ruby/prism_compile.c

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C
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#include "prism.h"
#define OLD_ISEQ NEW_ISEQ
#undef NEW_ISEQ
#define NEW_ISEQ(node, name, type, line_no) \
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pm_new_child_iseq(iseq, (node), parser, rb_fstring(name), 0, (type), (line_no))
#define OLD_CHILD_ISEQ NEW_CHILD_ISEQ
#undef NEW_CHILD_ISEQ
#define NEW_CHILD_ISEQ(node, name, type, line_no) \
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pm_new_child_iseq(iseq, (node), parser, rb_fstring(name), iseq, (type), (line_no))
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#define PM_COMPILE(node) \
pm_compile_node(iseq, (node), ret, src, popped, scope_node)
#define PM_COMPILE_INTO_ANCHOR(_ret, node) \
pm_compile_node(iseq, (node), _ret, src, popped, scope_node)
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#define PM_COMPILE_POPPED(node) \
pm_compile_node(iseq, (node), ret, src, true, scope_node)
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#define PM_COMPILE_NOT_POPPED(node) \
pm_compile_node(iseq, (node), ret, src, false, scope_node)
#define PM_POP \
ADD_INSN(ret, &dummy_line_node, pop);
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#define PM_POP_IF_POPPED \
if (popped) PM_POP;
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#define PM_POP_UNLESS_POPPED \
if (!popped) PM_POP;
#define PM_DUP \
ADD_INSN(ret, &dummy_line_node, dup);
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#define PM_DUP_UNLESS_POPPED \
if (!popped) PM_DUP;
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#define PM_PUTSELF \
ADD_INSN(ret, &dummy_line_node, putself);
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#define PM_PUTNIL \
ADD_INSN(ret, &dummy_line_node, putnil);
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#define PM_PUTNIL_UNLESS_POPPED \
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if (!popped) PM_PUTNIL;
#define PM_SWAP \
ADD_INSN(ret, &dummy_line_node, swap);
#define PM_SWAP_UNLESS_POPPED \
if (!popped) PM_SWAP;
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/**
* We're using the top most bit of a pm_constant_id_t as a tag to represent an
* anonymous local. When a child iseq is created and needs access to a value
* that has yet to be defined, or is defined by the parent node's iseq. This can
* be added to it's local table and then handled accordingly when compiling the
* scope node associated with the child iseq.
*
* See the compilation process for PM_FOR_NODE: as an example, where the
* variable referenced inside the StatementsNode is defined as part of the top
* level ForLoop node.
*/
#define TEMP_CONSTANT_IDENTIFIER ((pm_constant_id_t)(1 << 31))
rb_iseq_t *
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pm_iseq_new_with_opt(pm_scope_node_t *scope_node, pm_parser_t *parser, VALUE name, VALUE path, VALUE realpath,
int first_lineno, const rb_iseq_t *parent, int isolated_depth,
enum rb_iseq_type type, const rb_compile_option_t *option);
static VALUE
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parse_integer(const pm_integer_node_t *node)
{
const char *start = (const char *) node->base.location.start;
const char *end = (const char *) node->base.location.end;
size_t length = end - start;
int base = -10;
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switch (node->base.flags & (PM_INTEGER_BASE_FLAGS_BINARY | PM_INTEGER_BASE_FLAGS_DECIMAL | PM_INTEGER_BASE_FLAGS_OCTAL | PM_INTEGER_BASE_FLAGS_HEXADECIMAL)) {
case PM_INTEGER_BASE_FLAGS_BINARY:
base = 2;
break;
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case PM_INTEGER_BASE_FLAGS_DECIMAL:
base = 10;
break;
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case PM_INTEGER_BASE_FLAGS_OCTAL:
base = 8;
break;
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case PM_INTEGER_BASE_FLAGS_HEXADECIMAL:
base = 16;
break;
default:
rb_bug("Unexpected integer base");
}
return rb_int_parse_cstr(start, length, NULL, NULL, base, RB_INT_PARSE_DEFAULT);
}
static VALUE
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parse_float(const pm_node_t *node)
{
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const uint8_t *start = node->location.start;
const uint8_t *end = node->location.end;
size_t length = end - start;
char *buffer = malloc(length + 1);
memcpy(buffer, start, length);
buffer[length] = '\0';
VALUE number = DBL2NUM(rb_cstr_to_dbl(buffer, 0));
free(buffer);
return number;
}
static VALUE
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parse_rational(const pm_node_t *node)
{
const uint8_t *start = node->location.start;
const uint8_t *end = node->location.end - 1;
size_t length = end - start;
VALUE res;
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if (PM_NODE_TYPE_P(((pm_rational_node_t *)node)->numeric, PM_FLOAT_NODE)) {
char *buffer = malloc(length + 1);
memcpy(buffer, start, length);
buffer[length] = '\0';
char *decimal = memchr(buffer, '.', length);
RUBY_ASSERT(decimal);
size_t seen_decimal = decimal - buffer;
size_t fraclen = length - seen_decimal - 1;
memmove(decimal, decimal + 1, fraclen + 1);
VALUE v = rb_cstr_to_inum(buffer, 10, false);
res = rb_rational_new(v, rb_int_positive_pow(10, fraclen));
free(buffer);
}
else {
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RUBY_ASSERT(PM_NODE_TYPE_P(((pm_rational_node_t *)node)->numeric, PM_INTEGER_NODE));
VALUE number = rb_int_parse_cstr((const char *)start, length, NULL, NULL, -10, RB_INT_PARSE_DEFAULT);
res = rb_rational_raw(number, INT2FIX(1));
}
return res;
}
static VALUE
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parse_imaginary(pm_imaginary_node_t *node)
{
VALUE imaginary_part;
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switch (PM_NODE_TYPE(node->numeric)) {
case PM_FLOAT_NODE: {
imaginary_part = parse_float(node->numeric);
break;
}
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case PM_INTEGER_NODE: {
imaginary_part = parse_integer((pm_integer_node_t *) node->numeric);
break;
}
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case PM_RATIONAL_NODE: {
imaginary_part = parse_rational(node->numeric);
break;
}
default:
rb_bug("Unexpected numeric type on imaginary number");
}
return rb_complex_raw(INT2FIX(0), imaginary_part);
}
static inline VALUE
parse_string(pm_string_t *string, const pm_parser_t *parser)
{
rb_encoding *enc = rb_enc_from_index(rb_enc_find_index(parser->encoding.name));
return rb_enc_str_new((const char *) pm_string_source(string), pm_string_length(string), enc);
}
static inline ID
parse_symbol(const uint8_t *start, const uint8_t *end, pm_parser_t *parser)
{
rb_encoding *enc = rb_enc_from_index(rb_enc_find_index(parser->encoding.name));
return rb_intern3((const char *) start, end - start, enc);
}
static inline ID
parse_string_symbol(pm_string_t *string, pm_parser_t *parser)
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{
const uint8_t *start = pm_string_source(string);
return parse_symbol(start, start + pm_string_length(string), parser);
}
static inline ID
parse_location_symbol(pm_location_t *location, pm_parser_t *parser)
{
return parse_symbol(location->start, location->end, parser);
}
static int
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pm_optimizable_range_item_p(pm_node_t *node)
{
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return (!node || PM_NODE_TYPE_P(node, PM_INTEGER_NODE) || PM_NODE_TYPE_P(node, PM_NIL_NODE));
}
#define RE_OPTION_ENCODING_SHIFT 8
/**
* Check the prism flags of a regular expression-like node and return the flags
* that are expected by the CRuby VM.
*/
static int
pm_reg_flags(const pm_node_t *node) {
int flags = 0;
int dummy = 0;
// Check "no encoding" first so that flags don't get clobbered
// We're calling `rb_char_to_option_kcode` in this case so that
// we don't need to have access to `ARG_ENCODING_NONE`
if (node->flags & PM_REGULAR_EXPRESSION_FLAGS_ASCII_8BIT) {
rb_char_to_option_kcode('n', &flags, &dummy);
}
if (node->flags & PM_REGULAR_EXPRESSION_FLAGS_EUC_JP) {
rb_char_to_option_kcode('e', &flags, &dummy);
flags |= ('e' << RE_OPTION_ENCODING_SHIFT);
}
if (node->flags & PM_REGULAR_EXPRESSION_FLAGS_WINDOWS_31J) {
rb_char_to_option_kcode('s', &flags, &dummy);
flags |= ('s' << RE_OPTION_ENCODING_SHIFT);
}
if (node->flags & PM_REGULAR_EXPRESSION_FLAGS_UTF_8) {
rb_char_to_option_kcode('u', &flags, &dummy);
flags |= ('u' << RE_OPTION_ENCODING_SHIFT);
}
if (node->flags & PM_REGULAR_EXPRESSION_FLAGS_IGNORE_CASE) {
flags |= ONIG_OPTION_IGNORECASE;
}
if (node->flags & PM_REGULAR_EXPRESSION_FLAGS_MULTI_LINE) {
flags |= ONIG_OPTION_MULTILINE;
}
if (node->flags & PM_REGULAR_EXPRESSION_FLAGS_EXTENDED) {
flags |= ONIG_OPTION_EXTEND;
}
return flags;
}
static rb_encoding *
pm_reg_enc(const pm_regular_expression_node_t *node, const pm_parser_t *parser) {
if (node->base.flags & PM_REGULAR_EXPRESSION_FLAGS_ASCII_8BIT) {
return rb_ascii8bit_encoding();
}
if (node->base.flags & PM_REGULAR_EXPRESSION_FLAGS_EUC_JP) {
return rb_enc_get_from_index(ENCINDEX_EUC_JP);
}
if (node->base.flags & PM_REGULAR_EXPRESSION_FLAGS_WINDOWS_31J) {
return rb_enc_get_from_index(ENCINDEX_Windows_31J);
}
if (node->base.flags & PM_REGULAR_EXPRESSION_FLAGS_UTF_8) {
return rb_utf8_encoding();
}
return rb_enc_from_index(rb_enc_find_index(parser->encoding.name));
}
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/**
* Certain nodes can be compiled literally, which can lead to further
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* optimizations. These nodes will all have the PM_NODE_FLAG_STATIC_LITERAL flag
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* set.
*/
static inline bool
pm_static_literal_p(const pm_node_t *node)
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{
return node->flags & PM_NODE_FLAG_STATIC_LITERAL;
}
static VALUE
pm_new_regex(pm_regular_expression_node_t * cast, const pm_parser_t * parser) {
VALUE regex_str = parse_string(&cast->unescaped, parser);
rb_encoding * enc = pm_reg_enc(cast, parser);
return rb_enc_reg_new(RSTRING_PTR(regex_str), RSTRING_LEN(regex_str), enc, pm_reg_flags((const pm_node_t *)cast));
}
/**
* Certain nodes can be compiled literally. This function returns the literal
* value described by the given node. For example, an array node with all static
* literal values can be compiled into a literal array.
*/
static inline VALUE
pm_static_literal_value(const pm_node_t *node, pm_scope_node_t *scope_node, pm_parser_t *parser)
{
// Every node that comes into this function should already be marked as
// static literal. If it's not, then we have a bug somewhere.
assert(pm_static_literal_p(node));
switch (PM_NODE_TYPE(node)) {
case PM_ARRAY_NODE: {
pm_array_node_t *cast = (pm_array_node_t *) node;
pm_node_list_t *elements = &cast->elements;
VALUE value = rb_ary_hidden_new(elements->size);
for (size_t index = 0; index < elements->size; index++) {
rb_ary_push(value, pm_static_literal_value(elements->nodes[index], scope_node, parser));
}
OBJ_FREEZE(value);
return value;
}
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case PM_FALSE_NODE:
return Qfalse;
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case PM_FLOAT_NODE:
return parse_float(node);
case PM_HASH_NODE: {
pm_hash_node_t *cast = (pm_hash_node_t *) node;
pm_node_list_t *elements = &cast->elements;
VALUE array = rb_ary_hidden_new(elements->size * 2);
for (size_t index = 0; index < elements->size; index++) {
assert(PM_NODE_TYPE_P(elements->nodes[index], PM_ASSOC_NODE));
pm_assoc_node_t *cast = (pm_assoc_node_t *) elements->nodes[index];
VALUE pair[2] = { pm_static_literal_value(cast->key, scope_node, parser), pm_static_literal_value(cast->value, scope_node, parser) };
rb_ary_cat(array, pair, 2);
}
VALUE value = rb_hash_new_with_size(elements->size);
rb_hash_bulk_insert(RARRAY_LEN(array), RARRAY_CONST_PTR(array), value);
value = rb_obj_hide(value);
OBJ_FREEZE(value);
return value;
}
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case PM_IMAGINARY_NODE:
return parse_imaginary((pm_imaginary_node_t *) node);
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case PM_INTEGER_NODE:
return parse_integer((pm_integer_node_t *) node);
case PM_NIL_NODE:
return Qnil;
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case PM_RATIONAL_NODE:
return parse_rational(node);
case PM_REGULAR_EXPRESSION_NODE: {
pm_regular_expression_node_t *cast = (pm_regular_expression_node_t *) node;
return pm_new_regex(cast, parser);
}
case PM_SOURCE_ENCODING_NODE: {
rb_encoding *encoding = rb_find_encoding(rb_str_new_cstr(scope_node->parser->encoding.name));
if (!encoding) rb_bug("Encoding not found!");
return rb_enc_from_encoding(encoding);
}
case PM_SOURCE_FILE_NODE: {
pm_source_file_node_t *cast = (pm_source_file_node_t *)node;
return cast->filepath.length ? parse_string(&cast->filepath, parser) : rb_fstring_lit("<compiled>");
}
case PM_SOURCE_LINE_NODE: {
int source_line = (int) pm_newline_list_line_column(&scope_node->parser->newline_list, node->location.start).line;
// Ruby treats file lines as 1-indexed
// TODO: Incorporate options which allow for passing a line number
source_line += 1;
return INT2FIX(source_line);
}
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case PM_STRING_NODE:
return parse_string(&((pm_string_node_t *) node)->unescaped, parser);
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case PM_SYMBOL_NODE:
return ID2SYM(parse_string_symbol(&((pm_symbol_node_t *) node)->unescaped, parser));
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case PM_TRUE_NODE:
return Qtrue;
default:
rb_raise(rb_eArgError, "Don't have a literal value for this type");
return Qfalse;
}
}
static void
pm_compile_branch_condition(rb_iseq_t *iseq, LINK_ANCHOR *const ret, const pm_node_t *cond,
LABEL *then_label, LABEL *else_label, const uint8_t *src, bool popped, pm_scope_node_t *scope_node);
static void
pm_compile_logical(rb_iseq_t *iseq, LINK_ANCHOR *const ret, pm_node_t *cond,
LABEL *then_label, LABEL *else_label, const uint8_t *src, bool popped, pm_scope_node_t *scope_node)
{
pm_parser_t *parser = scope_node->parser;
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pm_newline_list_t newline_list = parser->newline_list;
int lineno = (int)pm_newline_list_line_column(&newline_list, cond->location.start).line;
NODE dummy_line_node = generate_dummy_line_node(lineno, lineno);
DECL_ANCHOR(seq);
INIT_ANCHOR(seq);
LABEL *label = NEW_LABEL(lineno);
if (!then_label) then_label = label;
else if (!else_label) else_label = label;
pm_compile_branch_condition(iseq, seq, cond, then_label, else_label, src, popped, scope_node);
if (LIST_INSN_SIZE_ONE(seq)) {
INSN *insn = (INSN *)ELEM_FIRST_INSN(FIRST_ELEMENT(seq));
if (insn->insn_id == BIN(jump) && (LABEL *)(insn->operands[0]) == label)
return;
}
if (!label->refcnt) {
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PM_PUTNIL;
}
else {
ADD_LABEL(seq, label);
}
ADD_SEQ(ret, seq);
return;
}
static void pm_compile_node(rb_iseq_t *iseq, const pm_node_t *node, LINK_ANCHOR *const ret, const uint8_t *src, bool popped, pm_scope_node_t *scope_node);
static void
pm_compile_flip_flop(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, const uint8_t *src, bool popped, pm_scope_node_t *scope_node)
{
NODE dummy_line_node = generate_dummy_line_node(ISEQ_BODY(iseq)->location.first_lineno, -1);
LABEL *lend = NEW_LABEL(lineno);
int again = !(flip_flop_node->base.flags & PM_RANGE_FLAGS_EXCLUDE_END);
rb_num_t count = ISEQ_FLIP_CNT_INCREMENT(ISEQ_BODY(iseq)->local_iseq) + VM_SVAR_FLIPFLOP_START;
VALUE key = INT2FIX(count);
ADD_INSN2(ret, &dummy_line_node, getspecial, key, INT2FIX(0));
ADD_INSNL(ret, &dummy_line_node, branchif, lend);
if (flip_flop_node->left) {
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PM_COMPILE(flip_flop_node->left);
}
else {
PM_PUTNIL;
}
ADD_INSNL(ret, &dummy_line_node, branchunless, else_label);
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
ADD_INSN1(ret, &dummy_line_node, setspecial, key);
if (!again) {
ADD_INSNL(ret, &dummy_line_node, jump, then_label);
}
ADD_LABEL(ret, lend);
if (flip_flop_node->right) {
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PM_COMPILE(flip_flop_node->right);
}
else {
PM_PUTNIL;
}
ADD_INSNL(ret, &dummy_line_node, branchunless, then_label);
ADD_INSN1(ret, &dummy_line_node, putobject, Qfalse);
ADD_INSN1(ret, &dummy_line_node, setspecial, key);
ADD_INSNL(ret, &dummy_line_node, jump, then_label);
}
void pm_compile_defined_expr(rb_iseq_t *iseq, const pm_node_t *defined_node, LINK_ANCHOR *const ret, const uint8_t *src, bool popped, pm_scope_node_t *scope_node, NODE dummy_line_node, int lineno, bool in_condition);
static void
pm_compile_branch_condition(rb_iseq_t *iseq, LINK_ANCHOR *const ret, const pm_node_t *cond,
LABEL *then_label, LABEL *else_label, const uint8_t *src, bool popped, pm_scope_node_t *scope_node)
{
pm_parser_t *parser = scope_node->parser;
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pm_newline_list_t newline_list = parser->newline_list;
int lineno = (int) pm_newline_list_line_column(&newline_list, cond->location.start).line;
NODE dummy_line_node = generate_dummy_line_node(lineno, lineno);
again:
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switch (PM_NODE_TYPE(cond)) {
case PM_AND_NODE: {
pm_and_node_t *and_node = (pm_and_node_t *)cond;
pm_compile_logical(iseq, ret, and_node->left, NULL, else_label, src, popped, scope_node);
cond = and_node->right;
goto again;
}
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case PM_OR_NODE: {
pm_or_node_t *or_node = (pm_or_node_t *)cond;
pm_compile_logical(iseq, ret, or_node->left, then_label, NULL, src, popped, scope_node);
cond = or_node->right;
goto again;
}
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case PM_FALSE_NODE:
case PM_NIL_NODE:
ADD_INSNL(ret, &dummy_line_node, jump, else_label);
return;
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case PM_FLOAT_NODE:
case PM_IMAGINARY_NODE:
case PM_INTEGER_NODE:
case PM_LAMBDA_NODE:
case PM_RATIONAL_NODE:
case PM_REGULAR_EXPRESSION_NODE:
case PM_STRING_NODE:
case PM_SYMBOL_NODE:
case PM_TRUE_NODE:
ADD_INSNL(ret, &dummy_line_node, jump, then_label);
return;
case PM_FLIP_FLOP_NODE:
pm_compile_flip_flop((pm_flip_flop_node_t *)cond, else_label, then_label, iseq, lineno, ret, src, popped, scope_node);
return;
// TODO: Several more nodes in this case statement
case PM_DEFINED_NODE: {
pm_defined_node_t *defined_node = (pm_defined_node_t *)cond;
pm_compile_defined_expr(iseq, defined_node->value, ret, src, popped, scope_node, dummy_line_node, lineno, true);
break;
}
default: {
DECL_ANCHOR(cond_seq);
INIT_ANCHOR(cond_seq);
pm_compile_node(iseq, cond, cond_seq, src, false, scope_node);
