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enumerator.c
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enumerator.c
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/************************************************
enumerator.c - provides Enumerator class
$Author$
Copyright (C) 2001-2003 Akinori MUSHA
$Idaemons: /home/cvs/rb/enumerator/enumerator.c,v 1.1.1.1 2001/07/15 10:12:48 knu Exp $
$RoughId: enumerator.c,v 1.6 2003/07/27 11:03:24 nobu Exp $
$Id$
************************************************/
#include "ruby/internal/config.h"
#ifdef HAVE_FLOAT_H
#include <float.h>
#endif
#include "id.h"
#include "internal.h"
#include "internal/enumerator.h"
#include "internal/error.h"
#include "internal/hash.h"
#include "internal/imemo.h"
#include "internal/numeric.h"
#include "internal/range.h"
#include "internal/rational.h"
#include "ruby/ruby.h"
/*
* Document-class: Enumerator
*
* A class which allows both internal and external iteration.
*
* An Enumerator can be created by the following methods.
* - Object#to_enum
* - Object#enum_for
* - Enumerator.new
*
* Most methods have two forms: a block form where the contents
* are evaluated for each item in the enumeration, and a non-block form
* which returns a new Enumerator wrapping the iteration.
*
* enumerator = %w(one two three).each
* puts enumerator.class # => Enumerator
*
* enumerator.each_with_object("foo") do |item, obj|
* puts "#{obj}: #{item}"
* end
*
* # foo: one
* # foo: two
* # foo: three
*
* enum_with_obj = enumerator.each_with_object("foo")
* puts enum_with_obj.class # => Enumerator
*
* enum_with_obj.each do |item, obj|
* puts "#{obj}: #{item}"
* end
*
* # foo: one
* # foo: two
* # foo: three
*
* This allows you to chain Enumerators together. For example, you
* can map a list's elements to strings containing the index
* and the element as a string via:
*
* puts %w[foo bar baz].map.with_index { |w, i| "#{i}:#{w}" }
* # => ["0:foo", "1:bar", "2:baz"]
*
* An Enumerator can also be used as an external iterator.
* For example, Enumerator#next returns the next value of the iterator
* or raises StopIteration if the Enumerator is at the end.
*
* e = [1,2,3].each # returns an enumerator object.
* puts e.next # => 1
* puts e.next # => 2
* puts e.next # => 3
* puts e.next # raises StopIteration
*
* Note that enumeration sequence by +next+, +next_values+, +peek+ and
* +peek_values+ do not affect other non-external
* enumeration methods, unless the underlying iteration method itself has
* side-effect, e.g. IO#each_line.
*
* Moreover, implementation typically uses fibers so performance could be
* slower and exception stacktraces different than expected.
*
* You can use this to implement an internal iterator as follows:
*
* def ext_each(e)
* while true
* begin
* vs = e.next_values
* rescue StopIteration
* return $!.result
* end
* y = yield(*vs)
* e.feed y
* end
* end
*
* o = Object.new
*
* def o.each
* puts yield
* puts yield(1)
* puts yield(1, 2)
* 3
* end
*
* # use o.each as an internal iterator directly.
* puts o.each {|*x| puts x; [:b, *x] }
* # => [], [:b], [1], [:b, 1], [1, 2], [:b, 1, 2], 3
*
* # convert o.each to an external iterator for
* # implementing an internal iterator.
