21#define PUSH_ADJUST(seq, location, label) \
22 ADD_ELEM((seq), (LINK_ELEMENT *) new_adjust_body(iseq, (label), (int) (location).line))
24#define PUSH_ADJUST_RESTORE(seq, label) \
25 ADD_ELEM((seq), (LINK_ELEMENT *) new_adjust_body(iseq, (label), -1))
27#define PUSH_INSN(seq, location, insn) \
28 ADD_ELEM((seq), (LINK_ELEMENT *) new_insn_body(iseq, (int) (location).line, (int) (location).node_id, BIN(insn), 0))
30#define PUSH_INSN1(seq, location, insn, op1) \
31 ADD_ELEM((seq), (LINK_ELEMENT *) new_insn_body(iseq, (int) (location).line, (int) (location).node_id, BIN(insn), 1, (VALUE)(op1)))
33#define PUSH_INSN2(seq, location, insn, op1, op2) \
34 ADD_ELEM((seq), (LINK_ELEMENT *) new_insn_body(iseq, (int) (location).line, (int) (location).node_id, BIN(insn), 2, (VALUE)(op1), (VALUE)(op2)))
36#define PUSH_INSN3(seq, location, insn, op1, op2, op3) \
37 ADD_ELEM((seq), (LINK_ELEMENT *) new_insn_body(iseq, (int) (location).line, (int) (location).node_id, BIN(insn), 3, (VALUE)(op1), (VALUE)(op2), (VALUE)(op3)))
39#define PUSH_INSNL(seq, location, insn, label) \
40 (PUSH_INSN1(seq, location, insn, label), LABEL_REF(label))
42#define PUSH_LABEL(seq, label) \
43 ADD_ELEM((seq), (LINK_ELEMENT *) (label))
45#define PUSH_SEND_R(seq, location, id, argc, block, flag, keywords) \
46 ADD_ELEM((seq), (LINK_ELEMENT *) new_insn_send(iseq, (int) (location).line, (int) (location).node_id, (id), (VALUE)(argc), (block), (VALUE)(flag), (keywords)))
48#define PUSH_SEND(seq, location, id, argc) \
49 PUSH_SEND_R((seq), location, (id), (argc), NULL, (VALUE)INT2FIX(0), NULL)
51#define PUSH_SEND_WITH_FLAG(seq, location, id, argc, flag) \
52 PUSH_SEND_R((seq), location, (id), (argc), NULL, (VALUE)(flag), NULL)
54#define PUSH_SEND_WITH_BLOCK(seq, location, id, argc, block) \
55 PUSH_SEND_R((seq), location, (id), (argc), (block), (VALUE)INT2FIX(0), NULL)
57#define PUSH_CALL(seq, location, id, argc) \
58 PUSH_SEND_R((seq), location, (id), (argc), NULL, (VALUE)INT2FIX(VM_CALL_FCALL), NULL)
60#define PUSH_CALL_WITH_BLOCK(seq, location, id, argc, block) \
61 PUSH_SEND_R((seq), location, (id), (argc), (block), (VALUE)INT2FIX(VM_CALL_FCALL), NULL)
63#define PUSH_TRACE(seq, event) \
64 ADD_ELEM((seq), (LINK_ELEMENT *) new_trace_body(iseq, (event), 0))
66#define PUSH_CATCH_ENTRY(type, ls, le, iseqv, lc) \
67 ADD_CATCH_ENTRY((type), (ls), (le), (iseqv), (lc))
69#define PUSH_SEQ(seq1, seq2) \
70 APPEND_LIST((seq1), (seq2))
72#define PUSH_SYNTHETIC_PUTNIL(seq, iseq) \
74 int lineno = ISEQ_COMPILE_DATA(iseq)->last_line; \
75 if (lineno == 0) lineno = FIX2INT(rb_iseq_first_lineno(iseq)); \
76 ADD_SYNTHETIC_INSN(seq, lineno, -1, putnil); \
85pm_iseq_add_getlocal(rb_iseq_t *iseq, LINK_ANCHOR *
const seq,
int line,
int node_id,
int idx,
int level)
87 if (iseq_local_block_param_p(iseq, idx, level)) {
88 ADD_ELEM(seq, (LINK_ELEMENT *) new_insn_body(iseq, line, node_id, BIN(getblockparam), 2,
INT2FIX((idx) + VM_ENV_DATA_SIZE - 1),
INT2FIX(level)));
91 ADD_ELEM(seq, (LINK_ELEMENT *) new_insn_body(iseq, line, node_id, BIN(getlocal), 2,
INT2FIX((idx) + VM_ENV_DATA_SIZE - 1),
INT2FIX(level)));
93 if (level > 0) access_outer_variables(iseq, level, iseq_lvar_id(iseq, idx, level),
Qfalse);
97pm_iseq_add_setlocal(rb_iseq_t *iseq, LINK_ANCHOR *
const seq,
int line,
int node_id,
int idx,
int level)
99 if (iseq_local_block_param_p(iseq, idx, level)) {
100 ADD_ELEM(seq, (LINK_ELEMENT *) new_insn_body(iseq, line, node_id, BIN(setblockparam), 2,
INT2FIX((idx) + VM_ENV_DATA_SIZE - 1),
INT2FIX(level)));
103 ADD_ELEM(seq, (LINK_ELEMENT *) new_insn_body(iseq, line, node_id, BIN(setlocal), 2,
INT2FIX((idx) + VM_ENV_DATA_SIZE - 1),
INT2FIX(level)));
105 update_lvar_state(iseq, level, idx);
106 if (level > 0) access_outer_variables(iseq, level, iseq_lvar_id(iseq, idx, level),
Qtrue);
109#define PUSH_GETLOCAL(seq, location, idx, level) \
110 pm_iseq_add_getlocal(iseq, (seq), (int) (location).line, (int) (location).node_id, (idx), (level))
112#define PUSH_SETLOCAL(seq, location, idx, level) \
113 pm_iseq_add_setlocal(iseq, (seq), (int) (location).line, (int) (location).node_id, (idx), (level))
119#define OLD_ISEQ NEW_ISEQ
122#define NEW_ISEQ(node, name, type, line_no) \
123 pm_new_child_iseq(iseq, (node), rb_fstring(name), 0, (type), (line_no))
125#define OLD_CHILD_ISEQ NEW_CHILD_ISEQ
128#define NEW_CHILD_ISEQ(node, name, type, line_no) \
129 pm_new_child_iseq(iseq, (node), rb_fstring(name), iseq, (type), (line_no))
131#define PM_COMPILE(node) \
132 pm_compile_node(iseq, (node), ret, popped, scope_node)
134#define PM_COMPILE_INTO_ANCHOR(_ret, node) \
135 pm_compile_node(iseq, (node), _ret, popped, scope_node)
137#define PM_COMPILE_POPPED(node) \
138 pm_compile_node(iseq, (node), ret, true, scope_node)
140#define PM_COMPILE_NOT_POPPED(node) \
141 pm_compile_node(iseq, (node), ret, false, scope_node)
143#define PM_NODE_START_LOCATION(parser, node) \
144 ((pm_node_location_t) { .line = pm_newline_list_line(&(parser)->newline_list, ((const pm_node_t *) (node))->location.start, (parser)->start_line), .node_id = ((const pm_node_t *) (node))->node_id })
146#define PM_NODE_END_LOCATION(parser, node) \
147 ((pm_node_location_t) { .line = pm_newline_list_line(&(parser)->newline_list, ((const pm_node_t *) (node))->location.end, (parser)->start_line), .node_id = ((const pm_node_t *) (node))->node_id })
149#define PM_LOCATION_START_LOCATION(parser, location, id) \
150 ((pm_node_location_t) { .line = pm_newline_list_line(&(parser)->newline_list, (location)->start, (parser)->start_line), .node_id = id })
152#define PM_NODE_START_LINE_COLUMN(parser, node) \
153 pm_newline_list_line_column(&(parser)->newline_list, ((const pm_node_t *) (node))->location.start, (parser)->start_line)
155#define PM_NODE_END_LINE_COLUMN(parser, node) \
156 pm_newline_list_line_column(&(parser)->newline_list, ((const pm_node_t *) (node))->location.end, (parser)->start_line)
158#define PM_LOCATION_START_LINE_COLUMN(parser, location) \
159 pm_newline_list_line_column(&(parser)->newline_list, (location)->start, (parser)->start_line)
162pm_node_line_number(
const pm_parser_t *parser,
const pm_node_t *node)
180 if (integer->
values == NULL) {
185 unsigned char *bytes = (
unsigned char *) RSTRING_PTR(
string);
187 size_t offset = integer->
length * 8;
188 for (
size_t value_index = 0; value_index < integer->
length; value_index++) {
189 uint32_t value = integer->
values[value_index];
191 for (
int index = 0; index < 8; index++) {
192 int byte = (value >> (4 * index)) & 0xf;
193 bytes[--offset] =
byte < 10 ?
byte +
'0' :
byte - 10 +
'a';
201 result =
rb_funcall(result, rb_intern(
"-@"), 0);
205 RB_OBJ_SET_SHAREABLE(result);
215parse_integer(
const pm_integer_node_t *node)
217 return parse_integer_value(&node->
value);
224parse_float(
const pm_float_node_t *node)
228 RB_OBJ_SET_SHAREABLE(val);
240parse_rational(
const pm_rational_node_t *node)
255parse_imaginary(
const pm_imaginary_node_t *node)
257 VALUE imaginary_part;
258 switch (PM_NODE_TYPE(node->
numeric)) {
259 case PM_FLOAT_NODE: {
260 imaginary_part = parse_float((
const pm_float_node_t *) node->
numeric);
263 case PM_INTEGER_NODE: {
264 imaginary_part = parse_integer((
const pm_integer_node_t *) node->
numeric);
267 case PM_RATIONAL_NODE: {
268 imaginary_part = parse_rational((
const pm_rational_node_t *) node->
numeric);
272 rb_bug(
"Unexpected numeric type on imaginary number %s\n", pm_node_type_to_str(PM_NODE_TYPE(node->
numeric)));
275 return RB_OBJ_SET_SHAREABLE(rb_complex_raw(
INT2FIX(0), imaginary_part));
279parse_string(
const pm_scope_node_t *scope_node,
const pm_string_t *
string)
281 return rb_enc_str_new((
const char *) pm_string_source(
string), pm_string_length(
string), scope_node->encoding);
292 rb_encoding *encoding;
294 if (node->
flags & PM_ENCODING_FLAGS_FORCED_BINARY_ENCODING) {
297 else if (node->
flags & PM_ENCODING_FLAGS_FORCED_UTF8_ENCODING) {
304 return rb_enc_str_new((
const char *) pm_string_source(
string), pm_string_length(
string), encoding);
308parse_static_literal_string(rb_iseq_t *iseq,
const pm_scope_node_t *scope_node,
const pm_node_t *node,
const pm_string_t *
string)
310 rb_encoding *encoding;
312 if (node->
flags & PM_STRING_FLAGS_FORCED_BINARY_ENCODING) {
315 else if (node->
flags & PM_STRING_FLAGS_FORCED_UTF8_ENCODING) {
319 encoding = scope_node->encoding;
322 VALUE value = rb_enc_literal_str((
const char *) pm_string_source(
string), pm_string_length(
string), encoding);
325 if (ISEQ_COMPILE_DATA(iseq)->option->debug_frozen_string_literal ||
RTEST(
ruby_debug)) {
326 int line_number = pm_node_line_number(scope_node->parser, node);
334parse_string_symbol(
const pm_scope_node_t *scope_node,
const pm_symbol_node_t *symbol)
336 rb_encoding *encoding;
337 if (symbol->
base.
flags & PM_SYMBOL_FLAGS_FORCED_UTF8_ENCODING) {
340 else if (symbol->
base.
flags & PM_SYMBOL_FLAGS_FORCED_BINARY_ENCODING) {
343 else if (symbol->
base.
flags & PM_SYMBOL_FLAGS_FORCED_US_ASCII_ENCODING) {
347 encoding = scope_node->encoding;
350 return rb_intern3((
const char *) pm_string_source(&symbol->
unescaped), pm_string_length(&symbol->
unescaped), encoding);
354pm_optimizable_range_item_p(
const pm_node_t *node)
356 return (!node || PM_NODE_TYPE_P(node, PM_INTEGER_NODE) || PM_NODE_TYPE_P(node, PM_NIL_NODE));
361parse_regexp_error(rb_iseq_t *iseq, int32_t line_number,
const char *fmt, ...)
365 VALUE error = rb_syntax_error_append(
Qnil, rb_iseq_path(iseq), line_number, -1, NULL,
"%" PRIsVALUE, args);
371parse_regexp_string_part(rb_iseq_t *iseq,
const pm_scope_node_t *scope_node,
const pm_node_t *node,
const pm_string_t *unescaped, rb_encoding *implicit_regexp_encoding, rb_encoding *explicit_regexp_encoding)
375 rb_encoding *encoding;
377 if (explicit_regexp_encoding != NULL) {
378 encoding = explicit_regexp_encoding;
380 else if (node->
flags & PM_STRING_FLAGS_FORCED_BINARY_ENCODING) {
383 else if (node->
flags & PM_STRING_FLAGS_FORCED_UTF8_ENCODING) {
387 encoding = implicit_regexp_encoding;
390 VALUE string = rb_enc_str_new((
const char *) pm_string_source(unescaped), pm_string_length(unescaped), encoding);
391 VALUE error = rb_reg_check_preprocess(
string);
393 if (error !=
Qnil) parse_regexp_error(iseq, pm_node_line_number(scope_node->parser, node),
"%" PRIsVALUE,
rb_obj_as_string(error));
398pm_static_literal_concat(rb_iseq_t *iseq,
const pm_node_list_t *nodes,
const pm_scope_node_t *scope_node, rb_encoding *implicit_regexp_encoding, rb_encoding *explicit_regexp_encoding,
bool top)
402 for (
size_t index = 0; index < nodes->
size; index++) {
403 const pm_node_t *part = nodes->
nodes[index];
406 switch (PM_NODE_TYPE(part)) {
408 if (implicit_regexp_encoding != NULL) {
410 string = parse_regexp_string_part(iseq, scope_node, part, &((
const pm_string_node_t *) part)->unescaped, implicit_regexp_encoding, explicit_regexp_encoding);
413 string = parse_string_encoded(part, &((
const pm_string_node_t *) part)->unescaped, scope_node->encoding);
414 VALUE error = rb_reg_check_preprocess(
string);
415 if (error !=
Qnil) parse_regexp_error(iseq, pm_node_line_number(scope_node->parser, part),
"%" PRIsVALUE,
rb_obj_as_string(error));
419 string = parse_string_encoded(part, &((
const pm_string_node_t *) part)->unescaped, scope_node->encoding);
422 case PM_INTERPOLATED_STRING_NODE:
423 string = pm_static_literal_concat(iseq, &((
const pm_interpolated_string_node_t *) part)->parts, scope_node, implicit_regexp_encoding, explicit_regexp_encoding,
false);
425 case PM_EMBEDDED_STATEMENTS_NODE: {
426 const pm_embedded_statements_node_t *cast = (
const pm_embedded_statements_node_t *) part;
427 string = pm_static_literal_concat(iseq, &cast->
statements->
body, scope_node, implicit_regexp_encoding, explicit_regexp_encoding,
false);
431 RUBY_ASSERT(
false &&
"unexpected node type in pm_static_literal_concat");
435 if (current !=
Qnil) {
443 return top ? rb_fstring(current) : current;
446#define RE_OPTION_ENCODING_SHIFT 8
447#define RE_OPTION_ENCODING(encoding) (((encoding) & 0xFF) << RE_OPTION_ENCODING_SHIFT)
448#define ARG_ENCODING_NONE 32
449#define ARG_ENCODING_FIXED 16
450#define ENC_ASCII8BIT 1
452#define ENC_Windows_31J 3
460parse_regexp_flags(
const pm_node_t *node)
467 if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_ASCII_8BIT)) {
468 flags |= ARG_ENCODING_NONE;
471 if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_EUC_JP)) {
472 flags |= (ARG_ENCODING_FIXED | RE_OPTION_ENCODING(ENC_EUC_JP));
475 if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_WINDOWS_31J)) {
476 flags |= (ARG_ENCODING_FIXED | RE_OPTION_ENCODING(ENC_Windows_31J));
479 if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_UTF_8)) {
480 flags |= (ARG_ENCODING_FIXED | RE_OPTION_ENCODING(ENC_UTF8));
483 if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_IGNORE_CASE)) {
484 flags |= ONIG_OPTION_IGNORECASE;
487 if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_MULTI_LINE)) {
488 flags |= ONIG_OPTION_MULTILINE;
491 if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_EXTENDED)) {
492 flags |= ONIG_OPTION_EXTEND;
498#undef RE_OPTION_ENCODING_SHIFT
499#undef RE_OPTION_ENCODING
500#undef ARG_ENCODING_FIXED
501#undef ARG_ENCODING_NONE
504#undef ENC_Windows_31J
508parse_regexp_encoding(
const pm_scope_node_t *scope_node,
const pm_node_t *node)
510 if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_FORCED_BINARY_ENCODING) || PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_ASCII_8BIT)) {
513 else if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_UTF_8)) {
516 else if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_EUC_JP)) {
517 return rb_enc_get_from_index(ENCINDEX_EUC_JP);
519 else if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_WINDOWS_31J)) {
520 return rb_enc_get_from_index(ENCINDEX_Windows_31J);
528parse_regexp(rb_iseq_t *iseq,
const pm_scope_node_t *scope_node,
const pm_node_t *node,
VALUE string)
532 int32_t line_number = pm_node_line_number(scope_node->parser, node);
533 VALUE regexp = rb_reg_compile(
string, parse_regexp_flags(node), (
const char *) pm_string_source(&scope_node->parser->
filepath), line_number);
537 rb_set_errinfo(errinfo);
539 parse_regexp_error(iseq, line_number,
"%" PRIsVALUE, message);
547parse_regexp_literal(rb_iseq_t *iseq,
const pm_scope_node_t *scope_node,
const pm_node_t *node,
const pm_string_t *unescaped)
549 rb_encoding *regexp_encoding = parse_regexp_encoding(scope_node, node);
550 if (regexp_encoding == NULL) regexp_encoding = scope_node->encoding;
552 VALUE string = rb_enc_str_new((
const char *) pm_string_source(unescaped), pm_string_length(unescaped), regexp_encoding);
553 RB_OBJ_SET_SHAREABLE(
string);
554 return parse_regexp(iseq, scope_node, node,
string);
558parse_regexp_concat(rb_iseq_t *iseq,
const pm_scope_node_t *scope_node,
const pm_node_t *node,
const pm_node_list_t *parts)
560 rb_encoding *explicit_regexp_encoding = parse_regexp_encoding(scope_node, node);
561 rb_encoding *implicit_regexp_encoding = explicit_regexp_encoding != NULL ? explicit_regexp_encoding : scope_node->encoding;
563 VALUE string = pm_static_literal_concat(iseq, parts, scope_node, implicit_regexp_encoding, explicit_regexp_encoding,
false);
564 return parse_regexp(iseq, scope_node, node,
string);
567static void pm_compile_node(rb_iseq_t *iseq,
const pm_node_t *node, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node);
570pm_interpolated_node_compile(rb_iseq_t *iseq,
const pm_node_list_t *parts,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node, rb_encoding *implicit_regexp_encoding, rb_encoding *explicit_regexp_encoding,
bool mutable_result,
bool frozen_result)
573 size_t parts_size = parts->
size;
574 bool interpolated =
false;
576 if (parts_size > 0) {
580 for (
size_t index = 0; index < parts_size; index++) {
581 const pm_node_t *part = parts->
nodes[index];
583 if (PM_NODE_TYPE_P(part, PM_STRING_NODE)) {
584 const pm_string_node_t *string_node = (
const pm_string_node_t *) part;
587 if (implicit_regexp_encoding == NULL) {
588 string_value = parse_string_encoded(part, &string_node->
unescaped, scope_node->encoding);
591 string_value = parse_regexp_string_part(iseq, scope_node, (
const pm_node_t *) string_node, &string_node->unescaped, implicit_regexp_encoding, explicit_regexp_encoding);
594 if (
RTEST(current_string)) {
595 current_string =
rb_str_concat(current_string, string_value);
598 current_string = string_value;
599 if (index != 0) current_location = PM_NODE_END_LOCATION(scope_node->parser, part);
606 PM_NODE_TYPE_P(part, PM_EMBEDDED_STATEMENTS_NODE) &&
607 ((
const pm_embedded_statements_node_t *) part)->statements != NULL &&
608 ((
const pm_embedded_statements_node_t *) part)->statements->body.size == 1 &&
609 PM_NODE_TYPE_P(((
const pm_embedded_statements_node_t *) part)->statements->body.nodes[0], PM_STRING_NODE)
611 const pm_string_node_t *string_node = (
const pm_string_node_t *) ((
const pm_embedded_statements_node_t *) part)->statements->body.nodes[0];
614 if (implicit_regexp_encoding == NULL) {
615 string_value = parse_string_encoded(part, &string_node->
unescaped, scope_node->encoding);
618 string_value = parse_regexp_string_part(iseq, scope_node, (
const pm_node_t *) string_node, &string_node->unescaped, implicit_regexp_encoding, explicit_regexp_encoding);
621 if (
RTEST(current_string)) {
622 current_string =
rb_str_concat(current_string, string_value);
625 current_string = string_value;
626 current_location = PM_NODE_START_LOCATION(scope_node->parser, part);
630 if (!
RTEST(current_string)) {
631 rb_encoding *encoding;
633 if (implicit_regexp_encoding != NULL) {
634 if (explicit_regexp_encoding != NULL) {
635 encoding = explicit_regexp_encoding;
641 encoding = implicit_regexp_encoding;
645 encoding = scope_node->encoding;
648 if (parts_size == 1) {
649 current_string = rb_enc_str_new(NULL, 0, encoding);
653 if (
RTEST(current_string)) {
654 VALUE operand = rb_fstring(current_string);
655 PUSH_INSN1(ret, current_location, putobject, operand);
659 PM_COMPILE_NOT_POPPED(part);
661 const pm_node_location_t current_location = PM_NODE_START_LOCATION(scope_node->parser, part);
662 PUSH_INSN(ret, current_location, dup);
665 const struct rb_callinfo *callinfo = new_callinfo(iseq, idTo_s, 0, VM_CALL_FCALL | VM_CALL_ARGS_SIMPLE, NULL, FALSE);
666 PUSH_INSN1(ret, current_location, objtostring, callinfo);
669 PUSH_INSN(ret, current_location, anytostring);
671 current_string =
Qnil;
677 if (
RTEST(current_string)) {
678 current_string = rb_fstring(current_string);
680 if (stack_size == 0) {
682 PUSH_INSN1(ret, current_location, putobject, current_string);
683 }
else if (mutable_result || interpolated) {
684 PUSH_INSN1(ret, current_location, putstring, current_string);
686 PUSH_INSN1(ret, current_location, putchilledstring, current_string);
689 PUSH_INSN1(ret, current_location, putobject, current_string);
692 current_string =
Qnil;
697 PUSH_INSN(ret, *node_location, putnil);
704pm_compile_regexp_dynamic(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_list_t *parts,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
706 rb_encoding *explicit_regexp_encoding = parse_regexp_encoding(scope_node, node);
707 rb_encoding *implicit_regexp_encoding = explicit_regexp_encoding != NULL ? explicit_regexp_encoding : scope_node->encoding;
709 int length = pm_interpolated_node_compile(iseq, parts, node_location, ret, popped, scope_node, implicit_regexp_encoding, explicit_regexp_encoding,
false,
false);
710 PUSH_INSN2(ret, *node_location, toregexp,
INT2FIX(parse_regexp_flags(node) & 0xFF),
INT2FIX(length));
714pm_source_file_value(
const pm_source_file_node_t *node,
const pm_scope_node_t *scope_node)
717 size_t length = pm_string_length(filepath);
721 return rb_enc_interned_str((
const char *) pm_string_source(filepath), length, filepath_encoding);
724 return rb_fstring_lit(
"<compiled>");
733pm_static_literal_string(rb_iseq_t *iseq,
VALUE string,
int line_number)
735 if (ISEQ_COMPILE_DATA(iseq)->option->debug_frozen_string_literal ||
RTEST(
ruby_debug)) {
736 VALUE str = rb_str_with_debug_created_info(
string, rb_iseq_path(iseq), line_number);
737 RB_OBJ_SET_SHAREABLE(str);
741 return rb_fstring(
string);
751pm_static_literal_value(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_scope_node_t *scope_node)
755 RUBY_ASSERT(PM_NODE_FLAG_P(node, PM_NODE_FLAG_STATIC_LITERAL));
757 switch (PM_NODE_TYPE(node)) {
758 case PM_ARRAY_NODE: {
759 const pm_array_node_t *cast = (
const pm_array_node_t *) node;
760 const pm_node_list_t *elements = &cast->
elements;
763 for (
size_t index = 0; index < elements->
size; index++) {
764 rb_ary_push(value, pm_static_literal_value(iseq, elements->
nodes[index], scope_node));
767 RB_OBJ_SET_FROZEN_SHAREABLE(value);
773 return parse_float((
const pm_float_node_t *) node);
775 const pm_hash_node_t *cast = (
const pm_hash_node_t *) node;
776 const pm_node_list_t *elements = &cast->
elements;
779 for (
size_t index = 0; index < elements->
size; index++) {
781 const pm_assoc_node_t *cast = (
const pm_assoc_node_t *) elements->
nodes[index];
782 VALUE pair[2] = { pm_static_literal_value(iseq, cast->key, scope_node), pm_static_literal_value(iseq, cast->value, scope_node) };
786 VALUE value = rb_hash_new_with_size(elements->
size);
791 RB_OBJ_SET_FROZEN_SHAREABLE(value);
794 case PM_IMAGINARY_NODE:
795 return parse_imaginary((
const pm_imaginary_node_t *) node);
796 case PM_INTEGER_NODE:
797 return parse_integer((
const pm_integer_node_t *) node);
798 case PM_INTERPOLATED_MATCH_LAST_LINE_NODE: {
799 const pm_interpolated_match_last_line_node_t *cast = (
const pm_interpolated_match_last_line_node_t *) node;
800 return parse_regexp_concat(iseq, scope_node, (
const pm_node_t *) cast, &cast->parts);
802 case PM_INTERPOLATED_REGULAR_EXPRESSION_NODE: {
803 const pm_interpolated_regular_expression_node_t *cast = (
const pm_interpolated_regular_expression_node_t *) node;
804 return parse_regexp_concat(iseq, scope_node, (
const pm_node_t *) cast, &cast->parts);
806 case PM_INTERPOLATED_STRING_NODE: {
807 VALUE string = pm_static_literal_concat(iseq, &((
const pm_interpolated_string_node_t *) node)->parts, scope_node, NULL, NULL,
false);
808 int line_number = pm_node_line_number(scope_node->parser, node);
809 return pm_static_literal_string(iseq,
string, line_number);
811 case PM_INTERPOLATED_SYMBOL_NODE: {
812 const pm_interpolated_symbol_node_t *cast = (
const pm_interpolated_symbol_node_t *) node;
813 VALUE string = pm_static_literal_concat(iseq, &cast->
parts, scope_node, NULL, NULL,
true);
815 return ID2SYM(rb_intern_str(
string));
817 case PM_MATCH_LAST_LINE_NODE: {
818 const pm_match_last_line_node_t *cast = (
const pm_match_last_line_node_t *) node;
819 return parse_regexp_literal(iseq, scope_node, (
const pm_node_t *) cast, &cast->unescaped);
823 case PM_RATIONAL_NODE:
824 return parse_rational((
const pm_rational_node_t *) node);
825 case PM_REGULAR_EXPRESSION_NODE: {
826 const pm_regular_expression_node_t *cast = (
const pm_regular_expression_node_t *) node;
827 return parse_regexp_literal(iseq, scope_node, (
const pm_node_t *) cast, &cast->unescaped);
829 case PM_SOURCE_ENCODING_NODE:
830 return rb_enc_from_encoding(scope_node->encoding);
831 case PM_SOURCE_FILE_NODE: {
832 const pm_source_file_node_t *cast = (
const pm_source_file_node_t *) node;
833 return pm_source_file_value(cast, scope_node);
835 case PM_SOURCE_LINE_NODE:
836 return INT2FIX(pm_node_line_number(scope_node->parser, node));
837 case PM_STRING_NODE: {
838 const pm_string_node_t *cast = (
const pm_string_node_t *) node;
839 return parse_static_literal_string(iseq, scope_node, node, &cast->
unescaped);
842 return ID2SYM(parse_string_symbol(scope_node, (
const pm_symbol_node_t *) node));
846 rb_bug(
"Don't have a literal value for node type %s", pm_node_type_to_str(PM_NODE_TYPE(node)));
854static rb_code_location_t
855pm_code_location(
const pm_scope_node_t *scope_node,
const pm_node_t *node)
857 const pm_line_column_t start_location = PM_NODE_START_LINE_COLUMN(scope_node->parser, node);
858 const pm_line_column_t end_location = PM_NODE_END_LINE_COLUMN(scope_node->parser, node);
860 return (rb_code_location_t) {
861 .beg_pos = { .lineno = start_location.
line, .column = start_location.
column },
862 .end_pos = { .lineno = end_location.
line, .column = end_location.
column }
871#define PM_BRANCH_COVERAGE_P(iseq) (ISEQ_COVERAGE(iseq) && ISEQ_BRANCH_COVERAGE(iseq))
874pm_compile_branch_condition(rb_iseq_t *iseq, LINK_ANCHOR *
const ret,
const pm_node_t *cond,
875 LABEL *then_label, LABEL *else_label, pm_scope_node_t *scope_node);
878pm_compile_logical(rb_iseq_t *iseq, LINK_ANCHOR *
const ret, pm_node_t *cond, LABEL *then_label, LABEL *else_label, pm_scope_node_t *scope_node)
884 LABEL *label = NEW_LABEL(location.
line);
885 if (!then_label) then_label = label;
886 else if (!else_label) else_label = label;
888 pm_compile_branch_condition(iseq, seq, cond, then_label, else_label, scope_node);
890 if (LIST_INSN_SIZE_ONE(seq)) {
891 INSN *insn = (INSN *) ELEM_FIRST_INSN(FIRST_ELEMENT(seq));
892 if (insn->insn_id == BIN(jump) && (LABEL *)(insn->operands[0]) == label)
return;
896 PUSH_LABEL(seq, label);
904pm_compile_flip_flop_bound(rb_iseq_t *iseq,
const pm_node_t *node, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
908 if (PM_NODE_TYPE_P(node, PM_INTEGER_NODE)) {
909 PM_COMPILE_NOT_POPPED(node);
912 PUSH_INSN1(ret, location, getglobal, operand);
914 PUSH_SEND(ret, location, idEq,
INT2FIX(1));
915 if (popped) PUSH_INSN(ret, location, pop);
923pm_compile_flip_flop(
const pm_flip_flop_node_t *flip_flop_node, LABEL *else_label, LABEL *then_label, rb_iseq_t *iseq,
const int lineno, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
926 LABEL *lend = NEW_LABEL(location.
line);
928 int again = !(flip_flop_node->
base.
flags & PM_RANGE_FLAGS_EXCLUDE_END);
930 rb_num_t count = ISEQ_FLIP_CNT_INCREMENT(ISEQ_BODY(iseq)->local_iseq) + VM_SVAR_FLIPFLOP_START;
933 PUSH_INSN2(ret, location, getspecial, key,
INT2FIX(0));
934 PUSH_INSNL(ret, location, branchif, lend);
936 if (flip_flop_node->
left) {
937 pm_compile_flip_flop_bound(iseq, flip_flop_node->
left, ret, popped, scope_node);
940 PUSH_INSN(ret, location, putnil);
943 PUSH_INSNL(ret, location, branchunless, else_label);
944 PUSH_INSN1(ret, location, putobject,
Qtrue);
945 PUSH_INSN1(ret, location, setspecial, key);
947 PUSH_INSNL(ret, location, jump, then_label);
950 PUSH_LABEL(ret, lend);
951 if (flip_flop_node->
right) {
952 pm_compile_flip_flop_bound(iseq, flip_flop_node->
right, ret, popped, scope_node);
955 PUSH_INSN(ret, location, putnil);
958 PUSH_INSNL(ret, location, branchunless, then_label);
959 PUSH_INSN1(ret, location, putobject,
Qfalse);
960 PUSH_INSN1(ret, location, setspecial, key);
961 PUSH_INSNL(ret, location, jump, then_label);
964static void pm_compile_defined_expr(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node,
bool in_condition);
967pm_compile_branch_condition(rb_iseq_t *iseq, LINK_ANCHOR *
const ret,
const pm_node_t *cond, LABEL *then_label, LABEL *else_label, pm_scope_node_t *scope_node)
972 switch (PM_NODE_TYPE(cond)) {
974 const pm_and_node_t *cast = (
const pm_and_node_t *) cond;
975 pm_compile_logical(iseq, ret, cast->
left, NULL, else_label, scope_node);
981 const pm_or_node_t *cast = (
const pm_or_node_t *) cond;
982 pm_compile_logical(iseq, ret, cast->
left, then_label, NULL, scope_node);
989 PUSH_INSNL(ret, location, jump, else_label);
992 case PM_IMAGINARY_NODE:
993 case PM_INTEGER_NODE:
995 case PM_RATIONAL_NODE:
996 case PM_REGULAR_EXPRESSION_NODE:
1000 PUSH_INSNL(ret, location, jump, then_label);
1002 case PM_FLIP_FLOP_NODE:
1003 pm_compile_flip_flop((
const pm_flip_flop_node_t *) cond, else_label, then_label, iseq, location.
line, ret,
false, scope_node);
1005 case PM_DEFINED_NODE: {
1006 const pm_defined_node_t *cast = (
const pm_defined_node_t *) cond;
1007 pm_compile_defined_expr(iseq, cast->
value, &location, ret,
false, scope_node,
true);
1011 DECL_ANCHOR(cond_seq);
1012 pm_compile_node(iseq, cond, cond_seq,
false, scope_node);
1014 if (LIST_INSN_SIZE_ONE(cond_seq)) {
1015 INSN *insn = (INSN *) ELEM_FIRST_INSN(FIRST_ELEMENT(cond_seq));
1017 if (insn->insn_id == BIN(putobject)) {
1018 if (
RTEST(insn->operands[0])) {
1019 PUSH_INSNL(ret, location, jump, then_label);
1024 PUSH_INSNL(ret, location, jump, else_label);
1030 PUSH_SEQ(ret, cond_seq);
1035 PUSH_INSNL(ret, location, branchunless, else_label);
1036 PUSH_INSNL(ret, location, jump, then_label);
1043pm_compile_conditional(rb_iseq_t *iseq,
const pm_node_location_t *node_location, pm_node_type_t
type,
const pm_node_t *node,
const pm_statements_node_t *statements,
const pm_node_t *subsequent,
const pm_node_t *predicate, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
1046 LABEL *then_label = NEW_LABEL(location.
line);
1047 LABEL *else_label = NEW_LABEL(location.
line);
1048 LABEL *end_label = NULL;
1050 DECL_ANCHOR(cond_seq);
1051 pm_compile_branch_condition(iseq, cond_seq, predicate, then_label, else_label, scope_node);
1052 PUSH_SEQ(ret, cond_seq);
1054 rb_code_location_t conditional_location = { 0 };
1057 if (then_label->refcnt && else_label->refcnt && PM_BRANCH_COVERAGE_P(iseq)) {
1058 conditional_location = pm_code_location(scope_node, node);
1059 branches = decl_branch_base(iseq, PTR2NUM(node), &conditional_location,
type == PM_IF_NODE ?
"if" :
"unless");
1062 if (then_label->refcnt) {
1063 PUSH_LABEL(ret, then_label);
1065 DECL_ANCHOR(then_seq);
1067 if (statements != NULL) {
1068 pm_compile_node(iseq, (
const pm_node_t *) statements, then_seq, popped, scope_node);
1071 PUSH_SYNTHETIC_PUTNIL(then_seq, iseq);
1074 if (else_label->refcnt) {
1076 if (PM_BRANCH_COVERAGE_P(iseq)) {
1077 rb_code_location_t branch_location;
1079 if (statements != NULL) {
1080 branch_location = pm_code_location(scope_node, (
const pm_node_t *) statements);
1081 }
else if (
type == PM_IF_NODE) {
1082 pm_line_column_t predicate_end = PM_NODE_END_LINE_COLUMN(scope_node->parser, predicate);
1083 branch_location = (rb_code_location_t) {
1084 .beg_pos = { .lineno = predicate_end.
line, .column = predicate_end.
column },
1085 .end_pos = { .lineno = predicate_end.
line, .column = predicate_end.
column }
1088 branch_location = conditional_location;
1091 add_trace_branch_coverage(iseq, ret, &branch_location, branch_location.beg_pos.column, 0,
type == PM_IF_NODE ?
"then" :
"else", branches);
1094 end_label = NEW_LABEL(location.
line);
1095 PUSH_INSNL(then_seq, location, jump, end_label);
1096 if (!popped) PUSH_INSN(then_seq, location, pop);
1099 PUSH_SEQ(ret, then_seq);
1102 if (else_label->refcnt) {
1103 PUSH_LABEL(ret, else_label);
1105 DECL_ANCHOR(else_seq);
1107 if (subsequent != NULL) {
1108 pm_compile_node(iseq, subsequent, else_seq, popped, scope_node);
1111 PUSH_SYNTHETIC_PUTNIL(else_seq, iseq);
1115 if (then_label->refcnt && PM_BRANCH_COVERAGE_P(iseq)) {
1116 rb_code_location_t branch_location;
1118 if (subsequent == NULL) {
1119 branch_location = conditional_location;
1120 }
else if (PM_NODE_TYPE_P(subsequent, PM_ELSE_NODE)) {
1121 const pm_else_node_t *else_node = (
const pm_else_node_t *) subsequent;
1122 branch_location = pm_code_location(scope_node, else_node->
statements != NULL ? ((
const pm_node_t *) else_node->
statements) : (
const pm_node_t *) else_node);
1124 branch_location = pm_code_location(scope_node, (
const pm_node_t *) subsequent);
1127 add_trace_branch_coverage(iseq, ret, &branch_location, branch_location.beg_pos.column, 1,
type == PM_IF_NODE ?
"else" :
"then", branches);
1130 PUSH_SEQ(ret, else_seq);
1134 PUSH_LABEL(ret, end_label);
1144pm_compile_loop(rb_iseq_t *iseq,
const pm_node_location_t *node_location, pm_node_flags_t flags,
enum pm_node_type
type,
const pm_node_t *node,
const pm_statements_node_t *statements,
const pm_node_t *predicate, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
1148 LABEL *prev_start_label = ISEQ_COMPILE_DATA(iseq)->start_label;
1149 LABEL *prev_end_label = ISEQ_COMPILE_DATA(iseq)->end_label;
1150 LABEL *prev_redo_label = ISEQ_COMPILE_DATA(iseq)->redo_label;
1152 LABEL *next_label = ISEQ_COMPILE_DATA(iseq)->start_label = NEW_LABEL(location.
line);
1153 LABEL *redo_label = ISEQ_COMPILE_DATA(iseq)->redo_label = NEW_LABEL(location.
line);
1154 LABEL *break_label = ISEQ_COMPILE_DATA(iseq)->end_label = NEW_LABEL(location.
line);
1155 LABEL *end_label = NEW_LABEL(location.
line);
1156 LABEL *adjust_label = NEW_LABEL(location.
line);
1158 LABEL *next_catch_label = NEW_LABEL(location.
line);
1159 LABEL *tmp_label = NULL;
1165 push_ensure_entry(iseq, &enl, NULL, NULL);
1168 if (flags & PM_LOOP_FLAGS_BEGIN_MODIFIER) {
1169 tmp_label = NEW_LABEL(location.
line);
1170 PUSH_INSNL(ret, location, jump, tmp_label);
1174 PUSH_INSNL(ret, location, jump, next_label);
1177 PUSH_LABEL(ret, adjust_label);
1178 PUSH_INSN(ret, location, putnil);
1179 PUSH_LABEL(ret, next_catch_label);
1180 PUSH_INSN(ret, location, pop);
1181 PUSH_INSNL(ret, location, jump, next_label);
1182 if (tmp_label) PUSH_LABEL(ret, tmp_label);
1184 PUSH_LABEL(ret, redo_label);
1187 if (PM_BRANCH_COVERAGE_P(iseq)) {
1188 rb_code_location_t loop_location = pm_code_location(scope_node, node);
1189 VALUE branches = decl_branch_base(iseq, PTR2NUM(node), &loop_location,
type == PM_WHILE_NODE ?
"while" :
"until");
1191 rb_code_location_t branch_location = statements != NULL ? pm_code_location(scope_node, (
const pm_node_t *) statements) : loop_location;
1192 add_trace_branch_coverage(iseq, ret, &branch_location, branch_location.beg_pos.column, 0,
"body", branches);
1195 if (statements != NULL) PM_COMPILE_POPPED((
const pm_node_t *) statements);
1196 PUSH_LABEL(ret, next_label);
1198 if (
type == PM_WHILE_NODE) {
1199 pm_compile_branch_condition(iseq, ret, predicate, redo_label, end_label, scope_node);
1201 else if (
type == PM_UNTIL_NODE) {
1202 pm_compile_branch_condition(iseq, ret, predicate, end_label, redo_label, scope_node);
1205 PUSH_LABEL(ret, end_label);
1206 PUSH_ADJUST_RESTORE(ret, adjust_label);
1207 PUSH_INSN(ret, location, putnil);
1209 PUSH_LABEL(ret, break_label);
1210 if (popped) PUSH_INSN(ret, location, pop);
1212 PUSH_CATCH_ENTRY(CATCH_TYPE_BREAK, redo_label, break_label, NULL, break_label);
1213 PUSH_CATCH_ENTRY(CATCH_TYPE_NEXT, redo_label, break_label, NULL, next_catch_label);
1214 PUSH_CATCH_ENTRY(CATCH_TYPE_REDO, redo_label, break_label, NULL, ISEQ_COMPILE_DATA(iseq)->redo_label);
1216 ISEQ_COMPILE_DATA(iseq)->start_label = prev_start_label;
1217 ISEQ_COMPILE_DATA(iseq)->end_label = prev_end_label;
1218 ISEQ_COMPILE_DATA(iseq)->redo_label = prev_redo_label;
1219 ISEQ_COMPILE_DATA(iseq)->ensure_node_stack = ISEQ_COMPILE_DATA(iseq)->ensure_node_stack->prev;
1227static pm_local_index_t
1228pm_lookup_local_index(rb_iseq_t *iseq,
const pm_scope_node_t *scope_node,
pm_constant_id_t constant_id,
int start_depth)
1230 pm_local_index_t lindex = { 0 };
1231 st_data_t local_index;
1234 for (level = 0; level < start_depth; level++) {
1235 scope_node = scope_node->previous;
1238 while (!st_lookup(scope_node->index_lookup_table, constant_id, &local_index)) {
1241 if (scope_node->previous) {
1242 scope_node = scope_node->previous;
1247 rb_bug(
"Local with constant_id %u does not exist", (
unsigned int) constant_id);
1251 lindex.level = level;
1252 lindex.index = scope_node->local_table_for_iseq_size - (int) local_index;
1263pm_constant_id_lookup(
const pm_scope_node_t *scope_node,
pm_constant_id_t constant_id)
1266 rb_bug(
"constant_id out of range: %u", (
unsigned int)constant_id);
1268 return scope_node->constants[constant_id - 1];
1272pm_new_child_iseq(rb_iseq_t *iseq, pm_scope_node_t *node,
VALUE name,
const rb_iseq_t *parent,
enum rb_iseq_type
type,
int line_no)
1274 debugs(
"[new_child_iseq]> ---------------------------------------\n");
1275 int isolated_depth = ISEQ_COMPILE_DATA(iseq)->isolated_depth;
1277 rb_iseq_t *ret_iseq = pm_iseq_new_with_opt(node, name,
1278 rb_iseq_path(iseq), rb_iseq_realpath(iseq),
1280 isolated_depth ? isolated_depth + 1 : 0,
1281 type, ISEQ_COMPILE_DATA(iseq)->option, &error_state);
1284 pm_scope_node_destroy(node);
1286 rb_jump_tag(error_state);
1288 debugs(
"[new_child_iseq]< ---------------------------------------\n");
1293pm_compile_class_path(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
1295 if (PM_NODE_TYPE_P(node, PM_CONSTANT_PATH_NODE)) {
1296 const pm_node_t *parent = ((
const pm_constant_path_node_t *) node)->parent;
1301 return VM_DEFINECLASS_FLAG_SCOPED;
1305 PUSH_INSN1(ret, *node_location, putobject, rb_cObject);
1306 return VM_DEFINECLASS_FLAG_SCOPED;
1311 PUSH_INSN1(ret, *node_location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
1321pm_compile_call_and_or_write_node(rb_iseq_t *iseq,
bool and_node,
const pm_node_t *receiver,
const pm_node_t *value,
pm_constant_id_t write_name,
pm_constant_id_t read_name,
bool safe_nav,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
1324 LABEL *lfin = NEW_LABEL(location.
line);
1325 LABEL *lcfin = NEW_LABEL(location.
line);
1326 LABEL *lskip = NULL;
1328 int flag = PM_NODE_TYPE_P(receiver, PM_SELF_NODE) ? VM_CALL_FCALL : 0;
1329 ID id_read_name = pm_constant_id_lookup(scope_node, read_name);
1331 PM_COMPILE_NOT_POPPED(receiver);
1333 lskip = NEW_LABEL(location.
line);
1334 PUSH_INSN(ret, location, dup);
1335 PUSH_INSNL(ret, location, branchnil, lskip);
1338 PUSH_INSN(ret, location, dup);
1339 PUSH_SEND_WITH_FLAG(ret, location, id_read_name,
INT2FIX(0),
INT2FIX(flag));
1340 if (!popped) PUSH_INSN(ret, location, dup);
1343 PUSH_INSNL(ret, location, branchunless, lcfin);
1346 PUSH_INSNL(ret, location, branchif, lcfin);
1349 if (!popped) PUSH_INSN(ret, location, pop);
1350 PM_COMPILE_NOT_POPPED(value);
1353 PUSH_INSN(ret, location, swap);
1354 PUSH_INSN1(ret, location, topn,
INT2FIX(1));
1357 ID id_write_name = pm_constant_id_lookup(scope_node, write_name);
1358 PUSH_SEND_WITH_FLAG(ret, location, id_write_name,
INT2FIX(1),
INT2FIX(flag));
1359 PUSH_INSNL(ret, location, jump, lfin);
1361 PUSH_LABEL(ret, lcfin);
1362 if (!popped) PUSH_INSN(ret, location, swap);
1364 PUSH_LABEL(ret, lfin);
1366 if (lskip && popped) PUSH_LABEL(ret, lskip);
1367 PUSH_INSN(ret, location, pop);
1368 if (lskip && !popped) PUSH_LABEL(ret, lskip);
1371static void pm_compile_shareable_constant_value(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_flags_t shareability,
VALUE path, LINK_ANCHOR *
const ret, pm_scope_node_t *scope_node,
bool top);
1379pm_compile_hash_elements(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_list_t *elements,
const pm_node_flags_t shareability,
VALUE path,
bool argument, LINK_ANCHOR *
const ret, pm_scope_node_t *scope_node)
1381 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
1387 const int max_stack_length = 0x100;
1388 const unsigned int min_tmp_hash_length = 0x800;
1390 int stack_length = 0;
1391 bool first_chunk =
true;
1397 bool static_literal =
false;
1399 DECL_ANCHOR(anchor);
1402#define FLUSH_CHUNK \
1403 if (stack_length) { \
1404 if (first_chunk) { \
1405 PUSH_SEQ(ret, anchor); \
1406 PUSH_INSN1(ret, location, newhash, INT2FIX(stack_length)); \
1407 first_chunk = false; \
1410 PUSH_INSN1(ret, location, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_VMCORE)); \
1411 PUSH_INSN(ret, location, swap); \
1412 PUSH_SEQ(ret, anchor); \
1413 PUSH_SEND(ret, location, id_core_hash_merge_ptr, INT2FIX(stack_length + 1)); \
1415 INIT_ANCHOR(anchor); \
1419 for (
size_t index = 0; index < elements->
size; index++) {
1420 const pm_node_t *element = elements->
nodes[index];
1422 switch (PM_NODE_TYPE(element)) {
1423 case PM_ASSOC_NODE: {
1426 (shareability == 0) &&
1427 PM_NODE_FLAG_P(element, PM_NODE_FLAG_STATIC_LITERAL) && (
1428 (!static_literal && ((index + min_tmp_hash_length) < elements->
size)) ||
1429 (first_chunk && stack_length == 0)
1434 while (index + count < elements->size && PM_NODE_FLAG_P(elements->
nodes[index + count], PM_NODE_FLAG_STATIC_LITERAL)) count++;
1436 if ((first_chunk && stack_length == 0) || count >= min_tmp_hash_length) {
1442 for (
size_t tmp_end = index + count; index < tmp_end; index++) {
1443 const pm_assoc_node_t *assoc = (
const pm_assoc_node_t *) elements->
nodes[index];
1446 pm_static_literal_value(iseq, assoc->key, scope_node),
1447 pm_static_literal_value(iseq, assoc->value, scope_node)
1458 RB_OBJ_SET_FROZEN_SHAREABLE(hash);
1463 PUSH_INSN1(ret, location, duphash, hash);
1464 first_chunk =
false;
1467 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
1468 PUSH_INSN(ret, location, swap);
1469 PUSH_INSN1(ret, location, putobject, hash);
1470 PUSH_SEND(ret, location, id_core_hash_merge_kwd,
INT2FIX(2));
1476 static_literal =
true;
1480 static_literal =
false;
1485 if (shareability == 0) {
1486 pm_compile_node(iseq, element, anchor,
false, scope_node);
1489 const pm_assoc_node_t *assoc = (
const pm_assoc_node_t *) element;
1490 pm_compile_shareable_constant_value(iseq, assoc->
key, shareability, path, ret, scope_node,
false);
1491 pm_compile_shareable_constant_value(iseq, assoc->
value, shareability, path, ret, scope_node,
false);
1494 if ((stack_length += 2) >= max_stack_length) FLUSH_CHUNK;
1497 case PM_ASSOC_SPLAT_NODE: {
1500 const pm_assoc_splat_node_t *assoc_splat = (
const pm_assoc_splat_node_t *) element;
1501 bool empty_hash = assoc_splat->
value != NULL && (
1502 (PM_NODE_TYPE_P(assoc_splat->
value, PM_HASH_NODE) && ((
const pm_hash_node_t *) assoc_splat->
value)->elements.size == 0) ||
1503 PM_NODE_TYPE_P(assoc_splat->
value, PM_NIL_NODE)
1506 bool first_element = first_chunk && stack_length == 0;
1507 bool last_element = index == elements->
size - 1;
1508 bool only_element = first_element && last_element;
1511 if (only_element && argument) {
1518 PUSH_INSN(ret, location, putnil);
1520 else if (first_element) {
1523 PUSH_INSN1(ret, location, newhash,
INT2FIX(0));
1530 if (only_element && argument) {
1536 if (shareability == 0) {
1537 PM_COMPILE_NOT_POPPED(element);
1540 pm_compile_shareable_constant_value(iseq, element, shareability, path, ret, scope_node,
false);
1548 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
1550 if (first_element) {
1551 PUSH_INSN1(ret, location, newhash,
INT2FIX(0));
1554 PUSH_INSN(ret, location, swap);
1557 if (shareability == 0) {
1558 PM_COMPILE_NOT_POPPED(element);
1561 pm_compile_shareable_constant_value(iseq, element, shareability, path, ret, scope_node,
false);
1564 PUSH_SEND(ret, location, id_core_hash_merge_kwd,
INT2FIX(2));
1568 first_chunk =
false;
1569 static_literal =
false;
1573 RUBY_ASSERT(
"Invalid node type for hash" &&
false);
1582#define SPLATARRAY_FALSE 0
1583#define SPLATARRAY_TRUE 1
1584#define DUP_SINGLE_KW_SPLAT 2
1588pm_setup_args_core(
const pm_arguments_node_t *arguments_node,
const pm_node_t *block,
int *flags,
const bool has_regular_blockarg,
struct rb_callinfo_kwarg **kw_arg,
int *dup_rest, rb_iseq_t *iseq, LINK_ANCHOR *
const ret, pm_scope_node_t *scope_node,
const pm_node_location_t *node_location)
1593 bool has_splat =
false;
1594 bool has_keyword_splat =
false;
1596 if (arguments_node == NULL) {
1597 if (*flags & VM_CALL_FCALL) {
1598 *flags |= VM_CALL_VCALL;
1602 const pm_node_list_t *arguments = &arguments_node->
arguments;
1603 has_keyword_splat = PM_NODE_FLAG_P(arguments_node, PM_ARGUMENTS_NODE_FLAGS_CONTAINS_KEYWORD_SPLAT);
1607 int post_splat_counter = 0;
1608 const pm_node_t *argument;
1611 switch (PM_NODE_TYPE(argument)) {
1613 case PM_KEYWORD_HASH_NODE: {
1614 const pm_keyword_hash_node_t *keyword_arg = (
const pm_keyword_hash_node_t *) argument;
1615 const pm_node_list_t *elements = &keyword_arg->
elements;
1617 if (has_keyword_splat || has_splat) {
1618 *flags |= VM_CALL_KW_SPLAT;
1619 has_keyword_splat =
true;
1621 if (elements->
size > 1 || !(elements->
size == 1 && PM_NODE_TYPE_P(elements->
nodes[0], PM_ASSOC_SPLAT_NODE))) {
1625 *flags |= VM_CALL_KW_SPLAT_MUT;
1626 pm_compile_hash_elements(iseq, argument, elements, 0,
Qundef,
true, ret, scope_node);
1628 else if (*dup_rest & DUP_SINGLE_KW_SPLAT) {
1629 *flags |= VM_CALL_KW_SPLAT_MUT;
1630 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
1631 PUSH_INSN1(ret, location, newhash,
INT2FIX(0));
1632 pm_compile_hash_elements(iseq, argument, elements, 0,
Qundef,
true, ret, scope_node);
1633 PUSH_SEND(ret, location, id_core_hash_merge_kwd,
INT2FIX(2));
1636 pm_compile_hash_elements(iseq, argument, elements, 0,
Qundef,
true, ret, scope_node);
1642 if (PM_NODE_FLAG_P(keyword_arg, PM_KEYWORD_HASH_NODE_FLAGS_SYMBOL_KEYS)) {
1651 for (
size_t element_index = 0; element_index < elements->
size; element_index++) {
1652 const pm_assoc_node_t *assoc = (
const pm_assoc_node_t *) elements->
nodes[element_index];
1656 VALUE keyword = pm_static_literal_value(iseq, assoc->key, scope_node);
1657 VALUE stored_index = rb_hash_aref(stored_indices, keyword);
1662 if (!