ADD_SEQ(ret, cond_seq);
break;
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}
}
ADD_INSNL(ret, &dummy_line_node, branchunless, else_label);
ADD_INSNL(ret, &dummy_line_node, jump, then_label);
return;
}
static void
pm_compile_if(rb_iseq_t *iseq, const int line, pm_statements_node_t *node_body, pm_node_t *node_else, pm_node_t *predicate, LINK_ANCHOR *const ret, const uint8_t *src, bool popped, pm_scope_node_t *scope_node)
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{
NODE dummy_line_node = generate_dummy_line_node(line, line);
DECL_ANCHOR(cond_seq);
LABEL *then_label, *else_label, *end_label;
INIT_ANCHOR(cond_seq);
then_label = NEW_LABEL(line);
else_label = NEW_LABEL(line);
end_label = 0;
pm_compile_branch_condition(iseq, cond_seq, predicate, then_label, else_label, src, false, scope_node);
ADD_SEQ(ret, cond_seq);
if (then_label->refcnt) {
ADD_LABEL(ret, then_label);
DECL_ANCHOR(then_seq);
INIT_ANCHOR(then_seq);
if (node_body) {
pm_compile_node(iseq, (pm_node_t *)node_body, then_seq, src, popped, scope_node);
} else {
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PM_PUTNIL_UNLESS_POPPED;
}
if (else_label->refcnt) {
end_label = NEW_LABEL(line);
ADD_INSNL(then_seq, &dummy_line_node, jump, end_label);
if (!popped) {
ADD_INSN(then_seq, &dummy_line_node, pop);
}
}
ADD_SEQ(ret, then_seq);
}
if (else_label->refcnt) {
ADD_LABEL(ret, else_label);
DECL_ANCHOR(else_seq);
INIT_ANCHOR(else_seq);
if (node_else) {
pm_compile_node(iseq, (pm_node_t *)node_else, else_seq, src, popped, scope_node);
}
else {
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PM_PUTNIL_UNLESS_POPPED;
}
ADD_SEQ(ret, else_seq);
}
if (end_label) {
ADD_LABEL(ret, end_label);
}
return;
}
static void
pm_compile_while(rb_iseq_t *iseq, int lineno, pm_node_flags_t flags, enum pm_node_type type, pm_statements_node_t *statements, pm_node_t *predicate, LINK_ANCHOR *const ret, const uint8_t *src, bool popped, pm_scope_node_t *scope_node)
{
NODE dummy_line_node = generate_dummy_line_node(lineno, lineno);
LABEL *prev_start_label = ISEQ_COMPILE_DATA(iseq)->start_label;
LABEL *prev_end_label = ISEQ_COMPILE_DATA(iseq)->end_label;
LABEL *prev_redo_label = ISEQ_COMPILE_DATA(iseq)->redo_label;
// TODO: Deal with ensures in here
LABEL *next_label = ISEQ_COMPILE_DATA(iseq)->start_label = NEW_LABEL(lineno); /* next */
LABEL *redo_label = ISEQ_COMPILE_DATA(iseq)->redo_label = NEW_LABEL(lineno); /* redo */
LABEL *break_label = ISEQ_COMPILE_DATA(iseq)->end_label = NEW_LABEL(lineno); /* break */
LABEL *end_label = NEW_LABEL(lineno);
LABEL *adjust_label = NEW_LABEL(lineno);
LABEL *next_catch_label = NEW_LABEL(lineno);
LABEL *tmp_label = NULL;
// begin; end while true
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if (flags & PM_LOOP_FLAGS_BEGIN_MODIFIER) {
tmp_label = NEW_LABEL(lineno);
ADD_INSNL(ret, &dummy_line_node, jump, tmp_label);
}
else {
// while true; end
ADD_INSNL(ret, &dummy_line_node, jump, next_label);
}
ADD_LABEL(ret, adjust_label);
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PM_PUTNIL;
ADD_LABEL(ret, next_catch_label);
PM_POP;
ADD_INSNL(ret, &dummy_line_node, jump, next_label);
if (tmp_label) ADD_LABEL(ret, tmp_label);
ADD_LABEL(ret, redo_label);
if (statements) {
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PM_COMPILE_POPPED((pm_node_t *)statements);
}
ADD_LABEL(ret, next_label);
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if (type == PM_WHILE_NODE) {
pm_compile_branch_condition(iseq, ret, predicate, redo_label, end_label, src, popped, scope_node);
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} else if (type == PM_UNTIL_NODE) {
pm_compile_branch_condition(iseq, ret, predicate, end_label, redo_label, src, popped, scope_node);
}
ADD_LABEL(ret, end_label);
ADD_ADJUST_RESTORE(ret, adjust_label);
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PM_PUTNIL;
ADD_LABEL(ret, break_label);
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PM_POP_IF_POPPED;
ADD_CATCH_ENTRY(CATCH_TYPE_BREAK, redo_label, break_label, NULL,
break_label);
ADD_CATCH_ENTRY(CATCH_TYPE_NEXT, redo_label, break_label, NULL,
next_catch_label);
ADD_CATCH_ENTRY(CATCH_TYPE_REDO, redo_label, break_label, NULL,
ISEQ_COMPILE_DATA(iseq)->redo_label);
ISEQ_COMPILE_DATA(iseq)->start_label = prev_start_label;
ISEQ_COMPILE_DATA(iseq)->end_label = prev_end_label;
ISEQ_COMPILE_DATA(iseq)->redo_label = prev_redo_label;
return;
}
static void
pm_interpolated_node_compile(pm_node_list_t *parts, rb_iseq_t *iseq, NODE dummy_line_node, LINK_ANCHOR *const ret, const uint8_t *src, bool popped, pm_scope_node_t *scope_node, pm_parser_t *parser)
{
size_t parts_size = parts->size;
if (parts_size > 0) {
for (size_t index = 0; index < parts_size; index++) {
pm_node_t *part = parts->nodes[index];
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if (PM_NODE_TYPE_P(part, PM_STRING_NODE)) {
pm_string_node_t *string_node = (pm_string_node_t *) part;
ADD_INSN1(ret, &dummy_line_node, putobject, parse_string(&string_node->unescaped, parser));
}
else {
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PM_COMPILE_NOT_POPPED(part);
PM_DUP;
ADD_INSN1(ret, &dummy_line_node, objtostring, new_callinfo(iseq, idTo_s, 0, VM_CALL_FCALL | VM_CALL_ARGS_SIMPLE , NULL, FALSE));
ADD_INSN(ret, &dummy_line_node, anytostring);
}
}
}
else {
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PM_PUTNIL;
}
}
// This recurses through scopes and finds the local index at any scope level
// It also takes a pointer to depth, and increments depth appropriately
// according to the depth of the local
static int
pm_lookup_local_index_any_scope(rb_iseq_t *iseq, pm_scope_node_t *scope_node, pm_constant_id_t constant_id)
{
if (!scope_node) {
// We have recursed up all scope nodes
// and have not found the local yet
rb_bug("This local does not exist");
}
st_data_t local_index;
if (!st_lookup(scope_node->index_lookup_table, constant_id, &local_index)) {
// Local does not exist at this level, continue recursing up
return pm_lookup_local_index_any_scope(iseq, scope_node->previous, constant_id);
}
return (int)scope_node->index_lookup_table->num_entries - (int)local_index;
}
static int
pm_lookup_local_index(rb_iseq_t *iseq, pm_scope_node_t *scope_node, pm_constant_id_t constant_id)
{
st_data_t local_index;
int locals_size = (int) scope_node->locals.size;
if (!st_lookup(scope_node->index_lookup_table, constant_id, &local_index)) {
rb_bug("This local does not exist");
}
return locals_size - (int)local_index;
}
static int
pm_lookup_local_index_with_depth(rb_iseq_t *iseq, pm_scope_node_t *scope_node, pm_constant_id_t constant_id, uint32_t depth)
{
for(uint32_t i = 0; i < depth; i++) {
scope_node = scope_node->previous;
iseq = (rb_iseq_t *)ISEQ_BODY(iseq)->parent_iseq;
}
return pm_lookup_local_index_any_scope(iseq, scope_node, constant_id);
}
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// This returns the CRuby ID which maps to the pm_constant_id_t
//
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// Constant_ids in prism are indexes of the constants in prism's constant pool.
// We add a constants mapping on the scope_node which is a mapping from
// these constant_id indexes to the CRuby IDs that they represent.
// This helper method allows easy access to those IDs
static ID
pm_constant_id_lookup(pm_scope_node_t *scope_node, pm_constant_id_t constant_id)
{
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if (constant_id < 1 || constant_id > scope_node->parser->constant_pool.size) {
rb_raise(rb_eArgError, "[PRISM] constant_id out of range: %u", (unsigned int)constant_id);
}
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return scope_node->constants[constant_id - 1];
}
static rb_iseq_t *
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pm_new_child_iseq(rb_iseq_t *iseq, pm_scope_node_t node, pm_parser_t *parser,
VALUE name, const rb_iseq_t *parent, enum rb_iseq_type type, int line_no)
{
debugs("[new_child_iseq]> ---------------------------------------\n");
int isolated_depth = ISEQ_COMPILE_DATA(iseq)->isolated_depth;
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rb_iseq_t * ret_iseq = pm_iseq_new_with_opt(&node, parser, name,
rb_iseq_path(iseq), rb_iseq_realpath(iseq),
line_no, parent,
isolated_depth ? isolated_depth + 1 : 0,
type, ISEQ_COMPILE_DATA(iseq)->option);
debugs("[new_child_iseq]< ---------------------------------------\n");
return ret_iseq;
}
static int
pm_compile_class_path(LINK_ANCHOR *const ret, rb_iseq_t *iseq, const pm_node_t *constant_path_node, const NODE *line_node, const uint8_t * src, bool popped, pm_scope_node_t *scope_node)
{
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if (PM_NODE_TYPE_P(constant_path_node, PM_CONSTANT_PATH_NODE)) {
pm_node_t *parent = ((pm_constant_path_node_t *)constant_path_node)->parent;
if (parent) {
/* Bar::Foo */
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PM_COMPILE(parent);
return VM_DEFINECLASS_FLAG_SCOPED;
}
else {
/* toplevel class ::Foo */
ADD_INSN1(ret, line_node, putobject, rb_cObject);
return VM_DEFINECLASS_FLAG_SCOPED;
}
}
else {
/* class at cbase Foo */
ADD_INSN1(ret, line_node, putspecialobject,
INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
return 0;
}
}
static void
pm_compile_call_and_or_write_node(bool and_node, pm_node_t *receiver, pm_node_t *value, pm_constant_id_t write_name, pm_constant_id_t read_name, LINK_ANCHOR *const ret, rb_iseq_t *iseq, int lineno, const uint8_t * src, bool popped, pm_scope_node_t *scope_node)
{
LABEL *call_end_label = NEW_LABEL(lineno);
LABEL *end_label = NEW_LABEL(lineno);
NODE dummy_line_node = generate_dummy_line_node(lineno, lineno);
int flag = 0;
if (PM_NODE_TYPE_P(receiver, PM_SELF_NODE)) {
flag = VM_CALL_FCALL;
}
PM_COMPILE_NOT_POPPED(receiver);
ID write_name_id = pm_constant_id_lookup(scope_node, write_name);
ID read_name_id = pm_constant_id_lookup(scope_node, read_name);
PM_DUP;
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, read_name_id, INT2FIX(0), INT2FIX(flag));
PM_DUP_UNLESS_POPPED;
if (and_node) {
ADD_INSNL(ret, &dummy_line_node, branchunless, call_end_label);
}
else {
// or_node
ADD_INSNL(ret, &dummy_line_node, branchif, call_end_label);
}
PM_POP_UNLESS_POPPED;
PM_COMPILE_NOT_POPPED(value);
if (!popped) {
PM_SWAP;
ADD_INSN1(ret, &dummy_line_node, topn, INT2FIX(1));
}
ID aid = rb_id_attrset(write_name_id);
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, aid, INT2FIX(1), INT2FIX(flag));
ADD_INSNL(ret, &dummy_line_node, jump, end_label);
ADD_LABEL(ret, call_end_label);
if (!popped) {
PM_SWAP;
}
ADD_LABEL(ret, end_label);
PM_POP;
return;
}
static void
pm_compile_index_write_nodes_add_send(bool popped, LINK_ANCHOR *const ret, rb_iseq_t *iseq, NODE dummy_line_node, VALUE argc, int flag, int block_offset)
{
if (!popped) {
ADD_INSN1(ret, &dummy_line_node, setn, FIXNUM_INC(argc, 2 + block_offset));
}
if (flag & VM_CALL_ARGS_SPLAT) {
ADD_INSN1(ret, &dummy_line_node, newarray, INT2FIX(1));
if (block_offset > 0) {
ADD_INSN1(ret, &dummy_line_node, dupn, INT2FIX(3));
PM_SWAP;
PM_POP;
}
ADD_INSN(ret, &dummy_line_node, concatarray);
if (block_offset > 0) {
ADD_INSN1(ret, &dummy_line_node, setn, INT2FIX(3));
PM_POP;
}
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, idASET, argc, INT2FIX(flag));
}
else {
if (block_offset > 0) {
PM_SWAP;
}
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, idASET, FIXNUM_INC(argc, 1), INT2FIX(flag));
}
PM_POP;
return;
}
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static int
pm_setup_args(pm_arguments_node_t *arguments_node, int *flags, struct rb_callinfo_kwarg **kw_arg, rb_iseq_t *iseq, LINK_ANCHOR *const ret, const uint8_t *src, bool popped, pm_scope_node_t *scope_node, NODE dummy_line_node, pm_parser_t *parser)
{
int orig_argc = 0;
if (arguments_node == NULL) {
if (*flags & VM_CALL_FCALL) {
*flags |= VM_CALL_VCALL;
}
}
else {
pm_node_list_t arguments_node_list = arguments_node->arguments;
bool has_keyword_splat = (arguments_node->base.flags & PM_ARGUMENTS_NODE_FLAGS_CONTAINS_KEYWORD_SPLAT);
bool has_splat = false;
// We count the number of elements post the splat node that are not keyword elements to
// eventually pass as an argument to newarray
int post_splat_counter = 0;
for (size_t index = 0; index < arguments_node_list.size; index++) {
pm_node_t *argument = arguments_node_list.nodes[index];
switch (PM_NODE_TYPE(argument)) {
// A keyword hash node contains all keyword arguments as AssocNodes and AssocSplatNodes
case PM_KEYWORD_HASH_NODE: {
pm_keyword_hash_node_t *keyword_arg = (pm_keyword_hash_node_t *)argument;
size_t len = keyword_arg->elements.size;
if (has_keyword_splat) {
int cur_hash_size = 0;
orig_argc++;
bool new_hash_emitted = false;
for (size_t i = 0; i < len; i++) {
pm_node_t *cur_node = keyword_arg->elements.nodes[i];
pm_node_type_t cur_type = PM_NODE_TYPE(cur_node);
switch (PM_NODE_TYPE(cur_node)) {
case PM_ASSOC_NODE: {
pm_assoc_node_t *assoc = (pm_assoc_node_t *)cur_node;
PM_COMPILE_NOT_POPPED(assoc->key);
PM_COMPILE_NOT_POPPED(assoc->value);
cur_hash_size++;
// If we're at the last keyword arg, or the last assoc node of this "set",
// then we want to either construct a newhash or merge onto previous hashes
if (i == (len - 1) || !PM_NODE_TYPE_P(keyword_arg->elements.nodes[i + 1], cur_type)) {
if (new_hash_emitted) {
ADD_SEND(ret, &dummy_line_node, id_core_hash_merge_ptr, INT2FIX(cur_hash_size * 2 + 1));
}
else {
ADD_INSN1(ret, &dummy_line_node, newhash, INT2FIX(cur_hash_size * 2));
cur_hash_size = 0;
new_hash_emitted = true;
}
}
break;
}
case PM_ASSOC_SPLAT_NODE: {
if (len > 1) {
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
if (i == 0) {
ADD_INSN1(ret, &dummy_line_node, newhash, INT2FIX(0));
new_hash_emitted = true;
}
else {
PM_SWAP;
}
*flags |= VM_CALL_KW_SPLAT_MUT;
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}
pm_assoc_splat_node_t *assoc_splat = (pm_assoc_splat_node_t *)cur_node;
PM_COMPILE_NOT_POPPED(assoc_splat->value);
*flags |= VM_CALL_KW_SPLAT;
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if (len > 1) {
ADD_SEND(ret, &dummy_line_node, id_core_hash_merge_kwd, INT2FIX(2));
}
if ((i < len - 1) && !PM_NODE_TYPE_P(keyword_arg->elements.nodes[i + 1], cur_type)) {
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
PM_SWAP;
}
cur_hash_size = 0;
break;
}
default: {
rb_bug("Unknown type");
}
}
}
break;
}
else {
*kw_arg = rb_xmalloc_mul_add(len, sizeof(VALUE), sizeof(struct rb_callinfo_kwarg));
*flags = VM_CALL_KWARG;
(*kw_arg)->keyword_len = (int) len;
// TODO: Method callers like `foo(a => b)`
for (size_t i = 0; i < len; i++) {
pm_assoc_node_t *assoc = (pm_assoc_node_t *)keyword_arg->elements.nodes[i];
(*kw_arg)->keywords[i] = pm_static_literal_value(assoc->key, scope_node, parser);
PM_COMPILE_NOT_POPPED(assoc->value);
}
}
break;
}
case PM_SPLAT_NODE: {
*flags |= VM_CALL_ARGS_SPLAT;
pm_splat_node_t *splat_node = (pm_splat_node_t *)argument;
if (splat_node->expression) {
orig_argc++;
PM_COMPILE_NOT_POPPED(splat_node->expression);
}
ADD_INSN1(ret, &dummy_line_node, splatarray, popped ? Qfalse : Qtrue);
has_splat = true;
post_splat_counter = 0;
break;
}
case PM_FORWARDING_ARGUMENTS_NODE: {
orig_argc++;
*flags |= VM_CALL_ARGS_BLOCKARG | VM_CALL_ARGS_SPLAT;
ADD_GETLOCAL(ret, &dummy_line_node, 3, 0);
ADD_INSN1(ret, &dummy_line_node, splatarray, RBOOL(arguments_node_list.size > 1));
ADD_INSN2(ret, &dummy_line_node, getblockparamproxy, INT2FIX(4), INT2FIX(0));
break;
}
default: {
orig_argc++;
post_splat_counter++;
PM_COMPILE_NOT_POPPED(argument);
if (has_splat) {
// If the next node starts the keyword section of parameters
if ((index < arguments_node_list.size - 1) && PM_NODE_TYPE_P(arguments_node_list.nodes[index + 1], PM_KEYWORD_HASH_NODE)) {
ADD_INSN1(ret, &dummy_line_node, newarray, INT2FIX(post_splat_counter));
ADD_INSN1(ret, &dummy_line_node, splatarray, Qfalse);
ADD_INSN(ret, &dummy_line_node, concatarray);
}
// If it's the final node
else if (index == arguments_node_list.size - 1) {
if (post_splat_counter > 1) {
ADD_INSN1(ret, &dummy_line_node, newarray, INT2FIX(post_splat_counter));
ADD_INSN1(ret, &dummy_line_node, splatarray, Qfalse);
ADD_INSN(ret, &dummy_line_node, concatarray);
}
else {
ADD_INSN1(ret, &dummy_line_node, newarray, INT2FIX(post_splat_counter));
ADD_INSN(ret, &dummy_line_node, concatarray);
}
orig_argc = 1;
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}
}
}
}
}
}
return orig_argc;
}
static void
pm_compile_index_and_or_write_node(bool and_node, pm_node_t *receiver, pm_node_t *value, pm_arguments_node_t *arguments, pm_node_t *block, LINK_ANCHOR *const ret, rb_iseq_t *iseq, int lineno, const uint8_t * src, bool popped, pm_scope_node_t *scope_node, pm_parser_t *parser)
{
NODE dummy_line_node = generate_dummy_line_node(lineno, lineno);
PM_PUTNIL_UNLESS_POPPED;
PM_COMPILE_NOT_POPPED(receiver);
int flag = 0;
int argc_int = 0;
if (arguments) {
// Get any arguments, and set the appropriate values for flag
argc_int = pm_setup_args(arguments, &flag, NULL, iseq, ret, src, popped, scope_node, dummy_line_node, parser);
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}
VALUE argc = INT2FIX(argc_int);
int block_offset = 0;
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if (block) {
PM_COMPILE_NOT_POPPED(block);
flag |= VM_CALL_ARGS_BLOCKARG;
block_offset = 1;
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}
ADD_INSN1(ret, &dummy_line_node, dupn, FIXNUM_INC(argc, 1 + block_offset));
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ADD_SEND_WITH_FLAG(ret, &dummy_line_node, idAREF, argc, INT2FIX(flag));
LABEL *label = NEW_LABEL(lineno);
LABEL *lfin = NEW_LABEL(lineno);
PM_DUP;
if (and_node) {
ADD_INSNL(ret, &dummy_line_node, branchunless, label);
}
else {
// ornode
ADD_INSNL(ret, &dummy_line_node, branchif, label);
}
PM_POP;
PM_COMPILE_NOT_POPPED(value);
pm_compile_index_write_nodes_add_send(popped, ret, iseq, dummy_line_node, argc, flag, block_offset);
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ADD_INSNL(ret, &dummy_line_node, jump, lfin);
ADD_LABEL(ret, label);
if (!popped) {
ADD_INSN1(ret, &dummy_line_node, setn, FIXNUM_INC(argc, 2 + block_offset));
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}
ADD_INSN1(ret, &dummy_line_node, adjuststack, FIXNUM_INC(argc, 2 + block_offset));
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ADD_LABEL(ret, lfin);
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return;
}
/**
* In order to properly compile multiple-assignment, some preprocessing needs to
* be performed in the case of call or constant path targets. This is when they
* are read, the "parent" of each of these nodes should only be read once (the
* receiver in the case of a call, the parent constant in the case of a constant
* path).
