X-Git-Url: https://git.draconx.ca/gitweb/cdecl99.git/blobdiff_plain/b3c6b8ad6aef24301d8ec511966140757e49f815..da87235fd91665373a44dbc75b1750deaaf81abe:/src/parse.y
diff --git a/src/parse.y b/src/parse.y
index 8840279..6f3b304 100644
--- a/src/parse.y
+++ b/src/parse.y
@@ -1,6 +1,7 @@
+%code top {
/*
* Parser for C declarations.
- * Copyright © 2011 Nick Bowler
+ * Copyright © 2011-2012, 2021, 2023-2024 Nick Bowler
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
@@ -15,57 +16,131 @@
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
+}
+%name-prefix "cdecl__yy"
+%parse-param {void *scanner}
%parse-param {struct cdecl **out}
+%lex-param {yyscan_t scanner}
%define api.pure
%error-verbose
%locations
%{
+#include
+#include
+#include
+
#include "scan.h"
-#include "cdecl.h"
+#include "cdecl-internal.h"
+#include "errmsg.h"
+
+/*
+ * Allocate a parse tree node via cdecl__alloc_item.
+ *
+ * - m1 specifies the item's union member to assign to ptr, which selects the
+ * type of node to allocate.
+ *
+ * - m2 specifies the "next" or "child" member, which is initialized to a null
+ * pointer. The cdecl__alloc_item function sets the declarator.child member
+ * to null; we explicitly copy this null pointer to the returned union member
+ * to avoid type punning. It is hoped that compilers will notice that these
+ * pointers are at the same offset therefore the assignment can be elided.
+ *
+ * The resulting pointer can be passed directly to free, as the union is the
+ * first member of the parse_item structure.
+ *
+ * Use the wrapper macros below instead of this one.
+ */
+#define ALLOC_ITEM(ptr, m1, m2) do { \
+ struct parse_item *item; \
+ if (!(item = cdecl__alloc_item(0))) \
+ YYERROR; \
+ item->u.m1.m2 = (void *)item->u.declarator.child; \
+ (ptr) = &item->u.m1; \
+} while (0)
-#define FAIL(msg) do { \
- yyerror(&yylloc, NULL, msg); \
- YYERROR; \
+/* Wrappers for ALLOC_ITEM to allocate various kinds of parser structures. */
+#define ALLOC_ITEM_DECLARATOR(ptr) ALLOC_ITEM(ptr, declarator, child)
+#define ALLOC_ITEM_DECLSPEC(ptr) ALLOC_ITEM(ptr, declspec, next)
+#define ALLOC_ITEM_DECL(ptr) ALLOC_ITEM(ptr, decl, next)
+
+#define ALLOC_FUNCTION_(ptr, parameters_) do { \
+ ALLOC_ITEM_DECLARATOR(ptr); \
+ (ptr)->type = CDECL_DECL_FUNCTION; \
+ (ptr)->u.function.parameters = parameters_; \
+} while (0)
+
+#define ALLOC_FUNCTION(ptr, parameters_, variadic_) do { \
+ ALLOC_FUNCTION_(ptr, parameters_); \
+ (ptr)->u.function.variadic = variadic_; \
} while (0)
-#define ALLOC(ptr, size) do { \
- (ptr) = malloc(size); \
- if (!(ptr)) \
- FAIL("failed to allocate memory"); \
+#define ALLOC_ARRAY(ptr, length_) do { \
+ ALLOC_ITEM_DECLARATOR(ptr); \
+ (ptr)->type = CDECL_DECL_ARRAY; \
+ (ptr)->u.array.vla = NULL; \
+ (ptr)->u.array.length = length_; \
} while (0)
-#define ALLOC_STRUCT(ptr, type, ...) do { \
- ALLOC(ptr, sizeof (type)); \
- *(ptr) = (type) { __VA_ARGS__ }; \
+#define ALLOC_POINTER(ptr, qualifiers_, child_) do { \
+ ALLOC_ITEM_DECLARATOR(ptr); \
+ (ptr)->child = child_; \
+ (ptr)->type = CDECL_DECL_POINTER; \
+ (ptr)->u.pointer.qualifiers = qualifiers_; \
} while (0)
+
+#define ALLOC_DECLSPEC(ptr, type_) do { \
+ ALLOC_ITEM_DECLSPEC(ptr); \
+ (ptr)->type = type_; \
+ (ptr)->ident = NULL; \
+} while (0)
+
+#define ALLOC_DECL(ptr, specifiers_, declarators_) do { \
+ ALLOC_ITEM_DECL(ptr); \
+ (ptr)->specifiers = specifiers_; \
+ (ptr)->declarators = declarators_; \
+} while (0)
+
+/*
+ * With the postprocessing performed by fix-yytname.awk, all the symbol
+ * name strings can be used directly in error messages and there is no
+ * need for any string processing.