* puts ext_each(o.to_enum) {|*x| puts x; [:b, *x] }
* # => [], [:b], [1], [:b, 1], [1, 2], [:b, 1, 2], 3
*
*/
VALUE rb_cEnumerator;
static VALUE rb_cLazy;
static ID id_rewind, id_new, id_to_enum;
static ID id_next, id_result, id_receiver, id_arguments, id_memo, id_method, id_force;
static ID id_begin, id_end, id_step, id_exclude_end;
static VALUE sym_each, sym_cycle, sym_yield;
static VALUE lazy_use_super_method;
#define id_call idCall
#define id_each idEach
#define id_eqq idEqq
#define id_initialize idInitialize
#define id_size idSize
VALUE rb_eStopIteration;
struct enumerator {
VALUE obj;
ID meth;
VALUE args;
VALUE fib;
VALUE dst;
VALUE lookahead;
VALUE feedvalue;
VALUE stop_exc;
VALUE size;
VALUE procs;
rb_enumerator_size_func *size_fn;
int kw_splat;
};
static VALUE rb_cGenerator, rb_cYielder, rb_cEnumProducer;
struct generator {
VALUE proc;
VALUE obj;
};
struct yielder {
VALUE proc;
};
struct producer {
VALUE init;
VALUE proc;
};
typedef struct MEMO *lazyenum_proc_func(VALUE, struct MEMO *, VALUE, long);
typedef VALUE lazyenum_size_func(VALUE, VALUE);
typedef struct {
lazyenum_proc_func *proc;
lazyenum_size_func *size;
} lazyenum_funcs;
struct proc_entry {
VALUE proc;
VALUE memo;
const lazyenum_funcs *fn;
};
static VALUE generator_allocate(VALUE klass);
static VALUE generator_init(VALUE obj, VALUE proc);
static VALUE rb_cEnumChain;
struct enum_chain {
VALUE enums;
long pos;
};
VALUE rb_cArithSeq;
/*
* Enumerator
*/
static void
enumerator_mark(void *p)
{
struct enumerator *ptr = p;
rb_gc_mark_movable(ptr->obj);
rb_gc_mark_movable(ptr->args);
rb_gc_mark_movable(ptr->fib);
rb_gc_mark_movable(ptr->dst);
rb_gc_mark_movable(ptr->lookahead);
rb_gc_mark_movable(ptr->feedvalue);
rb_gc_mark_movable(ptr->stop_exc);
rb_gc_mark_movable(ptr->size);
rb_gc_mark_movable(ptr->procs);
}
static void
enumerator_compact(void *p)
{
struct enumerator *ptr = p;
ptr->obj = rb_gc_location(ptr->obj);
ptr->args = rb_gc_location(ptr->args);
ptr->fib = rb_gc_location(ptr->fib);
ptr->dst = rb_gc_location(ptr->dst);
ptr->lookahead = rb_gc_location(ptr->lookahead);
ptr->feedvalue = rb_gc_location(ptr->feedvalue);
ptr->stop_exc = rb_gc_location(ptr->stop_exc);
ptr->size = rb_gc_location(ptr->size);
ptr->procs = rb_gc_location(ptr->procs);
}
#define enumerator_free RUBY_TYPED_DEFAULT_FREE
static size_t
enumerator_memsize(const void *p)
{
return sizeof(struct enumerator);
}
static const rb_data_type_t enumerator_data_type = {
"enumerator",
{
enumerator_mark,
enumerator_free,
enumerator_memsize,
enumerator_compact,
},
0, 0, RUBY_TYPED_FREE_IMMEDIATELY
};
static struct enumerator *
enumerator_ptr(VALUE obj)
{
struct enumerator *ptr;
TypedData_Get_Struct(obj, struct enumerator, &enumerator_data_type, ptr);
if (!ptr || ptr->obj == Qundef) {
rb_raise(rb_eArgError, "uninitialized enumerator");
}
return ptr;
}
static void
proc_entry_mark(void *p)
{
struct proc_entry *ptr = p;
rb_gc_mark_movable(ptr->proc);
rb_gc_mark_movable(ptr->memo);
}
static void
proc_entry_compact(void *p)
{
struct proc_entry *ptr = p;
ptr->proc = rb_gc_location(ptr->proc);
ptr->memo = rb_gc_location(ptr->memo);
}
#define proc_entry_free RUBY_TYPED_DEFAULT_FREE
static size_t
proc_entry_memsize(const void *p)
{
return p ? sizeof(struct proc_entry) : 0;
}
static const rb_data_type_t proc_entry_data_type = {
"proc_entry",
{
proc_entry_mark,
proc_entry_free,
proc_entry_memsize,
proc_entry_compact,
},
};
static struct proc_entry *
proc_entry_ptr(VALUE proc_entry)
{
struct proc_entry *ptr;
TypedData_Get_Struct(proc_entry, struct proc_entry, &proc_entry_data_type, ptr);
return ptr;
}
/*
* call-seq:
* obj.to_enum(method = :each, *args) -> enum
* obj.enum_for(method = :each, *args) -> enum
* obj.to_enum(method = :each, *args) {|*args| block} -> enum
* obj.enum_for(method = :each, *args){|*args| block} -> enum
*
* Creates a new Enumerator which will enumerate by calling +method+ on
* +obj+, passing +args+ if any. What was _yielded_ by method becomes
* values of enumerator.