NIL_P(stored_index)) {
1670 rb_hash_aset(stored_indices, keyword,
ULONG2NUM(element_index));
1675 if (size > VM_CALL_KW_LEN_MAX) {
1676 COMPILE_ERROR(iseq, node_location->
line,
"too many keyword arguments (%d, maximum is %d)",
1677 (
int) size, (
int) VM_CALL_KW_LEN_MAX);
1681 *flags |= VM_CALL_KWARG;
1683 VALUE *keywords = (*kw_arg)->keywords;
1684 (*kw_arg)->references = 0;
1685 (*kw_arg)->keyword_len = (int) size;
1687 size_t keyword_index = 0;
1688 for (
size_t element_index = 0; element_index < elements->
size; element_index++) {
1689 const pm_assoc_node_t *assoc = (
const pm_assoc_node_t *) elements->
nodes[element_index];
1693 keywords[keyword_index++] = pm_static_literal_value(iseq, assoc->key, scope_node);
1697 PM_COMPILE(assoc->value);
1706 *flags |= VM_CALL_KW_SPLAT;
1708 size_t size = elements->
size;
1713 *flags |= VM_CALL_KW_SPLAT_MUT;
1716 for (
size_t element_index = 0; element_index < size; element_index++) {
1717 const pm_assoc_node_t *assoc = (
const pm_assoc_node_t *) elements->
nodes[element_index];
1718 PM_COMPILE_NOT_POPPED(assoc->key);
1719 PM_COMPILE_NOT_POPPED(assoc->value);
1722 PUSH_INSN1(ret, location, newhash,
INT2FIX(size * 2));
1727 case PM_SPLAT_NODE: {
1728 *flags |= VM_CALL_ARGS_SPLAT;
1729 const pm_splat_node_t *splat_node = (
const pm_splat_node_t *) argument;
1732 PM_COMPILE_NOT_POPPED(splat_node->
expression);
1735 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, PM_CONSTANT_MULT, 0);
1736 PUSH_GETLOCAL(ret, location, index.index, index.level);
1739 bool first_splat = !has_splat;
1747 if (index + 1 < arguments->
size || has_regular_blockarg) {
1748 PUSH_INSN1(ret, location, splatarray, (*dup_rest & SPLATARRAY_TRUE) ?
Qtrue :
Qfalse);
1749 if (*dup_rest & SPLATARRAY_TRUE) *dup_rest &= ~SPLATARRAY_TRUE;
1757 PUSH_INSN1(ret, location, splatarray,
Qfalse);
1767 PUSH_INSN(ret, location, concattoarray);
1771 post_splat_counter = 0;
1775 case PM_FORWARDING_ARGUMENTS_NODE: {
1776 iseq_set_use_block(ISEQ_BODY(iseq)->local_iseq);
1778 if (ISEQ_BODY(ISEQ_BODY(iseq)->local_iseq)->param.flags.forwardable) {
1779 *flags |= VM_CALL_FORWARDING;
1781 pm_local_index_t mult_local = pm_lookup_local_index(iseq, scope_node, PM_CONSTANT_DOT3, 0);
1782 PUSH_GETLOCAL(ret, location, mult_local.index, mult_local.level);
1794 *flags |= VM_CALL_ARGS_SPLAT | VM_CALL_ARGS_BLOCKARG | VM_CALL_KW_SPLAT;
1801 pm_local_index_t mult_local = pm_lookup_local_index(iseq, scope_node, PM_CONSTANT_MULT, 0);
1802 PUSH_GETLOCAL(ret, location, mult_local.index, mult_local.level);
1806 PUSH_INSN(ret, location, concattoarray);
1808 PUSH_INSN1(ret, location, splatarray,
Qfalse);
1812 pm_local_index_t pow_local = pm_lookup_local_index(iseq, scope_node, PM_CONSTANT_POW, 0);
1813 PUSH_GETLOCAL(ret, location, pow_local.index, pow_local.level);
1816 pm_local_index_t and_local = pm_lookup_local_index(iseq, scope_node, PM_CONSTANT_AND, 0);
1817 PUSH_INSN2(ret, location, getblockparamproxy,
INT2FIX(and_local.index + VM_ENV_DATA_SIZE - 1),
INT2FIX(and_local.level));
1822 post_splat_counter++;
1823 PM_COMPILE_NOT_POPPED(argument);
1847 if (index == arguments->
size - 1) {
1849 PUSH_INSN1(ret, location, pushtoarray,
INT2FIX(post_splat_counter));
1852 pm_node_t *next_arg = arguments->
nodes[index + 1];
1854 switch (PM_NODE_TYPE(next_arg)) {
1856 case PM_KEYWORD_HASH_NODE: {
1857 PUSH_INSN1(ret, location, newarray,
INT2FIX(post_splat_counter));
1858 PUSH_INSN(ret, location, concatarray);
1861 case PM_SPLAT_NODE: {
1862 PUSH_INSN1(ret, location, newarray,
INT2FIX(post_splat_counter));
1863 PUSH_INSN(ret, location, concatarray);
1866 case PM_FORWARDING_ARGUMENTS_NODE: {
1867 PUSH_INSN1(ret, location, pushtoarray,
INT2FIX(post_splat_counter));
1883 if (has_splat) orig_argc++;
1884 if (has_keyword_splat) orig_argc++;
1893pm_setup_args_dup_rest_p(
const pm_node_t *node)
1895 switch (PM_NODE_TYPE(node)) {
1896 case PM_BACK_REFERENCE_READ_NODE:
1897 case PM_CLASS_VARIABLE_READ_NODE:
1898 case PM_CONSTANT_READ_NODE:
1901 case PM_GLOBAL_VARIABLE_READ_NODE:
1902 case PM_IMAGINARY_NODE:
1903 case PM_INSTANCE_VARIABLE_READ_NODE:
1904 case PM_INTEGER_NODE:
1905 case PM_LAMBDA_NODE:
1906 case PM_LOCAL_VARIABLE_READ_NODE:
1908 case PM_NUMBERED_REFERENCE_READ_NODE:
1909 case PM_RATIONAL_NODE:
1910 case PM_REGULAR_EXPRESSION_NODE:
1912 case PM_STRING_NODE:
1913 case PM_SYMBOL_NODE:
1916 case PM_CONSTANT_PATH_NODE: {
1917 const pm_constant_path_node_t *cast = (
const pm_constant_path_node_t *) node;
1918 if (cast->
parent != NULL) {
1919 return pm_setup_args_dup_rest_p(cast->
parent);
1923 case PM_IMPLICIT_NODE:
1924 return pm_setup_args_dup_rest_p(((
const pm_implicit_node_t *) node)->value);
1925 case PM_ARRAY_NODE: {
1926 const pm_array_node_t *cast = (
const pm_array_node_t *) node;
1927 for (
size_t index = 0; index < cast->
elements.
size; index++) {
1928 if (pm_setup_args_dup_rest_p(cast->
elements.
nodes[index])) {
1943pm_setup_args(
const pm_arguments_node_t *arguments_node,
const pm_node_t *block,
int *flags,
struct rb_callinfo_kwarg **kw_arg, rb_iseq_t *iseq, LINK_ANCHOR *
const ret, pm_scope_node_t *scope_node,
const pm_node_location_t *node_location)
1945 int dup_rest = SPLATARRAY_TRUE;
1947 const pm_node_list_t *arguments;
1948 size_t arguments_size;
1953 arguments_node != NULL &&
1954 (arguments = &arguments_node->
arguments, arguments_size = arguments->
size) >= 2 &&
1955 PM_NODE_FLAG_P(arguments_node, PM_ARGUMENTS_NODE_FLAGS_CONTAINS_SPLAT) &&
1956 !PM_NODE_FLAG_P(arguments_node, PM_ARGUMENTS_NODE_FLAGS_CONTAINS_MULTIPLE_SPLATS) &&
1957 PM_NODE_TYPE_P(arguments->
nodes[arguments_size - 1], PM_KEYWORD_HASH_NODE)
1962 dup_rest = SPLATARRAY_FALSE;
1964 const pm_keyword_hash_node_t *keyword_hash = (
const pm_keyword_hash_node_t *) arguments->
nodes[arguments_size - 1];
1965 const pm_node_list_t *elements = &keyword_hash->elements;
1967 for (
size_t index = 0; dup_rest == SPLATARRAY_FALSE && index < elements->
size; index++) {
1968 const pm_node_t *element = elements->
nodes[index];
1970 switch (PM_NODE_TYPE(element)) {
1971 case PM_ASSOC_NODE: {
1972 const pm_assoc_node_t *assoc = (
const pm_assoc_node_t *) element;
1973 if (pm_setup_args_dup_rest_p(assoc->
key) || pm_setup_args_dup_rest_p(assoc->
value)) dup_rest = SPLATARRAY_TRUE;
1976 case PM_ASSOC_SPLAT_NODE: {
1977 const pm_assoc_splat_node_t *assoc = (
const pm_assoc_splat_node_t *) element;
1978 if (assoc->
value != NULL && pm_setup_args_dup_rest_p(assoc->
value)) dup_rest = SPLATARRAY_TRUE;
1987 int initial_dup_rest = dup_rest;
1990 if (block && PM_NODE_TYPE_P(block, PM_BLOCK_ARGUMENT_NODE)) {
1994 bool regular_block_arg =
true;
1995 const pm_node_t *block_expr = ((
const pm_block_argument_node_t *)block)->expression;
1997 if (block_expr && pm_setup_args_dup_rest_p(block_expr)) {
1998 dup_rest = SPLATARRAY_TRUE | DUP_SINGLE_KW_SPLAT;
1999 initial_dup_rest = dup_rest;
2002 DECL_ANCHOR(block_arg);
2003 pm_compile_node(iseq, block, block_arg,
false, scope_node);
2005 *flags |= VM_CALL_ARGS_BLOCKARG;
2007 if (LIST_INSN_SIZE_ONE(block_arg)) {
2008 LINK_ELEMENT *elem = FIRST_ELEMENT(block_arg);
2009 if (IS_INSN(elem)) {
2010 INSN *iobj = (INSN *) elem;
2011 if (iobj->insn_id == BIN(getblockparam)) {
2012 iobj->insn_id = BIN(getblockparamproxy);
2019 regular_block_arg =
false;
2023 argc = pm_setup_args_core(arguments_node, block, flags, regular_block_arg, kw_arg, &dup_rest, iseq, ret, scope_node, node_location);
2024 PUSH_SEQ(ret, block_arg);
2027 argc = pm_setup_args_core(arguments_node, block, flags,
false, kw_arg, &dup_rest, iseq, ret, scope_node, node_location);
2034 if (*flags & VM_CALL_ARGS_SPLAT && dup_rest != initial_dup_rest) {
2035 *flags |= VM_CALL_ARGS_SPLAT_MUT;
2052pm_compile_index_operator_write_node(rb_iseq_t *iseq,
const pm_index_operator_write_node_t *node,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
2055 if (!popped) PUSH_INSN(ret, location, putnil);
2057 PM_COMPILE_NOT_POPPED(node->
receiver);
2059 int boff = (node->
block == NULL ? 0 : 1);
2060 int flag = PM_NODE_TYPE_P(node->
receiver, PM_SELF_NODE) ? VM_CALL_FCALL : 0;
2062 int argc = pm_setup_args(node->
arguments, (
const pm_node_t *) node->
block, &flag, &keywords, iseq, ret, scope_node, node_location);
2064 if ((argc > 0 || boff) && (flag & VM_CALL_KW_SPLAT)) {
2066 PUSH_INSN(ret, location, splatkw);
2069 PUSH_INSN(ret, location, dup);
2070 PUSH_INSN(ret, location, splatkw);
2071 PUSH_INSN(ret, location, pop);
2075 int dup_argn = argc + 1 + boff;
2076 int keyword_len = 0;
2079 keyword_len = keywords->keyword_len;
2080 dup_argn += keyword_len;
2083 PUSH_INSN1(ret, location, dupn,
INT2FIX(dup_argn));
2084 PUSH_SEND_R(ret, location, idAREF,
INT2FIX(argc), NULL,
INT2FIX(flag & ~(VM_CALL_ARGS_SPLAT_MUT | VM_CALL_KW_SPLAT_MUT)), keywords);
2085 PM_COMPILE_NOT_POPPED(node->
value);
2088 PUSH_SEND(ret, location, id_operator,
INT2FIX(1));
2091 PUSH_INSN1(ret, location, setn,
INT2FIX(dup_argn + 1));
2093 if (flag & VM_CALL_ARGS_SPLAT) {
2094 if (flag & VM_CALL_KW_SPLAT) {
2095 PUSH_INSN1(ret, location, topn,
INT2FIX(2 + boff));
2097 if (!(flag & VM_CALL_ARGS_SPLAT_MUT)) {
2098 PUSH_INSN1(ret, location, splatarray,
Qtrue);
2099 flag |= VM_CALL_ARGS_SPLAT_MUT;
2102 PUSH_INSN(ret, location, swap);
2103 PUSH_INSN1(ret, location, pushtoarray,
INT2FIX(1));
2104 PUSH_INSN1(ret, location, setn,
INT2FIX(2 + boff));
2105 PUSH_INSN(ret, location, pop);
2109 PUSH_INSN1(ret, location, dupn,
INT2FIX(3));
2110 PUSH_INSN(ret, location, swap);
2111 PUSH_INSN(ret, location, pop);
2113 if (!(flag & VM_CALL_ARGS_SPLAT_MUT)) {
2114 PUSH_INSN(ret, location, swap);
2115 PUSH_INSN1(ret, location, splatarray,
Qtrue);
2116 PUSH_INSN(ret, location, swap);
2117 flag |= VM_CALL_ARGS_SPLAT_MUT;
2119 PUSH_INSN1(ret, location, pushtoarray,
INT2FIX(1));
2121 PUSH_INSN1(ret, location, setn,
INT2FIX(3));
2122 PUSH_INSN(ret, location, pop);
2123 PUSH_INSN(ret, location, pop);
2127 PUSH_SEND_R(ret, location, idASET,
INT2FIX(argc), NULL,
INT2FIX(flag), keywords);
2129 else if (flag & VM_CALL_KW_SPLAT) {
2131 PUSH_INSN1(ret, location, topn,
INT2FIX(2));
2132 PUSH_INSN(ret, location, swap);
2133 PUSH_INSN1(ret, location, setn,
INT2FIX(3));
2134 PUSH_INSN(ret, location, pop);
2136 PUSH_INSN(ret, location, swap);
2137 PUSH_SEND_R(ret, location, idASET,
INT2FIX(argc + 1), NULL,
INT2FIX(flag), keywords);
2139 else if (keyword_len) {
2140 PUSH_INSN(ret, location, dup);
2141 PUSH_INSN1(ret, location, opt_reverse,
INT2FIX(keyword_len + boff + 2));
2142 PUSH_INSN1(ret, location, opt_reverse,
INT2FIX(keyword_len + boff + 1));
2143 PUSH_INSN(ret, location, pop);
2144 PUSH_SEND_R(ret, location, idASET,
INT2FIX(argc + 1), NULL,
INT2FIX(flag), keywords);
2148 PUSH_INSN(ret, location, swap);
2150 PUSH_SEND_R(ret, location, idASET,
INT2FIX(argc + 1), NULL,
INT2FIX(flag), keywords);
2153 PUSH_INSN(ret, location, pop);
2169pm_compile_index_control_flow_write_node(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_t *receiver,
const pm_arguments_node_t *arguments,
const pm_block_argument_node_t *block,
const pm_node_t *value,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
2172 if (!popped) PUSH_INSN(ret, location, putnil);
2173 PM_COMPILE_NOT_POPPED(receiver);
2175 int boff = (block == NULL ? 0 : 1);
2176 int flag = PM_NODE_TYPE_P(receiver, PM_SELF_NODE) ? VM_CALL_FCALL : 0;
2178 int argc = pm_setup_args(arguments, (
const pm_node_t *) block, &flag, &keywords, iseq, ret, scope_node, node_location);
2180 if ((argc > 0 || boff) && (flag & VM_CALL_KW_SPLAT)) {
2182 PUSH_INSN(ret, location, splatkw);
2185 PUSH_INSN(ret, location, dup);
2186 PUSH_INSN(ret, location, splatkw);
2187 PUSH_INSN(ret, location, pop);
2191 int dup_argn = argc + 1 + boff;
2192 int keyword_len = 0;
2195 keyword_len = keywords->keyword_len;
2196 dup_argn += keyword_len;
2199 PUSH_INSN1(ret, location, dupn,
INT2FIX(dup_argn));
2200 PUSH_SEND_R(ret, location, idAREF,
INT2FIX(argc), NULL,
INT2FIX(flag & ~(VM_CALL_ARGS_SPLAT_MUT | VM_CALL_KW_SPLAT_MUT)), keywords);
2202 LABEL *label = NEW_LABEL(location.
line);
2203 LABEL *lfin = NEW_LABEL(location.
line);
2205 PUSH_INSN(ret, location, dup);
2206 if (PM_NODE_TYPE_P(node, PM_INDEX_AND_WRITE_NODE)) {
2207 PUSH_INSNL(ret, location, branchunless, label);
2210 PUSH_INSNL(ret, location, branchif, label);
2213 PUSH_INSN(ret, location, pop);
2214 PM_COMPILE_NOT_POPPED(value);
2217 PUSH_INSN1(ret, location, setn,
INT2FIX(dup_argn + 1));
2220 if (flag & VM_CALL_ARGS_SPLAT) {
2221 if (flag & VM_CALL_KW_SPLAT) {
2222 PUSH_INSN1(ret, location, topn,
INT2FIX(2 + boff));
2223 if (!(flag & VM_CALL_ARGS_SPLAT_MUT)) {
2224 PUSH_INSN1(ret, location, splatarray,
Qtrue);
2225 flag |= VM_CALL_ARGS_SPLAT_MUT;
2228 PUSH_INSN(ret, location, swap);
2229 PUSH_INSN1(ret, location, pushtoarray,
INT2FIX(1));
2230 PUSH_INSN1(ret, location, setn,
INT2FIX(2 + boff));
2231 PUSH_INSN(ret, location, pop);
2235 PUSH_INSN1(ret, location, dupn,
INT2FIX(3));
2236 PUSH_INSN(ret, location, swap);
2237 PUSH_INSN(ret, location, pop);
2239 if (!(flag & VM_CALL_ARGS_SPLAT_MUT)) {
2240 PUSH_INSN(ret, location, swap);
2241 PUSH_INSN1(ret, location, splatarray,
Qtrue);
2242 PUSH_INSN(ret, location, swap);
2243 flag |= VM_CALL_ARGS_SPLAT_MUT;
2245 PUSH_INSN1(ret, location, pushtoarray,
INT2FIX(1));
2247 PUSH_INSN1(ret, location, setn,
INT2FIX(3));
2248 PUSH_INSN(ret, location, pop);
2249 PUSH_INSN(ret, location, pop);
2253 PUSH_SEND_R(ret, location, idASET,
INT2FIX(argc), NULL,
INT2FIX(flag), keywords);
2255 else if (flag & VM_CALL_KW_SPLAT) {
2257 PUSH_INSN1(ret, location, topn,
INT2FIX(2));
2258 PUSH_INSN(ret, location, swap);
2259 PUSH_INSN1(ret, location, setn,
INT2FIX(3));
2260 PUSH_INSN(ret, location, pop);
2263 PUSH_INSN(ret, location, swap);
2264 PUSH_SEND_R(ret, location, idASET,
INT2FIX(argc + 1), NULL,
INT2FIX(flag), keywords);
2266 else if (keyword_len) {
2267 PUSH_INSN1(ret, location, opt_reverse,
INT2FIX(keyword_len + boff + 1));
2268 PUSH_INSN1(ret, location, opt_reverse,
INT2FIX(keyword_len + boff + 0));
2269 PUSH_SEND_R(ret, location, idASET,
INT2FIX(argc + 1), NULL,
INT2FIX(flag), keywords);
2273 PUSH_INSN(ret, location, swap);
2275 PUSH_SEND_R(ret, location, idASET,
INT2FIX(argc + 1), NULL,
INT2FIX(flag), keywords);
2278 PUSH_INSN(ret, location, pop);
2279 PUSH_INSNL(ret, location, jump, lfin);
2280 PUSH_LABEL(ret, label);
2282 PUSH_INSN1(ret, location, setn,
INT2FIX(dup_argn + 1));
2284 PUSH_INSN1(ret, location, adjuststack,
INT2FIX(dup_argn + 1));
2285 PUSH_LABEL(ret, lfin);
2294#define PM_PATTERN_BASE_INDEX_OFFSET_DECONSTRUCTED_CACHE 0
2295#define PM_PATTERN_BASE_INDEX_OFFSET_ERROR_STRING 1
2296#define PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_P 2
2297#define PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_MATCHEE 3
2298#define PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_KEY 4
2303static int pm_compile_pattern(rb_iseq_t *iseq, pm_scope_node_t *scope_node,
const pm_node_t *node, LINK_ANCHOR *
const ret, LABEL *matched_label, LABEL *unmatched_label,
bool in_single_pattern,
bool use_deconstructed_cache,
unsigned int base_index);
2310pm_compile_pattern_generic_error(rb_iseq_t *iseq, pm_scope_node_t *scope_node,
const pm_node_t *node, LINK_ANCHOR *
const ret,
VALUE message,
unsigned int base_index)
2312 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
2313 LABEL *match_succeeded_label = NEW_LABEL(location.
line);
2315 PUSH_INSN(ret, location, dup);
2316 PUSH_INSNL(ret, location, branchif, match_succeeded_label);
2318 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
2319 PUSH_INSN1(ret, location, putobject, message);
2320 PUSH_INSN1(ret, location, topn,
INT2FIX(3));
2321 PUSH_SEND(ret, location, id_core_sprintf,
INT2FIX(2));
2322 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_ERROR_STRING + 1));
2324 PUSH_INSN1(ret, location, putobject,
Qfalse);
2325 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_P + 2));
2327 PUSH_INSN(ret, location, pop);
2328 PUSH_INSN(ret, location, pop);
2329 PUSH_LABEL(ret, match_succeeded_label);
2340pm_compile_pattern_length_error(rb_iseq_t *iseq, pm_scope_node_t *scope_node,
const pm_node_t *node, LINK_ANCHOR *
const ret,
VALUE message,
VALUE length,
unsigned int base_index)
2342 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
2343 LABEL *match_succeeded_label = NEW_LABEL(location.
line);
2345 PUSH_INSN(ret, location, dup);
2346 PUSH_INSNL(ret, location, branchif, match_succeeded_label);
2348 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
2349 PUSH_INSN1(ret, location, putobject, message);
2350 PUSH_INSN1(ret, location, topn,
INT2FIX(3));
2351 PUSH_INSN(ret, location, dup);
2352 PUSH_SEND(ret, location, idLength,
INT2FIX(0));
2353 PUSH_INSN1(ret, location, putobject, length);
2354 PUSH_SEND(ret, location, id_core_sprintf,
INT2FIX(4));
2355 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_ERROR_STRING + 1));
2357 PUSH_INSN1(ret, location, putobject,
Qfalse);
2358 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_P + 2));
2360 PUSH_INSN(ret, location, pop);
2361 PUSH_INSN(ret, location, pop);
2362 PUSH_LABEL(ret, match_succeeded_label);
2373pm_compile_pattern_eqq_error(rb_iseq_t *iseq, pm_scope_node_t *scope_node,
const pm_node_t *node, LINK_ANCHOR *
const ret,
unsigned int base_index)
2375 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
2376 LABEL *match_succeeded_label = NEW_LABEL(location.
line);
2378 PUSH_INSN(ret, location, dup);
2379 PUSH_INSNL(ret, location, branchif, match_succeeded_label);
2380 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
2382 VALUE operand = rb_fstring_lit(
"%p === %p does not return true");
2383 PUSH_INSN1(ret, location, putobject, operand);
2385 PUSH_INSN1(ret, location, topn,
INT2FIX(3));
2386 PUSH_INSN1(ret, location, topn,
INT2FIX(5));
2387 PUSH_SEND(ret, location, id_core_sprintf,
INT2FIX(3));
2388 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_ERROR_STRING + 1));
2389 PUSH_INSN1(ret, location, putobject,
Qfalse);
2390 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_P + 2));
2391 PUSH_INSN(ret, location, pop);
2392 PUSH_INSN(ret, location, pop);
2394 PUSH_LABEL(ret, match_succeeded_label);
2395 PUSH_INSN1(ret, location, setn,
INT2FIX(2));
2396 PUSH_INSN(ret, location, pop);
2397 PUSH_INSN(ret, location, pop);
2409pm_compile_pattern_match(rb_iseq_t *iseq, pm_scope_node_t *scope_node,
const pm_node_t *node, LINK_ANCHOR *
const ret, LABEL *unmatched_label,
bool in_single_pattern,
bool use_deconstructed_cache,
unsigned int base_index)
2411 LABEL *matched_label = NEW_LABEL(pm_node_line_number(scope_node->parser, node));
2412 CHECK(pm_compile_pattern(iseq, scope_node, node, ret, matched_label, unmatched_label, in_single_pattern, use_deconstructed_cache, base_index));
2413 PUSH_LABEL(ret, matched_label);
2423pm_compile_pattern_deconstruct(rb_iseq_t *iseq, pm_scope_node_t *scope_node,
const pm_node_t *node, LINK_ANCHOR *
const ret, LABEL *deconstruct_label, LABEL *match_failed_label, LABEL *deconstructed_label, LABEL *type_error_label,
bool in_single_pattern,
bool use_deconstructed_cache,
unsigned int base_index)
2425 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
2427 if (use_deconstructed_cache) {
2428 PUSH_INSN1(ret, location, topn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_DECONSTRUCTED_CACHE));
2429 PUSH_INSNL(ret, location, branchnil, deconstruct_label);
2431 PUSH_INSN1(ret, location, topn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_DECONSTRUCTED_CACHE));
2432 PUSH_INSNL(ret, location, branchunless, match_failed_label);
2434 PUSH_INSN(ret, location, pop);
2435 PUSH_INSN1(ret, location, topn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_DECONSTRUCTED_CACHE - 1));
2436 PUSH_INSNL(ret, location, jump, deconstructed_label);
2439 PUSH_INSNL(ret, location, jump, deconstruct_label);
2442 PUSH_LABEL(ret, deconstruct_label);
2443 PUSH_INSN(ret, location, dup);
2446 PUSH_INSN1(ret, location, putobject, operand);
2447 PUSH_SEND(ret, location, idRespond_to,
INT2FIX(1));
2449 if (use_deconstructed_cache) {
2450 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_DECONSTRUCTED_CACHE + 1));
2453 if (in_single_pattern) {
2454 CHECK(pm_compile_pattern_generic_error(iseq, scope_node, node, ret, rb_fstring_lit(
"%p does not respond to #deconstruct"), base_index + 1));
2457 PUSH_INSNL(ret, location, branchunless, match_failed_label);
2458 PUSH_SEND(ret, location, rb_intern(
"deconstruct"),
INT2FIX(0));
2460 if (use_deconstructed_cache) {
2461 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_DECONSTRUCTED_CACHE));
2464 PUSH_INSN(ret, location, dup);
2466 PUSH_INSNL(ret, location, branchunless, type_error_label);
2467 PUSH_LABEL(ret, deconstructed_label);
2477pm_compile_pattern_constant(rb_iseq_t *iseq, pm_scope_node_t *scope_node,
const pm_node_t *node, LINK_ANCHOR *
const ret, LABEL *match_failed_label,
bool in_single_pattern,
unsigned int base_index)
2479 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
2481 PUSH_INSN(ret, location, dup);
2482 PM_COMPILE_NOT_POPPED(node);
2484 if (in_single_pattern) {
2485 PUSH_INSN1(ret, location, dupn,
INT2FIX(2));
2487 PUSH_INSN1(ret, location, checkmatch,
INT2FIX(VM_CHECKMATCH_TYPE_CASE));
2488 if (in_single_pattern) {
2489 CHECK(pm_compile_pattern_eqq_error(iseq, scope_node, node, ret, base_index + 3));
2491 PUSH_INSNL(ret, location, branchunless, match_failed_label);
2500pm_compile_pattern_error_handler(rb_iseq_t *iseq,
const pm_scope_node_t *scope_node,
const pm_node_t *node, LINK_ANCHOR *
const ret, LABEL *done_label,
bool popped)
2502 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
2503 LABEL *key_error_label = NEW_LABEL(location.
line);
2504 LABEL *cleanup_label = NEW_LABEL(location.
line);
2507 kw_arg->references = 0;
2508 kw_arg->keyword_len = 2;
2509 kw_arg->keywords[0] =
ID2SYM(rb_intern(
"matchee"));
2510 kw_arg->keywords[1] =
ID2SYM(rb_intern(
"key"));
2512 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
2513 PUSH_INSN1(ret, location, topn,
INT2FIX(PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_P + 2));
2514 PUSH_INSNL(ret, location, branchif, key_error_label);
2517 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
2520 VALUE operand = rb_fstring_lit(
"%p: %s");
2521 PUSH_INSN1(ret, location, putobject, operand);
2524 PUSH_INSN1(ret, location, topn,
INT2FIX(4));
2525 PUSH_INSN1(ret, location, topn,
INT2FIX(PM_PATTERN_BASE_INDEX_OFFSET_ERROR_STRING + 6));
2526 PUSH_SEND(ret, location, id_core_sprintf,
INT2FIX(3));
2527 PUSH_SEND(ret, location, id_core_raise,
INT2FIX(2));
2528 PUSH_INSNL(ret, location, jump, cleanup_label);
2530 PUSH_LABEL(ret, key_error_label);
2532 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
2535 VALUE operand = rb_fstring_lit(
"%p: %s");
2536 PUSH_INSN1(ret, location, putobject, operand);
2539 PUSH_INSN1(ret, location, topn,
INT2FIX(4));
2540 PUSH_INSN1(ret, location, topn,
INT2FIX(PM_PATTERN_BASE_INDEX_OFFSET_ERROR_STRING + 6));
2541 PUSH_SEND(ret, location, id_core_sprintf,
INT2FIX(3));
2542 PUSH_INSN1(ret, location, topn,
INT2FIX(PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_MATCHEE + 4));
2543 PUSH_INSN1(ret, location, topn,
INT2FIX(PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_KEY + 5));
2544 PUSH_SEND_R(ret, location, rb_intern(
"new"),
INT2FIX(1), NULL,
INT2FIX(VM_CALL_KWARG), kw_arg);
2545 PUSH_SEND(ret, location, id_core_raise,
INT2FIX(1));
2546 PUSH_LABEL(ret, cleanup_label);
2548 PUSH_INSN1(ret, location, adjuststack,
INT2FIX(7));
2549 if (!popped) PUSH_INSN(ret, location, putnil);
2550 PUSH_INSNL(ret, location, jump, done_label);
2551 PUSH_INSN1(ret, location, dupn,
INT2FIX(5));
2552 if (popped) PUSH_INSN(ret, location, putnil);
2559pm_compile_pattern(rb_iseq_t *iseq, pm_scope_node_t *scope_node,
const pm_node_t *node, LINK_ANCHOR *
const ret, LABEL *matched_label, LABEL *unmatched_label,
bool in_single_pattern,
bool use_deconstructed_cache,
unsigned int base_index)
2561 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
2563 switch (PM_NODE_TYPE(node)) {
2564 case PM_ARRAY_PATTERN_NODE: {
2573 const pm_array_pattern_node_t *cast = (
const pm_array_pattern_node_t *) node;
2576 const size_t posts_size = cast->
posts.
size;
2577 const size_t minimum_size = requireds_size + posts_size;
2579 bool rest_named =
false;
2580 bool use_rest_size =
false;
2582 if (cast->
rest != NULL) {
2583 rest_named = (PM_NODE_TYPE_P(cast->
rest, PM_SPLAT_NODE) && ((
const pm_splat_node_t *) cast->
rest)->expression != NULL);
2584 use_rest_size = (rest_named || (!rest_named && posts_size > 0));
2587 LABEL *match_failed_label = NEW_LABEL(location.
line);
2588 LABEL *type_error_label = NEW_LABEL(location.
line);
2589 LABEL *deconstruct_label = NEW_LABEL(location.
line);
2590 LABEL *deconstructed_label = NEW_LABEL(location.
line);
2592 if (use_rest_size) {
2593 PUSH_INSN1(ret, location, putobject,
INT2FIX(0));
2594 PUSH_INSN(ret, location, swap);
2599 CHECK(pm_compile_pattern_constant(iseq, scope_node, cast->
constant, ret, match_failed_label, in_single_pattern, base_index));
2602 CHECK(pm_compile_pattern_deconstruct(iseq, scope_node, node, ret, deconstruct_label, match_failed_label, deconstructed_label, type_error_label, in_single_pattern, use_deconstructed_cache, base_index));
2604 PUSH_INSN(ret, location, dup);
2605 PUSH_SEND(ret, location, idLength,
INT2FIX(0));
2606 PUSH_INSN1(ret, location, putobject,
INT2FIX(minimum_size));
2607 PUSH_SEND(ret, location, cast->
rest == NULL ? idEq : idGE,
INT2FIX(1));
2608 if (in_single_pattern) {
2609 VALUE message = cast->
rest == NULL ? rb_fstring_lit(
"%p length mismatch (given %p, expected %p)") : rb_fstring_lit(
"%p length mismatch (given %p, expected %p+)");
2610 CHECK(pm_compile_pattern_length_error(iseq, scope_node, node, ret, message,
INT2FIX(minimum_size), base_index + 1));
2612 PUSH_INSNL(ret, location, branchunless, match_failed_label);
2614 for (
size_t index = 0; index < requireds_size; index++) {
2616 PUSH_INSN(ret, location, dup);
2617 PUSH_INSN1(ret, location, putobject,
INT2FIX(index));
2618 PUSH_SEND(ret, location, idAREF,
INT2FIX(1));
2619 CHECK(pm_compile_pattern_match(iseq, scope_node, required, ret, match_failed_label, in_single_pattern,
false, base_index + 1));
2622 if (cast->
rest != NULL) {
2624 PUSH_INSN(ret, location, dup);
2625 PUSH_INSN1(ret, location, putobject,
INT2FIX(requireds_size));
2626 PUSH_INSN1(ret, location, topn,
INT2FIX(1));
2627 PUSH_SEND(ret, location, idLength,
INT2FIX(0));
2628 PUSH_INSN1(ret, location, putobject,
INT2FIX(minimum_size));
2629 PUSH_SEND(ret, location, idMINUS,
INT2FIX(1));
2630 PUSH_INSN1(ret, location, setn,
INT2FIX(4));
2631 PUSH_SEND(ret, location, idAREF,
INT2FIX(2));
2632 CHECK(pm_compile_pattern_match(iseq, scope_node, ((
const pm_splat_node_t *) cast->
rest)->expression, ret, match_failed_label, in_single_pattern,
false, base_index + 1));
2634 else if (posts_size > 0) {
2635 PUSH_INSN(ret, location, dup);
2636 PUSH_SEND(ret, location, idLength,
INT2FIX(0));
2637 PUSH_INSN1(ret, location, putobject,
INT2FIX(minimum_size));
2638 PUSH_SEND(ret, location, idMINUS,
INT2FIX(1));
2639 PUSH_INSN1(ret, location, setn,
INT2FIX(2));
2640 PUSH_INSN(ret, location, pop);
2644 for (
size_t index = 0; index < posts_size; index++) {
2645 const pm_node_t *post = cast->
posts.
nodes[index];
2646 PUSH_INSN(ret, location, dup);
2648 PUSH_INSN1(ret, location, putobject,
INT2FIX(requireds_size + index));
2649 PUSH_INSN1(ret, location, topn,
INT2FIX(3));
2650 PUSH_SEND(ret, location, idPLUS,
INT2FIX(1));
2651 PUSH_SEND(ret, location, idAREF,
INT2FIX(1));
2652 CHECK(pm_compile_pattern_match(iseq, scope_node, post, ret, match_failed_label, in_single_pattern,
false, base_index + 1));
2655 PUSH_INSN(ret, location, pop);
2656 if (use_rest_size) {
2657 PUSH_INSN(ret, location, pop);
2660 PUSH_INSNL(ret, location, jump, matched_label);
2661 PUSH_INSN(ret, location, putnil);
2662 if (use_rest_size) {
2663 PUSH_INSN(ret, location, putnil);
2666 PUSH_LABEL(ret, type_error_label);
2667 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
2671 VALUE operand = rb_fstring_lit(
"deconstruct must return Array");
2672 PUSH_INSN1(ret, location, putobject, operand);
2675 PUSH_SEND(ret, location, id_core_raise,
INT2FIX(2));
2676 PUSH_INSN(ret, location, pop);
2678 PUSH_LABEL(ret, match_failed_label);
2679 PUSH_INSN(ret, location, pop);
2680 if (use_rest_size) {
2681 PUSH_INSN(ret, location, pop);
2684 PUSH_INSNL(ret, location, jump, unmatched_label);
2687 case PM_FIND_PATTERN_NODE: {
2696 const pm_find_pattern_node_t *cast = (
const pm_find_pattern_node_t *) node;
2699 LABEL *match_failed_label = NEW_LABEL(location.
line);
2700 LABEL *type_error_label = NEW_LABEL(location.
line);
2701 LABEL *deconstruct_label = NEW_LABEL(location.
line);
2702 LABEL *deconstructed_label = NEW_LABEL(location.
line);
2705 CHECK(pm_compile_pattern_constant(iseq, scope_node, cast->
constant, ret, match_failed_label, in_single_pattern, base_index));
2708 CHECK(pm_compile_pattern_deconstruct(iseq, scope_node, node, ret, deconstruct_label, match_failed_label, deconstructed_label, type_error_label, in_single_pattern, use_deconstructed_cache, base_index));
2710 PUSH_INSN(ret, location, dup);
2711 PUSH_SEND(ret, location, idLength,
INT2FIX(0));
2712 PUSH_INSN1(ret, location, putobject,
INT2FIX(size));
2713 PUSH_SEND(ret, location, idGE,
INT2FIX(1));
2714 if (in_single_pattern) {
2715 CHECK(pm_compile_pattern_length_error(iseq, scope_node, node, ret, rb_fstring_lit(
"%p length mismatch (given %p, expected %p+)"),
INT2FIX(size), base_index + 1));
2717 PUSH_INSNL(ret, location, branchunless, match_failed_label);
2720 LABEL *while_begin_label = NEW_LABEL(location.
line);
2721 LABEL *next_loop_label = NEW_LABEL(location.
line);
2722 LABEL *find_succeeded_label = NEW_LABEL(location.
line);
2723 LABEL *find_failed_label = NEW_LABEL(location.
line);
2725 PUSH_INSN(ret, location, dup);
2726 PUSH_SEND(ret, location, idLength,
INT2FIX(0));
2728 PUSH_INSN(ret, location, dup);
2729 PUSH_INSN1(ret, location, putobject,
INT2FIX(size));
2730 PUSH_SEND(ret, location, idMINUS,
INT2FIX(1));
2731 PUSH_INSN1(ret, location, putobject,
INT2FIX(0));
2732 PUSH_LABEL(ret, while_begin_label);
2734 PUSH_INSN(ret, location, dup);
2735 PUSH_INSN1(ret, location, topn,
INT2FIX(2));
2736 PUSH_SEND(ret, location, idLE,
INT2FIX(1));
2737 PUSH_INSNL(ret, location, branchunless, find_failed_label);
2739 for (
size_t index = 0; index < size; index++) {
2740 PUSH_INSN1(ret, location, topn,
INT2FIX(3));
2741 PUSH_INSN1(ret, location, topn,
INT2FIX(1));
2744 PUSH_INSN1(ret, location, putobject,
INT2FIX(index));
2745 PUSH_SEND(ret, location, idPLUS,
INT2FIX(1));
2748 PUSH_SEND(ret, location, idAREF,
INT2FIX(1));
2749 CHECK(pm_compile_pattern_match(iseq, scope_node, cast->
requireds.
nodes[index], ret, next_loop_label, in_single_pattern,
false, base_index + 4));
2752 const pm_splat_node_t *left = cast->
left;
2755 PUSH_INSN1(ret, location, topn,
INT2FIX(3));
2756 PUSH_INSN1(ret, location, putobject,
INT2FIX(0));
2757 PUSH_INSN1(ret, location, topn,
INT2FIX(2));
2758 PUSH_SEND(ret, location, idAREF,
INT2FIX(2));
2759 CHECK(pm_compile_pattern_match(iseq, scope_node, left->
expression, ret, find_failed_label, in_single_pattern,
false, base_index + 4));
2763 const pm_splat_node_t *right = (
const pm_splat_node_t *) cast->
right;
2765 if (right->expression != NULL) {
2766 PUSH_INSN1(ret, location, topn,
INT2FIX(3));
2767 PUSH_INSN1(ret, location, topn,
INT2FIX(1));
2768 PUSH_INSN1(ret, location, putobject,
INT2FIX(size));
2769 PUSH_SEND(ret, location, idPLUS,
INT2FIX(1));
2770 PUSH_INSN1(ret, location, topn,
INT2FIX(3));
2771 PUSH_SEND(ret, location, idAREF,
INT2FIX(2));
2772 pm_compile_pattern_match(iseq, scope_node, right->expression, ret, find_failed_label, in_single_pattern,
false, base_index + 4);
2775 PUSH_INSNL(ret, location, jump, find_succeeded_label);
2777 PUSH_LABEL(ret, next_loop_label);
2778 PUSH_INSN1(ret, location, putobject,
INT2FIX(1));
2779 PUSH_SEND(ret, location, idPLUS,
INT2FIX(1));
2780 PUSH_INSNL(ret, location, jump, while_begin_label);
2782 PUSH_LABEL(ret, find_failed_label);
2783 PUSH_INSN1(ret, location, adjuststack,
INT2FIX(3));
2784 if (in_single_pattern) {
2785 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
2788 VALUE operand = rb_fstring_lit(
"%p does not match to find pattern");
2789 PUSH_INSN1(ret, location, putobject, operand);
2792 PUSH_INSN1(ret, location, topn,
INT2FIX(2));
2793 PUSH_SEND(ret, location, id_core_sprintf,
INT2FIX(2));
2794 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_ERROR_STRING + 1));
2796 PUSH_INSN1(ret, location, putobject,
Qfalse);
2797 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_P + 2));
2799 PUSH_INSN(ret, location, pop);
2800 PUSH_INSN(ret, location, pop);
2802 PUSH_INSNL(ret, location, jump, match_failed_label);
2803 PUSH_INSN1(ret, location, dupn,
INT2FIX(3));
2805 PUSH_LABEL(ret, find_succeeded_label);
2806 PUSH_INSN1(ret, location, adjuststack,
INT2FIX(3));
2809 PUSH_INSN(ret, location, pop);
2810 PUSH_INSNL(ret, location, jump, matched_label);
2811 PUSH_INSN(ret, location, putnil);
2813 PUSH_LABEL(ret, type_error_label);
2814 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
2818 VALUE operand = rb_fstring_lit(
"deconstruct must return Array");
2819 PUSH_INSN1(ret, location, putobject, operand);
2822 PUSH_SEND(ret, location, id_core_raise,
INT2FIX(2));
2823 PUSH_INSN(ret, location, pop);
2825 PUSH_LABEL(ret, match_failed_label);
2826 PUSH_INSN(ret, location, pop);
2827 PUSH_INSNL(ret, location, jump, unmatched_label);
2831 case PM_HASH_PATTERN_NODE: {
2840 const pm_hash_pattern_node_t *cast = (
const pm_hash_pattern_node_t *) node;
2843 bool has_rest = cast->
rest != NULL && !(PM_NODE_TYPE_P(cast->
rest, PM_ASSOC_SPLAT_NODE) && ((
const pm_assoc_splat_node_t *) cast->
rest)->value == NULL);
2846 LABEL *match_failed_label = NEW_LABEL(location.
line);
2847 LABEL *type_error_label = NEW_LABEL(location.
line);
2850 if (has_keys && !has_rest) {
2853 for (
size_t index = 0; index < cast->
elements.