*/
static uint8_t
pm_compile_multi_write_lhs(rb_iseq_t *iseq, NODE dummy_line_node, const pm_node_t *node, LINK_ANCHOR *const ret, pm_scope_node_t *scope_node, uint8_t pushed, bool nested)
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{
switch (PM_NODE_TYPE(node)) {
case PM_MULTI_TARGET_NODE: {
pm_multi_target_node_t *cast = (pm_multi_target_node_t *) node;
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for (size_t index = 0; index < cast->lefts.size; index++) {
pushed = pm_compile_multi_write_lhs(iseq, dummy_line_node, cast->lefts.nodes[index], ret, scope_node, pushed, false);
}
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break;
}
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case PM_CONSTANT_PATH_TARGET_NODE: {
pm_constant_path_target_node_t *cast = (pm_constant_path_target_node_t *)node;
if (cast->parent) {
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PM_PUTNIL;
pushed = pm_compile_multi_write_lhs(iseq, dummy_line_node, cast->parent, ret, scope_node, pushed, false);
} else {
ADD_INSN1(ret, &dummy_line_node, putobject, rb_cObject);
}
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break;
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}
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case PM_CONSTANT_PATH_NODE: {
pm_constant_path_node_t *cast = (pm_constant_path_node_t *) node;
if (cast->parent) {
pushed = pm_compile_multi_write_lhs(iseq, dummy_line_node, cast->parent, ret, scope_node, pushed, false);
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} else {
PM_POP;
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ADD_INSN1(ret, &dummy_line_node, putobject, rb_cObject);
}
pushed = pm_compile_multi_write_lhs(iseq, dummy_line_node, cast->child, ret, scope_node, pushed, cast->parent);
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break;
}
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case PM_CONSTANT_READ_NODE: {
pm_constant_read_node_t *cast = (pm_constant_read_node_t *) node;
ADD_INSN1(ret, &dummy_line_node, putobject, RBOOL(!nested));
ADD_INSN1(ret, &dummy_line_node, getconstant, ID2SYM(pm_constant_id_lookup(scope_node, cast->name)));
pushed = pushed + 2;
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break;
}
default:
break;
}
return pushed;
}
/**
* Compile a pattern matching expression.
*/
static int
pm_compile_pattern(rb_iseq_t *iseq, const pm_node_t *node, LINK_ANCHOR *const ret, const uint8_t *src, pm_scope_node_t *scope_node, LABEL *matched_label, LABEL *unmatched_label, bool in_alternation_pattern)
{
int lineno = (int) pm_newline_list_line_column(&scope_node->parser->newline_list, node->location.start).line;
NODE dummy_line_node = generate_dummy_line_node(lineno, lineno);
switch (PM_NODE_TYPE(node)) {
case PM_ARRAY_PATTERN_NODE:
rb_bug("Array pattern matching not yet supported.");
break;
case PM_FIND_PATTERN_NODE:
rb_bug("Find pattern matching not yet supported.");
break;
case PM_HASH_PATTERN_NODE:
rb_bug("Hash pattern matching not yet supported.");
break;
case PM_CAPTURE_PATTERN_NODE:
rb_bug("Capture pattern matching not yet supported.");
break;
case PM_IF_NODE: {
// If guards can be placed on patterns to further limit matches based on
// a dynamic predicate. This looks like:
//
// case foo
// in bar if baz
// end
//
pm_if_node_t *cast = (pm_if_node_t *) node;
pm_compile_pattern(iseq, cast->statements->body.nodes[0], ret, src, scope_node, matched_label, unmatched_label, in_alternation_pattern);
PM_COMPILE_NOT_POPPED(cast->predicate);
ADD_INSNL(ret, &dummy_line_node, branchunless, unmatched_label);
ADD_INSNL(ret, &dummy_line_node, jump, matched_label);
break;
}
case PM_UNLESS_NODE: {
// Unless guards can be placed on patterns to further limit matches
// based on a dynamic predicate. This looks like:
//
// case foo
// in bar unless baz
// end
//
pm_unless_node_t *cast = (pm_unless_node_t *) node;
pm_compile_pattern(iseq, cast->statements->body.nodes[0], ret, src, scope_node, matched_label, unmatched_label, in_alternation_pattern);
PM_COMPILE_NOT_POPPED(cast->predicate);
ADD_INSNL(ret, &dummy_line_node, branchif, unmatched_label);
ADD_INSNL(ret, &dummy_line_node, jump, matched_label);
break;
}
case PM_LOCAL_VARIABLE_TARGET_NODE: {
// Local variables can be targetted by placing identifiers in the place
// of a pattern. For example, foo in bar. This results in the value
// being matched being written to that local variable.
pm_local_variable_target_node_t *cast = (pm_local_variable_target_node_t *) node;
int index = pm_lookup_local_index(iseq, scope_node, cast->name);
// If this local variable is being written from within an alternation
// pattern, then it cannot actually be added to the local table since
// it's ambiguous which value should be used. So instead we indicate
// this with a compile error.
if (in_alternation_pattern) {
ID id = pm_constant_id_lookup(scope_node, cast->name);
const char *name = rb_id2name(id);
if (name && strlen(name) > 0 && name[0] != '_') {
COMPILE_ERROR(ERROR_ARGS "illegal variable in alternative pattern (%"PRIsVALUE")", rb_id2str(id));
return COMPILE_NG;
}
}
ADD_SETLOCAL(ret, &dummy_line_node, index, (int) cast->depth);
ADD_INSNL(ret, &dummy_line_node, jump, matched_label);
break;
}
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case PM_ALTERNATION_PATTERN_NODE: {
// Alternation patterns allow you to specify multiple patterns in a
// single expression using the | operator.
pm_alternation_pattern_node_t *cast = (pm_alternation_pattern_node_t *) node;
LABEL *matched_left_label = NEW_LABEL(lineno);
LABEL *unmatched_left_label = NEW_LABEL(lineno);
// First, we're going to attempt to match against the left pattern. If
// that pattern matches, then we'll skip matching the right pattern.
PM_DUP;
pm_compile_pattern(iseq, cast->left, ret, src, scope_node, matched_left_label, unmatched_left_label, true);
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// If we get here, then we matched on the left pattern. In this case we
// should pop out the duplicate value that we preemptively added to
// match against the right pattern and then jump to the match label.
ADD_LABEL(ret, matched_left_label);
PM_POP;
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ADD_INSNL(ret, &dummy_line_node, jump, matched_label);
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PM_PUTNIL;
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// If we get here, then we didn't match on the left pattern. In this
// case we attempt to match against the right pattern.
ADD_LABEL(ret, unmatched_left_label);
pm_compile_pattern(iseq, cast->right, ret, src, scope_node, matched_label, unmatched_label, true);
break;
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}
case PM_ARRAY_NODE:
case PM_CLASS_VARIABLE_READ_NODE:
case PM_CONSTANT_PATH_NODE:
case PM_CONSTANT_READ_NODE:
case PM_FALSE_NODE:
case PM_FLOAT_NODE:
case PM_GLOBAL_VARIABLE_READ_NODE:
case PM_IMAGINARY_NODE:
case PM_INSTANCE_VARIABLE_READ_NODE:
case PM_INTEGER_NODE:
case PM_INTERPOLATED_REGULAR_EXPRESSION_NODE:
case PM_INTERPOLATED_STRING_NODE:
case PM_INTERPOLATED_SYMBOL_NODE:
case PM_INTERPOLATED_X_STRING_NODE:
case PM_LAMBDA_NODE:
case PM_LOCAL_VARIABLE_READ_NODE:
case PM_NIL_NODE:
case PM_RANGE_NODE:
case PM_RATIONAL_NODE:
case PM_REGULAR_EXPRESSION_NODE:
case PM_SELF_NODE:
case PM_STRING_NODE:
case PM_SYMBOL_NODE:
case PM_TRUE_NODE:
case PM_X_STRING_NODE:
// These nodes are all simple patterns, which means we'll use the
// checkmatch instruction to match against them, which is effectively a
// VM-level === operator.
PM_COMPILE_NOT_POPPED(node);
ADD_INSN1(ret, &dummy_line_node, checkmatch, INT2FIX(VM_CHECKMATCH_TYPE_CASE));
ADD_INSNL(ret, &dummy_line_node, branchif, matched_label);
ADD_INSNL(ret, &dummy_line_node, jump, unmatched_label);
break;
case PM_PINNED_VARIABLE_NODE: {
// Pinned variables are a way to match against the value of a variable
// without it looking like you're trying to write to the variable. This
// looks like: foo in ^@bar. To compile these, we compile the variable
// that they hold.
pm_pinned_variable_node_t *cast = (pm_pinned_variable_node_t *) node;
pm_compile_pattern(iseq, cast->variable, ret, src, scope_node, matched_label, unmatched_label, false);
break;
}
case PM_PINNED_EXPRESSION_NODE: {
// Pinned expressions are a way to match against the value of an
// expression that should be evaluated at runtime. This looks like:
// foo in ^(bar). To compile these, we compile the expression that they
// hold.
pm_pinned_expression_node_t *cast = (pm_pinned_expression_node_t *) node;
pm_compile_pattern(iseq, cast->expression, ret, src, scope_node, matched_label, unmatched_label, false);
break;
}
default:
// If we get here, then we have a node type that should not be in this
// position. This would be a bug in the parser, because a different node
// type should never have been created in this position in the tree.
rb_bug("Unexpected node type in pattern matching expression: %s", pm_node_type_to_str(PM_NODE_TYPE(node)));
break;
}
return COMPILE_OK;
}
// Generate a scope node from the given node.
void
pm_scope_node_init(const pm_node_t *node, pm_scope_node_t *scope, pm_scope_node_t *previous, pm_parser_t *parser)
{
scope->base.type = PM_SCOPE_NODE;
scope->base.location.start = node->location.start;
scope->base.location.end = node->location.end;
scope->previous = previous;
scope->parser = parser;
scope->ast_node = (pm_node_t *)node;
scope->parameters = NULL;
scope->body = NULL;
scope->constants = NULL;
scope->local_depth_offset = 0;
if (previous) {
scope->constants = previous->constants;
scope->local_depth_offset = previous->local_depth_offset;
}
scope->index_lookup_table = NULL;
pm_constant_id_list_init(&scope->locals);
switch (PM_NODE_TYPE(node)) {
case PM_BLOCK_NODE: {
pm_block_node_t *cast = (pm_block_node_t *) node;
if (cast->parameters) scope->parameters = cast->parameters->parameters;
scope->body = cast->body;
scope->locals = cast->locals;
break;
}
case PM_CLASS_NODE: {
pm_class_node_t *cast = (pm_class_node_t *) node;
scope->body = cast->body;
scope->locals = cast->locals;
break;
}
case PM_DEF_NODE: {
pm_def_node_t *cast = (pm_def_node_t *) node;
scope->parameters = cast->parameters;
scope->body = cast->body;
scope->locals = cast->locals;
break;
}
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case PM_ENSURE_NODE: {
pm_ensure_node_t *cast = (pm_ensure_node_t *)node;
scope->body = (pm_node_t *)cast->statements;
scope->local_depth_offset += 1;
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break;
}
case PM_FOR_NODE: {
pm_for_node_t *cast = (pm_for_node_t *)node;
scope->body = (pm_node_t *)cast->statements;
break;
}
case PM_INTERPOLATED_REGULAR_EXPRESSION_NODE: {
RUBY_ASSERT(node->flags & PM_REGULAR_EXPRESSION_FLAGS_ONCE);
scope->body = (pm_node_t *)node;
break;
}
case PM_LAMBDA_NODE: {
pm_lambda_node_t *cast = (pm_lambda_node_t *) node;
if (cast->parameters) scope->parameters = cast->parameters->parameters;
scope->body = cast->body;
scope->locals = cast->locals;
break;
}
case PM_MODULE_NODE: {
pm_module_node_t *cast = (pm_module_node_t *) node;
scope->body = cast->body;
scope->locals = cast->locals;
break;
}
case PM_POST_EXECUTION_NODE: {
pm_post_execution_node_t *cast = (pm_post_execution_node_t *) node;
scope->body = (pm_node_t *) cast->statements;
scope->local_depth_offset += 2;
break;
}
case PM_PROGRAM_NODE: {
pm_program_node_t *cast = (pm_program_node_t *) node;
scope->body = (pm_node_t *) cast->statements;
scope->locals = cast->locals;
break;
}
case PM_SINGLETON_CLASS_NODE: {
pm_singleton_class_node_t *cast = (pm_singleton_class_node_t *) node;
scope->body = cast->body;
scope->locals = cast->locals;
break;
}
case PM_STATEMENTS_NODE: {
pm_statements_node_t *cast = (pm_statements_node_t *) node;
scope->body = (pm_node_t *)cast;
break;
}
default:
assert(false && "unreachable");
break;
}
}
void
pm_compile_defined_expr0(rb_iseq_t *iseq, const pm_node_t *node, LINK_ANCHOR *const ret, const uint8_t *src, bool popped, pm_scope_node_t *scope_node, NODE dummy_line_node, int lineno, bool in_condition, LABEL **lfinish)
{
// in_condition is the same as compile.c's needstr
enum defined_type dtype = DEFINED_NOT_DEFINED;
switch (PM_NODE_TYPE(node)) {
case PM_NIL_NODE: {
dtype = DEFINED_NIL;
break;
}
case PM_SELF_NODE:
dtype = DEFINED_SELF;
break;
case PM_TRUE_NODE:
dtype = DEFINED_TRUE;
break;
case PM_FALSE_NODE:
dtype = DEFINED_FALSE;
break;
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case PM_ARRAY_NODE: {
pm_array_node_t *array_node = (pm_array_node_t *) node;
for (size_t index = 0; index < array_node->elements.size; index++) {
pm_compile_defined_expr0(iseq, array_node->elements.nodes[index], ret, src, popped, scope_node, dummy_line_node, lineno, true, lfinish);
if (!lfinish[1]) {
lfinish[1] = NEW_LABEL(lineno);
}
ADD_INSNL(ret, &dummy_line_node, branchunless, lfinish[1]);
}
}
case PM_STRING_NODE:
case PM_AND_NODE:
case PM_OR_NODE:
dtype = DEFINED_EXPR;
break;
case PM_LOCAL_VARIABLE_READ_NODE:
dtype = DEFINED_LVAR;
break;
#define PUSH_VAL(type) (in_condition ? Qtrue : rb_iseq_defined_string(type))
case PM_INSTANCE_VARIABLE_READ_NODE: {
pm_instance_variable_read_node_t *instance_variable_read_node = (pm_instance_variable_read_node_t *)node;
ID id = pm_constant_id_lookup(scope_node, instance_variable_read_node->name);
ADD_INSN3(ret, &dummy_line_node, definedivar,
ID2SYM(id), get_ivar_ic_value(iseq, id), PUSH_VAL(DEFINED_IVAR));
return;
}
case PM_GLOBAL_VARIABLE_READ_NODE: {
pm_global_variable_read_node_t *glabal_variable_read_node = (pm_global_variable_read_node_t *)node;
PM_PUTNIL;
ADD_INSN3(ret, &dummy_line_node, defined, INT2FIX(DEFINED_GVAR),
ID2SYM(pm_constant_id_lookup(scope_node, glabal_variable_read_node->name)), PUSH_VAL(DEFINED_GVAR));
return;
}
case PM_CLASS_VARIABLE_READ_NODE: {
pm_class_variable_read_node_t *class_variable_read_node = (pm_class_variable_read_node_t *)node;
PM_PUTNIL;
ADD_INSN3(ret, &dummy_line_node, defined, INT2FIX(DEFINED_CVAR),
ID2SYM(pm_constant_id_lookup(scope_node, class_variable_read_node->name)), PUSH_VAL(DEFINED_CVAR));
return;
}
case PM_CONSTANT_READ_NODE: {
pm_constant_read_node_t *constant_node = (pm_constant_read_node_t *)node;
PM_PUTNIL;
ADD_INSN3(ret, &dummy_line_node, defined, INT2FIX(DEFINED_CONST),
ID2SYM(pm_constant_id_lookup(scope_node, constant_node->name)), PUSH_VAL(DEFINED_CONST));
return;
}
case PM_CONSTANT_PATH_NODE: {
pm_constant_path_node_t *constant_path_node = ((pm_constant_path_node_t *)node);
if (constant_path_node->parent) {
if (!lfinish[1]) {
lfinish[1] = NEW_LABEL(lineno);
}
pm_compile_defined_expr0(iseq, constant_path_node->parent, ret, src, popped, scope_node, dummy_line_node, lineno, true, lfinish);
ADD_INSNL(ret, &dummy_line_node, branchunless, lfinish[1]);
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PM_COMPILE(constant_path_node->parent);
} else {
ADD_INSN1(ret, &dummy_line_node, putobject, rb_cObject);
}
ADD_INSN3(ret, &dummy_line_node, defined, INT2FIX(DEFINED_CONST_FROM),
ID2SYM(pm_constant_id_lookup(scope_node, ((pm_constant_read_node_t *)constant_path_node->child)->name)), PUSH_VAL(DEFINED_CONST));
return;
}
case PM_YIELD_NODE:
PM_PUTNIL;
ADD_INSN3(ret, &dummy_line_node, defined, INT2FIX(DEFINED_YIELD), 0,
PUSH_VAL(DEFINED_YIELD));
return;
case PM_SUPER_NODE:
case PM_FORWARDING_SUPER_NODE:
PM_PUTNIL;
ADD_INSN3(ret, &dummy_line_node, defined, INT2FIX(DEFINED_ZSUPER), 0,
PUSH_VAL(DEFINED_ZSUPER));
return;
case PM_CONSTANT_WRITE_NODE:
case PM_CONSTANT_OPERATOR_WRITE_NODE:
case PM_CONSTANT_AND_WRITE_NODE:
case PM_CONSTANT_OR_WRITE_NODE:
case PM_GLOBAL_VARIABLE_WRITE_NODE:
case PM_GLOBAL_VARIABLE_OPERATOR_WRITE_NODE:
case PM_GLOBAL_VARIABLE_AND_WRITE_NODE:
case PM_GLOBAL_VARIABLE_OR_WRITE_NODE:
case PM_CLASS_VARIABLE_WRITE_NODE:
case PM_CLASS_VARIABLE_OPERATOR_WRITE_NODE:
case PM_CLASS_VARIABLE_AND_WRITE_NODE:
case PM_CLASS_VARIABLE_OR_WRITE_NODE:
case PM_INSTANCE_VARIABLE_WRITE_NODE:
case PM_INSTANCE_VARIABLE_OPERATOR_WRITE_NODE:
case PM_INSTANCE_VARIABLE_AND_WRITE_NODE:
case PM_INSTANCE_VARIABLE_OR_WRITE_NODE:
case PM_LOCAL_VARIABLE_WRITE_NODE:
case PM_LOCAL_VARIABLE_OPERATOR_WRITE_NODE:
case PM_LOCAL_VARIABLE_AND_WRITE_NODE:
case PM_LOCAL_VARIABLE_OR_WRITE_NODE:
case PM_MULTI_WRITE_NODE:
dtype = DEFINED_ASGN;
break;
default:
rb_bug("Unsupported node %s", pm_node_type_to_str(PM_NODE_TYPE(node)));
}
assert(dtype != DEFINED_NOT_DEFINED);
ADD_INSN1(ret, &dummy_line_node, putobject, PUSH_VAL(dtype));
#undef PUSH_VAL
}
void
pm_compile_defined_expr(rb_iseq_t *iseq, const pm_node_t *node, LINK_ANCHOR *const ret, const uint8_t *src, bool popped, pm_scope_node_t *scope_node, NODE dummy_line_node, int lineno, bool in_condition)
{
LABEL *lfinish[2];
LINK_ELEMENT *last = ret->last;
lfinish[0] = NEW_LABEL(lineno);
lfinish[1] = 0;
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if (!popped) {
pm_compile_defined_expr0(iseq, node, ret, src, popped, scope_node, dummy_line_node, lineno, in_condition, lfinish);
}
if (lfinish[1]) {
struct rb_iseq_new_with_callback_callback_func *ifunc =
rb_iseq_new_with_callback_new_callback(build_defined_rescue_iseq, NULL);
LABEL *lstart = NEW_LABEL(lineno);
LABEL *lend = NEW_LABEL(lineno);
const rb_iseq_t *rescue = new_child_iseq_with_callback(iseq, ifunc,
rb_str_concat(rb_str_new2("defined guard in "),
ISEQ_BODY(iseq)->location.label),
iseq, ISEQ_TYPE_RESCUE, 0);
lstart->rescued = LABEL_RESCUE_BEG;
lend->rescued = LABEL_RESCUE_END;
ELEM_INSERT_NEXT(last, &new_insn_body(iseq, &dummy_line_node, BIN(putnil), 0)->link);
ADD_INSN(ret, &dummy_line_node, swap);
ADD_INSN(ret, &dummy_line_node, pop);
ADD_LABEL(ret, lfinish[1]);
APPEND_LABEL(ret, last, lstart);
ADD_LABEL(ret, lend);
ADD_CATCH_ENTRY(CATCH_TYPE_RESCUE, lstart, lend, rescue, lfinish[1]);
}
ADD_LABEL(ret, lfinish[0]);
}
/*
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* Compiles a prism node into instruction sequences
*
* iseq - The current instruction sequence object (used for locals)
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* node - The prism node to compile
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* ret - The linked list of instructions to append instructions onto
* popped - True if compiling something with no side effects, so instructions don't
* need to be added
* scope_node - Stores parser and local information
*/
static void
pm_compile_node(rb_iseq_t *iseq, const pm_node_t *node, LINK_ANCHOR *const ret, const uint8_t *src, bool popped, pm_scope_node_t *scope_node)
{
pm_parser_t *parser = scope_node->parser;
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pm_newline_list_t newline_list = parser->newline_list;
int lineno = (int)pm_newline_list_line_column(&newline_list, node->location.start).line;
NODE dummy_line_node = generate_dummy_line_node(lineno, lineno);
if (node->flags & PM_NODE_FLAG_NEWLINE &&
ISEQ_COMPILE_DATA(iseq)->last_line != lineno) {
int event = RUBY_EVENT_LINE;
ISEQ_COMPILE_DATA(iseq)->last_line = lineno;
if (ISEQ_COVERAGE(iseq) && ISEQ_LINE_COVERAGE(iseq)) {
event |= RUBY_EVENT_COVERAGE_LINE;
}
ADD_TRACE(ret, event);
}
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switch (PM_NODE_TYPE(node)) {
case PM_ALIAS_GLOBAL_VARIABLE_NODE: {
pm_alias_global_variable_node_t *alias_node = (pm_alias_global_variable_node_t *) node;
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
ADD_INSN1(ret, &dummy_line_node, putobject, ID2SYM(parse_location_symbol(&alias_node->new_name->location, parser)));
ADD_INSN1(ret, &dummy_line_node, putobject, ID2SYM(parse_location_symbol(&alias_node->old_name->location, parser)));
ADD_SEND(ret, &dummy_line_node, id_core_set_variable_alias, INT2FIX(2));
PM_POP_IF_POPPED;
return;
}
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case PM_ALIAS_METHOD_NODE: {
pm_alias_method_node_t *alias_node = (pm_alias_method_node_t *) node;
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_CBASE));
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PM_COMPILE_NOT_POPPED(alias_node->new_name);
PM_COMPILE_NOT_POPPED(alias_node->old_name);
ADD_SEND(ret, &dummy_line_node, id_core_set_method_alias, INT2FIX(3));
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PM_POP_IF_POPPED;
return;
}
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case PM_AND_NODE: {
pm_and_node_t *and_node = (pm_and_node_t *) node;
LABEL *end_label = NEW_LABEL(lineno);
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PM_COMPILE_NOT_POPPED(and_node->left);
PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchunless, end_label);
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PM_POP_UNLESS_POPPED;
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PM_COMPILE(and_node->right);
ADD_LABEL(ret, end_label);
return;
}
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case PM_ARGUMENTS_NODE: {
pm_arguments_node_t *arguments_node = (pm_arguments_node_t *) node;
pm_node_list_t node_list = arguments_node->arguments;
for (size_t index = 0; index < node_list.size; index++) {
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PM_COMPILE(node_list.nodes[index]);
}
return;
}
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case PM_ARRAY_NODE: {
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// If every node in the array is static, then we can compile the entire
// array now instead of later.
