_any(t)) {
// lbValue v = e;
// if (is_type_pointer(v.type)) {
// v = lb_emit_load(p, v);
// }
// lbValue data_ptr = lb_emit_struct_ev(p, v, 0);
// if ((p->state_flags & StateFlag_no_type_assert) == 0) {
// GB_ASSERT(!build_context.no_rtti);
// lbValue any_id = lb_emit_struct_ev(p, v, 1);
// lbValue id = lb_typeid(p->module, type);
// lbValue ok = lb_emit_comp(p, Token_CmpEq, any_id, id);
// auto args = array_make<lbValue>(permanent_allocator(), 6);
// args[0] = ok;
// args[1] = lb_find_or_add_entity_string(p->module, get_file_path_string(pos.file_id));
// args[2] = lb_const_int(p->module, t_i32, pos.line);
// args[3] = lb_const_int(p->module, t_i32, pos.column);
// args[4] = any_id;
// args[5] = id;
// lb_emit_runtime_call(p, "type_assertion_check", args);
// }
// return lb_emit_conv(p, data_ptr, tv.type);
// } else {
// GB_PANIC("TODO(bill): type assertion %s", type_to_string(type));
// }
// }
}
return cg_build_addr_ptr(p, ue->expr);
}
gb_internal cgValue cg_emit_cast_union(cgProcedure *p, cgValue value, Type *type, TokenPos pos) {
Type *src_type = value.type;
bool is_ptr = is_type_pointer(src_type);
bool is_tuple = true;
Type *tuple = type;
if (type->kind != Type_Tuple) {
is_tuple = false;
tuple = make_optional_ok_type(type);
}
if (is_ptr) {
value = cg_emit_load(p, value);
}
Type *src = base_type(type_deref(src_type));
GB_ASSERT_MSG(is_type_union(src), "%s", type_to_string(src_type));
Type *dst = tuple->Tuple.variables[0]->type;
cgValue value_ = cg_address_from_load_or_generate_local(p, value);
if ((p->state_flags & StateFlag_no_type_assert) != 0 && !is_tuple) {
// just do a bit cast of the data at the front
cgValue ptr = cg_emit_conv(p, value_, alloc_type_pointer(type));
return cg_emit_load(p, ptr);
}
cgValue tag = {};
cgValue dst_tag = {};
cgValue cond = {};
cgValue data = {};
cgValue gep0 = cg_add_local(p, tuple->Tuple.variables[0]->type, nullptr, true).addr;
cgValue gep1 = cg_add_local(p, tuple->Tuple.variables[1]->type, nullptr, true).addr;
if (is_type_union_maybe_pointer(src)) {
data = cg_emit_load(p, cg_emit_conv(p, value_, gep0.type));
} else {
tag = cg_emit_load(p, cg_emit_union_tag_ptr(p, value_));
dst_tag = cg_const_union_tag(p, src, dst);
}
TB_Node *ok_block = cg_control_region(p, "union_cast_ok");
TB_Node *end_block = cg_control_region(p, "union_cast_end");
if (data.node != nullptr) {
GB_ASSERT(is_type_union_maybe_pointer(src));
cond = cg_emit_comp_against_nil(p, Token_NotEq, data);
} else {
cond = cg_emit_comp(p, Token_CmpEq, tag, dst_tag);
}
cg_emit_if(p, cond, ok_block, end_block);
tb_inst_set_control(p->func, ok_block);
if (data.node == nullptr) {
data = cg_emit_load(p, cg_emit_conv(p, value_, gep0.type));
}
cg_emit_store(p, gep0, data);
cg_emit_store(p, gep1, cg_const_bool(p, t_bool, true));
cg_emit_goto(p, end_block);
tb_inst_set_control(p->func, end_block);
if (!is_tuple) {
GB_ASSERT((p->state_flags & StateFlag_no_type_assert) == 0);
// NOTE(bill): Panic on invalid conversion
Type *dst_type = tuple->Tuple.variables[0]->type;
isize arg_count = 7;
if (build_context.no_rtti) {
arg_count = 4;
}
cgValue ok = cg_emit_load(p, gep1);
auto args = slice_make<cgValue>(permanent_allocator(), arg_count);
args[0] = ok;
args[1] = cg_const_string(p, t_string, get_file_path_string(pos.file_id));
