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Support procedures returning values

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This commit is contained in:
Eugen Wissner 2025-01-18 21:30:11 +01:00
parent a79def50e5
commit 7b36a3803f
Signed by: belka
GPG Key ID: A27FDC1E8EE902C0
10 changed files with 217 additions and 73 deletions
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10
gcc/elna-diagnostic.cc
View File

@ -40,10 +40,18 @@ namespace gcc
{ {
return "pointer"; return "pointer";
} }
else if (is_array_type(type)) else if (TREE_CODE(type) == ARRAY_TYPE)
{ {
return "array"; return "array";
} }
else if (TREE_CODE(type) == RECORD_TYPE)
{
return "record";
}
else if (TREE_CODE(type) == UNION_TYPE)
{
return "union";
}
else else
{ {
return "<<unknown-type>>"; return "<<unknown-type>>";

75
gcc/elna-generic.cc
View File

@ -20,7 +20,7 @@ namespace gcc
this->symbol_map = symbol_table; this->symbol_map = symbol_table;
} }
void generic_visitor::visit(source::call_statement *statement) void generic_visitor::visit(source::call_expression *statement)
{ {
auto symbol = this->symbol_map->lookup(statement->name()); auto symbol = this->symbol_map->lookup(statement->name());
@ -87,7 +87,8 @@ namespace gcc
} }
else if (symbol) else if (symbol)
{ {
tree fndecl_type = build_function_type(void_type_node, TYPE_ARG_TYPES(symbol->payload)); tree return_type = TREE_TYPE(TREE_TYPE(symbol->payload));
tree fndecl_type = build_function_type(return_type, TYPE_ARG_TYPES(symbol->payload));
tree printf_fn = build1(ADDR_EXPR, build_pointer_type(fndecl_type), symbol->payload); tree printf_fn = build1(ADDR_EXPR, build_pointer_type(fndecl_type), symbol->payload);
std::vector<tree> arguments(statement->arguments().size()); std::vector<tree> arguments(statement->arguments().size());
@ -97,12 +98,19 @@ namespace gcc
arguments[i] = this->current_expression; arguments[i] = this->current_expression;
} }
tree stmt = build_call_array_loc(get_location(&statement->position()), tree stmt = build_call_array_loc(get_location(&statement->position()),
void_type_node, printf_fn, arguments.size(), arguments.data()); return_type, printf_fn, arguments.size(), arguments.data());
if (return_type == void_type_node)
{
append_to_statement_list(stmt, &this->current_statements); append_to_statement_list(stmt, &this->current_statements);
this->current_expression = NULL_TREE; this->current_expression = NULL_TREE;
} }
else else
{
this->current_expression = stmt;
}
}
else
{ {
error_at(get_location(&statement->position()), error_at(get_location(&statement->position()),
"procedure '%s' not declared", "procedure '%s' not declared",
@ -126,9 +134,6 @@ namespace gcc
tree resdecl = build_decl(UNKNOWN_LOCATION, RESULT_DECL, NULL_TREE, integer_type_node); tree resdecl = build_decl(UNKNOWN_LOCATION, RESULT_DECL, NULL_TREE, integer_type_node);
DECL_CONTEXT(resdecl) = this->main_fndecl; DECL_CONTEXT(resdecl) = this->main_fndecl;
DECL_RESULT(this->main_fndecl) = resdecl; DECL_RESULT(this->main_fndecl) = resdecl;
tree set_result = build2(INIT_EXPR, void_type_node, DECL_RESULT(main_fndecl),
build_int_cst_type(integer_type_node, 0));
tree return_stmt = build1(RETURN_EXPR, void_type_node, set_result);
enter_scope(); enter_scope();
@ -140,6 +145,9 @@ namespace gcc
{ {
body_statement->accept(this); body_statement->accept(this);
} }
tree set_result = build2(INIT_EXPR, void_type_node, DECL_RESULT(main_fndecl),
build_int_cst_type(integer_type_node, 0));
tree return_stmt = build1(RETURN_EXPR, void_type_node, set_result);
append_to_statement_list(return_stmt, &this->current_statements); append_to_statement_list(return_stmt, &this->current_statements);
tree_symbol_mapping mapping = leave_scope(); tree_symbol_mapping mapping = leave_scope();