if (pm_static_literal_p(node)) {
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// We're only going to compile this node if it's not popped. If it
// is popped, then we know we don't need to do anything since it's
// statically known.
if (!popped) {
pm_array_node_t *cast = (pm_array_node_t *) node;
if (cast->elements.size) {
VALUE value = pm_static_literal_value(node, scope_node, parser);
ADD_INSN1(ret, &dummy_line_node, duparray, value);
RB_OBJ_WRITTEN(iseq, Qundef, value);
}
else {
ADD_INSN1(ret, &dummy_line_node, newarray, INT2FIX(0));
}
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}
} else {
// Here since we know there are possible side-effects inside the
// array contents, we're going to build it entirely at runtime.
// We'll do this by pushing all of the elements onto the stack and
// then combining them with newarray.
//
// If this hash is popped, then this serves only to ensure we enact
// all side-effects (like method calls) that are contained within
// the hash contents.
pm_array_node_t *cast = (pm_array_node_t *) node;
pm_node_list_t *elements = &cast->elements;
// In the case that there is a splat node within the array,
// the array gets compiled slightly differently.
if (node->flags & PM_ARRAY_NODE_FLAGS_CONTAINS_SPLAT) {
if (elements->size == 1) {
// If the only nodes is a SplatNode, we never
// need to emit the newarray or concatarray
// instructions
PM_COMPILE_NOT_POPPED(elements->nodes[0]);
}
else {
// We treat all sequences of non-splat elements as their
// own arrays, followed by a newarray, and then continually
// concat the arrays with the SplatNodes
int new_array_size = 0;
bool need_to_concat_array = false;
for (size_t index = 0; index < elements->size; index++) {
pm_node_t *array_element = elements->nodes[index];
if (PM_NODE_TYPE_P(array_element, PM_SPLAT_NODE)) {
pm_splat_node_t *splat_element = (pm_splat_node_t *)array_element;
// If we already have non-splat elements, we need to emit a newarray
// instruction
if (new_array_size) {
ADD_INSN1(ret, &dummy_line_node, newarray, INT2FIX(new_array_size));
// We don't want to emit a concat array in the case where
// we're seeing our first splat, and already have elements
if (need_to_concat_array) {
ADD_INSN(ret, &dummy_line_node, concatarray);
}
new_array_size = 0;
}
PM_COMPILE_NOT_POPPED(splat_element->expression);
if (index > 0) {
ADD_INSN(ret, &dummy_line_node, concatarray);
}
else {
// If this is the first element, we need to splatarray
ADD_INSN1(ret, &dummy_line_node, splatarray, Qtrue);
}
need_to_concat_array = true;
}
else {
new_array_size++;
PM_COMPILE_NOT_POPPED(array_element);
}
}
if (new_array_size) {
ADD_INSN1(ret, &dummy_line_node, newarray, INT2FIX(new_array_size));
if (need_to_concat_array) {
ADD_INSN(ret, &dummy_line_node, concatarray);
}
}
}
PM_POP_IF_POPPED;
}
else {
for (size_t index = 0; index < elements->size; index++) {
PM_COMPILE(elements->nodes[index]);
}
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if (!popped) {
ADD_INSN1(ret, &dummy_line_node, newarray, INT2FIX(elements->size));
}
}
}
return;
}
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case PM_ASSOC_NODE: {
pm_assoc_node_t *assoc_node = (pm_assoc_node_t *) node;
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PM_COMPILE(assoc_node->key);
if (assoc_node->value) {
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PM_COMPILE(assoc_node->value);
}
return;
}
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case PM_ASSOC_SPLAT_NODE: {
pm_assoc_splat_node_t *assoc_splat_node = (pm_assoc_splat_node_t *)node;
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PM_COMPILE(assoc_splat_node->value);
return;
}
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case PM_BACK_REFERENCE_READ_NODE: {
if (!popped) {
// Since a back reference is `$<char>`, ruby represents the ID as the
// an rb_intern on the value after the `$`.
char *char_ptr = (char *)(node->location.start) + 1;
ID backref_val = INT2FIX(rb_intern2(char_ptr, 1)) << 1 | 1;
ADD_INSN2(ret, &dummy_line_node, getspecial, INT2FIX(1), backref_val);
}
return;
}
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case PM_BEGIN_NODE: {
pm_begin_node_t *begin_node = (pm_begin_node_t *) node;
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rb_iseq_t *child_iseq;
LABEL *lstart = NEW_LABEL(lineno);
LABEL *lend = NEW_LABEL(lineno);
ADD_LABEL(ret, lstart);
if (begin_node->statements) {
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PM_COMPILE((pm_node_t *)begin_node->statements);
}
else {
PM_PUTNIL_UNLESS_POPPED;
}
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ADD_LABEL(ret, lend);
if (begin_node->ensure_clause) {
pm_statements_node_t *statements = begin_node->ensure_clause->statements;
if (statements) {
PM_COMPILE((pm_node_t *)statements);
PM_POP_UNLESS_POPPED;
}
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LABEL *lcont = NEW_LABEL(lineno);
struct ensure_range er;
struct iseq_compile_data_ensure_node_stack enl;
struct ensure_range *erange;
er.begin = lstart;
er.end = lend;
er.next = 0;
push_ensure_entry(iseq, &enl, &er, (void *)&begin_node->ensure_clause);
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pm_scope_node_t next_scope_node;
pm_scope_node_init((pm_node_t *)begin_node->ensure_clause, &next_scope_node, scope_node, parser);
child_iseq = NEW_CHILD_ISEQ(next_scope_node,
rb_str_new2("ensure in"),
ISEQ_TYPE_ENSURE, lineno);
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ISEQ_COMPILE_DATA(iseq)->current_block = child_iseq;
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ADD_LABEL(ret, lcont);
erange = ISEQ_COMPILE_DATA(iseq)->ensure_node_stack->erange;
if (lstart->link.next != &lend->link) {
while (erange) {
ADD_CATCH_ENTRY(CATCH_TYPE_ENSURE, erange->begin, erange->end, child_iseq, lcont);
erange = erange->next;
}
}
}
return;
}
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case PM_BLOCK_ARGUMENT_NODE: {
pm_block_argument_node_t *block_argument_node = (pm_block_argument_node_t *) node;
if (block_argument_node->expression) {
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PM_COMPILE(block_argument_node->expression);
}
return;
}
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case PM_BREAK_NODE: {
pm_break_node_t *break_node = (pm_break_node_t *) node;
if (break_node->arguments) {
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PM_COMPILE_NOT_POPPED((pm_node_t *)break_node->arguments);
}
else {
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PM_PUTNIL;
}
ADD_INSNL(ret, &dummy_line_node, jump, ISEQ_COMPILE_DATA(iseq)->end_label);
return;
}
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case PM_CALL_NODE: {
pm_call_node_t *call_node = (pm_call_node_t *) node;
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ID method_id = pm_constant_id_lookup(scope_node, call_node->name);
int flags = 0;
struct rb_callinfo_kwarg *kw_arg = NULL;
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if (call_node->receiver == NULL) {
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PM_PUTSELF;
} else {
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PM_COMPILE_NOT_POPPED(call_node->receiver);
}
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int orig_argc = pm_setup_args(call_node->arguments, &flags, &kw_arg, iseq, ret, src, popped, scope_node, dummy_line_node, parser);
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const rb_iseq_t *block_iseq = NULL;
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if (call_node->block != NULL && PM_NODE_TYPE_P(call_node->block, PM_BLOCK_NODE)) {
// Scope associated with the block
pm_scope_node_t next_scope_node;
pm_scope_node_init(call_node->block, &next_scope_node, scope_node, parser);
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block_iseq = NEW_CHILD_ISEQ(next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, lineno);
ISEQ_COMPILE_DATA(iseq)->current_block = block_iseq;
}
else {
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if (node->flags & PM_CALL_NODE_FLAGS_VARIABLE_CALL) {
flags |= VM_CALL_VCALL;
}
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if (call_node->block != NULL) {
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PM_COMPILE_NOT_POPPED(call_node->block);
flags |= VM_CALL_ARGS_BLOCKARG;
}
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if (!flags) {
flags |= VM_CALL_ARGS_SIMPLE;
}
}
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if (call_node->receiver == NULL) {
flags |= VM_CALL_FCALL;
}
ADD_SEND_R(ret, &dummy_line_node, method_id, INT2FIX(orig_argc), block_iseq, INT2FIX(flags), kw_arg);
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PM_POP_IF_POPPED;
return;
}
case PM_CALL_AND_WRITE_NODE: {
pm_call_and_write_node_t *call_and_write_node = (pm_call_and_write_node_t*) node;
pm_compile_call_and_or_write_node(true, call_and_write_node->receiver, call_and_write_node->value, call_and_write_node->write_name, call_and_write_node->read_name, ret, iseq, lineno, src, popped, scope_node);
return;
}
case PM_CALL_OR_WRITE_NODE: {
pm_call_or_write_node_t *call_or_write_node = (pm_call_or_write_node_t*) node;
pm_compile_call_and_or_write_node(false, call_or_write_node->receiver, call_or_write_node->value, call_or_write_node->write_name, call_or_write_node->read_name, ret, iseq, lineno, src, popped, scope_node);
return;
}
case PM_CALL_OPERATOR_WRITE_NODE: {
pm_call_operator_write_node_t *call_operator_write_node = (pm_call_operator_write_node_t*) node;
NODE dummy_line_node = generate_dummy_line_node(lineno, lineno);
int flag = 0;
if (PM_NODE_TYPE_P(call_operator_write_node->receiver, PM_SELF_NODE)) {
flag = VM_CALL_FCALL;
}
PM_COMPILE_NOT_POPPED(call_operator_write_node->receiver);
ID write_name_id = pm_constant_id_lookup(scope_node, call_operator_write_node->write_name);
ID read_name_id = pm_constant_id_lookup(scope_node, call_operator_write_node->read_name);
ID operator_id = pm_constant_id_lookup(scope_node, call_operator_write_node->operator);
PM_DUP;
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, read_name_id, INT2FIX(0), INT2FIX(flag));
PM_COMPILE_NOT_POPPED(call_operator_write_node->value);
ADD_SEND(ret, &dummy_line_node, operator_id, INT2FIX(1));
if (!popped) {
PM_SWAP;
ADD_INSN1(ret, &dummy_line_node, topn, INT2FIX(1));
}
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, write_name_id, INT2FIX(1), INT2FIX(flag));
PM_POP;
return;
}
case PM_CASE_NODE: {
pm_case_node_t *case_node = (pm_case_node_t *)node;
bool has_predicate = case_node->predicate;
if (has_predicate) {
PM_COMPILE_NOT_POPPED(case_node->predicate);
}
LABEL *end_label = NEW_LABEL(lineno);
pm_node_list_t conditions = case_node->conditions;
LABEL **conditions_labels = (LABEL **)ALLOC_N(VALUE, conditions.size + 1);
LABEL *label;
for (size_t i = 0; i < conditions.size; i++) {
label = NEW_LABEL(lineno);
conditions_labels[i] = label;
if (has_predicate) {
pm_when_node_t *when_node = (pm_when_node_t *)conditions.nodes[i];
for (size_t i = 0; i < when_node->conditions.size; i++) {
PM_COMPILE_NOT_POPPED(when_node->conditions.nodes[i]);
ADD_INSN1(ret, &dummy_line_node, topn, INT2FIX(1));
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, idEqq, INT2NUM(1), INT2FIX(VM_CALL_FCALL | VM_CALL_ARGS_SIMPLE));
ADD_INSNL(ret, &dummy_line_node, branchif, label);
}
}
else {
ADD_INSNL(ret, &dummy_line_node, jump, label);
PM_PUTNIL;
}
}
if (has_predicate) {
PM_POP;
if (case_node->consequent) {
if (!popped || !PM_NODE_TYPE_P(((pm_node_t *)case_node->consequent), PM_ELSE_NODE)) {
PM_COMPILE_NOT_POPPED((pm_node_t *)case_node->consequent);
}
}
else {
PM_PUTNIL_UNLESS_POPPED;
}
}
ADD_INSNL(ret, &dummy_line_node, jump, end_label);
for (size_t i = 0; i < conditions.size; i++) {
label = conditions_labels[i];
ADD_LABEL(ret, label);
if (has_predicate) {
PM_POP;
}
pm_while_node_t *condition_node = (pm_while_node_t *)conditions.nodes[i];
if (condition_node->statements) {
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PM_COMPILE((pm_node_t *)condition_node->statements);
}
else {
PM_PUTNIL_UNLESS_POPPED;
}
ADD_INSNL(ret, &dummy_line_node, jump, end_label);
}
ADD_LABEL(ret, end_label);
return;
}
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case PM_CLASS_NODE: {
pm_class_node_t *class_node = (pm_class_node_t *)node;
pm_scope_node_t next_scope_node;
pm_scope_node_init((pm_node_t *)class_node, &next_scope_node, scope_node, parser);
ID class_id = pm_constant_id_lookup(scope_node, class_node->name);
VALUE class_name = rb_str_freeze(rb_sprintf("<class:%"PRIsVALUE">", rb_id2str(class_id)));
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const rb_iseq_t *class_iseq = NEW_CHILD_ISEQ(next_scope_node, class_name, ISEQ_TYPE_CLASS, lineno);
// TODO: Once we merge constant path nodes correctly, fix this flag
const int flags = VM_DEFINECLASS_TYPE_CLASS |
(class_node->superclass ? VM_DEFINECLASS_FLAG_HAS_SUPERCLASS : 0) |
pm_compile_class_path(ret, iseq, class_node->constant_path, &dummy_line_node, src, false, scope_node);
if (class_node->superclass) {
PM_COMPILE_NOT_POPPED(class_node->superclass);
}
else {
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PM_PUTNIL;
}
ADD_INSN3(ret, &dummy_line_node, defineclass, ID2SYM(class_id), class_iseq, INT2FIX(flags));
RB_OBJ_WRITTEN(iseq, Qundef, (VALUE)class_iseq);
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PM_POP_IF_POPPED;
return;
}
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case PM_CLASS_VARIABLE_AND_WRITE_NODE: {
pm_class_variable_and_write_node_t *class_variable_and_write_node = (pm_class_variable_and_write_node_t*) node;
LABEL *end_label = NEW_LABEL(lineno);
ID class_variable_name_id = pm_constant_id_lookup(scope_node, class_variable_and_write_node->name);
VALUE class_variable_name_val = ID2SYM(class_variable_name_id);
ADD_INSN2(ret, &dummy_line_node, getclassvariable,
class_variable_name_val,
get_cvar_ic_value(iseq, class_variable_name_id));
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PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchunless, end_label);
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PM_POP_UNLESS_POPPED;
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PM_COMPILE_NOT_POPPED(class_variable_and_write_node->value);
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PM_DUP_UNLESS_POPPED;
ADD_INSN2(ret, &dummy_line_node, setclassvariable,
class_variable_name_val,
get_cvar_ic_value(iseq, class_variable_name_id));
ADD_LABEL(ret, end_label);
return;
}
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case PM_CLASS_VARIABLE_OPERATOR_WRITE_NODE: {
pm_class_variable_operator_write_node_t *class_variable_operator_write_node = (pm_class_variable_operator_write_node_t*) node;
ID class_variable_name_id = pm_constant_id_lookup(scope_node, class_variable_operator_write_node->name);
VALUE class_variable_name_val = ID2SYM(class_variable_name_id);
ADD_INSN2(ret, &dummy_line_node, getclassvariable,
class_variable_name_val,
get_cvar_ic_value(iseq, class_variable_name_id));
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PM_COMPILE_NOT_POPPED(class_variable_operator_write_node->value);
ID method_id = pm_constant_id_lookup(scope_node, class_variable_operator_write_node->operator);
int flags = VM_CALL_ARGS_SIMPLE;
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, method_id, INT2NUM(1), INT2FIX(flags));
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PM_DUP_UNLESS_POPPED;
ADD_INSN2(ret, &dummy_line_node, setclassvariable,
class_variable_name_val,
get_cvar_ic_value(iseq, class_variable_name_id));
return;
}
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case PM_CLASS_VARIABLE_OR_WRITE_NODE: {
pm_class_variable_or_write_node_t *class_variable_or_write_node = (pm_class_variable_or_write_node_t*) node;
LABEL *end_label = NEW_LABEL(lineno);
ID class_variable_name_id = pm_constant_id_lookup(scope_node, class_variable_or_write_node->name);
VALUE class_variable_name_val = ID2SYM(class_variable_name_id);
ADD_INSN2(ret, &dummy_line_node, getclassvariable,
class_variable_name_val,
get_cvar_ic_value(iseq, class_variable_name_id));
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PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchif, end_label);
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PM_POP_UNLESS_POPPED;
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PM_COMPILE_NOT_POPPED(class_variable_or_write_node->value);
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PM_DUP_UNLESS_POPPED;
ADD_INSN2(ret, &dummy_line_node, setclassvariable,
class_variable_name_val,
get_cvar_ic_value(iseq, class_variable_name_id));
ADD_LABEL(ret, end_label);
return;
}
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case PM_CLASS_VARIABLE_READ_NODE: {
if (!popped) {
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pm_class_variable_read_node_t *class_variable_read_node = (pm_class_variable_read_node_t *) node;
ID cvar_name = pm_constant_id_lookup(scope_node, class_variable_read_node->name);
ADD_INSN2(ret, &dummy_line_node, getclassvariable, ID2SYM(cvar_name), get_cvar_ic_value(iseq, cvar_name));
}
return;
}
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case PM_CLASS_VARIABLE_TARGET_NODE: {
pm_class_variable_target_node_t *write_node = (pm_class_variable_target_node_t *) node;
ID cvar_name = pm_constant_id_lookup(scope_node, write_node->name);
ADD_INSN2(ret, &dummy_line_node, setclassvariable, ID2SYM(cvar_name), get_cvar_ic_value(iseq, cvar_name));
return;
}
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case PM_CLASS_VARIABLE_WRITE_NODE: {
pm_class_variable_write_node_t *write_node = (pm_class_variable_write_node_t *) node;
PM_COMPILE_NOT_POPPED(write_node->value);
PM_DUP_UNLESS_POPPED;
ID cvar_name = pm_constant_id_lookup(scope_node, write_node->name);
ADD_INSN2(ret, &dummy_line_node, setclassvariable, ID2SYM(cvar_name), get_cvar_ic_value(iseq, cvar_name));
return;
}
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case PM_CONSTANT_PATH_NODE: {
pm_constant_path_node_t *constant_path_node = (pm_constant_path_node_t*) node;
if (constant_path_node->parent) {
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PM_COMPILE_NOT_POPPED(constant_path_node->parent);
} else {
ADD_INSN1(ret, &dummy_line_node, putobject, rb_cObject);
}
ADD_INSN1(ret, &dummy_line_node, putobject, Qfalse);
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assert(PM_NODE_TYPE_P(constant_path_node->child, PM_CONSTANT_READ_NODE));
pm_constant_read_node_t *child = (pm_constant_read_node_t *) constant_path_node->child;
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ADD_INSN1(ret, &dummy_line_node, getconstant, ID2SYM(pm_constant_id_lookup(scope_node, child->name)));
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PM_POP_IF_POPPED;
return;
}
case PM_CONSTANT_PATH_AND_WRITE_NODE: {
pm_constant_path_and_write_node_t *constant_path_and_write_node = (pm_constant_path_and_write_node_t*) node;
LABEL *lfin = NEW_LABEL(lineno);
pm_constant_path_node_t *target = constant_path_and_write_node->target;
PM_COMPILE_NOT_POPPED(target->parent);
pm_constant_read_node_t *child = (pm_constant_read_node_t *)target->child;
VALUE child_name = ID2SYM(pm_constant_id_lookup(scope_node, child->name));
PM_DUP;