args[2] = cg_const_int(p, t_i32, pos.line);
args[3] = cg_const_int(p, t_i32, pos.column);
if (!build_context.no_rtti) {
args[4] = cg_typeid(p, src_type);
args[5] = cg_typeid(p, dst_type);
args[6] = cg_emit_conv(p, value_, t_rawptr);
}
cg_emit_runtime_call(p, "type_assertion_check2", args);
return cg_emit_load(p, gep0);
}
return cg_value_multi2(cg_emit_load(p, gep0), cg_emit_load(p, gep1), tuple);
}
gb_internal cgValue cg_emit_cast_any(cgProcedure *p, cgValue value, Type *type, TokenPos pos) {
Type *src_type = value.type;
if (is_type_pointer(src_type)) {
value = cg_emit_load(p, value);
}
bool is_tuple = true;
Type *tuple = type;
if (type->kind != Type_Tuple) {
is_tuple = false;
tuple = make_optional_ok_type(type);
}
Type *dst_type = tuple->Tuple.variables[0]->type;
if ((p->state_flags & StateFlag_no_type_assert) != 0 && !is_tuple) {
// just do a bit cast of the data at the front
cgValue ptr = cg_emit_struct_ev(p, value, 0);
ptr = cg_emit_conv(p, ptr, alloc_type_pointer(type));
return cg_emit_load(p, ptr);
}
cgValue dst_typeid = cg_typeid(p, dst_type);
cgValue any_typeid = cg_emit_struct_ev(p, value, 1);
TB_Node *ok_block = cg_control_region(p, "any_cast_ok");
TB_Node *end_block = cg_control_region(p, "any_cast_end");
cgValue cond = cg_emit_comp(p, Token_CmpEq, any_typeid, dst_typeid);
cg_emit_if(p, cond, ok_block, end_block);
tb_inst_set_control(p->func, ok_block);
cgValue gep0 = cg_add_local(p, tuple->Tuple.variables[0]->type, nullptr, true).addr;
cgValue gep1 = cg_add_local(p, tuple->Tuple.variables[1]->type, nullptr, true).addr;
cgValue any_data = cg_emit_struct_ev(p, value, 0);
cgValue ptr = cg_emit_conv(p, any_data, alloc_type_pointer(dst_type));
cg_emit_store(p, gep0, cg_emit_load(p, ptr));
cg_emit_store(p, gep1, cg_const_bool(p, t_bool, true));
cg_emit_goto(p, end_block);
tb_inst_set_control(p->func, end_block);
if (!is_tuple) {
// NOTE(bill): Panic on invalid conversion
cgValue ok = cg_emit_load(p, gep1);
isize arg_count = 7;
if (build_context.no_rtti) {
arg_count = 4;
}
auto args = slice_make<cgValue>(permanent_allocator(), arg_count);
args[0] = ok;
args[1] = cg_const_string(p, t_string, get_file_path_string(pos.file_id));
args[2] = cg_const_int(p, t_i32, pos.line);
args[3] = cg_const_int(p, t_i32, pos.column);
if (!build_context.no_rtti) {
args[4] = any_typeid;
args[5] = dst_typeid;
args[6] = cg_emit_struct_ev(p, value, 0);
}
cg_emit_runtime_call(p, "type_assertion_check2", args);
return cg_emit_load(p, gep0);
}
return cg_value_multi2(cg_emit_load(p, gep0), cg_emit_load(p, gep1), tuple);
}
gb_internal cgValue cg_build_type_assertion(cgProcedure *p, Ast *expr, Type *type) {
ast_node(ta, TypeAssertion, expr);
TokenPos pos = ast_token(expr).pos;
cgValue e = cg_build_expr(p, ta->expr);
Type *t = type_deref(e.type);
if (is_type_union(t)) {
return cg_emit_cast_union(p, e, type, pos);
} else if (is_type_any(t)) {
return cg_emit_cast_any(p, e, type, pos);
}
GB_PANIC("TODO(bill): type assertion %s", type_to_string(e.type));
return {};
}
gb_internal cgValue cg_build_expr_internal(cgProcedure *p, Ast *expr) {
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 &&
expr->kind != Ast_CompoundLit) {
// 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(p, 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) {
