From eb9bc2d2655c336a1e5a34af69fdf5bf2c7d0788 Mon Sep 17 00:00:00 2001 From: nobu Date: Thu, 16 Jul 2009 06:00:35 +0000 Subject: [PATCH] * random.c (rb_random_t): objectified. [EXPERIMENTAL] [ruby-dev:30954] git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@24142 b2dd03c8-39d4-4d8f-98ff-823fe69b080e --- ChangeLog | 5 + random.c | 529 +++++++++++++++++++++++++++++++++++++---- test/ruby/test_rand.rb | 160 ++++++------- 3 files changed, 569 insertions(+), 125 deletions(-) diff --git a/ChangeLog b/ChangeLog index 452411303a..ce1aaeac7a 100644 --- a/ChangeLog +++ b/ChangeLog @@ -1,3 +1,8 @@ +Thu Jul 16 15:00:27 2009 Nobuyoshi Nakada + + * random.c (rb_random_t): objectified. [EXPERIMENTAL] + [ruby-dev:30954] + Thu Jul 16 14:08:44 2009 Yukihiro Matsumoto * array.c (rb_ary_sample): RDoc update. a patch from Florian diff --git a/random.c b/random.c index 5ee36ccb5f..a88c9e2d8b 100644 --- a/random.c +++ b/random.c @@ -93,7 +93,7 @@ init_genrand(struct MT *mt, unsigned int s) mt->state[j] = (1812433253U * (mt->state[j-1] ^ (mt->state[j-1] >> 30)) + j); /* See Knuth TAOCP Vol2. 3rd Ed. P.106 for multiplier. */ /* In the previous versions, MSBs of the seed affect */ - /* only MSBs of the array state[]. */ + /* only MSBs of the array state[]. */ /* 2002/01/09 modified by Makoto Matsumoto */ mt->state[j] &= 0xffffffff; /* for >32 bit machines */ } @@ -197,36 +197,103 @@ genrand_real(struct MT *mt) #include #endif +typedef struct { + VALUE seed; + struct MT mt; +} rb_random_t; + #define DEFAULT_SEED_CNT 4 -struct RandSeed { - VALUE value; +struct Random { + rb_random_t rnd; unsigned int initial[DEFAULT_SEED_CNT]; }; -struct Random { - struct MT mt; - struct RandSeed seed; -}; - -static struct Random default_mt; +static struct Random default_rand; unsigned long rb_genrand_int32(void) { - return genrand_int32(&default_mt.mt); + return genrand_int32(&default_rand.rnd.mt); } double rb_genrand_real(void) { - return genrand_real(&default_mt.mt); + return genrand_real(&default_rand.rnd.mt); } +#define BDIGITS(x) (RBIGNUM_DIGITS(x)) +#define BITSPERDIG (SIZEOF_BDIGITS*CHAR_BIT) +#define BIGRAD ((BDIGIT_DBL)1 << BITSPERDIG) +#define DIGSPERINT (SIZEOF_LONG/SIZEOF_BDIGITS) +#define BIGUP(x) ((BDIGIT_DBL)(x) << BITSPERDIG) +#define BIGDN(x) RSHIFT(x,BITSPERDIG) +#define BIGLO(x) ((BDIGIT)((x) & (BIGRAD-1))) +#define BDIGMAX ((BDIGIT)-1) + #define roomof(n, m) (int)(((n)+(m)-1) / (m)) #define numberof(array) (int)(sizeof(array) / sizeof((array)[0])) #define SIZEOF_INT32 (31/CHAR_BIT + 1) +VALUE rb_cRandom; +#define id_minus '-' +#define id_plus '+' + +static VALUE random_seed(void); + +/* :nodoc: */ +static void +random_mark(void *ptr) +{ + rb_gc_mark(((rb_random_t *)ptr)->seed); +} + +#define random_free RUBY_TYPED_DEFAULT_FREE + +static size_t +random_memsize(void *ptr) +{ + return ptr ? sizeof(rb_random_t) : 0; +} + +static const rb_data_type_t random_data_type = { + "random", + random_mark, + random_free, + random_memsize, +}; + +static rb_random_t * +get_rnd(VALUE obj) +{ + rb_random_t *ptr; + TypedData_Get_Struct(obj, rb_random_t, &random_data_type, ptr); + return ptr; +} + +/* :nodoc: */ +static VALUE +random_alloc(VALUE klass) +{ + rb_random_t *rnd; + VALUE obj = TypedData_Make_Struct(rb_cRandom, rb_random_t, &random_data_type, rnd); + rnd->seed = INT2FIX(0); + return obj; +} + +static void +dump_mt(const struct MT *mt, const char *s) +{ + int i, n = mt->next - mt->state; + static FILE *f; + if (!f) f = fopen("rand.data", "w"); + fprintf(f, "%s\nleft=%d\n", s, mt->left); + for (i = 0; i < MT_MAX_STATE; ++i) { + fprintf(f, " %s %u\n", i == n ? "*" : " ", mt->state[i]); + } +} + static VALUE rand_init(struct MT *mt, VALUE vseed) { @@ -286,6 +353,39 @@ rand_init(struct MT *mt, VALUE vseed) return seed; } +/* + * call-seq: Random.new([seed]) -> prng + * + * Creates new Mersenne Twister based pseudorandom number generator with + * seed. When the argument seed is omitted, the generator is initialized + * with Random.seed. + * + * The argument seed is used to ensure repeatable sequences of random numbers + * between different runs of the program. + * + * prng = Random.new(1234) + * [ prng.rand, prng.rand ] #=> [0.191519450378892, 0.622108771039832] + * [ prng.integer(10), prng.integer(1000) ] #=> [4, 664] + * prng = Random.new(1234) + * [ prng.rand, prng.rand ] #=> [0.191519450378892, 0.622108771039832] + */ +static VALUE +random_init(int argc, VALUE *argv, VALUE obj) +{ + VALUE vseed; + rb_random_t *rnd = get_rnd(obj); + + if (argc == 0) { + vseed = random_seed(); + } + else { + rb_scan_args(argc, argv, "01", &vseed); + } + rnd->seed = rand_init(&rnd->mt, vseed); + dump_mt(&rnd->mt, "random_init"); + return obj; +} + #define DEFAULT_SEED_LEN (DEFAULT_SEED_CNT * sizeof(int)) static void @@ -351,6 +451,11 @@ make_seed_value(const void *ptr) return rb_big_norm((VALUE)big); } +/* + * call-seq: Random.seed -> integer + * + * Returns arbitrary value for seed. + */ static VALUE random_seed(void) { @@ -359,6 +464,180 @@ random_seed(void) return make_seed_value(buf); } +/* + * call-seq: prng.seed -> integer + * + * Returns the seed of the generator. + */ +static VALUE +random_get_seed(VALUE obj) +{ + return get_rnd(obj)->seed; +} + +/* :nodoc: */ +static VALUE +random_copy(VALUE obj, VALUE orig) +{ + rb_random_t *rnd1 = get_rnd(obj); + rb_random_t *rnd2 = get_rnd(orig); + struct MT *mt = &rnd1->mt; + + *rnd1 = *rnd2; + mt->next = mt->state + numberof(mt->state) - mt->left + 1; + return obj; +} + +static VALUE +mt_state(const struct MT *mt) +{ + VALUE bigo = rb_big_new(sizeof(mt->state) / sizeof(BDIGIT), 1); + BDIGIT *d = RBIGNUM_DIGITS(bigo); + int i; + + for (i = 0; i < numberof(mt->state); ++i) { + unsigned int x = mt->state[i]; +#if SIZEOF_BDIGITS < SIZEOF_INT32 + int j; + for (j = 0; j < SIZEOF_INT32 / SIZEOF_BDIGITS; ++j) { + *d++ = BIGLO(x); + x = BIGDN(x); + } +#else + *d++ = (BDIGIT)x; +#endif + } + return rb_big_norm(bigo); +} + +static VALUE +random_state(VALUE obj) +{ + rb_random_t *rnd = get_rnd(obj); + return mt_state(&rnd->mt); +} + +static VALUE +random_s_state(VALUE klass) +{ + return mt_state(&default_rand.rnd.mt); +} + +static VALUE +random_left(VALUE obj) +{ + rb_random_t *rnd = get_rnd(obj); + return INT2FIX(rnd->mt.left); +} + +static VALUE +random_s_left(VALUE klass) +{ + return INT2FIX(default_rand.rnd.mt.left); +} + +/* :nodoc: */ +static VALUE +random_dump(VALUE obj) +{ + rb_random_t *rnd = get_rnd(obj); + VALUE dump = rb_ary_new2(3); + + rb_ary_push(dump, mt_state(&rnd->mt)); + rb_ary_push(dump, INT2FIX(rnd->mt.left)); + rb_ary_push(dump, rnd->seed); + + return