+ */
+#define yytnamerr(a, b) ( (a) ? cdecl__strlcpy(a, b, -1) : strlen(b) )
%}
%code requires {
#include
+#include
+#include "cdecl.h"
}
%code provides {
-void yyerror(YYLTYPE *, struct cdecl **, const char *);
-int yyparse(struct cdecl **out);
+void cdecl__free(struct cdecl *);
+int cdecl__yyparse(void *scanner, struct cdecl **out);
+const char *cdecl__token_name(unsigned token);
}
%union {
- uintmax_t uintval;
- char *strval;
+ cdecl_uintmax uintval;
+ unsigned spectype;
+ bool boolval;
struct cdecl_declspec *declspec;
struct cdecl_declarator *declarator;
struct cdecl *decl;
+ struct parse_item *item;
}
%{
+static void yyerror(YYLTYPE *, yyscan_t, struct cdecl **, const char *);
+static void free_decl(struct cdecl *);
+
static void free_declspec(struct cdecl_declspec *x)
{
struct cdecl_declspec *p;
while (x) {
p = x->next;
- free(x->ident);
free(x);
x = p;
}
@@ -74,51 +149,133 @@ static void free_declspec(struct cdecl_declspec *x)
static void free_declarator(struct cdecl_declarator *x)
{
struct cdecl_declarator *p;
+
while (x) {
- p = x->next;
+ p = x->child;
+
switch (x->type) {
+ case CDECL_DECL_NULL:
+ x = NULL;
case CDECL_DECL_IDENT:
- free(x->u.ident);
+ case CDECL_DECL_ARRAY:
break;
case CDECL_DECL_POINTER:
free_declspec(x->u.pointer.qualifiers);
- free_declarator(x->u.pointer.declarator);
break;
- case CDECL_DECL_ARRAY:
- free(x->u.array.vla);
- free_declarator(x->u.array.declarator);
+ case CDECL_DECL_FUNCTION:
+ free_decl(x->u.function.parameters);
break;
default:
- abort();
+ assert(0);
}
+
free(x);
x = p;
}
}
-static void free_decl(struct cdecl *decl)
+static void free_decl(struct cdecl *x)
+{
+ struct cdecl *p;
+
+ while (x) {
+ p = x->next;
+
+ /* The specifiers may be shared by an entire chain. */
+ if (!p || p->specifiers != x->specifiers)
+ free_declspec(x->specifiers);
+
+ free_declarator(x->declarators);
+ free(x);
+ x = p;
+ }
+}
+
+void cdecl__free(struct cdecl *decl)
+{
+ free_decl(decl);
+}
+
+/*
+ * Join two declaration specifier lists into a single list, with "a" being the
+ * head of the new list.
+ *
+ * The list "a" is assumed to be nonempty.
+ */
+static void join_specs(struct cdecl_declspec *a, struct cdecl_declspec *b)
+{
+ while (a->next)
+ a = a->next;
+ a->next = b;
+}
+
+/*
+ * Join three specifier lists into a single list, and returns the head of
+ * the new list.
+ *
+ * The list "b" is assumed to be a singleton list.
+ */
+static struct cdecl_declspec *join_specs3(struct cdecl_declspec *a,
+ struct cdecl_declspec *b,
+ struct cdecl_declspec *c)
+{
+ b->next = c;
+ join_specs(b, a);
+ return b;
+}
+
+/*
+ * Reverse the order of a "struct cdecl" list, and return the new first
+ * element of the list (i.e., the last element of the original list).