size; index++) {
2855 RUBY_ASSERT(PM_NODE_TYPE_P(element, PM_ASSOC_NODE));
2857 const pm_node_t *key = ((
const pm_assoc_node_t *) element)->key;
2860 VALUE symbol =
ID2SYM(parse_string_symbol(scope_node, (
const pm_symbol_node_t *) key));
2866 CHECK(pm_compile_pattern_constant(iseq, scope_node, cast->
constant, ret, match_failed_label, in_single_pattern, base_index));
2869 PUSH_INSN(ret, location, dup);
2872 VALUE operand =
ID2SYM(rb_intern(
"deconstruct_keys"));
2873 PUSH_INSN1(ret, location, putobject, operand);
2876 PUSH_SEND(ret, location, idRespond_to,
INT2FIX(1));
2877 if (in_single_pattern) {
2878 CHECK(pm_compile_pattern_generic_error(iseq, scope_node, node, ret, rb_fstring_lit(
"%p does not respond to #deconstruct_keys"), base_index + 1));
2880 PUSH_INSNL(ret, location, branchunless, match_failed_label);
2883 PUSH_INSN(ret, location, putnil);
2887 RB_OBJ_SET_FROZEN_SHAREABLE(keys);
2888 PUSH_INSN1(ret, location, duparray, keys);
2891 PUSH_SEND(ret, location, rb_intern(
"deconstruct_keys"),
INT2FIX(1));
2893 PUSH_INSN(ret, location, dup);
2895 PUSH_INSNL(ret, location, branchunless, type_error_label);
2898 PUSH_SEND(ret, location, rb_intern(
"dup"),
INT2FIX(0));
2902 DECL_ANCHOR(match_values);
2904 for (
size_t index = 0; index < cast->
elements.
size; index++) {
2906 RUBY_ASSERT(PM_NODE_TYPE_P(element, PM_ASSOC_NODE));
2908 const pm_assoc_node_t *assoc = (
const pm_assoc_node_t *) element;
2909 const pm_node_t *key = assoc->
key;
2912 VALUE symbol =
ID2SYM(parse_string_symbol(scope_node, (
const pm_symbol_node_t *) key));
2913 PUSH_INSN(ret, location, dup);
2914 PUSH_INSN1(ret, location, putobject, symbol);
2915 PUSH_SEND(ret, location, rb_intern(
"key?"),
INT2FIX(1));
2917 if (in_single_pattern) {
2918 LABEL *match_succeeded_label = NEW_LABEL(location.
line);
2920 PUSH_INSN(ret, location, dup);
2921 PUSH_INSNL(ret, location, branchif, match_succeeded_label);
2925 RB_OBJ_SET_SHAREABLE(operand);
2926 PUSH_INSN1(ret, location, putobject, operand);
2929 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_ERROR_STRING + 2));
2930 PUSH_INSN1(ret, location, putobject,
Qtrue);
2931 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_P + 3));
2932 PUSH_INSN1(ret, location, topn,
INT2FIX(3));
2933 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_MATCHEE + 4));
2934 PUSH_INSN1(ret, location, putobject, symbol);
2935 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_KEY + 5));
2937 PUSH_INSN1(ret, location, adjuststack,
INT2FIX(4));
2938 PUSH_LABEL(ret, match_succeeded_label);
2941 PUSH_INSNL(ret, location, branchunless, match_failed_label);
2942 PUSH_INSN(match_values, location, dup);
2943 PUSH_INSN1(match_values, location, putobject, symbol);
2944 PUSH_SEND(match_values, location, has_rest ? rb_intern(
"delete") : idAREF,
INT2FIX(1));
2946 const pm_node_t *value = assoc->
value;
2947 if (PM_NODE_TYPE_P(value, PM_IMPLICIT_NODE)) {
2948 value = ((
const pm_implicit_node_t *) value)->value;
2951 CHECK(pm_compile_pattern_match(iseq, scope_node, value, match_values, match_failed_label, in_single_pattern,
false, base_index + 1));
2954 PUSH_SEQ(ret, match_values);
2957 PUSH_INSN(ret, location, dup);
2958 PUSH_SEND(ret, location, idEmptyP,
INT2FIX(0));
2959 if (in_single_pattern) {
2960 CHECK(pm_compile_pattern_generic_error(iseq, scope_node, node, ret, rb_fstring_lit(
"%p is not empty"), base_index + 1));
2962 PUSH_INSNL(ret, location, branchunless, match_failed_label);
2966 switch (PM_NODE_TYPE(cast->
rest)) {
2967 case PM_NO_KEYWORDS_PARAMETER_NODE: {
2968 PUSH_INSN(ret, location, dup);
2969 PUSH_SEND(ret, location, idEmptyP,
INT2FIX(0));
2970 if (in_single_pattern) {
2971 pm_compile_pattern_generic_error(iseq, scope_node, node, ret, rb_fstring_lit(
"rest of %p is not empty"), base_index + 1);
2973 PUSH_INSNL(ret, location, branchunless, match_failed_label);
2976 case PM_ASSOC_SPLAT_NODE: {
2977 const pm_assoc_splat_node_t *splat = (
const pm_assoc_splat_node_t *) cast->
rest;
2978 PUSH_INSN(ret, location, dup);
2979 pm_compile_pattern_match(iseq, scope_node, splat->value, ret, match_failed_label, in_single_pattern,
false, base_index + 1);
2983 rb_bug(
"unreachable");
2988 PUSH_INSN(ret, location, pop);
2989 PUSH_INSNL(ret, location, jump, matched_label);
2990 PUSH_INSN(ret, location, putnil);
2992 PUSH_LABEL(ret, type_error_label);
2993 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
2997 VALUE operand = rb_fstring_lit(
"deconstruct_keys must return Hash");
2998 PUSH_INSN1(ret, location, putobject, operand);
3001 PUSH_SEND(ret, location, id_core_raise,
INT2FIX(2));
3002 PUSH_INSN(ret, location, pop);
3004 PUSH_LABEL(ret, match_failed_label);
3005 PUSH_INSN(ret, location, pop);
3006 PUSH_INSNL(ret, location, jump, unmatched_label);
3009 case PM_CAPTURE_PATTERN_NODE: {
3019 const pm_capture_pattern_node_t *cast = (
const pm_capture_pattern_node_t *) node;
3021 LABEL *match_failed_label = NEW_LABEL(location.
line);
3023 PUSH_INSN(ret, location, dup);
3024 CHECK(pm_compile_pattern_match(iseq, scope_node, cast->
value, ret, match_failed_label, in_single_pattern, use_deconstructed_cache, base_index + 1));
3025 CHECK(pm_compile_pattern(iseq, scope_node, (
const pm_node_t *) cast->
target, ret, matched_label, match_failed_label, in_single_pattern,
false, base_index));
3026 PUSH_INSN(ret, location, putnil);
3028 PUSH_LABEL(ret, match_failed_label);
3029 PUSH_INSN(ret, location, pop);
3030 PUSH_INSNL(ret, location, jump, unmatched_label);
3034 case PM_LOCAL_VARIABLE_TARGET_NODE: {
3038 const pm_local_variable_target_node_t *cast = (
const pm_local_variable_target_node_t *) node;
3039 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, cast->
name, cast->
depth);
3041 PUSH_SETLOCAL(ret, location, index.index, index.level);
3042 PUSH_INSNL(ret, location, jump, matched_label);
3045 case PM_ALTERNATION_PATTERN_NODE: {
3048 const pm_alternation_pattern_node_t *cast = (
const pm_alternation_pattern_node_t *) node;
3050 LABEL *matched_left_label = NEW_LABEL(location.
line);
3051 LABEL *unmatched_left_label = NEW_LABEL(location.
line);
3055 PUSH_INSN(ret, location, dup);
3056 CHECK(pm_compile_pattern(iseq, scope_node, cast->
left, ret, matched_left_label, unmatched_left_label, in_single_pattern, use_deconstructed_cache, base_index + 1));
3061 PUSH_LABEL(ret, matched_left_label);
3062 PUSH_INSN(ret, location, pop);
3063 PUSH_INSNL(ret, location, jump, matched_label);
3064 PUSH_INSN(ret, location, putnil);
3068 PUSH_LABEL(ret, unmatched_left_label);
3069 CHECK(pm_compile_pattern(iseq, scope_node, cast->
right, ret, matched_label, unmatched_label, in_single_pattern, use_deconstructed_cache, base_index));
3072 case PM_PARENTHESES_NODE:
3077 return pm_compile_pattern(iseq, scope_node, ((
const pm_parentheses_node_t *) node)->body, ret, matched_label, unmatched_label, in_single_pattern, use_deconstructed_cache, base_index);
3078 case PM_PINNED_EXPRESSION_NODE:
3083 node = ((
const pm_pinned_expression_node_t *) node)->expression;
3086 case PM_CLASS_VARIABLE_READ_NODE:
3087 case PM_CONSTANT_PATH_NODE:
3088 case PM_CONSTANT_READ_NODE:
3091 case PM_GLOBAL_VARIABLE_READ_NODE:
3092 case PM_IMAGINARY_NODE:
3093 case PM_INSTANCE_VARIABLE_READ_NODE:
3094 case PM_IT_LOCAL_VARIABLE_READ_NODE:
3095 case PM_INTEGER_NODE:
3096 case PM_INTERPOLATED_REGULAR_EXPRESSION_NODE:
3097 case PM_INTERPOLATED_STRING_NODE:
3098 case PM_INTERPOLATED_SYMBOL_NODE:
3099 case PM_INTERPOLATED_X_STRING_NODE:
3100 case PM_LAMBDA_NODE:
3101 case PM_LOCAL_VARIABLE_READ_NODE:
3103 case PM_SOURCE_ENCODING_NODE:
3104 case PM_SOURCE_FILE_NODE:
3105 case PM_SOURCE_LINE_NODE:
3107 case PM_RATIONAL_NODE:
3108 case PM_REGULAR_EXPRESSION_NODE:
3110 case PM_STRING_NODE:
3111 case PM_SYMBOL_NODE:
3113 case PM_X_STRING_NODE: {
3117 PM_COMPILE_NOT_POPPED(node);
3118 if (in_single_pattern) {
3119 PUSH_INSN1(ret, location, dupn,
INT2FIX(2));
3122 PUSH_INSN1(ret, location, checkmatch,
INT2FIX(VM_CHECKMATCH_TYPE_CASE));
3124 if (in_single_pattern) {
3125 pm_compile_pattern_eqq_error(iseq, scope_node, node, ret, base_index + 2);
3128 PUSH_INSNL(ret, location, branchif, matched_label);
3129 PUSH_INSNL(ret, location, jump, unmatched_label);
3132 case PM_PINNED_VARIABLE_NODE: {
3137 const pm_pinned_variable_node_t *cast = (
const pm_pinned_variable_node_t *) node;
3138 CHECK(pm_compile_pattern(iseq, scope_node, cast->
variable, ret, matched_label, unmatched_label, in_single_pattern,
true, base_index));
3142 case PM_UNLESS_NODE: {
3154 const pm_node_t *predicate;
3155 const pm_node_t *statement;
3157 if (PM_NODE_TYPE_P(node, PM_IF_NODE)) {
3158 const pm_if_node_t *cast = (
const pm_if_node_t *) node;
3165 const pm_unless_node_t *cast = (
const pm_unless_node_t *) node;
3172 CHECK(pm_compile_pattern_match(iseq, scope_node, statement, ret, unmatched_label, in_single_pattern, use_deconstructed_cache, base_index));
3173 PM_COMPILE_NOT_POPPED(predicate);
3175 if (in_single_pattern) {
3176 LABEL *match_succeeded_label = NEW_LABEL(location.
line);
3178 PUSH_INSN(ret, location, dup);
3179 if (PM_NODE_TYPE_P(node, PM_IF_NODE)) {
3180 PUSH_INSNL(ret, location, branchif, match_succeeded_label);
3183 PUSH_INSNL(ret, location, branchunless, match_succeeded_label);
3187 VALUE operand = rb_fstring_lit(
"guard clause does not return true");
3188 PUSH_INSN1(ret, location, putobject, operand);
3191 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_ERROR_STRING + 1));
3192 PUSH_INSN1(ret, location, putobject,
Qfalse);
3193 PUSH_INSN1(ret, location, setn,
INT2FIX(base_index + PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_P + 2));
3195 PUSH_INSN(ret, location, pop);
3196 PUSH_INSN(ret, location, pop);
3198 PUSH_LABEL(ret, match_succeeded_label);
3201 if (PM_NODE_TYPE_P(node, PM_IF_NODE)) {
3202 PUSH_INSNL(ret, location, branchunless, unmatched_label);
3205 PUSH_INSNL(ret, location, branchif, unmatched_label);
3208 PUSH_INSNL(ret, location, jump, matched_label);
3215 rb_bug(
"Unexpected node type in pattern matching expression: %s", pm_node_type_to_str(PM_NODE_TYPE(node)));
3222#undef PM_PATTERN_BASE_INDEX_OFFSET_DECONSTRUCTED_CACHE
3223#undef PM_PATTERN_BASE_INDEX_OFFSET_ERROR_STRING
3224#undef PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_P
3225#undef PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_MATCHEE
3226#undef PM_PATTERN_BASE_INDEX_OFFSET_KEY_ERROR_KEY
3230pm_scope_node_init(
const pm_node_t *node, pm_scope_node_t *scope, pm_scope_node_t *previous)
3234 memset(scope, 0,
sizeof(pm_scope_node_t));
3236 scope->base.
type = PM_SCOPE_NODE;
3240 scope->previous = previous;
3241 scope->ast_node = (pm_node_t *) node;
3244 scope->parser = previous->parser;
3245 scope->encoding = previous->encoding;
3247 scope->constants = previous->constants;
3248 scope->coverage_enabled = previous->coverage_enabled;
3252 switch (PM_NODE_TYPE(node)) {
3253 case PM_BLOCK_NODE: {
3254 const pm_block_node_t *cast = (
const pm_block_node_t *) node;
3255 scope->body = cast->
body;
3256 scope->locals = cast->
locals;
3260 case PM_CLASS_NODE: {
3261 const pm_class_node_t *cast = (
const pm_class_node_t *) node;
3262 scope->body = cast->
body;
3263 scope->locals = cast->
locals;
3267 const pm_def_node_t *cast = (
const pm_def_node_t *) node;
3268 scope->parameters = (pm_node_t *) cast->
parameters;
3269 scope->body = cast->body;
3270 scope->locals = cast->locals;
3273 case PM_ENSURE_NODE: {
3274 const pm_ensure_node_t *cast = (
const pm_ensure_node_t *) node;
3275 scope->body = (pm_node_t *) node;
3285 const pm_for_node_t *cast = (
const pm_for_node_t *) node;
3286 scope->body = (pm_node_t *) cast->
statements;
3289 case PM_INTERPOLATED_REGULAR_EXPRESSION_NODE: {
3291 scope->body = (pm_node_t *) node;
3294 case PM_LAMBDA_NODE: {
3295 const pm_lambda_node_t *cast = (
const pm_lambda_node_t *) node;
3297 scope->body = cast->
body;
3298 scope->locals = cast->
locals;
3308 case PM_MODULE_NODE: {
3309 const pm_module_node_t *cast = (
const pm_module_node_t *) node;
3310 scope->body = cast->
body;
3311 scope->locals = cast->
locals;
3314 case PM_POST_EXECUTION_NODE: {
3315 const pm_post_execution_node_t *cast = (
const pm_post_execution_node_t *) node;
3316 scope->body = (pm_node_t *) cast->
statements;
3319 case PM_PROGRAM_NODE: {
3320 const pm_program_node_t *cast = (
const pm_program_node_t *) node;
3321 scope->body = (pm_node_t *) cast->
statements;
3322 scope->locals = cast->locals;
3325 case PM_RESCUE_NODE: {
3326 const pm_rescue_node_t *cast = (
const pm_rescue_node_t *) node;
3327 scope->body = (pm_node_t *) cast->
statements;
3330 case PM_RESCUE_MODIFIER_NODE: {
3331 const pm_rescue_modifier_node_t *cast = (
const pm_rescue_modifier_node_t *) node;
3335 case PM_SINGLETON_CLASS_NODE: {
3336 const pm_singleton_class_node_t *cast = (
const pm_singleton_class_node_t *) node;
3337 scope->body = cast->
body;
3338 scope->locals = cast->
locals;
3341 case PM_STATEMENTS_NODE: {
3342 const pm_statements_node_t *cast = (
const pm_statements_node_t *) node;
3343 scope->body = (pm_node_t *) cast;
3347 rb_bug(
"unreachable");
3353pm_scope_node_destroy(pm_scope_node_t *scope_node)
3355 if (scope_node->index_lookup_table) {
3356 st_free_table(scope_node->index_lookup_table);
3372pm_compile_retry_end_label(rb_iseq_t *iseq, LINK_ANCHOR *
const ret, LABEL *retry_end_l)
3375 LINK_ELEMENT *last_elem = LAST_ELEMENT(ret);
3376 iobj = IS_INSN(last_elem) ? (INSN*) last_elem : (INSN*) get_prev_insn((INSN*) last_elem);
3377 while (!IS_INSN_ID(iobj, send) && !IS_INSN_ID(iobj, invokesuper) && !IS_INSN_ID(iobj, sendforward) && !IS_INSN_ID(iobj, invokesuperforward)) {
3378 iobj = (INSN*) get_prev_insn(iobj);
3380 ELEM_INSERT_NEXT(&iobj->link, (LINK_ELEMENT*) retry_end_l);
3385 if (&iobj->link == LAST_ELEMENT(ret)) {
3386 ret->last = (LINK_ELEMENT*) retry_end_l;
3391pm_iseq_builtin_function_name(
const pm_scope_node_t *scope_node,
const pm_node_t *receiver,
ID method_id)
3393 const char *name = rb_id2name(method_id);
3394 static const char prefix[] =
"__builtin_";
3395 const size_t prefix_len =
sizeof(prefix) - 1;
3397 if (receiver == NULL) {
3398 if (UNLIKELY(strncmp(prefix, name, prefix_len) == 0)) {
3400 return &name[prefix_len];
3403 else if (PM_NODE_TYPE_P(receiver, PM_CALL_NODE)) {
3404 if (PM_NODE_FLAG_P(receiver, PM_CALL_NODE_FLAGS_VARIABLE_CALL)) {
3405 const pm_call_node_t *cast = (
const pm_call_node_t *) receiver;
3412 else if (PM_NODE_TYPE_P(receiver, PM_CONSTANT_READ_NODE)) {
3413 const pm_constant_read_node_t *cast = (
const pm_constant_read_node_t *) receiver;
3425pm_compile_builtin_attr(rb_iseq_t *iseq,
const pm_scope_node_t *scope_node,
const pm_arguments_node_t *arguments,
const pm_node_location_t *node_location)
3427 if (arguments == NULL) {
3428 COMPILE_ERROR(iseq, node_location->
line,
"attr!: no argument");
3432 const pm_node_t *argument;
3434 if (!PM_NODE_TYPE_P(argument, PM_SYMBOL_NODE)) {
3435 COMPILE_ERROR(iseq, node_location->
line,
"non symbol argument to attr!: %s", pm_node_type_to_str(PM_NODE_TYPE(argument)));
3439 VALUE symbol = pm_static_literal_value(iseq, argument, scope_node);
3442 if (strcmp(RSTRING_PTR(
string),
"leaf") == 0) {
3443 ISEQ_BODY(iseq)->builtin_attrs |= BUILTIN_ATTR_LEAF;
3445 else if (strcmp(RSTRING_PTR(
string),
"inline_block") == 0) {
3446 ISEQ_BODY(iseq)->builtin_attrs |= BUILTIN_ATTR_INLINE_BLOCK;
3448 else if (strcmp(RSTRING_PTR(
string),
"use_block") == 0) {
3449 iseq_set_use_block(iseq);
3451 else if (strcmp(RSTRING_PTR(
string),
"c_trace") == 0) {
3453 ISEQ_BODY(iseq)->builtin_attrs |= BUILTIN_ATTR_C_TRACE;
3456 COMPILE_ERROR(iseq, node_location->
line,
"unknown argument to attr!: %s", RSTRING_PTR(
string));
3465pm_compile_builtin_arg(rb_iseq_t *iseq, LINK_ANCHOR *
const ret,
const pm_scope_node_t *scope_node,
const pm_arguments_node_t *arguments,
const pm_node_location_t *node_location,
int popped)
3467 if (arguments == NULL) {
3468 COMPILE_ERROR(iseq, node_location->
line,
"arg!: no argument");
3473 COMPILE_ERROR(iseq, node_location->
line,
"arg!: too many argument");
3478 if (!PM_NODE_TYPE_P(argument, PM_SYMBOL_NODE)) {
3479 COMPILE_ERROR(iseq, node_location->
line,
"non symbol argument to arg!: %s", pm_node_type_to_str(PM_NODE_TYPE(argument)));
3484 ID name = parse_string_symbol(scope_node, ((
const pm_symbol_node_t *) argument));
3485 int index = ISEQ_BODY(ISEQ_BODY(iseq)->local_iseq)->local_table_size - get_local_var_idx(iseq, name);
3487 debugs(
"id: %s idx: %d\n", rb_id2name(name), index);
3488 PUSH_GETLOCAL(ret, *node_location, index, get_lvar_level(iseq));
3495pm_compile_builtin_mandatory_only_method(rb_iseq_t *iseq, pm_scope_node_t *scope_node,
const pm_call_node_t *call_node,
const pm_node_location_t *node_location)
3497 const pm_node_t *ast_node = scope_node->ast_node;
3498 if (!PM_NODE_TYPE_P(ast_node, PM_DEF_NODE)) {
3499 rb_bug(
"mandatory_only?: not in method definition");
3503 const pm_def_node_t *def_node = (
const pm_def_node_t *) ast_node;
3504 const pm_parameters_node_t *parameters_node = def_node->
parameters;
3505 if (parameters_node == NULL) {
3506 rb_bug(
"mandatory_only?: in method definition with no parameters");
3510 const pm_node_t *body_node = def_node->
body;
3511 if (body_node == NULL || !PM_NODE_TYPE_P(body_node, PM_STATEMENTS_NODE) || (((
const pm_statements_node_t *) body_node)->body.size != 1) || !PM_NODE_TYPE_P(((
const pm_statements_node_t *) body_node)->body.nodes[0], PM_IF_NODE)) {
3512 rb_bug(
"mandatory_only?: not in method definition with plain statements");
3516 const pm_if_node_t *if_node = (
const pm_if_node_t *) ((
const pm_statements_node_t *) body_node)->body.nodes[0];
3517 if (if_node->
predicate != ((
const pm_node_t *) call_node)) {
3518 rb_bug(
"mandatory_only?: can't find mandatory node");
3522 pm_parameters_node_t parameters = {
3523 .base = parameters_node->
base,
3527 const pm_def_node_t def = {
3528 .base = def_node->
base,
3529 .name = def_node->
name,
3531 .parameters = ¶meters,
3540 pm_scope_node_t next_scope_node;
3541 pm_scope_node_init(&def.base, &next_scope_node, scope_node);
3544 const rb_iseq_t *mandatory_only_iseq = pm_iseq_new_with_opt(
3546 rb_iseq_base_label(iseq),
3548 rb_iseq_realpath(iseq),
3549 node_location->
line,
3553 ISEQ_COMPILE_DATA(iseq)->option,
3556 RB_OBJ_WRITE(iseq, &ISEQ_BODY(iseq)->mandatory_only_iseq, (
VALUE)mandatory_only_iseq);
3559 RUBY_ASSERT(ISEQ_BODY(iseq)->mandatory_only_iseq == NULL);
3560 rb_jump_tag(error_state);
3563 pm_scope_node_destroy(&next_scope_node);
3568pm_compile_builtin_function_call(rb_iseq_t *iseq, LINK_ANCHOR *
const ret, pm_scope_node_t *scope_node,
const pm_call_node_t *call_node,
const pm_node_location_t *node_location,
int popped,
const rb_iseq_t *parent_block,
const char *builtin_func)
3570 const pm_arguments_node_t *arguments = call_node->
arguments;
3572 if (parent_block != NULL) {
3573 COMPILE_ERROR(iseq, node_location->
line,
"should not call builtins here.");
3577#define BUILTIN_INLINE_PREFIX "_bi"
3578 char inline_func[
sizeof(BUILTIN_INLINE_PREFIX) +
DECIMAL_SIZE_OF(
int)];
3579 bool cconst =
false;
3584 if (strcmp(
"cstmt!", builtin_func) == 0 || strcmp(
"cexpr!", builtin_func) == 0) {
3587 else if (strcmp(
"cconst!", builtin_func) == 0) {
3590 else if (strcmp(
"cinit!", builtin_func) == 0) {
3594 else if (strcmp(
"attr!", builtin_func) == 0) {
3595 return pm_compile_builtin_attr(iseq, scope_node, arguments, node_location);
3597 else if (strcmp(
"arg!", builtin_func) == 0) {
3598 return pm_compile_builtin_arg(iseq, ret, scope_node, arguments, node_location, popped);
3600 else if (strcmp(
"mandatory_only?", builtin_func) == 0) {
3602 rb_bug(
"mandatory_only? should be in if condition");
3604 else if (!LIST_INSN_SIZE_ZERO(ret)) {
3605 rb_bug(
"mandatory_only? should be put on top");
3608 PUSH_INSN1(ret, *node_location, putobject,
Qfalse);
3609 return pm_compile_builtin_mandatory_only_method(iseq, scope_node, call_node, node_location);
3612 rb_bug(
"can't find builtin function:%s", builtin_func);
3615 COMPILE_ERROR(iseq, node_location->
line,
"can't find builtin function:%s", builtin_func);
3619 int inline_index = node_location->
line;
3620 snprintf(inline_func,
sizeof(inline_func), BUILTIN_INLINE_PREFIX
"%d", inline_index);
3621 builtin_func = inline_func;
3627 typedef VALUE(*builtin_func0)(
void *,
VALUE);
3628 VALUE const_val = (*(builtin_func0)(uintptr_t)bf->func_ptr)(NULL,
Qnil);
3629 PUSH_INSN1(ret, *node_location, putobject, const_val);
3635 DECL_ANCHOR(args_seq);
3639 int argc = pm_setup_args(arguments, call_node->
block, &flags, &keywords, iseq, args_seq, scope_node, node_location);
3641 if (argc != bf->argc) {
3642 COMPILE_ERROR(iseq, node_location->
line,
"argc is not match for builtin function:%s (expect %d but %d)", builtin_func, bf->argc, argc);
3646 unsigned int start_index;
3647 if (delegate_call_p(iseq, argc, args_seq, &start_index)) {
3648 PUSH_INSN2(ret, *node_location, opt_invokebuiltin_delegate, bf,
INT2FIX(start_index));
3651 PUSH_SEQ(ret, args_seq);
3652 PUSH_INSN1(ret, *node_location, invokebuiltin, bf);
3655 if (popped) PUSH_INSN(ret, *node_location, pop);
3663pm_compile_call(rb_iseq_t *iseq,
const pm_call_node_t *call_node, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node,
ID method_id, LABEL *start)
3670 LABEL *else_label = NEW_LABEL(location.
line);
3671 LABEL *end_label = NEW_LABEL(location.
line);
3672 LABEL *retry_end_l = NEW_LABEL(location.
line);
3675 rb_code_location_t code_location = { 0 };
3676 int node_id = location.
node_id;
3678 if (PM_NODE_FLAG_P(call_node, PM_CALL_NODE_FLAGS_SAFE_NAVIGATION)) {
3679 if (PM_BRANCH_COVERAGE_P(iseq)) {
3680 const uint8_t *cursors[3] = {
3686 const uint8_t *end_cursor = cursors[0];
3687 end_cursor = (end_cursor == NULL || cursors[1] == NULL) ? cursors[1] : (end_cursor > cursors[1] ? end_cursor : cursors[1]);
3688 end_cursor = (end_cursor == NULL || cursors[2] == NULL) ? cursors[2] : (end_cursor > cursors[2] ? end_cursor : cursors[2]);
3691 const pm_line_column_t start_location = PM_NODE_START_LINE_COLUMN(scope_node->parser, call_node);
3694 code_location = (rb_code_location_t) {
3695 .beg_pos = { .lineno = start_location.line, .column = start_location.column },
3696 .end_pos = { .lineno = end_location.line, .column = end_location.column }
3699 branches = decl_branch_base(iseq, PTR2NUM(call_node), &code_location,
"&.");
3702 PUSH_INSN(ret, location, dup);
3703 PUSH_INSNL(ret, location, branchnil, else_label);
3705 add_trace_branch_coverage(iseq, ret, &code_location, node_id, 0,
"then", branches);
3708 LINK_ELEMENT *opt_new_prelude = LAST_ELEMENT(ret);
3713 int orig_argc = pm_setup_args(call_node->
arguments, call_node->
block, &flags, &kw_arg, iseq, ret, scope_node, &location);
3714 const rb_iseq_t *previous_block = ISEQ_COMPILE_DATA(iseq)->current_block;
3715 const rb_iseq_t *block_iseq = NULL;
3717 if (call_node->
block != NULL && PM_NODE_TYPE_P(call_node->
block, PM_BLOCK_NODE)) {
3719 pm_scope_node_t next_scope_node;
3720 pm_scope_node_init(call_node->
block, &next_scope_node, scope_node);
3722 block_iseq = NEW_CHILD_ISEQ(&next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, pm_node_line_number(scope_node->parser, call_node->
block));
3723 pm_scope_node_destroy(&next_scope_node);
3724 ISEQ_COMPILE_DATA(iseq)->current_block = block_iseq;
3727 if (PM_NODE_FLAG_P(call_node, PM_CALL_NODE_FLAGS_VARIABLE_CALL)) {
3728 flags |= VM_CALL_VCALL;
3732 flags |= VM_CALL_ARGS_SIMPLE;
3736 if (PM_NODE_FLAG_P(call_node, PM_CALL_NODE_FLAGS_IGNORE_VISIBILITY)) {
3737 flags |= VM_CALL_FCALL;
3740 if (!popped && PM_NODE_FLAG_P(call_node, PM_CALL_NODE_FLAGS_ATTRIBUTE_WRITE)) {
3741 if (flags & VM_CALL_ARGS_BLOCKARG) {
3742 PUSH_INSN1(ret, location, topn,
INT2FIX(1));
3743 if (flags & VM_CALL_ARGS_SPLAT) {
3744 PUSH_INSN1(ret, location, putobject,
INT2FIX(-1));
3745 PUSH_SEND_WITH_FLAG(ret, location, idAREF,
INT2FIX(1),
INT2FIX(0));
3747 PUSH_INSN1(ret, location, setn,
INT2FIX(orig_argc + 3));
3748 PUSH_INSN(ret, location, pop);
3750 else if (flags & VM_CALL_ARGS_SPLAT) {
3751 PUSH_INSN(ret, location, dup);
3752 PUSH_INSN1(ret, location, putobject,
INT2FIX(-1));
3753 PUSH_SEND_WITH_FLAG(ret, location, idAREF,
INT2FIX(1),
INT2FIX(0));
3754 PUSH_INSN1(ret, location, setn,
INT2FIX(orig_argc + 2));
3755 PUSH_INSN(ret, location, pop);
3758 PUSH_INSN1(ret, location, setn,
INT2FIX(orig_argc + 1));
3762 if ((flags & VM_CALL_KW_SPLAT) && (flags & VM_CALL_ARGS_BLOCKARG) && !(flags & VM_CALL_KW_SPLAT_MUT)) {
3763 PUSH_INSN(ret, location, splatkw);
3766 LABEL *not_basic_new = NEW_LABEL(location.
line);
3767 LABEL *not_basic_new_finish = NEW_LABEL(location.
line);
3769 bool inline_new = ISEQ_COMPILE_DATA(iseq)->option->specialized_instruction &&
3770 method_id == rb_intern(
"new") &&
3771 call_node->
block == NULL &&
3772 (flags & VM_CALL_ARGS_BLOCKARG) == 0;
3775 if (LAST_ELEMENT(ret) == opt_new_prelude) {
3776 PUSH_INSN(ret, location, putnil);
3777 PUSH_INSN(ret, location, swap);
3780 ELEM_INSERT_NEXT(opt_new_prelude, &new_insn_body(iseq, location.
line, location.
node_id, BIN(swap), 0)->link);
3781 ELEM_INSERT_NEXT(opt_new_prelude, &new_insn_body(iseq, location.
line, location.
node_id, BIN(putnil), 0)->link);
3784 rb_callinfo_kwarg_retain(kw_arg);
3788 if (flags & VM_CALL_FORWARDING) {
3789 ci = (
VALUE)new_callinfo(iseq, method_id, orig_argc + 1, flags, kw_arg, 0);
3792 ci = (
VALUE)new_callinfo(iseq, method_id, orig_argc, flags, kw_arg, 0);
3795 PUSH_INSN2(ret, location, opt_new, ci, not_basic_new);
3796 LABEL_REF(not_basic_new);
3798 PUSH_SEND_R(ret, location, rb_intern(
"initialize"),
INT2FIX(orig_argc), block_iseq,
INT2FIX(flags | VM_CALL_FCALL), kw_arg);
3799 PUSH_INSNL(ret, location, jump, not_basic_new_finish);
3801 PUSH_LABEL(ret, not_basic_new);
3803 PUSH_SEND_R(ret, location, method_id,
INT2FIX(orig_argc), block_iseq,
INT2FIX(flags), kw_arg);
3804 PUSH_INSN(ret, location, swap);
3806 PUSH_LABEL(ret, not_basic_new_finish);
3807 PUSH_INSN(ret, location, pop);
3809 rb_callinfo_kwarg_release(kw_arg);
3812 PUSH_SEND_R(ret, location, method_id,
INT2FIX(orig_argc), block_iseq,
INT2FIX(flags), kw_arg);
3815 if (block_iseq && ISEQ_BODY(block_iseq)->catch_table) {
3816 pm_compile_retry_end_label(iseq, ret, retry_end_l);
3817 PUSH_CATCH_ENTRY(CATCH_TYPE_BREAK, start, retry_end_l, block_iseq, retry_end_l);
3820 if (PM_NODE_FLAG_P(call_node, PM_CALL_NODE_FLAGS_SAFE_NAVIGATION)) {
3821 PUSH_INSNL(ret, location, jump, end_label);
3822 PUSH_LABEL(ret, else_label);
3823 add_trace_branch_coverage(iseq, ret, &code_location, node_id, 1,
"else", branches);
3824 PUSH_LABEL(ret, end_label);
3827 if (PM_NODE_FLAG_P(call_node, PM_CALL_NODE_FLAGS_ATTRIBUTE_WRITE) && !popped) {
3828 PUSH_INSN(ret, location, pop);
3831 if (popped) PUSH_INSN(ret, location, pop);
3832 ISEQ_COMPILE_DATA(iseq)->current_block = previous_block;
3840pm_compile_back_reference_ref(
const pm_back_reference_read_node_t *node)
3854pm_compile_numbered_reference_ref(
const pm_numbered_reference_read_node_t *node)
3860pm_compile_defined_expr0(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node,
bool in_condition, LABEL **lfinish,
bool explicit_receiver)
3862#define PUSH_VAL(type) (in_condition ? Qtrue : rb_iseq_defined_string(type))
3865 enum defined_type dtype = DEFINED_NOT_DEFINED;
3868 switch (PM_NODE_TYPE(node)) {
3873 dtype = DEFINED_NIL;
3876 case PM_INSTANCE_VARIABLE_READ_NODE: {
3879 const pm_instance_variable_read_node_t *cast = (
const pm_instance_variable_read_node_t *) node;
3880 ID name = pm_constant_id_lookup(scope_node, cast->
name);
3882 PUSH_INSN3(ret, location, definedivar,
ID2SYM(name), get_ivar_ic_value(iseq, name), PUSH_VAL(DEFINED_IVAR));
3887 case PM_LOCAL_VARIABLE_READ_NODE:
3890 case PM_IT_LOCAL_VARIABLE_READ_NODE:
3893 dtype = DEFINED_LVAR;
3896 case PM_GLOBAL_VARIABLE_READ_NODE: {
3899 const pm_global_variable_read_node_t *cast = (
const pm_global_variable_read_node_t *) node;
3900 ID name = pm_constant_id_lookup(scope_node, cast->
name);
3902 PUSH_INSN(ret, location, putnil);
3903 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_GVAR),
ID2SYM(name), PUSH_VAL(DEFINED_GVAR));
3908 case PM_CLASS_VARIABLE_READ_NODE: {
3911 const pm_class_variable_read_node_t *cast = (
const pm_class_variable_read_node_t *) node;
3912 ID name = pm_constant_id_lookup(scope_node, cast->
name);
3914 PUSH_INSN(ret, location, putnil);
3915 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_CVAR),
ID2SYM(name), PUSH_VAL(DEFINED_CVAR));
3920 case PM_CONSTANT_READ_NODE: {
3923 const pm_constant_read_node_t *cast = (
const pm_constant_read_node_t *) node;
3924 ID name = pm_constant_id_lookup(scope_node, cast->
name);
3926 PUSH_INSN(ret, location, putnil);
3927 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_CONST),
ID2SYM(name), PUSH_VAL(DEFINED_CONST));
3935 iseq_set_use_block(ISEQ_BODY(iseq)->local_iseq);
3937 PUSH_INSN(ret, location, putnil);
3938 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_YIELD), 0, PUSH_VAL(DEFINED_YIELD));
3942 case PM_SUPER_NODE: {
3945 const pm_super_node_t *cast = (
const pm_super_node_t *) node;
3947 if (cast->
block != NULL && !PM_NODE_TYPE_P(cast->
block, PM_BLOCK_ARGUMENT_NODE)) {
3948 dtype = DEFINED_EXPR;
3952 PUSH_INSN(ret, location, putnil);
3953 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_ZSUPER), 0, PUSH_VAL(DEFINED_ZSUPER));
3956 case PM_FORWARDING_SUPER_NODE: {
3959 const pm_forwarding_super_node_t *cast = (
const pm_forwarding_super_node_t *) node;
3961 if (cast->
block != NULL) {
3962 dtype = DEFINED_EXPR;
3966 PUSH_INSN(ret, location, putnil);
3967 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_ZSUPER), 0, PUSH_VAL(DEFINED_ZSUPER));
3974 dtype = DEFINED_SELF;
3980 dtype = DEFINED_TRUE;
3986 dtype = DEFINED_FALSE;
3989 case PM_CALL_AND_WRITE_NODE:
3992 case PM_CALL_OPERATOR_WRITE_NODE:
3995 case PM_CALL_OR_WRITE_NODE:
3998 case PM_CLASS_VARIABLE_AND_WRITE_NODE:
4001 case PM_CLASS_VARIABLE_OPERATOR_WRITE_NODE:
4004 case PM_CLASS_VARIABLE_OR_WRITE_NODE:
4007 case PM_CLASS_VARIABLE_WRITE_NODE:
4010 case PM_CONSTANT_AND_WRITE_NODE:
4013 case PM_CONSTANT_OPERATOR_WRITE_NODE:
4016 case PM_CONSTANT_OR_WRITE_NODE:
4019 case PM_CONSTANT_PATH_AND_WRITE_NODE:
4022 case PM_CONSTANT_PATH_OPERATOR_WRITE_NODE:
4025 case PM_CONSTANT_PATH_OR_WRITE_NODE:
4028 case PM_CONSTANT_PATH_WRITE_NODE:
4031 case PM_CONSTANT_WRITE_NODE:
4034 case PM_GLOBAL_VARIABLE_AND_WRITE_NODE:
4037 case PM_GLOBAL_VARIABLE_OPERATOR_WRITE_NODE:
4040 case PM_GLOBAL_VARIABLE_OR_WRITE_NODE:
4043 case PM_GLOBAL_VARIABLE_WRITE_NODE:
4046 case PM_INDEX_AND_WRITE_NODE:
4049 case PM_INDEX_OPERATOR_WRITE_NODE:
4052 case PM_INDEX_OR_WRITE_NODE:
4055 case PM_INSTANCE_VARIABLE_AND_WRITE_NODE:
4058 case PM_INSTANCE_VARIABLE_OPERATOR_WRITE_NODE:
4061 case PM_INSTANCE_VARIABLE_OR_WRITE_NODE:
4064 case PM_INSTANCE_VARIABLE_WRITE_NODE:
4067 case PM_LOCAL_VARIABLE_AND_WRITE_NODE:
4070 case PM_LOCAL_VARIABLE_OPERATOR_WRITE_NODE:
4073 case PM_LOCAL_VARIABLE_OR_WRITE_NODE:
4076 case PM_LOCAL_VARIABLE_WRITE_NODE:
4079 case PM_MULTI_WRITE_NODE:
4082 dtype = DEFINED_ASGN;
4085 case PM_ALIAS_GLOBAL_VARIABLE_NODE:
4088 case PM_ALIAS_METHOD_NODE:
4097 case PM_CASE_MATCH_NODE:
4109 case PM_DEFINED_NODE:
4112 case PM_FLIP_FLOP_NODE:
4124 case PM_IMAGINARY_NODE:
4127 case PM_INTEGER_NODE:
4130 case PM_INTERPOLATED_MATCH_LAST_LINE_NODE:
4133 case PM_INTERPOLATED_REGULAR_EXPRESSION_NODE:
4136 case PM_INTERPOLATED_STRING_NODE:
4139 case PM_INTERPOLATED_SYMBOL_NODE:
4142 case PM_INTERPOLATED_X_STRING_NODE:
4145 case PM_LAMBDA_NODE:
4148 case PM_MATCH_LAST_LINE_NODE:
4151 case PM_MATCH_PREDICATE_NODE:
4154 case PM_MATCH_REQUIRED_NODE:
4157 case PM_MATCH_WRITE_NODE:
4160 case PM_MODULE_NODE:
4169 case PM_POST_EXECUTION_NODE:
4175 case PM_RATIONAL_NODE:
4181 case PM_REGULAR_EXPRESSION_NODE:
4184 case PM_RESCUE_MODIFIER_NODE:
4190 case PM_RETURN_NODE:
4193 case PM_SINGLETON_CLASS_NODE:
4196 case PM_SOURCE_ENCODING_NODE:
4199 case PM_SOURCE_FILE_NODE:
4202 case PM_SOURCE_LINE_NODE:
4205 case PM_STRING_NODE:
4208 case PM_SYMBOL_NODE:
4214 case PM_UNLESS_NODE:
4223 case PM_X_STRING_NODE:
4226 dtype = DEFINED_EXPR;
4229 case PM_BACK_REFERENCE_READ_NODE: {
4232 const pm_back_reference_read_node_t *cast = (
const pm_back_reference_read_node_t *) node;
4233 VALUE ref = pm_compile_back_reference_ref(cast);
4235 PUSH_INSN(ret, location, putnil);
4236 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_REF), ref, PUSH_VAL(DEFINED_GVAR));
4240 case PM_NUMBERED_REFERENCE_READ_NODE: {
4243 const pm_numbered_reference_read_node_t *cast = (
const pm_numbered_reference_read_node_t *) node;
4244 VALUE ref = pm_compile_numbered_reference_ref(cast);
4246 PUSH_INSN(ret, location, putnil);
4247 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_REF), ref, PUSH_VAL(DEFINED_GVAR));
4252 case PM_CONSTANT_PATH_NODE: {
4255 const pm_constant_path_node_t *cast = (
const pm_constant_path_node_t *) node;
4256 ID name = pm_constant_id_lookup(scope_node, cast->
name);
4258 if (cast->
parent != NULL) {
4259 if (!lfinish[1]) lfinish[1] = NEW_LABEL(location.
line);
4260 pm_compile_defined_expr0(iseq, cast->
parent, node_location, ret, popped, scope_node,
true, lfinish,
false);
4262 PUSH_INSNL(ret, location, branchunless, lfinish[1]);
4263 PM_COMPILE(cast->
parent);
4266 PUSH_INSN1(ret, location, putobject, rb_cObject);
4269 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_CONST_FROM),
ID2SYM(name), PUSH_VAL(DEFINED_CONST));
4273 case PM_BEGIN_NODE: {
4276 const pm_begin_node_t *cast = (
const pm_begin_node_t *) node;
4281 dtype = DEFINED_NIL;
4287 pm_compile_defined_expr0(iseq, cast->
statements->
body.
nodes[0], node_location, ret, popped, scope_node, in_condition, lfinish,
false);
4293 dtype = DEFINED_EXPR;
4298 dtype = DEFINED_EXPR;
4303 case PM_PARENTHESES_NODE: {
4306 const pm_parentheses_node_t *cast = (
const pm_parentheses_node_t *) node;
4308 if (cast->
body == NULL) {
4310 dtype = DEFINED_NIL;
4312 else if (PM_NODE_TYPE_P(cast->
body, PM_STATEMENTS_NODE) && !PM_NODE_FLAG_P(cast, PM_PARENTHESES_NODE_FLAGS_MULTIPLE_STATEMENTS)) {
4315 pm_compile_defined_expr0(iseq, ((
const pm_statements_node_t *) cast->
body)->body.nodes[0], node_location, ret, popped, scope_node, in_condition, lfinish,
false);
4321 dtype = DEFINED_EXPR;
4326 case PM_ARRAY_NODE: {
4329 const pm_array_node_t *cast = (
const pm_array_node_t *) node;
4332 lfinish[1] = NEW_LABEL(location.
line);
4335 for (
size_t index = 0; index < cast->
elements.
size; index++) {
4336 pm_compile_defined_expr0(iseq, cast->
elements.
nodes[index], node_location, ret, popped, scope_node,
true, lfinish,
false);
4337 PUSH_INSNL(ret, location, branchunless, lfinish[1]);
4340 dtype = DEFINED_EXPR;
4346 case PM_KEYWORD_HASH_NODE: {
4349 const pm_node_list_t *elements;
4351 if (PM_NODE_TYPE_P(node, PM_HASH_NODE)) {
4352 elements = &((
const pm_hash_node_t *) node)->elements;
4355 elements = &((
const pm_keyword_hash_node_t *) node)->elements;
4358 if (elements->
size > 0 && !lfinish[1]) {
4359 lfinish[1] = NEW_LABEL(location.
line);
4362 for (
size_t index = 0; index < elements->
size; index++) {
4363 pm_compile_defined_expr0(iseq, elements->
nodes[index], node_location, ret, popped, scope_node,
true, lfinish,
false);
4364 PUSH_INSNL(ret, location, branchunless, lfinish[1]);
4367 dtype = DEFINED_EXPR;
4370 case PM_ASSOC_NODE: {
4373 const pm_assoc_node_t *cast = (
const pm_assoc_node_t *) node;
4375 pm_compile_defined_expr0(iseq, cast->
key, node_location, ret, popped, scope_node,
true, lfinish,
false);
4376 PUSH_INSNL(ret, location, branchunless, lfinish[1]);
4377 pm_compile_defined_expr0(iseq, cast->
value, node_location, ret, popped, scope_node,
true, lfinish,
false);
4381 case PM_ASSOC_SPLAT_NODE: {
4384 const pm_assoc_splat_node_t *cast = (
const pm_assoc_splat_node_t *) node;
4386 if (cast->
value == NULL) {
4387 dtype = DEFINED_EXPR;
4391 pm_compile_defined_expr0(iseq, cast->
value, node_location, ret, popped, scope_node,
true, lfinish,
false);
4394 case PM_IMPLICIT_NODE: {
4397 const pm_implicit_node_t *cast = (
const pm_implicit_node_t *) node;
4398 pm_compile_defined_expr0(iseq, cast->
value, node_location, ret, popped, scope_node, in_condition, lfinish,
false);
4401 case PM_CALL_NODE: {
4402#define BLOCK_P(cast) ((cast)->block != NULL && PM_NODE_TYPE_P((cast)->block, PM_BLOCK_NODE))
4406 const pm_call_node_t *cast = ((
const pm_call_node_t *) node);
4408 if (BLOCK_P(cast)) {
4409 dtype = DEFINED_EXPR;
4414 if (!lfinish[1]) lfinish[1] = NEW_LABEL(location.
