TSTP Solution File: MED008+1 by Bliksem---1.12

%------------------------------------------------------------------------------
% File     : Bliksem---1.12
% Problem  : MED008+1 : TPTP v8.1.0. Released v3.2.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : bliksem %s

% Computer : n008.cluster.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory   : 8042.1875MB
% OS       : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit  : 0s
% DateTime : Sun Jul 17 16:51:43 EDT 2022

% Result   : Theorem 1.59s 2.04s
% Output   : Refutation 1.59s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.06/0.15  % Problem  : MED008+1 : TPTP v8.1.0. Released v3.2.0.
% 0.06/0.16  % Command  : bliksem %s
% 0.13/0.37  % Computer : n008.cluster.edu
% 0.13/0.37  % Model    : x86_64 x86_64
% 0.13/0.37  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.37  % Memory   : 8042.1875MB
% 0.13/0.37  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.13/0.37  % CPULimit : 300
% 0.13/0.37  % DateTime : Tue Jul  5 01:57:53 EDT 2022
% 0.13/0.38  % CPUTime  : 
% 0.42/1.12  *** allocated 10000 integers for termspace/termends
% 0.42/1.12  *** allocated 10000 integers for clauses
% 0.42/1.12  *** allocated 10000 integers for justifications
% 0.42/1.12  Bliksem 1.12
% 0.42/1.12  
% 0.42/1.12  
% 0.42/1.12  Automatic Strategy Selection
% 0.42/1.12  
% 0.42/1.12  
% 0.42/1.12  Clauses:
% 0.42/1.12  
% 0.42/1.12  { ! gt( X, X ) }.
% 0.42/1.12  { ! gt( X, Z ), ! gt( Z, Y ), gt( X, Y ) }.
% 0.42/1.12  { bcapacityne( X ), bcapacityex( X ), bcapacitysn( X ) }.
% 0.42/1.12  { ! bcapacityne( X ), ! bcapacityex( X ) }.
% 0.42/1.12  { ! bcapacityne( X ), ! bcapacitysn( X ) }.
% 0.42/1.12  { ! bcapacityex( X ), ! bcapacitysn( X ) }.
% 0.42/1.12  { conditionhyper( X ), conditionhypo( X ), conditionnormo( X ) }.
% 0.42/1.12  { ! conditionhyper( X ), ! conditionhypo( X ) }.
% 0.42/1.12  { ! conditionhyper( X ), ! conditionnormo( X ) }.
% 0.42/1.12  { ! conditionhypo( X ), ! conditionnormo( X ) }.
% 0.42/1.12  { alpha1( X ), gt( X, Y ), uptakelg( Y ) }.
% 0.42/1.12  { alpha1( X ), gt( X, Y ), uptakepg( Y ) }.
% 0.42/1.12  { ! alpha1( X ), ! drugi( skol1( Y ) ) }.
% 0.42/1.12  { ! alpha1( X ), ! gt( X, skol1( X ) ) }.
% 0.42/1.12  { gt( X, Y ), drugi( Y ), alpha1( X ) }.
% 0.42/1.12  { gt( Y, X ), ! uptakelg( X ), ! releaselg( X ) }.
% 0.42/1.12  { ! drugsu( skol2( Y ) ), bcapacityex( X ), gt( X, Z ), bsecretioni( Z ) }
% 0.42/1.12    .
% 0.42/1.12  { ! gt( X, skol2( X ) ), bcapacityex( X ), gt( X, Y ), bsecretioni( Y ) }.
% 0.42/1.12  { ! drugbg( skol3( Y ) ), gt( X, Z ), ! releaselg( Z ) }.
% 0.42/1.12  { ! gt( X, skol3( X ) ), gt( X, Y ), ! releaselg( Y ) }.
% 0.42/1.12  { alpha2( X ), ! qilt27( X ), ! conditionhyper( skol4( Y ) ), gt( X, Z ), 
% 0.42/1.12    conditionnormo( Z ) }.
% 0.42/1.12  { alpha2( X ), ! qilt27( X ), gt( X, skol4( X ) ), gt( X, Y ), 
% 0.42/1.12    conditionnormo( Y ) }.
% 0.42/1.12  { ! alpha2( X ), ! bsecretioni( skol5( Y ) ), ! bcapacitysn( X ) }.
% 0.42/1.12  { ! alpha2( X ), ! gt( X, skol5( X ) ), ! bcapacitysn( X ) }.
% 0.42/1.12  { gt( X, Y ), bsecretioni( Y ), alpha2( X ) }.
% 0.42/1.12  { bcapacitysn( X ), alpha2( X ) }.
% 0.42/1.12  { alpha3( X ), qilt27( X ), ! conditionhyper( skol6( Y ) ), gt( X, Z ), 
% 0.42/1.12    conditionnormo( Z ) }.
% 0.42/1.12  { alpha3( X ), qilt27( X ), gt( X, skol6( X ) ), gt( X, Y ), conditionnormo
% 0.42/1.12    ( Y ) }.
% 0.42/1.12  { ! alpha3( X ), releaselg( skol7( Y ) ), ! bcapacitysn( X ) }.
% 0.42/1.12  { ! alpha3( X ), ! gt( X, skol7( X ) ), ! bcapacitysn( X ) }.
% 0.42/1.12  { gt( X, Y ), ! releaselg( Y ), alpha3( X ) }.
% 0.42/1.12  { bcapacitysn( X ), alpha3( X ) }.
% 0.42/1.12  { alpha4( X ), ! conditionhyper( skol8( Y ) ), gt( X, Z ), conditionnormo( 
% 0.42/1.12    Z ) }.
% 0.42/1.12  { alpha4( X ), gt( X, skol8( X ) ), gt( X, Y ), conditionnormo( Y ) }.
% 0.42/1.12  { ! alpha4( X ), alpha11( X ), ! bsecretioni( skol9( Y ) ) }.
% 0.42/1.12  { ! alpha4( X ), alpha11( X ), ! gt( X, skol9( X ) ) }.
% 0.42/1.12  { ! alpha11( X ), alpha4( X ) }.
% 0.42/1.12  { gt( X, Y ), bsecretioni( Y ), alpha4( X ) }.
% 0.42/1.12  { ! alpha11( X ), alpha14( X ), ! bcapacityne( X ) }.
% 0.42/1.12  { ! alpha14( X ), alpha11( X ) }.
% 0.42/1.12  { bcapacityne( X ), alpha11( X ) }.
% 0.42/1.12  { ! alpha14( X ), alpha18( X ) }.
% 0.42/1.12  { ! alpha14( X ), ! uptakepg( skol10( Y ) ) }.
% 0.42/1.12  { ! alpha14( X ), ! gt( X, skol10( X ) ) }.