// 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, e, expr);
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, cg_data_type(type)), 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(cl, CompoundLit, expr);
cgAddr addr = cg_build_addr_compound_lit(p, expr);
return cg_addr_load(p, addr);
case_end;
case_ast_node(te, TernaryIfExpr, expr);
cgValue incoming_values[2] = {};
TB_Node *incoming_regions[2] = {};
TB_Node *then = cg_control_region(p, "if_then");
TB_Node *done = cg_control_region(p, "if_done");
TB_Node *else_ = cg_control_region(p, "if_else");
cg_build_cond(p, te->cond, then, else_);
tb_inst_set_control(p->func, then);
Type *type = default_type(type_of_expr(expr));
incoming_values [0] = cg_emit_conv(p, cg_build_expr(p, te->x), type);
incoming_regions[0] = tb_inst_get_control(p->func);
cg_emit_goto(p, done);
tb_inst_set_control(p->func, else_);
incoming_values [1] = cg_emit_conv(p, cg_build_expr(p, te->y), type);
incoming_regions[1] = tb_inst_get_control(p->func);
cg_emit_goto(p, done);
tb_inst_set_control(p->func, done);
GB_ASSERT(incoming_values[0].kind == cgValue_Value ||
incoming_values[0].kind == cgValue_Addr);
GB_ASSERT(incoming_values[0].kind == incoming_values[1].kind);
cgValue res = {};
res.kind = incoming_values[0].kind;
res.type = type;
TB_DataType dt = cg_data_type(type);
if (res.kind == cgValue_Addr) {
dt = TB_TYPE_PTR;
}
res.node = tb_inst_incomplete_phi(p->func, dt, done, 2);
tb_inst_add_phi_operand(p->func, res.node, incoming_regions[0], incoming_values[0].node);
tb_inst_add_phi_operand(p->func, res.node, incoming_regions[1], incoming_values[1].node);
return res;
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) {
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;
case_ast_node(oe, OrReturnExpr, expr);
return cg_build_or_return(p, oe->expr, tv.type);
case_end;
case_ast_node(oe, OrElseExpr, expr);
return cg_build_or_else(p, oe->x, oe->y, tv.type);
case_end;
case_ast_node(ta, TypeAssertion, expr);
return cg_build_type_assertion(p, expr, tv.type);
case_end;
case_ast_node(pl, ProcLit, expr);
cgProcedure *anon = cg_procedure_generate_anonymous(p->module, expr, p);
GB_ASSERT(anon != nullptr);
GB_ASSERT(anon->symbol != nullptr);
return cg_value(tb_inst_get_symbol_address(p->func, anon->symbol), type);
case_end;
}
TokenPos token_pos = ast_token(expr).pos;
GB_PANIC("Unexpected expression\n"
"\tAst: %.*s @ "
"%s\n",
LIT(ast_strings[expr->kind]),
token_pos_to_string(token_pos));
return {};
}
gb_internal cgValue cg_map_data_uintptr(cgProcedure *p, cgValue value) {
GB_ASSERT(is_type_map(value.type) || are_types_identical(value.type, t_raw_map));
cgValue data = cg_emit_struct_ev(p, value, 0);
u64 mask_value = 0;
if (build_context.ptr_size == 4) {
mask_value = 0xfffffffful & ~(MAP_CACHE_LINE_SIZE-1);
} else {
mask_value = 0xffffffffffffffffull & ~(MAP_CACHE_LINE_SIZE-1);
}
cgValue mask = cg_const_int(p, t_uintptr, mask_value);
return cg_emit_arith(p, Token_And, data, mask, t_uintptr);
}
gb_internal cgValue cg_gen_map_key_hash(cgProcedure *p, cgValue const &map_ptr, cgValue key, cgValue *key_ptr_) {
TEMPORARY_ALLOCATOR_GUARD();
cgValue key_ptr = cg_address_from_load_or_generate_local(p, key);
key_ptr = cg_emit_conv(p, key_ptr, t_rawptr);
if (key_ptr_) *key_ptr_ = key_ptr;