dump; +} + +/* :nodoc: */ +static VALUE +random_load(VALUE obj, VALUE dump) +{ + rb_random_t *rnd = get_rnd(obj); + struct MT *mt = &rnd->mt; + VALUE state, left = INT2FIX(1), seed = INT2FIX(0); + VALUE *ary; + unsigned long x; + + Check_Type(dump, T_ARRAY); + ary = RARRAY_PTR(dump); + switch (RARRAY_LEN(dump)) { + case 3: + seed = ary[2]; + case 2: + left = ary[1]; + case 1: + state = ary[0]; + break; + default: + rb_raise(rb_eArgError, "wrong dump data"); + } + memset(mt->state, 0, sizeof(mt->state)); + if (FIXNUM_P(state)) { + x = FIX2ULONG(state); + mt->state[0] = (unsigned int)x; +#if SIZEOF_LONG / SIZEOF_INT >= 2 + mt->state[1] = (unsigned int)(x >> CHAR_BIT * SIZEOF_BDIGITS); +#endif +#if SIZEOF_LONG / SIZEOF_INT >= 3 + mt->state[2] = (unsigned int)(x >> 2 * CHAR_BIT * SIZEOF_BDIGITS); +#endif +#if SIZEOF_LONG / SIZEOF_INT >= 4 + mt->state[3] = (unsigned int)(x >> 3 * CHAR_BIT * SIZEOF_BDIGITS); +#endif + } + else { + BDIGIT *d; + long len; + Check_Type(state, T_BIGNUM); + len = RBIGNUM_LEN(state); + if (len > roomof(sizeof(mt->state), SIZEOF_BDIGITS)) { + len = roomof(sizeof(mt->state), SIZEOF_BDIGITS); + } +#if SIZEOF_BDIGITS < SIZEOF_INT + else if (len % DIGSPERINT) { + d = RBIGNUM_DIGITS(state) + len; +# if DIGSPERINT == 2 + --len; + x = *--d; +# else + x = 0; + do { + x = (x << CHAR_BIT * SIZEOF_BDIGITS) | *--d; + } while (--len % DIGSPERINT); +# endif + mt->state[len / DIGSPERINT] = (unsigned int)x; + } +#endif + if (len > 0) { + d = BDIGITS(state) + len; + do { + --len; + x = *--d; +# if DIGSPERINT == 2 + --len; + x = (x << CHAR_BIT * SIZEOF_BDIGITS) | *--d; +# elif SIZEOF_BDIGITS < SIZEOF_INT + do { + x = (x << CHAR_BIT * SIZEOF_BDIGITS) | *--d; + } while (--len % DIGSPERINT); +#endif + mt->state[len / DIGSPERINT] = (unsigned int)x; + } while (len > 0); + } + } + x = NUM2ULONG(left); + if (x > numberof(mt->state)) { + rb_raise(rb_eArgError, "wrong value"); + } + mt->left = (unsigned int)x; + mt->next = mt->state + numberof(mt->state) - x + 1; + rnd->seed = rb_to_int(seed); + + return obj; +} + /* * call-seq: * srand(number=0) => old_seed @@ -385,8 +664,9 @@ rb_f_srand(int argc, VALUE *argv, VALUE obj) else { rb_scan_args(argc, argv, "01", &seed); } - old = default_mt.seed.value; - default_mt.seed.value = rand_init(&default_mt.mt, seed); + old = default_rand.rnd.seed; + default_rand.rnd.seed = rand_init(&default_rand.rnd.mt, seed); + dump_mt(&default_rand.rnd.mt, "srand"); return old; } @@ -414,7 +694,7 @@ limited_rand(struct MT *mt, unsigned long limit) retry: val = 0; - for (i = SIZEOF_LONG/4-1; 0 <= i; i--) { + for (i = SIZEOF_LONG/SIZEOF_INT32-1; 0 <= i; i--) { if ((mask >> (i * 32)) & 0xffffffff) { val |= (unsigned long)genrand_int32(mt) << (i * 32); val &= mask; @@ -478,13 +758,172 @@ limited_big_rand(struct MT *mt, struct RBignum *limit) unsigned long rb_rand_internal(unsigned long i) { - struct MT *mt = &default_mt.mt; + struct MT *mt = &default_rand.rnd.mt; if (!genrand_initialized(mt)) { rand_init(mt, random_seed()); } return limited_rand(mt, i); } +/* + * call-seq: prng.bytes(size) -> prng + * + * Returns a random binary string. The argument size specified the length of + * the result string. + */ +static VALUE +random_bytes(VALUE obj, VALUE