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array.c
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array.c
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/**********************************************************************
array.c -
$Author$
created at: Fri Aug 6 09:46:12 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/util.h"
#include "ruby/st.h"
#include "ruby/encoding.h"
#ifndef ARRAY_DEBUG
# define NDEBUG
#endif
#include <assert.h>
#define numberof(array) (int)(sizeof(array) / sizeof((array)[0]))
VALUE rb_cArray;
static ID id_cmp;
#define ARY_DEFAULT_SIZE 16
#define ARY_MAX_SIZE (LONG_MAX / (int)sizeof(VALUE))
void
rb_mem_clear(register VALUE *mem, register long size)
{
while (size--) {
*mem++ = Qnil;
}
}
static inline void
memfill(register VALUE *mem, register long size, register VALUE val)
{
while (size--) {
*mem++ = val;
}
}
# define ARY_SHARED_P(ary) \
(assert(!FL_TEST((ary), ELTS_SHARED) || !FL_TEST((ary), RARRAY_EMBED_FLAG)), \
FL_TEST((ary),ELTS_SHARED)!=0)
# define ARY_EMBED_P(ary) \
(assert(!FL_TEST((ary), ELTS_SHARED) || !FL_TEST((ary), RARRAY_EMBED_FLAG)), \
FL_TEST((ary), RARRAY_EMBED_FLAG)!=0)
#define ARY_HEAP_PTR(a) (assert(!ARY_EMBED_P(a)), RARRAY(a)->as.heap.ptr)
#define ARY_HEAP_LEN(a) (assert(!ARY_EMBED_P(a)), RARRAY(a)->as.heap.len)
#define ARY_EMBED_PTR(a) (assert(ARY_EMBED_P(a)), RARRAY(a)->as.ary)
#define ARY_EMBED_LEN(a) \
(assert(ARY_EMBED_P(a)), \
(long)((RBASIC(a)->flags >> RARRAY_EMBED_LEN_SHIFT) & \
(RARRAY_EMBED_LEN_MASK >> RARRAY_EMBED_LEN_SHIFT)))
#define ARY_OWNS_HEAP_P(a) (!FL_TEST((a), ELTS_SHARED|RARRAY_EMBED_FLAG))
#define FL_SET_EMBED(a) do { \
assert(!ARY_SHARED_P(a)); \
assert(!OBJ_FROZEN(a)); \
FL_SET((a), RARRAY_EMBED_FLAG); \
} while (0)
#define FL_UNSET_EMBED(ary) FL_UNSET((ary), RARRAY_EMBED_FLAG|RARRAY_EMBED_LEN_MASK)
#define FL_SET_SHARED(ary) do { \
assert(!ARY_EMBED_P(ary)); \
FL_SET((ary), ELTS_SHARED); \
} while (0)
#define FL_UNSET_SHARED(ary) FL_UNSET((ary), ELTS_SHARED)
#define ARY_SET_PTR(ary, p) do { \
assert(!ARY_EMBED_P(ary)); \
assert(!OBJ_FROZEN(ary)); \
RARRAY(ary)->as.heap.ptr = (p); \
} while (0)
#define ARY_SET_EMBED_LEN(ary, n) do { \
long tmp_n = (n); \
assert(ARY_EMBED_P(ary)); \
assert(!OBJ_FROZEN(ary)); \
RBASIC(ary)->flags &= ~RARRAY_EMBED_LEN_MASK; \
RBASIC(ary)->flags |= (tmp_n) << RARRAY_EMBED_LEN_SHIFT; \
} while (0)
#define ARY_SET_HEAP_LEN(ary, n) do { \
assert(!ARY_EMBED_P(ary)); \
RARRAY(ary)->as.heap.len = (n); \
} while (0)
#define ARY_SET_LEN(ary, n) do { \
if (ARY_EMBED_P(ary)) { \