@ -163,15 +171,17 @@ namespace gcc
{ {
parameter_types[i] = build_type(definition->parameters.at(i)->type()); parameter_types[i] = build_type(definition->parameters.at(i)->type());
} }
tree declaration_type = build_function_type_array(void_type_node, tree return_type = definition->return_type() == nullptr
? void_type_node
: build_type(*definition->return_type());
tree declaration_type = build_function_type_array(return_type,
definition->parameters.size(), parameter_types.data()); definition->parameters.size(), parameter_types.data());
this->main_fndecl = build_fn_decl(definition->identifier().c_str(), declaration_type); this->main_fndecl = build_fn_decl(definition->identifier().c_str(), declaration_type);
this->symbol_map->enter(definition->identifier(), source::make_info(this->main_fndecl)); this->symbol_map->enter(definition->identifier(), source::make_info(this->main_fndecl));
if (definition->body() != nullptr) if (definition->body() != nullptr)
{ {
tree resdecl = build_decl(UNKNOWN_LOCATION, RESULT_DECL, tree resdecl = build_decl(UNKNOWN_LOCATION, RESULT_DECL, NULL_TREE, return_type);
NULL_TREE, TREE_TYPE(TREE_TYPE(this->main_fndecl)));
DECL_CONTEXT(resdecl) = this->main_fndecl; DECL_CONTEXT(resdecl) = this->main_fndecl;
DECL_RESULT(this->main_fndecl) = resdecl; DECL_RESULT(this->main_fndecl) = resdecl;
@ -454,7 +464,7 @@ namespace gcc
location_t definition_location = get_location(&definition->position()); location_t definition_location = get_location(&definition->position());
tree definition_tree = build_decl(definition_location, TYPE_DECL, tree definition_tree = build_decl(definition_location, TYPE_DECL,
get_identifier(definition->identifier().c_str()), tree_type); get_identifier(definition->identifier().c_str()), tree_type);
auto result = this->symbol_map->enter(definition->identifier(), source::make_info(definition_tree)); auto result = this->symbol_map->enter(definition->identifier(), source::make_info(tree_type));
if (result) if (result)
{ {
@ -477,31 +487,11 @@ namespace gcc
{ {
if (source::basic_type_expression *basic_type = type.is_basic()) if (source::basic_type_expression *basic_type = type.is_basic())
{ {
if (basic_type->base_name() == "Int")
{
return integer_type_node;
}
else if (basic_type->base_name() == "Bool")
{
return boolean_type_node;
}
else if (basic_type->base_name() == "Float")
{
return double_type_node;
}
else if (basic_type->base_name() == "Char")
{
return elna_char_type_node;
}
else if (basic_type->base_name() == "String")
{
return elna_string_type_node;
}
auto symbol = this->symbol_map->lookup(basic_type->base_name()); auto symbol = this->symbol_map->lookup(basic_type->base_name());
if (symbol) if (symbol && TYPE_P(symbol->payload))
{ {
return TREE_TYPE(symbol->payload); return symbol->payload;
} }
error_at(get_location(&basic_type->position()), error_at(get_location(&basic_type->position()),
"type '%s' not declared", basic_type->base_name().c_str()); "type '%s' not declared", basic_type->base_name().c_str());
@ -844,5 +834,26 @@ namespace gcc
this->current_expression = NULL_TREE; this->current_expression = NULL_TREE;
} }
void generic_visitor::visit(source::expression_statement *statement)
{
statement->body().accept(this);
}
void generic_visitor::visit(source::return_statement *statement)
{
source::expression *return_expression = statement->return_expression();
if (return_expression == nullptr)
{
return;
}
return_expression->accept(this);
tree set_result = build2(INIT_EXPR, void_type_node, DECL_RESULT(main_fndecl),
this->current_expression);
tree return_stmt = build1(RETURN_EXPR, void_type_node, set_result);
append_to_statement_list(return_stmt, &this->current_statements);
}
} }
} }