len) +{ + rb_random_t *rnd = get_rnd(obj); + long n = FIX2LONG(rb_to_int(len)); + VALUE bytes = rb_str_new(0, n); + char *ptr = RSTRING_PTR(bytes); + unsigned int r, i; + + for (; n >= SIZEOF_INT32; n -= SIZEOF_INT32) { + r = genrand_int32(&rnd->mt); + i = SIZEOF_INT32; + do { + *ptr++ = (char)r; + r >>= CHAR_BIT; + } while (--i); + } + if (n > 0) { + r = genrand_int32(&rnd->mt); + do { + *ptr++ = (char)r; + r >>= CHAR_BIT; + } while (--n); + } + return bytes; +} + +static VALUE +range_values(VALUE vmax, VALUE *begp) +{ + VALUE end, r, one = INT2FIX(1); + int excl; + + if (!rb_range_values(vmax, begp, &end, &excl)) return Qfalse; + if (!rb_respond_to(end, id_minus)) return Qfalse; + r = rb_funcall2(end, id_minus, 1, begp); + if (NIL_P(r)) return Qfalse; + if (!excl && rb_respond_to(r, id_plus)) { + r = rb_funcall2(r, id_plus, 1, &one); + if (NIL_P(r)) return Qfalse; + } + return r; +} + +static inline VALUE +add_to_begin(VALUE beg, VALUE offset) +{ + if (beg == Qundef) return offset; + return rb_funcall2(beg, id_plus, 1, &offset); +} + +static VALUE +rand_int(struct MT *mt, VALUE vmax) +{ + if (FIXNUM_P(vmax)) { + long max = FIX2LONG(vmax); + unsigned long r; + if (!max) return Qnil; + r = limited_rand(mt, (unsigned long)(max < 0 ? -max : max) - 1); + return ULONG2NUM(r); + } + else { + struct RBignum *limit = (struct RBignum *)vmax; + if (rb_bigzero_p(vmax)) return Qnil; + if (!RBIGNUM_SIGN(limit)) { + limit = (struct RBignum *)rb_big_clone(vmax); + RBIGNUM_SET_SIGN(limit, 1); + } + limit = (struct RBignum *)rb_big_minus((VALUE)limit, INT2FIX(1)); + if (FIXNUM_P((VALUE)limit)) { + if (FIX2LONG((VALUE)limit) == -1) + return Qnil; + return LONG2NUM(limited_rand(mt, FIX2LONG((VALUE)limit))); + } + return limited_big_rand(mt, limit); + } +} + +/* + * call-seq: prng.int(limit) -> integer + * + * When the argument is an +Integer+ or a +Bignum+, it returns a + * random integer greater than or equal to zero and less than the + * argument. Unlike Random#rand, when the argument is a negative + * integer or zero, it raises an ArgumentError. + * + * When the argument _limit_ is a +Range+, it returns a random + * integer from integers where range.member?(integer) == true. + * prng.int(5..9) # => one of [5, 6, 7, 8, 9] + * prng.int(5...9) # => one of [5, 6, 7, 8] + * + * +begin+/+end+ of the range have to have subtruct and add methods. + * + * Otherwise, it raises an ArgumentError. + */ +static VALUE +random_int(VALUE obj, VALUE vmax) +{ + VALUE v, beg = Qundef; + rb_random_t *rnd = get_rnd(obj); + + v = rb_check_to_integer(vmax, "to_int"); + if (NIL_P(v)) { + /* range like object support */ + if (!(v = range_values(vmax, &beg))) { + beg = Qundef; + NUM2LONG(vmax); + } + } + v = rand_int(&rnd->mt, v); + if (NIL_P(v)) v = INT2FIX(0); + return add_to_begin(beg, v); +} + +/* + * call-seq: + * prng.float -> float + * prng.float([max=1.0]) -> float + * + * Returns a random floating point number between 0.0 and _max_, + * including 0.0 and excluding _max_. + */ +static VALUE +random_float(int argc, VALUE *argv, VALUE obj) +{ + rb_random_t *rnd = get_rnd(obj); + VALUE vmax, beg = Qundef; + double max = 0, r; + + switch (argc) { + case 0: + break; + case 1: + vmax = argv[0]; + if (TYPE(vmax) == T_FLOAT || + !NIL_P(vmax = rb_to_float(vmax)) || + (vmax = range_values(vmax, &beg)) != Qfalse) { + max = RFLOAT_VALUE(vmax); + } + else { + beg = Qundef; + Check_Type(argv[0], T_FLOAT); + } + break; + default: + rb_scan_args(argc, argv, "01", 0); + break; + } + r = genrand_real(&rnd->mt); + if (argc) r *= max; + return add_to_begin(beg, rb_float_new(r)); +} + /* * call-seq: * rand(max=0) => number @@ -508,9 +947,8 @@ rb_rand_internal(unsigned long i) static VALUE rb_f_rand(int argc, VALUE *argv, VALUE obj) { - VALUE vmax; - long val, max; - struct MT *mt = &default_mt.mt; + VALUE vmax, r; + struct MT *mt = &default_rand.rnd.mt; if (!genrand_initialized(mt)) { rand_init(mt, random_seed()); @@ -519,50 +957,32 @@ rb_f_rand(int argc, VALUE *argv, VALUE obj) rb_scan_args(argc, argv, "01", &vmax); if (NIL_P(vmax)) goto zero_arg; vmax = rb_to_int(vmax); - if (TYPE(vmax) == T_BIGNUM) { - struct RBignum *limit = (struct RBignum *)vmax; - if (!RBIGNUM_SIGN(limit)) { - limit = (struct RBignum *)rb_big_clone(vmax); - RBIGNUM_SET_SIGN(limit, 1); - } - limit = (struct RBignum *)rb_big_minus((VALUE)limit, INT2FIX(1)); - if (FIXNUM_P((VALUE)limit)) { - if (FIX2LONG((VALUE)limit) == -1) - return DBL2NUM(genrand_real(mt)); - return LONG2NUM(limited_rand(mt, FIX2LONG((VALUE)limit))); - } - return limited_big_rand(mt, limit); - } - max = NUM2LONG(vmax); - - if (max == 0) { + if (vmax == INT2FIX(0) || NIL_P(r = rand_int(mt, vmax))) { zero_arg: return DBL2NUM(genrand_real(mt)); } - if (max < 0) max = -max; - val = limited_rand(mt, max-1); - return LONG2NUM(val); + return r; } void Init_RandomSeed(void) { - fill_random_seed(default_mt.seed.initial); - init_by_array(&default_mt.mt, default_mt.seed.initial, DEFAULT_SEED_CNT); + fill_random_seed(default_rand.initial); + init_by_array(&default_rand.rnd.mt, default_rand.initial, DEFAULT_SEED_CNT); } static void Init_RandomSeed2(void) { - default_mt.seed.value = make_seed_value(default_mt.seed.initial); - memset(default_mt.seed.initial, 0, DEFAULT_SEED_LEN); + default_rand.rnd.seed = make_seed_value(default_rand.initial); + memset(default_rand.initial, 0, DEFAULT_SEED_LEN); } void rb_reset_random_seed(void) { - uninit_genrand(&default_mt.mt); - default_mt.seed.value = INT2FIX(0); + uninit_genrand(&default_rand.rnd.mt); + default_rand.rnd.seed = INT2FIX(0); } void @@ -571,5 +991,24 @@ Init_Random(void) Init_RandomSeed2(); rb_define_global_function("srand", rb_f_srand, -1); rb_define_global_function("rand", rb_f_rand, -1); - rb_global_variable(&default_mt.seed.value); + rb_global_variable(&default_rand.rnd.seed); + + rb_cRandom = rb_define_class("Random", rb_cObject); + rb_define_alloc_func(rb_cRandom, random_alloc); + rb_define_method(rb_cRandom, "initialize", random_init, -1); + rb_define_method(rb_cRandom, "int", random_int, 1); + rb_define_method(rb_cRandom, "bytes", random_bytes, 1); + rb_define_method(rb_cRandom, "float", random_float, -1); + rb_define_method(rb_cRandom, "seed", random_get_seed, 0); + rb_define_method(rb_cRandom, "initialize_copy", random_copy, 1); + rb_define_method(rb_cRandom, "marshal_dump", random_dump, 0); + rb_define_method(rb_cRandom, "marshal_load", random_load, 1); + rb_define_method(rb_cRandom, "state", random_state, 0); + rb_define_method(rb_cRandom, "left", random_left, 