ruby/rubyparser.h

1406 строки
34 KiB
C

#ifndef RUBY_RUBYPARSER_H
#define RUBY_RUBYPARSER_H 1
/*
* This is a header file for librubyparser interface
*/
#include <stdarg.h> /* for va_list */
#include <assert.h>
#ifdef UNIVERSAL_PARSER
#define rb_encoding void
#define OnigCodePoint unsigned int
#include "parser_st.h"
#ifndef RUBY_RUBY_H
#include "parser_value.h"
#endif
#else
#include "ruby/encoding.h"
#endif
/*
* AST Node
*/
enum node_type {
NODE_SCOPE,
NODE_BLOCK,
NODE_IF,
NODE_UNLESS,
NODE_CASE,
NODE_CASE2,
NODE_CASE3,
NODE_WHEN,
NODE_IN,
NODE_WHILE,
NODE_UNTIL,
NODE_ITER,
NODE_FOR,
NODE_FOR_MASGN,
NODE_BREAK,
NODE_NEXT,
NODE_REDO,
NODE_RETRY,
NODE_BEGIN,
NODE_RESCUE,
NODE_RESBODY,
NODE_ENSURE,
NODE_AND,
NODE_OR,
NODE_MASGN,
NODE_LASGN,
NODE_DASGN,
NODE_GASGN,
NODE_IASGN,
NODE_CDECL,
NODE_CVASGN,
NODE_OP_ASGN1,
NODE_OP_ASGN2,
NODE_OP_ASGN_AND,
NODE_OP_ASGN_OR,
NODE_OP_CDECL,
NODE_CALL,
NODE_OPCALL,
NODE_FCALL,
NODE_VCALL,
NODE_QCALL,
NODE_SUPER,
NODE_ZSUPER,
NODE_LIST,
NODE_ZLIST,
NODE_HASH,
NODE_RETURN,
NODE_YIELD,
NODE_LVAR,
NODE_DVAR,
NODE_GVAR,
NODE_IVAR,
NODE_CONST,
NODE_CVAR,
NODE_NTH_REF,
NODE_BACK_REF,
NODE_MATCH,
NODE_MATCH2,
NODE_MATCH3,
NODE_LIT,
NODE_STR,
NODE_DSTR,
NODE_XSTR,
NODE_DXSTR,
NODE_EVSTR,
NODE_DREGX,
NODE_ONCE,
NODE_ARGS,
NODE_ARGS_AUX,
NODE_OPT_ARG,
NODE_KW_ARG,
NODE_POSTARG,
NODE_ARGSCAT,
NODE_ARGSPUSH,
NODE_SPLAT,
NODE_BLOCK_PASS,
NODE_DEFN,
NODE_DEFS,
NODE_ALIAS,
NODE_VALIAS,
NODE_UNDEF,
NODE_CLASS,
NODE_MODULE,
NODE_SCLASS,
NODE_COLON2,
NODE_COLON3,
NODE_DOT2,
NODE_DOT3,
NODE_FLIP2,
NODE_FLIP3,
NODE_SELF,
NODE_NIL,
NODE_TRUE,
NODE_FALSE,
NODE_ERRINFO,
NODE_DEFINED,
NODE_POSTEXE,
NODE_DSYM,
NODE_ATTRASGN,
NODE_LAMBDA,
NODE_ARYPTN,
NODE_HSHPTN,
NODE_FNDPTN,
NODE_ERROR,
NODE_RIPPER,
NODE_RIPPER_VALUES,
NODE_LAST
};
#ifndef FLEX_ARY_LEN
/* From internal/compilers.h */
/* A macro for defining a flexible array, like: VALUE ary[FLEX_ARY_LEN]; */
#if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L)
# define FLEX_ARY_LEN /* VALUE ary[]; */
#elif defined(__GNUC__) && !defined(__STRICT_ANSI__)
# define FLEX_ARY_LEN 0 /* VALUE ary[0]; */
#else
# define FLEX_ARY_LEN 1 /* VALUE ary[1]; */
#endif
#endif
typedef struct rb_ast_id_table {
int size;
ID ids[FLEX_ARY_LEN];
} rb_ast_id_table_t;
typedef struct rb_code_position_struct {
int lineno;
int column;
} rb_code_position_t;
typedef struct rb_code_location_struct {
rb_code_position_t beg_pos;
rb_code_position_t end_pos;
} rb_code_location_t;
/* Header part of AST Node */
typedef struct RNode {
VALUE flags;
rb_code_location_t nd_loc;
int node_id;
} NODE;
typedef struct RNode_SCOPE {
NODE node;
rb_ast_id_table_t *nd_tbl;
struct RNode *nd_body;
struct RNode_ARGS *nd_args;
} rb_node_scope_t;
typedef struct RNode_BLOCK {
NODE node;
struct RNode *nd_head;
struct RNode *nd_end;
struct RNode *nd_next;
} rb_node_block_t;
typedef struct RNode_IF {
NODE node;
struct RNode *nd_cond;
struct RNode *nd_body;
struct RNode *nd_else;
} rb_node_if_t;
typedef struct RNode_UNLESS {
NODE node;
struct RNode *nd_cond;
struct RNode *nd_body;
struct RNode *nd_else;
} rb_node_unless_t;
typedef struct RNode_CASE {
NODE node;
struct RNode *nd_head;
struct RNode *nd_body;
} rb_node_case_t;
typedef struct RNode_CASE2 {
NODE node;
struct RNode *nd_head;
struct RNode *nd_body;
} rb_node_case2_t;
typedef struct RNode_CASE3 {
NODE node;
struct RNode *nd_head;
struct RNode *nd_body;
} rb_node_case3_t;
typedef struct RNode_WHEN {
NODE node;
struct RNode *nd_head;
struct RNode *nd_body;
struct RNode *nd_next;
} rb_node_when_t;
typedef struct RNode_IN {
NODE node;
struct RNode *nd_head;
struct RNode *nd_body;
struct RNode *nd_next;
} rb_node_in_t;
/* RNode_WHILE and RNode_UNTIL should be same structure */
typedef struct RNode_WHILE {
NODE node;
struct RNode *nd_cond;
struct RNode *nd_body;
long nd_state;
} rb_node_while_t;
typedef struct RNode_UNTIL {
NODE node;
struct RNode *nd_cond;
struct RNode *nd_body;
long nd_state;
} rb_node_until_t;
/* RNode_ITER and RNode_FOR should be same structure */
