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�
n��fc@ s�dZddlmZddlmZddlmZm	Z
ddlmZ
mZmZmZmZddlmZmZmZmZddlmZ ddl!m"Z#dd	l$Z%d
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    integers
    --------
           uniform within range

    sequences
    ---------
           pick random element
           pick random sample
           generate random permutation

    distributions on the real line:
    ------------------------------
           uniform
           triangular
           normal (Gaussian)
           lognormal
           negative exponential
           gamma
           beta
           pareto
           Weibull

    distributions on the circle (angles 0 to 2pi)
    ---------------------------------------------
           circular uniform
           von Mises

General notes on the underlying Mersenne Twister core generator:

* The period is 2**19937-1.
* It is one of the most extensively tested generators in existence.
* Without a direct way to compute N steps forward, the semantics of
  jumpahead(n) are weakened to simply jump to another distant state and rely
  on the large period to avoid overlapping sequences.
* The random() method is implemented in C, executes in a single Python step,
  and is, therefore, threadsafe.

i����(tdivision(twarn(t
MethodTypetBuiltinMethodType(tlogtexptpitetceil(tsqrttacostcostsin(turandom(thexlifyNtRandomtseedtrandomtuniformtrandinttchoicetsamplet	randrangetshufflet
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    method to ensure that the generated sequences seen by each thread don't
    overlap.

    Class Random can also be subclassed if you want to use a different basic
    generator of your own devising: in that case, override the following
    methods: random(), seed(), getstate(), setstate() and jumpahead().
    Optionally, implement a getrandbits() method so that randrange() can cover
    arbitrarily large ranges.

    icC s|j|�d|_dS(seInitialize an instance.

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cC s�|dkrdytttd��d�}Wqdtk
r`ddl}t|j�d�}qdXntt|�j|�d|_	dS(sInitialize internal state from hashable object.

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        ii����Ni(
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cC s"|jtt|�j�|jfS(s9Return internal state; can be passed to setstate() later.(tVERSIONR2RR"R)(R*((s/usr/lib64/python2.7/random.pyR"wscC s�|d}|dkrA|\}}|_tt|�j|�n�|dkr�|\}}|_ytd�|D��}Wntk
r�}t|�nXtt|�j|�ntd||jf��dS(s:Restore internal state from object returned by getstate().iiics s|]}t|�dVqdS(ii NI(R-(t.0R+((s/usr/lib64/python2.7/random.pys	<genexpr>�ss?state with version %s passed to Random.setstate() of version %sN(R)R2RR#ttuplet
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cC sWt|�t|j��}ttjd|�j�d�}tt|�j|�dS(s�Change the internal state to one that is likely far away
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        s!non-integer arg 1 for randrange()isempty range for randrange()s non-integer stop for randrange()is'empty range for randrange() (%d,%d, %d)s non-integer step for randrange()szero step for randrange()(R7t
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	cC s|j||d�S(sJReturn random integer in range [a, b], including both end points.
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r ntXt|j�|ksHt|�|kr�|d||dd��}||�}	x|	|kr�||�}	qtW|	S||kr�td�n||j�|�S(s�Return a random int in the range [0,n)

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'
cC s|t|j�t|��S(s2Choose a random element from a non-empty sequence.(R>Rtlen(R*tseq((s/usr/lib64/python2.7/random.pyRscC sv|dkr|j}nxWttdt|���D]:}||�|d�}||||||<||<q4WdS(s�x, random=random.random -> shuffle list x in place; return None.

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        samples.  This allows raffle winners (the sample) to be partitioned
        into grand prize and second place winners (the subslices).

        Members of the population need not be hashable or unique.  If the
        population contains repeats, then each occurrence is a possible
        selection in the sample.

        To choose a sample in a range of integers, use xrange as an argument.
        This is especially fast and space efficient for sampling from a
        large population:   sample(xrange(10000000), 60)
        issample larger than populationiiiitkeysiN(R\R7RR>R(t_ceilRVthasattrtlistR_tsettaddR8tKeyErrort
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        Continuous distribution bounded by given lower and upper limits,
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        g�?g�?N(RR((R*tlowthightmodetutc((s/usr/lib64/python2.7/random.pyRis	$

cC sh|j}xP|�}d|�}t|d|}||d}|t|�krPqq|||S(s\Normal distribution.

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cC st|j||��S(s�Log normal distribution.

        If you take the natural logarithm of this distribution, you'll get a
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        lambd is 1.0 divided by the desired mean.  It should be
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        g�?(RVR(R*tlambd((s/usr/lib64/python2.7/random.pyR�scC s|j}|dkr t|�Sd|}|td||�}xe|�}tt|�}|||}|�}	|	d||ks�|	d|t|�krEPqEqEd|}
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        mu is the mean angle, expressed in radians between 0 and 2*pi, and
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        g���ư>g�?g�?(RtTWOPIt_sqrtt_cost_piR}t_acos(R*RwtkappaRRCR[RyR{tdRztqtftu3ttheta((s/usr/lib64/python2.7/random.pyR�s&	
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        Conditions on the parameters are alpha > 0 and beta > 0.

        The probability distribution function is:

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          pdf(x) =  --------------------------------------
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	cC s�|j}|j}d|_|dkrw|�t}tdtd|���}t|�|}t|�||_n|||S(s�Gaussian distribution.

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		A					0	H	5			cB s\eZdZd	d�Zd�Zd�Zd�Zd�Zdddd�Z	d	d�Z
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0cC sj|j\}}}d|d}d|d}d|d}|||f|_|d|d|d	d
S(s3Get the next random number in the range [0.0, 1.0).i�i=vi�icvi�isvg@��@g���@g���@g�?(R�(R*R+R�R{((s/usr/lib64/python2.7/random.pyR�scC s|j|j|jfS(s9Return internal state; can be passed to setstate() later.(R4R�R)(R*((s/usr/lib64/python2.7/random.pyR"�scC sK|d}|dkr.|\}|_|_ntd||jf��dS(s:Restore internal state from object returned by getstate().iis?state with version %s passed to Random.setstate() of version %sN(R�R)R7R4(R*R9R:((s/usr/lib64/python2.7/random.pyR#�s

cC s�|dkstd��n|j\}}}t|td|d��d}t|td|d��d}t|td|d��d}|||f|_d	S(
s�Act as if n calls to random() were made, but quickly.

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            r2.setstate(r1.getstate())
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sjSet the Wichmann-Hill seed from (x, y, z).

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        None or no argument seeds from current time.  It is not guaranteed
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��C�"																								

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