+ */
+static struct cdecl *reverse_decls(struct cdecl *decl)
+{
+ struct cdecl *prev, *next;
+
+ for (prev = NULL; decl; decl = next) {
+ next = decl->next;
+ decl->next = prev;
+ prev = decl;
+ }
+
+ return prev;
+}
+
+/*
+ * Alter an abstract declarator (type name) to declare an identifier instead,
+ * used by the English parser rules to reduce "identifier as type" sequences.
+ */
+static struct cdecl *
+insert_identifier(struct cdecl *decl, struct parse_item *ident)
{
- free_declspec(decl->specifiers);
- free_declarator(decl->declarators);
- free(decl);
+ struct cdecl_declarator *d, **p = &decl->declarators;
+
+ while ((d = *p)->child)
+ p = &d->child;
+
+ *p = &ident->u.declarator;
+ return decl;
}
-void cdecl_free(struct cdecl *decl)
+static struct cdecl_declarator *nulldecl(void)
{
- if (decl)
- free_decl(decl);
+ static const struct cdecl_declarator nulldecl = {0};
+ return (void *)&nulldecl;
}
+#define NULLDECL (nulldecl())
+
%}
-%destructor { free($$); }
+%destructor { free($$); } -
%destructor { free_declspec($$); }
%destructor { free_declarator($$); }
%destructor { free_decl($$); }
-%token T_LEX_ERROR
+/* Magic tokens */
+%token T_LEX_ERROR "@@@"
-%token T_IDENT "identifier"
-%token T_UINT "integer constant"
+%token
- T_IDENT "identifier"
+%token T_UINT "integer constant"
%token T_SEMICOLON ";"
%token T_ASTERISK "*"
@@ -127,66 +284,113 @@ void cdecl_free(struct cdecl *decl)
%token T_LBRACKET "["
%token T_RBRACKET "]"
%token T_COMMA ","
+%token T_ELLIPSIS "..."
+
+%token T_TYPEDEF "typedef"
+%token T_EXTERN "extern"
+%token T_STATIC "static"
+%token T_AUTO "auto"
+%token T_REGISTER "register"
+
+%token T_INLINE "inline"
+
+%token T_RESTRICT "restrict"
+%token T_VOLATILE "volatile"
+%token T_CONST "const"
+
+%token T_VOID "void"
+%token T_CHAR "char"
+%token T_SHORT "short"
+%token T_INT "int"
+%token T_LONG "long"
+%token T_FLOAT "float"
+%token T_DOUBLE "double"
+%token T_SIGNED "signed"
+%token T_UNSIGNED "unsigned"
+%token T_BOOL "_Bool"
+%token T_COMPLEX "_Complex"
+%token T_IMAGINARY "_Imaginary"
+
+%token T_STRUCT "struct"
+%token T_UNION "union"
+%token T_ENUM "enum"
-%token T_TYPEDEF "typedef"
-%token T_EXTERN "extern"
-%token T_STATIC "static"
-%token T_AUTO "auto"
-%token T_REGISTER "register"
-
-%token T_INLINE "inline"
-
-%token T_RESTRICT "restrict"
-%token T_VOLATILE "volatile"
-%token T_CONST "const"
-
-%token T_VOID "void"
-%token T_CHAR "char"
-%token T_SHORT "short"
-%token T_INT "int"
-%token T_LONG "long"
-%token T_FLOAT "float"
-%token T_DOUBLE "double"
-%token T_SIGNED "signed"
-%token T_UNSIGNED "unsigned"
-%token T_BOOL "_Bool"
-%token T_COMPLEX "_Complex"
-
-%token T_STRUCT "struct"
-%token T_UNION "union"
-%token T_ENUM "enum"
-
-%type vla_ident
-%type declspec_simple typespec_simple qualifier_simple
+/*
+ * English keywords.