ARY_SET_EMBED_LEN((ary), (n)); \
} \
else { \
ARY_SET_HEAP_LEN((ary), (n)); \
} \
assert(RARRAY_LEN(ary) == (n)); \
} while (0)
#define ARY_INCREASE_PTR(ary, n) do { \
assert(!ARY_EMBED_P(ary)); \
assert(!OBJ_FROZEN(ary)); \
RARRAY(ary)->as.heap.ptr += (n); \
} while (0)
#define ARY_INCREASE_LEN(ary, n) do { \
assert(!OBJ_FROZEN(ary)); \
if (ARY_EMBED_P(ary)) { \
ARY_SET_EMBED_LEN((ary), RARRAY_LEN(ary)+(n)); \
} \
else { \
RARRAY(ary)->as.heap.len += (n); \
} \
} while (0)
#define ARY_CAPA(ary) (ARY_EMBED_P(ary) ? RARRAY_EMBED_LEN_MAX : \
ARY_SHARED_ROOT_P(ary) ? RARRAY_LEN(ary) : RARRAY(ary)->as.heap.aux.capa)
#define ARY_SET_CAPA(ary, n) do { \
assert(!ARY_EMBED_P(ary)); \
assert(!ARY_SHARED_P(ary)); \
assert(!OBJ_FROZEN(ary)); \
RARRAY(ary)->as.heap.aux.capa = (n); \
} while (0)
#define ARY_SHARED(ary) (assert(ARY_SHARED_P(ary)), RARRAY(ary)->as.heap.aux.shared)
#define ARY_SET_SHARED(ary, value) do { \
assert(!ARY_EMBED_P(ary)); \
assert(ARY_SHARED_P(ary)); \
assert(ARY_SHARED_ROOT_P(value)); \
RARRAY(ary)->as.heap.aux.shared = (value); \
} while (0)
#define RARRAY_SHARED_ROOT_FLAG FL_USER5
#define ARY_SHARED_ROOT_P(ary) (FL_TEST((ary), RARRAY_SHARED_ROOT_FLAG))
#define ARY_SHARED_NUM(ary) \
(assert(ARY_SHARED_ROOT_P(ary)), RARRAY(ary)->as.heap.aux.capa)
#define ARY_SET_SHARED_NUM(ary, value) do { \
assert(ARY_SHARED_ROOT_P(ary)); \
RARRAY(ary)->as.heap.aux.capa = (value); \
} while (0)
#define FL_SET_SHARED_ROOT(ary) do { \
assert(!ARY_EMBED_P(ary)); \
FL_SET((ary), RARRAY_SHARED_ROOT_FLAG); \
} while (0)
static void
ary_resize_capa(VALUE ary, long capacity)
{
assert(RARRAY_LEN(ary) <= capacity);
assert(!OBJ_FROZEN(ary));
assert(!ARY_SHARED_P(ary));
if (capacity > RARRAY_EMBED_LEN_MAX) {
if (ARY_EMBED_P(ary)) {
long len = ARY_EMBED_LEN(ary);
VALUE *ptr = ALLOC_N(VALUE, (capacity));
MEMCPY(ptr, ARY_EMBED_PTR(ary), VALUE, len);
FL_UNSET_EMBED(ary);
ARY_SET_PTR(ary, ptr);
ARY_SET_HEAP_LEN(ary, len);
}
else {
REALLOC_N(RARRAY(ary)->as.heap.ptr, VALUE, (capacity));
}
ARY_SET_CAPA(ary, (capacity));
}
else {
if (!ARY_EMBED_P(ary)) {
long len = RARRAY_LEN(ary);
VALUE *ptr = RARRAY_PTR(ary);
if (len > capacity) len = capacity;
MEMCPY(RARRAY(ary)->as.ary, ptr, VALUE, len);
FL_SET_EMBED(ary);
ARY_SET_LEN(ary, len);
xfree(ptr);
}
}
}
static void
ary_double_capa(VALUE ary, long min)
{
long new_capa = ARY_CAPA(ary) / 2;
if (new_capa < ARY_DEFAULT_SIZE) {
new_capa = ARY_DEFAULT_SIZE;
}
if (new_capa >= ARY_MAX_SIZE - min) {
new_capa = (ARY_MAX_SIZE - min) / 2;
}
new_capa += min;
ary_resize_capa(ary, new_capa);
}
static void