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
ADD_INSN1(ret, &dummy_line_node, getconstant, child_name);
PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchunless, lfin);
PM_POP_UNLESS_POPPED;
PM_COMPILE_NOT_POPPED(constant_path_and_write_node->value);
if (popped) {
ADD_INSN1(ret, &dummy_line_node, topn, INT2FIX(1));
}
else {
ADD_INSN1(ret, &dummy_line_node, dupn, INT2FIX(2));
PM_SWAP;
}
ADD_INSN1(ret, &dummy_line_node, setconstant, child_name);
ADD_LABEL(ret, lfin);
PM_SWAP_UNLESS_POPPED;
PM_POP;
return;
}
case PM_CONSTANT_PATH_OR_WRITE_NODE: {
pm_constant_path_or_write_node_t *constant_path_or_write_node = (pm_constant_path_or_write_node_t*) node;
LABEL *lassign = NEW_LABEL(lineno);
LABEL *lfin = NEW_LABEL(lineno);
pm_constant_path_node_t *target = constant_path_or_write_node->target;
PM_COMPILE_NOT_POPPED(target->parent);
pm_constant_read_node_t *child = (pm_constant_read_node_t *)target->child;
VALUE child_name = ID2SYM(pm_constant_id_lookup(scope_node, child->name));
PM_DUP;
ADD_INSN3(ret, &dummy_line_node, defined, INT2FIX(DEFINED_CONST_FROM), child_name, Qtrue);
ADD_INSNL(ret, &dummy_line_node, branchunless, lassign);
PM_DUP;
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
ADD_INSN1(ret, &dummy_line_node, getconstant, child_name);
PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchif, lfin);
PM_POP_UNLESS_POPPED;
ADD_LABEL(ret, lassign);
PM_COMPILE_NOT_POPPED(constant_path_or_write_node->value);
if (popped) {
ADD_INSN1(ret, &dummy_line_node, topn, INT2FIX(1));
}
else {
ADD_INSN1(ret, &dummy_line_node, dupn, INT2FIX(2));
PM_SWAP;
}
ADD_INSN1(ret, &dummy_line_node, setconstant, child_name);
ADD_LABEL(ret, lfin);
PM_SWAP_UNLESS_POPPED;
PM_POP;
return;
}
case PM_CONSTANT_PATH_OPERATOR_WRITE_NODE: {
pm_constant_path_operator_write_node_t *constant_path_operator_write_node = (pm_constant_path_operator_write_node_t*) node;
pm_constant_path_node_t *target = constant_path_operator_write_node->target;
PM_COMPILE_NOT_POPPED(target->parent);
PM_DUP;
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
pm_constant_read_node_t *child = (pm_constant_read_node_t *)target->child;
VALUE child_name = ID2SYM(pm_constant_id_lookup(scope_node, child->name));
ADD_INSN1(ret, &dummy_line_node, getconstant, child_name);
PM_COMPILE_NOT_POPPED(constant_path_operator_write_node->value);
ID method_id = pm_constant_id_lookup(scope_node, constant_path_operator_write_node->operator);
ADD_CALL(ret, &dummy_line_node, method_id, INT2FIX(1));
PM_SWAP;
if (!popped) {
ADD_INSN1(ret, &dummy_line_node, topn, INT2FIX(1));
PM_SWAP;
}
ADD_INSN1(ret, &dummy_line_node, setconstant, child_name);
return ;
}
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case PM_CONSTANT_PATH_TARGET_NODE: {
pm_constant_path_target_node_t *cast = (pm_constant_path_target_node_t *)node;
if (cast->parent) {
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PM_COMPILE(cast->parent);
}
return;
}
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case PM_CONSTANT_PATH_WRITE_NODE: {
pm_constant_path_write_node_t *constant_path_write_node = (pm_constant_path_write_node_t*) node;
if (constant_path_write_node->target->parent) {
PM_COMPILE_NOT_POPPED((pm_node_t *)constant_path_write_node->target->parent);
}
else {
ADD_INSN1(ret, &dummy_line_node, putobject, rb_cObject);
}
PM_COMPILE_NOT_POPPED(constant_path_write_node->value);
if (!popped) {
PM_SWAP;
ADD_INSN1(ret, &dummy_line_node, topn, INT2FIX(1));
}
PM_SWAP;
VALUE constant_name = ID2SYM(pm_constant_id_lookup(scope_node,
((pm_constant_read_node_t *)constant_path_write_node->target->child)->name));
ADD_INSN1(ret, &dummy_line_node, setconstant, constant_name);
return;
}
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case PM_CONSTANT_READ_NODE: {
pm_constant_read_node_t *constant_read_node = (pm_constant_read_node_t *) node;
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PM_PUTNIL;
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
ADD_INSN1(ret, &dummy_line_node, getconstant, ID2SYM(pm_constant_id_lookup(scope_node, constant_read_node->name)));
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PM_POP_IF_POPPED;
return;
}
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case PM_CONSTANT_AND_WRITE_NODE: {
pm_constant_and_write_node_t *constant_and_write_node = (pm_constant_and_write_node_t*) node;
LABEL *end_label = NEW_LABEL(lineno);
VALUE constant_name = ID2SYM(pm_constant_id_lookup(scope_node, constant_and_write_node->name));
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PM_PUTNIL;
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
ADD_INSN1(ret, &dummy_line_node, getconstant, constant_name);
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PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchunless, end_label);
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PM_POP_UNLESS_POPPED;
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PM_COMPILE_NOT_POPPED(constant_and_write_node->value);
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PM_DUP_UNLESS_POPPED;
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
ADD_INSN1(ret, &dummy_line_node, setconstant, constant_name);
ADD_LABEL(ret, end_label);
return;
}
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case PM_CONSTANT_OPERATOR_WRITE_NODE: {
pm_constant_operator_write_node_t *constant_operator_write_node = (pm_constant_operator_write_node_t*) node;
ID constant_name = pm_constant_id_lookup(scope_node, constant_operator_write_node->name);
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PM_PUTNIL;
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
ADD_INSN1(ret, &dummy_line_node, getconstant, ID2SYM(constant_name));
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PM_COMPILE_NOT_POPPED(constant_operator_write_node->value);
ID method_id = pm_constant_id_lookup(scope_node, constant_operator_write_node->operator);
int flags = VM_CALL_ARGS_SIMPLE;
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, method_id, INT2NUM(1), INT2FIX(flags));
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PM_DUP_UNLESS_POPPED;
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
ADD_INSN1(ret, &dummy_line_node, setconstant, ID2SYM(constant_name));
return;
}
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case PM_CONSTANT_OR_WRITE_NODE: {
pm_constant_or_write_node_t *constant_or_write_node = (pm_constant_or_write_node_t*) node;
LABEL *set_label= NEW_LABEL(lineno);
LABEL *end_label = NEW_LABEL(lineno);
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PM_PUTNIL;
VALUE constant_name = ID2SYM(pm_constant_id_lookup(scope_node, constant_or_write_node->name));
ADD_INSN3(ret, &dummy_line_node, defined, INT2FIX(DEFINED_CONST), constant_name, Qtrue);
ADD_INSNL(ret, &dummy_line_node, branchunless, set_label);
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PM_PUTNIL;
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
ADD_INSN1(ret, &dummy_line_node, getconstant, constant_name);
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PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchif, end_label);
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PM_POP_UNLESS_POPPED;
ADD_LABEL(ret, set_label);
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PM_COMPILE_NOT_POPPED(constant_or_write_node->value);
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PM_DUP_UNLESS_POPPED;
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
ADD_INSN1(ret, &dummy_line_node, setconstant, constant_name);
ADD_LABEL(ret, end_label);
return;
}
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case PM_CONSTANT_TARGET_NODE: {
pm_constant_target_node_t *constant_write_node = (pm_constant_target_node_t *) node;
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ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
ADD_INSN1(ret, &dummy_line_node, setconstant, ID2SYM(pm_constant_id_lookup(scope_node, constant_write_node->name)));
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return;
}
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case PM_CONSTANT_WRITE_NODE: {
pm_constant_write_node_t *constant_write_node = (pm_constant_write_node_t *) node;
PM_COMPILE_NOT_POPPED(constant_write_node->value);
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PM_DUP_UNLESS_POPPED;
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_CONST_BASE));
ADD_INSN1(ret, &dummy_line_node, setconstant, ID2SYM(pm_constant_id_lookup(scope_node, constant_write_node->name)));
return;
}
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case PM_DEF_NODE: {
pm_def_node_t *def_node = (pm_def_node_t *) node;
ID method_name = pm_constant_id_lookup(scope_node, def_node->name);
pm_scope_node_t next_scope_node;
pm_scope_node_init((pm_node_t *)def_node, &next_scope_node, scope_node, parser);
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rb_iseq_t *method_iseq = NEW_ISEQ(next_scope_node, rb_id2str(method_name), ISEQ_TYPE_METHOD, lineno);
if (def_node->receiver) {
PM_COMPILE_NOT_POPPED(def_node->receiver);
ADD_INSN2(ret, &dummy_line_node, definesmethod, ID2SYM(method_name), method_iseq);
}
else {
ADD_INSN2(ret, &dummy_line_node, definemethod, ID2SYM(method_name), method_iseq);
}
RB_OBJ_WRITTEN(iseq, Qundef, (VALUE)method_iseq);
if (!popped) {
ADD_INSN1(ret, &dummy_line_node, putobject, ID2SYM(method_name));
}
return;
}
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case PM_DEFINED_NODE: {
pm_defined_node_t *defined_node = (pm_defined_node_t *)node;
pm_compile_defined_expr(iseq, defined_node->value, ret, src, popped, scope_node, dummy_line_node, lineno, false);
return;
}
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case PM_EMBEDDED_STATEMENTS_NODE: {
pm_embedded_statements_node_t *embedded_statements_node = (pm_embedded_statements_node_t *)node;
if (embedded_statements_node->statements) {
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PM_COMPILE((pm_node_t *) (embedded_statements_node->statements));
}
else {
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PM_PUTNIL;
}
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PM_POP_IF_POPPED;
// TODO: Concatenate the strings that exist here
return;
}
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case PM_EMBEDDED_VARIABLE_NODE: {
pm_embedded_variable_node_t *embedded_node = (pm_embedded_variable_node_t *)node;
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PM_COMPILE(embedded_node->variable);
return;
}
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case PM_FALSE_NODE:
if (!popped) {
ADD_INSN1(ret, &dummy_line_node, putobject, Qfalse);
}
return;
case PM_ELSE_NODE: {
pm_else_node_t *cast = (pm_else_node_t *)node;
if (cast->statements) {
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PM_COMPILE((pm_node_t *)cast->statements);
}
else {
PM_PUTNIL;
}
return;
}
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case PM_FLIP_FLOP_NODE: {
pm_flip_flop_node_t *flip_flop_node = (pm_flip_flop_node_t *)node;
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LABEL *final_label = NEW_LABEL(lineno);
LABEL *then_label = NEW_LABEL(lineno);
LABEL *else_label = NEW_LABEL(lineno);
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pm_compile_flip_flop(flip_flop_node, else_label, then_label, iseq, lineno, ret, src, popped, scope_node);
ADD_LABEL(ret, then_label);
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
ADD_INSNL(ret, &dummy_line_node, jump, final_label);
ADD_LABEL(ret, else_label);
ADD_INSN1(ret, &dummy_line_node, putobject, Qfalse);
ADD_LABEL(ret, final_label);
return;
}
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case PM_FLOAT_NODE: {
if (!popped) {
ADD_INSN1(ret, &dummy_line_node, putobject, parse_float(node));
}
return;
}
case PM_FOR_NODE: {
pm_for_node_t *for_node = (pm_for_node_t *)node;
const rb_iseq_t *child_iseq;
const rb_iseq_t *prevblock = ISEQ_COMPILE_DATA(iseq)->current_block;
LABEL *retry_label = NEW_LABEL(lineno);
LABEL *retry_end_l = NEW_LABEL(lineno);
pm_scope_node_t next_scope_node;
pm_scope_node_init((pm_node_t *)for_node, &next_scope_node, scope_node, parser);
pm_constant_id_list_t locals;
pm_constant_id_list_init(&locals);
pm_constant_id_list_append(&locals, TEMP_CONSTANT_IDENTIFIER);
next_scope_node.locals = locals;
ADD_LABEL(ret, retry_label);
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PM_COMPILE_NOT_POPPED(for_node->collection);
child_iseq = NEW_CHILD_ISEQ(next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, lineno);
ISEQ_COMPILE_DATA(iseq)->current_block = child_iseq;
ADD_SEND_WITH_BLOCK(ret, &dummy_line_node, idEach, INT2FIX(0), child_iseq);
INSN *iobj;
LINK_ELEMENT *last_elem = LAST_ELEMENT(ret);
iobj = IS_INSN(last_elem) ? (INSN *)last_elem : (INSN *)get_prev_insn((INSN*)last_elem);
while (INSN_OF(iobj) != BIN(send) &&
INSN_OF(iobj) != BIN(invokesuper)) {
iobj = (INSN *)get_prev_insn(iobj);
}
ELEM_INSERT_NEXT(&iobj->link, (LINK_ELEMENT*)retry_end_l);
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PM_POP_IF_POPPED;
ISEQ_COMPILE_DATA(iseq)->current_block = prevblock;
ADD_CATCH_ENTRY(CATCH_TYPE_BREAK, retry_label, retry_end_l, child_iseq, retry_end_l);
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return;
}
case PM_FORWARDING_ARGUMENTS_NODE: {
rb_bug("Should never hit the forwarding arguments case directly\n");
return;
}
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case PM_FORWARDING_SUPER_NODE: {
pm_forwarding_super_node_t *forwarding_super_node = (pm_forwarding_super_node_t *) node;
const rb_iseq_t *block = NULL;
PM_PUTSELF;
int flag = VM_CALL_ZSUPER | VM_CALL_SUPER | VM_CALL_FCALL;
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if (forwarding_super_node->block) {
pm_scope_node_t next_scope_node;
pm_scope_node_init((pm_node_t *)forwarding_super_node->block, &next_scope_node, scope_node, parser);
block = NEW_CHILD_ISEQ(next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, lineno);
RB_OBJ_WRITTEN(iseq, Qundef, (VALUE)block);
}
ADD_INSN2(ret, &dummy_line_node, invokesuper, new_callinfo(iseq, 0, 0, flag, NULL, block != NULL), block);
PM_POP_IF_POPPED;
return;
}
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case PM_GLOBAL_VARIABLE_AND_WRITE_NODE: {
pm_global_variable_and_write_node_t *global_variable_and_write_node = (pm_global_variable_and_write_node_t*) node;
LABEL *end_label = NEW_LABEL(lineno);
VALUE global_variable_name = ID2SYM(pm_constant_id_lookup(scope_node, global_variable_and_write_node->name));
ADD_INSN1(ret, &dummy_line_node, getglobal, global_variable_name);
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PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchunless, end_label);
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PM_POP_UNLESS_POPPED;
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PM_COMPILE_NOT_POPPED(global_variable_and_write_node->value);
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PM_DUP_UNLESS_POPPED;
ADD_INSN1(ret, &dummy_line_node, setglobal, global_variable_name);
ADD_LABEL(ret, end_label);
return;
}
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case PM_GLOBAL_VARIABLE_OPERATOR_WRITE_NODE: {
pm_global_variable_operator_write_node_t *global_variable_operator_write_node = (pm_global_variable_operator_write_node_t*) node;
VALUE global_variable_name = ID2SYM(pm_constant_id_lookup(scope_node, global_variable_operator_write_node->name));
ADD_INSN1(ret, &dummy_line_node, getglobal, global_variable_name);
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PM_COMPILE_NOT_POPPED(global_variable_operator_write_node->value);
ID method_id = pm_constant_id_lookup(scope_node, global_variable_operator_write_node->operator);
int flags = VM_CALL_ARGS_SIMPLE;
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, method_id, INT2NUM(1), INT2FIX(flags));
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PM_DUP_UNLESS_POPPED;
ADD_INSN1(ret, &dummy_line_node, setglobal, global_variable_name);
return;
}
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case PM_GLOBAL_VARIABLE_OR_WRITE_NODE: {
pm_global_variable_or_write_node_t *global_variable_or_write_node = (pm_global_variable_or_write_node_t*) node;
LABEL *set_label= NEW_LABEL(lineno);
LABEL *end_label = NEW_LABEL(lineno);
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PM_PUTNIL;
VALUE global_variable_name = ID2SYM(pm_constant_id_lookup(scope_node, global_variable_or_write_node->name));
ADD_INSN3(ret, &dummy_line_node, defined, INT2FIX(DEFINED_GVAR), global_variable_name, Qtrue);
ADD_INSNL(ret, &dummy_line_node, branchunless, set_label);
ADD_INSN1(ret, &dummy_line_node, getglobal, global_variable_name);
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PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchif, end_label);
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PM_POP_UNLESS_POPPED;
ADD_LABEL(ret, set_label);
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PM_COMPILE_NOT_POPPED(global_variable_or_write_node->value);
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PM_DUP_UNLESS_POPPED;
ADD_INSN1(ret, &dummy_line_node, setglobal, global_variable_name);
ADD_LABEL(ret, end_label);
return;
}
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case PM_GLOBAL_VARIABLE_READ_NODE: {
pm_global_variable_read_node_t *global_variable_read_node = (pm_global_variable_read_node_t *)node;
VALUE global_variable_name = ID2SYM(pm_constant_id_lookup(scope_node, global_variable_read_node->name));
ADD_INSN1(ret, &dummy_line_node, getglobal, global_variable_name);
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PM_POP_IF_POPPED;
return;
}
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case PM_GLOBAL_VARIABLE_TARGET_NODE: {
pm_global_variable_target_node_t *write_node = (pm_global_variable_target_node_t *) node;
ID ivar_name = pm_constant_id_lookup(scope_node, write_node->name);
ADD_INSN1(ret, &dummy_line_node, setglobal, ID2SYM(ivar_name));
return;
}
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case PM_GLOBAL_VARIABLE_WRITE_NODE: {
pm_global_variable_write_node_t *write_node = (pm_global_variable_write_node_t *) node;
PM_COMPILE_NOT_POPPED(write_node->value);
PM_DUP_UNLESS_POPPED;
ID ivar_name = pm_constant_id_lookup(scope_node, write_node->name);
ADD_INSN1(ret, &dummy_line_node, setglobal, ID2SYM(ivar_name));
return;
}
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case PM_HASH_NODE: {
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// If every node in the hash is static, then we can compile the entire
// hash now instead of later.
if (pm_static_literal_p(node)) {
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// We're only going to compile this node if it's not popped. If it
// is popped, then we know we don't need to do anything since it's
// statically known.
if (!popped) {
VALUE value = pm_static_literal_value(node, scope_node, parser);
ADD_INSN1(ret, &dummy_line_node, duphash, value);
RB_OBJ_WRITTEN(iseq, Qundef, value);
}
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} else {
// Here since we know there are possible side-effects inside the
// hash contents, we're going to build it entirely at runtime. We'll
// do this by pushing all of the key-value pairs onto the stack and
// then combining them with newhash.