line);
4415 if (!lfinish[2]) lfinish[2] = NEW_LABEL(location.
line);
4419 pm_compile_defined_expr0(iseq, (
const pm_node_t *) cast->
arguments, node_location, ret, popped, scope_node,
true, lfinish,
false);
4420 PUSH_INSNL(ret, location, branchunless, lfinish[1]);
4423 if (cast->
block && PM_NODE_TYPE_P(cast->
block, PM_BLOCK_ARGUMENT_NODE)) {
4424 pm_compile_defined_expr0(iseq, cast->
block, node_location, ret, popped, scope_node,
true, lfinish,
false);
4425 PUSH_INSNL(ret, location, branchunless, lfinish[1]);
4429 if (PM_NODE_TYPE_P(cast->
receiver, PM_CALL_NODE) && !BLOCK_P((
const pm_call_node_t *) cast->
receiver)) {
4432 pm_compile_defined_expr0(iseq, cast->
receiver, node_location, ret, popped, scope_node,
true, lfinish,
true);
4433 PUSH_INSNL(ret, location, branchunless, lfinish[2]);
4435 const pm_call_node_t *receiver = (
const pm_call_node_t *) cast->
receiver;
4436 ID method_id = pm_constant_id_lookup(scope_node, receiver->name);
4438 pm_compile_call(iseq, receiver, ret, popped, scope_node, method_id, NULL);
4441 pm_compile_defined_expr0(iseq, cast->
receiver, node_location, ret, popped, scope_node,
true, lfinish,
false);
4442 PUSH_INSNL(ret, location, branchunless, lfinish[1]);
4446 ID method_id = pm_constant_id_lookup(scope_node, cast->
name);
4448 if (explicit_receiver) PUSH_INSN(ret, location, dup);
4449 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_METHOD),
rb_id2sym(method_id), PUSH_VAL(DEFINED_METHOD));
4452 ID method_id = pm_constant_id_lookup(scope_node, cast->
name);
4454 PUSH_INSN(ret, location, putself);
4455 if (explicit_receiver) PUSH_INSN(ret, location, dup);
4457 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_FUNC),
rb_id2sym(method_id), PUSH_VAL(DEFINED_METHOD));
4464 case PM_ARGUMENTS_NODE: {
4467 const pm_arguments_node_t *cast = (
const pm_arguments_node_t *) node;
4469 for (
size_t index = 0; index < cast->
arguments.
size; index++) {
4470 pm_compile_defined_expr0(iseq, cast->
arguments.
nodes[index], node_location, ret, popped, scope_node, in_condition, lfinish,
false);
4471 PUSH_INSNL(ret, location, branchunless, lfinish[1]);
4474 dtype = DEFINED_EXPR;
4477 case PM_BLOCK_ARGUMENT_NODE:
4480 dtype = DEFINED_EXPR;
4482 case PM_FORWARDING_ARGUMENTS_NODE:
4485 dtype = DEFINED_EXPR;
4487 case PM_SPLAT_NODE: {
4490 const pm_splat_node_t *cast = (
const pm_splat_node_t *) node;
4493 dtype = DEFINED_EXPR;
4497 pm_compile_defined_expr0(iseq, cast->
expression, node_location, ret, popped, scope_node, in_condition, lfinish,
false);
4499 if (!lfinish[1]) lfinish[1] = NEW_LABEL(location.
line);
4500 PUSH_INSNL(ret, location, branchunless, lfinish[1]);
4502 dtype = DEFINED_EXPR;
4505 case PM_SHAREABLE_CONSTANT_NODE:
4509 pm_compile_defined_expr0(iseq, ((
const pm_shareable_constant_node_t *) node)->write, node_location, ret, popped, scope_node, in_condition, lfinish, explicit_receiver);
4512 case PM_BLOCK_LOCAL_VARIABLE_NODE:
4513 case PM_BLOCK_PARAMETER_NODE:
4514 case PM_BLOCK_PARAMETERS_NODE:
4515 case PM_FORWARDING_PARAMETER_NODE:
4516 case PM_IMPLICIT_REST_NODE:
4517 case PM_IT_PARAMETERS_NODE:
4518 case PM_PARAMETERS_NODE:
4519 case PM_KEYWORD_REST_PARAMETER_NODE:
4520 case PM_NO_KEYWORDS_PARAMETER_NODE:
4521 case PM_NUMBERED_PARAMETERS_NODE:
4522 case PM_OPTIONAL_KEYWORD_PARAMETER_NODE:
4523 case PM_OPTIONAL_PARAMETER_NODE:
4524 case PM_REQUIRED_KEYWORD_PARAMETER_NODE:
4525 case PM_REQUIRED_PARAMETER_NODE:
4526 case PM_REST_PARAMETER_NODE:
4528 case PM_ALTERNATION_PATTERN_NODE:
4529 case PM_ARRAY_PATTERN_NODE:
4530 case PM_CAPTURE_PATTERN_NODE:
4531 case PM_FIND_PATTERN_NODE:
4532 case PM_HASH_PATTERN_NODE:
4533 case PM_PINNED_EXPRESSION_NODE:
4534 case PM_PINNED_VARIABLE_NODE:
4536 case PM_CALL_TARGET_NODE:
4537 case PM_CLASS_VARIABLE_TARGET_NODE:
4538 case PM_CONSTANT_PATH_TARGET_NODE:
4539 case PM_CONSTANT_TARGET_NODE:
4540 case PM_GLOBAL_VARIABLE_TARGET_NODE:
4541 case PM_INDEX_TARGET_NODE:
4542 case PM_INSTANCE_VARIABLE_TARGET_NODE:
4543 case PM_LOCAL_VARIABLE_TARGET_NODE:
4544 case PM_MULTI_TARGET_NODE:
4547 case PM_ENSURE_NODE:
4549 case PM_RESCUE_NODE:
4553 case PM_EMBEDDED_STATEMENTS_NODE:
4554 case PM_EMBEDDED_VARIABLE_NODE:
4555 case PM_MISSING_NODE:
4556 case PM_PRE_EXECUTION_NODE:
4557 case PM_PROGRAM_NODE:
4559 case PM_STATEMENTS_NODE:
4560 rb_bug(
"Unreachable node in defined?: %s", pm_node_type_to_str(PM_NODE_TYPE(node)));
4564 PUSH_INSN1(ret, location, putobject, PUSH_VAL(dtype));
4570pm_defined_expr(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node,
bool in_condition, LABEL **lfinish)
4572 LINK_ELEMENT *lcur = ret->last;
4573 pm_compile_defined_expr0(iseq, node, node_location, ret, popped, scope_node, in_condition, lfinish,
false);
4576 LABEL *lstart = NEW_LABEL(node_location->
line);
4577 LABEL *lend = NEW_LABEL(node_location->
line);
4580 rb_iseq_new_with_callback_new_callback(build_defined_rescue_iseq, NULL);
4582 const rb_iseq_t *rescue = new_child_iseq_with_callback(
4591 lstart->rescued = LABEL_RESCUE_BEG;
4592 lend->rescued = LABEL_RESCUE_END;
4594 APPEND_LABEL(ret, lcur, lstart);
4595 PUSH_LABEL(ret, lend);
4596 PUSH_CATCH_ENTRY(CATCH_TYPE_RESCUE, lstart, lend, rescue, lfinish[1]);
4601pm_compile_defined_expr(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node,
bool in_condition)
4604 LINK_ELEMENT *last = ret->last;
4606 lfinish[0] = NEW_LABEL(node_location->
line);
4611 pm_defined_expr(iseq, node, node_location, ret, popped, scope_node, in_condition, lfinish);
4615 ELEM_INSERT_NEXT(last, &new_insn_body(iseq, node_location->
line, node_location->
node_id, BIN(putnil), 0)->link);
4616 PUSH_INSN(ret, *node_location, swap);
4618 if (lfinish[2]) PUSH_LABEL(ret, lfinish[2]);
4619 PUSH_INSN(ret, *node_location, pop);
4620 PUSH_LABEL(ret, lfinish[1]);
4624 PUSH_LABEL(ret, lfinish[0]);
4630pm_add_ensure_iseq(LINK_ANCHOR *
const ret, rb_iseq_t *iseq,
int is_return, pm_scope_node_t *scope_node)
4635 ISEQ_COMPILE_DATA(iseq)->ensure_node_stack;
4637 DECL_ANCHOR(ensure);
4640 if (enlp->erange != NULL) {
4641 DECL_ANCHOR(ensure_part);
4642 LABEL *lstart = NEW_LABEL(0);
4643 LABEL *lend = NEW_LABEL(0);
4645 add_ensure_range(iseq, enlp->erange, lstart, lend);
4647 ISEQ_COMPILE_DATA(iseq)->ensure_node_stack = enlp->prev;
4648 PUSH_LABEL(ensure_part, lstart);
4650 PM_COMPILE_INTO_ANCHOR(ensure_part, (
const pm_node_t *) enlp->ensure_node);
4651 PUSH_LABEL(ensure_part, lend);
4652 PUSH_SEQ(ensure, ensure_part);
4661 ISEQ_COMPILE_DATA(iseq)->ensure_node_stack = prev_enlp;
4662 PUSH_SEQ(ret, ensure);
4666 pm_scope_node_t *scope_node;
4667 rb_ast_id_table_t *local_table_for_iseq;
4672pm_local_table_insert_func(st_data_t *key, st_data_t *value, st_data_t arg,
int existing)
4678 pm_scope_node_t *scope_node = ctx->scope_node;
4679 rb_ast_id_table_t *local_table_for_iseq = ctx->local_table_for_iseq;
4680 int local_index = ctx->local_index;
4682 ID local = pm_constant_id_lookup(scope_node, constant_id);
4683 local_table_for_iseq->ids[local_index] = local;
4685 *value = (st_data_t)local_index;
4699pm_insert_local_index(
pm_constant_id_t constant_id,
int local_index, st_table *index_lookup_table, rb_ast_id_table_t *local_table_for_iseq, pm_scope_node_t *scope_node)
4701 RUBY_ASSERT((constant_id & PM_SPECIAL_CONSTANT_FLAG) == 0);
4703 ID local = pm_constant_id_lookup(scope_node, constant_id);
4704 local_table_for_iseq->ids[local_index] = local;
4705 st_insert(index_lookup_table, (st_data_t) constant_id, (st_data_t) local_index);
4713pm_insert_local_special(
ID local_name,
int local_index, st_table *index_lookup_table, rb_ast_id_table_t *local_table_for_iseq)
4715 local_table_for_iseq->ids[local_index] = local_name;
4716 st_insert(index_lookup_table, (st_data_t) (local_name | PM_SPECIAL_CONSTANT_FLAG), (st_data_t) local_index);
4726pm_compile_destructured_param_locals(
const pm_multi_target_node_t *node, st_table *index_lookup_table, rb_ast_id_table_t *local_table_for_iseq, pm_scope_node_t *scope_node,
int local_index)
4728 for (
size_t index = 0; index < node->
lefts.
size; index++) {
4729 const pm_node_t *left = node->
lefts.
nodes[index];
4731 if (PM_NODE_TYPE_P(left, PM_REQUIRED_PARAMETER_NODE)) {
4732 if (!PM_NODE_FLAG_P(left, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
4733 pm_insert_local_index(((
const pm_required_parameter_node_t *) left)->name, local_index, index_lookup_table, local_table_for_iseq, scope_node);
4738 RUBY_ASSERT(PM_NODE_TYPE_P(left, PM_MULTI_TARGET_NODE));
4739 local_index = pm_compile_destructured_param_locals((
const pm_multi_target_node_t *) left, index_lookup_table, local_table_for_iseq, scope_node, local_index);
4743 if (node->
rest != NULL && PM_NODE_TYPE_P(node->
rest, PM_SPLAT_NODE)) {
4744 const pm_splat_node_t *rest = (
const pm_splat_node_t *) node->
rest;
4746 if (rest->expression != NULL) {
4747 RUBY_ASSERT(PM_NODE_TYPE_P(rest->expression, PM_REQUIRED_PARAMETER_NODE));
4749 if (!PM_NODE_FLAG_P(rest->expression, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
4750 pm_insert_local_index(((
const pm_required_parameter_node_t *) rest->expression)->name, local_index, index_lookup_table, local_table_for_iseq, scope_node);
4756 for (
size_t index = 0; index < node->
rights.
size; index++) {
4757 const pm_node_t *right = node->
rights.
nodes[index];
4759 if (PM_NODE_TYPE_P(right, PM_REQUIRED_PARAMETER_NODE)) {
4760 if (!PM_NODE_FLAG_P(right, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
4761 pm_insert_local_index(((
const pm_required_parameter_node_t *) right)->name, local_index, index_lookup_table, local_table_for_iseq, scope_node);
4766 RUBY_ASSERT(PM_NODE_TYPE_P(right, PM_MULTI_TARGET_NODE));
4767 local_index = pm_compile_destructured_param_locals((
const pm_multi_target_node_t *) right, index_lookup_table, local_table_for_iseq, scope_node, local_index);
4779pm_compile_destructured_param_write(rb_iseq_t *iseq,
const pm_required_parameter_node_t *node, LINK_ANCHOR *
const ret,
const pm_scope_node_t *scope_node)
4781 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
4782 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, node->
name, 0);
4783 PUSH_SETLOCAL(ret, location, index.index, index.level);
4795pm_compile_destructured_param_writes(rb_iseq_t *iseq,
const pm_multi_target_node_t *node, LINK_ANCHOR *
const ret,
const pm_scope_node_t *scope_node)
4797 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
4798 bool has_rest = (node->
rest && PM_NODE_TYPE_P(node->
rest, PM_SPLAT_NODE) && (((
const pm_splat_node_t *) node->
rest)->expression) != NULL);
4801 int flag = (has_rest || has_rights) ? 1 : 0;
4804 for (
size_t index = 0; index < node->
lefts.
size; index++) {
4805 const pm_node_t *left = node->
lefts.
nodes[index];
4807 if (PM_NODE_TYPE_P(left, PM_REQUIRED_PARAMETER_NODE)) {
4808 pm_compile_destructured_param_write(iseq, (
const pm_required_parameter_node_t *) left, ret, scope_node);
4811 RUBY_ASSERT(PM_NODE_TYPE_P(left, PM_MULTI_TARGET_NODE));
4812 pm_compile_destructured_param_writes(iseq, (
const pm_multi_target_node_t *) left, ret, scope_node);
4821 const pm_node_t *rest = ((
const pm_splat_node_t *) node->
rest)->expression;
4822 RUBY_ASSERT(PM_NODE_TYPE_P(rest, PM_REQUIRED_PARAMETER_NODE));
4824 pm_compile_destructured_param_write(iseq, (
const pm_required_parameter_node_t *) rest, ret, scope_node);
4832 for (
size_t index = 0; index < node->
rights.
size; index++) {
4833 const pm_node_t *right = node->
rights.
nodes[index];
4835 if (PM_NODE_TYPE_P(right, PM_REQUIRED_PARAMETER_NODE)) {
4836 pm_compile_destructured_param_write(iseq, (
const pm_required_parameter_node_t *) right, ret, scope_node);
4839 RUBY_ASSERT(PM_NODE_TYPE_P(right, PM_MULTI_TARGET_NODE));
4840 pm_compile_destructured_param_writes(iseq, (
const pm_multi_target_node_t *) right, ret, scope_node);
4867} pm_multi_target_state_node_t;
4885 pm_multi_target_state_node_t *head;
4888 pm_multi_target_state_node_t *tail;
4897 pm_multi_target_state_node_t *node =
ALLOC(pm_multi_target_state_node_t);
4899 node->stack_index = state->stack_size + 1;
4900 node->stack_size = stack_size;
4901 node->position = state->position;
4904 if (state->head == NULL) {
4909 state->tail->next = node;
4913 state->stack_size += stack_size;
4926 if (state->stack_size == 0)
return;
4928 pm_multi_target_state_node_t *current = state->head;
4929 pm_multi_target_state_node_t *previous;
4931 while (current != NULL) {
4932 VALUE offset =
INT2FIX(state->stack_size - current->stack_index + current->position);
4933 current->topn->operands[0] = offset;
4939 if (current->stack_size > 1) {
4940 INSN *insn = current->topn;
4942 for (
size_t index = 1; index < current->stack_size; index += 1) {
4943 LINK_ELEMENT *element = get_next_insn(insn);
4946 insn = (INSN *) element;
4949 insn->operands[0] = offset;
4954 current = current->next;
4961pm_compile_multi_target_node(rb_iseq_t *iseq,
const pm_node_t *node, LINK_ANCHOR *
const parents, LINK_ANCHOR *
const writes, LINK_ANCHOR *
const cleanup, pm_scope_node_t *scope_node,
pm_multi_target_state_t *state);
4992pm_compile_target_node(rb_iseq_t *iseq,
const pm_node_t *node, LINK_ANCHOR *
const parents, LINK_ANCHOR *
const writes, LINK_ANCHOR *
const cleanup, pm_scope_node_t *scope_node,
pm_multi_target_state_t *state)
4994 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
4996 switch (PM_NODE_TYPE(node)) {
4997 case PM_LOCAL_VARIABLE_TARGET_NODE: {
5003 const pm_local_variable_target_node_t *cast = (
const pm_local_variable_target_node_t *) node;
5004 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, cast->
name, cast->
depth);
5006 PUSH_SETLOCAL(writes, location, index.index, index.level);
5009 case PM_CLASS_VARIABLE_TARGET_NODE: {
5015 const pm_class_variable_target_node_t *cast = (
const pm_class_variable_target_node_t *) node;
5016 ID name = pm_constant_id_lookup(scope_node, cast->
name);
5019 PUSH_INSN2(writes, location, setclassvariable, operand, get_cvar_ic_value(iseq, name));
5022 case PM_CONSTANT_TARGET_NODE: {
5028 const pm_constant_target_node_t *cast = (
const pm_constant_target_node_t *) node;
5029 ID name = pm_constant_id_lookup(scope_node, cast->
name);
5032 PUSH_INSN1(writes, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
5033 PUSH_INSN1(writes, location, setconstant, operand);
5036 case PM_GLOBAL_VARIABLE_TARGET_NODE: {
5042 const pm_global_variable_target_node_t *cast = (
const pm_global_variable_target_node_t *) node;
5043 ID name = pm_constant_id_lookup(scope_node, cast->
name);
5046 PUSH_INSN1(writes, location, setglobal, operand);
5049 case PM_INSTANCE_VARIABLE_TARGET_NODE: {
5055 const pm_instance_variable_target_node_t *cast = (
const pm_instance_variable_target_node_t *) node;
5056 ID name = pm_constant_id_lookup(scope_node, cast->
name);
5059 PUSH_INSN2(writes, location, setinstancevariable, operand, get_ivar_ic_value(iseq, name));
5062 case PM_CONSTANT_PATH_TARGET_NODE: {
5071 const pm_constant_path_target_node_t *cast = (
const pm_constant_path_target_node_t *) node;
5072 ID name = pm_constant_id_lookup(scope_node, cast->
name);
5074 if (cast->
parent != NULL) {
5075 pm_compile_node(iseq, cast->
parent, parents,
false, scope_node);
5078 PUSH_INSN1(parents, location, putobject, rb_cObject);
5081 if (state == NULL) {
5082 PUSH_INSN(writes, location, swap);
5085 PUSH_INSN1(writes, location, topn,
INT2FIX(1));
5086 pm_multi_target_state_push(state, (INSN *) LAST_ELEMENT(writes), 1);
5090 PUSH_INSN1(writes, location, setconstant, operand);
5092 if (state != NULL) {
5093 PUSH_INSN(cleanup, location, pop);
5098 case PM_CALL_TARGET_NODE: {
5107 const pm_call_target_node_t *cast = (
const pm_call_target_node_t *) node;
5108 ID method_id = pm_constant_id_lookup(scope_node, cast->
name);
5110 pm_compile_node(iseq, cast->
receiver, parents,
false, scope_node);
5112 LABEL *safe_label = NULL;
5113 if (PM_NODE_FLAG_P(cast, PM_CALL_NODE_FLAGS_SAFE_NAVIGATION)) {
5114 safe_label = NEW_LABEL(location.
line);
5115 PUSH_INSN(parents, location, dup);
5116 PUSH_INSNL(parents, location, branchnil, safe_label);
5119 if (state != NULL) {
5120 PUSH_INSN1(writes, location, topn,
INT2FIX(1));
5121 pm_multi_target_state_push(state, (INSN *) LAST_ELEMENT(writes), 1);
5122 PUSH_INSN(writes, location, swap);
5125 int flags = VM_CALL_ARGS_SIMPLE;
5126 if (PM_NODE_FLAG_P(cast, PM_CALL_NODE_FLAGS_IGNORE_VISIBILITY)) flags |= VM_CALL_FCALL;
5128 PUSH_SEND_WITH_FLAG(writes, location, method_id,
INT2FIX(1),
INT2FIX(flags));
5129 if (safe_label != NULL && state == NULL) PUSH_LABEL(writes, safe_label);
5130 PUSH_INSN(writes, location, pop);
5131 if (safe_label != NULL && state != NULL) PUSH_LABEL(writes, safe_label);
5133 if (state != NULL) {
5134 PUSH_INSN(cleanup, location, pop);
5139 case PM_INDEX_TARGET_NODE: {
5149 const pm_index_target_node_t *cast = (
const pm_index_target_node_t *) node;
5151 pm_compile_node(iseq, cast->
receiver, parents,
false, scope_node);
5155 int argc = pm_setup_args(cast->
arguments, (
const pm_node_t *) cast->
block, &flags, &kwargs, iseq, parents, scope_node, &location);
5157 if (state != NULL) {
5158 PUSH_INSN1(writes, location, topn,
INT2FIX(argc + 1));
5159 pm_multi_target_state_push(state, (INSN *) LAST_ELEMENT(writes), argc + 1);
5162 PUSH_INSN(writes, location, swap);
5165 for (
int index = 0; index < argc; index++) {
5166 PUSH_INSN1(writes, location, topn,
INT2FIX(argc + 1));
5168 PUSH_INSN1(writes, location, topn,
INT2FIX(argc + 1));
5176 int ci_argc = argc + 1;
5177 if (flags & VM_CALL_ARGS_SPLAT) {
5179 PUSH_INSN1(writes, location, newarray,
INT2FIX(1));
5180 PUSH_INSN(writes, location, concatarray);
5183 PUSH_SEND_R(writes, location, idASET,
INT2NUM(ci_argc), NULL,
INT2FIX(flags), kwargs);
5184 PUSH_INSN(writes, location, pop);
5186 if (state != NULL) {
5188 PUSH_INSN(writes, location, pop);
5191 for (
int index = 0; index < argc + 1; index++) {
5192 PUSH_INSN(cleanup, location, pop);
5198 case PM_MULTI_TARGET_NODE: {
5205 size_t before_position;
5206 if (state != NULL) {
5207 before_position = state->position;
5211 pm_compile_multi_target_node(iseq, node, parents, writes, cleanup, scope_node, state);
5212 if (state != NULL) state->position = before_position;
5216 case PM_SPLAT_NODE: {
5222 const pm_splat_node_t *cast = (
const pm_splat_node_t *) node;
5225 pm_compile_target_node(iseq, cast->
expression, parents, writes, cleanup, scope_node, state);
5231 rb_bug(
"Unexpected node type: %s", pm_node_type_to_str(PM_NODE_TYPE(node)));
5242pm_compile_multi_target_node(rb_iseq_t *iseq,
const pm_node_t *node, LINK_ANCHOR *
const parents, LINK_ANCHOR *
const writes, LINK_ANCHOR *
const cleanup, pm_scope_node_t *scope_node,
pm_multi_target_state_t *state)
5244 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
5245 const pm_node_list_t *lefts;
5246 const pm_node_t *rest;
5247 const pm_node_list_t *rights;
5249 switch (PM_NODE_TYPE(node)) {
5250 case PM_MULTI_TARGET_NODE: {
5251 const pm_multi_target_node_t *cast = (
const pm_multi_target_node_t *) node;
5252 lefts = &cast->
lefts;
5257 case PM_MULTI_WRITE_NODE: {
5258 const pm_multi_write_node_t *cast = (
const pm_multi_write_node_t *) node;
5259 lefts = &cast->
lefts;
5265 rb_bug(
"Unsupported node %s", pm_node_type_to_str(PM_NODE_TYPE(node)));
5269 bool has_rest = (rest != NULL) && PM_NODE_TYPE_P(rest, PM_SPLAT_NODE) && ((
const pm_splat_node_t *) rest)->expression != NULL;
5270 bool has_posts = rights->
size > 0;
5275 PUSH_INSN2(writes, location, expandarray,
INT2FIX(lefts->
size),
INT2FIX((has_rest || has_posts) ? 1 : 0));
5281 if (state == NULL) state = &target_state;
5283 size_t base_position = state->position;
5284 size_t splat_position = (has_rest || has_posts) ? 1 : 0;
5287 for (
size_t index = 0; index < lefts->
size; index++) {
5288 const pm_node_t *target = lefts->
nodes[index];
5289 state->position = lefts->
size - index + splat_position + base_position;
5290 pm_compile_target_node(iseq, target, parents, writes, cleanup, scope_node, state);
5295 const pm_node_t *target = ((
const pm_splat_node_t *) rest)->expression;
5296 state->position = 1 + rights->
size + base_position;
5302 pm_compile_target_node(iseq, target, parents, writes, cleanup, scope_node, state);
5307 if (!has_rest && rest != NULL) {
5311 for (
size_t index = 0; index < rights->
size; index++) {
5312 const pm_node_t *target = rights->
nodes[index];
5313 state->position = rights->
size - index + base_position;
5314 pm_compile_target_node(iseq, target, parents, writes, cleanup, scope_node, state);
5325pm_compile_for_node_index(rb_iseq_t *iseq,
const pm_node_t *node, LINK_ANCHOR *
const ret, pm_scope_node_t *scope_node)
5327 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
5329 switch (PM_NODE_TYPE(node)) {
5330 case PM_LOCAL_VARIABLE_TARGET_NODE: {
5333 PUSH_GETLOCAL(ret, location, 1, 0);
5334 pm_compile_target_node(iseq, node, ret, ret, ret, scope_node, NULL);
5337 case PM_CLASS_VARIABLE_TARGET_NODE:
5338 case PM_CONSTANT_TARGET_NODE:
5339 case PM_GLOBAL_VARIABLE_TARGET_NODE:
5340 case PM_INSTANCE_VARIABLE_TARGET_NODE:
5341 case PM_CONSTANT_PATH_TARGET_NODE:
5342 case PM_CALL_TARGET_NODE:
5343 case PM_INDEX_TARGET_NODE: {
5347 DECL_ANCHOR(writes);
5348 DECL_ANCHOR(cleanup);
5352 pm_compile_target_node(iseq, node, ret, writes, cleanup, scope_node, &state);
5354 PUSH_GETLOCAL(ret, location, 1, 0);
5357 PUSH_SEQ(ret, writes);
5358 PUSH_SEQ(ret, cleanup);
5360 pm_multi_target_state_update(&state);
5364 case PM_MULTI_TARGET_NODE: {
5365 DECL_ANCHOR(writes);
5366 DECL_ANCHOR(cleanup);
5368 pm_compile_target_node(iseq, node, ret, writes, cleanup, scope_node, NULL);
5370 LABEL *not_single = NEW_LABEL(location.
line);
5371 LABEL *not_ary = NEW_LABEL(location.
line);
5379 PUSH_GETLOCAL(ret, location, 1, 0);
5380 PUSH_INSN(ret, location, dup);
5381 PUSH_CALL(ret, location, idLength,
INT2FIX(0));
5382 PUSH_INSN1(ret, location, putobject,
INT2FIX(1));
5383 PUSH_CALL(ret, location, idEq,
INT2FIX(1));
5384 PUSH_INSNL(ret, location, branchunless, not_single);
5385 PUSH_INSN(ret, location, dup);
5386 PUSH_INSN1(ret, location, putobject,
INT2FIX(0));
5387 PUSH_CALL(ret, location, idAREF,
INT2FIX(1));
5388 PUSH_INSN1(ret, location, putobject,
rb_cArray);
5389 PUSH_INSN(ret, location, swap);
5390 PUSH_CALL(ret, location, rb_intern(
"try_convert"),
INT2FIX(1));
5391 PUSH_INSN(ret, location, dup);
5392 PUSH_INSNL(ret, location, branchunless, not_ary);
5393 PUSH_INSN(ret, location, swap);
5395 PUSH_LABEL(ret, not_ary);
5396 PUSH_INSN(ret, location, pop);
5398 PUSH_LABEL(ret, not_single);
5400 if (PM_NODE_TYPE_P(node, PM_SPLAT_NODE)) {
5401 const pm_splat_node_t *cast = (
const pm_splat_node_t *) node;
5405 PUSH_SEQ(ret, writes);
5406 PUSH_SEQ(ret, cleanup);
5410 rb_bug(
"Unexpected node type for index in for node: %s", pm_node_type_to_str(PM_NODE_TYPE(node)));
5416pm_compile_rescue(rb_iseq_t *iseq,
const pm_begin_node_t *cast,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
5420 LABEL *lstart = NEW_LABEL(node_location->
line);
5421 LABEL *lend = NEW_LABEL(node_location->
line);
5422 LABEL *lcont = NEW_LABEL(node_location->
line);
5424 pm_scope_node_t rescue_scope_node;
5425 pm_scope_node_init((
const pm_node_t *) cast->
rescue_clause, &rescue_scope_node, scope_node);
5427 rb_iseq_t *rescue_iseq = NEW_CHILD_ISEQ(
5431 pm_node_line_number(parser, (
const pm_node_t *) cast->
rescue_clause)
5434 pm_scope_node_destroy(&rescue_scope_node);
5436 lstart->rescued = LABEL_RESCUE_BEG;
5437 lend->rescued = LABEL_RESCUE_END;
5438 PUSH_LABEL(ret, lstart);
5440 bool prev_in_rescue = ISEQ_COMPILE_DATA(iseq)->in_rescue;
5441 ISEQ_COMPILE_DATA(iseq)->in_rescue =
true;
5444 PM_COMPILE_NOT_POPPED((
const pm_node_t *) cast->
statements);
5448 PUSH_INSN(ret, location, putnil);
5451 ISEQ_COMPILE_DATA(iseq)->in_rescue = prev_in_rescue;
5452 PUSH_LABEL(ret, lend);
5455 if (!popped) PUSH_INSN(ret, *node_location, pop);
5456 PM_COMPILE((
const pm_node_t *) cast->
else_clause);
5459 PUSH_INSN(ret, *node_location, nop);
5460 PUSH_LABEL(ret, lcont);
5462 if (popped) PUSH_INSN(ret, *node_location, pop);
5463 PUSH_CATCH_ENTRY(CATCH_TYPE_RESCUE, lstart, lend, rescue_iseq, lcont);
5464 PUSH_CATCH_ENTRY(CATCH_TYPE_RETRY, lend, lcont, NULL, lstart);
5468pm_compile_ensure(rb_iseq_t *iseq,
const pm_begin_node_t *cast,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
5474 if (statements != NULL) {
5475 location = PM_NODE_START_LOCATION(parser, statements);
5478 location = *node_location;
5481 LABEL *lstart = NEW_LABEL(location.
line);
5482 LABEL *lend = NEW_LABEL(location.
line);
5483 LABEL *lcont = NEW_LABEL(location.
line);
5490 if (statements != NULL) {
5491 pm_compile_node(iseq, (
const pm_node_t *) statements, ensr,
true, scope_node);
5494 LINK_ELEMENT *last = ensr->last;
5495 bool last_leave = last && IS_INSN(last) && IS_INSN_ID(last, leave);
5500 push_ensure_entry(iseq, &enl, &er, (
void *) cast->
ensure_clause);
5502 PUSH_LABEL(ret, lstart);
5504 pm_compile_rescue(iseq, cast, node_location, ret, popped | last_leave, scope_node);
5507 pm_compile_node(iseq, (
const pm_node_t *) cast->
statements, ret, popped | last_leave, scope_node);
5509 else if (!(popped | last_leave)) {
5510 PUSH_SYNTHETIC_PUTNIL(ret, iseq);
5513 PUSH_LABEL(ret, lend);
5514 PUSH_SEQ(ret, ensr);
5515 if (!popped && last_leave) PUSH_INSN(ret, *node_location, putnil);
5516 PUSH_LABEL(ret, lcont);
5517 if (last_leave) PUSH_INSN(ret, *node_location, pop);
5519 pm_scope_node_t next_scope_node;
5520 pm_scope_node_init((
const pm_node_t *) cast->
ensure_clause, &next_scope_node, scope_node);
5522 rb_iseq_t *child_iseq = NEW_CHILD_ISEQ(
5529 pm_scope_node_destroy(&next_scope_node);
5531 erange = ISEQ_COMPILE_DATA(iseq)->ensure_node_stack->erange;
5532 if (lstart->link.next != &lend->link) {
5534 PUSH_CATCH_ENTRY(CATCH_TYPE_ENSURE, erange->begin, erange->end, child_iseq, lcont);
5535 erange = erange->next;
5538 ISEQ_COMPILE_DATA(iseq)->ensure_node_stack = enl.prev;
5546pm_opt_str_freeze_p(
const rb_iseq_t *iseq,
const pm_call_node_t *node)
5549 !PM_NODE_FLAG_P(node, PM_CALL_NODE_FLAGS_SAFE_NAVIGATION) &&
5551 PM_NODE_TYPE_P(node->
receiver, PM_STRING_NODE) &&
5553 node->
block == NULL &&
5554 ISEQ_COMPILE_DATA(iseq)->option->specialized_instruction
5563pm_compile_constant_read(rb_iseq_t *iseq,
VALUE name,
const pm_location_t *name_loc, uint32_t node_id, LINK_ANCHOR *
const ret,
const pm_scope_node_t *scope_node)
5565 const pm_node_location_t location = PM_LOCATION_START_LOCATION(scope_node->parser, name_loc, node_id);
5567 if (ISEQ_COMPILE_DATA(iseq)->option->inline_const_cache) {
5568 ISEQ_BODY(iseq)->ic_size++;
5569 VALUE segments = rb_ary_new_from_args(1, name);
5570 RB_OBJ_SET_SHAREABLE(segments);
5571 PUSH_INSN1(ret, location, opt_getconstant_path, segments);
5574 PUSH_INSN(ret, location, putnil);
5575 PUSH_INSN1(ret, location, putobject,
Qtrue);
5576 PUSH_INSN1(ret, location, getconstant, name);
5585pm_constant_path_parts(
const pm_node_t *node,
const pm_scope_node_t *scope_node)
5590 switch (PM_NODE_TYPE(node)) {
5591 case PM_CONSTANT_READ_NODE: {
5592 const pm_constant_read_node_t *cast = (
const pm_constant_read_node_t *) node;
5595 rb_ary_unshift(parts, name);
5598 case PM_CONSTANT_PATH_NODE: {
5599 const pm_constant_path_node_t *cast = (
const pm_constant_path_node_t *) node;
5602 rb_ary_unshift(parts, name);
5603 if (cast->
parent == NULL) {
5604 rb_ary_unshift(parts,
ID2SYM(idNULL));
5623pm_compile_constant_path(rb_iseq_t *iseq,
const pm_node_t *node, LINK_ANCHOR *
const prefix, LINK_ANCHOR *
const body,
bool popped, pm_scope_node_t *scope_node)
5625 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
5627 switch (PM_NODE_TYPE(node)) {
5628 case PM_CONSTANT_READ_NODE: {
5629 const pm_constant_read_node_t *cast = (
const pm_constant_read_node_t *) node;
5632 PUSH_INSN1(body, location, putobject,
Qtrue);
5633 PUSH_INSN1(body, location, getconstant, name);
5636 case PM_CONSTANT_PATH_NODE: {
5637 const pm_constant_path_node_t *cast = (
const pm_constant_path_node_t *) node;
5640 if (cast->
parent == NULL) {
5641 PUSH_INSN(body, location, pop);
5642 PUSH_INSN1(body, location, putobject, rb_cObject);
5643 PUSH_INSN1(body, location, putobject,
Qtrue);
5644 PUSH_INSN1(body, location, getconstant, name);
5647 pm_compile_constant_path(iseq, cast->
parent, prefix, body,
false, scope_node);
5648 PUSH_INSN1(body, location, putobject,
Qfalse);
5649 PUSH_INSN1(body, location, getconstant, name);
5654 PM_COMPILE_INTO_ANCHOR(prefix, node);
5663pm_compile_shareable_constant_literal(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_scope_node_t *scope_node)
5665 switch (PM_NODE_TYPE(node)) {
5669 case PM_SYMBOL_NODE:
5670 case PM_REGULAR_EXPRESSION_NODE:
5671 case PM_SOURCE_LINE_NODE:
5672 case PM_INTEGER_NODE:
5674 case PM_RATIONAL_NODE:
5675 case PM_IMAGINARY_NODE:
5676 case PM_SOURCE_ENCODING_NODE:
5677 return pm_static_literal_value(iseq, node, scope_node);
5678 case PM_STRING_NODE:
5679 return parse_static_literal_string(iseq, scope_node, node, &((
const pm_string_node_t *) node)->unescaped);
5680 case PM_SOURCE_FILE_NODE:
5681 return pm_source_file_value((
const pm_source_file_node_t *) node, scope_node);
5682 case PM_ARRAY_NODE: {
5683 const pm_array_node_t *cast = (
const pm_array_node_t *) node;
5686 for (
size_t index = 0; index < cast->
elements.
size; index++) {
5687 VALUE element = pm_compile_shareable_constant_literal(iseq, cast->
elements.
nodes[index], scope_node);
5695 case PM_HASH_NODE: {
5696 const pm_hash_node_t *cast = (
const pm_hash_node_t *) node;
5699 for (
size_t index = 0; index < cast->
elements.
size; index++) {
5701 if (!PM_NODE_TYPE_P(element, PM_ASSOC_NODE))
return Qundef;
5703 const pm_assoc_node_t *assoc = (
const pm_assoc_node_t *) element;
5705 VALUE key = pm_compile_shareable_constant_literal(iseq, assoc->
key, scope_node);
5708 VALUE value = pm_compile_shareable_constant_literal(iseq, assoc->
value, scope_node);
5711 rb_hash_aset(result, key, value);
5726pm_compile_shareable_constant_value(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_flags_t shareability,
VALUE path, LINK_ANCHOR *
const ret, pm_scope_node_t *scope_node,
bool top)
5728 VALUE literal = pm_compile_shareable_constant_literal(iseq, node, scope_node);
5730 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
5731 PUSH_INSN1(ret, location, putobject, literal);
5735 const pm_node_location_t location = PM_NODE_START_LOCATION(scope_node->parser, node);
5736 switch (PM_NODE_TYPE(node)) {
5737 case PM_ARRAY_NODE: {
5738 const pm_array_node_t *cast = (
const pm_array_node_t *) node;
5741 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
5744 for (
size_t index = 0; index < cast->
elements.
size; index++) {
5745 pm_compile_shareable_constant_value(iseq, cast->
elements.
nodes[index], shareability, path, ret, scope_node,
false);
5751 ID method_id = (shareability & PM_SHAREABLE_CONSTANT_NODE_FLAGS_EXPERIMENTAL_COPY) ? rb_intern(
"make_shareable_copy") : rb_intern(
"make_shareable");
5752 PUSH_SEND_WITH_FLAG(ret, location, method_id,
INT2FIX(1),
INT2FIX(VM_CALL_ARGS_SIMPLE));
5757 case PM_HASH_NODE: {
5758 const pm_hash_node_t *cast = (
const pm_hash_node_t *) node;
5761 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
5764 pm_compile_hash_elements(iseq, (
const pm_node_t *) cast, &cast->elements, shareability, path,
false, ret, scope_node);
5767 ID method_id = (shareability & PM_SHAREABLE_CONSTANT_NODE_FLAGS_EXPERIMENTAL_COPY) ? rb_intern(
"make_shareable_copy") : rb_intern(
"make_shareable");
5768 PUSH_SEND_WITH_FLAG(ret, location, method_id,
INT2FIX(1),
INT2FIX(VM_CALL_ARGS_SIMPLE));
5774 DECL_ANCHOR(value_seq);
5776 pm_compile_node(iseq, node, value_seq,
false, scope_node);
5777 if (PM_NODE_TYPE_P(node, PM_INTERPOLATED_STRING_NODE)) {
5778 PUSH_SEND_WITH_FLAG(value_seq, location, idUMinus,
INT2FIX(0),
INT2FIX(VM_CALL_ARGS_SIMPLE));
5781 if (shareability & PM_SHAREABLE_CONSTANT_NODE_FLAGS_LITERAL) {
5782 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
5783 PUSH_SEQ(ret, value_seq);
5785 RB_OBJ_SET_SHAREABLE(path);
5787 PUSH_INSN1(ret, location, putobject, path);
5788 PUSH_SEND_WITH_FLAG(ret, location, rb_intern(
"ensure_shareable"),
INT2FIX(2),
INT2FIX(VM_CALL_ARGS_SIMPLE));
5790 else if (shareability & PM_SHAREABLE_CONSTANT_NODE_FLAGS_EXPERIMENTAL_COPY) {
5791 if (top) PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
5792 PUSH_SEQ(ret, value_seq);
5793 if (top) PUSH_SEND_WITH_FLAG(ret, location, rb_intern(
"make_shareable_copy"),
INT2FIX(1),
INT2FIX(VM_CALL_ARGS_SIMPLE));
5795 else if (shareability & PM_SHAREABLE_CONSTANT_NODE_FLAGS_EXPERIMENTAL_EVERYTHING) {
5796 if (top) PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
5797 PUSH_SEQ(ret, value_seq);
5798 if (top) PUSH_SEND_WITH_FLAG(ret, location, rb_intern(
"make_shareable"),
INT2FIX(1),
INT2FIX(VM_CALL_ARGS_SIMPLE));
5811pm_compile_constant_write_node(rb_iseq_t *iseq,
const pm_constant_write_node_t *node,
const pm_node_flags_t shareability,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
5814 ID name_id = pm_constant_id_lookup(scope_node, node->
name);
5816 if (shareability != 0) {
5817 pm_compile_shareable_constant_value(iseq, node->
value, shareability, rb_id2str(name_id), ret, scope_node,
true);
5820 PM_COMPILE_NOT_POPPED(node->
value);
5823 if (!popped) PUSH_INSN(ret, location, dup);
5824 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
5827 PUSH_INSN1(ret, location, setconstant, operand);
5835pm_compile_constant_and_write_node(rb_iseq_t *iseq,
const pm_constant_and_write_node_t *node,
const pm_node_flags_t shareability,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
5840 LABEL *end_label = NEW_LABEL(location.
line);
5842 pm_compile_constant_read(iseq, name, &node->
name_loc, location.
node_id, ret, scope_node);
5843 if (!popped) PUSH_INSN(ret, location, dup);
5845 PUSH_INSNL(ret, location, branchunless, end_label);
5846 if (!popped) PUSH_INSN(ret, location, pop);
5848 if (shareability != 0) {
5849 pm_compile_shareable_constant_value(iseq, node->
value, shareability, name, ret, scope_node,
true);
5852 PM_COMPILE_NOT_POPPED(node->
value);
5855 if (!popped) PUSH_INSN(ret, location, dup);
5856 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
5857 PUSH_INSN1(ret, location, setconstant, name);
5858 PUSH_LABEL(ret, end_label);
5866pm_compile_constant_or_write_node(rb_iseq_t *iseq,
const pm_constant_or_write_node_t *node,
const pm_node_flags_t shareability,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
5871 LABEL *set_label = NEW_LABEL(location.
line);
5872 LABEL *end_label = NEW_LABEL(location.
line);
5874 PUSH_INSN(ret, location, putnil);
5875 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_CONST), name,
Qtrue);
5876 PUSH_INSNL(ret, location, branchunless, set_label);
5878 pm_compile_constant_read(iseq, name, &node->
name_loc, location.
node_id, ret, scope_node);
5879 if (!popped) PUSH_INSN(ret, location, dup);
5881 PUSH_INSNL(ret, location, branchif, end_label);
5882 if (!popped) PUSH_INSN(ret, location, pop);
5883 PUSH_LABEL(ret, set_label);
5885 if (shareability != 0) {
5886 pm_compile_shareable_constant_value(iseq, node->
value, shareability, name, ret, scope_node,
true);
5889 PM_COMPILE_NOT_POPPED(node->
value);
5892 if (!popped) PUSH_INSN(ret, location, dup);
5893 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
5894 PUSH_INSN1(ret, location, setconstant, name);
5895 PUSH_LABEL(ret, end_label);
5903pm_compile_constant_operator_write_node(rb_iseq_t *iseq,
const pm_constant_operator_write_node_t *node,
const pm_node_flags_t shareability,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
5910 pm_compile_constant_read(iseq, name, &node->
name_loc, location.
