AskDefine | Define shuffle

Dictionary Definition



1 the act of mixing cards haphazardly [syn: shuffling, make]
2 walking with a slow dragging motion without lifting your feet; "from his shambling I assumed he was very old" [syn: shamble, shambling, shuffling]


1 walk by dragging one's feet; "he shuffled out of the room"; "We heard his feet shuffling down the hall" [syn: scuffle, shamble]
2 move about, move back and forth; "He shuffled his funds among different accounts in various countries so as to avoid the IRS"
3 mix so as to make a random order or arrangement; "shuffle the cards" [syn: ruffle, mix]

User Contributed Dictionary




  1. The act of shuffling cards.
    He made a real mess of the last shuffle.
  2. To get lost in the shuffle: to lack attention when you deserve it.
  3. An instance of walking without lifting one's feet.
    ''The sad young girl left with a lazy shuffle.
  4. In the context of "by extension|music": A rhythm commonly used in blues music. Consists of a series of triplet notes with the middle note missing, so that it sounds like a long note followed by a short note. Sounds like a walker dragging one foot.


act of shuffling cards


  1. To mix up (cards) in a random order before a card game.
  2. To walk without picking up one's feet.


to mix up cards in a random order
  • Czech: míchat, zamíchat
  • Finnish: sekoittaa
  • French: battre
  • German: mischen
  • Icelandic: stokka
  • Portuguese: embaralhar
  • Spanish: mezclar, barajear
  • Swedish: blanda
to walk without picking up one's feet
  • Hungarian: csoszog

Extensive Definition

Shuffling is a procedure used to randomize a deck of playing cards to provide an element of chance in card games. Shuffling is often followed by a cut, to ensure that the shuffler has not manipulated the outcome.
A typical sequence between hands of poker, for example, is a wash, two riffles, a strip, a third riffle, and a cut.

Shuffling techniques

Several techniques are used to shuffle a deck of cards. Some techniques are easy to learn while others achieve better randomization or are better suited to special decks.


A common shuffling technique is called the riffle or dovetail shuffle, in which half of the deck is held in each hand with the thumbs inward, then cards are released by the thumbs so that they fall to the table interleaved. Many also lift the cards up after a riffle, forming what is called a bridge which puts the cards back into place. This can also be done by placing the halves flat on the table with their rear corners touching, then lifting the back edges with the thumbs while pushing the halves together. While this method is more difficult, it is often used in casinos because it minimizes the risk of exposing cards during the shuffle.

Stripping or overhand

Another procedure is called stripping, overhand, or slide shuffle, where small groups of cards are removed from the top or bottom of a deck and replaced on the opposite side (or just assembled on the table in reverse order).

Hindu shuffle

Also known as "Kattar" or "Kenchi" [Hindi for scissor]. The deck is held face down, with the middle finger on one long edge and the thumb on the other on the bottom half of the deck. The other hand draws off a packet from the bottom of the deck. This packet is allowed to drop into the palm, then put on top of the first half. The maneuver is repeated over and over until the deck is all in the second hand. It is also the most common way in Asia and other parts of the world.

Pile shuffle

Cards are simply dealt out into a number of piles, then the piles are stacked on top of each other. This ensures that cards that were next to each other are now separated. The pile shuffle does not provide a good randomization of the cards (but this can be enormously improved by dealing to the piles in a different order each circuit, not always in the same order). It is sometimes used in collectible card games.

Corgi, Chemmy or Wash shuffle

Also known as the Wash or Corgi, scramble or beginner shuffle this involves simply spreading the cards out face down, and sliding them around and over each other with one's hands. Then the cards are moved into one pile so that they begin to intertwine and are then arranged back into a stack. This method is useful for beginners and small children or if one is inept at shuffling cards. However, the beginner shuffle requires a large surface for spreading out the cards and takes longer than the other methods. The now often used name Corgi, originated in Yorkshire, England. It has spread and is used in many parts of the UK, and often heard in international poker rooms or tournaments such as the WSOP or EPT. It is quite common in casino poker rooms for dealers to use this method upon introducing a brand new deck, which are packaged in ranked order by suits, before shuffling it by some other means (i.e., a riffle shuffle or shuffling machine).