+ */
+%token T_TYPE "type"
+%token T_DECLARE "declare"
+%token T_POINTER "pointer"
+%token T_FUNCTION "function"
+%token T_RETURNING "returning"
+%token T_ARRAY "array"
+%token T_TO "to"
+%token T_OF "of"
+%token T_AS "as"
+%token T_VLA "variable-length"
+
+%type
- vla_ident
+%type array_length
+%type varargs
+%type declspec_simple qualifier_simple
+%type typespec_simple typespec_tagged
%type declspec_notype declspec_noid typespec_noid typespec
-%type qualifier qualifiers pointer
-%type declspecs declspecs_noid
-%type direct_declarator declarator declarators array
-%type declaration
+%type qualifier qualifiers
+%type declspecs declspecs_notype declspecs_noid
+%type direct_declarator declarator pointer array parens postfix
+%type direct_declarator_ish declarator_ish parameter_type_list
+%type cdecl declaration declarators declarator_wrap parameter
+
+%type
- english_vla
+%type storage_func_specs post_specs
+%type type_qual_spec type_qual_specs typedef_name_qual
+%type english_declarator english_array english_function
+%type english_parameter_list null_decl
+%type english english_declaration english_parameter
+
+/* Precedence declaration to avoid conflict in english_parameter; see below. */
+%right T_TYPE
+%right T_IDENT
%%
-input: declaration {
- *out = $1;
-};
+input: cdecl { *out = $1; }
+cdecl: english | declaration
-declaration: declspecs declarators T_SEMICOLON {
- ALLOC_STRUCT($$, struct cdecl,
- .specifiers = $1,
- .declarators = $2);
+semi: | T_SEMICOLON
+declaration: declspecs declarators semi {
+ $$ = reverse_decls($2);
+ $$->specifiers = $1;
};
-declspecs: declspec_notype declspecs {
- $$ = $1;
- $$->next = $2;
-} | typespec declspecs_noid {
- $$ = $1;
- $$->next = $2;
+/*
+ * We support parsing declarations using arbitrary identifiers as type
+ * specifiers (a la C typedef). To avoid confusion with identifiers that
+ * may also be used as declarators, note the following:
+ *
+ * (a) Every valid C declaration must have at least one type specifier, and
+ * (b) Valid declarations with typedef names have exactly one type specifier.
+ *
+ * So the rule applied when parsing specifiers is: an identifier is a type
+ * specifier only if we have not yet seen any type specifiers whatsoever
+ * (within one declaration specifier list).
+ *
+ * Treating identifiers as type specifiers by default can lead to strange and
+ * unexpected parses; libcdecl applies a simplification step to the resulting
+ * parse tree afterwards.
+ */
+declspecs: declspecs_notype typespec declspecs_noid {
+ $$ = join_specs3($1, $2, $3);
}
-declspecs_noid: { $$ = NULL; } | declspec_noid declspecs_noid {
- $$ = $1;
- $$->next = $2;
+declspecs_notype: { $$ = NULL; } | declspecs_notype declspec_notype {
+ $$ = $2;
+ $$->next = $1;
+}
+
+declspecs_noid: { $$ = NULL; } | declspecs_noid declspec_noid {
+ $$ = $2;
+ $$->next = $1;
}
qualifiers: { $$ = NULL; } | qualifiers qualifier {
@@ -194,112 +398,267 @@ qualifiers: { $$ = NULL; } | qualifiers qualifier {
$$->next = $1;
}
-declarators: declarator | declarator T_COMMA declarators {
+declarators: declarator_wrap | declarators T_COMMA declarator_wrap {