Type* key_type = base_type(type_deref(map_ptr.type))->Map.key;
cgValue hasher = cg_hasher_proc_value_for_type(p, key_type);
Slice<cgValue> args = {};
args = slice_make<cgValue>(temporary_allocator(), 1);
args[0] = cg_map_data_uintptr(p, cg_emit_load(p, map_ptr));
cgValue seed = cg_emit_runtime_call(p, "map_seed_from_map_data", args);
args = slice_make<cgValue>(temporary_allocator(), 2);
args[0] = key_ptr;
args[1] = seed;
return cg_emit_call(p, hasher, args);
}
gb_internal cgValue cg_internal_dynamic_map_get_ptr(cgProcedure *p, cgValue const &map_ptr, cgValue const &key) {
TEMPORARY_ALLOCATOR_GUARD();
Type *map_type = base_type(type_deref(map_ptr.type));
GB_ASSERT(map_type->kind == Type_Map);
cgValue ptr = {};
cgValue key_ptr = {};
cgValue hash = cg_gen_map_key_hash(p, map_ptr, key, &key_ptr);
auto args = slice_make<cgValue>(temporary_allocator(), 4);
args[0] = cg_emit_transmute(p, map_ptr, t_raw_map_ptr);
args[1] = cg_builtin_map_info(p, map_type);
args[2] = hash;
args[3] = key_ptr;
ptr = cg_emit_runtime_call(p, "__dynamic_map_get", args);
return cg_emit_conv(p, ptr, alloc_type_pointer(map_type->Map.value));
}
gb_internal void cg_internal_dynamic_map_set(cgProcedure *p, cgValue const &map_ptr, Type *map_type,
cgValue const &map_key, cgValue const &map_value, Ast *node) {
TEMPORARY_ALLOCATOR_GUARD();
map_type = base_type(map_type);
GB_ASSERT(map_type->kind == Type_Map);
cgValue key_ptr = {};
cgValue hash = cg_gen_map_key_hash(p, map_ptr, map_key, &key_ptr);
cgValue v = cg_emit_conv(p, map_value, map_type->Map.value);
cgValue value_ptr = cg_address_from_load_or_generate_local(p, v);
auto args = slice_make<cgValue>(temporary_allocator(), 6);
args[0] = cg_emit_conv(p, map_ptr, t_raw_map_ptr);
args[1] = cg_builtin_map_info(p, map_type);
args[2] = hash;
args[3] = cg_emit_conv(p, key_ptr, t_rawptr);
args[4] = cg_emit_conv(p, value_ptr, t_rawptr);
args[5] = cg_emit_source_code_location_as_global(p, node);
cg_emit_runtime_call(p, "__dynamic_map_set", args);
}
gb_internal cgValue cg_build_addr_ptr(cgProcedure *p, Ast *expr) {
cgAddr addr = cg_build_addr(p, expr);
return cg_addr_get_ptr(p, addr);
}
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_index_expr(cgProcedure *p, Ast *expr) {
ast_node(ie, IndexExpr, expr);
Type *t = base_type(type_of_expr(ie->expr));
bool deref = is_type_pointer(t);
t = base_type(type_deref(t));
if (is_type_soa_struct(t)) {
cgValue val = cg_build_addr_ptr(p, ie->expr);
if (deref) {
val = cg_emit_load(p, val);
}
cgValue index = cg_build_expr(p, ie->index);
return cg_addr_soa_variable(val, index, ie->index);
}
if (ie->expr->tav.mode == Addressing_SoaVariable) {
GB_PANIC("TODO(bill): #soa");
// // SOA Structures for slices/dynamic arrays
// GB_ASSERT(is_type_pointer(type_of_expr(ie->expr)));
// lbValue field = lb_build_expr(p, ie->expr);
// lbValue index = lb_build_expr(p, ie->index);
// if (!build_context.no_bounds_check) {
// // TODO HACK(bill): Clean up this hack to get the length for bounds checking
// // GB_ASSERT(LLVMIsALoadInst(field.value));
// // lbValue a = {};
// // a.value = LLVMGetOperand(field.value, 0);
// // a.type = alloc_type_pointer(field.type);
// // irInstr *b = &a->Instr;
// // GB_ASSERT(b->kind == irInstr_StructElementPtr);