Mongean shuffle

The Mongean shuffle, or Monge's shuffle, is performed as follows (by a right-handed person): Start with the unshuffled deck in the left hand and transfer the top card to the right. Then repeatedly take the top card from the left hand and transfer it to the right, putting the second card at the top of the new deck, the third at the bottom, the fourth at the top, the fifth at the bottom, etc. The result, if one started with cards numbered consecutively \scriptstyle 1, 2, 3, 4, 5, 6, \dots, 2n, would be a deck with the cards in the following order: \scriptstyle 2n, 2n-2, 2n-4, \dots, 4, 2, 1, 3, \dots, 2n-3, 2n-1.
For a deck of given size, the number of Mongean shuffles that it takes to return a deck to starting position, is known .

Weave and Faro shuffles

Weaving is the procedure of pushing the ends of two halves of a deck against each other in such a way that they naturally intertwine. Sometimes the deck is split into equal halves of 26 cards which are then pushed together in a certain way so as to make them perfectly interweave. This is known as a Faro Shuffle
The faro shuffle is performed by cutting the deck into two, preferably equal, packs in both hands as follows (right-handed): The cards are held from above in the right and from below in the left hand. Separation of the deck is done simply lifting up half the cards with the right hand thumb slightly and pushing the left hand's packet forward away from the right hand. The two packets are often crossed and slammed into each other as to align them. They are then pushed together by the short sides and bent (either up or down). The cards will then alternately fall into each other, much like a zipper. A flourish can be added by springing the packets together by applying pressure and bending them from above. The faro is a controlled shuffle which does not randomize a deck.
A perfect faro shuffle, where the cards are perfectly alternated, is considered one of the most difficult sleights by card magicians, simply because it requires the shuffler to be able to cut the deck into two equal packets and apply just about the right pressure when pushing the cards into each other. If one does perform eight perfect faro shuffles in a row, the order of the deck will return to the original order, if there are 52 cards in the deck and if the original top and bottom cards remain in their positions (1st and 52nd) during the eight shuffles. If the top and bottom cards get weaved in during each shuffle then it takes 52 shuffles to return a deck back into original order (26 shuffles to reverse the order of a deck containing 52 cards).

False shuffles

Magicians, sleight-of-hand artists, and card cheats employ various methods of shuffling whereby the deck appears to have been shuffled fairly, when in reality one or more cards (up to and including the entire deck) stays in the same position. It is also possible, though generally considered very difficult, to "stack the deck" (place cards into a desirable order) by means of one or more riffle shuffles; this is called "riffle stacking".
Both performance magicians and card sharps regard the Zarrow shuffle as a particularly effective example of the false shuffle. In this shuffle, the entire deck remains in its original order, although spectators think they see an honest riffle shuffle.

Shuffling machines

Because standard shuffling techniques are seen as weak, and in order to avoid "inside jobs" where employees collaborate with gamblers by performing inadequate shuffles, many casinos employ automatic shuffling machines. They also save time that would otherwise be spent shuffling, allowing several more hands per hour to be played (increasing the profitability of the table). These machines are also used to lessen repetitive motion stress injuries to a dealer. Note that the shuffling machines have to be carefully designed, as they can generate biased shuffles otherwise: the most recent shuffling machines are computer-controlled, though they have not yet fully been integrated into gaming.


There are exactly 52! (about 8) possible ways to order the cards in a 52-card deck. The magnitude of this number means that it is exceedingly improbable that two randomly selected, truly randomized decks, will ever, in the history of cards, be the same. However, while the exact sequence of all cards in a randomized deck is unpredictable, it may be possible to make some probabilistic predictions about a deck that is not sufficiently randomized.
A famous paper by mathematician and magician Persi Diaconis on the number of shuffles needed to randomize a deck, concluded that the deck did not start to become random until five good riffle shuffles, and was truly random after seven, in the precise sense of variation distance described in Markov chain mixing time; of course, you would need more shuffles if your shuffling technique is poor. Recently, the work of Trefethen et al. has questioned some of Diaconis' results, concluding that six shuffles are enough. The difference hinges on how each measured the randomness of the deck. Diaconis used a very sensitive test of randomness, and therefore needed to shuffle more. Even more sensitive measures exist and the question of what measure is best for specific card games is still open.
One sensitive test for randomness uses a standard deck without the jokers divided into suits with two suits in ascending order from ace to king, and the other two suits in reverse. (Many decks already come ordered this way when new.) After shuffling, the measure of randomness is the number of rising sequences that are left in each suit.
In practice the number of shuffles that you need depends both on how good you are at shuffling, and how good the people playing are at noticing and using non-randomness. Two to four shuffles is good enough for casual play. But in club play, good bridge players take advantage of non-randomness after four shuffles, and top blackjack players supposedly track aces through the deck; this is known as "ace tracking", or more generally, as "shuffle tracking".