typedef struct RNode_ITER {
NODE node;
struct RNode *nd_body;
struct RNode *nd_iter;
} rb_node_iter_t;
typedef struct RNode_FOR {
NODE node;
struct RNode *nd_body;
struct RNode *nd_iter;
} rb_node_for_t;
typedef struct RNode_FOR_MASGN {
NODE node;
struct RNode *nd_var;
} rb_node_for_masgn_t;
/* RNode_BREAK, RNode_NEXT and RNode_REDO should be same structure */
typedef struct RNode_BREAK {
NODE node;
struct RNode *nd_chain;
struct RNode *nd_stts;
} rb_node_break_t;
typedef struct RNode_NEXT {
NODE node;
struct RNode *nd_chain;
struct RNode *nd_stts;
} rb_node_next_t;
typedef struct RNode_REDO {
NODE node;
struct RNode *nd_chain;
} rb_node_redo_t;
typedef struct RNode_RETRY {
NODE node;
} rb_node_retry_t;
typedef struct RNode_BEGIN {
NODE node;
struct RNode *nd_body;
} rb_node_begin_t;
typedef struct RNode_RESCUE {
NODE node;
struct RNode *nd_head;
struct RNode *nd_resq;
struct RNode *nd_else;
} rb_node_rescue_t;
typedef struct RNode_RESBODY {
NODE node;
struct RNode *nd_head;
struct RNode *nd_body;
struct RNode *nd_args;
} rb_node_resbody_t;
typedef struct RNode_ENSURE {
NODE node;
struct RNode *nd_head;
struct RNode *nd_resq; /* Maybe not used other than reduce_nodes */
struct RNode *nd_ensr;
} rb_node_ensure_t;
/* RNode_AND and RNode_OR should be same structure */
typedef struct RNode_AND {
NODE node;
struct RNode *nd_1st;
struct RNode *nd_2nd;
} rb_node_and_t;
typedef struct RNode_OR {
NODE node;
struct RNode *nd_1st;
struct RNode *nd_2nd;
} rb_node_or_t;
typedef struct RNode_MASGN {
NODE node;
struct RNode *nd_head;
struct RNode *nd_value;
struct RNode *nd_args;
} rb_node_masgn_t;
typedef struct RNode_LASGN {
NODE node;
ID nd_vid;
struct RNode *nd_value;
} rb_node_lasgn_t;
typedef struct RNode_DASGN {
NODE node;
ID nd_vid;
struct RNode *nd_value;
} rb_node_dasgn_t;
typedef struct RNode_GASGN {
NODE node;
ID nd_vid;
struct RNode *nd_value;
} rb_node_gasgn_t;
typedef struct RNode_IASGN {
NODE node;
ID nd_vid;
struct RNode *nd_value;
} rb_node_iasgn_t;
typedef struct RNode_CDECL {
NODE node;
ID nd_vid;
struct RNode *nd_value;
struct RNode *nd_else;
} rb_node_cdecl_t;
typedef struct RNode_CVASGN {
NODE node;
ID nd_vid;
struct RNode *nd_value;
} rb_node_cvasgn_t;
typedef struct RNode_OP_ASGN1 {
NODE node;
struct RNode *nd_recv;
ID nd_mid;
struct RNode *nd_index;
struct RNode *nd_rvalue;
} rb_node_op_asgn1_t;
typedef struct RNode_OP_ASGN2 {
NODE node;
struct RNode *nd_recv;
struct RNode *nd_value;
ID nd_vid;
ID nd_mid;
bool nd_aid;
} rb_node_op_asgn2_t;
typedef struct RNode_OP_ASGN_AND {
NODE node;
struct RNode *nd_head;
struct RNode *nd_value;
} rb_node_op_asgn_and_t;
typedef struct RNode_OP_ASGN_OR {
NODE node;
struct RNode *nd_head;
struct RNode *nd_value;
} rb_node_op_asgn_or_t;
typedef struct RNode_OP_CDECL {
NODE node;
struct RNode *nd_head;
struct RNode *nd_value;
ID nd_aid;
} rb_node_op_cdecl_t;
typedef struct RNode_CALL {
NODE node;
struct RNode *nd_recv;
ID nd_mid;
struct RNode *nd_args;
} rb_node_call_t;
typedef struct RNode_OPCALL {
NODE node;
struct RNode *nd_recv;
ID nd_mid;
struct RNode *nd_args;
} rb_node_opcall_t;
typedef struct RNode_FCALL {
NODE node;
ID nd_mid;
struct RNode *nd_args;
} rb_node_fcall_t;
typedef struct RNode_VCALL {
NODE node;
ID nd_mid;
} rb_node_vcall_t;
typedef struct RNode_QCALL {
NODE node;
struct RNode *nd_recv;
ID nd_mid;
struct RNode *nd_args;
} rb_node_qcall_t;
typedef struct RNode_SUPER {
NODE node;
struct RNode *nd_args;
} rb_node_super_t;
typedef struct RNode_ZSUPER {
NODE node;
} rb_node_zsuper_t;
/*
Structure of LIST:
LIST +--> LIST
* head --> element | * head
* alen (length of list) | * nd_end (point to the last LIST)
* next -----------------+ * next
RNode_LIST and RNode_VALUES should be same structure
*/
typedef struct RNode_LIST {
NODE node;
struct RNode *nd_head; /* element */
union {
long nd_alen;
struct RNode *nd_end; /* Second list node has this structure */
} as;
struct RNode *nd_next; /* next list node */
} rb_node_list_t;
typedef struct RNode_ZLIST {
NODE node;