node_id, ret, scope_node);
5912 if (shareability != 0) {
5913 pm_compile_shareable_constant_value(iseq, node->
value, shareability, name, ret, scope_node,
true);
5916 PM_COMPILE_NOT_POPPED(node->
value);
5919 PUSH_SEND_WITH_FLAG(ret, location, method_id,
INT2NUM(1),
INT2FIX(VM_CALL_ARGS_SIMPLE));
5920 if (!popped) PUSH_INSN(ret, location, dup);
5922 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
5923 PUSH_INSN1(ret, location, setconstant, name);
5931pm_constant_path_path(
const pm_constant_path_node_t *node,
const pm_scope_node_t *scope_node)
5934 rb_ary_push(parts, rb_id2str(pm_constant_id_lookup(scope_node, node->
name)));
5936 const pm_node_t *current = node->
parent;
5937 while (current != NULL && PM_NODE_TYPE_P(current, PM_CONSTANT_PATH_NODE)) {
5938 const pm_constant_path_node_t *cast = (
const pm_constant_path_node_t *) current;
5939 rb_ary_unshift(parts, rb_id2str(pm_constant_id_lookup(scope_node, cast->
name)));
5943 if (current == NULL) {
5944 rb_ary_unshift(parts, rb_id2str(idNULL));
5946 else if (PM_NODE_TYPE_P(current, PM_CONSTANT_READ_NODE)) {
5947 rb_ary_unshift(parts, rb_id2str(pm_constant_id_lookup(scope_node, ((
const pm_constant_read_node_t *) current)->name)));
5961pm_compile_constant_path_write_node(rb_iseq_t *iseq,
const pm_constant_path_write_node_t *node,
const pm_node_flags_t shareability,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
5964 const pm_constant_path_node_t *target = node->
target;
5968 PM_COMPILE_NOT_POPPED((
const pm_node_t *) target->
parent);
5971 PUSH_INSN1(ret, location, putobject, rb_cObject);
5974 if (shareability != 0) {
5975 pm_compile_shareable_constant_value(iseq, node->
value, shareability, pm_constant_path_path(node->
target, scope_node), ret, scope_node,
true);
5978 PM_COMPILE_NOT_POPPED(node->
value);
5982 PUSH_INSN(ret, location, swap);
5983 PUSH_INSN1(ret, location, topn,
INT2FIX(1));
5986 PUSH_INSN(ret, location, swap);
5987 PUSH_INSN1(ret, location, setconstant, name);
5995pm_compile_constant_path_and_write_node(rb_iseq_t *iseq,
const pm_constant_path_and_write_node_t *node,
const pm_node_flags_t shareability,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
5998 const pm_constant_path_node_t *target = node->
target;
6001 LABEL *lfin = NEW_LABEL(location.
line);
6004 PM_COMPILE_NOT_POPPED(target->
parent);
6007 PUSH_INSN1(ret, location, putobject, rb_cObject);
6010 PUSH_INSN(ret, location, dup);
6011 PUSH_INSN1(ret, location, putobject,
Qtrue);
6012 PUSH_INSN1(ret, location, getconstant, name);
6014 if (!popped) PUSH_INSN(ret, location, dup);
6015 PUSH_INSNL(ret, location, branchunless, lfin);
6017 if (!popped) PUSH_INSN(ret, location, pop);
6019 if (shareability != 0) {
6020 pm_compile_shareable_constant_value(iseq, node->
value, shareability, pm_constant_path_path(node->
target, scope_node), ret, scope_node,
true);
6023 PM_COMPILE_NOT_POPPED(node->
value);
6027 PUSH_INSN1(ret, location, topn,
INT2FIX(1));
6030 PUSH_INSN1(ret, location, dupn,
INT2FIX(2));
6031 PUSH_INSN(ret, location, swap);
6034 PUSH_INSN1(ret, location, setconstant, name);
6035 PUSH_LABEL(ret, lfin);
6037 if (!popped) PUSH_INSN(ret, location, swap);
6038 PUSH_INSN(ret, location, pop);
6046pm_compile_constant_path_or_write_node(rb_iseq_t *iseq,
const pm_constant_path_or_write_node_t *node,
const pm_node_flags_t shareability,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
6049 const pm_constant_path_node_t *target = node->
target;
6052 LABEL *lassign = NEW_LABEL(location.
line);
6053 LABEL *lfin = NEW_LABEL(location.
line);
6056 PM_COMPILE_NOT_POPPED(target->
parent);
6059 PUSH_INSN1(ret, location, putobject, rb_cObject);
6062 PUSH_INSN(ret, location, dup);
6063 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_CONST_FROM), name,
Qtrue);
6064 PUSH_INSNL(ret, location, branchunless, lassign);
6066 PUSH_INSN(ret, location, dup);
6067 PUSH_INSN1(ret, location, putobject,
Qtrue);
6068 PUSH_INSN1(ret, location, getconstant, name);
6070 if (!popped) PUSH_INSN(ret, location, dup);
6071 PUSH_INSNL(ret, location, branchif, lfin);
6073 if (!popped) PUSH_INSN(ret, location, pop);
6074 PUSH_LABEL(ret, lassign);
6076 if (shareability != 0) {
6077 pm_compile_shareable_constant_value(iseq, node->
value, shareability, pm_constant_path_path(node->
target, scope_node), ret, scope_node,
true);
6080 PM_COMPILE_NOT_POPPED(node->
value);
6084 PUSH_INSN1(ret, location, topn,
INT2FIX(1));
6087 PUSH_INSN1(ret, location, dupn,
INT2FIX(2));
6088 PUSH_INSN(ret, location, swap);
6091 PUSH_INSN1(ret, location, setconstant, name);
6092 PUSH_LABEL(ret, lfin);
6094 if (!popped) PUSH_INSN(ret, location, swap);
6095 PUSH_INSN(ret, location, pop);
6103pm_compile_constant_path_operator_write_node(rb_iseq_t *iseq,
const pm_constant_path_operator_write_node_t *node,
const pm_node_flags_t shareability,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
6106 const pm_constant_path_node_t *target = node->
target;
6112 PM_COMPILE_NOT_POPPED(target->
parent);
6115 PUSH_INSN1(ret, location, putobject, rb_cObject);
6118 PUSH_INSN(ret, location, dup);
6119 PUSH_INSN1(ret, location, putobject,
Qtrue);
6120 PUSH_INSN1(ret, location, getconstant, name);
6122 if (shareability != 0) {
6123 pm_compile_shareable_constant_value(iseq, node->
value, shareability, pm_constant_path_path(node->
target, scope_node), ret, scope_node,
true);
6126 PM_COMPILE_NOT_POPPED(node->
value);
6129 PUSH_CALL(ret, location, method_id,
INT2FIX(1));
6130 PUSH_INSN(ret, location, swap);
6133 PUSH_INSN1(ret, location, topn,
INT2FIX(1));
6134 PUSH_INSN(ret, location, swap);
6137 PUSH_INSN1(ret, location, setconstant, name);
6146#define PM_CONTAINER_P(node) (PM_NODE_TYPE_P(node, PM_ARRAY_NODE) || PM_NODE_TYPE_P(node, PM_HASH_NODE) || PM_NODE_TYPE_P(node, PM_RANGE_NODE))
6153pm_compile_scope_node(rb_iseq_t *iseq, pm_scope_node_t *scope_node,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped)
6159 pm_parameters_node_t *parameters_node = NULL;
6160 pm_node_list_t *keywords_list = NULL;
6161 pm_node_list_t *optionals_list = NULL;
6162 pm_node_list_t *posts_list = NULL;
6163 pm_node_list_t *requireds_list = NULL;
6164 pm_node_list_t *block_locals = NULL;
6165 bool trailing_comma =
false;
6167 if (PM_NODE_TYPE_P(scope_node->ast_node, PM_CLASS_NODE) || PM_NODE_TYPE_P(scope_node->ast_node, PM_MODULE_NODE)) {
6171 if (scope_node->parameters != NULL) {
6172 switch (PM_NODE_TYPE(scope_node->parameters)) {
6173 case PM_BLOCK_PARAMETERS_NODE: {
6174 pm_block_parameters_node_t *cast = (pm_block_parameters_node_t *) scope_node->parameters;
6175 parameters_node = cast->parameters;
6176 block_locals = &cast->locals;
6178 if (parameters_node) {
6179 if (parameters_node->
rest && PM_NODE_TYPE_P(parameters_node->
rest, PM_IMPLICIT_REST_NODE)) {
6180 trailing_comma =
true;
6185 case PM_PARAMETERS_NODE: {
6186 parameters_node = (pm_parameters_node_t *) scope_node->parameters;
6189 case PM_NUMBERED_PARAMETERS_NODE: {
6190 uint32_t maximum = ((
const pm_numbered_parameters_node_t *) scope_node->parameters)->maximum;
6191 body->param.lead_num = maximum;
6192 body->param.flags.ambiguous_param0 = maximum == 1;
6195 case PM_IT_PARAMETERS_NODE:
6196 body->param.lead_num = 1;
6197 body->param.flags.ambiguous_param0 =
true;
6200 rb_bug(
"Unexpected node type for parameters: %s", pm_node_type_to_str(PM_NODE_TYPE(scope_node->parameters)));
6204 struct rb_iseq_param_keyword *keyword = NULL;
6206 if (parameters_node) {
6207 optionals_list = ¶meters_node->
optionals;
6208 requireds_list = ¶meters_node->
requireds;
6209 keywords_list = ¶meters_node->
keywords;
6210 posts_list = ¶meters_node->
posts;
6212 else if (scope_node->parameters && (PM_NODE_TYPE_P(scope_node->parameters, PM_NUMBERED_PARAMETERS_NODE) || PM_NODE_TYPE_P(scope_node->parameters, PM_IT_PARAMETERS_NODE))) {
6213 body->param.opt_num = 0;
6216 body->param.lead_num = 0;
6217 body->param.opt_num = 0;
6223 size_t locals_size = locals->
size;
6226 st_table *index_lookup_table = st_init_numtable();
6228 int table_size = (int) locals_size;
6232 if (PM_NODE_TYPE_P(scope_node->ast_node, PM_FOR_NODE)) table_size++;
6234 if (keywords_list && keywords_list->
size) {
6238 if (requireds_list) {
6239 for (
size_t i = 0; i < requireds_list->
size; i++) {
6243 pm_node_t *required = requireds_list->
nodes[i];
6244 if (PM_NODE_TYPE_P(required, PM_MULTI_TARGET_NODE)) {
6247 else if (PM_NODE_TYPE_P(required, PM_REQUIRED_PARAMETER_NODE)) {
6248 if (PM_NODE_FLAG_P(required, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6257 if (scope_node->parameters != NULL && PM_NODE_TYPE_P(scope_node->parameters, PM_IT_PARAMETERS_NODE)) {
6265 if (optionals_list && optionals_list->
size) {
6266 for (
size_t i = 0; i < optionals_list->
size; i++) {
6267 pm_node_t * node = optionals_list->
nodes[i];
6268 if (PM_NODE_FLAG_P(node, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6278 if (parameters_node) {
6279 if (parameters_node->
rest) {
6280 if (!(PM_NODE_TYPE_P(parameters_node->
rest, PM_IMPLICIT_REST_NODE))) {
6281 if (!((
const pm_rest_parameter_node_t *) parameters_node->
rest)->name || PM_NODE_FLAG_P(parameters_node->
rest, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6294 if (PM_NODE_TYPE_P(parameters_node->
keyword_rest, PM_FORWARDING_PARAMETER_NODE)) {
6296 if (requireds_list->
size == 0 && optionals_list->
size == 0 && keywords_list->
size == 0) {
6297 ISEQ_BODY(iseq)->param.flags.use_block = TRUE;
6298 ISEQ_BODY(iseq)->param.flags.forwardable = TRUE;
6306 const pm_keyword_rest_parameter_node_t *kw_rest = (
const pm_keyword_rest_parameter_node_t *) parameters_node->
keyword_rest;
6309 if (!kw_rest->name || PM_NODE_FLAG_P(kw_rest, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6317 for (
size_t i = 0; i < posts_list->
size; i++) {
6321 pm_node_t *required = posts_list->
nodes[i];
6322 if (PM_NODE_TYPE_P(required, PM_MULTI_TARGET_NODE) || PM_NODE_FLAG_P(required, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6328 if (keywords_list && keywords_list->
size) {
6329 for (
size_t i = 0; i < keywords_list->
size; i++) {
6330 pm_node_t *keyword_parameter_node = keywords_list->
nodes[i];
6331 if (PM_NODE_FLAG_P(keyword_parameter_node, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6337 if (parameters_node && parameters_node->
block) {
6338 const pm_block_parameter_node_t *block_node = (
const pm_block_parameter_node_t *) parameters_node->
block;
6340 if (PM_NODE_FLAG_P(block_node, PM_PARAMETER_FLAGS_REPEATED_PARAMETER) || !block_node->name) {
6347 rb_ast_id_table_t *local_table_for_iseq =
ALLOCV(idtmp,
sizeof(rb_ast_id_table_t) + table_size *
sizeof(
ID));
6348 local_table_for_iseq->size = table_size;
6368 int local_index = 0;
6375 if (requireds_list && requireds_list->
size) {
6376 for (
size_t i = 0; i < requireds_list->
size; i++, local_index++) {
6382 pm_node_t *required = requireds_list->
nodes[i];
6384 switch (PM_NODE_TYPE(required)) {
6385 case PM_MULTI_TARGET_NODE: {
6388 local = rb_make_temporary_id(local_index);
6389 local_table_for_iseq->ids[local_index] = local;
6392 case PM_REQUIRED_PARAMETER_NODE: {
6395 const pm_required_parameter_node_t *param = (
const pm_required_parameter_node_t *) required;
6397 if (PM_NODE_FLAG_P(required, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6398 ID local = pm_constant_id_lookup(scope_node, param->
name);
6399 local_table_for_iseq->ids[local_index] = local;
6402 pm_insert_local_index(param->
name, local_index, index_lookup_table, local_table_for_iseq, scope_node);
6408 rb_bug(
"Unsupported node in requireds in parameters %s", pm_node_type_to_str(PM_NODE_TYPE(required)));
6412 body->param.lead_num = (int) requireds_list->
size;
6413 body->param.flags.has_lead =
true;
6416 if (scope_node->parameters != NULL && PM_NODE_TYPE_P(scope_node->parameters, PM_IT_PARAMETERS_NODE)) {
6417 local_table_for_iseq->ids[local_index++] = idItImplicit;
6422 if (optionals_list && optionals_list->
size) {
6423 body->param.opt_num = (int) optionals_list->
size;
6424 body->param.flags.has_opt =
true;
6426 for (
size_t i = 0; i < optionals_list->
size; i++, local_index++) {
6427 pm_node_t * node = optionals_list->
nodes[i];
6428 pm_constant_id_t name = ((
const pm_optional_parameter_node_t *) node)->name;
6430 if (PM_NODE_FLAG_P(node, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6431 ID local = pm_constant_id_lookup(scope_node, name);
6432 local_table_for_iseq->ids[local_index] = local;
6435 pm_insert_local_index(name, local_index, index_lookup_table, local_table_for_iseq, scope_node);
6442 if (parameters_node && parameters_node->
rest) {
6443 body->param.rest_start = local_index;
6447 if (!(PM_NODE_TYPE_P(parameters_node->
rest, PM_IMPLICIT_REST_NODE))) {
6448 body->param.flags.has_rest =
true;
6456 if (PM_NODE_FLAG_P(parameters_node->
rest, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6457 ID local = pm_constant_id_lookup(scope_node, name);
6458 local_table_for_iseq->ids[local_index] = local;
6461 pm_insert_local_index(name, local_index, index_lookup_table, local_table_for_iseq, scope_node);
6467 body->param.flags.anon_rest =
true;
6468 pm_insert_local_special(idMULT, local_index, index_lookup_table, local_table_for_iseq);
6477 if (posts_list && posts_list->
size) {
6478 body->param.post_num = (int) posts_list->
size;
6479 body->param.post_start = local_index;
6480 body->param.flags.has_post =
true;
6482 for (
size_t i = 0; i < posts_list->
size; i++, local_index++) {
6488 const pm_node_t *post_node = posts_list->
nodes[i];
6490 switch (PM_NODE_TYPE(post_node)) {
6491 case PM_MULTI_TARGET_NODE: {
6494 local = rb_make_temporary_id(local_index);
6495 local_table_for_iseq->ids[local_index] = local;
6498 case PM_REQUIRED_PARAMETER_NODE: {
6501 const pm_required_parameter_node_t *param = (
const pm_required_parameter_node_t *) post_node;
6503 if (PM_NODE_FLAG_P(param, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6504 ID local = pm_constant_id_lookup(scope_node, param->
name);
6505 local_table_for_iseq->ids[local_index] = local;
6508 pm_insert_local_index(param->
name, local_index, index_lookup_table, local_table_for_iseq, scope_node);
6513 rb_bug(
"Unsupported node in posts in parameters %s", pm_node_type_to_str(PM_NODE_TYPE(post_node)));
6521 if (keywords_list && keywords_list->
size) {
6522 if (keywords_list->
size > VM_CALL_KW_LEN_MAX) {
6523 COMPILE_ERROR(iseq, node_location->
line,
"too many keyword parameters (%d, maximum is %d)",
6524 (
int) keywords_list->
size, (
int) VM_CALL_KW_LEN_MAX);
6527 keyword =
ZALLOC_N(
struct rb_iseq_param_keyword, 1);
6528 keyword->num = (int) keywords_list->
size;
6533 for (
size_t i = 0; i < keywords_list->
size; i++) {
6534 pm_node_t *keyword_parameter_node = keywords_list->
nodes[i];
6539 if (PM_NODE_TYPE_P(keyword_parameter_node, PM_REQUIRED_KEYWORD_PARAMETER_NODE)) {
6540 name = ((
const pm_required_keyword_parameter_node_t *) keyword_parameter_node)->name;
6541 keyword->required_num++;
6542 ID local = pm_constant_id_lookup(scope_node, name);
6544 if (PM_NODE_FLAG_P(keyword_parameter_node, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6545 local_table_for_iseq->ids[local_index] = local;
6548 pm_insert_local_index(name, local_index, index_lookup_table, local_table_for_iseq, scope_node);
6554 for (
size_t i = 0; i < keywords_list->
size; i++) {
6555 pm_node_t *keyword_parameter_node = keywords_list->
nodes[i];
6560 if (PM_NODE_TYPE_P(keyword_parameter_node, PM_OPTIONAL_KEYWORD_PARAMETER_NODE)) {
6561 const pm_optional_keyword_parameter_node_t *cast = ((
const pm_optional_keyword_parameter_node_t *) keyword_parameter_node);
6563 pm_node_t *value = cast->
value;
6566 if (PM_NODE_FLAG_P(value, PM_NODE_FLAG_STATIC_LITERAL) && !PM_CONTAINER_P(value)) {
6567 rb_ary_push(default_values, pm_static_literal_value(iseq, value, scope_node));
6573 ID local = pm_constant_id_lookup(scope_node, name);
6574 if (PM_NODE_FLAG_P(keyword_parameter_node, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6575 local_table_for_iseq->ids[local_index] = local;
6578 pm_insert_local_index(name, local_index, index_lookup_table, local_table_for_iseq, scope_node);
6588 for (
int i = 0; i <
RARRAY_LEN(default_values); i++) {
6590 if (dv == complex_mark) dv =
Qundef;
6594 keyword->default_values = dvs;
6598 keyword->bits_start = local_index;
6599 ID local = rb_make_temporary_id(local_index);
6600 local_table_for_iseq->ids[local_index] = local;
6603 body->param.keyword = keyword;
6604 body->param.flags.has_kw =
true;
6607 if (body->type == ISEQ_TYPE_BLOCK && local_index == 1 && requireds_list && requireds_list->
size == 1 && !trailing_comma) {
6608 body->param.flags.ambiguous_param0 =
true;
6611 if (parameters_node) {
6616 case PM_NO_KEYWORDS_PARAMETER_NODE: {
6619 body->param.flags.accepts_no_kwarg =
true;
6622 case PM_KEYWORD_REST_PARAMETER_NODE: {
6625 const pm_keyword_rest_parameter_node_t *kw_rest_node = (
const pm_keyword_rest_parameter_node_t *) parameters_node->
keyword_rest;
6626 if (!body->param.flags.has_kw) {
6627 body->param.keyword = keyword =
ZALLOC_N(
struct rb_iseq_param_keyword, 1);
6630 keyword->rest_start = local_index;
6631 body->param.flags.has_kwrest =
true;
6635 if (PM_NODE_FLAG_P(kw_rest_node, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6636 ID local = pm_constant_id_lookup(scope_node, constant_id);
6637 local_table_for_iseq->ids[local_index] = local;
6640 pm_insert_local_index(constant_id, local_index, index_lookup_table, local_table_for_iseq, scope_node);
6644 body->param.flags.anon_kwrest =
true;
6645 pm_insert_local_special(idPow, local_index, index_lookup_table, local_table_for_iseq);
6651 case PM_FORWARDING_PARAMETER_NODE: {
6654 if (!ISEQ_BODY(iseq)->param.
flags.forwardable) {
6656 body->param.rest_start = local_index;
6657 body->param.flags.has_rest =
true;
6658 body->param.flags.anon_rest =
true;
6659 pm_insert_local_special(idMULT, local_index++, index_lookup_table, local_table_for_iseq);
6663 body->param.flags.has_kw =
false;
6664 body->param.flags.has_kwrest =
true;
6665 body->param.flags.anon_kwrest =
true;
6666 body->param.keyword = keyword =
ZALLOC_N(
struct rb_iseq_param_keyword, 1);
6667 keyword->rest_start = local_index;
6668 pm_insert_local_special(idPow, local_index++, index_lookup_table, local_table_for_iseq);
6671 body->param.block_start = local_index;
6672 body->param.flags.has_block =
true;
6673 pm_insert_local_special(idAnd, local_index++, index_lookup_table, local_table_for_iseq);
6677 pm_insert_local_special(idDot3, local_index++, index_lookup_table, local_table_for_iseq);
6681 rb_bug(
"node type %s not expected as keyword_rest", pm_node_type_to_str(PM_NODE_TYPE(parameters_node->
keyword_rest)));
6687 if (parameters_node->
block) {
6688 body->param.block_start = local_index;
6689 body->param.flags.has_block =
true;
6690 iseq_set_use_block(iseq);
6695 if (PM_NODE_FLAG_P(parameters_node->
block, PM_PARAMETER_FLAGS_REPEATED_PARAMETER)) {
6696 ID local = pm_constant_id_lookup(scope_node, name);
6697 local_table_for_iseq->ids[local_index] = local;
6700 pm_insert_local_index(name, local_index, index_lookup_table, local_table_for_iseq, scope_node);
6704 pm_insert_local_special(idAnd, local_index, index_lookup_table, local_table_for_iseq);
6723 if (requireds_list && requireds_list->
size) {
6724 for (
size_t i = 0; i < requireds_list->
size; i++) {
6728 const pm_node_t *required = requireds_list->
nodes[i];
6730 if (PM_NODE_TYPE_P(required, PM_MULTI_TARGET_NODE)) {
6731 local_index = pm_compile_destructured_param_locals((
const pm_multi_target_node_t *) required, index_lookup_table, local_table_for_iseq, scope_node, local_index);
6737 if (posts_list && posts_list->
size) {
6738 for (
size_t i = 0; i < posts_list->
size; i++) {
6742 const pm_node_t *post = posts_list->
nodes[i];
6744 if (PM_NODE_TYPE_P(post, PM_MULTI_TARGET_NODE)) {
6745 local_index = pm_compile_destructured_param_locals((
const pm_multi_target_node_t *) post, index_lookup_table, local_table_for_iseq, scope_node, local_index);
6751 if (PM_NODE_TYPE_P(scope_node->ast_node, PM_FOR_NODE)) {
6752 if (PM_NODE_TYPE_P(((
const pm_for_node_t *) scope_node->ast_node)->index, PM_LOCAL_VARIABLE_TARGET_NODE)) {
6753 body->param.lead_num++;
6756 body->param.rest_start = local_index;
6757 body->param.flags.has_rest =
true;
6760 ID local = rb_make_temporary_id(local_index);
6761 local_table_for_iseq->ids[local_index] = local;
6766 if (scope_node->parameters && PM_NODE_TYPE_P(scope_node->parameters, PM_NUMBERED_PARAMETERS_NODE)) {
6767 int maximum = ((
const pm_numbered_parameters_node_t *) scope_node->parameters)->maximum;
6769 for (
int i = 0; i < maximum; i++, local_index++) {
6770 const uint8_t param_name[] = {
'_',
'1' + i };
6772 RUBY_ASSERT(constant_id &&
"parser should fill in any gaps in numbered parameters");
6773 pm_insert_local_index(constant_id, local_index, index_lookup_table, local_table_for_iseq, scope_node);
6775 body->param.lead_num = maximum;
6776 body->param.flags.has_lead =
true;
6780 if (scope_node->parameters && PM_NODE_TYPE_P(scope_node->parameters, PM_IT_PARAMETERS_NODE)) {
6781 body->param.lead_num = 1;
6782 body->param.flags.has_lead =
true;
6793 if (block_locals && block_locals->
size) {
6794 for (
size_t i = 0; i < block_locals->
size; i++, local_index++) {
6795 pm_constant_id_t constant_id = ((
const pm_block_local_variable_node_t *) block_locals->
nodes[i])->name;
6796 pm_insert_local_index(constant_id, local_index, index_lookup_table, local_table_for_iseq, scope_node);
6801 if (scope_node->locals.
size) {
6802 for (
size_t i = 0; i < scope_node->locals.
size; i++) {
6806 ctx.scope_node = scope_node;
6807 ctx.local_table_for_iseq = local_table_for_iseq;
6808 ctx.local_index = local_index;
6810 st_update(index_lookup_table, (st_data_t)constant_id, pm_local_table_insert_func, (st_data_t)&ctx);
6812 local_index = ctx.local_index;
6821 if (scope_node->index_lookup_table) {
6822 st_free_table(scope_node->index_lookup_table);
6824 scope_node->index_lookup_table = index_lookup_table;
6825 iseq_calc_param_size(iseq);
6827 if (ISEQ_BODY(iseq)->param.
flags.forwardable) {
6830 ISEQ_BODY(iseq)->param.size += 1;
6834 iseq_set_local_table(iseq, local_table_for_iseq, 0);
6835 iseq_set_parameters_lvar_state(iseq);
6837 scope_node->local_table_for_iseq_size = local_table_for_iseq->size;
6839 if (keyword != NULL) {
6840 size_t keyword_start_index = keyword->bits_start - keyword->num;
6841 keyword->table = (
ID *)&ISEQ_BODY(iseq)->local_table[keyword_start_index];
6846 if (optionals_list && optionals_list->
size) {
6854 for (
size_t i = 0; i < optionals_list->
size; i++) {
6855 label = NEW_LABEL(location.
line);
6856 opt_table[i] = label;
6857 PUSH_LABEL(ret, label);
6858 pm_node_t *optional_node = optionals_list->
nodes[i];
6859 PM_COMPILE_NOT_POPPED(optional_node);
6863 label = NEW_LABEL(location.
line);
6864 opt_table[optionals_list->
size] = label;
6865 PUSH_LABEL(ret, label);
6867 body->param.opt_table = (
const VALUE *) opt_table;
6870 if (keywords_list && keywords_list->
size) {
6871 size_t optional_index = 0;
6872 for (
size_t i = 0; i < keywords_list->
size; i++) {
6873 pm_node_t *keyword_parameter_node = keywords_list->
nodes[i];
6876 switch (PM_NODE_TYPE(keyword_parameter_node)) {
6877 case PM_OPTIONAL_KEYWORD_PARAMETER_NODE: {
6880 const pm_optional_keyword_parameter_node_t *cast = ((
const pm_optional_keyword_parameter_node_t *) keyword_parameter_node);
6882 pm_node_t *value = cast->
value;
6885 if (!PM_NODE_FLAG_P(value, PM_NODE_FLAG_STATIC_LITERAL) || PM_CONTAINER_P(value)) {
6886 LABEL *end_label = NEW_LABEL(location.
line);
6888 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, name, 0);
6889 int kw_bits_idx = table_size - body->param.keyword->bits_start;
6890 PUSH_INSN2(ret, location, checkkeyword,
INT2FIX(kw_bits_idx + VM_ENV_DATA_SIZE - 1),
INT2FIX(optional_index));
6891 PUSH_INSNL(ret, location, branchif, end_label);
6893 PUSH_SETLOCAL(ret, location, index.index, index.level);
6894 PUSH_LABEL(ret, end_label);
6899 case PM_REQUIRED_KEYWORD_PARAMETER_NODE:
6904 rb_bug(
"Unexpected keyword parameter node type %s", pm_node_type_to_str(PM_NODE_TYPE(keyword_parameter_node)));
6909 if (requireds_list && requireds_list->
size) {
6910 for (
size_t i = 0; i < requireds_list->
size; i++) {
6914 const pm_node_t *required = requireds_list->
nodes[i];
6916 if (PM_NODE_TYPE_P(required, PM_MULTI_TARGET_NODE)) {
6917 PUSH_GETLOCAL(ret, location, table_size - (
int)i, 0);
6918 pm_compile_destructured_param_writes(iseq, (
const pm_multi_target_node_t *) required, ret, scope_node);
6923 if (posts_list && posts_list->
size) {
6924 for (
size_t i = 0; i < posts_list->
size; i++) {
6928 const pm_node_t *post = posts_list->
nodes[i];
6930 if (PM_NODE_TYPE_P(post, PM_MULTI_TARGET_NODE)) {
6931 PUSH_GETLOCAL(ret, location, table_size - body->param.post_start - (
int) i, 0);
6932 pm_compile_destructured_param_writes(iseq, (
const pm_multi_target_node_t *) post, ret, scope_node);
6937 switch (body->type) {
6938 case ISEQ_TYPE_PLAIN: {
6939 RUBY_ASSERT(PM_NODE_TYPE_P(scope_node->ast_node, PM_INTERPOLATED_REGULAR_EXPRESSION_NODE));
6941 const pm_interpolated_regular_expression_node_t *cast = (
const pm_interpolated_regular_expression_node_t *) scope_node->ast_node;
6942 pm_compile_regexp_dynamic(iseq, (
const pm_node_t *) cast, &cast->parts, &location, ret, popped, scope_node);
6946 case ISEQ_TYPE_BLOCK: {
6947 LABEL *start = ISEQ_COMPILE_DATA(iseq)->start_label = NEW_LABEL(0);
6948 LABEL *end = ISEQ_COMPILE_DATA(iseq)->end_label = NEW_LABEL(0);
6949 const pm_node_location_t block_location = { .line = body->location.first_lineno, .node_id = scope_node->ast_node->
node_id };
6951 start->rescued = LABEL_RESCUE_BEG;
6952 end->rescued = LABEL_RESCUE_END;
6958 if (PM_NODE_TYPE_P(scope_node->ast_node, PM_FOR_NODE)) {
6959 pm_compile_for_node_index(iseq, ((
const pm_for_node_t *) scope_node->ast_node)->index, ret, scope_node);
6963 PUSH_INSN(ret, block_location, nop);
6964 PUSH_LABEL(ret, start);
6966 if (scope_node->body != NULL) {
6967 switch (PM_NODE_TYPE(scope_node->ast_node)) {
6968 case PM_POST_EXECUTION_NODE: {
6969 const pm_post_execution_node_t *cast = (
const pm_post_execution_node_t *) scope_node->ast_node;
6970 PUSH_INSN1(ret, block_location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
6973 pm_scope_node_t next_scope_node;
6974 pm_scope_node_init((
const pm_node_t *) cast->statements, &next_scope_node, scope_node);
6976 const rb_iseq_t *block = NEW_CHILD_ISEQ(&next_scope_node, make_name_for_block(body->parent_iseq), ISEQ_TYPE_BLOCK, location.
line);
6977 pm_scope_node_destroy(&next_scope_node);
6979 PUSH_CALL_WITH_BLOCK(ret, block_location, id_core_set_postexe,
INT2FIX(0), block);
6982 case PM_INTERPOLATED_REGULAR_EXPRESSION_NODE: {
6983 const pm_interpolated_regular_expression_node_t *cast = (
const pm_interpolated_regular_expression_node_t *) scope_node->ast_node;
6984 pm_compile_regexp_dynamic(iseq, (
const pm_node_t *) cast, &cast->parts, &location, ret, popped, scope_node);
6988 pm_compile_node(iseq, scope_node->body, ret, popped, scope_node);
6993 PUSH_INSN(ret, block_location, putnil);
6996 PUSH_LABEL(ret, end);
6998 ISEQ_COMPILE_DATA(iseq)->last_line = body->location.code_location.end_pos.lineno;
7001 PUSH_CATCH_ENTRY(CATCH_TYPE_REDO, start, end, NULL, start);
7002 PUSH_CATCH_ENTRY(CATCH_TYPE_NEXT, start, end, NULL, end);
7005 case ISEQ_TYPE_ENSURE: {
7006 const pm_node_location_t statements_location = (scope_node->body != NULL ? PM_NODE_START_LOCATION(scope_node->parser, scope_node->body) : location);
7007 iseq_set_exception_local_table(iseq);
7009 if (scope_node->body != NULL) {
7010 PM_COMPILE_POPPED((
const pm_node_t *) scope_node->body);
7013 PUSH_GETLOCAL(ret, statements_location, 1, 0);
7014 PUSH_INSN1(ret, statements_location,
throw,
INT2FIX(0));
7017 case ISEQ_TYPE_METHOD: {
7018 ISEQ_COMPILE_DATA(iseq)->root_node = (
const void *) scope_node->body;
7021 if (scope_node->body) {
7022 PM_COMPILE((
const pm_node_t *) scope_node->body);
7025 PUSH_INSN(ret, location, putnil);
7028 ISEQ_COMPILE_DATA(iseq)->root_node = (
const void *) scope_node->body;
7031 ISEQ_COMPILE_DATA(iseq)->last_line = body->location.code_location.end_pos.lineno;
7034 case ISEQ_TYPE_RESCUE: {
7035 iseq_set_exception_local_table(iseq);
7036 if (PM_NODE_TYPE_P(scope_node->ast_node, PM_RESCUE_MODIFIER_NODE)) {
7037 LABEL *lab = NEW_LABEL(location.
line);
7038 LABEL *rescue_end = NEW_LABEL(location.
line);
7039 PUSH_GETLOCAL(ret, location, LVAR_ERRINFO, 0);
7041 PUSH_INSN1(ret, location, checkmatch,
INT2FIX(VM_CHECKMATCH_TYPE_RESCUE));
7042 PUSH_INSNL(ret, location, branchif, lab);
7043 PUSH_INSNL(ret, location, jump, rescue_end);
7044 PUSH_LABEL(ret, lab);
7046 PM_COMPILE((
const pm_node_t *) scope_node->body);
7047 PUSH_INSN(ret, location, leave);
7048 PUSH_LABEL(ret, rescue_end);
7049 PUSH_GETLOCAL(ret, location, LVAR_ERRINFO, 0);
7052 PM_COMPILE((
const pm_node_t *) scope_node->ast_node);
7054 PUSH_INSN1(ret, location,
throw,
INT2FIX(0));
7059 if (scope_node->body) {
7060 PM_COMPILE((
const pm_node_t *) scope_node->body);
7063 PUSH_INSN(ret, location, putnil);
7068 if (PM_NODE_TYPE_P(scope_node->ast_node, PM_CLASS_NODE) || PM_NODE_TYPE_P(scope_node->ast_node, PM_MODULE_NODE)) {
7069 const pm_node_location_t end_location = PM_NODE_END_LOCATION(scope_node->parser, scope_node->ast_node);
7071 ISEQ_COMPILE_DATA(iseq)->last_line = end_location.
line;
7074 if (!PM_NODE_TYPE_P(scope_node->ast_node, PM_ENSURE_NODE)) {
7075 const pm_node_location_t location = { .line = ISEQ_COMPILE_DATA(iseq)->last_line, .node_id = scope_node->ast_node->
node_id };
7076 PUSH_INSN(ret, location, leave);
7081pm_compile_alias_global_variable_node(rb_iseq_t *iseq,
const pm_alias_global_variable_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
7085 PUSH_INSN1(ret, *location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
7089 VALUE operand =
ID2SYM(rb_intern3((
const char *) name_loc->
start, name_loc->
end - name_loc->
start, scope_node->encoding));
7090 PUSH_INSN1(ret, *location, putobject, operand);
7095 VALUE operand =
ID2SYM(rb_intern3((
const char *) name_loc->
start, name_loc->
end - name_loc->
start, scope_node->encoding));
7096 PUSH_INSN1(ret, *location, putobject, operand);
7099 PUSH_SEND(ret, *location, id_core_set_variable_alias,
INT2FIX(2));
7100 if (popped) PUSH_INSN(ret, *location, pop);
7104pm_compile_alias_method_node(rb_iseq_t *iseq,
const pm_alias_method_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
7106 PUSH_INSN1(ret, *location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
7107 PUSH_INSN1(ret, *location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_CBASE));
7108 PM_COMPILE_NOT_POPPED(node->
new_name);
7109 PM_COMPILE_NOT_POPPED(node->
old_name);
7111 PUSH_SEND(ret, *location, id_core_set_method_alias,
INT2FIX(3));
7112 if (popped) PUSH_INSN(ret, *location, pop);
7116pm_compile_and_node(rb_iseq_t *iseq,
const pm_and_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
7118 LABEL *end_label = NEW_LABEL(location->
line);
7120 PM_COMPILE_NOT_POPPED(node->
left);
7121 if (!popped) PUSH_INSN(ret, *location, dup);
7122 PUSH_INSNL(ret, *location, branchunless, end_label);
7124 if (!popped) PUSH_INSN(ret, *location, pop);
7125 PM_COMPILE(node->
right);
7126 PUSH_LABEL(ret, end_label);
7130pm_compile_array_node(rb_iseq_t *iseq,
const pm_node_t *node,
const pm_node_list_t *elements,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
7134 if (PM_NODE_FLAG_P(node, PM_NODE_FLAG_STATIC_LITERAL)) {
7139 if (elements->
size) {
7140 VALUE value = pm_static_literal_value(iseq, node, scope_node);
7141 RB_OBJ_SET_FROZEN_SHAREABLE(value);
7142 PUSH_INSN1(ret, *location, duparray, value);
7145 PUSH_INSN1(ret, *location, newarray,
INT2FIX(0));
7163 const int max_new_array_size = 0x100;
7164 const unsigned int min_tmp_array_size = 0x40;
7166 int new_array_size = 0;
7167 bool first_chunk =
true;
7173 bool static_literal =
false;
7176#define FLUSH_CHUNK \
7177 if (new_array_size) { \
7178 if (first_chunk) PUSH_INSN1(ret, *location, newarray, INT2FIX(new_array_size)); \
7179 else PUSH_INSN1(ret, *location, pushtoarray, INT2FIX(new_array_size)); \
7180 first_chunk = false; \
7181 new_array_size = 0; \
7184 for (
size_t index = 0; index < elements->
size; index++) {
7185 const pm_node_t *element = elements->
nodes[index];
7187 if (PM_NODE_TYPE_P(element, PM_SPLAT_NODE)) {
7190 const pm_splat_node_t *splat_element = (
const pm_splat_node_t *) element;
7192 PM_COMPILE_NOT_POPPED(splat_element->
expression);
7195 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, PM_CONSTANT_MULT, 0);
7196 PUSH_GETLOCAL(ret, *location, index.index, index.level);
7202 PUSH_INSN1(ret, *location, splatarray,
Qtrue);
7203 first_chunk =
false;
7206 PUSH_INSN(ret, *location, concattoarray);
7209 static_literal =
false;
7211 else if (PM_NODE_TYPE_P(element, PM_KEYWORD_HASH_NODE)) {
7212 if (new_array_size == 0 && first_chunk) {
7213 PUSH_INSN1(ret, *location, newarray,
INT2FIX(0));
7214 first_chunk =
false;
7230 const pm_keyword_hash_node_t *keyword_hash = (
const pm_keyword_hash_node_t *) element;
7231 pm_compile_hash_elements(iseq, element, &keyword_hash->
elements, 0,
Qundef,
false, ret, scope_node);
7238 while (splats < keyword_hash->elements.
size && PM_NODE_TYPE_P(keyword_hash->
elements.
nodes[splats], PM_ASSOC_SPLAT_NODE)) splats++;
7241 PUSH_INSN(ret, *location, pushtoarraykwsplat);
7248 PM_NODE_FLAG_P(element, PM_NODE_FLAG_STATIC_LITERAL) &&
7249 !PM_CONTAINER_P(element) &&
7251 ((index + min_tmp_array_size) < elements->
size)
7256 size_t right_index = index + 1;
7258 right_index < elements->size &&
7259 PM_NODE_FLAG_P(elements->
nodes[right_index], PM_NODE_FLAG_STATIC_LITERAL) &&
7260 !PM_CONTAINER_P(elements->
nodes[right_index])
7263 size_t tmp_array_size = right_index - index;
7264 if (tmp_array_size >= min_tmp_array_size) {
7268 for (; tmp_array_size; tmp_array_size--)
7269 rb_ary_push(tmp_array, pm_static_literal_value(iseq, elements->
nodes[index++], scope_node));
7272 RB_OBJ_SET_FROZEN_SHAREABLE(tmp_array);
7277 PUSH_INSN1(ret, *location, duparray, tmp_array);
7278 first_chunk =
false;
7281 PUSH_INSN1(ret, *location, putobject, tmp_array);
7282 PUSH_INSN(ret, *location, concattoarray);
7286 PM_COMPILE_NOT_POPPED(element);
7287 if (++new_array_size >= max_new_array_size) FLUSH_CHUNK;
7288 static_literal =
true;
7291 PM_COMPILE_NOT_POPPED(element);
7292 if (++new_array_size >= max_new_array_size) FLUSH_CHUNK;
7293 static_literal =
false;
7298 if (popped) PUSH_INSN(ret, *location, pop);
7304pm_compile_break_node(rb_iseq_t *iseq,
const pm_break_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
7306 unsigned long throw_flag = 0;
7308 if (ISEQ_COMPILE_DATA(iseq)->redo_label != 0 && can_add_ensure_iseq(iseq)) {
7310 LABEL *splabel = NEW_LABEL(0);
7311 PUSH_LABEL(ret, splabel);
7312 PUSH_ADJUST(ret, *location, ISEQ_COMPILE_DATA(iseq)->redo_label);
7315 PM_COMPILE_NOT_POPPED((
const pm_node_t *) node->
arguments);
7318 PUSH_INSN(ret, *location, putnil);
7321 pm_add_ensure_iseq(ret, iseq, 0, scope_node);
7322 PUSH_INSNL(ret, *location, jump, ISEQ_COMPILE_DATA(iseq)->end_label);
7323 PUSH_ADJUST_RESTORE(ret, splabel);
7324 if (!popped) PUSH_INSN(ret, *location, putnil);
7327 const rb_iseq_t *ip = iseq;
7330 if (!ISEQ_COMPILE_DATA(ip)) {
7335 if (ISEQ_COMPILE_DATA(ip)->redo_label != 0) {
7336 throw_flag = VM_THROW_NO_ESCAPE_FLAG;
7338 else if (ISEQ_BODY(ip)->
type == ISEQ_TYPE_BLOCK) {
7341 else if (ISEQ_BODY(ip)->
type == ISEQ_TYPE_EVAL) {
7342 COMPILE_ERROR(iseq, location->
line,
"Invalid break");
7346 ip = ISEQ_BODY(ip)->parent_iseq;
7352 PM_COMPILE_NOT_POPPED((
const pm_node_t *) node->
arguments);
7355 PUSH_INSN(ret, *location, putnil);
7358 PUSH_INSN1(ret, *location,
throw,
INT2FIX(throw_flag | TAG_BREAK));
7359 if (popped) PUSH_INSN(ret, *location, pop);
7364 COMPILE_ERROR(iseq, location->
line,
"Invalid break");
7369pm_compile_call_node(rb_iseq_t *iseq,
const pm_call_node_t *node, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
7371 ID method_id = pm_constant_id_lookup(scope_node, node->
name);
7377 const char *builtin_func;
7379 if (UNLIKELY(iseq_has_builtin_function_table(iseq)) && (builtin_func = pm_iseq_builtin_function_name(scope_node, node->
receiver, method_id)) != NULL) {
7380 pm_compile_builtin_function_call(iseq, ret, scope_node, node, &location, popped, ISEQ_COMPILE_DATA(iseq)->current_block, builtin_func);
7384 LABEL *start = NEW_LABEL(location.
line);
7385 if (node->
block) PUSH_LABEL(ret, start);
7387 switch (method_id) {
7389 if (pm_opt_str_freeze_p(iseq, node)) {
7390 VALUE value = parse_static_literal_string(iseq, scope_node, node->
receiver, &((
const pm_string_node_t * ) node->
receiver)->unescaped);
7391 const struct rb_callinfo *callinfo = new_callinfo(iseq, idUMinus, 0, 0, NULL, FALSE);
7392 PUSH_INSN2(ret, location, opt_str_uminus, value, callinfo);
7393 if (popped) PUSH_INSN(ret, location, pop);
7399 if (pm_opt_str_freeze_p(iseq, node)) {
7400 VALUE value = parse_static_literal_string(iseq, scope_node, node->
receiver, &((
const pm_string_node_t * ) node->
receiver)->unescaped);
7401 const struct rb_callinfo *callinfo = new_callinfo(iseq, idFreeze, 0, 0, NULL, FALSE);
7402 PUSH_INSN2(ret, location, opt_str_freeze, value, callinfo);
7403 if (popped) PUSH_INSN(ret, location, pop);
7410 if (PM_NODE_FLAG_P(node, PM_CALL_NODE_FLAGS_ATTRIBUTE_WRITE) && !popped) {
7411 PUSH_INSN(ret, location, putnil);
7415 PUSH_INSN(ret, location, putself);
7418 if (method_id == idCall && PM_NODE_TYPE_P(node->
receiver, PM_LOCAL_VARIABLE_READ_NODE)) {
7419 const pm_local_variable_read_node_t *read_node_cast = (
const pm_local_variable_read_node_t *) node->
receiver;
7423 if (iseq_block_param_id_p(iseq, pm_constant_id_lookup(scope_node, read_node_cast->name), &idx, &level)) {
7424 ADD_ELEM(ret, (LINK_ELEMENT *) new_insn_body(iseq, location.
line, node_id, BIN(getblockparamproxy), 2,
INT2FIX((idx) + VM_ENV_DATA_SIZE - 1),
INT2FIX(level)));
7427 PM_COMPILE_NOT_POPPED(node->
receiver);
7431 PM_COMPILE_NOT_POPPED(node->
receiver);
7435 pm_compile_call(iseq, node, ret, popped, scope_node, method_id, start);
7440pm_compile_call_operator_write_node(rb_iseq_t *iseq,
const pm_call_operator_write_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
7444 if (PM_NODE_FLAG_P(node, PM_CALL_NODE_FLAGS_IGNORE_VISIBILITY)) {
7445 flag = VM_CALL_FCALL;
7448 PM_COMPILE_NOT_POPPED(node->
receiver);
7450 LABEL *safe_label = NULL;
7451 if (PM_NODE_FLAG_P(node, PM_CALL_NODE_FLAGS_SAFE_NAVIGATION)) {
7452 safe_label = NEW_LABEL(location->
line);
7453 PUSH_INSN(ret, *location, dup);
7454 PUSH_INSNL(ret, *location, branchnil, safe_label);
7457 PUSH_INSN(ret, *location, dup);
7459 ID id_read_name = pm_constant_id_lookup(scope_node, node->
read_name);
7460 PUSH_SEND_WITH_FLAG(ret, *location, id_read_name,
INT2FIX(0),
INT2FIX(flag));
7462 PM_COMPILE_NOT_POPPED(node->
value);
7464 PUSH_SEND(ret, *location, id_operator,
INT2FIX(1));
7467 PUSH_INSN(ret, *location, swap);
7468 PUSH_INSN1(ret, *location, topn,
INT2FIX(1));
7471 ID id_write_name = pm_constant_id_lookup(scope_node, node->
write_name);
7472 PUSH_SEND_WITH_FLAG(ret, *location, id_write_name,
INT2FIX(1),
INT2FIX(flag));
7474 if (safe_label != NULL && popped) PUSH_LABEL(ret, safe_label);
7475 PUSH_INSN(ret, *location, pop);
7476 if (safe_label != NULL && !popped) PUSH_LABEL(ret, safe_label);
7496pm_compile_case_node_dispatch(rb_iseq_t *iseq,
VALUE dispatch,
const pm_node_t *node, LABEL *label,
const pm_scope_node_t *scope_node)
7499 switch (PM_NODE_TYPE(node)) {
7500 case PM_FLOAT_NODE: {
7501 key = pm_static_literal_value(iseq, node, scope_node);
7505 key = (
FIXABLE(intptr) ?
