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hash.c
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hash.c
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/**********************************************************************
hash.c -
$Author$
created at: Mon Nov 22 18:51:18 JST 1993
Copyright (C) 1993-2007 Yukihiro Matsumoto
Copyright (C) 2000 Network Applied Communication Laboratory, Inc.
Copyright (C) 2000 Information-technology Promotion Agency, Japan
**********************************************************************/
#include "ruby/ruby.h"
#include "ruby/st.h"
#include "ruby/util.h"
#include "ruby/encoding.h"
#include <errno.h>
#ifdef __APPLE__
#include <crt_externs.h>
#endif
static VALUE rb_hash_s_try_convert(VALUE, VALUE);
#define HASH_DELETED FL_USER1
#define HASH_PROC_DEFAULT FL_USER2
VALUE
rb_hash_freeze(VALUE hash)
{
return rb_obj_freeze(hash);
}
VALUE rb_cHash;
static VALUE envtbl;
static ID id_hash, id_yield, id_default;
static int
rb_any_cmp(VALUE a, VALUE b)
{
if (a == b) return 0;
if (FIXNUM_P(a) && FIXNUM_P(b)) {
return a != b;
}
if (TYPE(a) == T_STRING && RBASIC(a)->klass == rb_cString &&
TYPE(b) == T_STRING && RBASIC(b)->klass == rb_cString) {
return rb_str_hash_cmp(a, b);
}
if (a == Qundef || b == Qundef) return -1;
if (SYMBOL_P(a) && SYMBOL_P(b)) {
return a != b;
}
return !rb_eql(a, b);
}
VALUE
rb_hash(VALUE obj)
{
VALUE hval = rb_funcall(obj, id_hash, 0);
retry:
switch (TYPE(hval)) {
case T_FIXNUM:
return hval;
case T_BIGNUM:
return LONG2FIX(((long*)(RBIGNUM_DIGITS(hval)))[0]);
default:
hval = rb_to_int(hval);
goto retry;
}
}
static st_index_t
rb_any_hash(VALUE a)
{
VALUE hval;
st_index_t hnum;
switch (TYPE(a)) {
case T_FIXNUM:
case T_SYMBOL:
case T_NIL:
case T_FALSE:
case T_TRUE:
hnum = rb_hash_end(rb_hash_start((unsigned int)a));
break;
case T_STRING:
hnum = rb_str_hash(a);
break;
default:
hval = rb_hash(a);
hnum = FIX2LONG(hval);
}
hnum <<= 1;
return (st_index_t)RSHIFT(hnum, 1);
}
static const struct st_hash_type objhash = {
rb_any_cmp,
rb_any_hash,
};
static const struct st_hash_type identhash = {
st_numcmp,
st_numhash,
};
typedef int st_foreach_func(st_data_t, st_data_t, st_data_t);
struct foreach_safe_arg {
st_table *tbl;
st_foreach_func *func;
st_data_t arg;
};
static int
foreach_safe_i(st_data_t key, st_data_t value, struct foreach_safe_arg *arg)
{
int status;
if (key == Qundef) return ST_CONTINUE;
status = (*arg->func)(key, value, arg->arg);
if (status == ST_CONTINUE) {
return ST_CHECK;
}
return status;
}
void
st_foreach_safe(st_table *table, int (*func)(ANYARGS), st_data_t a)
{
struct foreach_safe_arg arg;
arg.tbl = table;
arg.func = (st_foreach_func *)func;
arg.arg = a;
if (st_foreach(table, foreach_safe_i, (st_data_t)&arg)) {
rb_raise(rb_eRuntimeError, "hash modified during iteration");
}
}
typedef int rb_foreach_func(VALUE, VALUE, VALUE);
struct hash_foreach_arg {
VALUE hash;
rb_foreach_func *func;
VALUE arg;
};
static int
hash_foreach_iter(st_data_t key, st_data_t value, struct hash_foreach_arg *arg)
{
int status;
st_table *tbl;
tbl = RHASH(arg->hash)->ntbl;
if ((VALUE)key == Qundef) return ST_CONTINUE;