rb_ary_decrement_share(VALUE shared)
{
if (shared) {
long num = ARY_SHARED_NUM(shared) - 1;
if (num == 0) {
rb_ary_free(shared);
rb_gc_force_recycle(shared);
}
else if (num > 0) {
ARY_SET_SHARED_NUM(shared, num);
}
}
}
static void
rb_ary_unshare(VALUE ary)
{
VALUE shared = RARRAY(ary)->as.heap.aux.shared;
rb_ary_decrement_share(shared);
FL_UNSET_SHARED(ary);
}
static inline void
rb_ary_unshare_safe(VALUE ary)
{
if (ARY_SHARED_P(ary) && !ARY_EMBED_P(ary)) {
rb_ary_unshare(ary);
}
}
static VALUE
rb_ary_increment_share(VALUE shared)
{
long num = ARY_SHARED_NUM(shared);
if (num >= 0) {
ARY_SET_SHARED_NUM(shared, num + 1);
}
return shared;
}
static void
rb_ary_set_shared(VALUE ary, VALUE shared)
{
rb_ary_increment_share(shared);
FL_SET_SHARED(ary);
ARY_SET_SHARED(ary, shared);
}
static inline void
rb_ary_modify_check(VALUE ary)
{
rb_check_frozen(ary);
if (!OBJ_UNTRUSTED(ary) && rb_safe_level() >= 4)
rb_raise(rb_eSecurityError, "Insecure: can't modify array");
}
void
rb_ary_modify(VALUE ary)
{
rb_ary_modify_check(ary);
if (ARY_SHARED_P(ary)) {
long len = RARRAY_LEN(ary);
if (len <= RARRAY_EMBED_LEN_MAX) {
VALUE *ptr = ARY_HEAP_PTR(ary);
VALUE shared = ARY_SHARED(ary);
FL_UNSET_SHARED(ary);
FL_SET_EMBED(ary);
MEMCPY(ARY_EMBED_PTR(ary), ptr, VALUE, len);
rb_ary_decrement_share(shared);
ARY_SET_EMBED_LEN(ary, len);
}
else {
VALUE *ptr = ALLOC_N(VALUE, len);
MEMCPY(ptr, RARRAY_PTR(ary), VALUE, len);
rb_ary_unshare(ary);
ARY_SET_CAPA(ary, len);
ARY_SET_PTR(ary, ptr);
}
}
}
VALUE
rb_ary_freeze(VALUE ary)
{
return rb_obj_freeze(ary);
}
/*
* call-seq:
* ary.frozen? -> true or false
*
* Return <code>true</code> if this array is frozen (or temporarily frozen
* while being sorted).
*/
static VALUE
rb_ary_frozen_p(VALUE ary)
{
if (OBJ_FROZEN(ary)) return Qtrue;
return Qfalse;
}
static VALUE
ary_alloc(VALUE klass)
{
NEWOBJ(ary, struct RArray);
OBJSETUP(ary, klass, T_ARRAY);
FL_SET_EMBED((VALUE)ary);
ARY_SET_EMBED_LEN((VALUE)ary, 0);
return (VALUE)ary;
}
static VALUE
ary_new(VALUE klass, long capa)
{
VALUE ary;
if (capa < 0) {
rb_raise(rb_eArgError, "negative array size (or size too big)");
}
if (capa > ARY_MAX_SIZE) {
rb_raise(rb_eArgError, "array size too big");
}
ary = ary_alloc(klass);
if (capa > RARRAY_EMBED_LEN_MAX) {
FL_UNSET_EMBED(ary);
ARY_SET_PTR(ary, ALLOC_N(VALUE, capa));
ARY_SET_CAPA(ary, capa);
ARY_SET_HEAP_LEN(ary, 0);
}
return ary;
}
VALUE
rb_ary_new2(long capa)
{
return ary_new(rb_cArray, capa);
}
VALUE
rb_ary_new(void)
{
return rb_ary_new2(RARRAY_EMBED_LEN_MAX);
}
#include <stdarg.h>
VALUE
rb_ary_new3(long n, ...)