LONG2FIX((
long) intptr) : rb_dbl2big(intptr));
7511 case PM_INTEGER_NODE:
7513 case PM_SOURCE_FILE_NODE:
7514 case PM_SOURCE_LINE_NODE:
7515 case PM_SYMBOL_NODE:
7517 key = pm_static_literal_value(iseq, node, scope_node);
7519 case PM_STRING_NODE: {
7520 const pm_string_node_t *cast = (
const pm_string_node_t *) node;
7521 key = parse_static_literal_string(iseq, scope_node, node, &cast->
unescaped);
7528 if (
NIL_P(rb_hash_lookup(dispatch, key))) {
7529 rb_hash_aset(dispatch, key, ((
VALUE) label) | 1);
7538pm_compile_case_node(rb_iseq_t *iseq,
const pm_case_node_t *cast,
const pm_node_location_t *node_location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
7542 const pm_node_list_t *conditions = &cast->
conditions;
7547 DECL_ANCHOR(cond_seq);
7552 DECL_ANCHOR(body_seq);
7556 LABEL *end_label = NEW_LABEL(location.
line);
7564 rb_code_location_t case_location = { 0 };
7567 if (PM_BRANCH_COVERAGE_P(iseq)) {
7568 case_location = pm_code_location(scope_node, (
const pm_node_t *) cast);
7569 branches = decl_branch_base(iseq, PTR2NUM(cast), &case_location,
"case");
7575 for (
size_t clause_index = 0; clause_index < conditions->
size; clause_index++) {
7576 const pm_when_node_t *clause = (
const pm_when_node_t *) conditions->
nodes[clause_index];
7577 const pm_node_list_t *conditions = &clause->conditions;
7579 int clause_lineno = pm_node_line_number(parser, (
const pm_node_t *) clause);
7580 LABEL *label = NEW_LABEL(clause_lineno);
7581 PUSH_LABEL(body_seq, label);
7584 if (PM_BRANCH_COVERAGE_P(iseq)) {
7585 rb_code_location_t branch_location = pm_code_location(scope_node, clause->statements != NULL ? ((
const pm_node_t *) clause->statements) : ((
const pm_node_t *) clause));
7586 add_trace_branch_coverage(iseq, body_seq, &branch_location, branch_location.beg_pos.column, branch_id++,
"when", branches);
7589 if (clause->statements != NULL) {
7590 pm_compile_node(iseq, (
const pm_node_t *) clause->statements, body_seq, popped, scope_node);
7593 PUSH_SYNTHETIC_PUTNIL(body_seq, iseq);
7596 PUSH_INSNL(body_seq, location, jump, end_label);
7601 for (
size_t condition_index = 0; condition_index < conditions->
size; condition_index++) {
7602 const pm_node_t *condition = conditions->
nodes[condition_index];
7604 if (PM_NODE_TYPE_P(condition, PM_SPLAT_NODE)) {
7606 PUSH_INSN(cond_seq, cond_location, putnil);
7607 pm_compile_node(iseq, condition, cond_seq,
false, scope_node);
7608 PUSH_INSN1(cond_seq, cond_location, checkmatch,
INT2FIX(VM_CHECKMATCH_TYPE_WHEN | VM_CHECKMATCH_ARRAY));
7609 PUSH_INSNL(cond_seq, cond_location, branchif, label);
7612 LABEL *next_label = NEW_LABEL(pm_node_line_number(parser, condition));
7613 pm_compile_branch_condition(iseq, cond_seq, condition, label, next_label, scope_node);
7614 PUSH_LABEL(cond_seq, next_label);
7621 if (PM_BRANCH_COVERAGE_P(iseq)) {
7622 rb_code_location_t branch_location;
7625 branch_location = case_location;
7627 branch_location = pm_code_location(scope_node, (
const pm_node_t *) cast->
else_clause);
7632 add_trace_branch_coverage(iseq, cond_seq, &branch_location, branch_location.beg_pos.column, branch_id,
"else", branches);
7637 pm_compile_node(iseq, (
const pm_node_t *) cast->
else_clause, cond_seq, popped, scope_node);
7640 PUSH_SYNTHETIC_PUTNIL(cond_seq, iseq);
7645 PUSH_INSNL(cond_seq, location, jump, end_label);
7646 PUSH_SEQ(ret, cond_seq);
7651 rb_code_location_t case_location = { 0 };
7654 if (PM_BRANCH_COVERAGE_P(iseq)) {
7655 case_location = pm_code_location(scope_node, (
const pm_node_t *) cast);
7656 branches = decl_branch_base(iseq, PTR2NUM(cast), &case_location,
"case");
7661 LABEL *else_label = NEW_LABEL(location.
line);
7669 if (ISEQ_COMPILE_DATA(iseq)->option->specialized_instruction) {
7671 RHASH_TBL_RAW(dispatch)->type = &cdhash_type;
7682 for (
size_t clause_index = 0; clause_index < conditions->
size; clause_index++) {
7683 const pm_when_node_t *clause = (
const pm_when_node_t *) conditions->
nodes[clause_index];
7684 pm_node_location_t clause_location = PM_NODE_START_LOCATION(parser, (
const pm_node_t *) clause);
7686 const pm_node_list_t *conditions = &clause->conditions;
7687 LABEL *label = NEW_LABEL(clause_location.
line);
7692 for (
size_t condition_index = 0; condition_index < conditions->
size; condition_index++) {
7693 const pm_node_t *condition = conditions->
nodes[condition_index];
7694 const pm_node_location_t condition_location = PM_NODE_START_LOCATION(parser, condition);
7699 if (dispatch !=
Qundef) {
7700 dispatch = pm_compile_case_node_dispatch(iseq, dispatch, condition, label, scope_node);
7703 if (PM_NODE_TYPE_P(condition, PM_SPLAT_NODE)) {
7704 PUSH_INSN(cond_seq, condition_location, dup);
7705 pm_compile_node(iseq, condition, cond_seq,
false, scope_node);
7706 PUSH_INSN1(cond_seq, condition_location, checkmatch,
INT2FIX(VM_CHECKMATCH_TYPE_CASE | VM_CHECKMATCH_ARRAY));
7709 if (PM_NODE_TYPE_P(condition, PM_STRING_NODE)) {
7710 const pm_string_node_t *
string = (
const pm_string_node_t *) condition;
7711 VALUE value = parse_static_literal_string(iseq, scope_node, condition, &string->
unescaped);
7712 PUSH_INSN1(cond_seq, condition_location, putobject, value);
7715 pm_compile_node(iseq, condition, cond_seq,
false, scope_node);
7718 PUSH_INSN1(cond_seq, condition_location, topn,
INT2FIX(1));
7719 PUSH_SEND_WITH_FLAG(cond_seq, condition_location, idEqq,
INT2NUM(1),
INT2FIX(VM_CALL_FCALL | VM_CALL_ARGS_SIMPLE));
7722 PUSH_INSNL(cond_seq, condition_location, branchif, label);
7729 PUSH_LABEL(body_seq, label);
7730 PUSH_INSN(body_seq, clause_location, pop);
7733 if (PM_BRANCH_COVERAGE_P(iseq)) {
7734 rb_code_location_t branch_location = pm_code_location(scope_node, clause->statements != NULL ? ((
const pm_node_t *) clause->statements) : ((
const pm_node_t *) clause));
7735 add_trace_branch_coverage(iseq, body_seq, &branch_location, branch_location.beg_pos.column, branch_id++,
"when", branches);
7738 if (clause->statements != NULL) {
7739 pm_compile_node(iseq, (
const pm_node_t *) clause->statements, body_seq, popped, scope_node);
7742 PUSH_SYNTHETIC_PUTNIL(body_seq, iseq);
7745 PUSH_INSNL(body_seq, clause_location, jump, end_label);
7756 if (dispatch !=
Qundef) {
7757 PUSH_INSN(ret, location, dup);
7758 RB_OBJ_SET_SHAREABLE(dispatch);
7759 PUSH_INSN2(ret, location, opt_case_dispatch, dispatch, else_label);
7760 LABEL_REF(else_label);
7763 PUSH_SEQ(ret, cond_seq);
7767 PUSH_LABEL(ret, else_label);
7771 PUSH_INSN(ret, else_location, pop);
7774 if (PM_BRANCH_COVERAGE_P(iseq)) {
7776 add_trace_branch_coverage(iseq, ret, &branch_location, branch_location.beg_pos.column, branch_id,
"else", branches);
7779 PM_COMPILE((
const pm_node_t *) cast->
else_clause);
7780 PUSH_INSNL(ret, else_location, jump, end_label);
7783 PUSH_INSN(ret, location, pop);
7786 if (PM_BRANCH_COVERAGE_P(iseq)) {
7787 add_trace_branch_coverage(iseq, ret, &case_location, case_location.beg_pos.column, branch_id,
"else", branches);
7790 if (!popped) PUSH_INSN(ret, location, putnil);
7791 PUSH_INSNL(ret, location, jump, end_label);
7795 PUSH_SEQ(ret, body_seq);
7796 PUSH_LABEL(ret, end_label);
7800pm_compile_case_match_node(rb_iseq_t *iseq,
const pm_case_match_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
7805 DECL_ANCHOR(body_seq);
7810 DECL_ANCHOR(cond_seq);
7814 LABEL *end_label = NEW_LABEL(location->
line);
7819 LABEL *else_label = NEW_LABEL(location->
line);
7823 rb_code_location_t case_location = { 0 };
7827 if (PM_BRANCH_COVERAGE_P(iseq)) {
7828 case_location = pm_code_location(scope_node, (
const pm_node_t *) node);
7829 branches = decl_branch_base(iseq, PTR2NUM(node), &case_location,
"case");
7839 if (in_single_pattern) {
7840 PUSH_INSN(ret, *location, putnil);
7841 PUSH_INSN(ret, *location, putnil);
7842 PUSH_INSN1(ret, *location, putobject,
Qfalse);
7843 PUSH_INSN(ret, *location, putnil);
7847 PUSH_INSN(ret, *location, putnil);
7856 RUBY_ASSERT(PM_NODE_TYPE_P(condition, PM_IN_NODE));
7858 const pm_in_node_t *in_node = (
const pm_in_node_t *) condition;
7859 const pm_node_location_t in_location = PM_NODE_START_LOCATION(scope_node->parser, in_node);
7863 PUSH_INSN(body_seq, in_location, putnil);
7866 LABEL *body_label = NEW_LABEL(in_location.
line);
7867 PUSH_LABEL(body_seq, body_label);
7868 PUSH_INSN1(body_seq, in_location, adjuststack,
INT2FIX(in_single_pattern ? 6 : 2));
7871 if (PM_BRANCH_COVERAGE_P(iseq)) {
7872 rb_code_location_t branch_location = pm_code_location(scope_node, in_node->
statements != NULL ? ((
const pm_node_t *) in_node->
statements) : ((
const pm_node_t *) in_node));
7873 add_trace_branch_coverage(iseq, body_seq, &branch_location, branch_location.beg_pos.column, branch_id++,
"in", branches);
7877 PM_COMPILE_INTO_ANCHOR(body_seq, (
const pm_node_t *) in_node->
statements);
7880 PUSH_SYNTHETIC_PUTNIL(body_seq, iseq);
7883 PUSH_INSNL(body_seq, in_location, jump, end_label);
7884 LABEL *next_pattern_label = NEW_LABEL(pattern_location.
line);
7886 PUSH_INSN(cond_seq, pattern_location, dup);
7887 pm_compile_pattern(iseq, scope_node, in_node->
pattern, cond_seq, body_label, next_pattern_label, in_single_pattern,
true, 2);
7888 PUSH_LABEL(cond_seq, next_pattern_label);
7889 LABEL_UNREMOVABLE(next_pattern_label);
7896 const pm_else_node_t *else_node = node->
else_clause;
7898 PUSH_LABEL(cond_seq, else_label);
7899 PUSH_INSN(cond_seq, *location, pop);
7900 PUSH_INSN(cond_seq, *location, pop);
7903 if (PM_BRANCH_COVERAGE_P(iseq)) {
7904 rb_code_location_t branch_location = pm_code_location(scope_node, else_node->
statements != NULL ? ((
const pm_node_t *) else_node->
statements) : ((
const pm_node_t *) else_node));
7905 add_trace_branch_coverage(iseq, cond_seq, &branch_location, branch_location.beg_pos.column, branch_id,
"else", branches);
7908 PM_COMPILE_INTO_ANCHOR(cond_seq, (
const pm_node_t *) else_node);
7909 PUSH_INSNL(cond_seq, *location, jump, end_label);
7910 PUSH_INSN(cond_seq, *location, putnil);
7911 if (popped) PUSH_INSN(cond_seq, *location, putnil);
7916 PUSH_LABEL(cond_seq, else_label);
7919 add_trace_branch_coverage(iseq, cond_seq, &case_location, case_location.beg_pos.column, branch_id,
"else", branches);
7921 if (in_single_pattern) {
7922 pm_compile_pattern_error_handler(iseq, scope_node, (
const pm_node_t *) node, cond_seq, end_label, popped);
7925 PUSH_INSN1(cond_seq, *location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
7927 PUSH_INSN1(cond_seq, *location, topn,
INT2FIX(2));
7928 PUSH_SEND(cond_seq, *location, id_core_raise,
INT2FIX(2));
7930 PUSH_INSN1(cond_seq, *location, adjuststack,
INT2FIX(3));
7931 if (!popped) PUSH_INSN(cond_seq, *location, putnil);
7932 PUSH_INSNL(cond_seq, *location, jump, end_label);
7933 PUSH_INSN1(cond_seq, *location, dupn,
INT2FIX(1));
7934 if (popped) PUSH_INSN(cond_seq, *location, putnil);
7941 PUSH_SEQ(ret, cond_seq);
7942 PUSH_SEQ(ret, body_seq);
7943 PUSH_LABEL(ret, end_label);
7947pm_compile_forwarding_super_node(rb_iseq_t *iseq,
const pm_forwarding_super_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
7949 const rb_iseq_t *block = NULL;
7950 const rb_iseq_t *previous_block = NULL;
7951 LABEL *retry_label = NULL;
7952 LABEL *retry_end_l = NULL;
7954 if (node->
block != NULL) {
7955 previous_block = ISEQ_COMPILE_DATA(iseq)->current_block;
7956 ISEQ_COMPILE_DATA(iseq)->current_block = NULL;
7958 retry_label = NEW_LABEL(location->
line);
7959 retry_end_l = NEW_LABEL(location->
line);
7961 PUSH_LABEL(ret, retry_label);
7964 iseq_set_use_block(ISEQ_BODY(iseq)->local_iseq);
7967 PUSH_INSN(ret, *location, putself);
7968 int flag = VM_CALL_ZSUPER | VM_CALL_SUPER | VM_CALL_FCALL;
7970 if (node->
block != NULL) {
7971 pm_scope_node_t next_scope_node;
7972 pm_scope_node_init((
const pm_node_t *) node->
block, &next_scope_node, scope_node);
7974 ISEQ_COMPILE_DATA(iseq)->current_block = block = NEW_CHILD_ISEQ(&next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, location->
line);
7975 pm_scope_node_destroy(&next_scope_node);
7982 const rb_iseq_t *local_iseq = body->local_iseq;
7986 int depth = get_lvar_level(iseq);
7988 if (ISEQ_BODY(ISEQ_BODY(iseq)->local_iseq)->param.
flags.forwardable) {
7989 flag |= VM_CALL_FORWARDING;
7990 pm_local_index_t mult_local = pm_lookup_local_index(iseq, scope_node, PM_CONSTANT_DOT3, 0);
7991 PUSH_GETLOCAL(ret, *location, mult_local.index, mult_local.level);
7993 const struct rb_callinfo *callinfo = new_callinfo(iseq, 0, 0, flag, NULL, block != NULL);
7994 PUSH_INSN2(ret, *location, invokesuperforward, callinfo, block);
7996 if (popped) PUSH_INSN(ret, *location, pop);
7998 ISEQ_COMPILE_DATA(iseq)->current_block = previous_block;
8003 if (local_body->param.flags.has_lead) {
8005 for (
int i = 0; i < local_body->param.lead_num; i++) {
8006 int idx = local_body->local_table_size - i;
8007 PUSH_GETLOCAL(args, *location, idx, depth);
8009 argc += local_body->param.lead_num;
8012 if (local_body->param.flags.has_opt) {
8014 for (
int j = 0; j < local_body->param.opt_num; j++) {
8015 int idx = local_body->local_table_size - (argc + j);
8016 PUSH_GETLOCAL(args, *location, idx, depth);
8018 argc += local_body->param.opt_num;
8021 if (local_body->param.flags.has_rest) {
8023 int idx = local_body->local_table_size - local_body->param.rest_start;
8024 PUSH_GETLOCAL(args, *location, idx, depth);
8025 PUSH_INSN1(args, *location, splatarray,
Qfalse);
8027 argc = local_body->param.rest_start + 1;
8028 flag |= VM_CALL_ARGS_SPLAT;
8031 if (local_body->param.flags.has_post) {
8033 int post_len = local_body->param.post_num;
8034 int post_start = local_body->param.post_start;
8037 for (; j < post_len; j++) {
8038 int idx = local_body->local_table_size - (post_start + j);
8039 PUSH_GETLOCAL(args, *location, idx, depth);
8042 if (local_body->param.flags.has_rest) {
8044 PUSH_INSN1(args, *location, newarray,
INT2FIX(j));
8045 PUSH_INSN(args, *location, concatarray);
8048 argc = post_len + post_start;
8052 const struct rb_iseq_param_keyword *
const local_keyword = local_body->param.keyword;
8053 if (local_body->param.flags.has_kw) {
8054 int local_size = local_body->local_table_size;
8057 PUSH_INSN1(args, *location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
8059 if (local_body->param.flags.has_kwrest) {
8060 int idx = local_body->local_table_size - local_keyword->rest_start;
8061 PUSH_GETLOCAL(args, *location, idx, depth);
8063 PUSH_SEND(args, *location, rb_intern(
"dup"),
INT2FIX(0));
8066 PUSH_INSN1(args, *location, newhash,
INT2FIX(0));
8069 for (; i < local_keyword->num; ++i) {
8070 ID id = local_keyword->table[i];
8071 int idx = local_size - get_local_var_idx(local_iseq,
id);
8075 PUSH_INSN1(args, *location, putobject, operand);
8078 PUSH_GETLOCAL(args, *location, idx, depth);
8081 PUSH_SEND(args, *location, id_core_hash_merge_ptr,
INT2FIX(i * 2 + 1));
8082 flag |= VM_CALL_KW_SPLAT| VM_CALL_KW_SPLAT_MUT;
8084 else if (local_body->param.flags.has_kwrest) {
8085 int idx = local_body->local_table_size - local_keyword->rest_start;
8086 PUSH_GETLOCAL(args, *location, idx, depth);
8088 flag |= VM_CALL_KW_SPLAT;
8091 PUSH_SEQ(ret, args);
8094 const struct rb_callinfo *callinfo = new_callinfo(iseq, 0, argc, flag, NULL, block != NULL);
8095 PUSH_INSN2(ret, *location, invokesuper, callinfo, block);
8098 if (node->
block != NULL) {
8099 pm_compile_retry_end_label(iseq, ret, retry_end_l);
8100 PUSH_CATCH_ENTRY(CATCH_TYPE_BREAK, retry_label, retry_end_l, block, retry_end_l);
8101 ISEQ_COMPILE_DATA(iseq)->current_block = previous_block;
8104 if (popped) PUSH_INSN(ret, *location, pop);
8108pm_compile_match_required_node(rb_iseq_t *iseq,
const pm_match_required_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
8110 LABEL *matched_label = NEW_LABEL(location->
line);
8111 LABEL *unmatched_label = NEW_LABEL(location->
line);
8112 LABEL *done_label = NEW_LABEL(location->
line);
8116 PUSH_INSN(ret, *location, putnil);
8117 PUSH_INSN(ret, *location, putnil);
8118 PUSH_INSN1(ret, *location, putobject,
Qfalse);
8119 PUSH_INSN(ret, *location, putnil);
8120 PUSH_INSN(ret, *location, putnil);
8124 PM_COMPILE_NOT_POPPED(node->
value);
8128 PUSH_INSN(ret, *location, dup);
8135 pm_compile_pattern(iseq, scope_node, node->
pattern, ret, matched_label, unmatched_label,
true,
true, 2);
8140 PUSH_LABEL(ret, unmatched_label);
8141 pm_compile_pattern_error_handler(iseq, scope_node, (
const pm_node_t *) node, ret, done_label, popped);
8145 PUSH_LABEL(ret, matched_label);
8146 PUSH_INSN1(ret, *location, adjuststack,
INT2FIX(6));
8147 if (!popped) PUSH_INSN(ret, *location, putnil);
8148 PUSH_INSNL(ret, *location, jump, done_label);
8150 PUSH_LABEL(ret, done_label);
8154pm_compile_match_write_node(rb_iseq_t *iseq,
const pm_match_write_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
8156 LABEL *fail_label = NEW_LABEL(location->
line);
8157 LABEL *end_label = NEW_LABEL(location->
line);
8161 PM_COMPILE_NOT_POPPED((
const pm_node_t *) node->
call);
8168 PUSH_INSN1(ret, *location, getglobal, operand);
8171 PUSH_INSN(ret, *location, dup);
8172 PUSH_INSNL(ret, *location, branchunless, fail_label);
8178 if (targets_count == 1) {
8180 RUBY_ASSERT(PM_NODE_TYPE_P(target, PM_LOCAL_VARIABLE_TARGET_NODE));
8182 const pm_local_variable_target_node_t *local_target = (
const pm_local_variable_target_node_t *) target;
8183 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, local_target->
name, local_target->
depth);
8187 PUSH_INSN1(ret, *location, putobject, operand);
8190 PUSH_SEND(ret, *location, idAREF,
INT2FIX(1));
8191 PUSH_LABEL(ret, fail_label);
8192 PUSH_SETLOCAL(ret, *location, index.index, index.level);
8193 if (popped) PUSH_INSN(ret, *location, pop);
8197 DECL_ANCHOR(fail_anchor);
8201 for (
size_t targets_index = 0; targets_index < targets_count; targets_index++) {
8202 const pm_node_t *target = node->
targets.
nodes[targets_index];
8203 RUBY_ASSERT(PM_NODE_TYPE_P(target, PM_LOCAL_VARIABLE_TARGET_NODE));
8205 const pm_local_variable_target_node_t *local_target = (
const pm_local_variable_target_node_t *) target;
8206 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, local_target->
name, local_target->
depth);
8208 if (((
size_t) targets_index) < (targets_count - 1)) {
8209 PUSH_INSN(ret, *location, dup);
8214 PUSH_INSN1(ret, *location, putobject, operand);
8217 PUSH_SEND(ret, *location, idAREF,
INT2FIX(1));
8218 PUSH_SETLOCAL(ret, *location, index.index, index.level);
8220 PUSH_INSN(fail_anchor, *location, putnil);
8221 PUSH_SETLOCAL(fail_anchor, *location, index.index, index.level);
8225 PUSH_INSNL(ret, *location, jump, end_label);
8229 PUSH_LABEL(ret, fail_label);
8230 PUSH_INSN(ret, *location, pop);
8231 PUSH_SEQ(ret, fail_anchor);
8234 PUSH_LABEL(ret, end_label);
8235 if (popped) PUSH_INSN(ret, *location, pop);
8239pm_compile_next_node(rb_iseq_t *iseq,
const pm_next_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
8241 if (ISEQ_COMPILE_DATA(iseq)->redo_label != 0 && can_add_ensure_iseq(iseq)) {
8242 LABEL *splabel = NEW_LABEL(0);
8243 PUSH_LABEL(ret, splabel);
8246 PM_COMPILE_NOT_POPPED((
const pm_node_t *) node->
arguments);
8249 PUSH_INSN(ret, *location, putnil);
8251 pm_add_ensure_iseq(ret, iseq, 0, scope_node);
8253 PUSH_ADJUST(ret, *location, ISEQ_COMPILE_DATA(iseq)->redo_label);
8254 PUSH_INSNL(ret, *location, jump, ISEQ_COMPILE_DATA(iseq)->start_label);
8256 PUSH_ADJUST_RESTORE(ret, splabel);
8257 if (!popped) PUSH_INSN(ret, *location, putnil);
8259 else if (ISEQ_COMPILE_DATA(iseq)->end_label && can_add_ensure_iseq(iseq)) {
8260 LABEL *splabel = NEW_LABEL(0);
8262 PUSH_LABEL(ret, splabel);
8263 PUSH_ADJUST(ret, *location, ISEQ_COMPILE_DATA(iseq)->start_label);
8266 PM_COMPILE_NOT_POPPED((
const pm_node_t *) node->
arguments);
8269 PUSH_INSN(ret, *location, putnil);
8272 pm_add_ensure_iseq(ret, iseq, 0, scope_node);
8273 PUSH_INSNL(ret, *location, jump, ISEQ_COMPILE_DATA(iseq)->end_label);
8274 PUSH_ADJUST_RESTORE(ret, splabel);
8275 splabel->unremovable = FALSE;
8277 if (!popped) PUSH_INSN(ret, *location, putnil);
8280 const rb_iseq_t *ip = iseq;
8281 unsigned long throw_flag = 0;
8284 if (!ISEQ_COMPILE_DATA(ip)) {
8289 throw_flag = VM_THROW_NO_ESCAPE_FLAG;
8290 if (ISEQ_COMPILE_DATA(ip)->redo_label != 0) {
8294 else if (ISEQ_BODY(ip)->
type == ISEQ_TYPE_BLOCK) {
8297 else if (ISEQ_BODY(ip)->
type == ISEQ_TYPE_EVAL) {
8298 COMPILE_ERROR(iseq, location->
line,
"Invalid next");
8302 ip = ISEQ_BODY(ip)->parent_iseq;
8307 PM_COMPILE_NOT_POPPED((
const pm_node_t *) node->
arguments);
8310 PUSH_INSN(ret, *location, putnil);
8313 PUSH_INSN1(ret, *location,
throw,
INT2FIX(throw_flag | TAG_NEXT));
8314 if (popped) PUSH_INSN(ret, *location, pop);
8317 COMPILE_ERROR(iseq, location->
line,
"Invalid next");
8323pm_compile_redo_node(rb_iseq_t *iseq,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
8325 if (ISEQ_COMPILE_DATA(iseq)->redo_label && can_add_ensure_iseq(iseq)) {
8326 LABEL *splabel = NEW_LABEL(0);
8328 PUSH_LABEL(ret, splabel);
8329 PUSH_ADJUST(ret, *location, ISEQ_COMPILE_DATA(iseq)->redo_label);
8330 pm_add_ensure_iseq(ret, iseq, 0, scope_node);
8332 PUSH_INSNL(ret, *location, jump, ISEQ_COMPILE_DATA(iseq)->redo_label);
8333 PUSH_ADJUST_RESTORE(ret, splabel);
8334 if (!popped) PUSH_INSN(ret, *location, putnil);
8336 else if (ISEQ_BODY(iseq)->
type != ISEQ_TYPE_EVAL && ISEQ_COMPILE_DATA(iseq)->start_label && can_add_ensure_iseq(iseq)) {
8337 LABEL *splabel = NEW_LABEL(0);
8339 PUSH_LABEL(ret, splabel);
8340 pm_add_ensure_iseq(ret, iseq, 0, scope_node);
8341 PUSH_ADJUST(ret, *location, ISEQ_COMPILE_DATA(iseq)->start_label);
8343 PUSH_INSNL(ret, *location, jump, ISEQ_COMPILE_DATA(iseq)->start_label);
8344 PUSH_ADJUST_RESTORE(ret, splabel);
8345 if (!popped) PUSH_INSN(ret, *location, putnil);
8348 const rb_iseq_t *ip = iseq;
8351 if (!ISEQ_COMPILE_DATA(ip)) {
8356 if (ISEQ_COMPILE_DATA(ip)->redo_label != 0) {
8359 else if (ISEQ_BODY(ip)->
type == ISEQ_TYPE_BLOCK) {
8362 else if (ISEQ_BODY(ip)->
type == ISEQ_TYPE_EVAL) {
8363 COMPILE_ERROR(iseq, location->
line,
"Invalid redo");
8367 ip = ISEQ_BODY(ip)->parent_iseq;
8371 PUSH_INSN(ret, *location, putnil);
8372 PUSH_INSN1(ret, *location,
throw,
INT2FIX(VM_THROW_NO_ESCAPE_FLAG | TAG_REDO));
8373 if (popped) PUSH_INSN(ret, *location, pop);
8376 COMPILE_ERROR(iseq, location->
line,
"Invalid redo");
8382pm_compile_rescue_node(rb_iseq_t *iseq,
const pm_rescue_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
8384 iseq_set_exception_local_table(iseq);
8388 LABEL *exception_match_label = NEW_LABEL(location->
line);
8389 LABEL *rescue_end_label = NEW_LABEL(location->
line);
8397 const pm_node_list_t *exceptions = &node->
exceptions;
8399 if (exceptions->
size > 0) {
8400 for (
size_t index = 0; index < exceptions->
size; index++) {
8401 PUSH_GETLOCAL(ret, *location, LVAR_ERRINFO, 0);
8402 PM_COMPILE(exceptions->
nodes[index]);
8403 int checkmatch_flags = VM_CHECKMATCH_TYPE_RESCUE;
8404 if (PM_NODE_TYPE_P(exceptions->
nodes[index], PM_SPLAT_NODE)) {
8405 checkmatch_flags |= VM_CHECKMATCH_ARRAY;
8407 PUSH_INSN1(ret, *location, checkmatch,
INT2FIX(checkmatch_flags));
8408 PUSH_INSNL(ret, *location, branchif, exception_match_label);
8412 PUSH_GETLOCAL(ret, *location, LVAR_ERRINFO, 0);
8414 PUSH_INSN1(ret, *location, checkmatch,
INT2FIX(VM_CHECKMATCH_TYPE_RESCUE));
8415 PUSH_INSNL(ret, *location, branchif, exception_match_label);
8420 PUSH_INSNL(ret, *location, jump, rescue_end_label);
8425 PUSH_LABEL(ret, exception_match_label);
8432 DECL_ANCHOR(writes);
8433 DECL_ANCHOR(cleanup);
8435 pm_compile_target_node(iseq, node->
reference, ret, writes, cleanup, scope_node, NULL);
8436 PUSH_GETLOCAL(ret, *location, LVAR_ERRINFO, 0);
8438 PUSH_SEQ(ret, writes);
8439 PUSH_SEQ(ret, cleanup);
8449 LABEL *prev_end = ISEQ_COMPILE_DATA(iseq)->end_label;
8450 ISEQ_COMPILE_DATA(iseq)->end_label = NULL;
8452 PM_COMPILE((
const pm_node_t *) node->
statements);
8455 ISEQ_COMPILE_DATA(iseq)->end_label = prev_end;
8458 PUSH_INSN(ret, *location, putnil);
8461 PUSH_INSN(ret, *location, leave);
8467 PUSH_LABEL(ret, rescue_end_label);
8469 PM_COMPILE((
const pm_node_t *) node->
subsequent);
8472 PUSH_GETLOCAL(ret, *location, 1, 0);
8477pm_compile_return_node(rb_iseq_t *iseq,
const pm_return_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
8479 const pm_arguments_node_t *arguments = node->
arguments;
8480 enum rb_iseq_type
type = ISEQ_BODY(iseq)->type;
8483 const rb_iseq_t *parent_iseq = iseq;
8484 enum rb_iseq_type parent_type = ISEQ_BODY(parent_iseq)->type;
8485 while (parent_type == ISEQ_TYPE_RESCUE || parent_type == ISEQ_TYPE_ENSURE) {
8486 if (!(parent_iseq = ISEQ_BODY(parent_iseq)->parent_iseq))
break;
8487 parent_type = ISEQ_BODY(parent_iseq)->type;
8490 switch (parent_type) {
8492 case ISEQ_TYPE_MAIN:
8494 rb_warn(
"argument of top-level return is ignored");
8496 if (parent_iseq == iseq) {
8497 type = ISEQ_TYPE_METHOD;
8504 if (
type == ISEQ_TYPE_METHOD) {
8505 splabel = NEW_LABEL(0);
8506 PUSH_LABEL(ret, splabel);
8507 PUSH_ADJUST(ret, *location, 0);
8510 if (arguments != NULL) {
8511 PM_COMPILE_NOT_POPPED((
const pm_node_t *) arguments);
8514 PUSH_INSN(ret, *location, putnil);
8517 if (
type == ISEQ_TYPE_METHOD && can_add_ensure_iseq(iseq)) {
8518 pm_add_ensure_iseq(ret, iseq, 1, scope_node);
8520 PUSH_INSN(ret, *location, leave);
8521 PUSH_ADJUST_RESTORE(ret, splabel);
8522 if (!popped) PUSH_INSN(ret, *location, putnil);
8525 PUSH_INSN1(ret, *location,
throw,
INT2FIX(TAG_RETURN));
8526 if (popped) PUSH_INSN(ret, *location, pop);
8531pm_compile_super_node(rb_iseq_t *iseq,
const pm_super_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
8535 LABEL *retry_label = NEW_LABEL(location->
line);
8536 LABEL *retry_end_l = NEW_LABEL(location->
line);
8538 const rb_iseq_t *previous_block = ISEQ_COMPILE_DATA(iseq)->current_block;
8539 const rb_iseq_t *current_block;
8540 ISEQ_COMPILE_DATA(iseq)->current_block = current_block = NULL;
8542 PUSH_LABEL(ret, retry_label);
8543 PUSH_INSN(ret, *location, putself);
8547 int argc = pm_setup_args(node->
arguments, node->
block, &flags, &keywords, iseq, ret, scope_node, location);
8548 bool is_forwardable = (node->
arguments != NULL) && PM_NODE_FLAG_P(node->
arguments, PM_ARGUMENTS_NODE_FLAGS_CONTAINS_FORWARDING);
8549 flags |= VM_CALL_SUPER | VM_CALL_FCALL;
8551 if (node->
block && PM_NODE_TYPE_P(node->
block, PM_BLOCK_NODE)) {
8552 pm_scope_node_t next_scope_node;
8553 pm_scope_node_init(node->
block, &next_scope_node, scope_node);
8555 ISEQ_COMPILE_DATA(iseq)->current_block = current_block = NEW_CHILD_ISEQ(&next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, location->
line);
8556 pm_scope_node_destroy(&next_scope_node);
8560 iseq_set_use_block(ISEQ_BODY(iseq)->local_iseq);
8563 if ((flags & VM_CALL_ARGS_BLOCKARG) && (flags & VM_CALL_KW_SPLAT) && !(flags & VM_CALL_KW_SPLAT_MUT)) {
8564 PUSH_INSN(args, *location, splatkw);
8567 PUSH_SEQ(ret, args);
8568 if (is_forwardable && ISEQ_BODY(ISEQ_BODY(iseq)->local_iseq)->param.
flags.forwardable) {
8569 flags |= VM_CALL_FORWARDING;
8572 const struct rb_callinfo *callinfo = new_callinfo(iseq, 0, argc, flags, keywords, current_block != NULL);
8573 PUSH_INSN2(ret, *location, invokesuperforward, callinfo, current_block);
8578 const struct rb_callinfo *callinfo = new_callinfo(iseq, 0, argc, flags, keywords, current_block != NULL);
8579 PUSH_INSN2(ret, *location, invokesuper, callinfo, current_block);
8584 pm_compile_retry_end_label(iseq, ret, retry_end_l);
8586 if (popped) PUSH_INSN(ret, *location, pop);
8587 ISEQ_COMPILE_DATA(iseq)->current_block = previous_block;
8588 PUSH_CATCH_ENTRY(CATCH_TYPE_BREAK, retry_label, retry_end_l, current_block, retry_end_l);
8592pm_compile_yield_node(rb_iseq_t *iseq,
const pm_yield_node_t *node,
const pm_node_location_t *location, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
8594 switch (ISEQ_BODY(ISEQ_BODY(iseq)->local_iseq)->
type) {
8596 case ISEQ_TYPE_MAIN:
8597 case ISEQ_TYPE_CLASS:
8598 COMPILE_ERROR(iseq, location->
line,
"Invalid yield");
8608 argc = pm_setup_args(node->
arguments, NULL, &flags, &keywords, iseq, ret, scope_node, location);
8611 const struct rb_callinfo *callinfo = new_callinfo(iseq, 0, argc, flags, keywords, FALSE);
8612 PUSH_INSN1(ret, *location, invokeblock, callinfo);
8614 iseq_set_use_block(ISEQ_BODY(iseq)->local_iseq);
8615 if (popped) PUSH_INSN(ret, *location, pop);
8618 for (
const rb_iseq_t *tmp_iseq = iseq; tmp_iseq != ISEQ_BODY(iseq)->local_iseq; level++) {
8619 tmp_iseq = ISEQ_BODY(tmp_iseq)->parent_iseq;
8622 if (level > 0) access_outer_variables(iseq, level, rb_intern(
"yield"),
true);
8636pm_compile_node(rb_iseq_t *iseq,
const pm_node_t *node, LINK_ANCHOR *
const ret,
bool popped, pm_scope_node_t *scope_node)
8640 int lineno = (int) location.
line;
8642 if (PM_NODE_TYPE_P(node, PM_BEGIN_NODE) && (((
const pm_begin_node_t *) node)->statements == NULL) && (((
const pm_begin_node_t *) node)->rescue_clause != NULL)) {
8647 lineno = (int) PM_NODE_START_LINE_COLUMN(parser, ((
const pm_begin_node_t *) node)->rescue_clause).line;
8650 if (PM_NODE_FLAG_P(node, PM_NODE_FLAG_NEWLINE) && ISEQ_COMPILE_DATA(iseq)->last_line != lineno) {
8656 ISEQ_COMPILE_DATA(iseq)->last_line = lineno;
8657 if (lineno > 0 && ISEQ_COVERAGE(iseq) && ISEQ_LINE_COVERAGE(iseq)) {
8658 event |= RUBY_EVENT_COVERAGE_LINE;
8660 PUSH_TRACE(ret, event);
8663 switch (PM_NODE_TYPE(node)) {
8664 case PM_ALIAS_GLOBAL_VARIABLE_NODE:
8667 pm_compile_alias_global_variable_node(iseq, (
const pm_alias_global_variable_node_t *) node, &location, ret, popped, scope_node);
8669 case PM_ALIAS_METHOD_NODE:
8672 pm_compile_alias_method_node(iseq, (
const pm_alias_method_node_t *) node, &location, ret, popped, scope_node);
8677 pm_compile_and_node(iseq, (
const pm_and_node_t *) node, &location, ret, popped, scope_node);
8679 case PM_ARGUMENTS_NODE: {
8686 const pm_arguments_node_t *cast = (
const pm_arguments_node_t *) node;
8687 const pm_node_list_t *elements = &cast->
arguments;
8689 if (elements->
size == 1) {
8692 PM_COMPILE(elements->
nodes[0]);
8695 pm_compile_array_node(iseq, (
const pm_node_t *) cast, elements, &location, ret, popped, scope_node);
8699 case PM_ARRAY_NODE: {
8702 const pm_array_node_t *cast = (
const pm_array_node_t *) node;
8703 pm_compile_array_node(iseq, (
const pm_node_t *) cast, &cast->elements, &location, ret, popped, scope_node);
8706 case PM_ASSOC_NODE: {
8712 const pm_assoc_node_t *cast = (
const pm_assoc_node_t *) node;
8714 PM_COMPILE(cast->
key);
8715 PM_COMPILE(cast->
value);
8719 case PM_ASSOC_SPLAT_NODE: {
8725 const pm_assoc_splat_node_t *cast = (
const pm_assoc_splat_node_t *) node;
8727 if (cast->
value != NULL) {
8728 PM_COMPILE(cast->
value);
8731 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, PM_CONSTANT_POW, 0);
8732 PUSH_GETLOCAL(ret, location, index.index, index.level);
8737 case PM_BACK_REFERENCE_READ_NODE: {
8741 const pm_back_reference_read_node_t *cast = (
const pm_back_reference_read_node_t *) node;
8742 VALUE backref = pm_compile_back_reference_ref(cast);
8744 PUSH_INSN2(ret, location, getspecial,
INT2FIX(1), backref);
8748 case PM_BEGIN_NODE: {
8751 const pm_begin_node_t *cast = (
const pm_begin_node_t *) node;
8756 pm_compile_ensure(iseq, cast, &location, ret, popped, scope_node);
8760 pm_compile_rescue(iseq, cast, &location, ret, popped, scope_node);
8766 PM_COMPILE((
const pm_node_t *) cast->
statements);
8769 PUSH_SYNTHETIC_PUTNIL(ret, iseq);
8774 case PM_BLOCK_ARGUMENT_NODE: {
8777 const pm_block_argument_node_t *cast = (
const pm_block_argument_node_t *) node;
8784 pm_local_index_t local_index = pm_lookup_local_index(iseq, scope_node, PM_CONSTANT_AND, 0);
8785 PUSH_INSN2(ret, location, getblockparamproxy,
INT2FIX(local_index.index + VM_ENV_DATA_SIZE - 1),
INT2FIX(local_index.level));
8795 pm_compile_break_node(iseq, (
const pm_break_node_t *) node, &location, ret, popped, scope_node);
8806 pm_compile_call_node(iseq, (
const pm_call_node_t *) node, ret, popped, scope_node);
8808 case PM_CALL_AND_WRITE_NODE: {
8811 const pm_call_and_write_node_t *cast = (
const pm_call_and_write_node_t *) node;
8812 pm_compile_call_and_or_write_node(iseq,
true, cast->
receiver, cast->
value, cast->
write_name, cast->
read_name, PM_NODE_FLAG_P(cast, PM_CALL_NODE_FLAGS_SAFE_NAVIGATION), &location, ret, popped, scope_node);
8815 case PM_CALL_OR_WRITE_NODE: {
8818 const pm_call_or_write_node_t *cast = (
const pm_call_or_write_node_t *) node;
8819 pm_compile_call_and_or_write_node(iseq,
false, cast->
receiver, cast->
value, cast->
write_name, cast->
read_name, PM_NODE_FLAG_P(cast, PM_CALL_NODE_FLAGS_SAFE_NAVIGATION), &location, ret, popped, scope_node);
8822 case PM_CALL_OPERATOR_WRITE_NODE:
8832 pm_compile_call_operator_write_node(iseq, (
const pm_call_operator_write_node_t *) node, &location, ret, popped, scope_node);
8837 pm_compile_case_node(iseq, (
const pm_case_node_t *) node, &location, ret, popped, scope_node);
8839 case PM_CASE_MATCH_NODE:
8848 pm_compile_case_match_node(iseq, (
const pm_case_match_node_t *) node, &location, ret, popped, scope_node);
8850 case PM_CLASS_NODE: {
8853 const pm_class_node_t *cast = (
const pm_class_node_t *) node;
8855 ID class_id = pm_constant_id_lookup(scope_node, cast->
name);
8856 VALUE class_name =
rb_str_freeze(rb_sprintf(
"<class:%"PRIsVALUE
">", rb_id2str(class_id)));
8858 pm_scope_node_t next_scope_node;
8859 pm_scope_node_init((
const pm_node_t *) cast, &next_scope_node, scope_node);
8861 const rb_iseq_t *class_iseq = NEW_CHILD_ISEQ(&next_scope_node, class_name, ISEQ_TYPE_CLASS, location.
line);
8862 pm_scope_node_destroy(&next_scope_node);
8865 const int flags = VM_DEFINECLASS_TYPE_CLASS |
8866 (cast->
superclass ? VM_DEFINECLASS_FLAG_HAS_SUPERCLASS : 0) |
8867 pm_compile_class_path(iseq, cast->
constant_path, &location, ret,
false, scope_node);
8873 PUSH_INSN(ret, location, putnil);
8878 PUSH_INSN3(ret, location, defineclass, operand, class_iseq,
INT2FIX(flags));
8882 if (popped) PUSH_INSN(ret, location, pop);
8885 case PM_CLASS_VARIABLE_AND_WRITE_NODE: {
8888 const pm_class_variable_and_write_node_t *cast = (
const pm_class_variable_and_write_node_t *) node;
8889 LABEL *end_label = NEW_LABEL(location.
line);
8891 ID name_id = pm_constant_id_lookup(scope_node, cast->
name);
8894 PUSH_INSN2(ret, location, getclassvariable, name, get_cvar_ic_value(iseq, name_id));
8895 if (!popped) PUSH_INSN(ret, location, dup);
8897 PUSH_INSNL(ret, location, branchunless, end_label);
8898 if (!popped) PUSH_INSN(ret, location, pop);
8900 PM_COMPILE_NOT_POPPED(cast->
value);
8901 if (!popped) PUSH_INSN(ret, location, dup);
8903 PUSH_INSN2(ret, location, setclassvariable, name, get_cvar_ic_value(iseq, name_id));
8904 PUSH_LABEL(ret, end_label);
8908 case PM_CLASS_VARIABLE_OPERATOR_WRITE_NODE: {
8911 const pm_class_variable_operator_write_node_t *cast = (
const pm_class_variable_operator_write_node_t *) node;
8913 ID name_id = pm_constant_id_lookup(scope_node, cast->
name);
8916 PUSH_INSN2(ret, location, getclassvariable, name, get_cvar_ic_value(iseq, name_id));
8917 PM_COMPILE_NOT_POPPED(cast->
value);
8920 int flags = VM_CALL_ARGS_SIMPLE;
8921 PUSH_SEND_WITH_FLAG(ret, location, method_id,
INT2NUM(1),
INT2FIX(flags));
8923 if (!popped) PUSH_INSN(ret, location, dup);
8924 PUSH_INSN2(ret, location, setclassvariable, name, get_cvar_ic_value(iseq, name_id));
8928 case PM_CLASS_VARIABLE_OR_WRITE_NODE: {
8931 const pm_class_variable_or_write_node_t *cast = (
const pm_class_variable_or_write_node_t *) node;
8932 LABEL *end_label = NEW_LABEL(location.
line);
8933 LABEL *start_label = NEW_LABEL(location.
line);
8935 ID name_id = pm_constant_id_lookup(scope_node, cast->
name);
8938 PUSH_INSN(ret, location, putnil);
8939 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_CVAR), name,
Qtrue);
8940 PUSH_INSNL(ret, location, branchunless, start_label);
8942 PUSH_INSN2(ret, location, getclassvariable, name, get_cvar_ic_value(iseq, name_id));
8943 if (!popped) PUSH_INSN(ret, location, dup);
8945 PUSH_INSNL(ret, location, branchif, end_label);
8946 if (!popped) PUSH_INSN(ret, location, pop);
8948 PUSH_LABEL(ret, start_label);
8949 PM_COMPILE_NOT_POPPED(cast->
value);
8950 if (!popped) PUSH_INSN(ret, location, dup);
8952 PUSH_INSN2(ret, location, setclassvariable, name, get_cvar_ic_value(iseq, name_id));
8953 PUSH_LABEL(ret, end_label);
8957 case PM_CLASS_VARIABLE_READ_NODE: {
8961 const pm_class_variable_read_node_t *cast = (
const pm_class_variable_read_node_t *) node;
8962 ID name = pm_constant_id_lookup(scope_node, cast->
name);
8963 PUSH_INSN2(ret, location, getclassvariable,
ID2SYM(name), get_cvar_ic_value(iseq, name));
8967 case PM_CLASS_VARIABLE_WRITE_NODE: {
8970 const pm_class_variable_write_node_t *cast = (
const pm_class_variable_write_node_t *) node;
8971 PM_COMPILE_NOT_POPPED(cast->
value);
8972 if (!popped) PUSH_INSN(ret, location, dup);
8974 ID name = pm_constant_id_lookup(scope_node, cast->
name);
8975 PUSH_INSN2(ret, location, setclassvariable,
ID2SYM(name), get_cvar_ic_value(iseq, name));
8979 case PM_CONSTANT_PATH_NODE: {
8984 if (ISEQ_COMPILE_DATA(iseq)->option->inline_const_cache && ((parts = pm_constant_path_parts(node, scope_node)) !=
Qnil)) {
8985 ISEQ_BODY(iseq)->ic_size++;
8986 RB_OBJ_SET_SHAREABLE(parts);
8987 PUSH_INSN1(ret, location, opt_getconstant_path, parts);
8990 DECL_ANCHOR(prefix);
8993 pm_compile_constant_path(iseq, node, prefix, body, popped, scope_node);
8994 if (LIST_INSN_SIZE_ZERO(prefix)) {
8995 PUSH_INSN(ret, location, putnil);
8998 PUSH_SEQ(ret, prefix);
9001 PUSH_SEQ(ret, body);
9004 if (popped) PUSH_INSN(ret, location, pop);
9007 case PM_CONSTANT_PATH_AND_WRITE_NODE: {
9010 const pm_constant_path_and_write_node_t *cast = (
const pm_constant_path_and_write_node_t *) node;
9011 pm_compile_constant_path_and_write_node(iseq, cast, 0, &location, ret, popped, scope_node);
9014 case PM_CONSTANT_PATH_OR_WRITE_NODE: {
9017 const pm_constant_path_or_write_node_t *cast = (
const pm_constant_path_or_write_node_t *) node;
9018 pm_compile_constant_path_or_write_node(iseq, cast, 0, &location, ret, popped, scope_node);
9021 case PM_CONSTANT_PATH_OPERATOR_WRITE_NODE: {
9024 const pm_constant_path_operator_write_node_t *cast = (
const pm_constant_path_operator_write_node_t *) node;
9025 pm_compile_constant_path_operator_write_node(iseq, cast, 0, &location, ret, popped, scope_node);
9028 case PM_CONSTANT_PATH_WRITE_NODE: {
9031 const pm_constant_path_write_node_t *cast = (
const pm_constant_path_write_node_t *) node;
9032 pm_compile_constant_path_write_node(iseq, cast, 0, &location, ret, popped, scope_node);
9035 case PM_CONSTANT_READ_NODE: {
9038 const pm_constant_read_node_t *cast = (
const pm_constant_read_node_t *) node;
9041 pm_compile_constant_read(iseq, name, &cast->
base.
location, location.
node_id, ret, scope_node);
9042 if (popped) PUSH_INSN(ret, location, pop);
9046 case PM_CONSTANT_AND_WRITE_NODE: {
9049 const pm_constant_and_write_node_t *cast = (
const pm_constant_and_write_node_t *) node;
9050 pm_compile_constant_and_write_node(iseq, cast, 0, &location, ret, popped, scope_node);
9053 case PM_CONSTANT_OR_WRITE_NODE: {
9056 const pm_constant_or_write_node_t *cast = (
const pm_constant_or_write_node_t *) node;
9057 pm_compile_constant_or_write_node(iseq, cast, 0, &location, ret, popped, scope_node);
9060 case PM_CONSTANT_OPERATOR_WRITE_NODE: {
9063 const pm_constant_operator_write_node_t *cast = (
const pm_constant_operator_write_node_t *) node;
9064 pm_compile_constant_operator_write_node(iseq, cast, 0, &location, ret, popped, scope_node);
9067 case PM_CONSTANT_WRITE_NODE: {
9070 const pm_constant_write_node_t *cast = (
const pm_constant_write_node_t *) node;
9071 pm_compile_constant_write_node(iseq, cast, 0, &location, ret, popped, scope_node);
9080 const pm_def_node_t *cast = (
const pm_def_node_t *) node;
9081 ID method_name = pm_constant_id_lookup(scope_node, cast->
name);
9083 pm_scope_node_t next_scope_node;
9084 pm_scope_node_init((
const pm_node_t *) cast, &next_scope_node, scope_node);
9086 rb_iseq_t *method_iseq = NEW_ISEQ(&next_scope_node, rb_id2str(method_name), ISEQ_TYPE_METHOD, location.
line);
9087 pm_scope_node_destroy(&next_scope_node);
9090 PM_COMPILE_NOT_POPPED(cast->
receiver);
9091 PUSH_INSN2(ret, location, definesmethod,
ID2SYM(method_name), method_iseq);
9094 PUSH_INSN2(ret, location, definemethod,
ID2SYM(method_name), method_iseq);
9099 PUSH_INSN1(ret, location, putobject,
ID2SYM(method_name));
9104 case PM_DEFINED_NODE: {
9107 const pm_defined_node_t *cast = (
const pm_defined_node_t *) node;
9108 pm_compile_defined_expr(iseq, cast->
value, &location, ret, popped, scope_node,
false);
9111 case PM_EMBEDDED_STATEMENTS_NODE: {
9114 const pm_embedded_statements_node_t *cast = (
const pm_embedded_statements_node_t *) node;
9117 PM_COMPILE((
const pm_node_t *) (cast->
statements));
9120 PUSH_SYNTHETIC_PUTNIL(ret, iseq);
9123 if (popped) PUSH_INSN(ret, location, pop);
9126 case PM_EMBEDDED_VARIABLE_NODE: {
9129 const pm_embedded_variable_node_t *cast = (
const pm_embedded_variable_node_t *) node;
9133 case PM_FALSE_NODE: {
9137 PUSH_INSN1(ret, location, putobject,
Qfalse);
9141 case PM_ENSURE_NODE: {
9142 const pm_ensure_node_t *cast = (
const pm_ensure_node_t *) node;
9145 PM_COMPILE((
const pm_node_t *) cast->
statements);
9150 case PM_ELSE_NODE: {
9153 const pm_else_node_t *cast = (
const pm_else_node_t *) node;
9156 PM_COMPILE((
const pm_node_t *) cast->
statements);
9159 PUSH_SYNTHETIC_PUTNIL(ret, iseq);
9164 case PM_FLIP_FLOP_NODE: {
9167 const pm_flip_flop_node_t *cast = (
const pm_flip_flop_node_t *) node;
9169 LABEL *final_label = NEW_LABEL(location.
line);
9170 LABEL *then_label = NEW_LABEL(location.
line);
9171 LABEL *else_label = NEW_LABEL(location.
line);
9173 pm_compile_flip_flop(cast, else_label, then_label, iseq, location.