status = (*arg->func)((VALUE)key, (VALUE)value, arg->arg);
if (RHASH(arg->hash)->ntbl != tbl) {
rb_raise(rb_eRuntimeError, "rehash occurred during iteration");
}
switch (status) {
case ST_DELETE:
st_delete_safe(tbl, &key, 0, Qundef);
FL_SET(arg->hash, HASH_DELETED);
case ST_CONTINUE:
break;
case ST_STOP:
return ST_STOP;
}
return ST_CHECK;
}
static VALUE
hash_foreach_ensure(VALUE hash)
{
RHASH(hash)->iter_lev--;
if (RHASH(hash)->iter_lev == 0) {
if (FL_TEST(hash, HASH_DELETED)) {
st_cleanup_safe(RHASH(hash)->ntbl, Qundef);
FL_UNSET(hash, HASH_DELETED);
}
}
return 0;
}
static VALUE
hash_foreach_call(struct hash_foreach_arg *arg)
{
if (st_foreach(RHASH(arg->hash)->ntbl, hash_foreach_iter, (st_data_t)arg)) {
rb_raise(rb_eRuntimeError, "hash modified during iteration");
}
return Qnil;
}
void
rb_hash_foreach(VALUE hash, int (*func)(ANYARGS), VALUE farg)
{
struct hash_foreach_arg arg;
if (!RHASH(hash)->ntbl)
return;
RHASH(hash)->iter_lev++;
arg.hash = hash;
arg.func = (rb_foreach_func *)func;
arg.arg = farg;
rb_ensure(hash_foreach_call, (VALUE)&arg, hash_foreach_ensure, hash);
}
static VALUE
hash_alloc(VALUE klass)
{
NEWOBJ(hash, struct RHash);
OBJSETUP(hash, klass, T_HASH);
RHASH_IFNONE(hash) = Qnil;
return (VALUE)hash;
}
VALUE
rb_hash_new(void)
{
return hash_alloc(rb_cHash);
}
VALUE
rb_hash_dup(VALUE hash)
{
NEWOBJ(ret, struct RHash);
DUPSETUP(ret, hash);
if (!RHASH_EMPTY_P(hash))
ret->ntbl = st_copy(RHASH(hash)->ntbl);
if (FL_TEST(hash, HASH_PROC_DEFAULT)) {
FL_SET(ret, HASH_PROC_DEFAULT);
}
RHASH_IFNONE(ret) = RHASH_IFNONE(hash);
return (VALUE)ret;
}
static void
rb_hash_modify_check(VALUE hash)
{
rb_check_frozen(hash);
if (!OBJ_UNTRUSTED(hash) && rb_safe_level() >= 4)
rb_raise(rb_eSecurityError, "Insecure: can't modify hash");
}
struct st_table *
rb_hash_tbl(VALUE hash)
{
if (!RHASH(hash)->ntbl) {
RHASH(hash)->ntbl = st_init_table(&objhash);
}
return RHASH(hash)->ntbl;
}
static void
rb_hash_modify(VALUE hash)
{
rb_hash_modify_check(hash);
rb_hash_tbl(hash);
}
static void
hash_update(VALUE hash, VALUE key)
{
if (RHASH(hash)->iter_lev > 0 && !st_lookup(RHASH(hash)->ntbl, key, 0)) {
rb_raise(rb_eRuntimeError, "can't add a new key into hash during iteration");
}
}
static void
default_proc_arity_check(VALUE proc)
{
int n = rb_proc_arity(proc);
if (rb_proc_lambda_p(proc) && n != 2 && (n >= 0 || n < -3)) {
if (n < 0) n = -n-1;
rb_raise(rb_eTypeError, "default_proc takes two arguments (2 for %d)", n);
}
}
/*
* call-seq:
* Hash.new -> new_hash
* Hash.new(obj) -> new_hash
* Hash.new {|hash, key| block } -> new_hash
*
* Returns a new, empty hash. If this hash is subsequently accessed by
* a key that doesn't correspond to a hash entry, the value returned
* depends on the style of <code>new</code> used to create the hash. In
* the first form, the access returns <code>nil</code>. If
* <i>obj</i> is specified, this single object will be used for
* all <em>default values</em>. If a block is specified, it will be
* called with the hash object and the key, and should return the
* default value. It is the block's responsibility to store the value
* in the hash if required.
