array_opt2.diff - Ruby master - Ruby Issue Tracking System

     #define ARY_DEFAULT_SIZE 16
     #define ARY_MAX_SIZE (LONG_MAX / (int)sizeof(VALUE))
     #define SMALL_ARRAY_LEN 16
     # define ARY_SHARED_P(ary) \
         (assert(!FL_TEST((ary), ELTS_SHARED) || !FL_TEST((ary), RARRAY_EMBED_FLAG)), \
-...
+    }
     VALUE
     rb_ary_includes_by_eql(VALUE ary, VALUE item)
+    {
         long i;
         VALUE e;
         for (i=0; i<RARRAY_LEN(ary); i++) {
     	e = RARRAY_AREF(ary, i);
     	if (rb_eql(e, item)) {
     	    return Qtrue;
+    	}
+        }
         return Qfalse;
+    }
     static VALUE
     recursive_cmp(VALUE ary1, VALUE ary2, int recur)
+    {
-...
         VALUE hash;
         long i;
         hash = ary_make_hash(to_ary(ary2));
         ary3 = rb_ary_new();
         for (i=0; i<RARRAY_LEN(ary1); i++) {
     	if (st_lookup(rb_hash_tbl_raw(hash), RARRAY_AREF(ary1, i), 0)) continue;
     	rb_ary_push(ary3, rb_ary_elt(ary1, i));
         if (RARRAY_LEN(ary2) <= SMALL_ARRAY_LEN) {
     	for (i=0; i<RARRAY_LEN(ary1); i++) {
     	    VALUE elt = rb_ary_elt(ary1, i);
     	    if (rb_ary_includes_by_eql(ary2, elt)) continue;
     	    rb_ary_push(ary3, elt);
+    	}
         } else {
     	hash = ary_make_hash(to_ary(ary2));
     	for (i=0; i<RARRAY_LEN(ary1); i++) {
     	    if (st_lookup(rb_hash_tbl_raw(hash), RARRAY_AREF(ary1, i), 0)) continue;
     	    rb_ary_push(ary3, rb_ary_elt(ary1, i));
+    	}
     	ary_recycle_hash(hash);
+        }
         ary_recycle_hash(hash);
         return ary3;
+    }
-...
         ary2 = to_ary(ary2);
         ary3 = rb_ary_new();
         if (RARRAY_LEN(ary2) == 0) return ary3;
         hash = ary_make_hash(ary2);
         table = rb_hash_tbl_raw(hash);
         for (i=0; i<RARRAY_LEN(ary1); i++) {
     	v = RARRAY_AREF(ary1, i);
     	vv = (st_data_t)v;
     	if (st_delete(table, &vv, 0)) {
     	    rb_ary_push(ary3, v);
         if (RARRAY_LEN(ary1) <= SMALL_ARRAY_LEN && RARRAY_LEN(ary2) <= SMALL_ARRAY_LEN) {
     	for (i=0; i<RARRAY_LEN(ary1); i++) {
     	    VALUE elt = rb_ary_elt(ary1, i);
     	    if (!rb_ary_includes_by_eql(ary2, elt)) continue;
     	    if (rb_ary_includes_by_eql(ary3, elt)) continue;
     	    rb_ary_push(ary3, elt);
+    	}
         } else {
     	hash = ary_make_hash(ary2);
     	table = rb_hash_tbl_raw(hash);
     	for (i=0; i<RARRAY_LEN(ary1); i++) {
     	    v = RARRAY_AREF(ary1, i);
     	    vv = (st_data_t)v;
     	    if (st_delete(table, &vv, 0)) {
     		rb_ary_push(ary3, v);
+    	    }
+    	}
     	ary_recycle_hash(hash);
+        }
         ary_recycle_hash(hash);
         return ary3;
+    }
-...
         long i;
         ary2 = to_ary(ary2);
         hash = ary_make_hash(ary1);
         for (i=0; i<RARRAY_LEN(ary2); i++) {
     	VALUE elt = RARRAY_AREF(ary2, i);
     	if (!st_update(RHASH_TBL_RAW(hash), (st_data_t)elt, ary_hash_orset, (st_data_t)elt)) {
     	    RB_OBJ_WRITTEN(hash, Qundef, elt);
         if (RARRAY_LEN(ary1) + RARRAY_LEN(ary2) <= SMALL_ARRAY_LEN) {
     	ary3 = rb_ary_new();
     	for (i=0; i<RARRAY_LEN(ary1); i++) {
     	    VALUE elt = rb_ary_elt(ary1, i);
     	    if (rb_ary_includes_by_eql(ary3, elt)) continue;
     	    rb_ary_push(ary3, elt);
+    	}
     	for (i=0; i<RARRAY_LEN(ary2); i++) {
     	    VALUE elt = rb_ary_elt(ary2, i);
     	    if (rb_ary_includes_by_eql(ary3, elt)) continue;
     	    rb_ary_push(ary3, elt);
+    	}
         } else {
     	hash = ary_make_hash(ary1);
     	for (i=0; i<RARRAY_LEN(ary2); i++) {
     	    VALUE elt = RARRAY_AREF(ary2, i);
     	    if (!st_update(RHASH_TBL_RAW(hash), (st_data_t)elt, ary_hash_orset, (st_data_t)elt)) {
     		RB_OBJ_WRITTEN(hash, Qundef, elt);
+    	    }
+    	}
     	ary3 = rb_hash_values(hash);
     	ary_recycle_hash(hash);
+        }
         ary3 = rb_hash_values(hash);
         ary_recycle_hash(hash);
         return ary3;
+    }

