Feature #2981
closedArray#repeated_(permutation|combination)
Description
=begin
New methods Array#repeated_(permutation|combination).
Like Array#(permutation|combination), these methods make
repeated permutation or combination.
Attachment: repeated_patch.txt
=end
Files
Updated by shyouhei (Shyouhei Urabe) almost 15 years ago
=begin
A bit more: use cases are shown in Japanese ML (and I think they're OK), so please just translate them for non-Japanese speakers.
=end
Updated by metanest (Makoto Kishimoto) almost 15 years ago
=begin
Sorry, the patch of [ruby-core:28724] has bug.
This is fixed version.
Index: array.c¶
--- array.c (revision 26970)
+++ array.c (working copy)
@@ -4047,7 +4047,187 @@
}
/*
-
- Recursively compute repeated permutations of r elements of the set
-
- [0..n-1].
-
- When we have a complete repeated permutation of array indexes, copy the
-
- values at those indexes into a new array and yield that array.
-
-
- n: the size of the set
-
- r: the number of elements in each permutation
-
- p: the array (of size r) that we're filling in
-
- index: what index we're filling in now
-
- values: the Ruby array that holds the actual values to permute
- */
+static void
+rpermute0(long n, long r, long *p, long index, VALUE values)
+{ - long i, j;
- for (i = 0; i < n; i++) {
- p[index] = i;
- if (index < r-1) { /* if not done yet */
-
rpermute0(n, r, p, index+1, values); /* recurse */
- }
- else {
-
/* We have a complete permutation of array indexes */
-
/* Build a ruby array of the corresponding values */
-
/* And yield it to the associated block */
-
VALUE result = rb_ary_new2(r);
-
VALUE *result_array = RARRAY_PTR(result);
-
const VALUE *values_array = RARRAY_PTR(values);
-
for (j = 0; j < r; j++) result_array[j] = values_array[p[j]];
-
ARY_SET_LEN(result, r);
-
rb_yield(result);
-
if (RBASIC(values)->klass) {
-
rb_raise(rb_eRuntimeError, "repeated permute reentered");
-
}
- }
- }
+}
+/*
- call-seq:
-
-
ary.repeated_permutation(n) { |p| block } -> array
-
-
-
ary.repeated_permutation(n) -> enumerator
-
-
-
- When invoked with a block, yield all repeated permutations of length
-
- n of the elements of ary, then return the array itself.
-
- The implementation makes no guarantees about the order in which
-
- the repeated permutations are yielded.
-
-
- When invoked without a block, return an enumerator object instead.
-
-
- Examples:
-
-
-
a = [1, 2]
-
-
-
a.repeated_permutation(1).to_a #=> [[1], [2]]
-
-
-
a.repeated_permutation(2).to_a #=> [[1,1],[1,2],[2,1],[2,2]]
-
-
-
a.repeated_permutation(3).to_a #=> [[1,1,1],[1,1,2],[1,2,1],[1,2,2],
-
-
-
# [2,1,1],[2,1,2],[2,2,1],[2,2,2]]
-
-
-
a.repeated_permutation(0).to_a #=> [[]] # one permutation of length 0
-
- */
+static VALUE
+rb_ary_repeated_permutation(VALUE ary, VALUE num)
+{
- long r, n, i;
- n = RARRAY_LEN(ary); /* Array length */
- RETURN_ENUMERATOR(ary, 1, &num); /* Return enumerator if no block */
- r = NUM2LONG(num); /* Permutation size from argument */
- if (r < 0) {
- /* no permutations: yield nothing */
- }
- else if (r == 0) { /* exactly one permutation: the zero-length array */