*
* h = Hash.new("Go Fish")
* h["a"] = 100
* h["b"] = 200
* h["a"] #=> 100
* h["c"] #=> "Go Fish"
* # The following alters the single default object
* h["c"].upcase! #=> "GO FISH"
* h["d"] #=> "GO FISH"
* h.keys #=> ["a", "b"]
*
* # While this creates a new default object each time
* h = Hash.new { |hash, key| hash[key] = "Go Fish: #{key}" }
* h["c"] #=> "Go Fish: c"
* h["c"].upcase! #=> "GO FISH: C"
* h["d"] #=> "Go Fish: d"
* h.keys #=> ["c", "d"]
*
*/
static VALUE
rb_hash_initialize(int argc, VALUE *argv, VALUE hash)
{
VALUE ifnone;
rb_hash_modify(hash);
if (rb_block_given_p()) {
if (argc > 0) {
rb_raise(rb_eArgError, "wrong number of arguments");
}
ifnone = rb_block_proc();
default_proc_arity_check(ifnone);
RHASH_IFNONE(hash) = ifnone;
FL_SET(hash, HASH_PROC_DEFAULT);
}
else {
rb_scan_args(argc, argv, "01", &ifnone);
RHASH_IFNONE(hash) = ifnone;
}
return hash;
}
/*
* call-seq:
* Hash[ key, value, ... ] -> new_hash
* Hash[ [ [key, value], ... ] ] -> new_hash
* Hash[ object ] -> new_hash
*
* Creates a new hash populated with the given objects. Equivalent to
* the literal <code>{ <i>key</i> => <i>value</i>, ... }</code>. In the first
* form, keys and values occur in pairs, so there must be an even number of arguments.
* The second and third form take a single argument which is either
* an array of key-value pairs or an object convertible to a hash.
*
* Hash["a", 100, "b", 200] #=> {"a"=>100, "b"=>200}
* Hash[ [ ["a", 100], ["b", 200] ] ] #=> {"a"=>100, "b"=>200}
* Hash["a" => 100, "b" => 200] #=> {"a"=>100, "b"=>200}
*/
static VALUE
rb_hash_s_create(int argc, VALUE *argv, VALUE klass)
{
VALUE hash, tmp;
int i;
if (argc == 1) {
tmp = rb_hash_s_try_convert(Qnil, argv[0]);
if (!NIL_P(tmp)) {
hash = hash_alloc(klass);
if (RHASH(tmp)->ntbl) {
RHASH(hash)->ntbl = st_copy(RHASH(tmp)->ntbl);
}
return hash;
}
tmp = rb_check_array_type(argv[0]);
if (!NIL_P(tmp)) {
long i;
hash = hash_alloc(klass);
for (i = 0; i < RARRAY_LEN(tmp); ++i) {
VALUE v = rb_check_array_type(RARRAY_PTR(tmp)[i]);
VALUE key, val = Qnil;
if (NIL_P(v)) continue;
switch (RARRAY_LEN(v)) {
case 2:
val = RARRAY_PTR(v)[1];
case 1:
key = RARRAY_PTR(v)[0];
rb_hash_aset(hash, key, val);
}
}
return hash;
}
}
if (argc % 2 != 0) {
rb_raise(rb_eArgError, "odd number of arguments for Hash");
}
hash = hash_alloc(klass);
for (i=0; i<argc; i+=2) {
rb_hash_aset(hash, argv[i], argv[i + 1]);
}
return hash;
}
static VALUE
to_hash(VALUE hash)
{
return rb_convert_type(hash, T_HASH, "Hash", "to_hash");
}
VALUE
rb_check_hash_type(VALUE hash)
{
return rb_check_convert_type(hash, T_HASH, "Hash", "to_hash");
}
/*
* call-seq:
* Hash.try_convert(obj) -> hash or nil
*
* Try to convert <i>obj</i> into a hash, using to_hash method.