//
// If this hash is popped, then this serves only to ensure we enact
// all side-effects (like method calls) that are contained within
// the hash contents.
pm_hash_node_t *cast = (pm_hash_node_t *) node;
// Elements must be non-empty, otherwise it would be static literal
pm_node_list_t *elements = &cast->elements;
pm_node_t *cur_node = elements->nodes[0];
pm_node_type_t cur_type = PM_NODE_TYPE(cur_node);
int elements_of_cur_type = 0;
int allocated_hashes = 0;
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if (!PM_NODE_TYPE_P(cur_node, PM_ASSOC_NODE) && !popped) {
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
ADD_INSN1(ret, &dummy_line_node, newhash, INT2FIX(0));
allocated_hashes++;
}
for (size_t index = 0; index < elements->size; index++) {
pm_node_t *cur_node = elements->nodes[index];
if (!popped) {
if (!PM_NODE_TYPE_P(cur_node, cur_type)) {
if (!allocated_hashes) {
ADD_INSN1(ret, &dummy_line_node, newhash, INT2FIX(elements_of_cur_type * 2));
}
else {
if (cur_type == PM_ASSOC_NODE) {
ADD_SEND(ret, &dummy_line_node, id_core_hash_merge_ptr, INT2FIX(3));
}
else {
ADD_SEND(ret, &dummy_line_node, id_core_hash_merge_kwd, INT2FIX(2));
}
}
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
PM_SWAP;
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PM_COMPILE(elements->nodes[index]);
allocated_hashes++;
elements_of_cur_type = 0;
cur_type = PM_NODE_TYPE(cur_node);
}
else {
elements_of_cur_type++;
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PM_COMPILE(elements->nodes[index]);
}
}
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else {
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PM_COMPILE(elements->nodes[index]);
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}
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}
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if (!popped) {
if (!allocated_hashes) {
ADD_INSN1(ret, &dummy_line_node, newhash, INT2FIX(elements_of_cur_type * 2));
}
else {
if (cur_type == PM_ASSOC_NODE) {
ADD_SEND(ret, &dummy_line_node, id_core_hash_merge_ptr, INT2FIX(3));
}
else {
ADD_SEND(ret, &dummy_line_node, id_core_hash_merge_kwd, INT2FIX(2));
}
}
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}
}
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return;
}
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case PM_IF_NODE: {
const int line = (int)pm_newline_list_line_column(&(parser->newline_list), node->location.start).line;
pm_if_node_t *if_node = (pm_if_node_t *)node;
pm_statements_node_t *node_body = if_node->statements;
pm_node_t *node_else = if_node->consequent;
pm_node_t *predicate = if_node->predicate;
pm_compile_if(iseq, line, node_body, node_else, predicate, ret, src, popped, scope_node);
return;
}
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case PM_IMAGINARY_NODE: {
if (!popped) {
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ADD_INSN1(ret, &dummy_line_node, putobject, parse_imaginary((pm_imaginary_node_t *)node));
}
return;
}
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case PM_IMPLICIT_NODE: {
// Implicit nodes mark places in the syntax tree where explicit syntax
// was omitted, but implied. For example,
//
// { foo: }
//
// In this case a method call/local variable read is implied by virtue
// of the missing value. To compile these nodes, we simply compile the
// value that is implied, which is helpfully supplied by the parser.
pm_implicit_node_t *cast = (pm_implicit_node_t *)node;
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PM_COMPILE(cast->value);
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return;
}
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case PM_INDEX_AND_WRITE_NODE: {
pm_index_and_write_node_t *index_and_write_node = (pm_index_and_write_node_t *)node;
pm_compile_index_and_or_write_node(true, index_and_write_node->receiver, index_and_write_node->value, index_and_write_node->arguments, index_and_write_node->block, ret, iseq, lineno, src, popped, scope_node, parser);
return;
}
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case PM_INDEX_OR_WRITE_NODE: {
pm_index_or_write_node_t *index_or_write_node = (pm_index_or_write_node_t *)node;
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pm_compile_index_and_or_write_node(false, index_or_write_node->receiver, index_or_write_node->value, index_or_write_node->arguments, index_or_write_node->block, ret, iseq, lineno, src, popped, scope_node, parser);
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return;
}
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case PM_INDEX_OPERATOR_WRITE_NODE: {
pm_index_operator_write_node_t *index_operator_write_node = (pm_index_operator_write_node_t *)node;
PM_PUTNIL_UNLESS_POPPED;
PM_COMPILE_NOT_POPPED(index_operator_write_node->receiver);
int flag = 0;
struct rb_callinfo_kwarg *keywords = NULL;
int argc_int = 0;
if (index_operator_write_node->arguments) {
argc_int = pm_setup_args(index_operator_write_node->arguments, &flag, &keywords, iseq, ret, src, popped, scope_node, dummy_line_node, parser);
}
VALUE argc = INT2FIX(argc_int);
int block_offset = 0;
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if (index_operator_write_node->block) {
PM_COMPILE_NOT_POPPED(index_operator_write_node->block);
flag |= VM_CALL_ARGS_BLOCKARG;
block_offset = 1;
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}
ADD_INSN1(ret, &dummy_line_node, dupn, FIXNUM_INC(argc, 1 + block_offset));
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ADD_SEND_WITH_FLAG(ret, &dummy_line_node, idAREF, argc, INT2FIX(flag));
PM_COMPILE_NOT_POPPED(index_operator_write_node->value);
ID method_id = pm_constant_id_lookup(scope_node, index_operator_write_node->operator);
ADD_SEND(ret, &dummy_line_node, method_id, INT2FIX(1));
pm_compile_index_write_nodes_add_send(popped, ret, iseq, dummy_line_node, argc, flag, block_offset);
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return;
}
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case PM_INSTANCE_VARIABLE_AND_WRITE_NODE: {
pm_instance_variable_and_write_node_t *instance_variable_and_write_node = (pm_instance_variable_and_write_node_t*) node;
LABEL *end_label = NEW_LABEL(lineno);
ID instance_variable_name_id = pm_constant_id_lookup(scope_node, instance_variable_and_write_node->name);
VALUE instance_variable_name_val = ID2SYM(instance_variable_name_id);
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ADD_INSN2(ret, &dummy_line_node, getinstancevariable, instance_variable_name_val, get_ivar_ic_value(iseq, instance_variable_name_id));
PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchunless, end_label);
PM_POP_UNLESS_POPPED;
PM_COMPILE_NOT_POPPED(instance_variable_and_write_node->value);
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PM_DUP_UNLESS_POPPED;
ADD_INSN2(ret, &dummy_line_node, setinstancevariable, instance_variable_name_val, get_ivar_ic_value(iseq, instance_variable_name_id));
ADD_LABEL(ret, end_label);
return;
}
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case PM_INSTANCE_VARIABLE_OPERATOR_WRITE_NODE: {
pm_instance_variable_operator_write_node_t *instance_variable_operator_write_node = (pm_instance_variable_operator_write_node_t*) node;
ID instance_variable_name_id = pm_constant_id_lookup(scope_node, instance_variable_operator_write_node->name);
VALUE instance_variable_name_val = ID2SYM(instance_variable_name_id);
ADD_INSN2(ret, &dummy_line_node, getinstancevariable,
instance_variable_name_val,
get_ivar_ic_value(iseq, instance_variable_name_id));
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PM_COMPILE_NOT_POPPED(instance_variable_operator_write_node->value);
ID method_id = pm_constant_id_lookup(scope_node, instance_variable_operator_write_node->operator);
int flags = VM_CALL_ARGS_SIMPLE;
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, method_id, INT2NUM(1), INT2FIX(flags));
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PM_DUP_UNLESS_POPPED;
ADD_INSN2(ret, &dummy_line_node, setinstancevariable,
instance_variable_name_val,
get_ivar_ic_value(iseq, instance_variable_name_id));
return;
}
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case PM_INSTANCE_VARIABLE_OR_WRITE_NODE: {
pm_instance_variable_or_write_node_t *instance_variable_or_write_node = (pm_instance_variable_or_write_node_t*) node;
LABEL *end_label = NEW_LABEL(lineno);
ID instance_variable_name_id = pm_constant_id_lookup(scope_node, instance_variable_or_write_node->name);
VALUE instance_variable_name_val = ID2SYM(instance_variable_name_id);
ADD_INSN2(ret, &dummy_line_node, getinstancevariable, instance_variable_name_val, get_ivar_ic_value(iseq, instance_variable_name_id));
PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchif, end_label);
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PM_POP_UNLESS_POPPED;
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PM_COMPILE_NOT_POPPED(instance_variable_or_write_node->value);
PM_DUP_UNLESS_POPPED;
ADD_INSN2(ret, &dummy_line_node, setinstancevariable, instance_variable_name_val, get_ivar_ic_value(iseq, instance_variable_name_id));
ADD_LABEL(ret, end_label);
return;
}
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case PM_INSTANCE_VARIABLE_READ_NODE: {
if (!popped) {
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pm_instance_variable_read_node_t *instance_variable_read_node = (pm_instance_variable_read_node_t *) node;
ID ivar_name = pm_constant_id_lookup(scope_node, instance_variable_read_node->name);
ADD_INSN2(ret, &dummy_line_node, getinstancevariable, ID2SYM(ivar_name), get_ivar_ic_value(iseq, ivar_name));
}
return;
}
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case PM_INSTANCE_VARIABLE_TARGET_NODE: {
pm_instance_variable_target_node_t *write_node = (pm_instance_variable_target_node_t *) node;
ID ivar_name = pm_constant_id_lookup(scope_node, write_node->name);
ADD_INSN2(ret, &dummy_line_node, setinstancevariable, ID2SYM(ivar_name), get_ivar_ic_value(iseq, ivar_name));
return;
}
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case PM_INSTANCE_VARIABLE_WRITE_NODE: {
pm_instance_variable_write_node_t *write_node = (pm_instance_variable_write_node_t *) node;
PM_COMPILE_NOT_POPPED(write_node->value);
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PM_DUP_UNLESS_POPPED;
ID ivar_name = pm_constant_id_lookup(scope_node, write_node->name);
ADD_INSN2(ret, &dummy_line_node, setinstancevariable,
ID2SYM(ivar_name),
get_ivar_ic_value(iseq, ivar_name));
return;
}
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case PM_INTEGER_NODE: {
if (!popped) {
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ADD_INSN1(ret, &dummy_line_node, putobject, parse_integer((pm_integer_node_t *) node));
}
return;
}
case PM_INTERPOLATED_MATCH_LAST_LINE_NODE: {
pm_interpolated_match_last_line_node_t *cast = (pm_interpolated_match_last_line_node_t *) node;
pm_interpolated_node_compile(&cast->parts, iseq, dummy_line_node, ret, src, popped, scope_node, parser);
ADD_INSN2(ret, &dummy_line_node, toregexp, INT2FIX(pm_reg_flags(node)), INT2FIX((int) (cast->parts.size)));
ADD_INSN2(ret, &dummy_line_node, getspecial, INT2FIX(0), INT2FIX(0));
ADD_SEND(ret, &dummy_line_node, idEqTilde, INT2NUM(1));
PM_POP_IF_POPPED;
return;
}
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case PM_INTERPOLATED_REGULAR_EXPRESSION_NODE: {
if (node->flags & PM_REGULAR_EXPRESSION_FLAGS_ONCE) {
const rb_iseq_t *prevblock = ISEQ_COMPILE_DATA(iseq)->current_block;
const rb_iseq_t *block_iseq = NULL;
int ic_index = ISEQ_BODY(iseq)->ise_size++;
pm_scope_node_t next_scope_node;
pm_scope_node_init((pm_node_t*)node, &next_scope_node, scope_node, parser);
block_iseq = NEW_CHILD_ISEQ(next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, lineno);
ISEQ_COMPILE_DATA(iseq)->current_block = block_iseq;
ADD_INSN2(ret, &dummy_line_node, once, block_iseq, INT2FIX(ic_index));
ISEQ_COMPILE_DATA(iseq)->current_block = prevblock;
return;
}
pm_interpolated_regular_expression_node_t *cast = (pm_interpolated_regular_expression_node_t *) node;
int parts_size = (int)cast->parts.size;
if (cast->parts.size > 0 && !PM_NODE_TYPE_P(cast->parts.nodes[0], PM_STRING_NODE)) {
ADD_INSN1(ret, &dummy_line_node, putobject, rb_str_new(0, 0));
parts_size++;
}
pm_interpolated_node_compile(&cast->parts, iseq, dummy_line_node, ret, src, popped, scope_node, parser);
ADD_INSN2(ret, &dummy_line_node, toregexp, INT2FIX(pm_reg_flags(node)), INT2FIX(parts_size));
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PM_POP_IF_POPPED;
return;
}
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case PM_INTERPOLATED_STRING_NODE: {
pm_interpolated_string_node_t *interp_string_node = (pm_interpolated_string_node_t *) node;
pm_interpolated_node_compile(&interp_string_node->parts, iseq, dummy_line_node, ret, src, popped, scope_node, parser);
size_t parts_size = interp_string_node->parts.size;
if (parts_size > 1) {
ADD_INSN1(ret, &dummy_line_node, concatstrings, INT2FIX((int)(parts_size)));
}
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PM_POP_IF_POPPED;
return;
}
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case PM_INTERPOLATED_SYMBOL_NODE: {
pm_interpolated_symbol_node_t *interp_symbol_node = (pm_interpolated_symbol_node_t *) node;
pm_interpolated_node_compile(&interp_symbol_node->parts, iseq, dummy_line_node, ret, src, popped, scope_node, parser);
size_t parts_size = interp_symbol_node->parts.size;
if (parts_size > 1) {
ADD_INSN1(ret, &dummy_line_node, concatstrings, INT2FIX((int)(parts_size)));
}
if (!popped) {
ADD_INSN(ret, &dummy_line_node, intern);
}
else {
PM_POP;
}
return;
}
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case PM_INTERPOLATED_X_STRING_NODE: {
pm_interpolated_x_string_node_t *interp_x_string_node = (pm_interpolated_x_string_node_t *) node;
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PM_PUTSELF;
pm_interpolated_node_compile(&interp_x_string_node->parts, iseq, dummy_line_node, ret, src, false, scope_node, parser);
size_t parts_size = interp_x_string_node->parts.size;
if (parts_size > 1) {
ADD_INSN1(ret, &dummy_line_node, concatstrings, INT2FIX((int)(parts_size)));
}
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, idBackquote, INT2NUM(1), INT2FIX(VM_CALL_FCALL | VM_CALL_ARGS_SIMPLE));
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PM_POP_IF_POPPED;
return;
}
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case PM_KEYWORD_HASH_NODE: {
pm_keyword_hash_node_t *keyword_hash_node = (pm_keyword_hash_node_t *) node;
pm_node_list_t elements = keyword_hash_node->elements;
for (size_t index = 0; index < elements.size; index++) {
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PM_COMPILE(elements.nodes[index]);
}
if (!popped) {
ADD_INSN1(ret, &dummy_line_node, newhash, INT2FIX(elements.size * 2));
}
return;
}
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case PM_LAMBDA_NODE: {
pm_scope_node_t next_scope_node;
pm_scope_node_init(node, &next_scope_node, scope_node, parser);
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const rb_iseq_t *block = NEW_CHILD_ISEQ(next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, lineno);
VALUE argc = INT2FIX(0);
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
ADD_CALL_WITH_BLOCK(ret, &dummy_line_node, idLambda, argc, block);
RB_OBJ_WRITTEN(iseq, Qundef, (VALUE)block);
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PM_POP_IF_POPPED;
return;
}
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case PM_LOCAL_VARIABLE_AND_WRITE_NODE: {
pm_local_variable_and_write_node_t *local_variable_and_write_node = (pm_local_variable_and_write_node_t*) node;
LABEL *end_label = NEW_LABEL(lineno);
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pm_constant_id_t constant_id = local_variable_and_write_node->name;
int depth = local_variable_and_write_node->depth + scope_node->local_depth_offset;
int local_index = pm_lookup_local_index_with_depth(iseq, scope_node, constant_id, depth);
ADD_GETLOCAL(ret, &dummy_line_node, local_index, depth);
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PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchunless, end_label);
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PM_POP_UNLESS_POPPED;
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PM_COMPILE_NOT_POPPED(local_variable_and_write_node->value);
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PM_DUP_UNLESS_POPPED;
ADD_SETLOCAL(ret, &dummy_line_node, local_index, depth);
ADD_LABEL(ret, end_label);
return;
}
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case PM_LOCAL_VARIABLE_OPERATOR_WRITE_NODE: {
pm_local_variable_operator_write_node_t *local_variable_operator_write_node = (pm_local_variable_operator_write_node_t*) node;
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pm_constant_id_t constant_id = local_variable_operator_write_node->name;
int depth = local_variable_operator_write_node->depth + scope_node->local_depth_offset;
int local_index = pm_lookup_local_index_with_depth(iseq, scope_node, constant_id, depth);
ADD_GETLOCAL(ret, &dummy_line_node, local_index, depth);
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PM_COMPILE_NOT_POPPED(local_variable_operator_write_node->value);
ID method_id = pm_constant_id_lookup(scope_node, local_variable_operator_write_node->operator);
int flags = VM_CALL_ARGS_SIMPLE | VM_CALL_FCALL | VM_CALL_VCALL;
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, method_id, INT2NUM(1), INT2FIX(flags));
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PM_DUP_UNLESS_POPPED;
ADD_SETLOCAL(ret, &dummy_line_node, local_index, depth);
return;
}
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case PM_LOCAL_VARIABLE_OR_WRITE_NODE: {
pm_local_variable_or_write_node_t *local_variable_or_write_node = (pm_local_variable_or_write_node_t*) node;
LABEL *set_label= NEW_LABEL(lineno);
LABEL *end_label = NEW_LABEL(lineno);
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
ADD_INSNL(ret, &dummy_line_node, branchunless, set_label);
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pm_constant_id_t constant_id = local_variable_or_write_node->name;
int depth = local_variable_or_write_node->depth + scope_node->local_depth_offset;
int local_index = pm_lookup_local_index_with_depth(iseq, scope_node, constant_id, depth);
ADD_GETLOCAL(ret, &dummy_line_node, local_index, depth);
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PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchif, end_label);
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PM_POP_UNLESS_POPPED;
ADD_LABEL(ret, set_label);
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PM_COMPILE_NOT_POPPED(local_variable_or_write_node->value);
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PM_DUP_UNLESS_POPPED;
ADD_SETLOCAL(ret, &dummy_line_node, local_index, depth);
ADD_LABEL(ret, end_label);
return;
}
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case PM_LOCAL_VARIABLE_READ_NODE: {
pm_local_variable_read_node_t *local_read_node = (pm_local_variable_read_node_t *) node;
if (!popped) {
int index = pm_lookup_local_index_with_depth(iseq, scope_node, local_read_node->name, local_read_node->depth);
ADD_GETLOCAL(ret, &dummy_line_node, index, local_read_node->depth + scope_node->local_depth_offset);
}
return;
}
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case PM_LOCAL_VARIABLE_TARGET_NODE: {
pm_local_variable_target_node_t *local_write_node = (pm_local_variable_target_node_t *) node;
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pm_constant_id_t constant_id = local_write_node->name;
int index = pm_lookup_local_index_any_scope(iseq, scope_node, constant_id);
ADD_SETLOCAL(ret, &dummy_line_node, index, local_write_node->depth + scope_node->local_depth_offset);
return;
}
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case PM_LOCAL_VARIABLE_WRITE_NODE: {
pm_local_variable_write_node_t *local_write_node = (pm_local_variable_write_node_t *) node;
PM_COMPILE_NOT_POPPED(local_write_node->value);
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PM_DUP_UNLESS_POPPED;
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pm_constant_id_t constant_id = local_write_node->name;
int index = pm_lookup_local_index_any_scope(iseq, scope_node, constant_id);
ADD_SETLOCAL(ret, &dummy_line_node, index, local_write_node->depth + scope_node->local_depth_offset);
return;
}
case PM_MATCH_LAST_LINE_NODE: {
if (!popped) {
pm_match_last_line_node_t *cast = (pm_match_last_line_node_t *) node;
VALUE regex_str = parse_string(&cast->unescaped, parser);
VALUE regex = rb_reg_new(RSTRING_PTR(regex_str), RSTRING_LEN(regex_str), pm_reg_flags(node));
ADD_INSN1(ret, &dummy_line_node, putobject, regex);
ADD_INSN2(ret, &dummy_line_node, getspecial, INT2FIX(0), INT2FIX(0));
ADD_SEND(ret, &dummy_line_node, idEqTilde, INT2NUM(1));
}
return;
}
case PM_MATCH_PREDICATE_NODE: {
pm_match_predicate_node_t *cast = (pm_match_predicate_node_t *) node;
// First, allocate some stack space for the cached return value of any
// calls to #deconstruct.