{
va_list ar;
VALUE ary;
long i;
ary = rb_ary_new2(n);
va_start(ar, n);
for (i=0; i<n; i++) {
RARRAY_PTR(ary)[i] = va_arg(ar, VALUE);
}
va_end(ar);
ARY_SET_LEN(ary, n);
return ary;
}
VALUE
rb_ary_new4(long n, const VALUE *elts)
{
VALUE ary;
ary = rb_ary_new2(n);
if (n > 0 && elts) {
MEMCPY(RARRAY_PTR(ary), elts, VALUE, n);
ARY_SET_LEN(ary, n);
}
return ary;
}
VALUE
rb_ary_tmp_new(long capa)
{
return ary_new(0, capa);
}
void
rb_ary_free(VALUE ary)
{
if (ARY_OWNS_HEAP_P(ary)) {
xfree(ARY_HEAP_PTR(ary));
}
}
RUBY_FUNC_EXPORTED size_t
rb_ary_memsize(VALUE ary)
{
if (ARY_OWNS_HEAP_P(ary)) {
return RARRAY(ary)->as.heap.aux.capa * sizeof(VALUE);
}
else {
return 0;
}
}
static inline void
ary_discard(VALUE ary)
{
rb_ary_free(ary);
RBASIC(ary)->flags |= RARRAY_EMBED_FLAG;
RBASIC(ary)->flags &= ~RARRAY_EMBED_LEN_MASK;
}
static VALUE
ary_make_shared(VALUE ary)
{
assert(!ARY_EMBED_P(ary));
if (ARY_SHARED_P(ary)) {
return ARY_SHARED(ary);
}
else if (ARY_SHARED_ROOT_P(ary)) {
return ary;
}
else if (OBJ_FROZEN(ary)) {
ary_resize_capa(ary, ARY_HEAP_LEN(ary));
FL_SET_SHARED_ROOT(ary);
ARY_SET_SHARED_NUM(ary, 1);
return ary;
}
else {
NEWOBJ(shared, struct RArray);
OBJSETUP(shared, 0, T_ARRAY);
FL_UNSET_EMBED(shared);
ARY_SET_LEN((VALUE)shared, RARRAY_LEN(ary));
ARY_SET_PTR((VALUE)shared, RARRAY_PTR(ary));
FL_SET_SHARED_ROOT(shared);
ARY_SET_SHARED_NUM((VALUE)shared, 1);
FL_SET_SHARED(ary);
ARY_SET_SHARED(ary, (VALUE)shared);
OBJ_FREEZE(shared);
return (VALUE)shared;
}
}
static VALUE
ary_make_substitution(VALUE ary)
{
if (RARRAY_LEN(ary) <= RARRAY_EMBED_LEN_MAX) {
VALUE subst = rb_ary_new2(RARRAY_LEN(ary));
MEMCPY(ARY_EMBED_PTR(subst), RARRAY_PTR(ary), VALUE, RARRAY_LEN(ary));
ARY_SET_EMBED_LEN(subst, RARRAY_LEN(ary));
return subst;
}
else {
return rb_ary_increment_share(ary_make_shared(ary));
}
}
VALUE
rb_assoc_new(VALUE car, VALUE cdr)
{
return rb_ary_new3(2, car, cdr);
}
static VALUE
to_ary(VALUE ary)
{
return rb_convert_type(ary, T_ARRAY, "Array", "to_ary");
}
VALUE
rb_check_array_type(VALUE ary)
{
return rb_check_convert_type(ary, T_ARRAY, "Array", "to_ary");
}
/*
* call-seq:
* Array.try_convert(obj) -> array or nil
*
* Try to convert <i>obj</i> into an array, using +to_ary+ method.
