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Generic procedures generate types on use

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This commit is contained in:
Ginger Bill
2017-06-25 19:41:07 +01:00
parent c4081393c1
commit 15dbea6899
6 changed files with 247 additions and 171 deletions
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305
src/check_expr.cpp
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@@ -1030,7 +1030,7 @@ void check_bit_field_type(Checker *c, Type *bit_field_type, Type *named_type, As
Type *check_get_params(Checker *c, Scope *scope, AstNode *_params, bool *is_variadic_) {
Type *check_get_params(Checker *c, Scope *scope, AstNode *_params, bool *is_variadic_, Array<Operand> *operands) {
if (_params == NULL) {
return NULL;
}
@@ -1041,6 +1041,11 @@ Type *check_get_params(Checker *c, Scope *scope, AstNode *_params, bool *is_vari
return NULL;
}
if (operands != NULL) {
GB_ASSERT(operands->count == params.count);
}
isize variable_count = 0;
for_array(i, params) {
AstNode *field = params[i];
@@ -1096,32 +1101,45 @@ Type *check_get_params(Checker *c, Scope *scope, AstNode *_params, bool *is_vari
}
}
if (type_expr->kind == AstNode_HelperType) {
type = make_type_generic(c->allocator, 0);
if (operands != NULL) {
Operand o = (*operands)[i];
if (o.mode == Addressing_Type) {
type = o.type;
} else {
error(o.expr, "Expected a type to assign to a type parameter");
}
} else {
type = make_type_generic(c->allocator, 0);
}
} else {
type = check_type(c, type_expr);
}
if (default_value != NULL) {
Operand o = {};
if (default_value->kind == AstNode_BasicDirective &&
default_value->BasicDirective.name == "caller_location") {
init_preload(c);
default_is_location = true;
o.type = t_source_code_location;
o.mode = Addressing_Value;
if (type_expr->kind == AstNode_HelperType) {
error(default_value, "A type parameter may not have a default value");
} else {
check_expr_with_type_hint(c, &o, default_value, type);
if (is_operand_nil(o)) {
default_is_nil = true;
} else if (o.mode != Addressing_Constant) {
error(default_value, "Default parameter must be a constant");
Operand o = {};
if (default_value->kind == AstNode_BasicDirective &&
default_value->BasicDirective.name == "caller_location") {
init_preload(c);
default_is_location = true;
o.type = t_source_code_location;
o.mode = Addressing_Value;
} else {
value = o.value;
}
}
check_expr_with_type_hint(c, &o, default_value, type);
check_is_assignable_to(c, &o, type);
if (is_operand_nil(o)) {
default_is_nil = true;
} else if (o.mode != Addressing_Constant) {
error(default_value, "Default parameter must be a constant");
} else {
value = o.value;
}
}
check_is_assignable_to(c, &o, type);
}
}
}
@@ -1154,7 +1172,13 @@ Type *check_get_params(Checker *c, Scope *scope, AstNode *_params, bool *is_vari
AstNode *name = p->names[j];
if (ast_node_expect(name, AstNode_Ident)) {
Entity *param = NULL;
if (type->kind == Type_Generic) {
bool is_generic = type->kind == Type_Generic;
if (operands != NULL) {
Operand o = (*operands)[j];
is_generic = o.mode == Addressing_Type && o.type == type;
}
if (is_generic) {
param = make_entity_type_name(c->allocator, scope, name->Ident, type);
} else {
param = make_entity_param(c->allocator, scope, name->Ident, type,
@@ -1497,11 +1521,12 @@ bool abi_compat_return_by_value(gbAllocator a, ProcCallingConvention cc, Type *a
return false;
}
void check_procedure_type(Checker *c, Type *type, AstNode *proc_type_node) {
// NOTE(bill): `operands` is for generating non generic procedure type
void check_procedure_type(Checker *c, Type *type, AstNode *proc_type_node, Array<Operand> *operands = NULL) {
ast_node(pt, ProcType, proc_type_node);