// // lbValue base_struct = b->StructElementPtr.address;
// // GB_ASSERT(is_type_soa_struct(type_deref(ir_type(base_struct))));
// // lbValue len = ir_soa_struct_len(p, base_struct);
// // lb_emit_bounds_check(p, ast_token(ie->index), index, len);
// }
// lbValue val = lb_emit_ptr_offset(p, field, index);
// return lb_addr(val);
}
GB_ASSERT_MSG(is_type_indexable(t), "%s %s", type_to_string(t), expr_to_string(expr));
if (is_type_map(t)) {
cgAddr map_addr = cg_build_addr(p, ie->expr);
cgValue key = cg_build_expr(p, ie->index);
key = cg_emit_conv(p, key, t->Map.key);
Type *result_type = type_of_expr(expr);
cgValue map_ptr = cg_addr_get_ptr(p, map_addr);
if (is_type_pointer(type_deref(map_ptr.type))) {
map_ptr = cg_emit_load(p, map_ptr);
}
return cg_addr_map(map_ptr, key, t, result_type);
}
switch (t->kind) {
case Type_Array: {
cgValue array = {};
array = cg_build_addr_ptr(p, ie->expr);
if (deref) {
array = cg_emit_load(p, array);
}
cgValue index = cg_build_expr(p, ie->index);
index = cg_emit_conv(p, index, t_int);
cgValue elem = cg_emit_array_ep(p, array, index);
auto index_tv = type_and_value_of_expr(ie->index);
if (index_tv.mode != Addressing_Constant) {
// cgValue len = cg_const_int(p->module, t_int, t->Array.count);
// cg_emit_bounds_check(p, ast_token(ie->index), index, len);
}
return cg_addr(elem);
}
case Type_EnumeratedArray: {
cgValue array = {};
array = cg_build_addr_ptr(p, ie->expr);
if (deref) {
array = cg_emit_load(p, array);
}
Type *index_type = t->EnumeratedArray.index;
auto index_tv = type_and_value_of_expr(ie->index);
cgValue index = {};
if (compare_exact_values(Token_NotEq, *t->EnumeratedArray.min_value, exact_value_i64(0))) {
if (index_tv.mode == Addressing_Constant) {
ExactValue idx = exact_value_sub(index_tv.value, *t->EnumeratedArray.min_value);
index = cg_const_value(p, index_type, idx);
} else {
index = cg_emit_arith(p, Token_Sub,
cg_build_expr(p, ie->index),
cg_const_value(p, index_type, *t->EnumeratedArray.min_value),
index_type);
index = cg_emit_conv(p, index, t_int);
}
} else {
index = cg_emit_conv(p, cg_build_expr(p, ie->index), t_int);
}
cgValue elem = cg_emit_array_ep(p, array, index);
if (index_tv.mode != Addressing_Constant) {
// cgValue len = cg_const_int(p->module, t_int, t->EnumeratedArray.count);
// cg_emit_bounds_check(p, ast_token(ie->index), index, len);
}
return cg_addr(elem);
}
case Type_Slice: {
cgValue slice = {};
slice = cg_build_expr(p, ie->expr);
if (deref) {
slice = cg_emit_load(p, slice);
}
cgValue elem = cg_builtin_raw_data(p, slice);
cgValue index = cg_emit_conv(p, cg_build_expr(p, ie->index), t_int);
// cgValue len = cg_builtin_len(p, slice);
// cg_emit_bounds_check(p, ast_token(ie->index), index, len);
cgValue v = cg_emit_ptr_offset(p, elem, index);
v.type = alloc_type_pointer(type_deref(v.type, true));
return cg_addr(v);
}
case Type_MultiPointer: {
cgValue multi_ptr = {};
multi_ptr = cg_build_expr(p, ie->expr);
if (deref) {
multi_ptr = cg_emit_load(p, multi_ptr);
}
cgValue index = cg_build_expr(p, ie->index);
index = cg_emit_conv(p, index, t_int);
cgValue v = cg_emit_ptr_offset(p, multi_ptr, index);
v.type = alloc_type_pointer(type_deref(v.type, true));
return cg_addr(v);
}
case Type_RelativeMultiPointer: {
cgValue multi_ptr = {};
multi_ptr = cg_build_expr(p, ie->expr);