17
gcc/elna-tree.cc
View File

@ -28,12 +28,6 @@ namespace gcc
&& TYPE_MAIN_VARIANT(TREE_TYPE(type)) == char_type_node; && TYPE_MAIN_VARIANT(TREE_TYPE(type)) == char_type_node;
} }
bool is_array_type(tree type)
{
gcc_assert(TYPE_P(type));
return TREE_CODE(type) == ARRAY_TYPE;
}
tree tree_chain_base::head() tree tree_chain_base::head()
{ {
return first; return first;
@ -76,7 +70,16 @@ namespace gcc
std::shared_ptr<elna::source::symbol_table<tree>> builtin_symbol_table() std::shared_ptr<elna::source::symbol_table<tree>> builtin_symbol_table()
{ {
return std::make_shared<elna::source::symbol_table<tree>>(); std::shared_ptr<elna::source::symbol_table<tree>> initial_table =
std::make_shared<elna::source::symbol_table<tree>>();
initial_table->enter("Int", source::make_info(integer_type_node));
initial_table->enter("Bool", source::make_info(boolean_type_node));
initial_table->enter("Float", source::make_info(double_type_node));
initial_table->enter("Char", source::make_info(elna_char_type_node));
initial_table->enter("String", source::make_info(elna_string_type_node));
return initial_table;
} }
} }
} }

2
gcc/elna1.cc
View File

@ -100,7 +100,7 @@ static void elna_parse_file(const char *filename)
} }
else else
{ {
elna::gcc::generic_visitor generic_visitor; elna::gcc::generic_visitor generic_visitor{ elna::gcc::builtin_symbol_table() };
generic_visitor.visit(driver.tree.get()); generic_visitor.visit(driver.tree.get());
} }

4
include/elna/gcc/elna-generic.h
View File

@ -39,7 +39,7 @@ namespace gcc
void visit(source::program *program) override; void visit(source::program *program) override;
void visit(source::procedure_definition *definition) override; void visit(source::procedure_definition *definition) override;
void visit(source::call_statement *statement) override; void visit(source::call_expression *statement) override;
void visit(source::number_literal<std::int32_t> *literal) override; void visit(source::number_literal<std::int32_t> *literal) override;
void visit(source::number_literal<double> *literal) override; void visit(source::number_literal<double> *literal) override;
void visit(source::number_literal<bool> *boolean) override; void visit(source::number_literal<bool> *boolean) override;
@ -57,6 +57,8 @@ namespace gcc
void visit(source::assign_statement *statement) override; void visit(source::assign_statement *statement) override;
void visit(source::if_statement *statement) override; void visit(source::if_statement *statement) override;
void visit(source::while_statement *statement) override; void visit(source::while_statement *statement) override;
void visit(source::expression_statement *statement) override;
void visit(source::return_statement *statement) override;
}; };
} }
} }

5
include/elna/gcc/elna-tree.h
View File

@ -6,6 +6,8 @@
#include "tree.h" #include "tree.h"
#include "tree.h" #include "tree.h"
#include "elna/source/symbol.h"
enum elna_tree_index enum elna_tree_index
{ {
ELNA_TI_CHAR_TYPE, ELNA_TI_CHAR_TYPE,
@ -25,7 +27,6 @@ namespace gcc
void init_ttree(); void init_ttree();
bool is_pointer_type(tree type); bool is_pointer_type(tree type);
bool is_string_type(tree type); bool is_string_type(tree type);
bool is_array_type(tree type);
class tree_chain_base class tree_chain_base
{ {
@ -58,6 +59,6 @@ namespace gcc
tree block(); tree block();
}; };
std::shared_ptr<elna::source::symbol_table<tree>> builtin_symbol_table(); std::shared_ptr<source::symbol_table<tree>> builtin_symbol_table();
} }
} }