% 0.42/1.12  { ! alpha18( X ), gt( X, Y ), uptakepg( Y ), alpha14( X ) }.
% 0.42/1.12  { ! alpha18( X ), releaselg( skol11( Y ) ) }.
% 0.42/1.12  { ! alpha18( X ), ! gt( X, skol11( X ) ) }.
% 0.42/1.12  { gt( X, Y ), ! releaselg( Y ), alpha18( X ) }.
% 0.42/1.12  { alpha5( X ), ! conditionhyper( skol12( Y ) ), gt( X, Z ), conditionnormo
% 0.42/1.12    ( Z ), conditionhypo( Z ) }.
% 0.42/1.12  { alpha5( X ), gt( X, skol12( X ) ), gt( X, Y ), conditionnormo( Y ), 
% 0.42/1.12    conditionhypo( Y ) }.
% 0.42/1.12  { ! alpha5( X ), alpha12( X ), ! bcapacityex( X ) }.
% 0.42/1.12  { ! alpha12( X ), alpha5( X ) }.
% 0.42/1.12  { bcapacityex( X ), alpha5( X ) }.
% 0.42/1.12  { ! alpha12( X ), alpha15( X ), ! uptakepg( skol13( Y ) ) }.
% 0.42/1.12  { ! alpha12( X ), alpha15( X ), ! gt( X, skol13( X ) ) }.
% 0.42/1.12  { ! alpha15( X ), alpha12( X ) }.
% 0.42/1.12  { gt( X, Y ), uptakepg( Y ), alpha12( X ) }.
% 0.42/1.12  { ! alpha15( X ), ! uptakelg( skol14( Y ) ) }.
% 0.42/1.12  { ! alpha15( X ), ! gt( X, skol14( X ) ) }.
% 0.42/1.12  { gt( X, Y ), uptakelg( Y ), alpha15( X ) }.
% 0.42/1.12  { s0( X ), s1( X ), s2( X ), s3( X ) }.
% 0.42/1.12  { ! s0( X ), ! s1( X ) }.
% 0.42/1.12  { ! s0( X ), ! s2( X ) }.
% 0.42/1.12  { ! s0( X ), ! s3( X ) }.
% 0.42/1.12  { ! s1( X ), ! s2( X ) }.
% 0.42/1.12  { ! s1( X ), ! s3( X ) }.
% 0.42/1.12  { ! s2( X ), ! s3( X ) }.
% 0.42/1.12  { alpha6( X ), gt( X, Y ), uptakelg( Y ) }.
% 0.42/1.12  { alpha6( X ), gt( X, Y ), uptakepg( Y ) }.
% 0.42/1.12  { alpha6( X ), bcapacityex( X ) }.
% 0.42/1.12  { alpha6( X ), ! gt( X, Y ), conditionhyper( Y ) }.
% 0.42/1.12  { ! alpha6( X ), alpha13( X ), alpha16( X ) }.
% 0.42/1.12  { ! alpha13( X ), alpha6( X ) }.
% 0.42/1.12  { ! alpha16( X ), alpha6( X ) }.
% 0.42/1.12  { ! alpha16( X ), alpha19( X ) }.
% 0.42/1.12  { ! alpha16( X ), ! gt( X, Y ), conditionhyper( Y ) }.
% 0.42/1.12  { ! alpha19( X ), ! conditionhyper( skol15( Y ) ), alpha16( X ) }.
% 0.42/1.12  { ! alpha19( X ), gt( X, skol15( X ) ), alpha16( X ) }.
% 0.42/1.12  { ! alpha19( X ), alpha22( X ) }.
% 0.42/1.12  { ! alpha19( X ), gt( X, Y ), bsecretioni( Y ) }.
% 0.42/1.12  { ! alpha22( X ), ! bsecretioni( skol16( Y ) ), alpha19( X ) }.
% 0.42/1.12  { ! alpha22( X ), ! gt( X, skol16( X ) ), alpha19( X ) }.
% 0.42/1.12  { ! alpha22( X ), alpha25( X ) }.
% 0.42/1.12  { ! alpha22( X ), bcapacityne( X ) }.
% 0.42/1.12  { ! alpha25( X ), ! bcapacityne( X ), alpha22( X ) }.
% 0.42/1.12  { ! alpha25( X ), alpha28( X ), gt( X, Y ), uptakepg( Y ) }.
% 0.42/1.12  { ! alpha28( X ), alpha25( X ) }.
% 0.42/1.12  { ! uptakepg( skol17( Y ) ), alpha25( X ) }.
% 0.42/1.12  { ! gt( X, skol17( X ) ), alpha25( X ) }.
% 0.42/1.12  { ! alpha28( X ), gt( X, Y ), ! releaselg( Y ) }.
% 0.42/1.12  { releaselg( skol18( Y ) ), alpha28( X ) }.
% 0.42/1.12  { ! gt( X, skol18( X ) ), alpha28( X ) }.
% 0.42/1.12  { ! alpha13( X ), alpha17( X ), alpha20( X ) }.
% 0.42/1.12  { ! alpha17( X ), alpha13( X ) }.
% 0.42/1.12  { ! alpha20( X ), alpha13( X ) }.
% 0.42/1.12  { ! alpha20( X ), alpha23( X ) }.
% 0.42/1.12  { ! alpha20( X ), ! gt( X, Y ), conditionhyper( Y ) }.
% 0.42/1.12  { ! alpha23( X ), ! conditionhyper( skol19( Y ) ), alpha20( X ) }.
% 0.42/1.12  { ! alpha23( X ), gt( X, skol19( X ) ), alpha20( X ) }.
% 0.42/1.12  { ! alpha23( X ), alpha26( X ) }.
% 0.42/1.12  { ! alpha23( X ), ! qilt27( X ) }.
% 0.42/1.12  { ! alpha26( X ), qilt27( X ), alpha23( X ) }.
% 0.42/1.12  { ! alpha26( X ), gt( X, Y ), ! releaselg( Y ) }.
% 0.42/1.12  { ! alpha26( X ), bcapacitysn( X ) }.
% 0.42/1.12  { releaselg( skol20( Y ) ), ! bcapacitysn( X ), alpha26( X ) }.
% 0.42/1.12  { ! gt( X, skol20( X ) ), ! bcapacitysn( X ), alpha26( X ) }.
% 0.42/1.12  { ! alpha17( X ), alpha21( X ), alpha24( X ) }.
% 0.42/1.12  { ! alpha21( X ), alpha17( X ) }.
% 0.42/1.12  { ! alpha24( X ), alpha17( X ) }.
% 0.42/1.12  { ! alpha24( X ), alpha27( X ) }.
% 0.42/1.12  { ! alpha24( X ), ! gt( X, Y ), conditionhyper( Y ) }.