*
* If a block is given, it will be used to calculate the size of
* the enumerator without the need to iterate it (see Enumerator#size).
*
* === Examples
*
* str = "xyz"
*
* enum = str.enum_for(:each_byte)
* enum.each { |b| puts b }
* # => 120
* # => 121
* # => 122
*
* # protect an array from being modified by some_method
* a = [1, 2, 3]
* some_method(a.to_enum)
*
* # String#split in block form is more memory-effective:
* very_large_string.split("|") { |chunk| return chunk if chunk.include?('DATE') }
* # This could be rewritten more idiomatically with to_enum:
* very_large_string.to_enum(:split, "|").lazy.grep(/DATE/).first
*
* It is typical to call to_enum when defining methods for
* a generic Enumerable, in case no block is passed.
*
* Here is such an example, with parameter passing and a sizing block:
*
* module Enumerable
* # a generic method to repeat the values of any enumerable
* def repeat(n)
* raise ArgumentError, "#{n} is negative!" if n < 0
* unless block_given?
* return to_enum(__method__, n) do # __method__ is :repeat here
* sz = size # Call size and multiply by n...
* sz * n if sz # but return nil if size itself is nil
* end
* end
* each do |*val|
* n.times { yield *val }
* end
* end
* end
*
* %i[hello world].repeat(2) { |w| puts w }
* # => Prints 'hello', 'hello', 'world', 'world'
* enum = (1..14).repeat(3)
* # => returns an Enumerator when called without a block
* enum.first(4) # => [1, 1, 1, 2]
* enum.size # => 42
*/
static VALUE
obj_to_enum(int argc, VALUE *argv, VALUE obj)
{
VALUE enumerator, meth = sym_each;
if (argc > 0) {
--argc;
meth = *argv++;
}
enumerator = rb_enumeratorize_with_size(obj, meth, argc, argv, 0);
if (rb_block_given_p()) {
enumerator_ptr(enumerator)->size = rb_block_proc();
}
return enumerator;
}
static VALUE
enumerator_allocate(VALUE klass)
{
struct enumerator *ptr;
VALUE enum_obj;
enum_obj = TypedData_Make_Struct(klass, struct enumerator, &enumerator_data_type, ptr);
ptr->obj = Qundef;
return enum_obj;
}
static VALUE
enumerator_init(VALUE enum_obj, VALUE obj, VALUE meth, int argc, const VALUE *argv, rb_enumerator_size_func *size_fn, VALUE size, int kw_splat)
{
struct enumerator *ptr;
rb_check_frozen(enum_obj);
TypedData_Get_Struct(enum_obj, struct enumerator, &enumerator_data_type, ptr);
if (!ptr) {
rb_raise(rb_eArgError, "unallocated enumerator");
}
ptr->obj = obj;
ptr->meth = rb_to_id(meth);
if (argc) ptr->args = rb_ary_new4(argc, argv);
ptr->fib = 0;
ptr->dst = Qnil;
ptr->lookahead = Qundef;
ptr->feedvalue = Qundef;
ptr->stop_exc = Qfalse;
ptr->size = size;
ptr->size_fn = size_fn;
ptr->kw_splat = kw_splat;
return enum_obj;
}
static VALUE
convert_to_feasible_size_value(VALUE obj)
{
if (NIL_P(obj)) {
return obj;
}
else if (rb_respond_to(obj, id_call)) {
return obj;
}
else if (RB_FLOAT_TYPE_P(obj) && RFLOAT_VALUE(obj) == HUGE_VAL) {
return obj;
}
else {
return rb_to_int(obj);
}
}
/*
* call-seq:
* Enumerator.new(size = nil) { |yielder| ... }
*
* Creates a new Enumerator object, which can be used as an
* Enumerable.