* Returns converted array or +nil+ if <i>obj</i> cannot be converted
* for any reason. This method can be used to check if an argument is an
* array.
*
* Array.try_convert([1]) #=> [1]
* Array.try_convert("1") #=> nil
*
* if tmp = Array.try_convert(arg)
* # the argument is an array
* elsif tmp = String.try_convert(arg)
* # the argument is a string
* end
*
*/
static VALUE
rb_ary_s_try_convert(VALUE dummy, VALUE ary)
{
return rb_check_array_type(ary);
}
/*
* call-seq:
* Array.new(size=0, obj=nil)
* Array.new(array)
* Array.new(size) {|index| block }
*
* Returns a new array. In the first form, the new array is
* empty. In the second it is created with _size_ copies of _obj_
* (that is, _size_ references to the same
* _obj_). The third form creates a copy of the array
* passed as a parameter (the array is generated by calling
* to_ary on the parameter). In the last form, an array
* of the given size is created. Each element in this array is
* calculated by passing the element's index to the given block and
* storing the return value.
*
* Array.new
* Array.new(2)
* Array.new(5, "A")
*
* # only one copy of the object is created
* a = Array.new(2, Hash.new)
* a[0]['cat'] = 'feline'
* a
* a[1]['cat'] = 'Felix'
* a
*
* # here multiple copies are created
* a = Array.new(2) { Hash.new }
* a[0]['cat'] = 'feline'
* a
*
* squares = Array.new(5) {|i| i*i}
* squares
*
* copy = Array.new(squares)
*/
static VALUE
rb_ary_initialize(int argc, VALUE *argv, VALUE ary)
{
long len;
VALUE size, val;
rb_ary_modify(ary);
if (argc == 0) {
if (ARY_OWNS_HEAP_P(ary) && RARRAY_PTR(ary)) {
xfree(RARRAY_PTR(ary));
}
rb_ary_unshare_safe(ary);
FL_SET_EMBED(ary);
ARY_SET_EMBED_LEN(ary, 0);
if (rb_block_given_p()) {
rb_warning("given block not used");
}
return ary;
}
rb_scan_args(argc, argv, "02", &size, &val);
if (argc == 1 && !FIXNUM_P(size)) {
val = rb_check_array_type(size);
if (!NIL_P(val)) {
rb_ary_replace(ary, val);
return ary;
}
}
len = NUM2LONG(size);
if (len < 0) {
rb_raise(rb_eArgError, "negative array size");
}
if (len > ARY_MAX_SIZE) {
rb_raise(rb_eArgError, "array size too big");
}
rb_ary_modify(ary);
ary_resize_capa(ary, len);
if (rb_block_given_p()) {
long i;
if (argc == 2) {
rb_warn("block supersedes default value argument");
}
for (i=0; i<len; i++) {
rb_ary_store(ary, i, rb_yield(LONG2NUM(i)));
ARY_SET_LEN(ary, i + 1);
}
}
else {
memfill(RARRAY_PTR(ary), len, val);
ARY_SET_LEN(ary, len);
}
return ary;
}
/*
* Returns a new array populated with the given objects.