Shuffling algorithms

In a computer, shuffling is equivalent to generating a random permutation of the cards. There are two basic algorithms for doing this, both popularized by Donald Knuth. The first is simply to assign a random number to each card, and then to sort the cards in order of their random numbers. This will generate a random permutation, unless two of the random numbers generated are the same. This can be eliminated either by retrying these cases, or reduced to an arbitrarily low probability by choosing a sufficiently wide range of random number choices.
The second, generally known as the Knuth shuffle or Fisher-Yates shuffle, is a linear-time algorithm (as opposed to the previous O(n log n) algorithm if using efficient sorting such as mergesort or heapsort) which involves moving through the pack from top to bottom, swapping each card in turn with another card from a random position in the part of the pack that has not yet been passed through (including itself). Providing that the random numbers are unbiased, this will always generate a random permutation.

Implementation of shuffling algorithms

For a variety of reasons, shuffling algorithms can be particularly difficult to implement. Here are some of the most common pitfalls:

Poorly implemented Knuth shuffles

Care needs to be taken in implementing the Knuth shuffle; even slight deviations from the correct algorithm will produce biased shuffles. For example, working your way through the pack swapping each card in turn with a random card from any part of the pack is an algorithm with nn different possible execution paths, yet there are only n! permutations, and a counting argument based on using the pigeonhole principle on assignments of execution paths to outcomes shows that this algorithm cannot produce an unbiased shuffle, unlike the true Knuth shuffle, which has n! execution paths which match up one-to-one with the possible permutations.
For an example of how this pigeonhole argument works on the nn shuffle, consider the simple case of shuffling only three cards, so that n=3. Then there are nn = 27 different possible execution paths (these are the 27 things to put in the pigeonholes). But there are only 3! = 6 ways to permute three cards (these are the 6 pigeonholes to put the things in). 27 is odd, and 6 is even, so 27 things cannot be divided evenly into 6 pigeonholes. Therefore, if we assume that the execution paths are equiprobable, then the outcomes cannot be, since at least two of the different outcomes must have different probabilities. Therefore the nn shuffle cannot be unbiased for n=3. Similar reasoning can be applied for other values of n > 2.
Another very easy mistake to make is to overlook the possibility of swapping an element with itself. The consequence of this error is that an element (for example, the top element) can never remain in its same position after the shuffle, when in reality, 1/52 of the time, it should.
Whichever algorithm is chosen, it is important that a source of truly random numbers is used as the input to the shuffling algorithm. If a biased or (weak) pseudo-random source of random numbers is used, the output shuffles may be non-random in a way that is hard to detect, but easy to exploit by someone who knows the characteristics of the supposedly "random" number source.

Modulo bias

Another common source of bias in shuffling implementations is to use both a good shuffling algorithm and a true random number generator, but not to correctly reduce the output of the random number generator into the choice of which card to shuffle at a particular step. For example, if a 32-bit random number is used to choose one of 52 choices by using the modulo operator provided in most programming languages, it can be demonstrated using a pigeonhole argument that this choice cannot possibly be unbiased, since 232 cannot be evenly divided by 52. This is sometimes called "modulo bias".
This form of bias can be avoided in a number of ways. Probably the easiest involves deliberately limiting the number of usable outputs of the random number generator to a multiple of the number of choices to be made prior to performing the modulo operator, and re-trying the random number generator until a value within that range is produced. Although this algorithm is, strictly speaking, not guaranteed to terminate, given a true random number generator, the probability of this algorithm not terminating in a reasonable time is so small that it can be neglected for all practical purposes.

Pseudo-random shuffles

Even if only pseudo-random shuffles are required, there is another potential pitfall: the number of pseudo-random shuffles that can be generated cannot exceed the number of states that the pseudo-random number generator can take. For many older systems, this can be as small as 232, a number which is 58 orders of magnitude smaller than 52!, and thus 52-card shuffles generated using this system cannot possibly be unbiased. Indeed, since they can be completely enumerated, it is often possible to tell from the first few cards in such a pseudo-randomly shuffled pack what the remainder of the cards will be. Thus, in addition to all of the implementation problems above, to have any chance at all of generating a plausible pseudo-random shuffle, the pseudo-random generator must have in excess of log2 52! = 225.58 bits of internal state, preferably by a considerable margin.
It should also be noted that many pseudo-random number generators have non-random behavior in their low-order bits. If using the modulo operator as described above, with a small set of items to be shuffled, this non-random behavior in the low-order bits can produce very poor shuffles.