*
* Iteration is defined by the given block, in
* which a "yielder" object, given as block parameter, can be used to
* yield a value by calling the +yield+ method (aliased as <code><<</code>):
*
* fib = Enumerator.new do |y|
* a = b = 1
* loop do
* y << a
* a, b = b, a + b
* end
* end
*
* fib.take(10) # => [1, 1, 2, 3, 5, 8, 13, 21, 34, 55]
*
* The optional parameter can be used to specify how to calculate the size
* in a lazy fashion (see Enumerator#size). It can either be a value or
* a callable object.
*/
static VALUE
enumerator_initialize(int argc, VALUE *argv, VALUE obj)
{
VALUE iter = rb_block_proc();
VALUE recv = generator_init(generator_allocate(rb_cGenerator), iter);
VALUE arg0 = rb_check_arity(argc, 0, 1) ? argv[0] : Qnil;
VALUE size = convert_to_feasible_size_value(arg0);
return enumerator_init(obj, recv, sym_each, 0, 0, 0, size, false);
}
/* :nodoc: */
static VALUE
enumerator_init_copy(VALUE obj, VALUE orig)
{
struct enumerator *ptr0, *ptr1;
if (!OBJ_INIT_COPY(obj, orig)) return obj;
ptr0 = enumerator_ptr(orig);
if (ptr0->fib) {
/* Fibers cannot be copied */
rb_raise(rb_eTypeError, "can't copy execution context");
}
TypedData_Get_Struct(obj, struct enumerator, &enumerator_data_type, ptr1);
if (!ptr1) {
rb_raise(rb_eArgError, "unallocated enumerator");
}
ptr1->obj = ptr0->obj;
ptr1->meth = ptr0->meth;
ptr1->args = ptr0->args;
ptr1->fib = 0;
ptr1->lookahead = Qundef;
ptr1->feedvalue = Qundef;
ptr1->size = ptr0->size;
ptr1->size_fn = ptr0->size_fn;
return obj;
}
/*
* For backwards compatibility; use rb_enumeratorize_with_size
*/
VALUE
rb_enumeratorize(VALUE obj, VALUE meth, int argc, const VALUE *argv)
{
return rb_enumeratorize_with_size(obj, meth, argc, argv, 0);
}
static VALUE
lazy_to_enum_i(VALUE self, VALUE meth, int argc, const VALUE *argv, rb_enumerator_size_func *size_fn, int kw_splat);
VALUE
rb_enumeratorize_with_size_kw(VALUE obj, VALUE meth, int argc, const VALUE *argv, rb_enumerator_size_func *size_fn, int kw_splat)
{
VALUE base_class = rb_cEnumerator;
if (RTEST(rb_obj_is_kind_of(obj, rb_cLazy))) {
base_class = rb_cLazy;
}
else if (RTEST(rb_obj_is_kind_of(obj, rb_cEnumChain))) {
obj = enumerator_init(enumerator_allocate(rb_cEnumerator), obj, sym_each, 0, 0, 0, Qnil, false);
}
return enumerator_init(enumerator_allocate(base_class),
obj, meth, argc, argv, size_fn, Qnil, kw_splat);
}
VALUE
rb_enumeratorize_with_size(VALUE obj, VALUE meth, int argc, const VALUE *argv, rb_enumerator_size_func *size_fn)
{
return rb_enumeratorize_with_size_kw(obj, meth, argc, argv, size_fn, rb_keyword_given_p());
}
static VALUE
enumerator_block_call(VALUE obj, rb_block_call_func *func, VALUE arg)
{
int argc = 0;
const VALUE *argv = 0;
const struct enumerator *e = enumerator_ptr(obj);
ID meth = e->meth;
if (e->args) {
argc = RARRAY_LENINT(e->args);
argv = RARRAY_CONST_PTR(e->args);
}
return rb_block_call_kw(e->obj, meth, argc, argv, func, arg, e->kw_splat);
}
/*
* call-seq:
* enum.each { |elm| block } -> obj
* enum.each -> enum
* enum.each(*appending_args) { |elm| block } -> obj
* enum.each(*appending_args) -> an_enumerator
*
* Iterates over the block according to how this Enumerator was constructed.