*
* Array.[]( 1, 'a', /^A/ )
* Array[ 1, 'a', /^A/ ]
* [ 1, 'a', /^A/ ]
*/
static VALUE
rb_ary_s_create(int argc, VALUE *argv, VALUE klass)
{
VALUE ary = ary_new(klass, argc);
if (argc > 0 && argv) {
MEMCPY(RARRAY_PTR(ary), argv, VALUE, argc);
ARY_SET_LEN(ary, argc);
}
return ary;
}
void
rb_ary_store(VALUE ary, long idx, VALUE val)
{
if (idx < 0) {
idx += RARRAY_LEN(ary);
if (idx < 0) {
rb_raise(rb_eIndexError, "index %ld too small for array; minimum: %ld",
idx - RARRAY_LEN(ary), -RARRAY_LEN(ary));
}
}
else if (idx >= ARY_MAX_SIZE) {
rb_raise(rb_eIndexError, "index %ld too big", idx);
}
rb_ary_modify(ary);
if (idx >= ARY_CAPA(ary)) {
ary_double_capa(ary, idx);
}
if (idx > RARRAY_LEN(ary)) {
rb_mem_clear(RARRAY_PTR(ary) + RARRAY_LEN(ary),
idx-RARRAY_LEN(ary) + 1);
}
if (idx >= RARRAY_LEN(ary)) {
ARY_SET_LEN(ary, idx + 1);
}
RARRAY_PTR(ary)[idx] = val;
}
static VALUE
ary_make_partial(VALUE ary, VALUE klass, long offset, long len)
{
assert(offset >= 0);
assert(len >= 0);
assert(offset+len <= RARRAY_LEN(ary));
if (len <= RARRAY_EMBED_LEN_MAX) {
VALUE result = ary_alloc(klass);
MEMCPY(ARY_EMBED_PTR(result), RARRAY_PTR(ary) + offset, VALUE, len);
ARY_SET_EMBED_LEN(result, len);
return result;
}
else {
VALUE shared, result = ary_alloc(klass);
FL_UNSET_EMBED(result);
shared = ary_make_shared(ary);
ARY_SET_PTR(result, RARRAY_PTR(ary));
ARY_SET_LEN(result, RARRAY_LEN(ary));
rb_ary_set_shared(result, shared);
ARY_INCREASE_PTR(result, offset);
ARY_SET_LEN(result, len);
return result;
}
}
static VALUE
ary_make_shared_copy(VALUE ary)
{
return ary_make_partial(ary, rb_obj_class(ary), 0, RARRAY_LEN(ary));
}
enum ary_take_pos_flags
{
ARY_TAKE_FIRST = 0,
ARY_TAKE_LAST = 1
};
static VALUE
ary_take_first_or_last(int argc, VALUE *argv, VALUE ary, enum ary_take_pos_flags last)
{
VALUE nv;
long n;
long offset = 0;
rb_scan_args(argc, argv, "1", &nv);
n = NUM2LONG(nv);
if (n > RARRAY_LEN(ary)) {
n = RARRAY_LEN(ary);
}
else if (n < 0) {
rb_raise(rb_eArgError, "negative array size");
}
if (last) {
offset = RARRAY_LEN(ary) - n;
}
return ary_make_partial(ary, rb_cArray, offset, n);
}
static VALUE rb_ary_push_1(VALUE ary, VALUE item);
/*
* call-seq:
* ary << obj -> ary
*
* Append---Pushes the given object on to the end of this array. This
* expression returns the array itself, so several appends
* may be chained together.
*
* [ 1, 2 ] << "c" << "d" << [ 3, 4 ]
* #=> [ 1, 2, "c", "d", [ 3, 4 ] ]
*
*/
VALUE
rb_ary_push(VALUE ary, VALUE item)
{
rb_ary_modify(ary);
return rb_ary_push_1(ary, item);
}
static VALUE
rb_ary_push_1(VALUE ary, VALUE item)
{
long idx = RARRAY_LEN(ary);
if (idx >= ARY_CAPA(ary)) {
ary_double_capa(ary, idx);
}
RARRAY_PTR(ary)[idx] = item;
ARY_SET_LEN(ary, idx + 1);
return ary;
}
/*
* call-seq:
* ary.push(obj, ... ) -> ary
*
* Append---Pushes the given object(s) on to the end of this array. This
* expression returns the array itself, so several appends
* may be chained together.