* Returns converted hash or nil if <i>obj</i> cannot be converted
* for any reason.
*
* Hash.try_convert({1=>2}) # => {1=>2}
* Hash.try_convert("1=>2") # => nil
*/
static VALUE
rb_hash_s_try_convert(VALUE dummy, VALUE hash)
{
return rb_check_hash_type(hash);
}
static int
rb_hash_rehash_i(VALUE key, VALUE value, VALUE arg)
{
st_table *tbl = (st_table *)arg;
if (key != Qundef) st_insert(tbl, key, value);
return ST_CONTINUE;
}
/*
* call-seq:
* hsh.rehash -> hsh
*
* Rebuilds the hash based on the current hash values for each key. If
* values of key objects have changed since they were inserted, this
* method will reindex <i>hsh</i>. If <code>Hash#rehash</code> is
* called while an iterator is traversing the hash, an
* <code>RuntimeError</code> will be raised in the iterator.
*
* a = [ "a", "b" ]
* c = [ "c", "d" ]
* h = { a => 100, c => 300 }
* h[a] #=> 100
* a[0] = "z"
* h[a] #=> nil
* h.rehash #=> {["z", "b"]=>100, ["c", "d"]=>300}
* h[a] #=> 100
*/
static VALUE
rb_hash_rehash(VALUE hash)
{
st_table *tbl;
if (RHASH(hash)->iter_lev > 0) {
rb_raise(rb_eRuntimeError, "rehash during iteration");
}
rb_hash_modify_check(hash);
if (!RHASH(hash)->ntbl)
return hash;
tbl = st_init_table_with_size(RHASH(hash)->ntbl->type, RHASH(hash)->ntbl->num_entries);
rb_hash_foreach(hash, rb_hash_rehash_i, (VALUE)tbl);
st_free_table(RHASH(hash)->ntbl);
RHASH(hash)->ntbl = tbl;
return hash;
}
/*
* call-seq:
* hsh[key] -> value
*
* Element Reference---Retrieves the <i>value</i> object corresponding
* to the <i>key</i> object. If not found, returns the default value (see
* <code>Hash::new</code> for details).
*
* h = { "a" => 100, "b" => 200 }
* h["a"] #=> 100
* h["c"] #=> nil
*
*/
VALUE
rb_hash_aref(VALUE hash, VALUE key)
{
st_data_t val;
if (!RHASH(hash)->ntbl || !st_lookup(RHASH(hash)->ntbl, key, &val)) {
int rb_method_basic_definition_p(VALUE klass, ID id);
if (!FL_TEST(hash, HASH_PROC_DEFAULT) &&
rb_method_basic_definition_p(CLASS_OF(hash), id_default)) {
return RHASH_IFNONE(hash);
}
else {
return rb_funcall(hash, id_default, 1, key);
}
}
return (VALUE)val;
}
VALUE
rb_hash_lookup2(VALUE hash, VALUE key, VALUE def)
{
st_data_t val;
if (!RHASH(hash)->ntbl || !st_lookup(RHASH(hash)->ntbl, key, &val)) {
return def; /* without Hash#default */
}
return (VALUE)val;
}
VALUE
rb_hash_lookup(VALUE hash, VALUE key)
{
return rb_hash_lookup2(hash, key, Qnil);
}
/*
* call-seq:
* hsh.fetch(key [, default] ) -> obj
* hsh.fetch(key) {| key | block } -> obj
*
* Returns a value from the hash for the given key. If the key can't be
* found, there are several options: With no other arguments, it will
* raise an <code>KeyError</code> exception; if <i>default</i> is
* given, then that will be returned; if the optional code block is
* specified, then that will be run and its result returned.
*
* h = { "a" => 100, "b" => 200 }
* h.fetch("a") #=> 100
* h.fetch("z", "go fish") #=> "go fish"
* h.fetch("z") { |el| "go fish, #{el}"} #=> "go fish, z"
*
* The following example shows that an exception is raised if the key
* is not found and a default value is not supplied.