+ $$ = $3;
+ $$->next = $1;
+}
+
+declarator_wrap: declarator {
+ ALLOC_DECL($$, NULL, $1);
+}
+
+declspec_simple: T_AUTO
+ | T_TYPEDEF
+ | T_EXTERN
+ | T_STATIC
+ | T_REGISTER
+ | T_INLINE
+
+typespec_simple: T_VOID
+ | T_CHAR
+ | T_SHORT
+ | T_INT
+ | T_LONG
+ | T_FLOAT
+ | T_DOUBLE
+ | T_SIGNED
+ | T_UNSIGNED
+ | T_BOOL
+ | T_COMPLEX
+ | T_IMAGINARY
+
+typespec_tagged: T_STRUCT | T_UNION | T_ENUM | { $$ = CDECL_TYPE_IDENT; }
+
+qualifier_simple: T_CONST
+ | T_RESTRICT
+ | T_VOLATILE
+
+declspec_notype: qualifier | declspec_simple { ALLOC_DECLSPEC($$, $1); }
+typespec_noid: typespec_simple { ALLOC_DECLSPEC($$, $1); }
+qualifier: qualifier_simple { ALLOC_DECLSPEC($$, $1); }
+
+typespec: typespec_noid | typespec_tagged T_IDENT {
+ /* Compiler should be able to elide this assignment. */
+ $2->u.declspec.ident = $2->u.declarator.u.ident;
+
+ $$ = &$2->u.declspec;
+ $$->type = $1;
+}
+
+declspec_noid: declspec_notype | typespec_noid
+
+vla_ident: T_IDENT | T_ASTERISK {
+ if (!($$ = cdecl__alloc_item(1)))
+ YYERROR;
+ *$$->s = 0;
+}
+
+array: T_LBRACKET array_length T_RBRACKET {
+ ALLOC_ARRAY($$, $2);
+} | T_LBRACKET vla_ident T_RBRACKET {
+ $$ = &$2->u.declarator;
+ $$->type = CDECL_DECL_ARRAY;
+ $$->u.array.vla = $$->u.ident;
+ $$->u.array.length = 0;
+}
+
+parameter: declspecs declarator {
+ ALLOC_DECL($$, $1, $2);
+}
+
+varargs: { $$ = false; } | T_COMMA T_ELLIPSIS { $$ = true; }
+
+parameter_type_list: parameter {
+ ALLOC_FUNCTION_($$, $1);
+} | parameter_type_list T_COMMA parameter {
$$ = $1;
- $$->next = $3;
-};
+ $3->next = $$->u.function.parameters;
+ $$->u.function.parameters = $3;
+}
-declspec_simple: T_AUTO { $$ = CDECL_STOR_AUTO; }
- | T_TYPEDEF { $$ = CDECL_STOR_TYPEDEF; }
- | T_EXTERN { $$ = CDECL_STOR_EXTERN; }
- | T_STATIC { $$ = CDECL_STOR_STATIC; }
- | T_REGISTER { $$ = CDECL_STOR_REGISTER; }
- | T_INLINE { $$ = CDECL_FUNC_INLINE; }
-
-typespec_simple: T_VOID { $$ = CDECL_TYPE_VOID; }
- | T_CHAR { $$ = CDECL_TYPE_CHAR; }
- | T_SHORT { $$ = CDECL_TYPE_SHORT; }
- | T_INT { $$ = CDECL_TYPE_INT; }
- | T_LONG { $$ = CDECL_TYPE_LONG; }
- | T_FLOAT { $$ = CDECL_TYPE_FLOAT; }
- | T_DOUBLE { $$ = CDECL_TYPE_DOUBLE; }
- | T_SIGNED { $$ = CDECL_TYPE_SIGNED; }
- | T_UNSIGNED { $$ = CDECL_TYPE_UNSIGNED; }
- | T_BOOL { $$ = CDECL_TYPE_BOOL; }
- | T_COMPLEX { $$ = CDECL_TYPE_COMPLEX; }
-
-qualifier_simple: T_CONST { $$ = CDECL_QUAL_CONST; }
- | T_RESTRICT { $$ = CDECL_QUAL_RESTRICT; }
- | T_VOLATILE { $$ = CDECL_QUAL_VOLATILE; }
-
-declspec_notype: qualifier | declspec_simple {
- ALLOC_STRUCT($$, struct cdecl_declspec, .type = $1);
-}
-
-typespec_noid: typespec_simple {
- ALLOC_STRUCT($$, struct cdecl_declspec, .type = $1);
-}
-
-qualifier: qualifier_simple {
- ALLOC_STRUCT($$, struct cdecl_declspec, .type = $1);
-}
-
-typespec: typespec_noid | T_STRUCT T_IDENT {
- ALLOC_STRUCT($$, struct cdecl_declspec,
- .type = CDECL_TYPE_STRUCT,
- .ident = $2);
-} | T_UNION T_IDENT {
- ALLOC_STRUCT($$, struct cdecl_declspec,
- .type = CDECL_TYPE_UNION,
- .ident = $2);
-} | T_ENUM T_IDENT {
- ALLOC_STRUCT($$, struct cdecl_declspec,
- .type = CDECL_TYPE_ENUM,
- .ident = $2);