0); + + rb_define_singleton_method(rb_cRandom, "srand", rb_f_srand, -1); + rb_define_singleton_method(rb_cRandom, "rand", rb_f_rand, -1); + rb_define_singleton_method(rb_cRandom, "new_seed", random_seed, 0); + rb_define_singleton_method(rb_cRandom, "state", random_s_state, 0); + rb_define_singleton_method(rb_cRandom, "left", random_s_left, 0); } diff --git a/test/ruby/test_rand.rb b/test/ruby/test_rand.rb index 7f1e71de3f..7bfd96f355 100644 --- a/test/ruby/test_rand.rb +++ b/test/ruby/test_rand.rb @@ -1,162 +1,162 @@ require 'test/unit' class TestRand < Test::Unit::TestCase + def assert_random_int(ws, m, init = 0) + srand(init) + rnds = [Random.new(init)] + ws.each do |w| + w = w.to_i + assert_equal(w, rand(m)) + rnds.each do |rnd| + assert_equal(w, rnd.int(m)) + end + rnds << Marshal.load(Marshal.dump(rnds[-1])) + end + end + def test_mt - srand(0x00000456_00000345_00000234_00000123) - %w(1067595299 955945823 477289528 4107218783 4228976476).each {|w| - assert_equal(w.to_i, rand(0x100000000)) - } + assert_random_int(%w(1067595299 955945823 477289528 4107218783 4228976476), + 0x100000000, 0x00000456_00000345_00000234_00000123) end def test_0x3fffffff - srand(0) - %w(209652396 398764591 924231285 404868288 441365315).each {|w| - assert_equal(w.to_i, rand(0x3fffffff)) - } + assert_random_int(%w(209652396 398764591 924231285 404868288 441365315), + 0x3fffffff) end def test_0x40000000 - srand(0) - %w(209652396 398764591 924231285 404868288 441365315).each {|w| - assert_equal(w.to_i, rand(0x40000000)) - } + assert_random_int(%w(209652396 398764591 924231285 404868288 441365315), + 0x40000000) end def test_0x40000001 - srand(0) - %w(209652396 398764591 924231285 441365315 192771779).each {|w| - assert_equal(w.to_i, rand(0x40000001)) - } + assert_random_int(%w(209652396 398764591 924231285 441365315 192771779), + 0x40000001) end def test_0xffffffff - srand(0) - %w(2357136044 2546248239 3071714933 3626093760 2588848963).each {|w| - assert_equal(w.to_i, rand(0xffffffff)) - } + assert_random_int(%w(2357136044 2546248239 3071714933 3626093760 2588848963), + 0xffffffff) end def test_0x100000000 - srand(0) - %w(2357136044 2546248239 3071714933 3626093760 2588848963).each {|w| - assert_equal(w.to_i, rand(0x100000000)) - } + assert_random_int(%w(2357136044 2546248239 3071714933 3626093760 2588848963), + 0x100000000) end def test_0x100000001 - srand(0) - %w(2546248239 1277901399 243580376 1171049868 2051556033).each {|w| - assert_equal(w.to_i, rand(0x100000001)) - } + assert_random_int(%w(2546248239 1277901399 243580376 1171049868 2051556033), + 0x100000001) end def test_rand_0x100000000 - srand(311702798) - %w(4119812344 3870378946 80324654 4294967296 410016213).each {|w| - assert_equal(w.to_i, rand(0x100000001)) - } + assert_random_int(%w(4119812344 3870378946 80324654 4294967296 410016213), + 0x100000001, 311702798) end def test_0x1000000000000 - srand(0) - %w(11736396900911 - 183025067478208 - 197104029029115 - 130583529618791 - 180361239846611).each {|w| - assert_equal(w.to_i, rand(0x1000000000000)) - } + assert_random_int(%w(11736396900911 + 183025067478208 + 197104029029115 + 130583529618791 + 180361239846611), + 0x1000000000000) end def test_0x1000000000001 - srand(0) - %w(187121911899765 - 197104029029115 - 180361239846611 - 236336749852452 - 208739549485656).each {|w| - assert_equal(w.to_i, rand(0x1000000000001)) - } + assert_random_int(%w(187121911899765 + 197104029029115 + 180361239846611 + 236336749852452 + 208739549485656), + 0x1000000000001) end def test_0x3fffffffffffffff - srand(0) - %w(900450186894289455 - 3969543146641149120 - 1895649597198586619 - 827948490035658087 - 3203365596207111891).each {|w| - assert_equal(w.to_i, rand(0x3fffffffffffffff)) - } + assert_random_int(%w(900450186894289455 + 3969543146641149120 + 1895649597198586619 + 827948490035658087 + 3203365596207111891), + 0x3fffffffffffffff) end def test_0x4000000000000000 - srand(0) - %w(900450186894289455 - 3969543146641149120 - 1895649597198586619 - 827948490035658087 - 3203365596207111891).each {|w| - assert_equal(w.to_i, rand(0x4000000000000000)) - } + assert_random_int(%w(900450186894289455 + 3969543146641149120 + 1895649597198586619 + 827948490035658087 + 3203365596207111891), + 0x4000000000000000) end def test_0x4000000000000001 - srand(0) - %w(900450186894289455 - 3969543146641149120 - 1895649597198586619 - 827948490035658087 - 2279347887019741461).each {|w| - assert_equal(w.to_i, rand(0x4000000000000001)) - } + assert_random_int(%w(900450186894289455 + 3969543146641149120 + 1895649597198586619 + 827948490035658087 + 2279347887019741461), + 0x4000000000000001) end def test_neg_0x10000000000 ws = %w(455570294424 1073054410371 790795084744 2445173525 1088503892627) - srand(3) - ws.each {|w| assert_equal(w.to_i, rand(0x10000000000)) } - srand(3) - ws.each {|w| assert_equal(w.to_i, rand(-0x10000000000)) } + assert_random_int(ws, 0x10000000000, 3) + assert_random_int(ws, -0x10000000000, 3) end def test_neg_0x10000 ws = %w(2732 43567 42613 52416 45891) - srand(0) - ws.each {|w| assert_equal(w.to_i, rand(0x10000)) } - srand(0) - ws.each {|w| assert_equal(w.to_i, rand(-0x10000)) } + assert_random_int(ws, 0x10000) + assert_random_int(ws, -0x10000) end def test_types srand(0) + rnd = Random.new(0) assert_equal(44, rand(100.0)) + assert_equal(44, rnd.int(100.0)) assert_equal(1245085576965981900420779258691, rand((2**100).to_f)) + assert_equal(1245085576965981900420779258691, rnd.int((2**100).to_f)) assert_equal(914679880601515615685077935113, rand(-(2**100).to_f)) + assert_equal(914679880601515615685077935113, rnd.int(-(2**100).to_f)) srand(0) + rnd = Random.new(0) assert_equal(997707939797331598305742933184, rand(2**100)) + assert_equal(997707939797331598305742933184, rnd.int(2**100)) assert_in_delta(0.602763376071644, rand((2**100).coerce(0).first), 0.000000000000001) + assert_equal(0, rnd.int((2**100).coerce(0).first)) srand(0) + rnd = Random.new(0) assert_in_delta(0.548813503927325, rand(nil), 0.000000000000001) + assert_in_delta(0.548813503927325, rnd.float(), + 0.000000000000001) srand(0) + rnd = Random.new(0) o = Object.new def o.to_int; 100; end assert_equal(44, rand(o)) + assert_equal(44, rnd.int(o)) assert_equal(47, rand(o)) + assert_equal(47, rnd.int(o)) assert_equal(64, rand(o)) + assert_equal(64, rnd.int(o)) end def test_srand srand assert_kind_of(Integer, rand(2)) + assert_kind_of(Integer, Random.new.int(2)) srand(2**100) + rnd = Random.new(2**100) %w(3258412053).each {|w| assert_equal(w.to_i, rand(0x100000000)) + assert_equal(w.to_i, rnd.int(0x100000000)) } end