*
* a = [ "a", "b", "c" ]
* a.push("d", "e", "f")
* #=> ["a", "b", "c", "d", "e", "f"]
*/
static VALUE
rb_ary_push_m(int argc, VALUE *argv, VALUE ary)
{
rb_ary_modify(ary);
while (argc--) {
rb_ary_push_1(ary, *argv++);
}
return ary;
}
VALUE
rb_ary_pop(VALUE ary)
{
long n;
rb_ary_modify_check(ary);
if (RARRAY_LEN(ary) == 0) return Qnil;
if (ARY_OWNS_HEAP_P(ary) &&
RARRAY_LEN(ary) * 3 < ARY_CAPA(ary) &&
ARY_CAPA(ary) > ARY_DEFAULT_SIZE)
{
ary_resize_capa(ary, RARRAY_LEN(ary) * 2);
}
n = RARRAY_LEN(ary)-1;
ARY_SET_LEN(ary, n);
return RARRAY_PTR(ary)[n];
}
/*
* call-seq:
* ary.pop -> obj or nil
* ary.pop(n) -> new_ary
*
* Removes the last element from +self+ and returns it, or
* <code>nil</code> if the array is empty.
*
* If a number _n_ is given, returns an array of the last n elements
* (or less) just like <code>array.slice!(-n, n)</code> does.
*
* a = [ "a", "b", "c", "d" ]
* a.pop #=> "d"
* a.pop(2) #=> ["b", "c"]
* a #=> ["a"]
*/
static VALUE
rb_ary_pop_m(int argc, VALUE *argv, VALUE ary)
{
VALUE result;
if (argc == 0) {
return rb_ary_pop(ary);
}
rb_ary_modify_check(ary);
result = ary_take_first_or_last(argc, argv, ary, ARY_TAKE_LAST);
ARY_INCREASE_LEN(ary, -RARRAY_LEN(result));
return result;
}
VALUE
rb_ary_shift(VALUE ary)
{
VALUE top;
rb_ary_modify_check(ary);
if (RARRAY_LEN(ary) == 0) return Qnil;
top = RARRAY_PTR(ary)[0];
if (!ARY_SHARED_P(ary)) {
if (RARRAY_LEN(ary) < ARY_DEFAULT_SIZE) {
MEMMOVE(RARRAY_PTR(ary), RARRAY_PTR(ary)+1, VALUE, RARRAY_LEN(ary)-1);
ARY_INCREASE_LEN(ary, -1);
return top;
}
assert(!ARY_EMBED_P(ary)); /* ARY_EMBED_LEN_MAX < ARY_DEFAULT_SIZE */
RARRAY_PTR(ary)[0] = Qnil;
ary_make_shared(ary);
}
else if (ARY_SHARED_NUM(ARY_SHARED(ary)) == 1) {
RARRAY_PTR(ary)[0] = Qnil;
}
ARY_INCREASE_PTR(ary, 1); /* shift ptr */
ARY_INCREASE_LEN(ary, -1);
return top;
}
/*
* call-seq:
* ary.shift -> obj or nil
* ary.shift(n) -> new_ary
*
* Returns the first element of +self+ and removes it (shifting all
* other elements down by one). Returns <code>nil</code> if the array
* is empty.
*
* If a number _n_ is given, returns an array of the first n elements
* (or less) just like <code>array.slice!(0, n)</code> does.