} rb_node_zlist_t;
typedef struct RNode_VALUES {
NODE node;
struct RNode *nd_head;
long nd_alen;
struct RNode *nd_next;
} rb_node_values_t;
typedef struct RNode_HASH {
NODE node;
struct RNode *nd_head;
long nd_brace;
} rb_node_hash_t;
typedef struct RNode_RETURN {
NODE node;
struct RNode *nd_stts;
} rb_node_return_t;
typedef struct RNode_YIELD {
NODE node;
struct RNode *nd_head;
} rb_node_yield_t;
typedef struct RNode_LVAR {
NODE node;
ID nd_vid;
} rb_node_lvar_t;
typedef struct RNode_DVAR {
NODE node;
ID nd_vid;
} rb_node_dvar_t;
typedef struct RNode_GVAR {
NODE node;
ID nd_vid;
} rb_node_gvar_t;
typedef struct RNode_IVAR {
NODE node;
ID nd_vid;
} rb_node_ivar_t;
typedef struct RNode_CONST {
NODE node;
ID nd_vid;
} rb_node_const_t;
typedef struct RNode_CVAR {
NODE node;
ID nd_vid;
} rb_node_cvar_t;
typedef struct RNode_NTH_REF {
NODE node;
long nd_nth;
} rb_node_nth_ref_t;
typedef struct RNode_BACK_REF {
NODE node;
long nd_nth;
} rb_node_back_ref_t;
/* RNode_MATCH, RNode_LIT, RNode_STR and RNode_XSTR should be same structure */
typedef struct RNode_MATCH {
NODE node;
VALUE nd_lit;
} rb_node_match_t;
typedef struct RNode_MATCH2 {
NODE node;
struct RNode *nd_recv;
struct RNode *nd_value;
struct RNode *nd_args;
} rb_node_match2_t;
typedef struct RNode_MATCH3 {
NODE node;
struct RNode *nd_recv;
struct RNode *nd_value;
} rb_node_match3_t;
typedef struct RNode_LIT {
NODE node;
VALUE nd_lit;
} rb_node_lit_t;
typedef struct RNode_STR {
NODE node;
VALUE nd_lit;
} rb_node_str_t;
/* RNode_DSTR, RNode_DXSTR and RNode_DSYM should be same structure */
typedef struct RNode_DSTR {
NODE node;
VALUE nd_lit;
union {
long nd_alen;
struct RNode *nd_end; /* Second dstr node has this structure. See also RNode_LIST */
} as;
struct RNode_LIST *nd_next;
} rb_node_dstr_t;
typedef struct RNode_XSTR {
NODE node;
VALUE nd_lit;
} rb_node_xstr_t;
typedef struct RNode_DXSTR {
NODE node;
VALUE nd_lit;
long nd_alen;
struct RNode_LIST *nd_next;
} rb_node_dxstr_t;
typedef struct RNode_EVSTR {
NODE node;
struct RNode *nd_body;
} rb_node_evstr_t;
typedef struct RNode_DREGX {
NODE node;
VALUE nd_lit;
ID nd_cflag;
struct RNode_LIST *nd_next;
} rb_node_dregx_t;
typedef struct RNode_ONCE {
NODE node;
struct RNode *nd_body;
} rb_node_once_t;
struct rb_args_info {
NODE *pre_init;
NODE *post_init;
int pre_args_num; /* count of mandatory pre-arguments */
int post_args_num; /* count of mandatory post-arguments */
ID first_post_arg;
ID rest_arg;
ID block_arg;
struct RNode_KW_ARG *kw_args;
NODE *kw_rest_arg;
struct RNode_OPT_ARG *opt_args;
unsigned int no_kwarg: 1;
unsigned int ruby2_keywords: 1;
unsigned int forwarding: 1;
};
typedef struct RNode_ARGS {
NODE node;
struct rb_args_info nd_ainfo;
} rb_node_args_t;
typedef struct RNode_ARGS_AUX {
NODE node;
ID nd_pid;
long nd_plen;
struct RNode *nd_next;
} rb_node_args_aux_t;
typedef struct RNode_OPT_ARG {
NODE node;
struct RNode *nd_body;
struct RNode_OPT_ARG *nd_next;
} rb_node_opt_arg_t;
typedef struct RNode_KW_ARG {
NODE node;
struct RNode *nd_body;
struct RNode_KW_ARG *nd_next;
} rb_node_kw_arg_t;
typedef struct RNode_POSTARG {
NODE node;
struct RNode *nd_1st;
struct RNode *nd_2nd;
} rb_node_postarg_t;
typedef struct RNode_ARGSCAT {
NODE node;
struct RNode *nd_head;
struct RNode *nd_body;
} rb_node_argscat_t;
typedef struct RNode_ARGSPUSH {
NODE node;
struct RNode *nd_head;
struct RNode *nd_body;
} rb_node_argspush_t;
typedef struct RNode_SPLAT {
NODE node;
struct RNode *nd_head;
} rb_node_splat_t;
typedef struct RNode_BLOCK_PASS {
NODE node;
struct RNode *nd_head;
struct RNode *nd_body;
} rb_node_block_pass_t;
typedef struct RNode_DEFN {
NODE node;
ID nd_mid;
struct RNode *nd_defn;
} rb_node_defn_t;
typedef struct RNode_DEFS {
NODE node;
struct RNode *nd_recv;
ID nd_mid;
struct RNode *nd_defn;
} rb_node_defs_t;
typedef struct RNode_ALIAS {
NODE node;
struct RNode *nd_1st;
struct RNode *nd_2nd;
} rb_node_alias_t;
typedef struct RNode_VALIAS {
NODE node;
ID nd_alias;
ID nd_orig;
} rb_node_valias_t;
typedef struct RNode_UNDEF {