Shuffling algorithms in online gaming

These issues are of considerable commercial importance in online gambling, where the randomness of the shuffling of packs of simulated cards for online card games is crucial. For this reason, many online gambling sites provide descriptions of their shuffling algorithms and the sources of randomness used to drive these algorithms, with some gambling sites also providing auditors' reports of the performance of their systems.


  • Shuffling Cards and Stopping Times
  • Trailing the Dovetail Shuffle to its Lair ">}}
  • Group Representations in Probability and Statistics (Lecture Notes Vol 11)
  • Mathematical Developments from the Analysis of Riffle Shuffling, Technical Report 2002-16 ">}}
  • The Mathematics of Perfect Shuffles ">}}
  • How many shuffles to randomize a deck of cards?
  • The Achilles’ heel of the GSR shuffle: A note on New Age Solitaire ">}}
shuffle in German: Mischen (Spielkarten)
shuffle in Dutch: Wassen (speelkaarten)
shuffle in Japanese: シャッフル (カード)
shuffle in Polish: Tasowanie

Synonyms, Antonyms and Related Words

admix, alloy, alternate, amalgamate, amble, andante, around the bush, back and fill, ball up, barge, beat about, befuddlement, beg the question, bemingle, bewilderment, bicker, blend, boggle, bollix up, bother, botheration, bowl along, bumble, bundle, cavil, chaos, choplogic, claudication, clog, cloud, clump, coalesce, combine, commingle, commix, compose, compound, concoct, confound, confuse, confusion, conglomerate, crawl, creep, dance, daze, dead march, disarrange, disarray, discombobulation, discomfiture, discompose, discomposure, disconcertion, dislocate, disorder, disorganization, disorganize, disorientation, disrupt, disturb, disturbance, dodge, dodging, dogtrot, drag, draggle, droop, ebb and flow, embarrassment, emulsify, equivocate, equivocation, evade, evade the issue, evasion, fence, fencing, flounce, flounder, fluctuate, flummox, flurry, fluster, flutter, fog, foot, footpace, footslog, foul up, fox-trot, frenzy, fuddle, fuddlement, fumble, funeral march, fuse, gait, gallop, garble, go through phases, halt, hash, haze, hedge, hem and haw, hippety-hop, hitch, hobble, homogenize, hoof, hop, hum and haw, immingle, immix, integrate, interblend, interlace, interlard, intermingle, intermix, intersperse, intertwine, interweave, jesuitism, jog, jog trot, jolt, jumble, jump, jungle, knead, leisurely gait, limp, litter, lock step, lumber, lumbering pace, lunge, lurch, mash, maze, merge, mess, mess up, mince, mincing steps, mingle, mingle-mangle, mishmash, mist, mix, mix up, muck up, muddle, muddlement, mystify, niggle, nitpick, obscure, oscillate, pace, pad, paddle, palter, parry, parrying, peg, pendulate, perplexity, perturbation, pi, piaffe, piaffer, pick nits, play hob with, plod, pother, prance, prevaricate, prevarication, pucker, pussyfoot, quibble, quiddity, quillet, quip, quirk, quodlibet, rack, rearrange, riffle, ring the changes, roll, ruffle, rummage, sashay, saunter, scatter, scramble, scrape, scrape along, scraping, screw up, scuff, scuffle, scuttle, seesaw, shake, shamble, shift, shift about, shimmy, shovel, shuffling, shy, sidestep, sidle, single-foot, skip, slink, slipper, slither, slog, slouch, slow march, slow motion, slowness, slur, snafu, snarl up, split hairs, stagger, stalk, stamp, step, stew, stir up, stomp, straddle, straggle, stride, stroll, strolling gait, strut, stump, subterfuge, suppressio veri, swagger, sway, sweat, swing, swivet, syncretize, tap-dance, teeter, teeter-totter, tergiversate, tergiversation, throw together, tittup, tizzy, toddle, toss together, totter, traipse, tread, trick, trip, trot, trudge, tumble, turn, turn topsy-turvy, unsettlement, upset, vacillate, vary, velocity, waddle, waffle, walk, waltz, wamble, waver, wax and wane, weasel, weasel words, wiggle, wobble, work
Privacy Policy, About Us, Terms and Conditions, Contact Us
Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2
Material from Wikipedia, Wiktionary, Dict
Valid HTML 4.01 Strict, Valid CSS Level 2.1