*
* args = [ "-m", "-q", "filename" ]
* args.shift #=> "-m"
* args #=> ["-q", "filename"]
*
* args = [ "-m", "-q", "filename" ]
* args.shift(2) #=> ["-m", "-q"]
* args #=> ["filename"]
*/
static VALUE
rb_ary_shift_m(int argc, VALUE *argv, VALUE ary)
{
VALUE result;
long n;
if (argc == 0) {
return rb_ary_shift(ary);
}
rb_ary_modify_check(ary);
result = ary_take_first_or_last(argc, argv, ary, ARY_TAKE_FIRST);
n = RARRAY_LEN(result);
if (ARY_SHARED_P(ary)) {
if (ARY_SHARED_NUM(ARY_SHARED(ary)) == 1) {
rb_mem_clear(RARRAY_PTR(ary), n);
}
ARY_INCREASE_PTR(ary, n);
}
else {
MEMMOVE(RARRAY_PTR(ary), RARRAY_PTR(ary)+n, VALUE, RARRAY_LEN(ary)-n);
}
ARY_INCREASE_LEN(ary, -n);
return result;
}
/*
* call-seq:
* ary.unshift(obj, ...) -> ary
*
* Prepends objects to the front of +self+,
* moving other elements upwards.
*
* a = [ "b", "c", "d" ]
* a.unshift("a") #=> ["a", "b", "c", "d"]
* a.unshift(1, 2) #=> [ 1, 2, "a", "b", "c", "d"]
*/
static VALUE
rb_ary_unshift_m(int argc, VALUE *argv, VALUE ary)
{
long len;
rb_ary_modify(ary);
if (argc == 0) return ary;
if (ARY_CAPA(ary) <= (len = RARRAY_LEN(ary)) + argc) {
ary_double_capa(ary, len + argc);
}
/* sliding items */
MEMMOVE(RARRAY_PTR(ary) + argc, RARRAY_PTR(ary), VALUE, len);
MEMCPY(RARRAY_PTR(ary), argv, VALUE, argc);
ARY_INCREASE_LEN(ary, argc);
return ary;
}
VALUE
rb_ary_unshift(VALUE ary, VALUE item)
{
return rb_ary_unshift_m(1,&item,ary);
}
/* faster version - use this if you don't need to treat negative offset */
static inline VALUE
rb_ary_elt(VALUE ary, long offset)
{
if (RARRAY_LEN(ary) == 0) return Qnil;
if (offset < 0 || RARRAY_LEN(ary) <= offset) {
return Qnil;
}
return RARRAY_PTR(ary)[offset];
}
VALUE
rb_ary_entry(VALUE ary, long offset)
{
if (offset < 0) {
offset += RARRAY_LEN(ary);
}
return rb_ary_elt(ary, offset);
}
VALUE
rb_ary_subseq(VALUE ary, long beg, long len)
{
VALUE klass;
if (beg > RARRAY_LEN(ary)) return Qnil;
if (beg < 0 || len < 0) return Qnil;
if (RARRAY_LEN(ary) < len || RARRAY_LEN(ary) < beg + len) {
len = RARRAY_LEN(ary) - beg;
}
klass = rb_obj_class(ary);
if (len == 0) return ary_new(klass, 0);
return ary_make_partial(ary, klass, beg, len);
}
/*
* call-seq:
* ary[index] -> obj or nil
* ary[start, length] -> new_ary or nil
* ary[range] -> new_ary or nil
* ary.slice(index) -> obj or nil
* ary.slice(start, length) -> new_ary or nil
* ary.slice(range) -> new_ary or nil
*
* Element Reference---Returns the element at _index_,
* or returns a subarray starting at _start_ and
* continuing for _length_ elements, or returns a subarray
* specified by _range_.
* Negative indices count backward from the end of the
* array (-1 is the last element). Returns +nil+ if the index
* (or starting index) are out of range.
*
* a = [ "a", "b", "c", "d", "e" ]
* a[2] + a[0] + a[1] #=> "cab"
* a[6] #=> nil
* a[1, 2] #=> [ "b", "c" ]
* a[1..3] #=> [ "b", "c", "d" ]
* a[4..7] #=> [ "e" ]
* a[6..10] #=> nil
* a[-3, 3] #=> [ "c", "d", "e" ]
* # special cases
* a[5] #=> nil
* a[5, 1] #=> []
* a[5..10] #=> []
*
*/
VALUE
rb_ary_aref(int argc, VALUE *argv, VALUE ary)
{
VALUE arg;
long beg, len;