     MIN_SIZE = ENV.fetch('SMALL_ARRAY_MIN', 0).to_i
     MAX_SIZE = ENV.fetch('SMALL_ARRAY_MAX', 16).to_i
     ITERATIONS = ENV.fetch('SMALL_ARRAY_ITERATIONS', 100).to_i
     ARRAYS = (MIN_SIZE..MAX_SIZE).map do |size1|
       (MIN_SIZE..MAX_SIZE).map do |size2|
         [Array.new(size1) { rand(MAX_SIZE) }, Array.new(size2) { rand(MAX_SIZE) }]
       end
     end
     ITERATIONS.times do
       ARRAYS.each do |group|
         group.each do |arr1, arr2|
           arr1 & arr2
         end
       end
     end

     MIN_SIZE = ENV.fetch('SMALL_ARRAY_MIN', 0).to_i
     MAX_SIZE = ENV.fetch('SMALL_ARRAY_MAX', 16).to_i
     ITERATIONS = ENV.fetch('SMALL_ARRAY_ITERATIONS', 100).to_i
     ARRAYS = (MIN_SIZE..MAX_SIZE).map do |size1|
       (MIN_SIZE..MAX_SIZE).map do |size2|
         [Array.new(size1) { rand(MAX_SIZE) }, Array.new(size2) { rand(MAX_SIZE) }]
       end
     end
     ITERATIONS.times do
       ARRAYS.each do |group|
         group.each do |arr1, arr2|
           arr1 - arr2
         end
       end
     end

     MIN_SIZE = ENV.fetch('SMALL_ARRAY_MIN', 0).to_i
     MAX_SIZE = ENV.fetch('SMALL_ARRAY_MAX', 16).to_i
     ITERATIONS = ENV.fetch('SMALL_ARRAY_ITERATIONS', 100).to_i
     ARRAYS = (MIN_SIZE..MAX_SIZE).map do |size1|
       (MIN_SIZE..MAX_SIZE).map do |size2|
         [Array.new(size1) { rand(MAX_SIZE) }, Array.new(size2) { rand(MAX_SIZE) }]
       end
     end
     ITERATIONS.times do
       ARRAYS.each do |group|
         group.each do |arr1, arr2|
           arr1 | arr2
         end
       end
     end

         assert_equal(@cls[],     @cls[ 1, 2, 3 ]    & @cls[ 4, 5, 6 ])
       end
       def test_AND_big_array # '&'
         assert_equal(@cls[1, 3], @cls[ 1, 1, 3, 5 ]*64 & @cls[ 1, 2, 3 ]*64)
         assert_equal(@cls[],     @cls[ 1, 1, 3, 5 ]*64 & @cls[ ])
         assert_equal(@cls[],     @cls[  ]           & @cls[ 1, 2, 3 ]*64)
         assert_equal(@cls[],     @cls[ 1, 2, 3 ]*64 & @cls[ 4, 5, 6 ]*64)
       end
       def test_MUL # '*'
         assert_equal(@cls[], @cls[]*3)
         assert_equal(@cls[1, 1, 1], @cls[1]*3)
-...
         assert_equal(@cls[1, 2, 3], @cls[1, 2, 3] - @cls[4, 5, 6])
       end
       def test_MINUS_big_array # '-'
         assert_equal(@cls[1]*64, @cls[1, 2, 3, 4, 5]*64 - @cls[2, 3, 4, 5]*64)
         # Ruby 1.8 feature change
         #assert_equal(@cls[1], @cls[1, 2, 1, 3, 1, 4, 1, 5]*64 - @cls[2, 3, 4, 5]*64)
         assert_equal(@cls[1, 1, 1, 1]*64, @cls[1, 2, 1, 3, 1, 4, 1, 5]*64 - @cls[2, 3, 4, 5]*64)
         a = @cls[]
 .times { a << 1 }
         assert_equal(1000, a.length)
         #assert_equal(@cls[1], a - @cls[2])
        assert_equal(@cls[1] * 1000, a - @cls[2])
       end
       def test_LSHIFT # '<<'
         a = @cls[]
         a << 1
-...
         assert_equal([obj1], [obj1]|[obj2])
       end
       def test_OR_big_in_order
         obj1, obj2 = Class.new do
           attr_reader :name
           def initialize(name) @name = name; end
           def inspect; "test_OR_in_order(#{@name})"; end
           def hash; 0; end
           def eql?(a) true; end
           break [new("1"), new("2")]
         end
         assert_equal([obj1], [obj1]*64|[obj2]*64)
       end
       def test_OR_big_array # '|'
         assert_equal(@cls[1,2], @cls[1]*64 | @cls[2]*64)
         assert_equal(@cls[1,2], @cls[1, 2]*64 | @cls[1, 2]*64)
         a = (1..64).to_a
         b = (1..128).to_a
         c = a | b
         assert_equal(c, b)
         assert_not_same(c, b)
         assert_equal((1..64).to_a, a)
         assert_equal((1..128).to_a, b)
       end
       def test_combination
         a = @cls[]
         assert_equal(1, a.combination(0).size)

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Feature #13884 » array_opt2.diff