if (deref) {
multi_ptr = cg_emit_load(p, multi_ptr);
}
cgValue index = cg_build_expr(p, ie->index);
index = cg_emit_conv(p, index, t_int);
cgValue v = cg_emit_ptr_offset(p, multi_ptr, index);
v.type = alloc_type_pointer(type_deref(v.type, true));
return cg_addr(v);
}
case Type_DynamicArray: {
cgValue dynamic_array = {};
dynamic_array = cg_build_expr(p, ie->expr);
if (deref) {
dynamic_array = cg_emit_load(p, dynamic_array);
}
cgValue elem = cg_builtin_raw_data(p, dynamic_array);
cgValue index = cg_emit_conv(p, cg_build_expr(p, ie->index), t_int);
// cgValue len = cg_dynamic_array_len(p, dynamic_array);
// cg_emit_bounds_check(p, ast_token(ie->index), index, len);
cgValue v = cg_emit_ptr_offset(p, elem, index);
v.type = alloc_type_pointer(type_deref(v.type, true));
return cg_addr(v);
}
case Type_Matrix: {
GB_PANIC("TODO(bill): matrix");
// lbValue matrix = {};
// matrix = lb_build_addr_ptr(p, ie->expr);
// if (deref) {
// matrix = lb_emit_load(p, matrix);
// }
// lbValue index = lb_build_expr(p, ie->index);
// index = lb_emit_conv(p, index, t_int);
// lbValue elem = lb_emit_matrix_ep(p, matrix, lb_const_int(p->module, t_int, 0), index);
// elem = lb_emit_conv(p, elem, alloc_type_pointer(type_of_expr(expr)));
// auto index_tv = type_and_value_of_expr(ie->index);
// if (index_tv.mode != Addressing_Constant) {
// lbValue len = lb_const_int(p->module, t_int, t->Matrix.column_count);
// lb_emit_bounds_check(p, ast_token(ie->index), index, len);
// }
// return lb_addr(elem);
}
case Type_Basic: { // Basic_string
cgValue str;
cgValue elem;
cgValue len;
cgValue index;
str = cg_build_expr(p, ie->expr);
if (deref) {
str = cg_emit_load(p, str);
}
elem = cg_builtin_raw_data(p, str);
len = cg_builtin_len(p, str);
index = cg_emit_conv(p, cg_build_expr(p, ie->index), t_int);
// cg_emit_bounds_check(p, ast_token(ie->index), index, len);
cgValue v = cg_emit_ptr_offset(p, elem, index);
v.type = alloc_type_pointer(type_deref(v.type, true));
return cg_addr(v);
}
}
return {};
}
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(de, DerefExpr, expr);
Type *t = type_of_expr(de->expr);
if (is_type_relative_pointer(t)) {
cgAddr addr = cg_build_addr(p, de->expr);
addr.relative.deref = true;
return addr;
} else if (is_type_soa_pointer(t)) {
cgValue value = cg_build_expr(p, de->expr);
cgValue ptr = cg_emit_struct_ev(p, value, 0);
cgValue idx = cg_emit_struct_ev(p, value, 1);
return cg_addr_soa_variable(ptr, idx, nullptr);
}
cgValue addr = cg_build_expr(p, de->expr);
return cg_addr(addr);
case_end;
case_ast_node(ie, IndexExpr, expr);
return cg_build_addr_index_expr(p, 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);
}
item.type = alloc_type_pointer(type_deref(item.type, true));
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;
case_ast_node(ce, CallExpr, expr);
cgValue res = cg_build_expr(p, expr);
switch (res.kind) {
case cgValue_Value:
return cg_addr(cg_address_from_load_or_generate_local(p, res));
case cgValue_Addr:
return cg_addr(res);
case cgValue_Multi:
GB_PANIC("cannot address a multi-valued expression");
break;
}
case_end;
case_ast_node(cl, CompoundLit, expr);
return cg_build_addr_compound_lit(p, expr);
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 {};
}
Reference in New Issue View Git Blame Copy Permalink