- rb_yield(rb_ary_new2(0));
- }
- else if (r == 1) { /* this is a special, easy case */
- for (i = 0; i < RARRAY_LEN(ary); i++) {
-
rb_yield(rb_ary_new3(1, RARRAY_PTR(ary)[i]));
- }
- }
- else { /* this is the general case */
- volatile VALUE t0 = tmpbuf(r, sizeof(long));
- long p = (long)RSTRING_PTR(t0);
- VALUE ary0 = ary_make_substitution(ary); /* private defensive copy of ary */
- RBASIC(ary0)->klass = 0;
- rpermute0(n, r, p, 0, ary0); /* compute and yield repeated permutations */
- tmpbuf_discard(t0);
- RBASIC(ary0)->klass = rb_cArray;
- }
- return ary;
+}
+static void
+rcombinate0(long n, long r, long *p, long index, long rest, VALUE values)
+{
- long j;
- if (rest > 0) {
- for (; index < n; ++index) {
-
p[r-rest] = index;
-
rcombinate0(n, r, p, index, rest-1, values);
- }
- }
- else {
- VALUE result = rb_ary_new2(r);
- VALUE *result_array = RARRAY_PTR(result);
- const VALUE *values_array = RARRAY_PTR(values);
- for (j = 0; j < r; ++j) result_array[j] = values_array[p[j]];
- ARY_SET_LEN(result, r);
- rb_yield(result);
- if (RBASIC(values)->klass) {
-
rb_raise(rb_eRuntimeError, "repeated combination reentered");
- }
- }
+}
+/*
-
- call-seq:
-
-
ary.repeated_combination(n) { |c| block } -> ary
-
-
-
ary.repeated_combination(n) -> enumerator
-
-
-
- When invoked with a block, yields all repeated combinations of
-
- length n of elements from ary and then returns
-
- ary itself.
-
- The implementation makes no guarantees about the order in which
-
- the repeated combinations are yielded.
-
-
- When invoked without a block, returns an enumerator object instead.
-
-
- Examples:
-
-
-
a = [1, 2, 3]
-
-
-
a.repeated_combination(1).to_a #=> [[1], [2], [3]]
-
-
-
a.repeated_combination(2).to_a #=> [[1,1],[1,2],[1,3],[2,2],[2,3],[3,3]]
-
-
-
a.repeated_combination(3).to_a #=> [[1,1,1],[1,1,2],[1,1,3],[1,2,2],[1,2,3],
-
-
-
# [1,3,3],[2,2,2],[2,2,3],[2,3,3],[3,3,3]]
-
-
-
a.repeated_combination(4).to_a #=> [[1,1,1,1],[1,1,1,2],[1,1,1,3],[1,1,2,2],[1,1,2,3],
-
-
-
# [1,1,3,3],[1,2,2,2],[1,2,2,3],[1,2,3,3],[1,3,3,3],
-
-
-
# [2,2,2,2],[2,2,2,3],[2,2,3,3],[2,3,3,3],[3,3,3,3]]
-
-
-
a.repeated_combination(0).to_a #=> [[]] # one combination of length 0
-
-
- */
+static VALUE
+rb_ary_repeated_combination(VALUE ary, VALUE num)
+{
- long n, i, len;
- n = NUM2LONG(num); /* Combination size from argument */
- RETURN_ENUMERATOR(ary, 1, &num); /* Return enumerator if no block */
- len = RARRAY_LEN(ary);
- if (n < 0) {
- /* yield nothing */
- }
- else if (n == 0) {
- rb_yield(rb_ary_new2(0));
- }
- else if (n == 1) {
- for (i = 0; i < len; i++) {
-
rb_yield(rb_ary_new3(1, RARRAY_PTR(ary)[i]));
- }
- }
- else if (len == 0) {
- /* yield nothing */
- }
- else {
- volatile VALUE t0 = tmpbuf(n, sizeof(long));
- long p = (long)RSTRING_PTR(t0);
- VALUE ary0 = ary_make_substitution(ary); /* private defensive copy of ary */
- RBASIC(ary0)->klass = 0;
- rcombinate0(len, n, p, 0, n, ary0); /* compute and yield repeated combinations */
- tmpbuf_discard(t0);
- RBASIC(ary0)->klass = rb_cArray;
- }
- return ary;
+}
+/*
-
- call-seq:
-
ary.product(other_ary, ...)