bool variadic = false;
Type *params = check_get_params(c, c->context.scope, pt->params, &variadic);
Type *params = check_get_params(c, c->context.scope, pt->params, &variadic, operands);
Type *results = check_get_results(c, c->context.scope, pt->results);
isize param_count = 0;
@@ -1509,6 +1534,7 @@ void check_procedure_type(Checker *c, Type *type, AstNode *proc_type_node) {
if (params) param_count = params ->Tuple.variable_count;
if (results) result_count = results->Tuple.variable_count;
type->Proc.node = proc_type_node;
type->Proc.scope = c->context.scope;
type->Proc.params = params;
type->Proc.param_count = param_count;
@@ -1541,14 +1567,19 @@ void check_procedure_type(Checker *c, Type *type, AstNode *proc_type_node) {
is_generic = true;
}
}
GB_ASSERT(type->Proc.is_generic == is_generic);
if (operands == NULL) {
GB_ASSERT(type->Proc.is_generic == is_generic);
}
type->Proc.abi_compat_params = gb_alloc_array(c->allocator, Type *, param_count);
for (isize i = 0; i < param_count; i++) {
Type *original_type = type->Proc.params->Tuple.variables[i]->type;
Type *new_type = type_to_abi_compat_param_type(c->allocator, original_type);
type->Proc.abi_compat_params[i] = new_type;
Entity *e = type->Proc.params->Tuple.variables[i];
if (e->kind == Entity_Variable) {
Type *original_type = e->type;
Type *new_type = type_to_abi_compat_param_type(c->allocator, original_type);
type->Proc.abi_compat_params[i] = new_type;
}
}
// NOTE(bill): The types are the same
@@ -4829,6 +4860,7 @@ bool check_builtin_procedure(Checker *c, Operand *operand, AstNode *call, i32 id
enum CallArgumentError {
CallArgumentError_None,
CallArgumentError_NoneProcedureType,
CallArgumentError_WrongTypes,
CallArgumentError_NonVariadicExpand,
CallArgumentError_VariadicTuple,
@@ -4902,23 +4934,28 @@ bool check_unpack_arguments(Checker *c, isize lhs_count, Array<Operand> *operand
return optional_ok;
}
#define CALL_ARGUMENT_CHECKER(name) CallArgumentError name(Checker *c, AstNode *call, Type *proc_type, Array<Operand> operands, CallArgumentErrorMode show_error_mode, i64 *score_)
#define CALL_ARGUMENT_CHECKER(name) CallArgumentError name(Checker *c, AstNode *call, Type *proc_type, Array<Operand> operands, CallArgumentErrorMode show_error_mode, i64 *score_, Type **result_type_)
typedef CALL_ARGUMENT_CHECKER(CallArgumentCheckerType);
CALL_ARGUMENT_CHECKER(check_call_arguments_internal) {
ast_node(ce, CallExpr, call);
GB_ASSERT(is_type_proc(proc_type));
proc_type = base_type(proc_type);
TypeProc *pt = &proc_type->Proc;
isize param_count = 0;
isize param_count_excluding_defaults = 0;
bool variadic = proc_type->Proc.variadic;
bool variadic = pt->variadic;
bool vari_expand = (ce->ellipsis.pos.line != 0);
i64 score = 0;
bool show_error = show_error_mode == CallArgumentMode_ShowErrors;
TypeTuple *param_tuple = NULL;
if (proc_type->Proc.params != NULL) {
param_tuple = &proc_type->Proc.params->Tuple;
if (pt->params != NULL) {
param_tuple = &pt->params->Tuple;
param_count = param_tuple->variable_count;
if (variadic) {
@@ -4945,120 +4982,126 @@ CALL_ARGUMENT_CHECKER(check_call_arguments_internal) {
}
}
CallArgumentError err = CallArgumentError_None;
Type *final_proc_type = proc_type;
if (vari_expand && !variadic) {
if (show_error) {
error(ce->ellipsis,
"Cannot use `..` in call to a non-variadic procedure: `%.*s`",
LIT(ce->proc->Ident.string));
}
if (score_) *score_ = score;
return CallArgumentError_NonVariadicExpand;
}
if (vari_expand && proc_type->Proc.c_vararg) {
err = CallArgumentError_NonVariadicExpand;
} else if (vari_expand && pt->c_vararg) {
if (show_error) {
error(ce->ellipsis,
"Cannot use `..` in call to a `#c_vararg` variadic procedure: `%.*s`",