NODE node;
struct RNode *nd_undef;
} rb_node_undef_t;
typedef struct RNode_CLASS {
NODE node;
struct RNode *nd_cpath;
struct RNode *nd_body;
struct RNode *nd_super;
} rb_node_class_t;
typedef struct RNode_MODULE {
NODE node;
struct RNode *nd_cpath;
struct RNode *nd_body;
} rb_node_module_t;
typedef struct RNode_SCLASS {
NODE node;
struct RNode *nd_recv;
struct RNode *nd_body;
} rb_node_sclass_t;
typedef struct RNode_COLON2 {
NODE node;
struct RNode *nd_head;
ID nd_mid;
} rb_node_colon2_t;
typedef struct RNode_COLON3 {
NODE node;
ID nd_mid;
} rb_node_colon3_t;
/* RNode_DOT2, RNode_DOT3, RNode_FLIP2 and RNode_FLIP3 should be same structure */
typedef struct RNode_DOT2 {
NODE node;
struct RNode *nd_beg;
struct RNode *nd_end;
} rb_node_dot2_t;
typedef struct RNode_DOT3 {
NODE node;
struct RNode *nd_beg;
struct RNode *nd_end;
} rb_node_dot3_t;
typedef struct RNode_FLIP2 {
NODE node;
struct RNode *nd_beg;
struct RNode *nd_end;
} rb_node_flip2_t;
typedef struct RNode_FLIP3 {
NODE node;
struct RNode *nd_beg;
struct RNode *nd_end;
} rb_node_flip3_t;
typedef struct RNode_SELF {
NODE node;
long nd_state; /* Default 1. See NEW_SELF. */
} rb_node_self_t;
typedef struct RNode_NIL {
NODE node;
} rb_node_nil_t;
typedef struct RNode_TRUE {
NODE node;
} rb_node_true_t;
typedef struct RNode_FALSE {
NODE node;
} rb_node_false_t;
typedef struct RNode_ERRINFO {
NODE node;
} rb_node_errinfo_t;
typedef struct RNode_DEFINED {
NODE node;
struct RNode *nd_head;
} rb_node_defined_t;
typedef struct RNode_POSTEXE {
NODE node;
struct RNode *nd_body;
} rb_node_postexe_t;
typedef struct RNode_DSYM {
NODE node;
VALUE nd_lit;
long nd_alen;
struct RNode_LIST *nd_next;
} rb_node_dsym_t;
typedef struct RNode_ATTRASGN {
NODE node;
struct RNode *nd_recv;
ID nd_mid;
struct RNode *nd_args;
} rb_node_attrasgn_t;
typedef struct RNode_LAMBDA {
NODE node;
struct RNode *nd_body;
} rb_node_lambda_t;
typedef struct RNode_ARYPTN {
NODE node;
struct RNode *nd_pconst;
NODE *pre_args;
NODE *rest_arg;
NODE *post_args;
} rb_node_aryptn_t;
typedef struct RNode_HSHPTN {
NODE node;
struct RNode *nd_pconst;
struct RNode *nd_pkwargs;
struct RNode *nd_pkwrestarg;
} rb_node_hshptn_t;
typedef struct RNode_FNDPTN {
NODE node;
struct RNode *nd_pconst;
NODE *pre_rest_arg;
NODE *args;
NODE *post_rest_arg;
} rb_node_fndptn_t;
typedef struct RNode_ERROR {
NODE node;
} rb_node_error_t;
#define RNODE(obj) ((struct RNode *)(obj))
#define RNODE_SCOPE(node) ((struct RNode_SCOPE *)(node))
#define RNODE_BLOCK(node) ((struct RNode_BLOCK *)(node))
#define RNODE_IF(node) ((struct RNode_IF *)(node))
#define RNODE_UNLESS(node) ((struct RNode_UNLESS *)(node))
#define RNODE_CASE(node) ((struct RNode_CASE *)(node))
#define RNODE_CASE2(node) ((struct RNode_CASE2 *)(node))
#define RNODE_CASE3(node) ((struct RNode_CASE3 *)(node))
#define RNODE_WHEN(node) ((struct RNode_WHEN *)(node))
#define RNODE_IN(node) ((struct RNode_IN *)(node))
#define RNODE_WHILE(node) ((struct RNode_WHILE *)(node))
#define RNODE_UNTIL(node) ((struct RNode_UNTIL *)(node))
#define RNODE_ITER(node) ((struct RNode_ITER *)(node))
#define RNODE_FOR(node) ((struct RNode_FOR *)(node))
#define RNODE_FOR_MASGN(node) ((struct RNode_FOR_MASGN *)(node))
#define RNODE_BREAK(node) ((struct RNode_BREAK *)(node))
#define RNODE_NEXT(node) ((struct RNode_NEXT *)(node))
#define RNODE_REDO(node) ((struct RNode_REDO *)(node))
#define RNODE_RETRY(node) ((struct RNode_RETRY *)(node))
#define RNODE_BEGIN(node) ((struct RNode_BEGIN *)(node))
#define RNODE_RESCUE(node) ((struct RNode_RESCUE *)(node))
#define RNODE_RESBODY(node) ((struct RNode_RESBODY *)(node))
#define RNODE_ENSURE(node) ((struct RNode_ENSURE *)(node))
#define RNODE_AND(node) ((struct RNode_AND *)(node))
#define RNODE_OR(node) ((struct RNode_OR *)(node))
#define RNODE_MASGN(node) ((struct RNode_MASGN *)(node))
#define RNODE_LASGN(node) ((struct RNode_LASGN *)(node))
#define RNODE_DASGN(node) ((struct RNode_DASGN *)(node))
#define RNODE_GASGN(node) ((struct RNode_GASGN *)(node))