53
include/elna/source/ast.h
View File

@ -39,11 +39,13 @@ namespace source
class constant_definition; class constant_definition;
class procedure_definition; class procedure_definition;
class type_definition; class type_definition;
class call_statement; class call_expression;
class compound_statement; class compound_statement;
class assign_statement; class assign_statement;
class if_statement; class if_statement;
class while_statement; class while_statement;
class return_statement;
class expression_statement;
class block; class block;
class program; class program;
class binary_expression; class binary_expression;
@ -71,11 +73,13 @@ namespace source
virtual void visit(constant_definition *) = 0; virtual void visit(constant_definition *) = 0;
virtual void visit(procedure_definition *) = 0; virtual void visit(procedure_definition *) = 0;
virtual void visit(type_definition *) = 0; virtual void visit(type_definition *) = 0;
virtual void visit(call_statement *) = 0; virtual void visit(call_expression *) = 0;
virtual void visit(expression_statement *) = 0;
virtual void visit(compound_statement *) = 0; virtual void visit(compound_statement *) = 0;
virtual void visit(assign_statement *) = 0; virtual void visit(assign_statement *) = 0;
virtual void visit(if_statement *) = 0; virtual void visit(if_statement *) = 0;
virtual void visit(while_statement *) = 0; virtual void visit(while_statement *) = 0;
virtual void visit(return_statement *) = 0;
virtual void visit(block *) = 0; virtual void visit(block *) = 0;
virtual void visit(program *) = 0; virtual void visit(program *) = 0;
virtual void visit(binary_expression *) = 0; virtual void visit(binary_expression *) = 0;
@ -105,11 +109,13 @@ namespace source
virtual void visit(constant_definition *definition) override; virtual void visit(constant_definition *definition) override;
virtual void visit(procedure_definition *definition) override; virtual void visit(procedure_definition *definition) override;
virtual void visit(type_definition *definition) override; virtual void visit(type_definition *definition) override;
virtual void visit(call_statement *statement) override; virtual void visit(call_expression *statement) override;
virtual void visit(expression_statement *statement) override;
virtual void visit(compound_statement *statement) override; virtual void visit(compound_statement *statement) override;
virtual void visit(assign_statement *statement) override; virtual void visit(assign_statement *statement) override;
virtual void visit(if_statement *) override; virtual void visit(if_statement *) override;
virtual void visit(while_statement *) override; virtual void visit(while_statement *) override;
virtual void visit(return_statement *) override;
virtual void visit(block *block) override; virtual void visit(block *block) override;
virtual void visit(program *program) override; virtual void visit(program *program) override;
virtual void visit(binary_expression *expression) override; virtual void visit(binary_expression *expression) override;
@ -403,6 +409,7 @@ namespace source
*/ */
class procedure_definition : public definition class procedure_definition : public definition
{ {
type_expression *m_return_type{ nullptr };
block *m_body{ nullptr }; block *m_body{ nullptr };
public: public:
@ -411,12 +418,16 @@ namespace source
/** /**
* \param position Source code position. * \param position Source code position.
* \param identifier Procedure name. * \param identifier Procedure name.
* \param parameters Procedure formal parameters.
* \param return_type Return type if any.
* \param body Procedure body. * \param body Procedure body.
*/ */
procedure_definition(const struct position position, const std::string& identifier, procedure_definition(const struct position position, const std::string& identifier,
block *body = nullptr); std::vector<variable_declaration *>&& parameters,
type_expression *return_type = nullptr, block *body = nullptr);
virtual void accept(parser_visitor *visitor) override; virtual void accept(parser_visitor *visitor) override;
type_expression *return_type();
block *body(); block *body();
virtual ~procedure_definition() override; virtual ~procedure_definition() override;
@ -439,7 +450,7 @@ namespace source
/** /**
* Call statement. * Call statement.
*/ */
class call_statement : public statement class call_expression : public expression
{ {
std::string m_name; std::string m_name;
std::vector<expression *> m_arguments; std::vector<expression *> m_arguments;
@ -449,16 +460,29 @@ namespace source
* \param position Source code position. * \param position Source code position.
* \param name Callable's name. * \param name Callable's name.
*/ */
call_statement(const struct position position, const std::string& name); call_expression(const struct position position, const std::string& name);
virtual void accept(parser_visitor *visitor) override; virtual void accept(parser_visitor *visitor) override;
std::string& name(); std::string& name();
std::vector<expression *>& arguments(); std::vector<expression *>& arguments();
virtual ~call_statement() override; virtual ~call_expression() override;
}; };
class compound_statement : public statement class expression_statement : public statement
{
expression *m_body;
public:
expression_statement(const struct position position, expression *body);
virtual void accept(parser_visitor *visitor) override;
expression& body();
virtual ~expression_statement() override;
};
class compound_statement : public node
{ {
public: public:
std::vector<statement *> statements; std::vector<statement *> statements;
@ -469,6 +493,19 @@ namespace source
virtual ~compound_statement() override; virtual ~compound_statement() override;
}; };
class return_statement : public statement
{
expression *m_return_expression{ nullptr };
public:
return_statement(const struct position position, expression *return_expression);
virtual void accept(parser_visitor *visitor) override;
expression *return_expression();
virtual ~return_statement() override;
};
class designator_expression : public expression class designator_expression : public expression
{ {
public: public:

83
source/ast.cc
View File

@ -33,7 +33,7 @@ namespace source
definition->body().accept(this); definition->body().accept(this);
} }
void empty_visitor::visit(call_statement *statement) void empty_visitor::visit(call_expression *statement)
{ {
for (auto& argument : statement->arguments()) for (auto& argument : statement->arguments())
{ {
@ -41,6 +41,11 @@ namespace source
} }
} }
void empty_visitor::visit(expression_statement *statement)
{
statement->body().accept(this);
}
void empty_visitor::visit(compound_statement *statement) void empty_visitor::visit(compound_statement *statement)
{ {
for (const auto nested_statement : statement->statements) for (const auto nested_statement : statement->statements)
@ -66,6 +71,16 @@ namespace source
statement->body().accept(this); statement->body().accept(this);
} }
void empty_visitor::visit(return_statement *statement)
{
expression *return_expression = statement->return_expression();
if (return_expression != nullptr)
{
return_expression->accept(this);
}
}
void empty_visitor::visit(block *block) void empty_visitor::visit(block *block)
{ {
for (const auto definition : block->value_definitions) for (const auto definition : block->value_definitions)
@ -433,8 +448,8 @@ namespace source
} }
procedure_definition::procedure_definition(const struct position position, const std::string& identifier, procedure_definition::procedure_definition(const struct position position, const std::string& identifier,
block *body) std::vector<variable_declaration *>&& parameters, type_expression *return_type, block *body)
: definition(position, identifier), m_body(body) : definition(position, identifier), m_return_type(return_type), m_body(body), parameters(std::move(parameters))
{ {
} }
@ -448,6 +463,11 @@ namespace source
return m_body; return m_body;
} }
type_expression *procedure_definition::return_type()
{
return m_return_type;
}
procedure_definition::~procedure_definition() procedure_definition::~procedure_definition()
{ {
if (m_body != nullptr) if (m_body != nullptr)
@ -768,27 +788,27 @@ namespace source
delete m_operand; delete m_operand;
} }
call_statement::call_statement(const struct position position, const std::string& name) call_expression::call_expression(const struct position position, const std::string& name)
: statement(position), m_name(name) : expression(position), m_name(name)
{ {
} }
void call_statement::accept(parser_visitor *visitor) void call_expression::accept(parser_visitor *visitor)
{ {
visitor->visit(this); visitor->visit(this);
} }
std::string& call_statement::name() std::string& call_expression::name()
{ {
return m_name; return m_name;
} }
std::vector<expression *>& call_statement::arguments() std::vector<expression *>& call_expression::arguments()
{ {
return m_arguments; return m_arguments;
} }
call_statement::~call_statement() call_expression::~call_expression()
{ {
for (auto argument : m_arguments) for (auto argument : m_arguments)
{ {
@ -796,8 +816,28 @@ namespace source
} }
} }
expression_statement::expression_statement(const struct position position, expression *body)
: statement(position), m_body(body)
{
}
void expression_statement::accept(parser_visitor *visitor)
{
visitor->visit(this);
}
expression& expression_statement::body()
{
return *m_body;
}
expression_statement::~expression_statement()
{
delete m_body;
}
compound_statement::compound_statement(const struct position position, std::vector<statement *>&& statements) compound_statement::compound_statement(const struct position position, std::vector<statement *>&& statements)
: statement(position), statements(std::move(statements)) : node(position), statements(std::move(statements))
{ {
} }
@ -814,6 +854,29 @@ namespace source
} }
} }
return_statement::return_statement(const struct position position, expression *return_expression)
: statement(position), m_return_expression(return_expression)
{
}
void return_statement::accept(parser_visitor *visitor)
{
visitor->visit(this);
}
expression *return_statement::return_expression()
{
return m_return_expression;
}
return_statement::~return_statement()
{
if (m_return_expression != nullptr)
{
delete m_return_expression;
}
}
void assign_statement::accept(parser_visitor *visitor) void assign_statement::accept(parser_visitor *visitor)
{ {
visitor->visit(this); visitor->visit(this);