+parens: T_LPAREN parameter_type_list varargs T_RPAREN {
+ $2->u.function.parameters = reverse_decls($2->u.function.parameters);
+ $2->u.function.variadic = $3;
+ $$ = $2;
+} | T_LPAREN declarator_ish T_RPAREN {
+ struct cdecl *fake_params;
+
+ ALLOC_DECL(fake_params, NULL, $2);
+ ALLOC_FUNCTION_($$, fake_params);
+}
+
+pointer: T_ASTERISK qualifiers direct_declarator {
+ ALLOC_POINTER($$, $2, $3);
+} | T_ASTERISK qualifiers pointer {
+ ALLOC_POINTER($$, $2, $3);
+}
+
+declarator: direct_declarator | pointer
+declarator_ish: direct_declarator_ish | pointer
+postfix: array | parens
+
+direct_declarator_ish: {
+ $$ = NULLDECL;
+} | direct_declarator_ish postfix {
+ $$ = $2;
+ $$->child = $1;
+}
+
+direct_declarator: {
+ $$ = NULLDECL;
} | T_IDENT {
- ALLOC_STRUCT($$, struct cdecl_declspec,
- .type = CDECL_TYPE_IDENT,
- .ident = $1);
+ $$ = &$1->u.declarator;
+} | direct_declarator postfix {
+ $$ = $2;
+ $$->child = $1;
}
-declspec_noid: declspec_notype | typespec_noid
+english: T_DECLARE T_IDENT T_AS english_declaration {
+ $$ = insert_identifier($4, $2);
+} | T_TYPE english_declaration {
+ $$ = $2;
+}
+
+/*
+ * We use a precedence declaration to prefer shifting an identifier
+ * over reducing this empty rule; see below.
+ */
+storage_func_specs: %prec T_TYPE { $$ = NULL; }
+storage_func_specs: storage_func_specs declspec_simple {
+ ALLOC_DECLSPEC($$, $2);
+ $$->next = $1;
+}
-pointer: T_ASTERISK qualifiers { $$ = $2; }
+type_qual_spec: typespec_noid | qualifier
-vla_ident: T_IDENT | T_ASTERISK {
- ALLOC($$, sizeof "");
- strcpy($$, "");
+type_qual_specs: { $$ = NULL; } | type_qual_specs type_qual_spec {
+ $$ = $2;
+ $$->next = $1;
}
-array: T_LBRACKET T_UINT T_RBRACKET {
- if ($2 == 0)
- FAIL("array length must be positive");
+/*
+ * The "qualifiers" nonterminal needs to be used here to avoid shift/reduce
+ * conflicts with pointer declarators. So we end up needing to stitch
+ * together three different specifiers lists.
+ */
+post_specs: qualifiers typespec type_qual_specs {
+ $$ = join_specs3($1, $2, $3);
+}
- ALLOC_STRUCT($$, struct cdecl_declarator,
- .type = CDECL_DECL_ARRAY,
- .u.array.length = $2);
-} | T_LBRACKET vla_ident T_RBRACKET {
- ALLOC_STRUCT($$, struct cdecl_declarator,
- .type = CDECL_DECL_ARRAY,
- .u.array.vla = $2);
-} | T_LBRACKET T_RBRACKET {
- ALLOC_STRUCT($$, struct cdecl_declarator,
- .type = CDECL_DECL_ARRAY);
-}
-
-declarator: direct_declarator | pointer direct_declarator {
- ALLOC_STRUCT($$, struct cdecl_declarator,
- .type = CDECL_DECL_POINTER,
- .u.pointer.qualifiers = $1,
- .u.pointer.declarator = $2);
-}
-
-direct_declarator: T_IDENT {
- ALLOC_STRUCT($$, struct cdecl_declarator,
- .type = CDECL_DECL_IDENT,
- .u.ident = $1);
-} | direct_declarator array {
+english_declaration: storage_func_specs english_declarator post_specs {
+ join_specs($3, $1);
+ ALLOC_DECL($$, $3, $2);
+}
+
+english_declarator: {
+ $$ = NULLDECL;
+} | english_declarator qualifiers T_POINTER T_TO {
+ ALLOC_POINTER($$, $2, $1);
+} | english_declarator english_array {
$$ = $2;
- $$->u.array.declarator = $1;
-} | T_LPAREN declarator T_RPAREN {
+ $$->child = $1;