#define RNODE_IASGN(node) ((struct RNode_IASGN *)(node))
#define RNODE_CDECL(node) ((struct RNode_CDECL *)(node))
#define RNODE_CVASGN(node) ((struct RNode_CVASGN *)(node))
#define RNODE_OP_ASGN1(node) ((struct RNode_OP_ASGN1 *)(node))
#define RNODE_OP_ASGN2(node) ((struct RNode_OP_ASGN2 *)(node))
#define RNODE_OP_ASGN_AND(node) ((struct RNode_OP_ASGN_AND *)(node))
#define RNODE_OP_ASGN_OR(node) ((struct RNode_OP_ASGN_OR *)(node))
#define RNODE_OP_CDECL(node) ((struct RNode_OP_CDECL *)(node))
#define RNODE_CALL(node) ((struct RNode_CALL *)(node))
#define RNODE_OPCALL(node) ((struct RNode_OPCALL *)(node))
#define RNODE_FCALL(node) ((struct RNode_FCALL *)(node))
#define RNODE_VCALL(node) ((struct RNode_VCALL *)(node))
#define RNODE_QCALL(node) ((struct RNode_QCALL *)(node))
#define RNODE_SUPER(node) ((struct RNode_SUPER *)(node))
#define RNODE_ZSUPER(node) ((struct RNode_ZSUPER *)(node))
#define RNODE_LIST(node) ((struct RNode_LIST *)(node))
#define RNODE_ZLIST(node) ((struct RNode_ZLIST *)(node))
#define RNODE_HASH(node) ((struct RNode_HASH *)(node))
#define RNODE_RETURN(node) ((struct RNode_RETURN *)(node))
#define RNODE_YIELD(node) ((struct RNode_YIELD *)(node))
#define RNODE_LVAR(node) ((struct RNode_LVAR *)(node))
#define RNODE_DVAR(node) ((struct RNode_DVAR *)(node))
#define RNODE_GVAR(node) ((struct RNode_GVAR *)(node))
#define RNODE_IVAR(node) ((struct RNode_IVAR *)(node))
#define RNODE_CONST(node) ((struct RNode_CONST *)(node))
#define RNODE_CVAR(node) ((struct RNode_CVAR *)(node))
#define RNODE_NTH_REF(node) ((struct RNode_NTH_REF *)(node))
#define RNODE_BACK_REF(node) ((struct RNode_BACK_REF *)(node))
#define RNODE_MATCH(node) ((struct RNode_MATCH *)(node))
#define RNODE_MATCH2(node) ((struct RNode_MATCH2 *)(node))
#define RNODE_MATCH3(node) ((struct RNode_MATCH3 *)(node))
#define RNODE_LIT(node) ((struct RNode_LIT *)(node))
#define RNODE_STR(node) ((struct RNode_STR *)(node))
#define RNODE_DSTR(node) ((struct RNode_DSTR *)(node))
#define RNODE_XSTR(node) ((struct RNode_XSTR *)(node))
#define RNODE_DXSTR(node) ((struct RNode_DXSTR *)(node))
#define RNODE_EVSTR(node) ((struct RNode_EVSTR *)(node))
#define RNODE_DREGX(node) ((struct RNode_DREGX *)(node))
#define RNODE_ONCE(node) ((struct RNode_ONCE *)(node))
#define RNODE_ARGS(node) ((struct RNode_ARGS *)(node))
#define RNODE_ARGS_AUX(node) ((struct RNode_ARGS_AUX *)(node))
#define RNODE_OPT_ARG(node) ((struct RNode_OPT_ARG *)(node))
#define RNODE_KW_ARG(node) ((struct RNode_KW_ARG *)(node))
#define RNODE_POSTARG(node) ((struct RNode_POSTARG *)(node))
#define RNODE_ARGSCAT(node) ((struct RNode_ARGSCAT *)(node))
#define RNODE_ARGSPUSH(node) ((struct RNode_ARGSPUSH *)(node))
#define RNODE_SPLAT(node) ((struct RNode_SPLAT *)(node))
#define RNODE_BLOCK_PASS(node) ((struct RNode_BLOCK_PASS *)(node))
#define RNODE_DEFN(node) ((struct RNode_DEFN *)(node))
#define RNODE_DEFS(node) ((struct RNode_DEFS *)(node))
#define RNODE_ALIAS(node) ((struct RNode_ALIAS *)(node))
#define RNODE_VALIAS(node) ((struct RNode_VALIAS *)(node))
#define RNODE_UNDEF(node) ((struct RNode_UNDEF *)(node))
#define RNODE_CLASS(node) ((struct RNode_CLASS *)(node))
#define RNODE_MODULE(node) ((struct RNode_MODULE *)(node))
#define RNODE_SCLASS(node) ((struct RNode_SCLASS *)(node))
#define RNODE_COLON2(node) ((struct RNode_COLON2 *)(node))
#define RNODE_COLON3(node) ((struct RNode_COLON3 *)(node))
#define RNODE_DOT2(node) ((struct RNode_DOT2 *)(node))
#define RNODE_DOT3(node) ((struct RNode_DOT3 *)(node))
#define RNODE_FLIP2(node) ((struct RNode_FLIP2 *)(node))
#define RNODE_FLIP3(node) ((struct RNode_FLIP3 *)(node))
#define RNODE_SELF(node) ((struct RNode_SELF *)(node))
#define RNODE_NIL(node) ((struct RNode_NIL *)(node))
#define RNODE_TRUE(node) ((struct RNode_TRUE *)(node))
#define RNODE_FALSE(node) ((struct RNode_FALSE *)(node))
#define RNODE_ERRINFO(node) ((struct RNode_ERRINFO *)(node))
#define RNODE_DEFINED(node) ((struct RNode_DEFINED *)(node))
#define RNODE_POSTEXE(node) ((struct RNode_POSTEXE *)(node))