3
source/lexer.ll
View File

@ -100,6 +100,9 @@ or {
not { not {
return yy::parser::make_NOT(this->location); return yy::parser::make_NOT(this->location);
} }
return {
return yy::parser::make_RETURN(this->location);
}
[A-Za-z_][A-Za-z0-9_]* { [A-Za-z_][A-Za-z0-9_]* {
return yy::parser::make_IDENTIFIER(yytext, this->location); return yy::parser::make_IDENTIFIER(yytext, this->location);
} }

34
source/parser.yy
View File

@ -62,7 +62,7 @@
%token <std::string> CHARACTER "character" %token <std::string> CHARACTER "character"
%token <std::string> STRING "string" %token <std::string> STRING "string"
%token <bool> BOOLEAN %token <bool> BOOLEAN
%token IF WHILE DO THEN ELSE %token IF WHILE DO THEN ELSE RETURN
%token CONST VAR PROCEDURE ARRAY OF TYPE RECORD POINTER TO UNION %token CONST VAR PROCEDURE ARRAY OF TYPE RECORD POINTER TO UNION
%token BEGIN_BLOCK END_BLOCK EXTERN %token BEGIN_BLOCK END_BLOCK EXTERN
%token LEFT_PAREN RIGHT_PAREN LEFT_SQUARE RIGHT_SQUARE SEMICOLON DOT COMMA %token LEFT_PAREN RIGHT_PAREN LEFT_SQUARE RIGHT_SQUARE SEMICOLON DOT COMMA
@ -82,9 +82,10 @@
%type <std::vector<elna::source::expression *>> expressions actual_parameter_list; %type <std::vector<elna::source::expression *>> expressions actual_parameter_list;
%type <elna::source::designator_expression *> designator_expression; %type <elna::source::designator_expression *> designator_expression;
%type <elna::source::assign_statement *> assign_statement; %type <elna::source::assign_statement *> assign_statement;
%type <elna::source::call_statement *> call_statement; %type <elna::source::call_expression *> call_expression;
%type <elna::source::while_statement *> while_statement; %type <elna::source::while_statement *> while_statement;
%type <elna::source::if_statement *> if_statement; %type <elna::source::if_statement *> if_statement;
%type <elna::source::return_statement *> return_statement;
%type <elna::source::statement *> statement; %type <elna::source::statement *> statement;
%type <std::vector<elna::source::statement *>> statements optional_statements; %type <std::vector<elna::source::statement *>> statements optional_statements;
%type <elna::source::procedure_definition *> procedure_definition; %type <elna::source::procedure_definition *> procedure_definition;
@ -144,14 +145,22 @@ procedure_definition:
PROCEDURE IDENTIFIER formal_parameter_list SEMICOLON block SEMICOLON PROCEDURE IDENTIFIER formal_parameter_list SEMICOLON block SEMICOLON
{ {
$$ = new elna::source::procedure_definition(elna::source::position{}, $$ = new elna::source::procedure_definition(elna::source::position{},
std::move($2), $5); $2, std::move($3), nullptr, $5);
std::swap($$->parameters, $3);
} }
| PROCEDURE IDENTIFIER formal_parameter_list SEMICOLON EXTERN SEMICOLON | PROCEDURE IDENTIFIER formal_parameter_list SEMICOLON EXTERN SEMICOLON
{ {