LIT(ce->proc->Ident.string));
}
if (score_) *score_ = score;
return CallArgumentError_NonVariadicExpand;
}
if (operands.count == 0 && param_count_excluding_defaults == 0) {
if (score_) *score_ = score;
return CallArgumentError_None;
}
i32 error_code = 0;
if (operands.count < param_count_excluding_defaults) {
error_code = -1;
} else if (!variadic && operands.count > param_count) {
error_code = +1;
}
if (error_code != 0) {
CallArgumentError err = CallArgumentError_TooManyArguments;
char *err_fmt = "Too many arguments for `%s`, expected %td arguments";
if (error_code < 0) {
err = CallArgumentError_TooFewArguments;
err_fmt = "Too few arguments for `%s`, expected %td arguments";
err = CallArgumentError_NonVariadicExpand;
} else if (operands.count == 0 && param_count_excluding_defaults == 0) {
err = CallArgumentError_None;
} else {
i32 error_code = 0;
if (operands.count < param_count_excluding_defaults) {
error_code = -1;
} else if (!variadic && operands.count > param_count) {
error_code = +1;
}
if (show_error) {
gbString proc_str = expr_to_string(ce->proc);
error(call, err_fmt, proc_str, param_count_excluding_defaults);
gb_string_free(proc_str);
}
if (score_) *score_ = score;
return err;
}
CallArgumentError err = CallArgumentError_None;
GB_ASSERT(proc_type->Proc.params != NULL);
Entity **sig_params = param_tuple->variables;
isize operand_index = 0;
isize max_operand_count = gb_min(param_count, operands.count);
for (; operand_index < max_operand_count; operand_index++) {
Entity *e = sig_params[operand_index];
Type *t = e->type;
Operand o = operands[operand_index];
if (e->kind == Entity_TypeName) {
GB_ASSERT(proc_type->Proc.is_generic);
GB_ASSERT(!variadic);
if (o.mode == Addressing_Invalid) {
continue;
} else if (o.mode != Addressing_Type) {
error(o.expr, "Expected a type for the argument");
if (error_code != 0) {
err = CallArgumentError_TooManyArguments;
char *err_fmt = "Too many arguments for `%s`, expected %td arguments";
if (error_code < 0) {
err = CallArgumentError_TooFewArguments;
err_fmt = "Too few arguments for `%s`, expected %td arguments";
}
score += assign_score_function(1);
continue;
}
if (variadic) {
o = operands[operand_index];
}
i64 s = 0;
if (!check_is_assignable_to_with_score(c, &o, t, &s)) {
if (show_error) {
check_assignment(c, &o, t, str_lit("argument"));
gbString proc_str = expr_to_string(ce->proc);
error(call, err_fmt, proc_str, param_count_excluding_defaults);
gb_string_free(proc_str);
}
err = CallArgumentError_WrongTypes;
}
score += s;
}
} else {
if (pt->is_generic) {
Scope *scope = make_scope(pt->scope->parent, c->allocator);
CheckerContext prev = c->context;
defer (c->context = prev);
c->context.scope = scope;
if (variadic) {
bool variadic_expand = false;
Type *slice = sig_params[param_count]->type;
GB_ASSERT(is_type_slice(slice));
Type *elem = base_type(slice)->Slice.elem;
Type *t = elem;
for (; operand_index < operands.count; operand_index++) {
Operand o = operands[operand_index];
if (vari_expand) {
variadic_expand = true;
t = slice;
if (operand_index != param_count) {
if (show_error) {
error(o.expr, "`..` in a variadic procedure can only have one variadic argument at the end");
final_proc_type = alloc_type(c->allocator, Type_Proc);
check_procedure_type(c, final_proc_type, pt->node, &operands);
}
TypeProc *pt = &final_proc_type->Proc;
GB_ASSERT(pt->params != NULL);
Entity **sig_params = pt->params->Tuple.variables;
isize operand_index = 0;
isize max_operand_count = gb_min(param_count, operands.count);
for (; operand_index < max_operand_count; operand_index++) {
Entity *e = sig_params[operand_index];
Type *t = e->type;