% 0.42/1.12  { ! alpha27( X ), ! conditionhyper( skol21( Y ) ), alpha24( X ) }.
% 0.42/1.12  { ! alpha27( X ), gt( X, skol21( X ) ), alpha24( X ) }.
% 0.42/1.12  { ! alpha27( X ), alpha29( X ) }.
% 0.42/1.12  { ! alpha27( X ), qilt27( X ) }.
% 0.42/1.12  { ! alpha29( X ), ! qilt27( X ), alpha27( X ) }.
% 0.42/1.12  { ! alpha29( X ), gt( X, Y ), bsecretioni( Y ) }.
% 0.42/1.12  { ! alpha29( X ), bcapacitysn( X ) }.
% 0.42/1.12  { ! bsecretioni( skol22( Y ) ), ! bcapacitysn( X ), alpha29( X ) }.
% 0.42/1.12  { ! gt( X, skol22( X ) ), ! bcapacitysn( X ), alpha29( X ) }.
% 0.42/1.12  { ! alpha21( X ), ! conditionnormo( skol23( Y ) ) }.
% 0.42/1.12  { ! alpha21( X ), ! gt( X, skol23( X ) ) }.
% 0.42/1.12  { gt( X, Y ), conditionnormo( Y ), alpha21( X ) }.
% 0.42/1.12  { ! s1( X ), ! qilt27( X ), drugsu( X ) }.
% 0.42/1.12  { ! s1( X ), qilt27( X ), drugbg( X ) }.
% 0.42/1.12  { ! s2( X ), drugbg( X ) }.
% 0.42/1.12  { ! s2( X ), drugsu( X ) }.
% 0.42/1.12  { ! s3( X ), drugi( X ), drugi( X ) }.
% 0.42/1.12  { ! s3( X ), drugsu( X ), drugbg( X ), drugi( X ) }.
% 0.42/1.12  { ! drugbg( X ), s1( X ), s2( X ), s3( X ) }.
% 0.42/1.12  { ! drugbg( X ), ! qilt27( X ), s2( X ), s3( X ) }.
% 0.42/1.12  { ! drugsu( X ), s1( X ), s2( X ), s3( X ) }.
% 0.42/1.12  { ! drugsu( X ), qillt27( X ), s2( X ), s3( X ) }.
% 0.42/1.12  { ! drugi( X ), s3( X ) }.
% 0.42/1.12  { alpha7( X ), gt( X, Y ), drugi( Y ) }.
% 0.42/1.12  { ! uptakepg( skol24( Y ) ), gt( X, Z ), drugi( Z ) }.
% 0.42/1.12  { ! gt( X, skol24( X ) ), gt( X, Y ), drugi( Y ) }.
% 0.42/1.12  { ! alpha7( X ), ! uptakelg( skol25( Y ) ) }.
% 0.42/1.12  { ! alpha7( X ), ! gt( X, skol25( X ) ) }.
% 0.42/1.12  { gt( X, Y ), uptakelg( Y ), alpha7( X ) }.
% 0.42/1.12  { gt( Y, X ), releaselg( X ), uptakelg( X ) }.
% 0.42/1.12  { alpha8( X ), gt( X, Y ), drugsu( Y ) }.
% 0.42/1.12  { alpha8( X ), ! bcapacityex( X ) }.
% 0.42/1.12  { ! alpha8( X ), ! bsecretioni( skol26( Y ) ) }.
% 0.42/1.12  { ! alpha8( X ), ! gt( X, skol26( X ) ) }.
% 0.42/1.12  { gt( X, Y ), bsecretioni( Y ), alpha8( X ) }.
% 0.42/1.12  { releaselg( skol27( Y ) ), gt( X, Z ), drugbg( Z ) }.
% 0.42/1.12  { ! gt( X, skol27( X ) ), gt( X, Y ), drugbg( Y ) }.
% 0.42/1.12  { ! s0( X ), gt( X, Y ), conditionnormo( Y ), s1( skol28( Z ) ) }.
% 0.42/1.12  { ! s0( X ), gt( X, Y ), conditionnormo( Y ), ! gt( skol28( Z ), T ), 
% 0.42/1.12    conditionhyper( T ) }.
% 0.42/1.12  { ! s0( X ), gt( X, Y ), conditionnormo( Y ), ! gt( X, skol28( X ) ) }.
% 0.42/1.12  { ! s1( X ), gt( X, Y ), conditionnormo( Y ), ! gt( skol29( Z ), T ), 
% 0.42/1.12    conditionhyper( T ) }.
% 0.42/1.12  { ! s1( X ), gt( X, Y ), conditionnormo( Y ), bcapacityne( skol29( Z ) ), 
% 0.42/1.12    bcapacityex( skol29( Z ) ) }.
% 0.42/1.12  { ! s1( X ), gt( X, Y ), conditionnormo( Y ), alpha9( X, skol29( X ) ) }.
% 0.42/1.12  { ! alpha9( X, Y ), ! gt( X, Y ) }.
% 0.42/1.12  { ! alpha9( X, Y ), s2( Y ) }.
% 0.42/1.12  { gt( X, Y ), ! s2( Y ), alpha9( X, Y ) }.
% 0.42/1.12  { ! s2( X ), gt( X, Y ), conditionnormo( Y ), ! gt( skol30( Z ), T ), 
% 0.42/1.12    conditionhyper( T ) }.
% 0.42/1.12  { ! s2( X ), gt( X, Y ), conditionnormo( Y ), bcapacityex( skol30( Z ) ) }
% 0.42/1.12    .
% 0.42/1.12  { ! s2( X ), gt( X, Y ), conditionnormo( Y ), alpha10( X, skol30( X ) ) }.
% 1.59/2.04  { ! alpha10( X, Y ), ! gt( X, Y ) }.
% 1.59/2.04  { ! alpha10( X, Y ), s3( Y ) }.
% 1.59/2.04  { gt( X, Y ), ! s3( Y ), alpha10( X, Y ) }.
% 1.59/2.04  { s1( n0 ) }.
% 1.59/2.04  { ! gt( n0, X ), conditionhyper( X ) }.
% 1.59/2.04  { ! bcapacitysn( n0 ) }.
% 1.59/2.04  { ! qilt27( n0 ) }.
% 1.59/2.04  { gt( n0, X ), conditionnormo( X ) }.