#define RNODE_DSYM(node) ((struct RNode_DSYM *)(node))
#define RNODE_ATTRASGN(node) ((struct RNode_ATTRASGN *)(node))
#define RNODE_LAMBDA(node) ((struct RNode_LAMBDA *)(node))
#define RNODE_ARYPTN(node) ((struct RNode_ARYPTN *)(node))
#define RNODE_HSHPTN(node) ((struct RNode_HSHPTN *)(node))
#define RNODE_FNDPTN(node) ((struct RNode_FNDPTN *)(node))
#ifdef RIPPER
typedef struct RNode_RIPPER {
NODE node;
ID nd_vid;
VALUE nd_rval;
VALUE nd_cval;
} rb_node_ripper_t;
typedef struct RNode_RIPPER_VALUES {
NODE node;
VALUE nd_val1;
VALUE nd_val2;
VALUE nd_val3;
} rb_node_ripper_values_t;
#define RNODE_RIPPER(node) ((struct RNode_RIPPER *)(node))
#define RNODE_RIPPER_VALUES(node) ((struct RNode_RIPPER_VALUES *)(node))
#endif
/* FL : 0..4: T_TYPES, 5: KEEP_WB, 6: PROMOTED, 7: FINALIZE, 8: UNUSED, 9: UNUSED, 10: EXIVAR, 11: FREEZE */
/* NODE_FL: 0..4: T_TYPES, 5: KEEP_WB, 6: PROMOTED, 7: NODE_FL_NEWLINE,
* 8..14: nd_type,
* 15..: nd_line
*/
#define NODE_FL_NEWLINE (((VALUE)1)<<7)
#define NODE_TYPESHIFT 8
#define NODE_TYPEMASK (((VALUE)0x7f)<<NODE_TYPESHIFT)
#define nd_fl_newline(n) (n)->flags & NODE_FL_NEWLINE
#define nd_set_fl_newline(n) (n)->flags |= NODE_FL_NEWLINE
#define nd_unset_fl_newline(n) (n)->flags &= ~NODE_FL_NEWLINE
#define nd_type(n) ((int) ((RNODE(n)->flags & NODE_TYPEMASK)>>NODE_TYPESHIFT))
#define nd_set_type(n,t) \
rb_node_set_type(n, t)
#define nd_init_type(n,t) \
(n)->flags=(((n)->flags&~NODE_TYPEMASK)|((((unsigned long)(t))<<NODE_TYPESHIFT)&NODE_TYPEMASK))
typedef struct node_buffer_struct node_buffer_t;
/* T_IMEMO/ast */
typedef struct rb_ast_body_struct {
const NODE *root;
VALUE script_lines;
// script_lines is either:
// - a Fixnum that represents the line count of the original source, or
// - an Array that contains the lines of the original source
signed int frozen_string_literal:2; /* -1: not specified, 0: false, 1: true */
signed int coverage_enabled:2; /* -1: not specified, 0: false, 1: true */
} rb_ast_body_t;
typedef struct rb_ast_struct {
VALUE flags;
node_buffer_t *node_buffer;
rb_ast_body_t body;
} rb_ast_t;
/*
* Parser Interface
*/
typedef struct parser_params rb_parser_t;
#ifndef INTERNAL_IMEMO_H
typedef struct rb_imemo_tmpbuf_struct rb_imemo_tmpbuf_t;
#endif
#ifdef UNIVERSAL_PARSER
typedef struct rb_parser_config_struct {
/*
* Reference counter.
* This is needed because both parser and ast refer
* same config pointer.
* We can remove this, once decuple parser and ast from Ruby GC.
*/
int counter;
/* Memory */
void *(*malloc)(size_t size);
void *(*calloc)(size_t number, size_t size);
void *(*realloc)(void *ptr, size_t newsiz);
void (*free)(void *ptr);
void *(*alloc_n)(size_t nelems, size_t elemsiz);
void *(*alloc)(size_t elemsiz);
void *(*realloc_n)(void *ptr, size_t newelems, size_t newsiz);
void *(*zalloc)(size_t elemsiz);
void *(*rb_memmove)(void *dest, const void *src, size_t t, size_t n);
void *(*nonempty_memcpy)(void *dest, const void *src, size_t t, size_t n);
void *(*xmalloc_mul_add)(size_t x, size_t y, size_t z);
/* imemo */
rb_imemo_tmpbuf_t *(*tmpbuf_parser_heap)(void *buf, rb_imemo_tmpbuf_t *old_heap, size_t cnt);
rb_ast_t *(*ast_new)(VALUE nb);
// VALUE rb_suppress_tracing(VALUE (*func)(VALUE), VALUE arg);
VALUE (*compile_callback)(VALUE (*func)(VALUE), VALUE arg);
NODE *(*reg_named_capture_assign)(struct parser_params* p, VALUE regexp, const rb_code_location_t *loc);
/* Object */
VALUE (*obj_freeze)(VALUE obj);
VALUE (*obj_hide)(VALUE obj);
int (*obj_frozen)(VALUE obj);
int (*type_p)(VALUE, int);
void (*obj_freeze_raw)(VALUE obj);
int (*fixnum_p)(VALUE);
int (*symbol_p)(VALUE);
/* Variable */
VALUE (*attr_get)(VALUE obj, ID id);
/* Array */
VALUE (*ary_new)(void);
VALUE (*ary_push)(VALUE ary, VALUE elem);
VALUE (*ary_new_from_args)(long n, ...);
VALUE (*ary_pop)(VALUE ary);
VALUE (*ary_last)(int argc, const VALUE *argv, VALUE ary);
VALUE (*ary_unshift)(VALUE ary, VALUE item);
VALUE (*ary_new2)(long capa); // ary_new_capa
VALUE (*ary_entry)(VALUE ary, long offset);
VALUE (*ary_join)(VALUE ary, VALUE sep);