+} | english_declarator english_function {
$$ = $2;
-};
+ $$->child = $1;
+}
+
+english_function: T_FUNCTION T_RETURNING {
+ ALLOC_FUNCTION($$, NULL, false);
+} | T_FUNCTION T_LPAREN english_parameter_list varargs T_RPAREN T_RETURNING {
+ $3->u.function.parameters = reverse_decls($3->u.function.parameters);
+ $3->u.function.variadic = $4;
+ $$ = $3;
+}
+
+english_parameter_list: english_parameter {
+ ALLOC_FUNCTION_($$, $1);
+} | english_parameter_list T_COMMA english_parameter {
+ $$ = $1;
+ $3->next = $$->u.function.parameters;
+ $$->u.function.parameters = $3;
+}
+
+typedef_name_qual: T_IDENT qualifiers {
+ /* Compiler should be able to elide this assignment. */
+ $1->u.declspec.ident = $1->u.declarator.u.ident;
+
+ $$ = &$1->u.declspec;
+ $$->type = CDECL_TYPE_IDENT;
+ $$->next = $2;
+}
+
+null_decl: {
+ $$ = NULLDECL;
+}
+
+/*
+ * There is a shift/reduce conflict here when an identifier appears as the
+ * first token. The conflict is between shifting T_IDENT, or reducing the
+ * empty production for storage_func_specs (cf. english_declaration).
+ *
+ * - In either case, if we reduce, we won't match T_IDENT T_AS since the
+ * stack now has the extra storage_func_specs nonterminal symbol.
+ * - And if we shift, we won't match english_declaration since it is
+ * too late to add storage_func_specs to the stack.
+ *
+ * The only valid input affected by the conflict is a simple type names,
+ * possibly followed by qualifiers. So the conflict is adequately resolved
+ * by shifting, so long as we have a special-case reduction to handle this.
+ */
+english_parameter: english_declaration | typedef_name_qual null_decl {
+ ALLOC_DECL($$, $1, $2);
+} | T_IDENT T_AS english_declaration {
+ $$ = insert_identifier($3, $1);
+}
+
+english_array: T_VLA T_ARRAY english_vla T_OF {
+ $$ = &$3->u.declarator;
+ $$->type = CDECL_DECL_ARRAY;
+ $$->u.array.vla = $$->u.ident;
+ $$->u.array.length = 0;
+} | T_ARRAY array_length T_OF {
+ ALLOC_ARRAY($$, $2);
+}
+
+array_length: { $$ = 0; }
+array_length: T_UINT {
+ if (!($$ = $1)) {
+ cdecl__errmsg(CDECL__EZEROARRAY);
+ YYERROR;
+ }
+}
+
+english_vla: T_IDENT | {
+ if (!($$ = cdecl__alloc_item(1)))
+ YYERROR;
+ *$$->s = 0;
+}
%%
-void yyerror(YYLTYPE *loc, struct cdecl **out, const char *err)
+
+/*
+ * Expose the token string table to the rest of the library, in order to
+ * produce strings that match parser keywords.
+ *
+ * In order for this to work properly, the Bison output must be postprocessed
+ * by fix-yytname.awk to remove pointless quotation marks from the keyword
+ * strings.
+ */
+const char *cdecl__token_name(unsigned token)
+{
+ return yytname[YYTRANSLATE(token)];
+}
+
+/*
+ * Current versions of GCC (up to 13) want to inline this function into the
+ * parser even when optimizing for size and the results are not great, so
+ * try to prevent such inlining.
+ */
+CDECL__NOINLINE static void
+yyerror(YYLTYPE *loc, yyscan_t scanner, struct cdecl **out, const char *err)
{
- if (strstr(err, "T_LEX_ERROR"))
+ if (strstr(err, yytname[YYTRANSLATE(T_LEX_ERROR)]))
return;
- fprintf(stderr, "%s\n", err);
+ cdecl__err("%s", err);
}