*
* h = { "a" => 100, "b" => 200 }
* h.fetch("z")
*
* <em>produces:</em>
*
* prog.rb:2:in `fetch': key not found (KeyError)
* from prog.rb:2
*
*/
static VALUE
rb_hash_fetch_m(int argc, VALUE *argv, VALUE hash)
{
VALUE key, if_none;
st_data_t val;
long block_given;
rb_scan_args(argc, argv, "11", &key, &if_none);
block_given = rb_block_given_p();
if (block_given && argc == 2) {
rb_warn("block supersedes default value argument");
}
if (!RHASH(hash)->ntbl || !st_lookup(RHASH(hash)->ntbl, key, &val)) {
if (block_given) return rb_yield(key);
if (argc == 1) {
volatile VALUE desc = rb_protect(rb_inspect, key, 0);
if (NIL_P(desc)) {
desc = rb_any_to_s(key);
}
desc = rb_str_ellipsize(desc, 65);
rb_raise(rb_eKeyError, "key not found: %s", RSTRING_PTR(desc));
}
return if_none;
}
return (VALUE)val;
}
VALUE
rb_hash_fetch(VALUE hash, VALUE key)
{
return rb_hash_fetch_m(1, &key, hash);
}
/*
* call-seq:
* hsh.default(key=nil) -> obj
*
* Returns the default value, the value that would be returned by
* <i>hsh</i>[<i>key</i>] if <i>key</i> did not exist in <i>hsh</i>.
* See also <code>Hash::new</code> and <code>Hash#default=</code>.
*
* h = Hash.new #=> {}
* h.default #=> nil
* h.default(2) #=> nil
*
* h = Hash.new("cat") #=> {}
* h.default #=> "cat"
* h.default(2) #=> "cat"
*
* h = Hash.new {|h,k| h[k] = k.to_i*10} #=> {}
* h.default #=> nil
* h.default(2) #=> 20
*/
static VALUE
rb_hash_default(int argc, VALUE *argv, VALUE hash)
{
VALUE key, ifnone;
rb_scan_args(argc, argv, "01", &key);
ifnone = RHASH_IFNONE(hash);
if (FL_TEST(hash, HASH_PROC_DEFAULT)) {
if (argc == 0) return Qnil;
return rb_funcall(ifnone, id_yield, 2, hash, key);
}
return ifnone;
}
/*
* call-seq:
* hsh.default = obj -> obj
*
* Sets the default value, the value returned for a key that does not
* exist in the hash. It is not possible to set the default to a
* <code>Proc</code> that will be executed on each key lookup.
*
* h = { "a" => 100, "b" => 200 }
* h.default = "Go fish"
* h["a"] #=> 100
* h["z"] #=> "Go fish"
* # This doesn't do what you might hope...
* h.default = proc do |hash, key|
* hash[key] = key + key
* end
* h[2] #=> #<Proc:0x401b3948@-:6>
* h["cat"] #=> #<Proc:0x401b3948@-:6>
*/
static VALUE
rb_hash_set_default(VALUE hash, VALUE ifnone)
{
rb_hash_modify(hash);
RHASH_IFNONE(hash) = ifnone;
FL_UNSET(hash, HASH_PROC_DEFAULT);
return ifnone;
}
/*
* call-seq:
* hsh.default_proc -> anObject
*
* If <code>Hash::new</code> was invoked with a block, return that
* block, otherwise return <code>nil</code>.
*
* h = Hash.new {|h,k| h[k] = k*k } #=> {}
* p = h.default_proc #=> #<Proc:0x401b3d08@-:1>
* a = [] #=> []
* p.call(a, 2)
* a #=> [nil, nil, 4]
*/
static VALUE
rb_hash_default_proc(VALUE hash)
{
if (FL_TEST(hash, HASH_PROC_DEFAULT)) {
return RHASH_IFNONE(hash);
}
return Qnil;
}
VALUE rb_obj_is_proc(VALUE proc);
/*
* call-seq:
* hsh.default_proc = proc_obj -> proc_obj
*
* Sets the default proc to be executed on each key lookup.