% 1.59/2.04  
% 1.59/2.04  percentage equality = 0.000000, percentage horn = 0.574850
% 1.59/2.04  This a non-horn, non-equality problem
% 1.59/2.04  
% 1.59/2.04  
% 1.59/2.04  Options Used:
% 1.59/2.04  
% 1.59/2.04  useres =            1
% 1.59/2.04  useparamod =        0
% 1.59/2.04  useeqrefl =         0
% 1.59/2.04  useeqfact =         0
% 1.59/2.04  usefactor =         1
% 1.59/2.04  usesimpsplitting =  0
% 1.59/2.04  usesimpdemod =      0
% 1.59/2.04  usesimpres =        3
% 1.59/2.04  
% 1.59/2.04  resimpinuse      =  1000
% 1.59/2.04  resimpclauses =     20000
% 1.59/2.04  substype =          standard
% 1.59/2.04  backwardsubs =      1
% 1.59/2.04  selectoldest =      5
% 1.59/2.04  
% 1.59/2.04  litorderings [0] =  split
% 1.59/2.04  litorderings [1] =  liftord
% 1.59/2.04  
% 1.59/2.04  termordering =      none
% 1.59/2.04  
% 1.59/2.04  litapriori =        1
% 1.59/2.04  termapriori =       0
% 1.59/2.04  litaposteriori =    0
% 1.59/2.04  termaposteriori =   0
% 1.59/2.04  demodaposteriori =  0
% 1.59/2.04  ordereqreflfact =   0
% 1.59/2.04  
% 1.59/2.04  litselect =         none
% 1.59/2.04  
% 1.59/2.04  maxweight =         15
% 1.59/2.04  maxdepth =          30000
% 1.59/2.04  maxlength =         115
% 1.59/2.04  maxnrvars =         195
% 1.59/2.04  excuselevel =       1
% 1.59/2.04  increasemaxweight = 1
% 1.59/2.04  
% 1.59/2.04  maxselected =       10000000
% 1.59/2.04  maxnrclauses =      10000000
% 1.59/2.04  
% 1.59/2.04  showgenerated =    0
% 1.59/2.04  showkept =         0
% 1.59/2.04  showselected =     0
% 1.59/2.04  showdeleted =      0
% 1.59/2.04  showresimp =       1
% 1.59/2.04  showstatus =       2000
% 1.59/2.04  
% 1.59/2.04  prologoutput =     0
% 1.59/2.04  nrgoals =          5000000
% 1.59/2.04  totalproof =       1
% 1.59/2.04  
% 1.59/2.04  Symbols occurring in the translation:
% 1.59/2.04  
% 1.59/2.04  {}  [0, 0]      (w:1, o:2, a:1, s:1, b:0), 
% 1.59/2.04  .  [1, 2]      (w:1, o:94, a:1, s:1, b:0), 
% 1.59/2.04  !  [4, 1]      (w:0, o:13, a:1, s:1, b:0), 
% 1.59/2.04  =  [13, 2]      (w:1, o:0, a:0, s:1, b:0), 
% 1.59/2.04  ==>  [14, 2]      (w:1, o:0, a:0, s:1, b:0), 
% 1.59/2.04  gt  [36, 2]      (w:1, o:118, a:1, s:1, b:0), 
% 1.59/2.04  bcapacityne  [40, 1]      (w:1, o:45, a:1, s:1, b:0), 
% 1.59/2.04  bcapacityex  [41, 1]      (w:1, o:46, a:1, s:1, b:0), 
% 1.59/2.04  bcapacitysn  [42, 1]      (w:1, o:47, a:1, s:1, b:0), 
% 1.59/2.04  conditionhyper  [43, 1]      (w:1, o:49, a:1, s:1, b:0), 
% 1.59/2.04  conditionhypo  [44, 1]      (w:1, o:50, a:1, s:1, b:0), 
% 1.59/2.04  conditionnormo  [45, 1]      (w:1, o:51, a:1, s:1, b:0), 
% 1.59/2.04  drugi  [47, 1]      (w:1, o:52, a:1, s:1, b:0), 
% 1.59/2.04  uptakelg  [48, 1]      (w:1, o:53, a:1, s:1, b:0), 
% 1.59/2.04  uptakepg  [49, 1]      (w:1, o:54, a:1, s:1, b:0), 
% 1.59/2.04  releaselg  [50, 1]      (w:1, o:57, a:1, s:1, b:0), 
% 1.59/2.04  drugsu  [51, 1]      (w:1, o:58, a:1, s:1, b:0), 
% 1.59/2.04  bsecretioni  [52, 1]      (w:1, o:48, a:1, s:1, b:0), 
% 1.59/2.04  drugbg  [53, 1]      (w:1, o:59, a:1, s:1, b:0), 
% 1.59/2.04  qilt27  [54, 1]      (w:1, o:55, a:1, s:1, b:0), 
% 1.59/2.04  s0  [55, 1]      (w:1, o:60, a:1, s:1, b:0), 
% 1.59/2.04  s1  [56, 1]      (w:1, o:61, a:1, s:1, b:0), 
% 1.59/2.04  s2  [57, 1]      (w:1, o:62, a:1, s:1, b:0), 
% 1.59/2.04  s3  [58, 1]      (w:1, o:63, a:1, s:1, b:0), 
% 1.59/2.04  qillt27  [59, 1]      (w:1, o:56, a:1, s:1, b:0), 
% 1.59/2.04  n0  [61, 0]      (w:1, o:12, a:1, s:1, b:0), 
% 1.59/2.04  alpha1  [62, 1]      (w:1, o:18, a:1, s:1, b:0), 
% 1.59/2.04  alpha2  [63, 1]      (w:1, o:28, a:1, s:1, b:0), 
% 1.59/2.04  alpha3  [64, 1]      (w:1, o:39, a:1, s:1, b:0), 
% 1.59/2.04  alpha4  [65, 1]      (w:1, o:40, a:1, s:1, b:0), 
% 1.59/2.04  alpha5  [66, 1]      (w:1, o:41, a:1, s:1, b:0), 
% 1.59/2.04  alpha6  [67, 1]      (w:1, o:42, a:1, s:1, b:0), 
% 1.59/2.04  alpha7  [68, 1]      (w:1, o:43, a:1, s:1, b:0), 
% 1.59/2.04  alpha8  [69, 1]      (w:1, o:44, a:1, s:1, b:0), 
% 1.59/2.04  alpha9  [70, 2]      (w:1, o:119, a:1, s:1, b:0), 
% 1.59/2.04  alpha10  [71, 2]      (w:1, o:120, a:1, s:1, b:0), 
% 1.59/2.04  alpha11  [72, 1]      (w:1, o:19, a:1, s:1, b:0), 
% 1.59/2.04  alpha12  [73, 1]      (w:1, o:20, a:1, s:1, b:0), 
% 1.59/2.04  alpha13  [74, 1]      (w:1, o:21, a:1, s:1, b:0), 
% 1.59/2.04  alpha14  [75, 1]      (w:1, o:22, a:1, s:1, b:0), 
% 1.59/2.04  alpha15  [76, 1]      (w:1, o:23, a:1, s:1, b:0), 
% 1.59/2.04  alpha16  [77, 1]      (w:1, o:24, a:1, s:1, b:0), 
% 1.59/2.04  alpha17  [78, 1]      (w:1, o:25, a:1, s:1, b:0), 
% 1.59/2.04  alpha18  [79, 1]      (w:1, o:26, a:1, s:1, b:0), 
% 1.59/2.04  alpha19  [80, 1]      (w:1, o:27, a:1, s:1, b:0), 
% 1.59/2.04  alpha20  [81, 1]      (w:1, o:29, a:1, s:1, b:0), 
% 1.59/2.04  alpha21  [82, 1]      (w:1, o:30, a:1, s:1, b:0), 
% 1.59/2.04  alpha22  [83, 1]      (w:1, o:31, a:1, s:1, b:0), 
% 1.59/2.04  alpha23  [84, 1]      (w:1, o:32, a:1, s:1, b:0), 
% 1.59/2.04  alpha24  [85, 1]      (w:1, o:33, a:1, s:1, b:0), 
% 1.59/2.04  alpha25  [86, 1]      (w:1, o:34, a:1, s:1, b:0), 
% 1.59/2.04  alpha26  [87, 1]      (w:1, o:35, a:1, s:1, b:0), 