* If no block and no arguments are given, returns self.
*
* === Examples
*
* "Hello, world!".scan(/\w+/) #=> ["Hello", "world"]
* "Hello, world!".to_enum(:scan, /\w+/).to_a #=> ["Hello", "world"]
* "Hello, world!".to_enum(:scan).each(/\w+/).to_a #=> ["Hello", "world"]
*
* obj = Object.new
*
* def obj.each_arg(a, b=:b, *rest)
* yield a
* yield b
* yield rest
* :method_returned
* end
*
* enum = obj.to_enum :each_arg, :a, :x
*
* enum.each.to_a #=> [:a, :x, []]
* enum.each.equal?(enum) #=> true
* enum.each { |elm| elm } #=> :method_returned
*
* enum.each(:y, :z).to_a #=> [:a, :x, [:y, :z]]
* enum.each(:y, :z).equal?(enum) #=> false
* enum.each(:y, :z) { |elm| elm } #=> :method_returned
*
*/
static VALUE
enumerator_each(int argc, VALUE *argv, VALUE obj)
{
if (argc > 0) {
struct enumerator *e = enumerator_ptr(obj = rb_obj_dup(obj));
VALUE args = e->args;
if (args) {
#if SIZEOF_INT < SIZEOF_LONG
/* check int range overflow */
rb_long2int(RARRAY_LEN(args) + argc);
#endif
args = rb_ary_dup(args);
rb_ary_cat(args, argv, argc);
}
else {
args = rb_ary_new4(argc, argv);
}
e->args = args;
e->size = Qnil;
e->size_fn = 0;
}
if (!rb_block_given_p()) return obj;
return enumerator_block_call(obj, 0, obj);
}
static VALUE
enumerator_with_index_i(RB_BLOCK_CALL_FUNC_ARGLIST(val, m))
{
struct MEMO *memo = (struct MEMO *)m;
VALUE idx = memo->v1;
MEMO_V1_SET(memo, rb_int_succ(idx));
if (argc <= 1)
return rb_yield_values(2, val, idx);
return rb_yield_values(2, rb_ary_new4(argc, argv), idx);
}
static VALUE
enumerator_size(VALUE obj);
static VALUE
enumerator_enum_size(VALUE obj, VALUE args, VALUE eobj)
{
return enumerator_size(obj);
}
/*
* call-seq:
* e.with_index(offset = 0) {|(*args), idx| ... }
* e.with_index(offset = 0)
*
* Iterates the given block for each element with an index, which
* starts from +offset+. If no block is given, returns a new Enumerator
* that includes the index, starting from +offset+
*
* +offset+:: the starting index to use
*
*/
static VALUE
enumerator_with_index(int argc, VALUE *argv, VALUE obj)
{
VALUE memo;
rb_check_arity(argc, 0, 1);
RETURN_SIZED_ENUMERATOR(obj, argc, argv, enumerator_enum_size);
memo = (!argc || NIL_P(memo = argv[0])) ? INT2FIX(0) : rb_to_int(memo);
return enumerator_block_call(obj, enumerator_with_index_i, (VALUE)MEMO_NEW(memo, 0, 0));
}
/*
* call-seq:
* e.each_with_index {|(*args), idx| ... }
* e.each_with_index
*
* Same as Enumerator#with_index(0), i.e. there is no starting offset.