- Returns an array of all combinations of elements from all arrays.
@@ -4332,6 +4512,8 @@
rb_define_method(rb_cArray, "cycle", rb_ary_cycle, -1);
rb_define_method(rb_cArray, "permutation", rb_ary_permutation, -1);
rb_define_method(rb_cArray, "combination", rb_ary_combination, 1);
-
rb_define_method(rb_cArray, "repeated_permutation", rb_ary_repeated_permutation, 1);
-
rb_define_method(rb_cArray, "repeated_combination", rb_ary_repeated_combination, 1);
rb_define_method(rb_cArray, "product", rb_ary_product, -1);rb_define_method(rb_cArray, "take", rb_ary_take, 1);
Index: test/ruby/test_array.rb
===================================================================
--- test/ruby/test_array.rb (revision 26970)
+++ test/ruby/test_array.rb (working copy)
@@ -797,6 +797,40 @@
assert_match(/reentered/, e.message)
end -
def test_repeated_permutation_with_callcc
-
respond_to?(:callcc, true) or require 'continuation'
-
n = 1000
-
cont = nil
-
ary = [1,2,3]
-
begin
-
ary.repeated_permutation(2) {
-
callcc {|k| cont = k} unless cont
-
}
-
rescue => e
-
end
-
n -= 1
-
cont.call if 0 < n
-
assert_instance_of(RuntimeError, e)
-
assert_match(/reentered/, e.message)
-
end
-
def test_repeated_combination_with_callcc
-
respond_to?(:callcc, true) or require 'continuation'
-
n = 1000
-
cont = nil
-
ary = [1,2,3]
-
begin
-
ary.repeated_combination(2) {
-
callcc {|k| cont = k} unless cont
-
}
-
rescue => e
-
end
-
n -= 1
-
cont.call if 0 < n
-
assert_instance_of(RuntimeError, e)
-
assert_match(/reentered/, e.message)
-
end
-
def test_hash
a1 = @cls[ 'cat', 'dog' ]
a2 = @cls[ 'cat', 'dog' ]
@@ -1403,6 +1437,54 @@
assert_equal(@cls[1, 2, 3, 4].permutation.to_a, b)
end -
def test_repeated_permutation
-
a = @cls[1,2]
-
assert_equal(@cls[[]], a.repeated_permutation(0).to_a)
-
assert_equal(@cls[[1],[2]], a.repeated_permutation(1).to_a.sort)
-
assert_equal(@cls[[1,1],[1,2],[2,1],[2,2]],
-
a.repeated_permutation(2).to_a.sort)
-
assert_equal(@cls[[1,1,1],[1,1,2],[1,2,1],[1,2,2],
-
[2,1,1],[2,1,2],[2,2,1],[2,2,2]],
-
a.repeated_permutation(3).to_a.sort)
-
assert_equal(@cls[], a.repeated_permutation(-1).to_a)
-
assert_equal("abcde".each_char.to_a.repeated_permutation(5).sort,
-
"edcba".each_char.to_a.repeated_permutation(5).sort)
-
assert_equal(@cls[].repeated_permutation(0).to_a, @cls[[]])
-
assert_equal(@cls[].repeated_permutation(1).to_a, @cls[])
-
a = @cls[1, 2, 3, 4]
-
b = @cls[]
-
a.repeated_permutation(4) {|x| b << x; a.replace(@cls[9, 8, 7, 6]) }
-
assert_equal(@cls[9, 8, 7, 6], a)
-
assert_equal(@cls[1, 2, 3, 4].repeated_permutation(4).to_a, b)
-
end
-
def test_repeated_combination
-
a = @cls[1,2,3]
-
assert_equal(@cls[[]], a.repeated_combination(0).to_a)
-
assert_equal(@cls[[1],[2],[3]], a.repeated_combination(1).to_a.sort)
-
assert_equal(@cls[[1,1],[1,2],[1,3],[2,2],[2,3],[3,3]],
-
a.repeated_combination(2).to_a.sort)
-