% 1.59/2.04  alpha27  [88, 1]      (w:1, o:36, a:1, s:1, b:0), 
% 1.59/2.04  alpha28  [89, 1]      (w:1, o:37, a:1, s:1, b:0), 
% 1.59/2.04  alpha29  [90, 1]      (w:1, o:38, a:1, s:1, b:0), 
% 1.59/2.04  skol1  [91, 1]      (w:1, o:64, a:1, s:1, b:0), 
% 1.59/2.04  skol2  [92, 1]      (w:1, o:75, a:1, s:1, b:0), 
% 1.59/2.04  skol3  [93, 1]      (w:1, o:86, a:1, s:1, b:0), 
% 1.59/2.04  skol4  [94, 1]      (w:1, o:88, a:1, s:1, b:0), 
% 1.59/2.04  skol5  [95, 1]      (w:1, o:89, a:1, s:1, b:0), 
% 1.59/2.04  skol6  [96, 1]      (w:1, o:90, a:1, s:1, b:0), 
% 1.59/2.04  skol7  [97, 1]      (w:1, o:91, a:1, s:1, b:0), 
% 1.59/2.04  skol8  [98, 1]      (w:1, o:92, a:1, s:1, b:0), 
% 1.59/2.04  skol9  [99, 1]      (w:1, o:93, a:1, s:1, b:0), 
% 1.59/2.04  skol10  [100, 1]      (w:1, o:65, a:1, s:1, b:0), 
% 1.59/2.04  skol11  [101, 1]      (w:1, o:66, a:1, s:1, b:0), 
% 1.59/2.04  skol12  [102, 1]      (w:1, o:67, a:1, s:1, b:0), 
% 1.59/2.04  skol13  [103, 1]      (w:1, o:68, a:1, s:1, b:0), 
% 1.59/2.04  skol14  [104, 1]      (w:1, o:69, a:1, s:1, b:0), 
% 1.59/2.04  skol15  [105, 1]      (w:1, o:70, a:1, s:1, b:0), 
% 1.59/2.04  skol16  [106, 1]      (w:1, o:71, a:1, s:1, b:0), 
% 1.59/2.04  skol17  [107, 1]      (w:1, o:72, a:1, s:1, b:0), 
% 1.59/2.04  skol18  [108, 1]      (w:1, o:73, a:1, s:1, b:0), 
% 1.59/2.04  skol19  [109, 1]      (w:1, o:74, a:1, s:1, b:0), 
% 1.59/2.04  skol20  [110, 1]      (w:1, o:76, a:1, s:1, b:0), 
% 1.59/2.04  skol21  [111, 1]      (w:1, o:77, a:1, s:1, b:0), 
% 1.59/2.04  skol22  [112, 1]      (w:1, o:78, a:1, s:1, b:0), 
% 1.59/2.04  skol23  [113, 1]      (w:1, o:79, a:1, s:1, b:0), 
% 1.59/2.04  skol24  [114, 1]      (w:1, o:80, a:1, s:1, b:0), 
% 1.59/2.04  skol25  [115, 1]      (w:1, o:81, a:1, s:1, b:0), 
% 1.59/2.04  skol26  [116, 1]      (w:1, o:82, a:1, s:1, b:0), 
% 1.59/2.04  skol27  [117, 1]      (w:1, o:83, a:1, s:1, b:0), 
% 1.59/2.04  skol28  [118, 1]      (w:1, o:84, a:1, s:1, b:0), 
% 1.59/2.04  skol29  [119, 1]      (w:1, o:85, a:1, s:1, b:0), 
% 1.59/2.04  skol30  [120, 1]      (w:1, o:87, a:1, s:1, b:0).
% 1.59/2.04  
% 1.59/2.04  
% 1.59/2.04  Starting Search:
% 1.59/2.04  
% 1.59/2.04  *** allocated 15000 integers for clauses
% 1.59/2.04  *** allocated 22500 integers for clauses
% 1.59/2.04  *** allocated 33750 integers for clauses
% 1.59/2.04  *** allocated 15000 integers for termspace/termends
% 1.59/2.04  *** allocated 50625 integers for clauses
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  *** allocated 75937 integers for clauses
% 1.59/2.04  *** allocated 22500 integers for termspace/termends
% 1.59/2.04  *** allocated 113905 integers for clauses
% 1.59/2.04  *** allocated 33750 integers for termspace/termends
% 1.59/2.04  
% 1.59/2.04  Intermediate Status:
% 1.59/2.04  Generated:    2757
% 1.59/2.04  Kept:         2042
% 1.59/2.04  Inuse:        470
% 1.59/2.04  Deleted:      19
% 1.59/2.04  Deletedinuse: 8
% 1.59/2.04  
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  *** allocated 50625 integers for termspace/termends
% 1.59/2.04  *** allocated 170857 integers for clauses
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  
% 1.59/2.04  Intermediate Status:
% 1.59/2.04  Generated:    7637
% 1.59/2.04  Kept:         4058
% 1.59/2.04  Inuse:        660
% 1.59/2.04  Deleted:      156
% 1.59/2.04  Deletedinuse: 120
% 1.59/2.04  
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  *** allocated 75937 integers for termspace/termends
% 1.59/2.04  *** allocated 256285 integers for clauses
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  *** allocated 113905 integers for termspace/termends
% 1.59/2.04  
% 1.59/2.04  Intermediate Status:
% 1.59/2.04  Generated:    16758
% 1.59/2.04  Kept:         6058
% 1.59/2.04  Inuse:        920
% 1.59/2.04  Deleted:      302
% 1.59/2.04  Deletedinuse: 211
% 1.59/2.04  
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  *** allocated 384427 integers for clauses
% 1.59/2.04  
% 1.59/2.04  Intermediate Status:
% 1.59/2.04  Generated:    25076
% 1.59/2.04  Kept:         8088
% 1.59/2.04  Inuse:        1221
% 1.59/2.04  Deleted:      324
% 1.59/2.04  Deletedinuse: 214
% 1.59/2.04  
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  *** allocated 170857 integers for termspace/termends
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  
% 1.59/2.04  Intermediate Status:
% 1.59/2.04  Generated:    34104
% 1.59/2.04  Kept:         10089
% 1.59/2.04  Inuse:        1554
% 1.59/2.04  Deleted:      398
% 1.59/2.04  Deletedinuse: 257
% 1.59/2.04  
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  *** allocated 576640 integers for clauses
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  
% 1.59/2.04  Intermediate Status:
% 1.59/2.04  Generated:    40798
% 1.59/2.04  Kept:         12095
% 1.59/2.04  Inuse:        1955
% 1.59/2.04  Deleted:      549
% 1.59/2.04  Deletedinuse: 323
% 1.59/2.04  
% 1.59/2.04  Resimplifying inuse:
% 1.59/2.04  Done
% 1.59/2.04  
% 1.59/2.04  
% 1.59/2.04  Bliksems!, er is een bewijs:
% 1.59/2.04  % SZS status Theorem
% 1.59/2.04  % SZS output start Refutation
% 1.59/2.04  
% 1.59/2.04  (0) {G0,W3,D2,L1,V1,M1} I { ! gt( X, X ) }.