*
* If no block is given, a new Enumerator is returned that includes the index.
*
*/
static VALUE
enumerator_each_with_index(VALUE obj)
{
return enumerator_with_index(0, NULL, obj);
}
static VALUE
enumerator_with_object_i(RB_BLOCK_CALL_FUNC_ARGLIST(val, memo))
{
if (argc <= 1)
return rb_yield_values(2, val, memo);
return rb_yield_values(2, rb_ary_new4(argc, argv), memo);
}
/*
* call-seq:
* e.each_with_object(obj) {|(*args), obj| ... }
* e.each_with_object(obj)
* e.with_object(obj) {|(*args), obj| ... }
* e.with_object(obj)
*
* Iterates the given block for each element with an arbitrary object, +obj+,
* and returns +obj+
*
* If no block is given, returns a new Enumerator.
*
* === Example
*
* to_three = Enumerator.new do |y|
* 3.times do |x|
* y << x
* end
* end
*
* to_three_with_string = to_three.with_object("foo")
* to_three_with_string.each do |x,string|
* puts "#{string}: #{x}"
* end
*
* # => foo: 0
* # => foo: 1
* # => foo: 2
*/
static VALUE
enumerator_with_object(VALUE obj, VALUE memo)
{
RETURN_SIZED_ENUMERATOR(obj, 1, &memo, enumerator_enum_size);
enumerator_block_call(obj, enumerator_with_object_i, memo);
return memo;
}
static VALUE
next_ii(RB_BLOCK_CALL_FUNC_ARGLIST(i, obj))
{
struct enumerator *e = enumerator_ptr(obj);
VALUE feedvalue = Qnil;
VALUE args = rb_ary_new4(argc, argv);
rb_fiber_yield(1, &args);
if (e->feedvalue != Qundef) {
feedvalue = e->feedvalue;
e->feedvalue = Qundef;
}
return feedvalue;
}
static VALUE
next_i(RB_BLOCK_CALL_FUNC_ARGLIST(_, obj))
{
struct enumerator *e = enumerator_ptr(obj);
VALUE nil = Qnil;
VALUE result;
result = rb_block_call(obj, id_each, 0, 0, next_ii, obj);
e->stop_exc = rb_exc_new2(rb_eStopIteration, "iteration reached an end");
rb_ivar_set(e->stop_exc, id_result, result);
return rb_fiber_yield(1, &nil);
}
static void
next_init(VALUE obj, struct enumerator *e)
{
VALUE curr = rb_fiber_current();
e->dst = curr;
e->fib = rb_fiber_new(next_i, obj);
e->lookahead = Qundef;
}
static VALUE
get_next_values(VALUE obj, struct enumerator *e)
{
VALUE curr, vs;
if (e->stop_exc)
rb_exc_raise(e->stop_exc);
curr = rb_fiber_current();
if (!e->fib || !rb_fiber_alive_p(e->fib)) {
next_init(obj, e);
}
vs = rb_fiber_resume(e->fib, 1, &curr);
if (e->stop_exc) {
e->fib = 0;
e->dst = Qnil;
e->lookahead = Qundef;
e->feedvalue = Qundef;
rb_exc_raise(e->stop_exc);
}
return vs;
}
/*
* call-seq:
* e.next_values -> array
*
* Returns the next object as an array in the enumerator, and move the
* internal position forward. When the position reached at the end,
* StopIteration is raised.
*
* See class-level notes about external iterators.
*
* This method can be used to distinguish <code>yield</code> and <code>yield
* nil</code>.