$$ = new elna::source::procedure_definition(elna::source::position{}, $$ = new elna::source::procedure_definition(elna::source::position{},
std::move($2)); $2, std::move($3), nullptr, nullptr);
std::swap($$->parameters, $3); }
| PROCEDURE IDENTIFIER formal_parameter_list COLON type_expression SEMICOLON block SEMICOLON
{
$$ = new elna::source::procedure_definition(elna::source::position{},
$2, std::move($3), $5, $7);
}
| PROCEDURE IDENTIFIER formal_parameter_list COLON type_expression SEMICOLON EXTERN SEMICOLON
{
$$ = new elna::source::procedure_definition(elna::source::position{},
$2, std::move($3), $5, nullptr);
} }
procedure_definitions: procedure_definitions:
procedure_definition procedure_definitions procedure_definition procedure_definitions
@ -167,9 +176,9 @@ assign_statement: designator_expression ASSIGNMENT expression
{ {
$$ = new elna::source::assign_statement(elna::source::make_position(@1), $1, $3); $$ = new elna::source::assign_statement(elna::source::make_position(@1), $1, $3);
} }
call_statement: IDENTIFIER actual_parameter_list call_expression: IDENTIFIER actual_parameter_list
{ {
$$ = new elna::source::call_statement(elna::source::make_position(@1), $1); $$ = new elna::source::call_expression(elna::source::make_position(@1), $1);
std::swap($$->arguments(), $2); std::swap($$->arguments(), $2);
} }
while_statement: WHILE expression DO optional_statements END_BLOCK while_statement: WHILE expression DO optional_statements END_BLOCK
@ -189,6 +198,11 @@ if_statement:
auto _else = new elna::source::compound_statement(elna::source::make_position(@5), std::move($6)); auto _else = new elna::source::compound_statement(elna::source::make_position(@5), std::move($6));
$$ = new elna::source::if_statement(elna::source::make_position(@1), $2, then, _else); $$ = new elna::source::if_statement(elna::source::make_position(@1), $2, then, _else);
} }
return_statement:
RETURN expression
{
$$ = new elna::source::return_statement(elna::source::make_position(@1), $2);
}
literal: literal:
INTEGER INTEGER
{ {
@ -282,6 +296,7 @@ expression:
$$ = new elna::source::binary_expression(elna::source::make_position(@1), $1, $3, 'o'); $$ = new elna::source::binary_expression(elna::source::make_position(@1), $1, $3, 'o');
} }
| logical_operand { $$ = $1; } | logical_operand { $$ = $1; }
| call_expression { $$ = $1; }
expressions: expressions:
expression COMMA expressions expression COMMA expressions
{ {
@ -308,9 +323,10 @@ designator_expression:
} }
statement: statement:
assign_statement { $$ = $1; } assign_statement { $$ = $1; }
| call_statement { $$ = $1; }
| while_statement { $$ = $1; } | while_statement { $$ = $1; }
| if_statement { $$ = $1; } | if_statement { $$ = $1; }
| return_statement { $$ = $1; }
| expression { $$ = new elna::source::expression_statement(elna::source::make_position(@1), $1); }
statements: statements:
statement SEMICOLON statements statement SEMICOLON statements
{ {