Operand o = operands[operand_index];
if (e->kind == Entity_TypeName) {
// GB_ASSERT(!variadic);
if (o.mode == Addressing_Invalid) {
continue;
} else if (o.mode != Addressing_Type) {
error(o.expr, "Expected a type for the argument");
}
if (score_) *score_ = score;
return CallArgumentError_MultipleVariadicExpand;
score += assign_score_function(1);
continue;
}
if (variadic) {
o = operands[operand_index];
}
i64 s = 0;
if (!check_is_assignable_to_with_score(c, &o, t, &s)) {
if (show_error) {
check_assignment(c, &o, t, str_lit("argument"));
}
err = CallArgumentError_WrongTypes;
}
score += s;
}
if (variadic) {
bool variadic_expand = false;
Type *slice = sig_params[param_count]->type;
GB_ASSERT(is_type_slice(slice));
Type *elem = base_type(slice)->Slice.elem;
Type *t = elem;
for (; operand_index < operands.count; operand_index++) {
Operand o = operands[operand_index];
if (vari_expand) {
variadic_expand = true;
t = slice;
if (operand_index != param_count) {
if (show_error) {
error(o.expr, "`..` in a variadic procedure can only have one variadic argument at the end");
}
if (score_) *score_ = score;
return CallArgumentError_MultipleVariadicExpand;
}
}
i64 s = 0;
if (!check_is_assignable_to_with_score(c, &o, t, &s)) {
if (show_error) {
check_assignment(c, &o, t, str_lit("argument"));
}
err = CallArgumentError_WrongTypes;
}
score += s;
}
}
i64 s = 0;
if (!check_is_assignable_to_with_score(c, &o, t, &s)) {
if (show_error) {
check_assignment(c, &o, t, str_lit("argument"));
}
err = CallArgumentError_WrongTypes;
}
score += s;
}
}
if (score_) *score_ = score;
if (result_type_) *result_type_ = final_proc_type->Proc.results;
return err;
}
@@ -5208,6 +5251,7 @@ CALL_ARGUMENT_CHECKER(check_named_call_arguments) {
}
if (score_) *score_ = score;
if (result_type_) *result_type_ = pt->results;
return err;
}
@@ -5267,7 +5311,7 @@ Type *check_call_arguments(Checker *c, Operand *operand, Type *proc_type, AstNod
Type *pt = base_type(p->type);
if (pt != NULL && is_type_proc(pt)) {
i64 score = 0;
CallArgumentError err = call_checker(c, call, pt, operands, CallArgumentMode_NoErrors, &score);
CallArgumentError err = call_checker(c, call, pt, operands, CallArgumentMode_NoErrors, &score, &result_type);
if (err == CallArgumentError_None) {
valids[valid_count].index = i;
valids[valid_count].score = score;
@@ -5312,18 +5356,11 @@ Type *check_call_arguments(Checker *c, Operand *operand, Type *proc_type, AstNod
add_entity_use(c, expr, e);
proc_type = e->type;
i64 score = 0;
CallArgumentError err = call_checker(c, call, proc_type, operands, CallArgumentMode_ShowErrors, &score);
if (proc_type != NULL && is_type_proc(proc_type)) {
result_type = base_type(proc_type)->Proc.results;
}
CallArgumentError err = call_checker(c, call, proc_type, operands, CallArgumentMode_ShowErrors, &score, &result_type);
}
} else {
i64 score = 0;
CallArgumentError err = call_checker(c, call, proc_type, operands, CallArgumentMode_ShowErrors, &score);
if (proc_type != NULL && is_type_proc(proc_type)) {
result_type = base_type(proc_type)->Proc.results;
}
CallArgumentError err = call_checker(c, call, proc_type, operands, CallArgumentMode_ShowErrors, &score, &result_type);
}
return result_type;
@@ -5473,13 +5510,7 @@ ExprKind check_call_expr(Checker *c, Operand *operand, AstNode *call) {
}
Type *pt = base_type(proc_type);
bool results_are_generic = false;
if (is_type_proc(pt) && pt->Proc.results != NULL) {
results_are_generic = is_type_generic(pt->Proc.results);
}
if (results_are_generic) {
operand->mode = Addressing_NoValue;
} else if (result_type == NULL) {
if (result_type == NULL) {
operand->mode = Addressing_NoValue;
} else {
GB_ASSERT(is_type_tuple(result_type));