% 1.59/2.04  (8) {G0,W4,D2,L2,V1,M1} I { ! conditionhyper( X ), ! conditionnormo( X )
% 1.59/2.04     }.
% 1.59/2.04  (15) {G0,W7,D2,L3,V2,M1} I { ! uptakelg( X ), ! releaselg( X ), gt( Y, X )
% 1.59/2.04     }.
% 1.59/2.04  (18) {G0,W8,D3,L3,V3,M1} I { ! drugbg( skol3( Y ) ), ! releaselg( Z ), gt( 
% 1.59/2.04    X, Z ) }.
% 1.59/2.04  (42) {G0,W5,D3,L2,V2,M1} I { ! alpha14( X ), ! uptakepg( skol10( Y ) ) }.
% 1.59/2.04  (43) {G0,W6,D3,L2,V1,M1} I { ! alpha14( X ), ! gt( X, skol10( X ) ) }.
% 1.59/2.04  (44) {G0,W9,D2,L4,V2,M1} I { ! alpha18( X ), uptakepg( Y ), alpha14( X ), 
% 1.59/2.04    gt( X, Y ) }.
% 1.59/2.04  (47) {G0,W7,D2,L3,V2,M1} I { ! releaselg( Y ), alpha18( X ), gt( X, Y ) }.
% 1.59/2.04  (65) {G0,W4,D2,L2,V1,M1} I { ! s1( X ), ! s3( X ) }.
% 1.59/2.04  (68) {G0,W7,D2,L3,V2,M1} I { alpha6( X ), uptakepg( Y ), gt( X, Y ) }.
% 1.59/2.04  (70) {G0,W7,D2,L3,V2,M1} I { alpha6( X ), conditionhyper( Y ), ! gt( X, Y )
% 1.59/2.04     }.
% 1.59/2.04  (71) {G0,W6,D2,L3,V1,M1} I { alpha13( X ), alpha16( X ), ! alpha6( X ) }.
% 1.59/2.04  (74) {G0,W4,D2,L2,V1,M1} I { ! alpha16( X ), alpha19( X ) }.
% 1.59/2.04  (78) {G0,W4,D2,L2,V1,M1} I { ! alpha19( X ), alpha22( X ) }.
% 1.59/2.04  (82) {G0,W4,D2,L2,V1,M1} I { ! alpha22( X ), alpha25( X ) }.
% 1.59/2.04  (85) {G0,W9,D2,L4,V2,M1} I { ! alpha25( X ), alpha28( X ), uptakepg( Y ), 
% 1.59/2.04    gt( X, Y ) }.
% 1.59/2.04  (89) {G0,W7,D2,L3,V2,M1} I { ! alpha28( X ), ! releaselg( Y ), gt( X, Y )
% 1.59/2.04     }.
% 1.59/2.04  (92) {G0,W6,D2,L3,V1,M1} I { ! alpha13( X ), alpha17( X ), alpha20( X ) }.
% 1.59/2.04  (95) {G0,W4,D2,L2,V1,M1} I { ! alpha20( X ), alpha23( X ) }.
% 1.59/2.04  (99) {G0,W4,D2,L2,V1,M1} I { ! alpha23( X ), alpha26( X ) }.
% 1.59/2.04  (103) {G0,W4,D2,L2,V1,M1} I { ! alpha26( X ), bcapacitysn( X ) }.
% 1.59/2.04  (106) {G0,W6,D2,L3,V1,M1} I { ! alpha17( X ), alpha21( X ), alpha24( X )
% 1.59/2.04     }.
% 1.59/2.04  (109) {G0,W4,D2,L2,V1,M1} I { ! alpha24( X ), alpha27( X ) }.
% 1.59/2.04  (114) {G0,W4,D2,L2,V1,M1} I { ! alpha27( X ), qilt27( X ) }.
% 1.59/2.04  (120) {G0,W5,D3,L2,V2,M1} I { ! alpha21( X ), ! conditionnormo( skol23( Y )
% 1.59/2.04     ) }.
% 1.59/2.04  (121) {G0,W6,D3,L2,V1,M1} I { ! alpha21( X ), ! gt( X, skol23( X ) ) }.
% 1.59/2.04  (132) {G0,W4,D2,L2,V1,M1} I { ! drugi( X ), s3( X ) }.
% 1.59/2.04  (133) {G0,W7,D2,L3,V2,M1} I { alpha7( X ), drugi( Y ), gt( X, Y ) }.
% 1.59/2.04  (134) {G0,W8,D3,L3,V3,M1} I { ! uptakepg( skol24( Y ) ), drugi( Z ), gt( X
% 1.59/2.04    , Z ) }.
% 1.59/2.04  (135) {G0,W9,D3,L3,V2,M2} I { drugi( Y ), ! gt( X, skol24( X ) ), gt( X, Y
% 1.59/2.04     ) }.
% 1.59/2.04  (136) {G0,W5,D3,L2,V2,M1} I { ! alpha7( X ), ! uptakelg( skol25( Y ) ) }.
% 1.59/2.04  (137) {G0,W6,D3,L2,V1,M1} I { ! alpha7( X ), ! gt( X, skol25( X ) ) }.