*
* === Example
*
* o = Object.new
* def o.each
* yield
* yield 1
* yield 1, 2
* yield nil
* yield [1, 2]
* end
* e = o.to_enum
* p e.next_values
* p e.next_values
* p e.next_values
* p e.next_values
* p e.next_values
* e = o.to_enum
* p e.next
* p e.next
* p e.next
* p e.next
* p e.next
*
* ## yield args next_values next
* # yield [] nil
* # yield 1 [1] 1
* # yield 1, 2 [1, 2] [1, 2]
* # yield nil [nil] nil
* # yield [1, 2] [[1, 2]] [1, 2]
*
*/
static VALUE
enumerator_next_values(VALUE obj)
{
struct enumerator *e = enumerator_ptr(obj);
VALUE vs;
if (e->lookahead != Qundef) {
vs = e->lookahead;
e->lookahead = Qundef;
return vs;
}
return get_next_values(obj, e);
}
static VALUE
ary2sv(VALUE args, int dup)
{
if (!RB_TYPE_P(args, T_ARRAY))
return args;
switch (RARRAY_LEN(args)) {
case 0:
return Qnil;
case 1:
return RARRAY_AREF(args, 0);
default:
if (dup)
return rb_ary_dup(args);
return args;
}
}
/*
* call-seq:
* e.next -> object
*
* Returns the next object in the enumerator, and move the internal position
* forward. When the position reached at the end, StopIteration is raised.
*
* === Example
*
* a = [1,2,3]
* e = a.to_enum
* p e.next #=> 1
* p e.next #=> 2
* p e.next #=> 3
* p e.next #raises StopIteration
*
* See class-level notes about external iterators.
*
*/
static VALUE
enumerator_next(VALUE obj)
{
VALUE vs = enumerator_next_values(obj);
return ary2sv(vs, 0);
}
static VALUE
enumerator_peek_values(VALUE obj)
{
struct enumerator *e = enumerator_ptr(obj);
if (e->lookahead == Qundef) {
e->lookahead = get_next_values(obj, e);
}
return e->lookahead;
}
/*
* call-seq:
* e.peek_values -> array
*
* Returns the next object as an array, similar to Enumerator#next_values, but
* doesn't move the internal position forward. If the position is already at
* the end, StopIteration is raised.
*
* See class-level notes about external iterators.
*
* === Example
*
* o = Object.new
* def o.each
* yield
* yield 1
* yield 1, 2
* end
* e = o.to_enum
* p e.peek_values #=> []
* e.next
* p e.peek_values #=> [1]
* p e.peek_values #=> [1]
* e.next
* p e.peek_values #=> [1, 2]
* e.next
* p e.peek_values # raises StopIteration
*
*/
static VALUE
enumerator_peek_values_m(VALUE obj)
{
return rb_ary_dup(enumerator_peek_values(obj));
}
/*
* call-seq:
* e.peek -> object
*
* Returns the next object in the enumerator, but doesn't move the internal
* position forward. If the position is already at the end, StopIteration
* is raised.
*
* See class-level notes about external iterators.
*
* === Example
*
* a = [1,2,3]
* e = a.to_enum
* p e.next #=> 1
* p e.peek #=> 2
* p e.peek #=> 2
* p e.peek #=> 2
* p e.next #=> 2
* p e.next #=> 3
* p e.peek #raises StopIteration
*
*/
static VALUE
enumerator_peek(VALUE obj)
{
VALUE vs = enumerator_peek_values(obj);
return ary2sv(vs, 1);
}
/*
* call-seq:
* e.feed obj -> nil
*
* Sets the value to be returned by the next yield inside +e+.
*
* If the value is not set, the yield returns nil.
*
* This value is cleared after being yielded.
*
* # Array#map passes the array's elements to "yield" and collects the
* # results of "yield" as an array.
* # Following example shows that "next" returns the passed elements and
* # values passed to "feed" are collected as an array which can be
* # obtained by StopIteration#result.
* e = [1,2,3].map
* p e.next #=> 1
* e.feed "a"
* p e.next #=> 2
* e.feed "b"
* p e.next #=> 3
* e.feed "c"
* begin
* e.next
* rescue StopIteration
* p $!.result #=> ["a", "b", "c"]
* end
*
* o = Object.new
* def o.each