VALUE (*ary_reverse)(VALUE ary);
VALUE (*ary_clear)(VALUE ary);
long (*array_len)(VALUE a);
VALUE (*array_aref)(VALUE, long);
/* Symbol */
VALUE (*sym_intern_ascii_cstr)(const char *ptr);
ID (*make_temporary_id)(size_t n);
int (*is_local_id)(ID);
int (*is_attrset_id)(ID);
int (*is_global_name_punct)(const int c);
int (*id_type)(ID id);
ID (*id_attrset)(ID);
ID (*intern)(const char *name);
ID (*intern2)(const char *name, long len);
ID (*intern3)(const char *name, long len, rb_encoding *enc);
ID (*intern_str)(VALUE str);
int (*is_notop_id)(ID);
int (*enc_symname_type)(const char *name, long len, rb_encoding *enc, unsigned int allowed_attrset);
VALUE (*str_intern)(VALUE str);
const char *(*id2name)(ID id);
VALUE (*id2str)(ID id);
VALUE (*id2sym)(ID x);
ID (*sym2id)(VALUE sym);
/* String */
RBIMPL_ATTR_FORMAT(RBIMPL_PRINTF_FORMAT, 2, 3)
VALUE (*str_catf)(VALUE str, const char *format, ...);
VALUE (*str_cat_cstr)(VALUE str, const char *ptr);
VALUE (*str_subseq)(VALUE str, long beg, long len);
VALUE (*str_dup)(VALUE str);
VALUE (*str_new_frozen)(VALUE orig);
VALUE (*str_buf_new)(long capa);
VALUE (*str_buf_cat)(VALUE, const char*, long);
void (*str_modify)(VALUE str);
void (*str_set_len)(VALUE str, long len);
VALUE (*str_cat)(VALUE str, const char *ptr, long len);
VALUE (*str_resize)(VALUE str, long len);
VALUE (*str_new)(const char *ptr, long len);
VALUE (*str_new_cstr)(const char *ptr);
VALUE (*fstring)(VALUE);
int (*is_ascii_string)(VALUE str);
VALUE (*enc_str_new)(const char *ptr, long len, rb_encoding *enc);
VALUE (*enc_str_buf_cat)(VALUE str, const char *ptr, long len, rb_encoding *enc);
VALUE (*str_buf_append)(VALUE str, VALUE str2);
RBIMPL_ATTR_FORMAT(RBIMPL_PRINTF_FORMAT, 2, 0)
VALUE (*str_vcatf)(VALUE str, const char *fmt, va_list ap);
char *(*string_value_cstr)(volatile VALUE *ptr);
RBIMPL_ATTR_FORMAT(RBIMPL_PRINTF_FORMAT, 1, 2)
VALUE (*rb_sprintf)(const char *format, ...);
char *(*rstring_ptr)(VALUE str);
char *(*rstring_end)(VALUE str);
long (*rstring_len)(VALUE str);
VALUE (*filesystem_str_new_cstr)(const char *ptr);
VALUE (*obj_as_string)(VALUE);
/* Hash */
VALUE (*hash_clear)(VALUE hash);
VALUE (*hash_new)(void);
VALUE (*hash_aset)(VALUE hash, VALUE key, VALUE val);
VALUE (*hash_delete)(VALUE hash, VALUE key);
VALUE (*hash_lookup)(VALUE hash, VALUE key);
VALUE (*ident_hash_new)(void);
/* Fixnum */
VALUE (*int2fix)(long i);
/* Bignum */
void (*bignum_negate)(VALUE b);
VALUE (*big_norm)(VALUE x);
VALUE (*cstr_to_inum)(const char *str, int base, int badcheck);
/* Float */
VALUE (*float_new)(double d);
double (*float_value)(VALUE v);
/* Numeric */
int (*num2int)(VALUE val);
VALUE (*int_positive_pow)(long x, unsigned long y);
VALUE (*int2num)(int v);
long (*fix2long)(VALUE val);
/* Rational */
VALUE (*rational_new)(VALUE x, VALUE y);
VALUE (*rational_raw1)(VALUE x);
void (*rational_set_num)(VALUE r, VALUE n);
VALUE (*rational_get_num)(VALUE obj);
/* Complex */
VALUE (*complex_raw)(VALUE x, VALUE y);
void (*rcomplex_set_real)(VALUE cmp, VALUE r);
void (*rcomplex_set_imag)(VALUE cmp, VALUE i);
VALUE (*rcomplex_get_real)(VALUE obj);
VALUE (*rcomplex_get_imag)(VALUE obj);
/* IO */
int (*stderr_tty_p)(void);
void (*write_error_str)(VALUE mesg);
VALUE (*default_rs)(void);
VALUE (*io_write)(VALUE io, VALUE str);
VALUE (*io_flush)(VALUE io);
VALUE (*io_puts)(int argc, const VALUE *argv, VALUE out);
VALUE (*io_gets_internal)(VALUE io);
/* IO (Ractor) */
VALUE (*debug_output_stdout)(void);
VALUE (*debug_output_stderr)(void);
/* Encoding */
int (*is_usascii_enc)(rb_encoding *enc);
int (*enc_isalnum)(OnigCodePoint c, rb_encoding *enc);
int (*enc_precise_mbclen)(const char *p, const char *e, rb_encoding *enc);
int (*mbclen_charfound_p)(int len);
const char *(*enc_name)(rb_encoding *enc);
char *(*enc_prev_char)(const char *s, const char *p, const char *e, rb_encoding *enc);
rb_encoding* (*enc_get)(VALUE obj);
int (*enc_asciicompat)(rb_encoding *enc);
rb_encoding *(*utf8_encoding)(void);
VALUE (*enc_associate)(VALUE obj, rb_encoding *enc);