% 1.59/2.04  (138) {G0,W7,D2,L3,V2,M1} I { uptakelg( Y ), alpha7( X ), gt( X, Y ) }.
% 1.59/2.04  (139) {G0,W7,D2,L3,V2,M1} I { releaselg( X ), uptakelg( X ), gt( Y, X ) }.
% 1.59/2.04  (145) {G0,W8,D3,L3,V3,M1} I { releaselg( skol27( Y ) ), drugbg( Z ), gt( X
% 1.59/2.04    , Z ) }.
% 1.59/2.04  (162) {G0,W2,D2,L1,V0,M1} I { s1( n0 ) }.
% 1.59/2.04  (163) {G0,W5,D2,L2,V1,M1} I { conditionhyper( X ), ! gt( n0, X ) }.
% 1.59/2.04  (164) {G0,W2,D2,L1,V0,M1} I { ! bcapacitysn( n0 ) }.
% 1.59/2.04  (165) {G0,W2,D2,L1,V0,M1} I { ! qilt27( n0 ) }.
% 1.59/2.04  (166) {G0,W5,D2,L2,V1,M1} I { conditionnormo( X ), gt( n0, X ) }.
% 1.59/2.04  (175) {G1,W2,D2,L1,V0,M1} R(114,165) { ! alpha27( n0 ) }.
% 1.59/2.04  (176) {G2,W2,D2,L1,V0,M1} R(109,175) { ! alpha24( n0 ) }.
% 1.59/2.04  (179) {G1,W2,D2,L1,V0,M1} R(103,164) { ! alpha26( n0 ) }.
% 1.59/2.04  (184) {G2,W2,D2,L1,V0,M1} R(99,179) { ! alpha23( n0 ) }.
% 1.59/2.04  (185) {G3,W2,D2,L1,V0,M1} R(95,184) { ! alpha20( n0 ) }.
% 1.59/2.04  (210) {G1,W4,D2,L2,V1,M1} R(65,132) { ! drugi( X ), ! s1( X ) }.
% 1.59/2.04  (211) {G2,W2,D2,L1,V0,M1} R(210,162) { ! drugi( n0 ) }.
% 1.59/2.04  (215) {G1,W4,D2,L2,V1,M1} R(15,0) { ! uptakelg( X ), ! releaselg( X ) }.
% 1.59/2.04  (237) {G1,W5,D3,L2,V2,M1} R(18,0) { ! releaselg( Y ), ! drugbg( skol3( X )
% 1.59/2.04     ) }.
% 1.59/2.04  (430) {G1,W8,D2,L4,V1,M1} R(44,163) { ! alpha18( n0 ), alpha14( n0 ), 
% 1.59/2.04    conditionhyper( X ), uptakepg( X ) }.
% 1.59/2.04  (493) {G1,W6,D2,L3,V1,M1} R(47,163) { alpha18( n0 ), conditionhyper( X ), !
% 1.59/2.04     releaselg( X ) }.
% 1.59/2.04  (649) {G1,W6,D2,L3,V2,M1} R(70,68);f { alpha6( X ), conditionhyper( Y ), 
% 1.59/2.04    uptakepg( Y ) }.
% 1.59/2.04  (787) {G1,W9,D3,L4,V1,M1} R(85,43) { ! alpha25( X ), alpha28( X ), ! 
% 1.59/2.04    alpha14( X ), uptakepg( skol10( X ) ) }.
% 1.59/2.04  (804) {G3,W4,D2,L2,V0,M1} R(106,176) { ! alpha17( n0 ), alpha21( n0 ) }.
% 1.59/2.04  (843) {G1,W6,D2,L3,V1,M1} R(89,163) { ! alpha28( n0 ), conditionhyper( X )
% 1.59/2.04    , ! releaselg( X ) }.
% 1.59/2.04  (888) {G4,W4,D2,L2,V0,M1} R(92,185) { ! alpha13( n0 ), alpha17( n0 ) }.
% 1.59/2.04  (1088) {G1,W5,D3,L2,V0,M1} R(137,166) { ! alpha7( n0 ), conditionnormo( 
% 1.59/2.04    skol25( n0 ) ) }.
% 1.59/2.04  (1101) {G2,W5,D3,L2,V0,M1} R(1088,8) { ! alpha7( n0 ), ! conditionhyper( 
% 1.59/2.04    skol25( n0 ) ) }.
% 1.59/2.04  (1123) {G1,W5,D3,L2,V0,M1} R(121,166) { ! alpha21( n0 ), conditionnormo( 
% 1.59/2.04    skol23( n0 ) ) }.
% 1.59/2.04  (1136) {G2,W4,D2,L2,V1,M2} R(1123,120) { ! alpha21( X ), ! alpha21( n0 )
% 1.59/2.04     }.
% 1.59/2.04  (1137) {G3,W2,D2,L1,V0,M1} F(1136) { ! alpha21( n0 ) }.
% 1.59/2.04  (1140) {G4,W2,D2,L1,V0,M1} R(1137,804) { ! alpha17( n0 ) }.
% 1.59/2.04  (1165) {G5,W2,D2,L1,V0,M1} R(1140,888) { ! alpha13( n0 ) }.
% 1.59/2.04  (1415) {G1,W4,D2,L2,V1,M1} R(133,0) { alpha7( X ), drugi( X ) }.
% 1.59/2.04  (1421) {G3,W2,D2,L1,V0,M1} R(1415,211) { alpha7( n0 ) }.
% 1.59/2.04  (1457) {G1,W5,D3,L2,V2,M1} R(134,0) { drugi( Y ), ! uptakepg( skol24( X ) )
% 1.59/2.04     }.
% 1.59/2.04  (1521) {G1,W6,D3,L2,V1,M1} R(135,0) { drugi( X ), ! gt( X, skol24( X ) )
% 1.59/2.04     }.
% 1.59/2.04  (1560) {G1,W4,D2,L2,V1,M1} R(138,0) { alpha7( X ), uptakelg( X ) }.
% 1.59/2.04  (1564) {G2,W5,D3,L2,V2,M2} R(1560,136) { ! alpha7( Y ), alpha7( skol25( X )
% 1.59/2.04     ) }.
% 1.59/2.04  (1591) {G1,W4,D2,L2,V1,M1} R(139,0) { uptakelg( X ), releaselg( X ) }.
% 1.59/2.04  (1595) {G2,W6,D2,L3,V1,M1} R(1591,843) { ! alpha28( n0 ), conditionhyper( X
% 1.59/2.04     ), uptakelg( X ) }.
% 1.59/2.04  (1599) {G2,W6,D2,L3,V1,M1} R(1591,493) { alpha18( n0 ), conditionhyper( X )
% 1.59/2.04    , uptakelg( X ) }.