line, ret, popped, scope_node);
9175 PUSH_LABEL(ret, then_label);
9176 PUSH_INSN1(ret, location, putobject,
Qtrue);
9177 PUSH_INSNL(ret, location, jump, final_label);
9178 PUSH_LABEL(ret, else_label);
9179 PUSH_INSN1(ret, location, putobject,
Qfalse);
9180 PUSH_LABEL(ret, final_label);
9184 case PM_FLOAT_NODE: {
9188 VALUE operand = parse_float((
const pm_float_node_t *) node);
9189 PUSH_INSN1(ret, location, putobject, operand);
9196 const pm_for_node_t *cast = (
const pm_for_node_t *) node;
9198 LABEL *retry_label = NEW_LABEL(location.
line);
9199 LABEL *retry_end_l = NEW_LABEL(location.
line);
9202 PUSH_LABEL(ret, retry_label);
9207 pm_scope_node_t next_scope_node;
9208 pm_scope_node_init((
const pm_node_t *) cast, &next_scope_node, scope_node);
9210 const rb_iseq_t *child_iseq = NEW_CHILD_ISEQ(&next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, location.
line);
9211 pm_scope_node_destroy(&next_scope_node);
9213 const rb_iseq_t *prev_block = ISEQ_COMPILE_DATA(iseq)->current_block;
9214 ISEQ_COMPILE_DATA(iseq)->current_block = child_iseq;
9218 PUSH_SEND_WITH_BLOCK(ret, location, idEach,
INT2FIX(0), child_iseq);
9219 pm_compile_retry_end_label(iseq, ret, retry_end_l);
9221 if (popped) PUSH_INSN(ret, location, pop);
9222 ISEQ_COMPILE_DATA(iseq)->current_block = prev_block;
9223 PUSH_CATCH_ENTRY(CATCH_TYPE_BREAK, retry_label, retry_end_l, child_iseq, retry_end_l);
9226 case PM_FORWARDING_ARGUMENTS_NODE:
9227 rb_bug(
"Cannot compile a ForwardingArgumentsNode directly\n");
9229 case PM_FORWARDING_SUPER_NODE:
9235 pm_compile_forwarding_super_node(iseq, (
const pm_forwarding_super_node_t *) node, &location, ret, popped, scope_node);
9237 case PM_GLOBAL_VARIABLE_AND_WRITE_NODE: {
9240 const pm_global_variable_and_write_node_t *cast = (
const pm_global_variable_and_write_node_t *) node;
9241 LABEL *end_label = NEW_LABEL(location.
line);
9244 PUSH_INSN1(ret, location, getglobal, name);
9245 if (!popped) PUSH_INSN(ret, location, dup);
9247 PUSH_INSNL(ret, location, branchunless, end_label);
9248 if (!popped) PUSH_INSN(ret, location, pop);
9250 PM_COMPILE_NOT_POPPED(cast->
value);
9251 if (!popped) PUSH_INSN(ret, location, dup);
9253 PUSH_INSN1(ret, location, setglobal, name);
9254 PUSH_LABEL(ret, end_label);
9258 case PM_GLOBAL_VARIABLE_OPERATOR_WRITE_NODE: {
9261 const pm_global_variable_operator_write_node_t *cast = (
const pm_global_variable_operator_write_node_t *) node;
9264 PUSH_INSN1(ret, location, getglobal, name);
9265 PM_COMPILE_NOT_POPPED(cast->
value);
9268 int flags = VM_CALL_ARGS_SIMPLE;
9269 PUSH_SEND_WITH_FLAG(ret, location, method_id,
INT2NUM(1),
INT2FIX(flags));
9271 if (!popped) PUSH_INSN(ret, location, dup);
9272 PUSH_INSN1(ret, location, setglobal, name);
9276 case PM_GLOBAL_VARIABLE_OR_WRITE_NODE: {
9279 const pm_global_variable_or_write_node_t *cast = (
const pm_global_variable_or_write_node_t *) node;
9280 LABEL *set_label = NEW_LABEL(location.
line);
9281 LABEL *end_label = NEW_LABEL(location.
line);
9283 PUSH_INSN(ret, location, putnil);
9286 PUSH_INSN3(ret, location, defined,
INT2FIX(DEFINED_GVAR), name,
Qtrue);
9287 PUSH_INSNL(ret, location, branchunless, set_label);
9289 PUSH_INSN1(ret, location, getglobal, name);
9290 if (!popped) PUSH_INSN(ret, location, dup);
9292 PUSH_INSNL(ret, location, branchif, end_label);
9293 if (!popped) PUSH_INSN(ret, location, pop);
9295 PUSH_LABEL(ret, set_label);
9296 PM_COMPILE_NOT_POPPED(cast->
value);
9297 if (!popped) PUSH_INSN(ret, location, dup);
9299 PUSH_INSN1(ret, location, setglobal, name);
9300 PUSH_LABEL(ret, end_label);
9304 case PM_GLOBAL_VARIABLE_READ_NODE: {
9307 const pm_global_variable_read_node_t *cast = (
const pm_global_variable_read_node_t *) node;
9310 PUSH_INSN1(ret, location, getglobal, name);
9311 if (popped) PUSH_INSN(ret, location, pop);
9315 case PM_GLOBAL_VARIABLE_WRITE_NODE: {
9318 const pm_global_variable_write_node_t *cast = (
const pm_global_variable_write_node_t *) node;
9319 PM_COMPILE_NOT_POPPED(cast->
value);
9320 if (!popped) PUSH_INSN(ret, location, dup);
9322 ID name = pm_constant_id_lookup(scope_node, cast->
name);
9323 PUSH_INSN1(ret, location, setglobal,
ID2SYM(name));
9327 case PM_HASH_NODE: {
9333 if (PM_NODE_FLAG_P(node, PM_NODE_FLAG_STATIC_LITERAL)) {
9338 const pm_hash_node_t *cast = (
const pm_hash_node_t *) node;
9341 PUSH_INSN1(ret, location, newhash,
INT2FIX(0));
9344 VALUE value = pm_static_literal_value(iseq, node, scope_node);
9345 PUSH_INSN1(ret, location, duphash, value);
9359 const pm_hash_node_t *cast = (
const pm_hash_node_t *) node;
9360 const pm_node_list_t *elements = &cast->
elements;
9366 for (
size_t index = 0; index < elements->
size; index++) {
9367 PM_COMPILE_POPPED(elements->
nodes[index]);
9371 pm_compile_hash_elements(iseq, node, elements, 0,
Qundef,
false, ret, scope_node);
9386 const pm_if_node_t *cast = (
const pm_if_node_t *) node;
9387 pm_compile_conditional(iseq, &location, PM_IF_NODE, (
const pm_node_t *) cast, cast->statements, cast->subsequent, cast->predicate, ret, popped, scope_node);
9390 case PM_IMAGINARY_NODE: {
9394 VALUE operand = parse_imaginary((
const pm_imaginary_node_t *) node);
9395 PUSH_INSN1(ret, location, putobject, operand);
9399 case PM_IMPLICIT_NODE: {
9408 const pm_implicit_node_t *cast = (
const pm_implicit_node_t *) node;
9409 PM_COMPILE(cast->
value);
9415 rb_bug(
"Should not ever enter an in node directly");
9418 case PM_INDEX_OPERATOR_WRITE_NODE: {
9421 const pm_index_operator_write_node_t *cast = (
const pm_index_operator_write_node_t *) node;
9422 pm_compile_index_operator_write_node(iseq, cast, &location, ret, popped, scope_node);
9425 case PM_INDEX_AND_WRITE_NODE: {
9428 const pm_index_and_write_node_t *cast = (
const pm_index_and_write_node_t *) node;
9429 pm_compile_index_control_flow_write_node(iseq, node, cast->
receiver, cast->
arguments, cast->
block, cast->
value, &location, ret, popped, scope_node);
9432 case PM_INDEX_OR_WRITE_NODE: {
9435 const pm_index_or_write_node_t *cast = (
const pm_index_or_write_node_t *) node;
9436 pm_compile_index_control_flow_write_node(iseq, node, cast->
receiver, cast->
arguments, cast->
block, cast->
value, &location, ret, popped, scope_node);
9439 case PM_INSTANCE_VARIABLE_AND_WRITE_NODE: {
9442 const pm_instance_variable_and_write_node_t *cast = (
const pm_instance_variable_and_write_node_t *) node;
9443 LABEL *end_label = NEW_LABEL(location.
line);
9445 ID name_id = pm_constant_id_lookup(scope_node, cast->
name);
9448 PUSH_INSN2(ret, location, getinstancevariable, name, get_ivar_ic_value(iseq, name_id));
9449 if (!popped) PUSH_INSN(ret, location, dup);
9451 PUSH_INSNL(ret, location, branchunless, end_label);
9452 if (!popped) PUSH_INSN(ret, location, pop);
9454 PM_COMPILE_NOT_POPPED(cast->
value);
9455 if (!popped) PUSH_INSN(ret, location, dup);
9457 PUSH_INSN2(ret, location, setinstancevariable, name, get_ivar_ic_value(iseq, name_id));
9458 PUSH_LABEL(ret, end_label);
9462 case PM_INSTANCE_VARIABLE_OPERATOR_WRITE_NODE: {
9465 const pm_instance_variable_operator_write_node_t *cast = (
const pm_instance_variable_operator_write_node_t *) node;
9467 ID name_id = pm_constant_id_lookup(scope_node, cast->
name);
9470 PUSH_INSN2(ret, location, getinstancevariable, name, get_ivar_ic_value(iseq, name_id));
9471 PM_COMPILE_NOT_POPPED(cast->
value);
9474 int flags = VM_CALL_ARGS_SIMPLE;
9475 PUSH_SEND_WITH_FLAG(ret, location, method_id,
INT2NUM(1),
INT2FIX(flags));
9477 if (!popped) PUSH_INSN(ret, location, dup);
9478 PUSH_INSN2(ret, location, setinstancevariable, name, get_ivar_ic_value(iseq, name_id));
9482 case PM_INSTANCE_VARIABLE_OR_WRITE_NODE: {
9485 const pm_instance_variable_or_write_node_t *cast = (
const pm_instance_variable_or_write_node_t *) node;
9486 LABEL *end_label = NEW_LABEL(location.
line);
9488 ID name_id = pm_constant_id_lookup(scope_node, cast->
name);
9491 PUSH_INSN2(ret, location, getinstancevariable, name, get_ivar_ic_value(iseq, name_id));
9492 if (!popped) PUSH_INSN(ret, location, dup);
9494 PUSH_INSNL(ret, location, branchif, end_label);
9495 if (!popped) PUSH_INSN(ret, location, pop);
9497 PM_COMPILE_NOT_POPPED(cast->
value);
9498 if (!popped) PUSH_INSN(ret, location, dup);
9500 PUSH_INSN2(ret, location, setinstancevariable, name, get_ivar_ic_value(iseq, name_id));
9501 PUSH_LABEL(ret, end_label);
9505 case PM_INSTANCE_VARIABLE_READ_NODE: {
9509 const pm_instance_variable_read_node_t *cast = (
const pm_instance_variable_read_node_t *) node;
9510 ID name = pm_constant_id_lookup(scope_node, cast->
name);
9511 PUSH_INSN2(ret, location, getinstancevariable,
ID2SYM(name), get_ivar_ic_value(iseq, name));
9515 case PM_INSTANCE_VARIABLE_WRITE_NODE: {
9518 const pm_instance_variable_write_node_t *cast = (
const pm_instance_variable_write_node_t *) node;
9519 PM_COMPILE_NOT_POPPED(cast->
value);
9520 if (!popped) PUSH_INSN(ret, location, dup);
9522 ID name = pm_constant_id_lookup(scope_node, cast->
name);
9523 PUSH_INSN2(ret, location, setinstancevariable,
ID2SYM(name), get_ivar_ic_value(iseq, name));
9527 case PM_INTEGER_NODE: {
9531 VALUE operand = parse_integer((
const pm_integer_node_t *) node);
9532 PUSH_INSN1(ret, location, putobject, operand);
9536 case PM_INTERPOLATED_MATCH_LAST_LINE_NODE: {
9539 if (PM_NODE_FLAG_P(node, PM_NODE_FLAG_STATIC_LITERAL)) {
9541 VALUE regexp = pm_static_literal_value(iseq, node, scope_node);
9542 PUSH_INSN1(ret, location, putobject, regexp);
9546 pm_compile_regexp_dynamic(iseq, node, &((
const pm_interpolated_match_last_line_node_t *) node)->parts, &location, ret, popped, scope_node);
9549 PUSH_INSN1(ret, location, getglobal,
rb_id2sym(idLASTLINE));
9550 PUSH_SEND(ret, location, idEqTilde,
INT2NUM(1));
9551 if (popped) PUSH_INSN(ret, location, pop);
9555 case PM_INTERPOLATED_REGULAR_EXPRESSION_NODE: {
9558 if (PM_NODE_FLAG_P(node, PM_REGULAR_EXPRESSION_FLAGS_ONCE)) {
9559 const rb_iseq_t *prevblock = ISEQ_COMPILE_DATA(iseq)->current_block;
9560 const rb_iseq_t *block_iseq = NULL;
9561 int ise_index = ISEQ_BODY(iseq)->ise_size++;
9563 pm_scope_node_t next_scope_node;
9564 pm_scope_node_init(node, &next_scope_node, scope_node);
9566 block_iseq = NEW_CHILD_ISEQ(&next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_PLAIN, location.
line);
9567 pm_scope_node_destroy(&next_scope_node);
9569 ISEQ_COMPILE_DATA(iseq)->current_block = block_iseq;
9570 PUSH_INSN2(ret, location, once, block_iseq,
INT2FIX(ise_index));
9571 ISEQ_COMPILE_DATA(iseq)->current_block = prevblock;
9573 if (popped) PUSH_INSN(ret, location, pop);
9577 if (PM_NODE_FLAG_P(node, PM_NODE_FLAG_STATIC_LITERAL)) {
9579 VALUE regexp = pm_static_literal_value(iseq, node, scope_node);
9580 PUSH_INSN1(ret, location, putobject, regexp);
9584 pm_compile_regexp_dynamic(iseq, node, &((
const pm_interpolated_regular_expression_node_t *) node)->parts, &location, ret, popped, scope_node);
9585 if (popped) PUSH_INSN(ret, location, pop);
9590 case PM_INTERPOLATED_STRING_NODE: {
9593 if (PM_NODE_FLAG_P(node, PM_NODE_FLAG_STATIC_LITERAL)) {
9595 VALUE string = pm_static_literal_value(iseq, node, scope_node);
9597 if (PM_NODE_FLAG_P(node, PM_INTERPOLATED_STRING_NODE_FLAGS_FROZEN)) {
9598 PUSH_INSN1(ret, location, putobject,
string);
9600 else if (PM_NODE_FLAG_P(node, PM_INTERPOLATED_STRING_NODE_FLAGS_MUTABLE)) {
9601 PUSH_INSN1(ret, location, putstring,
string);
9604 PUSH_INSN1(ret, location, putchilledstring,
string);
9609 const pm_interpolated_string_node_t *cast = (
const pm_interpolated_string_node_t *) node;
9610 int length = pm_interpolated_node_compile(iseq, &cast->
parts, &location, ret, popped, scope_node, NULL, NULL, PM_NODE_FLAG_P(cast, PM_INTERPOLATED_STRING_NODE_FLAGS_MUTABLE), PM_NODE_FLAG_P(cast, PM_INTERPOLATED_STRING_NODE_FLAGS_FROZEN));
9611 if (length > 1) PUSH_INSN1(ret, location, concatstrings,
INT2FIX(length));
9612 if (popped) PUSH_INSN(ret, location, pop);
9617 case PM_INTERPOLATED_SYMBOL_NODE: {
9620 const pm_interpolated_symbol_node_t *cast = (
const pm_interpolated_symbol_node_t *) node;
9621 int length = pm_interpolated_node_compile(iseq, &cast->
parts, &location, ret, popped, scope_node, NULL, NULL,
false,
false);
9624 PUSH_INSN1(ret, location, concatstrings,
INT2FIX(length));
9628 PUSH_INSN(ret, location, intern);
9631 PUSH_INSN(ret, location, pop);
9636 case PM_INTERPOLATED_X_STRING_NODE: {
9639 const pm_interpolated_x_string_node_t *cast = (
const pm_interpolated_x_string_node_t *) node;
9641 PUSH_INSN(ret, location, putself);
9643 int length = pm_interpolated_node_compile(iseq, &cast->
parts, &location, ret,
false, scope_node, NULL, NULL,
false,
false);
9644 if (length > 1) PUSH_INSN1(ret, location, concatstrings,
INT2FIX(length));
9646 PUSH_SEND_WITH_FLAG(ret, location, idBackquote,
INT2NUM(1),
INT2FIX(VM_CALL_FCALL | VM_CALL_ARGS_SIMPLE));
9647 if (popped) PUSH_INSN(ret, location, pop);
9651 case PM_IT_LOCAL_VARIABLE_READ_NODE: {
9655 pm_scope_node_t *current_scope_node = scope_node;
9658 while (current_scope_node) {
9659 if (current_scope_node->parameters && PM_NODE_TYPE_P(current_scope_node->parameters, PM_IT_PARAMETERS_NODE)) {
9660 PUSH_GETLOCAL(ret, location, current_scope_node->local_table_for_iseq_size, level);
9664 current_scope_node = current_scope_node->previous;
9667 rb_bug(
"Local `it` does not exist");
9672 case PM_KEYWORD_HASH_NODE: {
9675 const pm_keyword_hash_node_t *cast = (
const pm_keyword_hash_node_t *) node;
9676 const pm_node_list_t *elements = &cast->
elements;
9678 const pm_node_t *element;
9680 PM_COMPILE(element);
9683 if (!popped) PUSH_INSN1(ret, location, newhash,
INT2FIX(elements->
size * 2));
9686 case PM_LAMBDA_NODE: {
9689 const pm_lambda_node_t *cast = (
const pm_lambda_node_t *) node;
9691 pm_scope_node_t next_scope_node;
9692 pm_scope_node_init(node, &next_scope_node, scope_node);
9694 int opening_lineno = pm_location_line_number(parser, &cast->
opening_loc);
9695 const rb_iseq_t *block = NEW_CHILD_ISEQ(&next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, opening_lineno);
9696 pm_scope_node_destroy(&next_scope_node);
9699 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
9700 PUSH_CALL_WITH_BLOCK(ret, location, idLambda, argc, block);
9703 if (popped) PUSH_INSN(ret, location, pop);
9706 case PM_LOCAL_VARIABLE_AND_WRITE_NODE: {
9709 const pm_local_variable_and_write_node_t *cast = (
const pm_local_variable_and_write_node_t *) node;
9710 LABEL *end_label = NEW_LABEL(location.
line);
9712 pm_local_index_t local_index = pm_lookup_local_index(iseq, scope_node, cast->
name, cast->
depth);
9713 PUSH_GETLOCAL(ret, location, local_index.index, local_index.level);
9714 if (!popped) PUSH_INSN(ret, location, dup);
9716 PUSH_INSNL(ret, location, branchunless, end_label);
9717 if (!popped) PUSH_INSN(ret, location, pop);
9719 PM_COMPILE_NOT_POPPED(cast->
value);
9720 if (!popped) PUSH_INSN(ret, location, dup);
9722 PUSH_SETLOCAL(ret, location, local_index.index, local_index.level);
9723 PUSH_LABEL(ret, end_label);
9727 case PM_LOCAL_VARIABLE_OPERATOR_WRITE_NODE: {
9730 const pm_local_variable_operator_write_node_t *cast = (
const pm_local_variable_operator_write_node_t *) node;
9732 pm_local_index_t local_index = pm_lookup_local_index(iseq, scope_node, cast->
name, cast->
depth);
9733 PUSH_GETLOCAL(ret, location, local_index.index, local_index.level);
9735 PM_COMPILE_NOT_POPPED(cast->
value);
9738 PUSH_SEND_WITH_FLAG(ret, location, method_id,
INT2NUM(1),
INT2FIX(VM_CALL_ARGS_SIMPLE));
9740 if (!popped) PUSH_INSN(ret, location, dup);
9741 PUSH_SETLOCAL(ret, location, local_index.index, local_index.level);
9745 case PM_LOCAL_VARIABLE_OR_WRITE_NODE: {
9748 const pm_local_variable_or_write_node_t *cast = (
const pm_local_variable_or_write_node_t *) node;
9750 LABEL *set_label = NEW_LABEL(location.
line);
9751 LABEL *end_label = NEW_LABEL(location.
line);
9753 PUSH_INSN1(ret, location, putobject,
Qtrue);
9754 PUSH_INSNL(ret, location, branchunless, set_label);
9756 pm_local_index_t local_index = pm_lookup_local_index(iseq, scope_node, cast->
name, cast->
depth);
9757 PUSH_GETLOCAL(ret, location, local_index.index, local_index.level);
9758 if (!popped) PUSH_INSN(ret, location, dup);
9760 PUSH_INSNL(ret, location, branchif, end_label);
9761 if (!popped) PUSH_INSN(ret, location, pop);
9763 PUSH_LABEL(ret, set_label);
9764 PM_COMPILE_NOT_POPPED(cast->
value);
9765 if (!popped) PUSH_INSN(ret, location, dup);
9767 PUSH_SETLOCAL(ret, location, local_index.index, local_index.level);
9768 PUSH_LABEL(ret, end_label);
9772 case PM_LOCAL_VARIABLE_READ_NODE: {
9776 const pm_local_variable_read_node_t *cast = (
const pm_local_variable_read_node_t *) node;
9777 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, cast->
name, cast->
depth);
9778 PUSH_GETLOCAL(ret, location, index.index, index.level);
9783 case PM_LOCAL_VARIABLE_WRITE_NODE: {
9786 const pm_local_variable_write_node_t *cast = (
const pm_local_variable_write_node_t *) node;
9787 PM_COMPILE_NOT_POPPED(cast->
value);
9788 if (!popped) PUSH_INSN(ret, location, dup);
9790 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, cast->
name, cast->
depth);
9791 PUSH_SETLOCAL(ret, location, index.index, index.level);
9794 case PM_MATCH_LAST_LINE_NODE: {
9797 VALUE regexp = pm_static_literal_value(iseq, node, scope_node);
9799 PUSH_INSN1(ret, location, putobject, regexp);
9801 PUSH_SEND(ret, location, idEqTilde,
INT2NUM(1));
9802 if (popped) PUSH_INSN(ret, location, pop);
9806 case PM_MATCH_PREDICATE_NODE: {
9809 const pm_match_predicate_node_t *cast = (
const pm_match_predicate_node_t *) node;
9813 PUSH_INSN(ret, location, putnil);
9816 PM_COMPILE_NOT_POPPED(cast->
value);
9817 PUSH_INSN(ret, location, dup);
9821 LABEL *matched_label = NEW_LABEL(location.
line);
9822 LABEL *unmatched_label = NEW_LABEL(location.
line);
9823 LABEL *done_label = NEW_LABEL(location.
line);
9824 pm_compile_pattern(iseq, scope_node, cast->
pattern, ret, matched_label, unmatched_label,
false,
true, 2);
9828 PUSH_LABEL(ret, unmatched_label);
9829 PUSH_INSN(ret, location, pop);
9830 PUSH_INSN(ret, location, pop);
9832 if (!popped) PUSH_INSN1(ret, location, putobject,
Qfalse);
9833 PUSH_INSNL(ret, location, jump, done_label);
9834 PUSH_INSN(ret, location, putnil);
9838 PUSH_LABEL(ret, matched_label);
9839 PUSH_INSN1(ret, location, adjuststack,
INT2FIX(2));
9840 if (!popped) PUSH_INSN1(ret, location, putobject,
Qtrue);
9841 PUSH_INSNL(ret, location, jump, done_label);
9843 PUSH_LABEL(ret, done_label);
9846 case PM_MATCH_REQUIRED_NODE:
9858 pm_compile_match_required_node(iseq, (
const pm_match_required_node_t *) node, &location, ret, popped, scope_node);
9860 case PM_MATCH_WRITE_NODE:
9869 pm_compile_match_write_node(iseq, (
const pm_match_write_node_t *) node, &location, ret, popped, scope_node);
9871 case PM_MISSING_NODE:
9872 rb_bug(
"A pm_missing_node_t should not exist in prism's AST.");
9874 case PM_MODULE_NODE: {
9877 const pm_module_node_t *cast = (
const pm_module_node_t *) node;
9879 ID module_id = pm_constant_id_lookup(scope_node, cast->
name);
9880 VALUE module_name =
rb_str_freeze(rb_sprintf(
"<module:%"PRIsVALUE
">", rb_id2str(module_id)));
9882 pm_scope_node_t next_scope_node;
9883 pm_scope_node_init((
const pm_node_t *) cast, &next_scope_node, scope_node);
9885 const rb_iseq_t *module_iseq = NEW_CHILD_ISEQ(&next_scope_node, module_name, ISEQ_TYPE_CLASS, location.
line);
9886 pm_scope_node_destroy(&next_scope_node);
9888 const int flags = VM_DEFINECLASS_TYPE_MODULE | pm_compile_class_path(iseq, cast->
constant_path, &location, ret,
false, scope_node);
9889 PUSH_INSN(ret, location, putnil);
9890 PUSH_INSN3(ret, location, defineclass,
ID2SYM(module_id), module_iseq,
INT2FIX(flags));
9893 if (popped) PUSH_INSN(ret, location, pop);
9896 case PM_REQUIRED_PARAMETER_NODE: {
9899 const pm_required_parameter_node_t *cast = (
const pm_required_parameter_node_t *) node;
9900 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, cast->
name, 0);
9902 PUSH_SETLOCAL(ret, location, index.index, index.level);
9905 case PM_MULTI_WRITE_NODE: {
9914 const pm_multi_write_node_t *cast = (
const pm_multi_write_node_t *) node;
9916 DECL_ANCHOR(writes);
9917 DECL_ANCHOR(cleanup);
9920 state.position = popped ? 0 : 1;
9921 pm_compile_multi_target_node(iseq, node, ret, writes, cleanup, scope_node, &state);
9923 PM_COMPILE_NOT_POPPED(cast->
value);
9924 if (!popped) PUSH_INSN(ret, location, dup);
9926 PUSH_SEQ(ret, writes);
9927 if (!popped && state.stack_size >= 1) {
9930 PUSH_INSN1(ret, location, setn,
INT2FIX(state.stack_size));
9935 pm_multi_target_state_update(&state);
9937 PUSH_SEQ(ret, cleanup);
9946 pm_compile_next_node(iseq, (
const pm_next_node_t *) node, &location, ret, popped, scope_node);
9952 PUSH_INSN(ret, location, putnil);
9957 case PM_NO_KEYWORDS_PARAMETER_NODE: {
9960 ISEQ_BODY(iseq)->param.flags.accepts_no_kwarg = TRUE;
9963 case PM_NUMBERED_REFERENCE_READ_NODE: {
9967 const pm_numbered_reference_read_node_t *cast = (
const pm_numbered_reference_read_node_t *) node;
9970 VALUE ref = pm_compile_numbered_reference_ref(cast);
9971 PUSH_INSN2(ret, location, getspecial,
INT2FIX(1), ref);
9974 PUSH_INSN(ret, location, putnil);
9983 const pm_or_node_t *cast = (
const pm_or_node_t *) node;
9985 LABEL *end_label = NEW_LABEL(location.
line);
9986 PM_COMPILE_NOT_POPPED(cast->
left);
9988 if (!popped) PUSH_INSN(ret, location, dup);
9989 PUSH_INSNL(ret, location, branchif, end_label);
9991 if (!popped) PUSH_INSN(ret, location, pop);
9992 PM_COMPILE(cast->
right);
9993 PUSH_LABEL(ret, end_label);
9997 case PM_OPTIONAL_PARAMETER_NODE: {
10000 const pm_optional_parameter_node_t *cast = (
const pm_optional_parameter_node_t *) node;
10001 PM_COMPILE_NOT_POPPED(cast->
value);
10003 pm_local_index_t index = pm_lookup_local_index(iseq, scope_node, cast->
name, 0);
10004 PUSH_SETLOCAL(ret, location, index.index, index.level);
10008 case PM_PARENTHESES_NODE: {
10014 const pm_parentheses_node_t *cast = (
const pm_parentheses_node_t *) node;
10016 if (cast->
body != NULL) {
10017 PM_COMPILE(cast->
body);
10019 else if (!popped) {
10020 PUSH_INSN(ret, location, putnil);
10025 case PM_PRE_EXECUTION_NODE: {
10028 const pm_pre_execution_node_t *cast = (
const pm_pre_execution_node_t *) node;
10037 DECL_ANCHOR(inner_pre);
10040 DECL_ANCHOR(inner_body);
10045 for (
size_t index = 0; index < body->
size; index++) {
10046 pm_compile_node(iseq, body->
nodes[index], inner_body,
true, scope_node);
10051 PUSH_INSN(inner_body, location, putnil);
10057 PUSH_SEQ(outer_pre, inner_pre);
10058 PUSH_SEQ(outer_pre, inner_body);
10063 case PM_POST_EXECUTION_NODE: {
10066 const rb_iseq_t *child_iseq;
10067 const rb_iseq_t *prevblock = ISEQ_COMPILE_DATA(iseq)->current_block;
10069 pm_scope_node_t next_scope_node;
10070 pm_scope_node_init(node, &next_scope_node, scope_node);
10071 child_iseq = NEW_CHILD_ISEQ(&next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, lineno);
10072 pm_scope_node_destroy(&next_scope_node);
10074 ISEQ_COMPILE_DATA(iseq)->current_block = child_iseq;
10076 int is_index = ISEQ_BODY(iseq)->ise_size++;
10077 PUSH_INSN2(ret, location, once, child_iseq,
INT2FIX(is_index));
10079 if (popped) PUSH_INSN(ret, location, pop);
10081 ISEQ_COMPILE_DATA(iseq)->current_block = prevblock;
10085 case PM_RANGE_NODE: {
10088 const pm_range_node_t *cast = (
const pm_range_node_t *) node;
10089 bool exclude_end = PM_NODE_FLAG_P(cast, PM_RANGE_FLAGS_EXCLUDE_END);
10091 if (pm_optimizable_range_item_p(cast->
left) && pm_optimizable_range_item_p(cast->
right)) {
10093 const pm_node_t *left = cast->
left;
10094 const pm_node_t *right = cast->
right;
10097 (left && PM_NODE_TYPE_P(left, PM_INTEGER_NODE)) ? parse_integer((
const pm_integer_node_t *) left) :
Qnil,
10098 (right && PM_NODE_TYPE_P(right, PM_INTEGER_NODE)) ? parse_integer((
const pm_integer_node_t *) right) :
Qnil,
10102 RB_OBJ_SET_SHAREABLE(val);
10103 PUSH_INSN1(ret, location, putobject, val);
10107 if (cast->
left != NULL) {
10108 PM_COMPILE(cast->
left);
10110 else if (!popped) {
10111 PUSH_INSN(ret, location, putnil);
10114 if (cast->
right != NULL) {
10115 PM_COMPILE(cast->
right);
10117 else if (!popped) {
10118 PUSH_INSN(ret, location, putnil);
10122 PUSH_INSN1(ret, location, newrange,
INT2FIX(exclude_end ? 1 : 0));
10127 case PM_RATIONAL_NODE: {
10131 PUSH_INSN1(ret, location, putobject, parse_rational((
const pm_rational_node_t *) node));
10138 pm_compile_redo_node(iseq, &location, ret, popped, scope_node);
10140 case PM_REGULAR_EXPRESSION_NODE: {
10144 VALUE regexp = pm_static_literal_value(iseq, node, scope_node);
10145 PUSH_INSN1(ret, location, putobject, regexp);
10149 case PM_RESCUE_NODE:
10152 pm_compile_rescue_node(iseq, (
const pm_rescue_node_t *) node, &location, ret, popped, scope_node);
10154 case PM_RESCUE_MODIFIER_NODE: {
10157 const pm_rescue_modifier_node_t *cast = (
const pm_rescue_modifier_node_t *) node;
10159 pm_scope_node_t rescue_scope_node;
10160 pm_scope_node_init((
const pm_node_t *) cast, &rescue_scope_node, scope_node);
10162 rb_iseq_t *rescue_iseq = NEW_CHILD_ISEQ(
10163 &rescue_scope_node,
10169 pm_scope_node_destroy(&rescue_scope_node);
10171 LABEL *lstart = NEW_LABEL(location.
line);
10172 LABEL *lend = NEW_LABEL(location.
line);
10173 LABEL *lcont = NEW_LABEL(location.
line);
10175 lstart->rescued = LABEL_RESCUE_BEG;
10176 lend->rescued = LABEL_RESCUE_END;
10178 PUSH_LABEL(ret, lstart);
10180 PUSH_LABEL(ret, lend);
10182 PUSH_INSN(ret, location, nop);
10183 PUSH_LABEL(ret, lcont);
10184 if (popped) PUSH_INSN(ret, location, pop);
10186 PUSH_CATCH_ENTRY(CATCH_TYPE_RESCUE, lstart, lend, rescue_iseq, lcont);
10187 PUSH_CATCH_ENTRY(CATCH_TYPE_RETRY, lend, lcont, NULL, lstart);
10190 case PM_RETURN_NODE:
10196 pm_compile_return_node(iseq, (
const pm_return_node_t *) node, &location, ret, popped, scope_node);
10198 case PM_RETRY_NODE: {
10201 if (ISEQ_BODY(iseq)->
type == ISEQ_TYPE_RESCUE) {
10202 PUSH_INSN(ret, location, putnil);
10203 PUSH_INSN1(ret, location,
throw,
INT2FIX(TAG_RETRY));
10204 if (popped) PUSH_INSN(ret, location, pop);
10207 COMPILE_ERROR(iseq, location.
line,
"Invalid retry");
10212 case PM_SCOPE_NODE:
10213 pm_compile_scope_node(iseq, (pm_scope_node_t *) node, &location, ret, popped);
10215 case PM_SELF_NODE: {
10219 PUSH_INSN(ret, location, putself);
10223 case PM_SHAREABLE_CONSTANT_NODE: {
10226 const pm_shareable_constant_node_t *cast = (
const pm_shareable_constant_node_t *) node;
10227 pm_node_flags_t shareability = (cast->
base.
flags & (PM_SHAREABLE_CONSTANT_NODE_FLAGS_LITERAL | PM_SHAREABLE_CONSTANT_NODE_FLAGS_EXPERIMENTAL_EVERYTHING | PM_SHAREABLE_CONSTANT_NODE_FLAGS_EXPERIMENTAL_COPY));
10229 switch (PM_NODE_TYPE(cast->
write)) {
10230 case PM_CONSTANT_WRITE_NODE:
10231 pm_compile_constant_write_node(iseq, (
const pm_constant_write_node_t *) cast->
write, shareability, &location, ret, popped, scope_node);
10233 case PM_CONSTANT_AND_WRITE_NODE:
10234 pm_compile_constant_and_write_node(iseq, (
const pm_constant_and_write_node_t *) cast->
write, shareability, &location, ret, popped, scope_node);
10236 case PM_CONSTANT_OR_WRITE_NODE:
10237 pm_compile_constant_or_write_node(iseq, (
const pm_constant_or_write_node_t *) cast->
write, shareability, &location, ret, popped, scope_node);
10239 case PM_CONSTANT_OPERATOR_WRITE_NODE:
10240 pm_compile_constant_operator_write_node(iseq, (
const pm_constant_operator_write_node_t *) cast->
write, shareability, &location, ret, popped, scope_node);
10242 case PM_CONSTANT_PATH_WRITE_NODE:
10243 pm_compile_constant_path_write_node(iseq, (
const pm_constant_path_write_node_t *) cast->
write, shareability, &location, ret, popped, scope_node);
10245 case PM_CONSTANT_PATH_AND_WRITE_NODE:
10246 pm_compile_constant_path_and_write_node(iseq, (
const pm_constant_path_and_write_node_t *) cast->
write, shareability, &location, ret, popped, scope_node);
10248 case PM_CONSTANT_PATH_OR_WRITE_NODE:
10249 pm_compile_constant_path_or_write_node(iseq, (
const pm_constant_path_or_write_node_t *) cast->
write, shareability, &location, ret, popped, scope_node);
10251 case PM_CONSTANT_PATH_OPERATOR_WRITE_NODE:
10252 pm_compile_constant_path_operator_write_node(iseq, (
const pm_constant_path_operator_write_node_t *) cast->
write, shareability, &location, ret, popped, scope_node);
10255 rb_bug(
"Unexpected node type for shareable constant write: %s", pm_node_type_to_str(PM_NODE_TYPE(cast->
write)));
10261 case PM_SINGLETON_CLASS_NODE: {
10264 const pm_singleton_class_node_t *cast = (
const pm_singleton_class_node_t *) node;
10266 pm_scope_node_t next_scope_node;
10267 pm_scope_node_init((
const pm_node_t *) cast, &next_scope_node, scope_node);
10268 const rb_iseq_t *child_iseq = NEW_ISEQ(&next_scope_node, rb_fstring_lit(
"singleton class"), ISEQ_TYPE_CLASS, location.
line);
10269 pm_scope_node_destroy(&next_scope_node);
10272 PUSH_INSN(ret, location, putnil);
10275 CONST_ID(singletonclass,
"singletonclass");
10276 PUSH_INSN3(ret, location, defineclass,
ID2SYM(singletonclass), child_iseq,
INT2FIX(VM_DEFINECLASS_TYPE_SINGLETON_CLASS));
10278 if (popped) PUSH_INSN(ret, location, pop);
10283 case PM_SOURCE_ENCODING_NODE: {
10287 VALUE value = pm_static_literal_value(iseq, node, scope_node);
10288 PUSH_INSN1(ret, location, putobject, value);
10292 case PM_SOURCE_FILE_NODE: {
10296 const pm_source_file_node_t *cast = (
const pm_source_file_node_t *) node;
10297 VALUE string = pm_source_file_value(cast, scope_node);
10299 if (PM_NODE_FLAG_P(cast, PM_STRING_FLAGS_FROZEN)) {
10300 PUSH_INSN1(ret, location, putobject,
string);
10302 else if (PM_NODE_FLAG_P(cast, PM_STRING_FLAGS_MUTABLE)) {
10303 PUSH_INSN1(ret, location, putstring,
string);
10306 PUSH_INSN1(ret, location, putchilledstring,
string);
10311 case PM_SOURCE_LINE_NODE: {
10315 VALUE value = pm_static_literal_value(iseq, node, scope_node);
10316 PUSH_INSN1(ret, location, putobject, value);
10320 case PM_SPLAT_NODE: {
10323 const pm_splat_node_t *cast = (
const pm_splat_node_t *) node;
10329 PUSH_INSN1(ret, location, splatarray,
Qtrue);
10333 case PM_STATEMENTS_NODE: {
10335 const pm_statements_node_t *cast = (
const pm_statements_node_t *) node;
10336 const pm_node_list_t *body = &cast->
body;
10338 if (body->
size > 0) {
10339 for (
size_t index = 0; index < body->
size - 1; index++) {
10340 PM_COMPILE_POPPED(body->
nodes[index]);
10342 PM_COMPILE(body->
nodes[body->
size - 1]);
10345 PUSH_INSN(ret, location, putnil);
10349 case PM_STRING_NODE: {
10353 const pm_string_node_t *cast = (
const pm_string_node_t *) node;
10354 VALUE value = parse_static_literal_string(iseq, scope_node, node, &cast->
unescaped);
10356 if (PM_NODE_FLAG_P(node, PM_STRING_FLAGS_FROZEN)) {
10357 PUSH_INSN1(ret, location, putobject, value);
10359 else if (PM_NODE_FLAG_P(node, PM_STRING_FLAGS_MUTABLE)) {
10360 PUSH_INSN1(ret, location, putstring, value);
10363 PUSH_INSN1(ret, location, putchilledstring, value);
10368 case PM_SUPER_NODE:
10372 pm_compile_super_node(iseq, (
const pm_super_node_t *) node, &location, ret, popped, scope_node);
10374 case PM_SYMBOL_NODE: {
10378 VALUE value = pm_static_literal_value(iseq, node, scope_node);
10379 PUSH_INSN1(ret, location, putobject, value);
10383 case PM_TRUE_NODE: {
10387 PUSH_INSN1(ret, location, putobject,
Qtrue);
10391 case PM_UNDEF_NODE: {
10394 const pm_undef_node_t *cast = (
const pm_undef_node_t *) node;
10395 const pm_node_list_t *names = &cast->
names;
10397 for (
size_t index = 0; index < names->
size; index++) {
10398 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
10399 PUSH_INSN1(ret, location, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_CBASE));
10401 PM_COMPILE_NOT_POPPED(names->
nodes[index]);
10402 PUSH_SEND(ret, location, id_core_undef_method,
INT2NUM(2));
10404 if (index < names->size - 1) {
10405 PUSH_INSN(ret, location, pop);
10409 if (popped) PUSH_INSN(ret, location, pop);
10412 case PM_UNLESS_NODE: {
10418 const pm_unless_node_t *cast = (
const pm_unless_node_t *) node;
10419 const pm_statements_node_t *statements = NULL;
10421 statements = ((
const pm_else_node_t *) cast->
else_clause)->statements;
10424 pm_compile_conditional(iseq, &location, PM_UNLESS_NODE, (
const pm_node_t *) cast, statements, (
const pm_node_t *) cast->statements, cast->predicate, ret, popped, scope_node);
10427 case PM_UNTIL_NODE: {
10433 const pm_until_node_t *cast = (
const pm_until_node_t *) node;
10434 pm_compile_loop(iseq, &location, cast->
base.
flags, PM_UNTIL_NODE, (
const pm_node_t *) cast, cast->statements, cast->predicate, ret, popped, scope_node);
10437 case PM_WHILE_NODE: {
10443 const pm_while_node_t *cast = (
const pm_while_node_t *) node;
10444 pm_compile_loop(iseq, &location, cast->
base.
flags, PM_WHILE_NODE, (
const pm_node_t *) cast, cast->statements, cast->predicate, ret, popped, scope_node);
10447 case PM_X_STRING_NODE: {
10450 const pm_x_string_node_t *cast = (
const pm_x_string_node_t *) node;
10451 VALUE value = parse_static_literal_string(iseq, scope_node, node, &cast->
unescaped);
10453 PUSH_INSN(ret, location, putself);
10454 PUSH_INSN1(ret, location, putobject, value);
10455 PUSH_SEND_WITH_FLAG(ret, location, idBackquote,
INT2NUM(1),
INT2FIX(VM_CALL_FCALL | VM_CALL_ARGS_SIMPLE));
10456 if (popped) PUSH_INSN(ret, location, pop);
10460 case PM_YIELD_NODE:
10466 pm_compile_yield_node(iseq, (
const pm_yield_node_t *) node, &location, ret, popped, scope_node);
10469 rb_raise(
rb_eNotImpError,
"node type %s not implemented", pm_node_type_to_str(PM_NODE_TYPE(node)));
10474#undef PM_CONTAINER_P
10478pm_iseq_pre_execution_p(rb_iseq_t *iseq)
10480 switch (ISEQ_BODY(iseq)->
type) {
10481 case ISEQ_TYPE_TOP:
10482 case ISEQ_TYPE_EVAL:
10483 case ISEQ_TYPE_MAIN:
10498pm_iseq_compile_node(rb_iseq_t *iseq, pm_scope_node_t *node)
10502 if (pm_iseq_pre_execution_p(iseq)) {
10514 pm_compile_node(iseq, (
const pm_node_t *) node, body,
false, node);
10518 PUSH_SEQ(ret, pre);
10519 PUSH_SEQ(ret, body);
10524 pm_compile_node(iseq, (
const pm_node_t *) node, ret,
false, node);
10527 CHECK(iseq_setup_insn(iseq, ret));
10528 return iseq_setup(iseq, ret);
10538 if (result->
node.ast_node != NULL) {
10539 pm_node_destroy(&result->
parser, result->
node.ast_node);
10544 pm_scope_node_destroy(&result->
node);
10547 pm_parser_free(&result->
parser);
10548 pm_string_free(&result->
input);
10549 pm_options_free(&result->
options);
10585#define PM_COLOR_BOLD "\033[1m"
10586#define PM_COLOR_GRAY "\033[2m"
10587#define PM_COLOR_RED "\033[1;31m"
10588#define PM_COLOR_RESET "\033[m"
10589#define PM_ERROR_TRUNCATE 30
10594 if (errors == NULL)
return NULL;
10600 pm_line_column_t start = pm_newline_list_line_column(newline_list, error->location.
start, start_line);
10601 pm_line_column_t end = pm_newline_list_line_column(newline_list, error->location.end, start_line);
10609 (index < error_list->size) &&
10610 (errors[index].error != NULL) &&
10612 (errors[index].line < start.
line) ||
10619 if (index + 1 < error_list->
size) {
10620 memmove(&errors[index + 1], &errors[index],
sizeof(
pm_parse_error_t) * (error_list->
size - index - 1));
10624 uint32_t column_end;
10626 column_end = end.
column;
10628 column_end = (uint32_t) (newline_list->
offsets[start.
line - start_line + 1] - newline_list->
offsets[start.
line - start_line] - 1);
10632 if (start.
column == column_end) column_end++;
10636 .line = start.
line,
10637 .column_start = start.
column,
10638 .column_end = column_end
10646#define pm_buffer_append_literal(buffer, str) pm_buffer_append_string(buffer, str, rb_strlen_lit(str))
10649pm_parse_errors_format_line(
const pm_parser_t *parser,
const pm_newline_list_t *newline_list,
const char *number_prefix, int32_t line, uint32_t column_start, uint32_t column_end,
pm_buffer_t *buffer) {
10650 int32_t line_delta = line - parser->
start_line;
10651 assert(line_delta >= 0);
10653 size_t index = (size_t) line_delta;
10654 assert(index < newline_list->size);
10656 const uint8_t *start = &parser->
start[newline_list->
offsets[index]];
10657 const uint8_t *end;
10659 if (index >= newline_list->
size - 1) {
10662 end = &parser->
start[newline_list->
offsets[index + 1]];
10665 pm_buffer_append_format(buffer, number_prefix, line);
10668 bool truncate_end =
false;
10669 if ((column_end != 0) && ((end - (start + column_end)) >= PM_ERROR_TRUNCATE)) {
10670 const uint8_t *end_candidate = start + column_end + PM_ERROR_TRUNCATE;
10672 for (
const uint8_t *ptr = start; ptr < end_candidate;) {
10677 if (char_width == 0)
break;
10681 if (ptr + char_width > end_candidate) {
10682 end_candidate = ptr;
10689 end = end_candidate;
10690 truncate_end =
true;
10694 if (column_start >= PM_ERROR_TRUNCATE) {
10695 pm_buffer_append_string(buffer,
"... ", 4);
10696 start += column_start;
10699 pm_buffer_append_string(buffer, (
const char *) start, (
size_t) (end - start));
10701 if (truncate_end) {
10702 pm_buffer_append_string(buffer,
" ...\n", 5);
10703 }
else if (end == parser->
end && end[-1] !=
'\n') {
10704 pm_buffer_append_string(buffer,
"\n", 1);
10713 assert(error_list->
size != 0);
10717 const int32_t start_line = parser->
start_line;
10720 pm_parse_error_t *errors = pm_parse_errors_format_sort(parser, error_list, newline_list);
10721 if (errors == NULL)
return;
10727 int32_t first_line_number = errors[0].
line;
10728 int32_t last_line_number = errors[error_list->
size - 1].