*
* h.default_proc = proc do |hash, key|
* hash[key] = key + key
* end
* h[2] #=> 4
* h["cat"] #=> "catcat"
*/
static VALUE
rb_hash_set_default_proc(VALUE hash, VALUE proc)
{
VALUE b;
rb_hash_modify(hash);
b = rb_check_convert_type(proc, T_DATA, "Proc", "to_proc");
if (NIL_P(b) || !rb_obj_is_proc(b)) {
rb_raise(rb_eTypeError,
"wrong default_proc type %s (expected Proc)",
rb_obj_classname(proc));
}
proc = b;
default_proc_arity_check(proc);
RHASH_IFNONE(hash) = proc;
FL_SET(hash, HASH_PROC_DEFAULT);
return proc;
}
static int
key_i(VALUE key, VALUE value, VALUE arg)
{
VALUE *args = (VALUE *)arg;
if (rb_equal(value, args[0])) {
args[1] = key;
return ST_STOP;
}
return ST_CONTINUE;
}
/*
* call-seq:
* hsh.key(value) -> key
*
* Returns the key for a given value. If not found, returns <code>nil</code>.
*
* h = { "a" => 100, "b" => 200 }
* h.key(200) #=> "b"
* h.key(999) #=> nil
*
*/
static VALUE
rb_hash_key(VALUE hash, VALUE value)
{
VALUE args[2];
args[0] = value;
args[1] = Qnil;
rb_hash_foreach(hash, key_i, (VALUE)args);
return args[1];
}
/* :nodoc: */
static VALUE
rb_hash_index(VALUE hash, VALUE value)
{
rb_warn("Hash#index is deprecated; use Hash#key");
return rb_hash_key(hash, value);
}
static VALUE
rb_hash_delete_key(VALUE hash, VALUE key)
{
st_data_t ktmp = (st_data_t)key, val;
if (!RHASH(hash)->ntbl)
return Qundef;
if (RHASH(hash)->iter_lev > 0) {
if (st_delete_safe(RHASH(hash)->ntbl, &ktmp, &val, Qundef)) {
FL_SET(hash, HASH_DELETED);
return (VALUE)val;
}
}
else if (st_delete(RHASH(hash)->ntbl, &ktmp, &val))
return (VALUE)val;
return Qundef;
}
/*
* call-seq:
* hsh.delete(key) -> value
* hsh.delete(key) {| key | block } -> value
*
* Deletes and returns a key-value pair from <i>hsh</i> whose key is
* equal to <i>key</i>. If the key is not found, returns the
* <em>default value</em>. If the optional code block is given and the
* key is not found, pass in the key and return the result of
* <i>block</i>.
*
* h = { "a" => 100, "b" => 200 }
* h.delete("a") #=> 100
* h.delete("z") #=> nil
* h.delete("z") { |el| "#{el} not found" } #=> "z not found"
*
*/
VALUE
rb_hash_delete(VALUE hash, VALUE key)
{
VALUE val;
rb_hash_modify(hash);
val = rb_hash_delete_key(hash, key);
if (val != Qundef) return val;
if (rb_block_given_p()) {
return rb_yield(key);
}
return Qnil;
}
struct shift_var {
VALUE key;
VALUE val;
};
static int
shift_i(VALUE key, VALUE value, VALUE arg)
{
struct shift_var *var = (struct shift_var *)arg;
if (key == Qundef) return ST_CONTINUE;
if (var->key != Qundef) return ST_STOP;
var->key = key;
var->val = value;
return ST_DELETE;
}
static int
shift_i_safe(VALUE key, VALUE value, VALUE arg)
{
struct shift_var *var = (struct shift_var *)arg;
if (key == Qundef) return ST_CONTINUE;
var->key = key;
var->val = value;
return ST_STOP;
}
/*
* call-seq:
* hsh.shift -> anArray or obj
*
* Removes a key-value pair from <i>hsh</i> and returns it as the
* two-item array <code>[</code> <i>key, value</i> <code>]</code>, or
* the hash's default value if the hash is empty.
