Let the callers of print_statement() handle printing a newline at the end.

[cparser] / type.c

diff --git a/type.c b/type.c
index 46cb071..8ba008d 100644 (file)
--- a/type.c
+++ b/type.c
@@ -83,8 +83,8 @@ type_t *allocate_type_zero(type_kind_t kind)
  */
 atomic_type_properties_t atomic_type_properties[ATOMIC_TYPE_LAST+1] = {
        [ATOMIC_TYPE_VOID] = {
-               .size      = 0,
-               .alignment = 0,
+               .size      = 1,
+               .alignment = 1,
                .flags     = ATOMIC_TYPE_FLAG_NONE,
                .rank      = 0,
        },
@@ -511,11 +511,6 @@ static void print_array_type_post(const array_type_t *type)
        intern_print_type_post(type->element_type);
 }
 
-/**
- * Prints an enum definition.
- *
- * @param declaration  The enum's type declaration.
- */
 void print_enum_definition(const enum_t *enume)
 {
        print_string("{\n");
@@ -530,10 +525,7 @@ void print_enum_definition(const enum_t *enume)
                print_string(entry->base.symbol->string);
                if (entry->enum_value.value != NULL) {
                        print_string(" = ");
-
-                       /* skip the implicit cast */
-                       expression_t *expression = entry->enum_value.value;
-                       print_expression(expression);
+                       print_expression(entry->enum_value.value);
                }
                print_string(",\n");
        }
@@ -562,9 +554,6 @@ static void print_type_enum(const enum_type_t *type)
        }
 }
 
-/**
- * Print the compound part of a compound type.
- */
 void print_compound_definition(const compound_t *compound)
 {
        print_string("{\n");
@@ -722,11 +711,6 @@ static void intern_print_type_post(const type_t *const type)
        }
 }
 
-/**
- * Prints a type.
- *
- * @param type   The type.
- */
 void print_type(const type_t *const type)
 {
        print_type_ext(type, NULL, NULL);
@@ -747,14 +731,6 @@ void print_type_ext(const type_t *const type, const symbol_t *symbol,
        }
 }
 
-/**
- * Duplicates a type.
- *
- * @param type  The type to copy.
- * @return A copy of the type.
- *
- * @note This does not produce a deep copy!
- */
 type_t *duplicate_type(const type_t *type)
 {
        size_t size = get_type_struct_size(type->kind);
@@ -766,12 +742,6 @@ type_t *duplicate_type(const type_t *type)
        return copy;
 }
 
-/**
- * Returns the unqualified type of a given type.
- *
- * @param type  The type.
- * @returns The unqualified type.
- */
 type_t *get_unqualified_type(type_t *type)
 {
        assert(!is_typeref(type));
@@ -820,12 +790,6 @@ static bool test_atomic_type_flag(atomic_type_kind_t kind,
        return (atomic_type_properties[kind].flags & flag) != 0;
 }
 
-/**
- * Returns true if the given type is an integer type.
- *
- * @param type  The type to check.
- * @return True if type is an integer type.
- */
 bool is_type_integer(const type_t *type)
 {
        assert(!is_typeref(type));
@@ -838,24 +802,12 @@ bool is_type_integer(const type_t *type)
        return test_atomic_type_flag(type->atomic.akind, ATOMIC_TYPE_FLAG_INTEGER);
 }
 
-/**
- * Returns true if the given type is an enum type.
- *
- * @param type  The type to check.
- * @return True if type is an enum type.
- */
 bool is_type_enum(const type_t *type)
 {
        assert(!is_typeref(type));
        return type->kind == TYPE_ENUM;
 }
 
-/**
- * Returns true if the given type is an floating point type.
- *
- * @param type  The type to check.
- * @return True if type is a floating point type.
- */
 bool is_type_float(const type_t *type)
 {
        assert(!is_typeref(type));
@@ -866,12 +818,6 @@ bool is_type_float(const type_t *type)
        return test_atomic_type_flag(type->atomic.akind, ATOMIC_TYPE_FLAG_FLOAT);
 }
 
-/**
- * Returns true if the given type is an complex type.
- *
- * @param type  The type to check.
- * @return True if type is a complex type.
- */
 bool is_type_complex(const type_t *type)
 {
        assert(!is_typeref(type));
@@ -882,12 +828,6 @@ bool is_type_complex(const type_t *type)
        return test_atomic_type_flag(type->atomic.akind, ATOMIC_TYPE_FLAG_COMPLEX);
 }
 
-/**
- * Returns true if the given type is a signed type.
- *
- * @param type  The type to check.
- * @return True if type is a signed type.
- */
 bool is_type_signed(const type_t *type)
 {
        assert(!is_typeref(type));
@@ -901,12 +841,6 @@ bool is_type_signed(const type_t *type)
        return test_atomic_type_flag(type->atomic.akind, ATOMIC_TYPE_FLAG_SIGNED);
 }
 
-/**
- * Returns true if the given type represents an arithmetic type.
- *
- * @param type  The type to check.
- * @return True if type represents an arithmetic type.
- */
 bool is_type_arithmetic(const type_t *type)
 {
        assert(!is_typeref(type));
@@ -923,24 +857,12 @@ bool is_type_arithmetic(const type_t *type)
        }
 }
 
-/**
- * Returns true if the given type is an integer or float type.
- *
- * @param type  The type to check.
- * @return True if type is an integer or float type.
- */
 bool is_type_real(const type_t *type)
 {
        /* 6.2.5 (17) */
        return is_type_integer(type) || is_type_float(type);
 }
 
-/**
- * Returns true if the given type represents a scalar type.
- *
- * @param type  The type to check.
- * @return True if type represents a scalar type.
- */
 bool is_type_scalar(const type_t *type)
 {
        assert(!is_typeref(type));
@@ -951,12 +873,6 @@ bool is_type_scalar(const type_t *type)
        return is_type_arithmetic(type);
 }
 
-/**
- * Check if a given type is incomplete.
- *
- * @param type  The type to check.
- * @return True if the given type is incomplete (ie. just forward).
- */
 bool is_type_incomplete(const type_t *type)
 {
        assert(!is_typeref(type));
@@ -1070,9 +986,6 @@ static bool array_types_compatible(const array_type_t *array1,
        return array1->size == array2->size;
 }
 
-/**
- * Check if two types are compatible.
- */
 bool types_compatible(const type_t *type1, const type_t *type2)
 {
        assert(!is_typeref(type1));