assert_equal(@cls[[1,1,1],[1,1,2],[1,1,3],[1,2,2],[1,2,3],
-
[1,3,3],[2,2,2],[2,2,3],[2,3,3],[3,3,3]],
-
a.repeated_combination(3).to_a.sort)
-
assert_equal(@cls[[1,1,1,1],[1,1,1,2],[1,1,1,3],[1,1,2,2],[1,1,2,3],
-
[1,1,3,3],[1,2,2,2],[1,2,2,3],[1,2,3,3],[1,3,3,3],
-
[2,2,2,2],[2,2,2,3],[2,2,3,3],[2,3,3,3],[3,3,3,3]],
-
a.repeated_combination(4).to_a.sort)
-
assert_equal(@cls[], a.repeated_combination(-1).to_a)
-
assert_equal("abcde".each_char.to_a.repeated_combination(5).map{|a|a.sort}.sort,
-
"edcba".each_char.to_a.repeated_combination(5).map{|a|a.sort}.sort)
-
assert_equal(@cls[].repeated_combination(0).to_a, @cls[[]])
-
assert_equal(@cls[].repeated_combination(1).to_a, @cls[])
-
a = @cls[1, 2, 3, 4]
-
b = @cls[]
-
a.repeated_combination(4) {|x| b << x; a.replace(@cls[9, 8, 7, 6]) }
-
assert_equal(@cls[9, 8, 7, 6], a)
-
assert_equal(@cls[1, 2, 3, 4].repeated_combination(4).to_a, b)
-
end
-
def test_take
assert_equal([1,2,3], [1,2,3,4,5,0].take(3))
assert_raise(ArgumentError, '[ruby-dev:34123]') { [1,2].take(-1) }
=end
Updated by metanest (Makoto Kishimoto) almost 15 years ago
=begin
An example of number puzzle.
['+', '-', '*', '/', ''].repeated_permutation(8).each{|a, b, c, d, e, f, g, h|
s = "1#{a}2#{b}3#{c}4#{d}5#{e}6#{f}7#{g}8#{h}9"
n = eval s
if n == 100 then
p s
end
}
=end
Updated by metanest (Makoto Kishimoto) almost 15 years ago
=begin
(from [ruby-dev:40601] )
Try to login with too short passwords.
("a".."z").to_a.repeated_permutation(5).find {|s| login(s.join) }
====
Check ruby parser with doubtful strings.
%w(( ) $ ` ' | & =).repeated_permutation(5) do |s|
begin; eval(p(s.join)); rescue Exception; end
end
=end
Updated by mame (Yusuke Endoh) almost 15 years ago
=begin
Hi matz,
2010/3/18 KISHIMOTO, Makoto ksmakoto@dd.iij4u.or.jp:
New methods Array#repeated_(permutation|combination).
Like Array#(permutation|combination), these methods make
repeated permutation or combination.
You have already approved this feature at [ruby-dev:40610], and
you said you would apply the patch.
Could you, or may I commit the patch?
--
Yusuke ENDOH mame@tsg.ne.jp
=end
Updated by naruse (Yui NARUSE) over 14 years ago
- Category set to core
- Status changed from Open to Assigned
- Assignee set to matz (Yukihiro Matsumoto)
- Priority changed from 3 to Normal
=begin
=end
Updated by znz (Kazuhiro NISHIYAMA) over 14 years ago
- Target version set to 1.9.2
- Start date set to 03/18/2010
=begin
=end
Updated by metanest (Makoto Kishimoto) over 14 years ago
- File repeated_patch.txt repeated_patch.txt added
=begin
patch for current trunk
=end
Updated by matz (Yukihiro Matsumoto) over 14 years ago
- Status changed from Assigned to Closed
- % Done changed from 0 to 100
=begin
This issue was solved with changeset r27352.
Makoto, thank you for reporting this issue.
Your contribution to Ruby is greatly appreciated.
May Ruby be with you.
=end