line;
10733 if (first_line_number < 0) first_line_number = (-first_line_number) * 10;
10734 if (last_line_number < 0) last_line_number = (-last_line_number) * 10;
10735 int32_t max_line_number = first_line_number > last_line_number ? first_line_number : last_line_number;
10737 if (max_line_number < 10) {
10738 if (highlight > 0) {
10740 .number_prefix = PM_COLOR_GRAY
"%1" PRIi32
" | " PM_COLOR_RESET,
10741 .blank_prefix = PM_COLOR_GRAY
" | " PM_COLOR_RESET,
10742 .divider = PM_COLOR_GRAY
" ~~~~~" PM_COLOR_RESET
"\n"
10746 .number_prefix =
"%1" PRIi32
" | ",
10747 .blank_prefix =
" | ",
10748 .divider =
" ~~~~~\n"
10751 }
else if (max_line_number < 100) {
10752 if (highlight > 0) {
10754 .number_prefix = PM_COLOR_GRAY
"%2" PRIi32
" | " PM_COLOR_RESET,
10755 .blank_prefix = PM_COLOR_GRAY
" | " PM_COLOR_RESET,
10756 .divider = PM_COLOR_GRAY
" ~~~~~~" PM_COLOR_RESET
"\n"
10760 .number_prefix =
"%2" PRIi32
" | ",
10761 .blank_prefix =
" | ",
10762 .divider =
" ~~~~~~\n"
10765 }
else if (max_line_number < 1000) {
10766 if (highlight > 0) {
10768 .number_prefix = PM_COLOR_GRAY
"%3" PRIi32
" | " PM_COLOR_RESET,
10769 .blank_prefix = PM_COLOR_GRAY
" | " PM_COLOR_RESET,
10770 .divider = PM_COLOR_GRAY
" ~~~~~~~" PM_COLOR_RESET
"\n"
10774 .number_prefix =
"%3" PRIi32
" | ",
10775 .blank_prefix =
" | ",
10776 .divider =
" ~~~~~~~\n"
10779 }
else if (max_line_number < 10000) {
10780 if (highlight > 0) {
10782 .number_prefix = PM_COLOR_GRAY
"%4" PRIi32
" | " PM_COLOR_RESET,
10783 .blank_prefix = PM_COLOR_GRAY
" | " PM_COLOR_RESET,
10784 .divider = PM_COLOR_GRAY
" ~~~~~~~~" PM_COLOR_RESET
"\n"
10788 .number_prefix =
"%4" PRIi32
" | ",
10789 .blank_prefix =
" | ",
10790 .divider =
" ~~~~~~~~\n"
10794 if (highlight > 0) {
10796 .number_prefix = PM_COLOR_GRAY
"%5" PRIi32
" | " PM_COLOR_RESET,
10797 .blank_prefix = PM_COLOR_GRAY
" | " PM_COLOR_RESET,
10798 .divider = PM_COLOR_GRAY
" ~~~~~~~~" PM_COLOR_RESET
"\n"
10802 .number_prefix =
"%5" PRIi32
" | ",
10803 .blank_prefix =
" | ",
10804 .divider =
" ~~~~~~~~\n"
10818 uint32_t last_column_start = 0;
10821 for (
size_t index = 0; index < error_list->
size; index++) {
10826 if (error->
line - last_line > 1) {
10827 if (error->
line - last_line > 2) {
10828 if ((index != 0) && (error->
line - last_line > 3)) {
10832 pm_buffer_append_string(buffer,
" ", 2);
10833 pm_parse_errors_format_line(parser, newline_list, error_format.
number_prefix, error->
line - 2, 0, 0, buffer);
10836 pm_buffer_append_string(buffer,
" ", 2);
10837 pm_parse_errors_format_line(parser, newline_list, error_format.
number_prefix, error->
line - 1, 0, 0, buffer);
10842 if ((index == 0) || (error->
line != last_line)) {
10843 if (highlight > 1) {
10844 pm_buffer_append_literal(buffer, PM_COLOR_RED
"> " PM_COLOR_RESET);
10845 }
else if (highlight > 0) {
10846 pm_buffer_append_literal(buffer, PM_COLOR_BOLD
"> " PM_COLOR_RESET);
10848 pm_buffer_append_literal(buffer,
"> ");
10855 for (
size_t next_index = index + 1; next_index < error_list->
size; next_index++) {
10856 if (errors[next_index].line != error->
line)
break;
10857 if (errors[next_index].column_end > column_end) column_end = errors[next_index].
column_end;
10863 const uint8_t *start = &parser->
start[newline_list->
offsets[error->
line - start_line]];
10864 if (start == parser->
end) pm_buffer_append_byte(buffer,
'\n');
10875 pm_buffer_append_string(buffer,
" ", 2);
10879 if (last_column_start >= PM_ERROR_TRUNCATE) {
10880 pm_buffer_append_string(buffer,
" ", 4);
10881 column = last_column_start;
10884 while (column < error->column_start) {
10885 pm_buffer_append_byte(buffer,
' ');
10887 size_t char_width = encoding->
char_width(start + column, parser->
end - (start + column));
10888 column += (char_width == 0 ? 1 : char_width);
10891 if (highlight > 1) pm_buffer_append_literal(buffer, PM_COLOR_RED);
10892 else if (highlight > 0) pm_buffer_append_literal(buffer, PM_COLOR_BOLD);
10893 pm_buffer_append_byte(buffer,
'^');
10895 size_t char_width = encoding->
char_width(start + column, parser->
end - (start + column));
10896 column += (char_width == 0 ? 1 : char_width);
10898 while (column < error->column_end) {
10899 pm_buffer_append_byte(buffer,
'~');
10901 size_t char_width = encoding->
char_width(start + column, parser->
end - (start + column));
10902 column += (char_width == 0 ? 1 : char_width);
10905 if (highlight > 0) pm_buffer_append_literal(buffer, PM_COLOR_RESET);
10907 if (inline_messages) {
10908 pm_buffer_append_byte(buffer,
' ');
10909 assert(error->
error != NULL);
10912 pm_buffer_append_string(buffer, message, strlen(message));
10915 pm_buffer_append_byte(buffer,
'\n');
10919 last_line = error->
line;
10922 if (index == error_list->
size - 1) {
10923 next_line = (((int32_t) newline_list->
size) + parser->
start_line);
10932 next_line = errors[index + 1].
line;
10935 if (next_line - last_line > 1) {
10936 pm_buffer_append_string(buffer,
" ", 2);
10937 pm_parse_errors_format_line(parser, newline_list, error_format.
number_prefix, ++last_line, 0, 0, buffer);
10940 if (next_line - last_line > 1) {
10941 pm_buffer_append_string(buffer,
" ", 2);
10942 pm_parse_errors_format_line(parser, newline_list, error_format.
number_prefix, ++last_line, 0, 0, buffer);
10950#undef PM_ERROR_TRUNCATE
10951#undef PM_COLOR_GRAY
10953#undef PM_COLOR_RESET
10964 const size_t start_line = pm_newline_list_line_column(&parser->
newline_list, location->
start, 1).line;
10965 const size_t end_line = pm_newline_list_line_column(&parser->
newline_list, location->
end, 1).line;
10971 while (start < end) {
10972 if ((width = pm_encoding_utf_8_char_width(start, end - start)) == 0)
return false;
10988 bool valid_utf8 =
true;
10993 int highlight = rb_stderr_tty_p();
10995 const char *no_color = getenv(
"NO_COLOR");
10996 highlight = (no_color == NULL || no_color[0] ==
'\0') ? 2 : 1;
11000 switch (error->level) {
11007 if (valid_utf8 && !pm_parse_process_error_utf8_p(parser, &error->location)) {
11008 valid_utf8 =
false;
11015 int32_t line_number = (int32_t) pm_location_line_number(parser, &error->location);
11017 pm_buffer_append_format(
11019 "%.*s:%" PRIi32
": %s",
11020 (
int) pm_string_length(filepath),
11021 pm_string_source(filepath),
11026 if (pm_parse_process_error_utf8_p(parser, &error->location)) {
11027 pm_buffer_append_byte(&buffer,
'\n');
11030 pm_list_t error_list = { .size = 1, .head = list_node, .tail = list_node };
11032 pm_parse_errors_format(parser, &error_list, &buffer, highlight,
false);
11035 VALUE value =
rb_exc_new(rb_eArgError, pm_buffer_value(&buffer), pm_buffer_length(&buffer));
11036 pm_buffer_free(&buffer);
11052 pm_buffer_append_format(
11054 "%.*s:%" PRIi32
": syntax error%s found\n",
11055 (
int) pm_string_length(filepath),
11056 pm_string_source(filepath),
11057 (int32_t) pm_location_line_number(parser, &head->location),
11062 pm_parse_errors_format(parser, &parser->
error_list, &buffer, highlight,
true);
11066 if (error != head) pm_buffer_append_byte(&buffer,
'\n');
11067 pm_buffer_append_format(&buffer,
"%.*s:%" PRIi32
": %s", (
int) pm_string_length(filepath), pm_string_source(filepath), (int32_t) pm_location_line_number(parser, &error->location), error->message);
11071 VALUE message = rb_enc_str_new(pm_buffer_value(&buffer), pm_buffer_length(&buffer), result->
node.encoding);
11075 VALUE path = rb_enc_str_new((
const char *) pm_string_source(filepath), pm_string_length(filepath), filepath_encoding);
11078 pm_buffer_free(&buffer);
11095 pm_scope_node_t *scope_node = &result->
node;
11097 int coverage_enabled = scope_node->coverage_enabled;
11099 pm_scope_node_init(node, scope_node, NULL);
11102 scope_node->encoding = rb_enc_find(parser->
encoding->
name);
11103 if (!scope_node->encoding) rb_bug(
"Encoding not found %s!", parser->
encoding->
name);
11105 scope_node->coverage_enabled = coverage_enabled;
11109 if (script_lines != NULL) {
11114 size_t length = index == parser->
newline_list.
size - 1 ? ((size_t) (parser->
end - (parser->
start + offset))) : (parser->newline_list.offsets[index + 1] - offset);
11115 rb_ary_push(*script_lines, rb_enc_str_new((
const char *) parser->
start + offset, length, scope_node->encoding));
11123 const char *warning_filepath = (
const char *) pm_string_source(&parser->
filepath);
11126 int line = pm_location_line_number(parser, &warning->
location);
11129 rb_enc_compile_warning(scope_node->encoding, warning_filepath, line,
"%s", warning->
message);
11132 rb_enc_compile_warn(scope_node->encoding, warning_filepath, line,
"%s", warning->
message);
11138 VALUE error = pm_parse_process_error(result);
11147 scope_node->parser = parser;
11152 scope_node->constants[index] = rb_intern3((
const char *) constant->
start, constant->
length, scope_node->encoding);
11155 scope_node->index_lookup_table = st_init_numtable();
11157 for (
size_t index = 0; index < locals->
size; index++) {
11158 st_insert(scope_node->index_lookup_table, locals->
ids[index], index);
11172pm_options_frozen_string_literal_init(
pm_options_t *options)
11174 int frozen_string_literal = rb_iseq_opt_frozen_string_literal();
11176 switch (frozen_string_literal) {
11177 case ISEQ_FROZEN_STRING_LITERAL_UNSET:
11179 case ISEQ_FROZEN_STRING_LITERAL_DISABLED:
11180 pm_options_frozen_string_literal_set(options,
false);
11182 case ISEQ_FROZEN_STRING_LITERAL_ENABLED:
11183 pm_options_frozen_string_literal_set(options,
true);
11186 rb_bug(
"pm_options_frozen_string_literal_init: invalid frozen_string_literal=%d", frozen_string_literal);
11196pm_parse_file_script_lines(
const pm_scope_node_t *scope_node,
const pm_parser_t *parser)
11199 const char *start = (
const char *) parser->
start;
11200 const char *end = (
const char *) parser->
end;
11205 size_t last_offset = newline_list->
offsets[newline_list->
size - 1];
11206 bool last_push = start + last_offset != end;
11211 for (
size_t index = 0; index < newline_list->
size - 1; index++) {
11212 size_t offset = newline_list->
offsets[index];
11213 size_t length = newline_list->
offsets[index + 1] - offset;
11215 rb_ary_push(lines, rb_enc_str_new(start + offset, length, scope_node->encoding));
11220 rb_ary_push(lines, rb_enc_str_new(start + last_offset, end - (start + last_offset), scope_node->encoding));
11230pm_read_file(
pm_string_t *
string,
const char *filepath)
11234 int length = MultiByteToWideChar(CP_UTF8, 0, filepath, -1, NULL, 0);
11237 WCHAR *wfilepath =
xmalloc(
sizeof(WCHAR) * ((
size_t) length));
11238 if ((wfilepath == NULL) || (MultiByteToWideChar(CP_UTF8, 0, filepath, -1, wfilepath, length) == 0)) {
11243 HANDLE file = CreateFileW(wfilepath, GENERIC_READ, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_READONLY, NULL);
11244 if (file == INVALID_HANDLE_VALUE) {
11247 if (GetLastError() == ERROR_ACCESS_DENIED) {
11248 DWORD attributes = GetFileAttributesW(wfilepath);
11249 if ((attributes != INVALID_FILE_ATTRIBUTES) && (attributes & FILE_ATTRIBUTE_DIRECTORY)) {
11259 DWORD file_size = GetFileSize(file, NULL);
11260 if (file_size == INVALID_FILE_SIZE) {
11268 if (file_size == 0) {
11271 const uint8_t source[] =
"";
11272 *
string = (
pm_string_t) { .type = PM_STRING_CONSTANT, .source = source, .length = 0 };
11277 HANDLE mapping = CreateFileMapping(file, NULL, PAGE_READONLY, 0, 0, NULL);
11278 if (mapping == NULL) {
11285 uint8_t *source = (uint8_t *) MapViewOfFile(mapping, FILE_MAP_READ, 0, 0, 0);
11286 CloseHandle(mapping);
11290 if (source == NULL) {
11294 *
string = (
pm_string_t) { .type = PM_STRING_MAPPED, .source = source, .length = (size_t) file_size };
11296#elif defined(_POSIX_MAPPED_FILES)
11298 const int open_mode = O_RDONLY | O_NONBLOCK;
11299 int fd = open(filepath, open_mode);
11306 if (fstat(fd, &sb) == -1) {
11312 if (S_ISDIR(sb.st_mode)) {
11320 if (S_ISFIFO(sb.st_mode) || S_ISCHR(sb.st_mode)) {
11329 long len = RSTRING_LEN(contents);
11334 size_t length = (size_t)
len;
11335 uint8_t *source = malloc(length);
11336 memcpy(source, RSTRING_PTR(contents), length);
11337 *
string = (
pm_string_t) { .type = PM_STRING_OWNED, .source = source, .length = length };
11343 size_t size = (size_t) sb.st_size;
11344 uint8_t *source = NULL;
11348 const uint8_t source[] =
"";
11349 *
string = (
pm_string_t) { .type = PM_STRING_CONSTANT, .source = source, .length = 0 };
11353 source = mmap(NULL, size, PROT_READ, MAP_PRIVATE, fd, 0);
11354 if (source == MAP_FAILED) {
11360 *
string = (
pm_string_t) { .type = PM_STRING_MAPPED, .source = source, .length = size };
11363 return pm_string_file_init(
string, filepath);
11377 pm_options_frozen_string_literal_init(&result->
options);
11386 err = rb_w32_map_errno(GetLastError());
11418 pm_options_filepath_set(&result->
options, RSTRING_PTR(filepath));
11421 pm_options_version_for_current_ruby_set(&result->
options);
11423 pm_parser_init(&result->
parser, pm_string_source(&result->
input), pm_string_length(&result->
input), &result->
options);
11424 pm_node_t *node = pm_parse(&result->
parser);
11426 VALUE error = pm_parse_process(result, node, script_lines);
11431 ID id_script_lines = rb_intern(
"SCRIPT_LINES__");
11437 rb_hash_aset(constant_script_lines, filepath, pm_parse_file_script_lines(&result->
node, &result->
parser));
11451 VALUE error = pm_load_file(result, filepath,
false);
11452 if (
NIL_P(error)) {
11453 error = pm_parse_file(result, filepath, script_lines);
11468 rb_encoding *encoding = rb_enc_get(source);
11469 if (!rb_enc_asciicompat(encoding)) {
11473 pm_options_frozen_string_literal_init(&result->
options);
11474 pm_string_constant_init(&result->
input, RSTRING_PTR(source), RSTRING_LEN(source));
11475 pm_options_encoding_set(&result->
options, rb_enc_name(encoding));
11478 pm_options_filepath_set(&result->
options, RSTRING_PTR(filepath));
11480 pm_options_version_for_current_ruby_set(&result->
options);
11482 pm_parser_init(&result->
parser, pm_string_source(&result->
input), pm_string_length(&result->
input), &result->
options);
11483 pm_node_t *node = pm_parse(&result->
parser);
11485 VALUE error = pm_parse_process(result, node, script_lines);
11498pm_parse_stdin_eof(
void *stream)
11501 return wrapped_stdin->eof_seen;
11504VALUE rb_io_gets_limit_internal(
VALUE io,
long limit);
11510pm_parse_stdin_fgets(
char *
string,
int size,
void *stream)
11516 VALUE line = rb_io_gets_limit_internal(wrapped_stdin->rb_stdin, size - 1);
11521 const char *cstr = RSTRING_PTR(line);
11522 long length = RSTRING_LEN(line);
11524 memcpy(
string, cstr, length);
11525 string[length] =
'\0';
11530 if (length < (size - 1) &&
string[length - 1] !=
'\n') {
11531 wrapped_stdin->eof_seen = 1;
11538void rb_reset_argf_lineno(
long n);
11548 pm_options_frozen_string_literal_init(&result->
options);
11556 pm_node_t *node = pm_parse_stream(&result->
parser, &buffer, (
void *) &wrapped_stdin, pm_parse_stdin_fgets, pm_parse_stdin_eof, &result->
options);
11561 pm_string_owned_init(&result->
input, (uint8_t *) pm_buffer_value(&buffer), pm_buffer_length(&buffer));
11565 rb_reset_argf_lineno(0);
11567 return pm_parse_process(result, node, NULL);
11570#define PM_VERSION_FOR_RELEASE(major, minor) PM_VERSION_FOR_RELEASE_IMPL(major, minor)
11571#define PM_VERSION_FOR_RELEASE_IMPL(major, minor) PM_OPTIONS_VERSION_CRUBY_##major##_##minor
11573void pm_options_version_for_current_ruby_set(
pm_options_t *options) {
11578#define NEW_ISEQ OLD_ISEQ
11580#undef NEW_CHILD_ISEQ
11581#define NEW_CHILD_ISEQ OLD_CHILD_ISEQ
#define RUBY_ASSERT(...)
Asserts that the given expression is truthy if and only if RUBY_DEBUG is truthy.
@ PM_WARNING_LEVEL_VERBOSE
For warnings which should be emitted if $VERBOSE == true.
@ PM_ERROR_LEVEL_ARGUMENT
For errors that should raise an argument error.
@ PM_ERROR_LEVEL_LOAD
For errors that should raise a load error.
@ PM_ERROR_LEVEL_SYNTAX
For errors that should raise a syntax error.
#define RUBY_EVENT_END
Encountered an end of a class clause.
#define RUBY_EVENT_B_RETURN
Encountered a next statement.
#define RUBY_EVENT_CLASS
Encountered a new class.
#define RUBY_EVENT_LINE
Encountered a new line.
#define RUBY_EVENT_RETURN
Encountered a return statement.
#define RUBY_EVENT_B_CALL
Encountered an yield statement.
#define RUBY_EVENT_CALL
A method, written in Ruby, is called.
#define RUBY_EVENT_RESCUE
Encountered a rescue statement.
#define rb_str_new2
Old name of rb_str_new_cstr.
#define ALLOCV
Old name of RB_ALLOCV.
#define ALLOC
Old name of RB_ALLOC.
#define RFLOAT_VALUE
Old name of rb_float_value.
#define T_STRING
Old name of RUBY_T_STRING.
#define xfree
Old name of ruby_xfree.
#define Qundef
Old name of RUBY_Qundef.
#define INT2FIX
Old name of RB_INT2FIX.
#define rb_str_cat2
Old name of rb_str_cat_cstr.
#define ID2SYM
Old name of RB_ID2SYM.
#define SPECIAL_CONST_P
Old name of RB_SPECIAL_CONST_P.
#define ULONG2NUM
Old name of RB_ULONG2NUM.
#define FIXABLE
Old name of RB_FIXABLE.
#define xmalloc
Old name of ruby_xmalloc.
#define LONG2FIX
Old name of RB_INT2FIX.
#define ZALLOC_N
Old name of RB_ZALLOC_N.
#define T_HASH
Old name of RUBY_T_HASH.
#define ALLOC_N
Old name of RB_ALLOC_N.
#define rb_exc_new3
Old name of rb_exc_new_str.
#define FLONUM_P
Old name of RB_FLONUM_P.
#define Qtrue
Old name of RUBY_Qtrue.
#define INT2NUM
Old name of RB_INT2NUM.
#define Qnil
Old name of RUBY_Qnil.
#define Qfalse
Old name of RUBY_Qfalse.
#define T_ARRAY
Old name of RUBY_T_ARRAY.
#define NIL_P
Old name of RB_NIL_P.
#define DBL2NUM
Old name of rb_float_new.
#define xcalloc
Old name of ruby_xcalloc.
#define NUM2LONG
Old name of RB_NUM2LONG.
#define UINT2NUM
Old name of RB_UINT2NUM.
#define CONST_ID
Old name of RUBY_CONST_ID.
#define ruby_debug
This variable controls whether the interpreter is in debug mode.
VALUE rb_eNotImpError
NotImplementedError exception.
void rb_exc_raise(VALUE mesg)
Raises an exception in the current thread.
VALUE rb_eStandardError
StandardError exception.
VALUE rb_eLoadError
LoadError exception.
VALUE rb_eTypeError
TypeError exception.
VALUE rb_eNoMatchingPatternError
NoMatchingPatternError exception.
void rb_warn(const char *fmt,...)
Identical to rb_warning(), except it reports unless $VERBOSE is nil.
VALUE rb_exc_new(VALUE etype, const char *ptr, long len)
Creates an instance of the passed exception class.
VALUE rb_eNoMatchingPatternKeyError
NoMatchingPatternKeyError exception.
VALUE rb_exc_new_str(VALUE etype, VALUE str)
Identical to rb_exc_new_cstr(), except it takes a Ruby's string instead of C's.
VALUE rb_errinfo(void)
This is the same as $! in Ruby.
VALUE rb_eSyntaxError
SyntaxError exception.
VALUE rb_syserr_new(int n, const char *mesg)
Creates an exception object that represents the given C errno.
VALUE rb_cArray
Array class.
VALUE rb_obj_hide(VALUE obj)
Make the object invisible from Ruby code.
VALUE rb_stdin
STDIN constant.
VALUE rb_obj_freeze(VALUE obj)
Just calls rb_obj_freeze_inline() inside.
#define RB_OBJ_WRITTEN(old, oldv, young)
Identical to RB_OBJ_WRITE(), except it doesn't write any values, but only a WB declaration.
#define RB_OBJ_WRITE(old, slot, young)
Declaration of a "back" pointer.
rb_encoding * rb_utf8_encoding(void)
Queries the encoding that represents UTF-8.
rb_encoding * rb_ascii8bit_encoding(void)
Queries the encoding that represents ASCII-8BIT a.k.a.
rb_encoding * rb_usascii_encoding(void)
Queries the encoding that represents US-ASCII.
int rb_enc_str_coderange(VALUE str)
Scans the passed string to collect its code range.
VALUE rb_enc_interned_str(const char *ptr, long len, rb_encoding *enc)
Identical to rb_enc_str_new(), except it returns a "f"string.
VALUE rb_enc_str_new_cstr(const char *ptr, rb_encoding *enc)
Identical to rb_enc_str_new(), except it assumes the passed pointer is a pointer to a C string.
VALUE rb_funcall(VALUE recv, ID mid, int n,...)
Calls a method.
VALUE rb_ary_cat(VALUE ary, const VALUE *train, long len)
Destructively appends multiple elements at the end of the array.
VALUE rb_ary_new(void)
Allocates a new, empty array.
VALUE rb_ary_new_capa(long capa)
Identical to rb_ary_new(), except it additionally specifies how many rooms of objects it should alloc...
VALUE rb_ary_hidden_new(long capa)
Allocates a hidden (no class) empty array.
VALUE rb_ary_push(VALUE ary, VALUE elem)
Special case of rb_ary_cat() that it adds only one element.
VALUE rb_ary_entry(VALUE ary, long off)
Queries an element of an array.
VALUE rb_ary_join(VALUE ary, VALUE sep)
Recursively stringises the elements of the passed array, flattens that result, then joins the sequenc...
void rb_ary_store(VALUE ary, long key, VALUE val)
Destructively stores the passed value to the passed array's passed index.
VALUE rb_hash_new(void)
Creates a new, empty hash object.
VALUE rb_io_fdopen(int fd, int flags, const char *path)
Creates an IO instance whose backend is the given file descriptor.
VALUE rb_range_new(VALUE beg, VALUE end, int excl)
Creates a new Range.
VALUE rb_rational_new(VALUE num, VALUE den)
Constructs a Rational, with reduction.
VALUE rb_str_append(VALUE dst, VALUE src)
Identical to rb_str_buf_append(), except it converts the right hand side before concatenating.
VALUE rb_str_tmp_new(long len)
Allocates a "temporary" string.
#define rb_str_new(str, len)
Allocates an instance of rb_cString.
#define rb_exc_new_cstr(exc, str)
Identical to rb_exc_new(), except it assumes the passed pointer is a pointer to a C string.
#define rb_str_buf_new_cstr(str)
Identical to rb_str_new_cstr, except done differently.
VALUE rb_str_concat(VALUE dst, VALUE src)
Identical to rb_str_append(), except it also accepts an integer as a codepoint.
VALUE rb_str_freeze(VALUE str)
This is the implementation of String#freeze.
#define rb_str_new_cstr(str)
Identical to rb_str_new, except it assumes the passed pointer is a pointer to a C string.
VALUE rb_obj_as_string(VALUE obj)
Try converting an object to its stringised representation using its to_s method, if any.
VALUE rb_ivar_set(VALUE obj, ID name, VALUE val)
Identical to rb_iv_set(), except it accepts the name as an ID instead of a C string.
VALUE rb_const_get_at(VALUE space, ID name)
Identical to rb_const_defined_at(), except it returns the actual defined value.
int rb_const_defined_at(VALUE space, ID name)
Identical to rb_const_defined(), except it doesn't look for parent classes.
static ID rb_intern_const(const char *str)
This is a "tiny optimisation" over rb_intern().
VALUE rb_id2sym(ID id)
Allocates an instance of rb_cSymbol that has the given id.
VALUE rb_sym2str(VALUE symbol)
Obtain a frozen string representation of a symbol (not including the leading colon).
@ RUBY_IO_READABLE
IO::READABLE
VALUE rb_io_wait(VALUE io, VALUE events, VALUE timeout)
Blocks until the passed IO is ready for the passed events.
int len
Length of the buffer.
#define RB_OBJ_SHAREABLE_P(obj)
Queries if the passed object has previously classified as shareable or not.
VALUE rb_ractor_make_shareable(VALUE obj)
Destructively transforms the passed object so that multiple Ractors can share it.
#define DECIMAL_SIZE_OF(expr)
An approximation of decimal representation size.
#define RUBY_API_VERSION_MAJOR
Major version.
#define RUBY_API_VERSION_MINOR
Minor version.
#define RB_INT2NUM
Just another name of rb_int2num_inline.
#define RB_GC_GUARD(v)
Prevents premature destruction of local objects.
VALUE type(ANYARGS)
ANYARGS-ed function type.
struct pm_options pm_options_t
The options that can be passed to the parser.
struct pm_parser pm_parser_t
The parser used to parse Ruby source.
uint32_t pm_constant_id_t
A constant id is a unique identifier for a constant in the constant pool.
struct pm_list_node pm_list_node_t
This struct represents an abstract linked list that provides common functionality.
pm_string_init_result_t
Represents the result of calling pm_string_mapped_init or pm_string_file_init.
@ PM_STRING_INIT_SUCCESS
Indicates that the string was successfully initialized.
@ PM_STRING_INIT_ERROR_GENERIC
Indicates a generic error from a string_*_init function, where the type of error should be read from ...
@ PM_STRING_INIT_ERROR_DIRECTORY
Indicates that the file that was attempted to be opened was a directory.
#define PM_ENCODING_US_ASCII_ENTRY
This is the US-ASCII encoding.
#define PM_NODE_LIST_FOREACH(list, index, node)
Loop through each node in the node list, writing each node to the given pm_node_t pointer.
The main header file for the prism parser.
#define RARRAY_LEN
Just another name of rb_array_len.
#define RARRAY_AREF(a, i)
#define RARRAY_CONST_PTR
Just another name of rb_array_const_ptr.
#define errno
Ractor-aware version of errno.
#define RTEST
This is an old name of RB_TEST.
struct pm_node * old_name
AliasGlobalVariableNode::old_name.
struct pm_node * new_name
AliasGlobalVariableNode::new_name.
struct pm_node * old_name
AliasMethodNode::old_name.
struct pm_node * new_name
AliasMethodNode::new_name.
struct pm_node * left
AlternationPatternNode::left.
struct pm_node * right
AlternationPatternNode::right.
struct pm_node * left
AndNode::left.
struct pm_node * right
AndNode::right.
pm_node_t base
The embedded base node.
struct pm_node_list arguments
ArgumentsNode::arguments.
struct pm_node_list elements
ArrayNode::elements.
struct pm_node_list requireds
ArrayPatternNode::requireds.
struct pm_node * rest
ArrayPatternNode::rest.
struct pm_node * constant
ArrayPatternNode::constant.
struct pm_node_list posts
ArrayPatternNode::posts.
struct pm_node * value
AssocNode::value.
struct pm_node * key
AssocNode::key.
struct pm_node * value
AssocSplatNode::value.
pm_node_t base
The embedded base node.
struct pm_ensure_node * ensure_clause
BeginNode::ensure_clause.
struct pm_rescue_node * rescue_clause
BeginNode::rescue_clause.
struct pm_statements_node * statements
BeginNode::statements.
struct pm_else_node * else_clause
BeginNode::else_clause.
struct pm_node * expression
BlockArgumentNode::expression.
struct pm_node * parameters
BlockNode::parameters.
struct pm_node * body
BlockNode::body.
pm_constant_id_list_t locals
BlockNode::locals.
struct pm_arguments_node * arguments
BreakNode::arguments.
A pm_buffer_t is a simple memory buffer that stores data in a contiguous block of memory.
struct pm_node * value
CallAndWriteNode::value.
pm_constant_id_t read_name
CallAndWriteNode::read_name.
pm_constant_id_t write_name
CallAndWriteNode::write_name.
struct pm_node * receiver
CallAndWriteNode::receiver.
pm_location_t closing_loc
CallNode::closing_loc.
struct pm_node * receiver
CallNode::receiver.
pm_constant_id_t name
CallNode::name.
pm_node_t base
The embedded base node.
pm_location_t message_loc
CallNode::message_loc.
struct pm_arguments_node * arguments
CallNode::arguments.
struct pm_node * block
CallNode::block.
pm_constant_id_t read_name
CallOperatorWriteNode::read_name.
pm_constant_id_t binary_operator
CallOperatorWriteNode::binary_operator.
struct pm_node * receiver
CallOperatorWriteNode::receiver.
pm_constant_id_t write_name
CallOperatorWriteNode::write_name.
struct pm_node * value
CallOperatorWriteNode::value.
struct pm_node * receiver
CallOrWriteNode::receiver.
struct pm_node * value
CallOrWriteNode::value.
pm_constant_id_t write_name
CallOrWriteNode::write_name.
pm_constant_id_t read_name
CallOrWriteNode::read_name.
pm_constant_id_t name
CallTargetNode::name.
struct pm_node * receiver
CallTargetNode::receiver.
struct pm_local_variable_target_node * target
CapturePatternNode::target.
struct pm_node * value
CapturePatternNode::value.
struct pm_node_list conditions
CaseMatchNode::conditions.
struct pm_else_node * else_clause
CaseMatchNode::else_clause.
struct pm_node * predicate
CaseMatchNode::predicate.
struct pm_node * predicate
CaseNode::predicate.
struct pm_else_node * else_clause
CaseNode::else_clause.
struct pm_node_list conditions
CaseNode::conditions.
struct pm_node * constant_path
ClassNode::constant_path.
pm_constant_id_list_t locals
ClassNode::locals.
pm_constant_id_t name
ClassNode::name.
struct pm_node * body
ClassNode::body.
struct pm_node * superclass
ClassNode::superclass.
struct pm_node * value
ClassVariableAndWriteNode::value.
pm_constant_id_t name
ClassVariableAndWriteNode::name.
pm_constant_id_t name
ClassVariableOperatorWriteNode::name.
pm_constant_id_t binary_operator
ClassVariableOperatorWriteNode::binary_operator.
struct pm_node * value
ClassVariableOperatorWriteNode::value.
pm_constant_id_t name
ClassVariableOrWriteNode::name.
struct pm_node * value
ClassVariableOrWriteNode::value.
pm_constant_id_t name
ClassVariableReadNode::name.
pm_constant_id_t name
ClassVariableTargetNode::name.
struct pm_node * value
ClassVariableWriteNode::value.
pm_constant_id_t name
ClassVariableWriteNode::name.
pm_location_t name_loc
ConstantAndWriteNode::name_loc.
pm_constant_id_t name
ConstantAndWriteNode::name.
struct pm_node * value
ConstantAndWriteNode::value.
size_t size
The number of constant ids in the list.
size_t capacity
The number of constant ids that have been allocated in the list.
pm_constant_id_t * ids
The constant ids in the list.
pm_constant_id_t name
ConstantOperatorWriteNode::name.
pm_location_t name_loc
ConstantOperatorWriteNode::name_loc.
pm_constant_id_t binary_operator
ConstantOperatorWriteNode::binary_operator.
struct pm_node * value
ConstantOperatorWriteNode::value.
pm_location_t name_loc
ConstantOrWriteNode::name_loc.
pm_constant_id_t name
ConstantOrWriteNode::name.
struct pm_node * value
ConstantOrWriteNode::value.
struct pm_constant_path_node * target
ConstantPathAndWriteNode::target.
struct pm_node * value
ConstantPathAndWriteNode::value.
pm_constant_id_t name
ConstantPathNode::name.
struct pm_node * parent
ConstantPathNode::parent.
struct pm_constant_path_node * target
ConstantPathOperatorWriteNode::target.
struct pm_node * value
ConstantPathOperatorWriteNode::value.
pm_constant_id_t binary_operator
ConstantPathOperatorWriteNode::binary_operator.
struct pm_node * value
ConstantPathOrWriteNode::value.
struct pm_constant_path_node * target
ConstantPathOrWriteNode::target.
struct pm_node * parent
ConstantPathTargetNode::parent.
pm_constant_id_t name
ConstantPathTargetNode::name.
struct pm_constant_path_node * target
ConstantPathWriteNode::target.
struct pm_node * value
ConstantPathWriteNode::value.
uint32_t size
The number of buckets in the hash map.
pm_constant_t * constants
The constants that are stored in the buckets.
pm_node_t base
The embedded base node.
pm_constant_id_t name
ConstantReadNode::name.
A constant in the pool which effectively stores a string.
size_t length
The length of the string.
const uint8_t * start
A pointer to the start of the string.
pm_constant_id_t name
ConstantTargetNode::name.
struct pm_node * value
ConstantWriteNode::value.
pm_constant_id_t name
ConstantWriteNode::name.
struct pm_parameters_node * parameters
DefNode::parameters.
pm_constant_id_t name
DefNode::name.
struct pm_node * body
DefNode::body.
struct pm_node * receiver
DefNode::receiver.
pm_node_t base
The embedded base node.
pm_constant_id_list_t locals
DefNode::locals.
struct pm_node * value
DefinedNode::value.
This struct represents a diagnostic generated during parsing.
pm_location_t location
The location of the diagnostic in the source.
const char * message
The message associated with the diagnostic.
pm_list_node_t node
The embedded base node.
uint8_t level
The level of the diagnostic, see pm_error_level_t and pm_warning_level_t for possible values.
struct pm_statements_node * statements
ElseNode::statements.
struct pm_statements_node * statements
EmbeddedStatementsNode::statements.
struct pm_node * variable
EmbeddedVariableNode::variable.
This struct defines the functions necessary to implement the encoding interface so we can determine h...
size_t(* char_width)(const uint8_t *b, ptrdiff_t n)
Return the number of bytes that the next character takes if it is valid in the encoding.
const char * name
The name of the encoding.
struct pm_statements_node * statements
EnsureNode::statements.
struct pm_node * constant
FindPatternNode::constant.
struct pm_node * right
FindPatternNode::right.
struct pm_node_list requireds
FindPatternNode::requireds.
struct pm_splat_node * left
FindPatternNode::left.
pm_node_t base
The embedded base node.
struct pm_node * left
FlipFlopNode::left.
struct pm_node * right
FlipFlopNode::right.
double value
FloatNode::value.
struct pm_statements_node * statements
ForNode::statements.
struct pm_node * collection
ForNode::collection.
struct pm_block_node * block
ForwardingSuperNode::block.
struct pm_node * value
GlobalVariableAndWriteNode::value.
pm_constant_id_t name
GlobalVariableAndWriteNode::name.
pm_constant_id_t name
GlobalVariableOperatorWriteNode::name.
pm_constant_id_t binary_operator
GlobalVariableOperatorWriteNode::binary_operator.
struct pm_node * value
GlobalVariableOperatorWriteNode::value.
pm_constant_id_t name
GlobalVariableOrWriteNode::name.
struct pm_node * value
GlobalVariableOrWriteNode::value.
pm_constant_id_t name
GlobalVariableReadNode::name.
pm_constant_id_t name
GlobalVariableTargetNode::name.
struct pm_node * value
GlobalVariableWriteNode::value.
pm_constant_id_t name
GlobalVariableWriteNode::name.
struct pm_node_list elements
HashNode::elements.
struct pm_node_list elements
HashPatternNode::elements.
struct pm_node * rest
HashPatternNode::rest.
struct pm_node * constant
HashPatternNode::constant.
struct pm_node * predicate
IfNode::predicate.
struct pm_statements_node * statements
IfNode::statements.
struct pm_node * numeric
ImaginaryNode::numeric.
struct pm_node * value
ImplicitNode::value.
struct pm_statements_node * statements
InNode::statements.
struct pm_node * pattern
InNode::pattern.
struct pm_arguments_node * arguments
IndexAndWriteNode::arguments.
struct pm_node * receiver
IndexAndWriteNode::receiver.
struct pm_block_argument_node * block
IndexAndWriteNode::block.
struct pm_node * value
IndexAndWriteNode::value.
struct pm_block_argument_node * block
IndexOperatorWriteNode::block.
struct pm_node * value
IndexOperatorWriteNode::value.
struct pm_arguments_node * arguments
IndexOperatorWriteNode::arguments.
pm_constant_id_t binary_operator
IndexOperatorWriteNode::binary_operator.
struct pm_node * receiver
IndexOperatorWriteNode::receiver.
struct pm_block_argument_node * block
IndexOrWriteNode::block.
struct pm_node * receiver
IndexOrWriteNode::receiver.
struct pm_node * value
IndexOrWriteNode::value.
struct pm_arguments_node * arguments
IndexOrWriteNode::arguments.
struct pm_node * receiver
IndexTargetNode::receiver.
struct pm_arguments_node * arguments
IndexTargetNode::arguments.
struct pm_block_argument_node * block
IndexTargetNode::block.
struct pm_node * value
InstanceVariableAndWriteNode::value.
pm_constant_id_t name
InstanceVariableAndWriteNode::name.
struct pm_node * value
InstanceVariableOperatorWriteNode::value.
pm_constant_id_t binary_operator
InstanceVariableOperatorWriteNode::binary_operator.
pm_constant_id_t name
InstanceVariableOperatorWriteNode::name.
struct pm_node * value
InstanceVariableOrWriteNode::value.
pm_constant_id_t name
InstanceVariableOrWriteNode::name.
pm_constant_id_t name
InstanceVariableReadNode::name.
pm_constant_id_t name
InstanceVariableTargetNode::name.
pm_constant_id_t name
InstanceVariableWriteNode::name.
struct pm_node * value
InstanceVariableWriteNode::value.
pm_integer_t value
IntegerNode::value.
A structure represents an arbitrary-sized integer.
size_t length
The number of allocated values.
uint32_t value
Embedded value for small integer.
uint32_t * values
List of 32-bit integers.
bool negative
Whether or not the integer is negative.
struct pm_node_list parts
InterpolatedStringNode::parts.
struct pm_node_list parts
InterpolatedSymbolNode::parts.
struct pm_node_list parts
InterpolatedXStringNode::parts.
struct pm_node_list elements
KeywordHashNode::elements.
struct pm_node * body
LambdaNode::body.
pm_location_t opening_loc
LambdaNode::opening_loc.
struct pm_node * parameters
LambdaNode::parameters.
pm_location_t operator_loc
LambdaNode::operator_loc.
pm_constant_id_list_t locals
LambdaNode::locals.
A line and column in a string.
uint32_t column
The column number.
int32_t line
The line number.
struct pm_list_node * next
A pointer to the next node in the list.
This represents the overall linked list.
pm_list_node_t * tail
A pointer to the tail of the list.
pm_list_node_t * head
A pointer to the head of the list.
size_t size
The size of the list.
pm_constant_id_t name
LocalVariableAndWriteNode::name.
uint32_t depth
LocalVariableAndWriteNode::depth.
struct pm_node * value
LocalVariableAndWriteNode::value.
uint32_t depth
LocalVariableOperatorWriteNode::depth.
pm_constant_id_t binary_operator
LocalVariableOperatorWriteNode::binary_operator.
struct pm_node * value
LocalVariableOperatorWriteNode::value.
pm_constant_id_t name
LocalVariableOperatorWriteNode::name.
uint32_t depth
LocalVariableOrWriteNode::depth.
struct pm_node * value
LocalVariableOrWriteNode::value.
pm_constant_id_t name
LocalVariableOrWriteNode::name.
uint32_t depth
LocalVariableReadNode::depth.
pm_constant_id_t name
LocalVariableReadNode::name.
uint32_t depth
LocalVariableTargetNode::depth.
pm_constant_id_t name
LocalVariableTargetNode::name.
struct pm_node * value
LocalVariableWriteNode::value.
uint32_t depth
LocalVariableWriteNode::depth.
pm_constant_id_t name
LocalVariableWriteNode::name.
This represents a range of bytes in the source string to which a node or token corresponds.
const uint8_t * start
A pointer to the start location of the range in the source.
const uint8_t * end
A pointer to the end location of the range in the source.
struct pm_node * pattern
MatchPredicateNode::pattern.
struct pm_node * value
MatchPredicateNode::value.
struct pm_node * value
MatchRequiredNode::value.
struct pm_node * pattern
MatchRequiredNode::pattern.
struct pm_node_list targets
MatchWriteNode::targets.
struct pm_call_node * call
MatchWriteNode::call.
struct pm_node * constant_path
ModuleNode::constant_path.
struct pm_node * body
ModuleNode::body.
pm_constant_id_list_t locals
ModuleNode::locals.
pm_constant_id_t name
ModuleNode::name.
struct pm_node_list lefts
MultiTargetNode::lefts.
struct pm_node * rest
MultiTargetNode::rest.
struct pm_node_list rights
MultiTargetNode::rights.
This is a node in the multi target state linked list.
As we're compiling a multi target, we need to track additional information whenever there is a parent...
struct pm_node * value
MultiWriteNode::value.
struct pm_node * rest
MultiWriteNode::rest.
struct pm_node_list rights
MultiWriteNode::rights.
struct pm_node_list lefts
MultiWriteNode::lefts.
A list of offsets of newlines in a string.
const uint8_t * start
A pointer to the start of the source string.
size_t * offsets
The list of offsets.
size_t size
The number of offsets in the list.
struct pm_arguments_node * arguments
NextNode::arguments.
size_t size
The number of nodes in the list.
struct pm_node ** nodes
The nodes in the list.
This compiler defines its own concept of the location of a node.
int32_t line
This is the line number of a node.
uint32_t node_id
This is a unique identifier for the node.
pm_node_type_t type
This represents the type of the node.
uint32_t node_id
The unique identifier for this node, which is deterministic based on the source.
pm_node_flags_t flags
This represents any flags on the node.
pm_location_t location
This is the location of the node in the source.
uint32_t number
NumberedReferenceReadNode::number.
pm_constant_id_t name
OptionalKeywordParameterNode::name.
struct pm_node * value
OptionalKeywordParameterNode::value.
struct pm_node * value
OptionalParameterNode::value.
pm_constant_id_t name
OptionalParameterNode::name.
pm_options_version_t version
The version of prism that we should be parsing with.
struct pm_node * left
OrNode::left.
struct pm_node * right
OrNode::right.
struct pm_node * rest
ParametersNode::rest.
struct pm_node_list requireds
ParametersNode::requireds.
struct pm_block_parameter_node * block
ParametersNode::block.
struct pm_node_list optionals
ParametersNode::optionals.
struct pm_node_list posts
ParametersNode::posts.
pm_node_t base
The embedded base node.
struct pm_node * keyword_rest
ParametersNode::keyword_rest.
struct pm_node_list keywords
ParametersNode::keywords.
struct pm_node * body
ParenthesesNode::body.
An error that is going to be formatted into the output.
pm_diagnostic_t * error
A pointer to the diagnostic that was generated during parsing.
uint32_t column_end
The column end of the diagnostic message.
int32_t line
The start line of the diagnostic message.
uint32_t column_start
The column start of the diagnostic message.
bool parsed
Whether or not this parse result has performed its parsing yet.
pm_scope_node_t node
The resulting scope node that will hold the generated AST.
pm_string_t input
The input that represents the source to be parsed.
pm_parser_t parser
The parser that will do the actual parsing.
pm_options_t options
The options that will be passed to the parser.
const pm_encoding_t * encoding
The encoding functions for the current file is attached to the parser as it's parsing so that it can ...
const uint8_t * end
The pointer to the end of the source.
pm_constant_pool_t constant_pool
This constant pool keeps all of the constants defined throughout the file so that we can reference th...
const uint8_t * start
The pointer to the start of the source.
pm_list_t error_list
The list of errors that have been found while parsing.
pm_list_t warning_list
The list of warnings that have been found while parsing.
int32_t start_line
The line number at the start of the parse.
pm_string_t filepath
This is the path of the file being parsed.
pm_newline_list_t newline_list
This is the list of newline offsets in the source file.
struct pm_node * variable
PinnedVariableNode::variable.
struct pm_statements_node * statements
PostExecutionNode::statements.
struct pm_statements_node * statements
PreExecutionNode::statements.
struct pm_statements_node * statements
ProgramNode::statements.
struct pm_node * right
RangeNode::right.
struct pm_node * left
RangeNode::left.
pm_integer_t denominator
RationalNode::denominator.
pm_integer_t numerator
RationalNode::numerator.
pm_constant_id_t name
RequiredParameterNode::name.
struct pm_node * rescue_expression
RescueModifierNode::rescue_expression.
struct pm_node * expression
RescueModifierNode::expression.
struct pm_rescue_node * subsequent
RescueNode::subsequent.
struct pm_node * reference
RescueNode::reference.
struct pm_node_list exceptions
RescueNode::exceptions.
struct pm_statements_node * statements
RescueNode::statements.
struct pm_arguments_node * arguments
ReturnNode::arguments.
rb_encoding * filepath_encoding
This is the encoding of the actual filepath object that will be used when a FILE node is compiled or ...
struct iseq_link_anchor * pre_execution_anchor
This will only be set on the top-level scope node.
VALUE * script_lines
This is a pointer to the list of script lines for the ISEQs that will be associated with this scope n...
struct pm_node * write
ShareableConstantNode::write.
pm_node_t base
The embedded base node.
pm_constant_id_list_t locals
SingletonClassNode::locals.
struct pm_node * expression
SingletonClassNode::expression.
struct pm_node * body
SingletonClassNode::body.
pm_string_t filepath
SourceFileNode::filepath.
struct pm_node * expression
SplatNode::expression.
struct pm_node_list body
StatementsNode::body.
pm_node_t base
The embedded base node.
pm_string_t unescaped
StringNode::unescaped.
A generic string type that can have various ownership semantics.
struct pm_arguments_node * arguments
SuperNode::arguments.
struct pm_node * block
SuperNode::block.
pm_string_t unescaped
SymbolNode::unescaped.
pm_node_t base
The embedded base node.
struct pm_node_list names
UndefNode::names.
struct pm_statements_node * statements
UnlessNode::statements.
struct pm_node * predicate
UnlessNode::predicate.
struct pm_else_node * else_clause
UnlessNode::else_clause.
pm_node_t base
The embedded base node.
pm_node_t base
The embedded base node.
pm_string_t unescaped
XStringNode::unescaped.
struct pm_arguments_node * arguments
YieldNode::arguments.
uintptr_t ID
Type that represents a Ruby identifier such as a variable name.
uintptr_t VALUE
Type that represents a Ruby object.
static bool RB_TYPE_P(VALUE obj, enum ruby_value_type t)
Queries if the given object is of given type.