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PM_PUTNIL;
// Next, compile the expression that we're going to match against.
PM_COMPILE_NOT_POPPED(cast->value);
PM_DUP;
// Now compile the pattern that is going to be used to match against the
// expression.
LABEL *matched_label = NEW_LABEL(lineno);
LABEL *unmatched_label = NEW_LABEL(lineno);
LABEL *done_label = NEW_LABEL(lineno);
pm_compile_pattern(iseq, cast->pattern, ret, src, scope_node, matched_label, unmatched_label, false);
// If the pattern did not match, then compile the necessary instructions
// to handle pushing false onto the stack, then jump to the end.
ADD_LABEL(ret, unmatched_label);
PM_POP;
PM_POP;
if (!popped) ADD_INSN1(ret, &dummy_line_node, putobject, Qfalse);
ADD_INSNL(ret, &dummy_line_node, jump, done_label);
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PM_PUTNIL;
// If the pattern did match, then compile the necessary instructions to
// handle pushing true onto the stack, then jump to the end.
ADD_LABEL(ret, matched_label);
ADD_INSN1(ret, &dummy_line_node, adjuststack, INT2FIX(2));
if (!popped) ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
ADD_INSNL(ret, &dummy_line_node, jump, done_label);
ADD_LABEL(ret, done_label);
return;
}
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case PM_MATCH_WRITE_NODE: {
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// Match write nodes are specialized call nodes that have a regular
// expression with valid named capture groups on the left, the =~
// operator, and some value on the right. The nodes themselves simply
// wrap the call with the local variable targets that will be written
// when the call is executed.
pm_match_write_node_t *cast = (pm_match_write_node_t *) node;
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LABEL *fail_label = NEW_LABEL(lineno);
LABEL *end_label = NEW_LABEL(lineno);
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// First, we'll compile the call so that all of its instructions are
// present. Then we'll compile all of the local variable targets.
PM_COMPILE_NOT_POPPED((pm_node_t *) cast->call);
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// Now, check if the match was successful. If it was, then we'll
// continue on and assign local variables. Otherwise we'll skip over the
// assignment code.
ADD_INSN1(ret, &dummy_line_node, getglobal, rb_id2sym(idBACKREF));
PM_DUP;
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ADD_INSNL(ret, &dummy_line_node, branchunless, fail_label);
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// If there's only a single local variable target, we can skip some of
// the bookkeeping, so we'll put a special branch here.
size_t targets_count = cast->targets.size;
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if (targets_count == 1) {
pm_node_t *target = cast->targets.nodes[0];
assert(PM_NODE_TYPE_P(target, PM_LOCAL_VARIABLE_TARGET_NODE));
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pm_local_variable_target_node_t *local_target = (pm_local_variable_target_node_t *) target;
int index = pm_lookup_local_index(iseq, scope_node, local_target->name);
ADD_INSN1(ret, &dummy_line_node, putobject, rb_id2sym(pm_constant_id_lookup(scope_node, local_target->name)));
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ADD_SEND(ret, &dummy_line_node, idAREF, INT2FIX(1));
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ADD_LABEL(ret, fail_label);
ADD_SETLOCAL(ret, &dummy_line_node, index, (int) local_target->depth);
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PM_POP_IF_POPPED;
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return;
}
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// Otherwise there is more than one local variable target, so we'll need
// to do some bookkeeping.
for (size_t targets_index = 0; targets_index < targets_count; targets_index++) {
pm_node_t *target = cast->targets.nodes[targets_index];
assert(PM_NODE_TYPE_P(target, PM_LOCAL_VARIABLE_TARGET_NODE));
pm_local_variable_target_node_t *local_target = (pm_local_variable_target_node_t *) target;
int index = pm_lookup_local_index(iseq, scope_node, local_target->name);
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if (((size_t) targets_index) < (targets_count - 1)) {
PM_DUP;
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}
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ADD_INSN1(ret, &dummy_line_node, putobject, rb_id2sym(pm_constant_id_lookup(scope_node, local_target->name)));
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ADD_SEND(ret, &dummy_line_node, idAREF, INT2FIX(1));
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ADD_SETLOCAL(ret, &dummy_line_node, index, (int) local_target->depth);
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}
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// Since we matched successfully, now we'll jump to the end.
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ADD_INSNL(ret, &dummy_line_node, jump, end_label);
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// In the case that the match failed, we'll loop through each local
// variable target and set all of them to `nil`.
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ADD_LABEL(ret, fail_label);
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PM_POP;
for (size_t targets_index = 0; targets_index < targets_count; targets_index++) {
pm_node_t *target = cast->targets.nodes[targets_index];
assert(PM_NODE_TYPE_P(target, PM_LOCAL_VARIABLE_TARGET_NODE));
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pm_local_variable_target_node_t *local_target = (pm_local_variable_target_node_t *) target;
int index = pm_lookup_local_index(iseq, scope_node, local_target->name);
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PM_PUTNIL;
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ADD_SETLOCAL(ret, &dummy_line_node, index, (int) local_target->depth);
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}
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// Finally, we can push the end label for either case.
PM_POP_IF_POPPED;
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ADD_LABEL(ret, end_label);
return;
}
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case PM_MISSING_NODE: {
rb_bug("A pm_missing_node_t should not exist in prism's AST.");
return;
}
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case PM_MODULE_NODE: {
pm_module_node_t *module_node = (pm_module_node_t *)node;
pm_scope_node_t next_scope_node;
pm_scope_node_init((pm_node_t *)module_node, &next_scope_node, scope_node, parser);
ID module_id = pm_constant_id_lookup(scope_node, module_node->name);
VALUE module_name = rb_str_freeze(rb_sprintf("<module:%"PRIsVALUE">", rb_id2str(module_id)));
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const rb_iseq_t *module_iseq = NEW_CHILD_ISEQ(next_scope_node, module_name, ISEQ_TYPE_CLASS, lineno);
const int flags = VM_DEFINECLASS_TYPE_MODULE |
pm_compile_class_path(ret, iseq, module_node->constant_path, &dummy_line_node, src, false, scope_node);
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PM_PUTNIL;
ADD_INSN3(ret, &dummy_line_node, defineclass, ID2SYM(module_id), module_iseq, INT2FIX(flags));
RB_OBJ_WRITTEN(iseq, Qundef, (VALUE)module_iseq);
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PM_POP_IF_POPPED;
return;
}
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case PM_MULTI_TARGET_NODE: {
pm_multi_target_node_t *cast = (pm_multi_target_node_t *) node;
if (cast->lefts.size) {
int flag = (int) (bool) cast->rights.size;
ADD_INSN2(ret, &dummy_line_node, expandarray, INT2FIX(cast->lefts.size), INT2FIX(flag));
for (size_t index = 0; index < cast->lefts.size; index++) {
PM_COMPILE_NOT_POPPED(cast->lefts.nodes[index]);
}
}
if (cast->rights.size) {
ADD_INSN2(ret, &dummy_line_node, expandarray, INT2FIX(cast->rights.size), INT2FIX(2));
for (size_t index = 0; index < cast->rights.size; index++) {
PM_COMPILE_NOT_POPPED(cast->rights.nodes[index]);
}
}
return;
}
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case PM_MULTI_WRITE_NODE: {
pm_multi_write_node_t *multi_write_node = (pm_multi_write_node_t *)node;
pm_node_list_t *lefts = &multi_write_node->lefts;
pm_node_list_t *rights = &multi_write_node->rights;
// pre-process the left hand side of multi-assignments.
uint8_t pushed = 0;
for (size_t index = 0; index < lefts->size; index++) {
pushed = pm_compile_multi_write_lhs(iseq, dummy_line_node, lefts->nodes[index], ret, scope_node, pushed, false);
}
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PM_COMPILE_NOT_POPPED(multi_write_node->value);
PM_DUP_UNLESS_POPPED;
pm_node_t *rest_expression = NULL;
if (multi_write_node->rest && PM_NODE_TYPE_P(multi_write_node->rest, PM_SPLAT_NODE)) {
pm_splat_node_t *rest_splat = ((pm_splat_node_t *)multi_write_node->rest);
rest_expression = rest_splat->expression;
}
if (lefts->size) {
ADD_INSN2(ret, &dummy_line_node, expandarray, INT2FIX(lefts->size), INT2FIX((int) (bool) (rights->size || rest_expression)));
for (size_t index = 0; index < lefts->size; index++) {
pm_node_t *considered_node = lefts->nodes[index];
if (PM_NODE_TYPE_P(considered_node, PM_CONSTANT_PATH_TARGET_NODE) && pushed > 0) {
pm_constant_path_target_node_t *cast = (pm_constant_path_target_node_t *) considered_node;
ID name = pm_constant_id_lookup(scope_node, ((pm_constant_read_node_t * ) cast->child)->name);
pushed -= 2;
ADD_INSN1(ret, &dummy_line_node, topn, INT2FIX(pushed));
ADD_INSN1(ret, &dummy_line_node, setconstant, ID2SYM(name));
} else {
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PM_COMPILE(lefts->nodes[index]);
}
}
}
if (pushed) {
ADD_INSN1(ret, &dummy_line_node, setn, INT2FIX(pushed));
for (uint8_t index = 0; index < pushed; index++) {
PM_POP;
}
}
if (rights->size) {
if (rest_expression) {
ADD_INSN2(ret, &dummy_line_node, expandarray, INT2FIX(rights->size), INT2FIX(3));
PM_COMPILE(rest_expression);
}
else {
ADD_INSN2(ret, &dummy_line_node, expandarray, INT2FIX(rights->size), INT2FIX(2));
}
for (size_t index = 0; index < rights->size; index++) {
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PM_COMPILE(rights->nodes[index]);
}
}
else if (rest_expression) {
PM_COMPILE(rest_expression);
}
return;
}
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case PM_NEXT_NODE: {
pm_next_node_t *next_node = (pm_next_node_t *) node;
if (next_node->arguments) {
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PM_COMPILE_NOT_POPPED((pm_node_t *)next_node->arguments);
}
else {
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PM_PUTNIL;
}
PM_POP;
ADD_INSNL(ret, &dummy_line_node, jump, ISEQ_COMPILE_DATA(iseq)->start_label);
return;
}
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case PM_NIL_NODE:
PM_PUTNIL_UNLESS_POPPED
return;
case PM_NO_KEYWORDS_PARAMETER_NODE: {
ISEQ_BODY(iseq)->param.flags.accepts_no_kwarg = TRUE;
return;
}
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case PM_NUMBERED_REFERENCE_READ_NODE: {
if (!popped) {
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uint32_t reference_number = ((pm_numbered_reference_read_node_t *)node)->number;
ADD_INSN2(ret, &dummy_line_node, getspecial, INT2FIX(1), INT2FIX(reference_number << 1));
}
return;
}
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case PM_OR_NODE: {
pm_or_node_t *or_node = (pm_or_node_t *) node;
LABEL *end_label = NEW_LABEL(lineno);
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PM_COMPILE_NOT_POPPED(or_node->left);
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PM_DUP_UNLESS_POPPED;
ADD_INSNL(ret, &dummy_line_node, branchif, end_label);
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PM_POP_UNLESS_POPPED;
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PM_COMPILE(or_node->right);
ADD_LABEL(ret, end_label);
return;
}
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case PM_OPTIONAL_PARAMETER_NODE: {
pm_optional_parameter_node_t *optional_parameter_node = (pm_optional_parameter_node_t *)node;
PM_COMPILE_NOT_POPPED(optional_parameter_node->value);
int index = pm_lookup_local_index(iseq, scope_node, optional_parameter_node->name);
ADD_SETLOCAL(ret, &dummy_line_node, index, 0);
return;
}
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case PM_PARAMETERS_NODE: {
rb_bug("Should not ever enter a parameters node directly");
return;
}
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case PM_PARENTHESES_NODE: {
pm_parentheses_node_t *parentheses_node = (pm_parentheses_node_t *) node;
if (parentheses_node->body == NULL) {
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PM_PUTNIL_UNLESS_POPPED;
} else {
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PM_COMPILE(parentheses_node->body);
}
return;
}
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case PM_PRE_EXECUTION_NODE: {
pm_pre_execution_node_t *pre_execution_node = (pm_pre_execution_node_t *) node;
DECL_ANCHOR(pre_ex);
INIT_ANCHOR(pre_ex);
if (pre_execution_node->statements) {
pm_node_list_t node_list = pre_execution_node->statements->body;
for (size_t index = 0; index < node_list.size; index++) {
pm_compile_node(iseq, node_list.nodes[index], pre_ex, src, true, scope_node);
}
}
if (!popped) {
ADD_INSN(pre_ex, &dummy_line_node, putnil);
}
pre_ex->last->next = ret->anchor.next;
ret->anchor.next = pre_ex->anchor.next;
ret->anchor.next->prev = pre_ex->anchor.next;
if (ret->last == (LINK_ELEMENT *)ret) {
ret->last = pre_ex->last;
}
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return;
}
case PM_POST_EXECUTION_NODE: {
const rb_iseq_t *child_iseq;
const rb_iseq_t *prevblock = ISEQ_COMPILE_DATA(iseq)->current_block;
pm_scope_node_t next_scope_node;
pm_scope_node_init(node, &next_scope_node, scope_node, parser);
child_iseq = NEW_CHILD_ISEQ(next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, lineno);
ISEQ_COMPILE_DATA(iseq)->current_block = child_iseq;
int is_index = ISEQ_BODY(iseq)->ise_size++;
ADD_INSN2(ret, &dummy_line_node, once, child_iseq, INT2FIX(is_index));
RB_OBJ_WRITTEN(iseq, Qundef, (VALUE)child_iseq);
PM_POP_IF_POPPED;
ISEQ_COMPILE_DATA(iseq)->current_block = prevblock;
return;
}
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case PM_PROGRAM_NODE: {
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rb_bug("Should not ever enter a program node directly");
return;
}
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case PM_RANGE_NODE: {
pm_range_node_t *range_node = (pm_range_node_t *) node;
bool exclusive = (range_node->operator_loc.end - range_node->operator_loc.start) == 3;
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if (pm_optimizable_range_item_p(range_node->left) && pm_optimizable_range_item_p(range_node->right)) {
if (!popped) {
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pm_node_t *left = range_node->left;
pm_node_t *right = range_node->right;
VALUE val = rb_range_new(
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left && PM_NODE_TYPE_P(left, PM_INTEGER_NODE) ? parse_integer((pm_integer_node_t *) left) : Qnil,
right && PM_NODE_TYPE_P(right, PM_INTEGER_NODE) ? parse_integer((pm_integer_node_t *) right) : Qnil,
exclusive
);
ADD_INSN1(ret, &dummy_line_node, putobject, val);
RB_OBJ_WRITTEN(iseq, Qundef, val);
}
}
else {
if (range_node->left == NULL) {
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PM_PUTNIL;
} else {
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PM_COMPILE(range_node->left);
}
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if (range_node->right == NULL) {
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PM_PUTNIL;
} else {
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PM_COMPILE(range_node->right);
}
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if (!popped) {
ADD_INSN1(ret, &dummy_line_node, newrange, INT2FIX(exclusive));
}
}
return;
}
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case PM_RATIONAL_NODE: {
if (!popped) {
ADD_INSN1(ret, &dummy_line_node, putobject, parse_rational(node));
}
return;
}
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case PM_REDO_NODE: {
ADD_INSNL(ret, &dummy_line_node, jump, ISEQ_COMPILE_DATA(iseq)->redo_label);
return;
}
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case PM_REGULAR_EXPRESSION_NODE: {
if (!popped) {
pm_regular_expression_node_t *cast = (pm_regular_expression_node_t *) node;
VALUE regex = pm_new_regex(cast, parser);
ADD_INSN1(ret, &dummy_line_node, putobject, regex);
}
return;
}
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case PM_RETURN_NODE: {
pm_arguments_node_t *arguments = ((pm_return_node_t *)node)->arguments;
if (arguments) {
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PM_COMPILE((pm_node_t *)arguments);
}
else {
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PM_PUTNIL;
}
ADD_TRACE(ret, RUBY_EVENT_RETURN);
ADD_INSN(ret, &dummy_line_node, leave);
if (!popped) {
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PM_PUTNIL;
}
return;
}
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case PM_SCOPE_NODE: {
pm_scope_node_t *scope_node = (pm_scope_node_t *)node;
pm_constant_id_list_t *locals = &scope_node->locals;
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pm_parameters_node_t *parameters_node = (pm_parameters_node_t *) scope_node->parameters;
pm_node_list_t *keywords_list = NULL;
pm_node_list_t *optionals_list = NULL;
pm_node_list_t *posts_list = NULL;
pm_node_list_t *requireds_list = NULL;
struct rb_iseq_param_keyword *keyword = NULL;
struct rb_iseq_constant_body *body = ISEQ_BODY(iseq);
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if (parameters_node) {
optionals_list = &parameters_node->optionals;
requireds_list = &parameters_node->requireds;
keywords_list = &parameters_node->keywords;
posts_list = &parameters_node->posts;
} else if (PM_NODE_TYPE_P(scope_node->ast_node, PM_FOR_NODE)) {
body->param.lead_num = 1;
body->param.opt_num = 0;
} else {
body->param.lead_num = 0;
body->param.opt_num = 0;
}
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size_t locals_size = locals->size;
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// Index lookup table buffer size is only the number of the locals
st_table *index_lookup_table = st_init_numtable();
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VALUE idtmp = 0;
rb_ast_id_table_t *tbl = ALLOCV(idtmp, sizeof(rb_ast_id_table_t) + locals_size * sizeof(ID));
tbl->size = (int) locals_size;
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for (size_t i = 0; i < locals_size; i++) {
pm_constant_id_t constant_id = locals->ids[i];
ID local;
if (constant_id & TEMP_CONSTANT_IDENTIFIER) {
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local = rb_make_temporary_id(i);
}
else {
local = pm_constant_id_lookup(scope_node, constant_id);
}
tbl->ids[i] = local;
st_insert(index_lookup_table, constant_id, i);
}
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scope_node->index_lookup_table = index_lookup_table;
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if (optionals_list && optionals_list->size) {
body->param.opt_num = (int) optionals_list->size;
LABEL **opt_table = (LABEL **)ALLOC_N(VALUE, optionals_list->size + 1);
LABEL *label;
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// TODO: Should we make an api for NEW_LABEL where you can pass
// a pointer to the label it should fill out? We already
// have a list of labels allocated above so it seems wasteful
// to do the copies.