*
* h = { 1 => "a", 2 => "b", 3 => "c" }
* h.shift #=> [1, "a"]
* h #=> {2=>"b", 3=>"c"}
*/
static VALUE
rb_hash_shift(VALUE hash)
{
struct shift_var var;
rb_hash_modify(hash);
var.key = Qundef;
rb_hash_foreach(hash, RHASH(hash)->iter_lev > 0 ? shift_i_safe : shift_i,
(VALUE)&var);
if (var.key != Qundef) {
if (RHASH(hash)->iter_lev > 0) {
rb_hash_delete_key(hash, var.key);
}
return rb_assoc_new(var.key, var.val);
}
else if (FL_TEST(hash, HASH_PROC_DEFAULT)) {
return rb_funcall(RHASH_IFNONE(hash), id_yield, 2, hash, Qnil);
}
else {
return RHASH_IFNONE(hash);
}
}
static int
delete_if_i(VALUE key, VALUE value, VALUE hash)
{
if (key == Qundef) return ST_CONTINUE;
if (RTEST(rb_yield_values(2, key, value))) {
rb_hash_delete_key(hash, key);
}
return ST_CONTINUE;
}
/*
* call-seq:
* hsh.delete_if {| key, value | block } -> hsh
* hsh.delete_if -> an_enumerator
*
* Deletes every key-value pair from <i>hsh</i> for which <i>block</i>
* evaluates to <code>true</code>.
*
* If no block is given, an enumerator is returned instead.
*
* h = { "a" => 100, "b" => 200, "c" => 300 }
* h.delete_if {|key, value| key >= "b" } #=> {"a"=>100}
*
*/
VALUE
rb_hash_delete_if(VALUE hash)
{
RETURN_ENUMERATOR(hash, 0, 0);
rb_hash_modify(hash);
rb_hash_foreach(hash, delete_if_i, hash);
return hash;
}
/*
* call-seq:
* hsh.reject! {| key, value | block } -> hsh or nil
* hsh.reject! -> an_enumerator
*
* Equivalent to <code>Hash#delete_if</code>, but returns
* <code>nil</code> if no changes were made.
*/
VALUE
rb_hash_reject_bang(VALUE hash)
{
st_index_t n;
RETURN_ENUMERATOR(hash, 0, 0);
rb_hash_modify(hash);
if (!RHASH(hash)->ntbl)
return Qnil;
n = RHASH(hash)->ntbl->num_entries;
rb_hash_foreach(hash, delete_if_i, hash);
if (n == RHASH(hash)->ntbl->num_entries) return Qnil;
return hash;
}
/*
* call-seq:
* hsh.reject {| key, value | block } -> a_hash
*
* Same as <code>Hash#delete_if</code>, but works on (and returns) a
* copy of the <i>hsh</i>. Equivalent to
* <code><i>hsh</i>.dup.delete_if</code>.
*
*/
static VALUE
rb_hash_reject(VALUE hash)
{
return rb_hash_delete_if(rb_obj_dup(hash));
}
/*
* call-seq:
* hsh.values_at(key, ...) -> array
*
* Return an array containing the values associated with the given keys.
* Also see <code>Hash.select</code>.
*
* h = { "cat" => "feline", "dog" => "canine", "cow" => "bovine" }
* h.values_at("cow", "cat") #=> ["bovine", "feline"]
*/
VALUE
rb_hash_values_at(int argc, VALUE *argv, VALUE hash)
{
VALUE result = rb_ary_new2(argc);
long i;
for (i=0; i<argc; i++) {
rb_ary_push(result, rb_hash_aref(hash, argv[i]));
}
return result;
}
static int
select_i(VALUE key, VALUE value, VALUE result)
{
if (key == Qundef) return ST_CONTINUE;
if (RTEST(rb_yield_values(2, key, value)))
rb_hash_aset(result, key, value);
return ST_CONTINUE;
}
/*
* call-seq:
* hsh.select {|key, value| block} -> a_hash
* hsh.select -> an_enumerator
*
* Returns a new hash consisting of entries for which the block returns true.
*
* If no block is given, an enumerator is returned instead.