rb_encoding *(*ascii8bit_encoding)(void);
int (*enc_codelen)(int c, rb_encoding *enc);
int (*enc_mbcput)(unsigned int c, void *buf, rb_encoding *enc);
int (*char_to_option_kcode)(int c, int *option, int *kcode);
int (*ascii8bit_encindex)(void);
int (*enc_find_index)(const char *name);
rb_encoding *(*enc_from_index)(int idx);
VALUE (*enc_associate_index)(VALUE obj, int encindex);
int (*enc_isspace)(OnigCodePoint c, rb_encoding *enc);
int enc_coderange_7bit;
int enc_coderange_unknown;
int enc_coderange_broken;
rb_encoding *(*enc_compatible)(VALUE str1, VALUE str2);
VALUE (*enc_from_encoding)(rb_encoding *enc);
int (*encoding_get)(VALUE obj);
void (*encoding_set)(VALUE obj, int encindex);
int (*encoding_is_ascii8bit)(VALUE obj);
rb_encoding *(*usascii_encoding)(void);
int (*enc_str_coderange)(VALUE str);
/* Ractor */
VALUE (*ractor_make_shareable)(VALUE obj);
/* Compile */
// int rb_local_defined(ID id, const rb_iseq_t *iseq);
int (*local_defined)(ID, const void*);
// int rb_dvar_defined(ID id, const rb_iseq_t *iseq);
int (*dvar_defined)(ID, const void*);
/* Compile (parse.y) */
int (*literal_cmp)(VALUE val, VALUE lit);
parser_st_index_t (*literal_hash)(VALUE a);
/* Error (Exception) */
const char *(*builtin_class_name)(VALUE x);
RBIMPL_ATTR_FORMAT(RBIMPL_PRINTF_FORMAT, 6, 0)
VALUE (*syntax_error_append)(VALUE, VALUE, int, int, rb_encoding*, const char*, va_list);
RBIMPL_ATTR_FORMAT(RBIMPL_PRINTF_FORMAT, 2, 3)
void (*raise)(VALUE exc, const char *fmt, ...);
VALUE (*syntax_error_new)(void);
/* Eval */
VALUE (*errinfo)(void);
void (*set_errinfo)(VALUE err);
void (*exc_raise)(VALUE mesg);
VALUE (*make_exception)(int argc, const VALUE *argv);
/* GC */
void (*sized_xfree)(void *x, size_t size);
void *(*sized_realloc_n)(void *ptr, size_t new_count, size_t element_size, size_t old_count);
VALUE (*obj_write)(VALUE, VALUE *, VALUE);
VALUE (*obj_written)(VALUE, VALUE, VALUE);
void (*gc_register_mark_object)(VALUE object);
void (*gc_guard)(VALUE);
void (*gc_mark)(VALUE);
void (*gc_mark_movable)(VALUE ptr);
VALUE (*gc_location)(VALUE value);
/* Re */
VALUE (*reg_compile)(VALUE str, int options, const char *sourcefile, int sourceline);
VALUE (*reg_check_preprocess)(VALUE str);
int (*memcicmp)(const void *x, const void *y, long len);
/* Error */
void (*compile_warn)(const char *file, int line, const char *fmt, ...);
void (*compile_warning)(const char *file, int line, const char *fmt, ...);
void (*bug)(const char *fmt, ...);
void (*fatal)(const char *fmt, ...);
VALUE (*verbose)(void);
/* VM */
VALUE (*make_backtrace)(void);
/* Util */
unsigned long (*scan_hex)(const char *start, size_t len, size_t *retlen);
unsigned long (*scan_oct)(const char *start, size_t len, size_t *retlen);
unsigned long (*scan_digits)(const char *str, ssize_t len, int base, size_t *retlen, int *overflow);
double (*strtod)(const char *s00, char **se);
/* Misc */
VALUE (*rbool)(VALUE);
int (*undef_p)(VALUE);
int (*rtest)(VALUE obj);
int (*nil_p)(VALUE obj);
int (*flonum_p)(VALUE obj);
VALUE qnil;
VALUE qtrue;
VALUE qfalse;
VALUE qundef;
VALUE eArgError;
VALUE mRubyVMFrozenCore;
int (*long2int)(long);
int (*special_const_p)(VALUE);
int (*builtin_type)(VALUE);
VALUE (*node_case_when_optimizable_literal)(const NODE *const node);
/* For Ripper */
VALUE (*static_id2sym)(ID id);
long (*str_coderange_scan_restartable)(const char *s, const char *e, rb_encoding *enc, int *cr);
} rb_parser_config_t;
#undef rb_encoding
#undef OnigCodePoint
#endif /* UNIVERSAL_PARSER */
RUBY_SYMBOL_EXPORT_BEGIN
void rb_ruby_parser_free(void *ptr);
rb_ast_t* rb_ruby_parser_compile_string(rb_parser_t *p, const char *f, VALUE s, int line);
#ifdef UNIVERSAL_PARSER
rb_parser_config_t *rb_ruby_parser_config_new(void *(*malloc)(size_t size));
void rb_ruby_parser_config_free(rb_parser_config_t *config);
rb_parser_t *rb_ruby_parser_allocate(rb_parser_config_t *config);
rb_parser_t *rb_ruby_parser_new(rb_parser_config_t *config);
#endif
RUBY_SYMBOL_EXPORT_END
#endif /* RUBY_RUBYPARSER_H */