for (size_t i = 0; i < optionals_list->size; i++) {
label = NEW_LABEL(lineno);
opt_table[i] = label;
ADD_LABEL(ret, label);
pm_node_t *optional_node = optionals_list->nodes[i];
PM_COMPILE_NOT_POPPED(optional_node);
}
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// Set the last label
label = NEW_LABEL(lineno);
opt_table[optionals_list->size] = label;
ADD_LABEL(ret, label);
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body->param.flags.has_opt = TRUE;
body->param.opt_table = (const VALUE *)opt_table;
}
if (requireds_list && requireds_list->size) {
body->param.lead_num = (int) requireds_list->size;
body->param.flags.has_lead = true;
for (size_t i = 0; i < requireds_list->size; i++) {
pm_node_t *required_param = requireds_list->nodes[i];
// TODO: Fix MultiTargetNodes
if (PM_NODE_TYPE_P(required_param, PM_MULTI_TARGET_NODE)) {
PM_COMPILE(required_param);
}
}
}
if (posts_list && posts_list->size) {
body->param.post_num = (int) posts_list->size;
body->param.post_start = body->param.lead_num + body->param.opt_num; // TODO
body->param.flags.has_post = true;
}
// Keywords create an internal variable on the parse tree
if (keywords_list && keywords_list->size) {
body->param.keyword = keyword = ZALLOC_N(struct rb_iseq_param_keyword, 1);
keyword->num = (int) keywords_list->size;
body->param.flags.has_kw = true;
const VALUE default_values = rb_ary_hidden_new(1);
const VALUE complex_mark = rb_str_tmp_new(0);
ID *ids = calloc(keywords_list->size, sizeof(ID));
for (size_t i = 0; i < keywords_list->size; i++) {
pm_node_t *keyword_parameter_node = keywords_list->nodes[i];
pm_constant_id_t name;
switch PM_NODE_TYPE(keyword_parameter_node) {
case PM_OPTIONAL_KEYWORD_PARAMETER_NODE: {
pm_optional_keyword_parameter_node_t *cast = ((pm_optional_keyword_parameter_node_t *)keyword_parameter_node);
pm_node_t *value = cast->value;
name = cast->name;
if (pm_static_literal_p(value)) {
rb_ary_push(default_values, pm_static_literal_value(value, scope_node, parser));
}
else {
PM_COMPILE_POPPED(value);
rb_ary_push(default_values, complex_mark);
}
break;
}
case PM_REQUIRED_KEYWORD_PARAMETER_NODE: {
name = ((pm_required_keyword_parameter_node_t *)keyword_parameter_node)->name;
keyword->required_num++;
break;
}
default: {
rb_bug("Unexpected keyword parameter node type");
}
}
ids[i] = pm_constant_id_lookup(scope_node, name);
}
keyword->table = ids;
VALUE *dvs = ALLOC_N(VALUE, RARRAY_LEN(default_values));
for (int i = 0; i < RARRAY_LEN(default_values); i++) {
VALUE dv = RARRAY_AREF(default_values, i);
if (dv == complex_mark) dv = Qundef;
if (!SPECIAL_CONST_P(dv)) {
RB_OBJ_WRITTEN(iseq, Qundef, dv);
}
dvs[i] = dv;
}
keyword->default_values = dvs;
}
if (parameters_node) {
if (parameters_node->rest) {
body->param.rest_start = body->param.lead_num + body->param.opt_num;
body->param.flags.has_rest = true;
}
if (parameters_node->keyword_rest) {
if (PM_NODE_TYPE_P(parameters_node->keyword_rest, PM_NO_KEYWORDS_PARAMETER_NODE)) {
body->param.flags.accepts_no_kwarg = true;
}
else {
if (!body->param.flags.has_kw) {
body->param.keyword = keyword = ZALLOC_N(struct rb_iseq_param_keyword, 1);
}
keyword->rest_start = (int) locals_size - (parameters_node->block ? 2 : 1);
body->param.flags.has_kwrest = true;
}
}
if (parameters_node->block) {
body->param.block_start = (int) locals_size - 1;
body->param.flags.has_block = true;
}
}
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iseq_calc_param_size(iseq);
// Calculating the parameter size above does not account for numbered parameters
// We can _only_ have numbered parameters if we don't have non numbered parameters
// We verify this through asserts, and add the numbered_parameters size accordingly
if (PM_NODE_TYPE_P(scope_node->ast_node, PM_BLOCK_NODE)) {
uint32_t numbered_parameters = ((pm_block_node_t *)(scope_node->ast_node))->numbered_parameters;
RUBY_ASSERT(!body->param.size || !numbered_parameters);
body->param.size += numbered_parameters;
}
else if (PM_NODE_TYPE_P(scope_node->ast_node, PM_LAMBDA_NODE)) {
uint32_t numbered_parameters = ((pm_lambda_node_t *)(scope_node->ast_node))->numbered_parameters;
RUBY_ASSERT(!body->param.size || !numbered_parameters);
body->param.size += numbered_parameters;
}
iseq_set_local_table(iseq, tbl);
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switch (body->type) {
case ISEQ_TYPE_BLOCK: {
LABEL *start = ISEQ_COMPILE_DATA(iseq)->start_label = NEW_LABEL(0);
LABEL *end = ISEQ_COMPILE_DATA(iseq)->end_label = NEW_LABEL(0);
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start->rescued = LABEL_RESCUE_BEG;
end->rescued = LABEL_RESCUE_END;
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ADD_TRACE(ret, RUBY_EVENT_B_CALL);
NODE dummy_line_node = generate_dummy_line_node(body->location.first_lineno, -1);
ADD_INSN (ret, &dummy_line_node, nop);
ADD_LABEL(ret, start);
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if (scope_node->body) {
switch (PM_NODE_TYPE(scope_node->ast_node)) {
case PM_POST_EXECUTION_NODE: {
pm_post_execution_node_t *post_execution_node = (pm_post_execution_node_t *)scope_node->ast_node;
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
// We create another ScopeNode from the statements within the PostExecutionNode
pm_scope_node_t next_scope_node;
pm_scope_node_init((pm_node_t *)post_execution_node->statements, &next_scope_node, scope_node, parser);
const rb_iseq_t *block = NEW_CHILD_ISEQ(next_scope_node, make_name_for_block(body->parent_iseq), ISEQ_TYPE_BLOCK, lineno);
ADD_CALL_WITH_BLOCK(ret, &dummy_line_node, id_core_set_postexe, INT2FIX(0), block);
break;
}
case PM_FOR_NODE: {
pm_for_node_t *for_node = (pm_for_node_t *)scope_node->ast_node;
ADD_GETLOCAL(ret, &dummy_line_node, 1, 0);
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PM_COMPILE(for_node->index);
ADD_INSN(ret, &dummy_line_node, nop);
pm_compile_node(iseq, (pm_node_t *)(scope_node->body), ret, src, popped, scope_node);
break;
}
case PM_INTERPOLATED_REGULAR_EXPRESSION_NODE: {
pm_interpolated_regular_expression_node_t *cast = (pm_interpolated_regular_expression_node_t *) scope_node->ast_node;
int parts_size = (int)cast->parts.size;
if (parts_size > 0 && !PM_NODE_TYPE_P(cast->parts.nodes[0], PM_STRING_NODE)) {
ADD_INSN1(ret, &dummy_line_node, putobject, rb_str_new(0, 0));
parts_size++;
}
pm_interpolated_node_compile(&cast->parts, iseq, dummy_line_node, ret, src, false, scope_node, parser);
ADD_INSN2(ret, &dummy_line_node, toregexp, INT2FIX(pm_reg_flags((pm_node_t *)cast)), INT2FIX(parts_size));
break;
}
default: {
pm_compile_node(iseq, (pm_node_t *)(scope_node->body), ret, src, popped, scope_node);
}
}
}
else {
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PM_PUTNIL;
}
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ADD_LABEL(ret, end);
ADD_TRACE(ret, RUBY_EVENT_B_RETURN);
ISEQ_COMPILE_DATA(iseq)->last_line = body->location.code_location.end_pos.lineno;
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/* wide range catch handler must put at last */
ADD_CATCH_ENTRY(CATCH_TYPE_REDO, start, end, NULL, start);
ADD_CATCH_ENTRY(CATCH_TYPE_NEXT, start, end, NULL, end);
break;
}
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case ISEQ_TYPE_ENSURE: {
iseq_set_exception_local_table(iseq);
if (scope_node->body) {
PM_COMPILE_POPPED((pm_node_t *)scope_node->body);
}
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ADD_GETLOCAL(ret, &dummy_line_node, 1, 0);
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ADD_INSN1(ret, &dummy_line_node, throw, INT2FIX(0));
return;
}
default:
if (scope_node->body) {
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PM_COMPILE((pm_node_t *)scope_node->body);
}
else {
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PM_PUTNIL;
}
}
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free(index_lookup_table);
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if (!PM_NODE_TYPE_P(scope_node->ast_node, PM_ENSURE_NODE)) {
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ADD_INSN(ret, &dummy_line_node, leave);
}
return;
}
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case PM_SELF_NODE:
if (!popped) {
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PM_PUTSELF;
}
return;
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case PM_SINGLETON_CLASS_NODE: {
pm_singleton_class_node_t *singleton_class_node = (pm_singleton_class_node_t *)node;
pm_scope_node_t next_scope_node;
pm_scope_node_init((pm_node_t *)singleton_class_node, &next_scope_node, scope_node, parser);
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const rb_iseq_t *singleton_class = NEW_ISEQ(next_scope_node, rb_fstring_lit("singleton class"), ISEQ_TYPE_CLASS, lineno);
PM_COMPILE_NOT_POPPED(singleton_class_node->expression);
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PM_PUTNIL;
ID singletonclass;
CONST_ID(singletonclass, "singletonclass");
ADD_INSN3(ret, &dummy_line_node, defineclass,
ID2SYM(singletonclass), singleton_class,
INT2FIX(VM_DEFINECLASS_TYPE_SINGLETON_CLASS));
PM_POP_IF_POPPED;
RB_OBJ_WRITTEN(iseq, Qundef, (VALUE)singleton_class);
return;
}
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case PM_SOURCE_ENCODING_NODE: {
// Source encoding nodes are generated by the __ENCODING__ syntax. They
// reference the encoding object corresponding to the encoding of the
// source file, and can be changed by a magic encoding comment.
if (!popped) {
VALUE value = pm_static_literal_value(node, scope_node, parser);
ADD_INSN1(ret, &dummy_line_node, putobject, value);
RB_OBJ_WRITTEN(iseq, Qundef, value);
}
return;
}
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case PM_SOURCE_FILE_NODE: {
// Source file nodes are generated by the __FILE__ syntax. They
// reference the file name of the source file.
if (!popped) {
VALUE value = pm_static_literal_value(node, scope_node, parser);
ADD_INSN1(ret, &dummy_line_node, putstring, value);
RB_OBJ_WRITTEN(iseq, Qundef, value);
}
return;
}
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case PM_SOURCE_LINE_NODE: {
// Source line nodes are generated by the __LINE__ syntax. They
// reference the line number where they occur in the source file.
if (!popped) {
VALUE value = pm_static_literal_value(node, scope_node, parser);
ADD_INSN1(ret, &dummy_line_node, putobject, value);
RB_OBJ_WRITTEN(iseq, Qundef, value);
}
return;
}
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case PM_SPLAT_NODE: {
pm_splat_node_t *splat_node = (pm_splat_node_t *)node;
if (splat_node->expression) {
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PM_COMPILE(splat_node->expression);
}
if (!popped) {
ADD_INSN1(ret, &dummy_line_node, splatarray, Qtrue);
}
return;
}
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case PM_STATEMENTS_NODE: {
pm_statements_node_t *statements_node = (pm_statements_node_t *) node;
pm_node_list_t node_list = statements_node->body;
if (node_list.size > 0) {
for (size_t index = 0; index < node_list.size - 1; index++) {
PM_COMPILE_POPPED(node_list.nodes[index]);
}
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PM_COMPILE(node_list.nodes[node_list.size - 1]);
}
else {
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PM_PUTNIL;
}
return;
}
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case PM_STRING_NODE: {
if (!popped) {
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pm_string_node_t *string_node = (pm_string_node_t *) node;
ADD_INSN1(ret, &dummy_line_node, putstring, parse_string(&string_node->unescaped, parser));
}
return;
}
case PM_SUPER_NODE: {
pm_super_node_t *super_node = (pm_super_node_t *) node;
DECL_ANCHOR(args);
int flags = 0;
struct rb_callinfo_kwarg *keywords = NULL;
const rb_iseq_t *parent_block = ISEQ_COMPILE_DATA(iseq)->current_block;
INIT_ANCHOR(args);
ISEQ_COMPILE_DATA(iseq)->current_block = NULL;
ADD_INSN(ret, &dummy_line_node, putself);
int argc = pm_setup_args(super_node->arguments, &flags, &keywords, iseq, ret, src, popped, scope_node, dummy_line_node, parser);
flags |= VM_CALL_SUPER | VM_CALL_FCALL;
if (super_node->block) {
switch (PM_NODE_TYPE(super_node->block)) {
case PM_BLOCK_ARGUMENT_NODE: {
PM_COMPILE_NOT_POPPED(super_node->block);
flags |= VM_CALL_ARGS_BLOCKARG;
break;
}
case PM_BLOCK_NODE: {
pm_scope_node_t next_scope_node;
pm_scope_node_init(super_node->block, &next_scope_node, scope_node, parser);
parent_block = NEW_CHILD_ISEQ(next_scope_node, make_name_for_block(iseq), ISEQ_TYPE_BLOCK, lineno);
break;
}
default: {
rb_bug("This node type should never occur on a SuperNode's block");
}
}
}
ADD_SEQ(ret, args);
ADD_INSN2(ret, &dummy_line_node, invokesuper,
new_callinfo(iseq, 0, argc, flags, keywords, parent_block != NULL),
parent_block);
PM_POP_IF_POPPED;
return;
}
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case PM_SYMBOL_NODE: {
// Symbols nodes are symbol literals with no interpolation. They are
// always marked as static literals.
if (!popped) {
VALUE value = pm_static_literal_value(node, scope_node, parser);
ADD_INSN1(ret, &dummy_line_node, putobject, value);
RB_OBJ_WRITTEN(iseq, Qundef, value);
}
return;
}
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case PM_TRUE_NODE:
if (!popped) {
ADD_INSN1(ret, &dummy_line_node, putobject, Qtrue);
}
return;
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case PM_UNDEF_NODE: {
pm_undef_node_t *undef_node = (pm_undef_node_t *) node;
for (size_t index = 0; index < undef_node->names.size; index++) {
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_VMCORE));
ADD_INSN1(ret, &dummy_line_node, putspecialobject, INT2FIX(VM_SPECIAL_OBJECT_CBASE));
PM_COMPILE_NOT_POPPED(undef_node->names.nodes[index]);
ADD_SEND(ret, &dummy_line_node, id_core_undef_method, INT2NUM(2));
if (index < undef_node->names.size - 1) {
PM_POP;
}
}
PM_POP_IF_POPPED;
return;
}
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case PM_UNLESS_NODE: {
const int line = (int)pm_newline_list_line_column(&(parser->newline_list), node->location.start).line;
pm_unless_node_t *unless_node = (pm_unless_node_t *)node;
pm_node_t *node_body = (pm_node_t *)(unless_node->statements);
pm_statements_node_t *node_else = NULL;
if (unless_node->consequent != NULL) {
node_else = ((pm_else_node_t *)unless_node->consequent)->statements;
}
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pm_node_t *predicate = unless_node->predicate;
pm_compile_if(iseq, line, node_else, node_body, predicate, ret, src, popped, scope_node);
return;
}
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case PM_UNTIL_NODE: {
pm_until_node_t *until_node = (pm_until_node_t *)node;
pm_statements_node_t *statements = until_node->statements;
pm_node_t *predicate = until_node->predicate;
pm_node_flags_t flags = node->flags;
pm_compile_while(iseq, lineno, flags, node->type, statements, predicate, ret, src, popped, scope_node);
return;
}
case PM_WHEN_NODE: {
rb_bug("Should not ever enter a when node directly");
return;
}
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case PM_WHILE_NODE: {
pm_while_node_t *while_node = (pm_while_node_t *)node;
pm_statements_node_t *statements = while_node->statements;
pm_node_t *predicate = while_node->predicate;
pm_node_flags_t flags = node->flags;
pm_compile_while(iseq, lineno, flags, node->type, statements, predicate, ret, src, popped, scope_node);
return;
}
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case PM_X_STRING_NODE: {
pm_x_string_node_t *xstring_node = (pm_x_string_node_t *) node;
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PM_PUTSELF;
ADD_INSN1(ret, &dummy_line_node, putobject, parse_string(&xstring_node->unescaped, parser));
ADD_SEND_WITH_FLAG(ret, &dummy_line_node, idBackquote, INT2NUM(1), INT2FIX(VM_CALL_FCALL | VM_CALL_ARGS_SIMPLE));
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PM_POP_IF_POPPED;
return;
}
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case PM_YIELD_NODE: {
pm_yield_node_t *yield_node = (pm_yield_node_t *)node;
int flags = 0;
struct rb_callinfo_kwarg *keywords = NULL;
int argc = 0;
if (yield_node->arguments) {
argc = pm_setup_args(yield_node->arguments, &flags, &keywords, iseq, ret, src, popped, scope_node, dummy_line_node, parser);
}
ADD_INSN1(ret, &dummy_line_node, invokeblock, new_callinfo(iseq, 0, argc, flags, keywords, FALSE));
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PM_POP_IF_POPPED;
int level = 0;
const rb_iseq_t *tmp_iseq = iseq;
for (; tmp_iseq != ISEQ_BODY(iseq)->local_iseq; level++ ) {
tmp_iseq = ISEQ_BODY(tmp_iseq)->parent_iseq;
}
if (level > 0) access_outer_variables(iseq, level, rb_intern("yield"), true);
return;
}
default:
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rb_raise(rb_eNotImpError, "node type %s not implemented", pm_node_type_to_str(PM_NODE_TYPE(node)));
return;
}
}
static VALUE
rb_translate_prism(pm_parser_t *parser, rb_iseq_t *iseq, pm_scope_node_t *scope_node, LINK_ANCHOR *const ret)
{
RUBY_ASSERT(ISEQ_COMPILE_DATA(iseq));
ID *constants = calloc(parser->constant_pool.size, sizeof(ID));
rb_encoding *encoding = rb_enc_find(parser->encoding.name);
for (uint32_t index = 0; index < parser->constant_pool.size; index++) {
pm_constant_t *constant = &parser->constant_pool.constants[index];
constants[index] = rb_intern3((const char *) constant->start, constant->length, encoding);
}
st_table *index_lookup_table = st_init_numtable();
pm_constant_id_list_t *locals = &scope_node->locals;
for (size_t i = 0; i < locals->size; i++) {
st_insert(index_lookup_table, locals->ids[i], i);
}
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scope_node->constants = constants;
scope_node->index_lookup_table = index_lookup_table;
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pm_compile_node(iseq, (pm_node_t *)scope_node, ret, scope_node->base.location.start, false, (pm_scope_node_t *)scope_node);
iseq_set_sequence(iseq, ret);
free(constants);
return Qnil;
}
#undef NEW_ISEQ
#define NEW_ISEQ OLD_ISEQ
#undef NEW_CHILD_ISEQ
#define NEW_CHILD_ISEQ OLD_CHILD_ISEQ