% 1.59/2.04  (1713) {G1,W5,D3,L2,V2,M1} R(145,0) { releaselg( skol27( X ) ), drugbg( Y )
% 1.59/2.04     }.
% 1.59/2.04  (1714) {G2,W5,D3,L2,V2,M2} R(1713,237) { ! releaselg( Y ), releaselg( 
% 1.59/2.04    skol27( X ) ) }.
% 1.59/2.04  (1715) {G3,W5,D3,L2,V2,M1} R(1714,1591) { uptakelg( Y ), releaselg( skol27
% 1.59/2.04    ( X ) ) }.
% 1.59/2.04  (1733) {G4,W5,D3,L2,V2,M2} R(1715,215) { ! uptakelg( skol27( Y ) ), 
% 1.59/2.04    uptakelg( X ) }.
% 1.59/2.04  (2042) {G4,W3,D3,L1,V0,M1} S(1101);r(1421) { ! conditionhyper( skol25( n0 )
% 1.59/2.04     ) }.
% 1.59/2.04  (2218) {G5,W5,D3,L2,V2,M1} R(1733,1560) { alpha7( skol27( Y ) ), uptakelg( 
% 1.59/2.04    X ) }.
% 1.59/2.04  (2231) {G6,W5,D3,L2,V2,M2} R(2218,136) { ! alpha7( Y ), alpha7( skol27( X )
% 1.59/2.04     ) }.
% 1.59/2.04  (2232) {G7,W3,D3,L1,V1,M1} R(2231,1421) { alpha7( skol27( X ) ) }.
% 1.59/2.04  (2794) {G8,W3,D3,L1,V1,M1} R(1564,2232) { alpha7( skol25( X ) ) }.
% 1.59/2.04  (2892) {G2,W7,D3,L3,V3,M1} R(1457,649) { alpha6( Y ), conditionhyper( 
% 1.59/2.04    skol24( Z ) ), drugi( X ) }.
% 1.59/2.04  (3168) {G3,W7,D3,L3,V2,M1} R(1595,136) { ! alpha28( n0 ), ! alpha7( Y ), 
% 1.59/2.04    conditionhyper( skol25( X ) ) }.
% 1.59/2.04  (3204) {G3,W7,D3,L3,V2,M1} R(1599,136) { alpha18( n0 ), ! alpha7( Y ), 
% 1.59/2.04    conditionhyper( skol25( X ) ) }.
% 1.59/2.04  (3387) {G3,W3,D3,L1,V0,M1} R(1521,166);r(211) { conditionnormo( skol24( n0
% 1.59/2.04     ) ) }.
% 1.59/2.04  (3397) {G4,W3,D3,L1,V0,M1} R(3387,8) { ! conditionhyper( skol24( n0 ) ) }.
% 1.59/2.04  (4242) {G3,W5,D3,L2,V2,M1} R(2892,211) { alpha6( X ), conditionhyper( 
% 1.59/2.04    skol24( Y ) ) }.
% 1.59/2.04  (4332) {G5,W2,D2,L1,V1,M1} R(4242,3397) { alpha6( X ) }.
% 1.59/2.04  (4333) {G6,W4,D2,L2,V1,M1} R(4332,71) { alpha13( X ), alpha16( X ) }.
% 1.59/2.04  (4531) {G5,W4,D2,L2,V1,M1} R(3204,2042) { alpha18( n0 ), ! alpha7( X ) }.
% 1.59/2.04  (4537) {G9,W2,D2,L1,V0,M1} R(4531,2794) { alpha18( n0 ) }.
% 1.59/2.04  (4650) {G5,W4,D2,L2,V1,M1} R(3168,2042) { ! alpha28( n0 ), ! alpha7( X )
% 1.59/2.04     }.
% 1.59/2.04  (4656) {G9,W2,D2,L1,V0,M1} R(4650,2794) { ! alpha28( n0 ) }.
% 1.59/2.04  (8008) {G10,W6,D2,L3,V1,M1} S(430);r(4537) { alpha14( n0 ), conditionhyper
% 1.59/2.04    ( X ), uptakepg( X ) }.
% 1.59/2.04  (8009) {G11,W7,D3,L3,V2,M1} R(8008,1457) { alpha14( n0 ), conditionhyper( 
% 1.59/2.04    skol24( X ) ), drugi( Y ) }.
% 1.59/2.04  (8014) {G12,W5,D3,L2,V1,M1} R(8009,211) { alpha14( n0 ), conditionhyper( 
% 1.59/2.04    skol24( X ) ) }.
% 1.59/2.04  (8016) {G13,W2,D2,L1,V0,M1} R(8014,3397) { alpha14( n0 ) }.
% 1.59/2.04  (13005) {G2,W8,D2,L4,V2,M1} R(787,42) { ! alpha25( X ), ! alpha14( X ), ! 
% 1.59/2.04    alpha14( Y ), alpha28( X ) }.
% 1.59/2.04  (13006) {G3,W6,D2,L3,V1,M1} F(13005) { ! alpha14( X ), ! alpha25( X ), 
% 1.59/2.04    alpha28( X ) }.
% 1.59/2.04  (13010) {G14,W2,D2,L1,V0,M1} R(13006,4656);r(8016) { ! alpha25( n0 ) }.
% 1.59/2.04  (13014) {G15,W2,D2,L1,V0,M1} R(13010,82) { ! alpha22( n0 ) }.
% 1.59/2.04  (13015) {G16,W2,D2,L1,V0,M1} R(13014,78) { ! alpha19( n0 ) }.
% 1.59/2.04  (13016) {G17,W2,D2,L1,V0,M1} R(13015,74) { ! alpha16( n0 ) }.
% 1.59/2.04  (13017) {G18,W0,D0,L0,V0,M0} R(13016,4333);r(1165) {  }.
% 1.59/2.04  
% 1.59/2.04  
% 1.59/2.04  % SZS output end Refutation
% 1.59/2.04  found a proof!
% 1.59/2.04  
% 1.59/2.04  
% 1.59/2.04  Unprocessed initial clauses:
% 1.59/2.04  
% 1.59/2.04  (13019) {G0,W3,D2,L1,V1,M1}  { ! gt( X, X ) }.
% 1.59/2.04  (13020) {G0,W9,D2,L3,V3,M3}  { ! gt( X, Z ), ! gt( Z, Y ), gt( X, Y ) }.
% 1.59/2.04  (13021) {G0,W6,D2,L3,V1,M3}  { bcapacityne( X ), bcapacityex( X ), 
% 1.59/2.04    bcapacitysn( X ) }.
% 1.59/2.04  (13022) {G0,W4,D2,L2,V1,M2}  { ! bcapacityne( X ), ! bcapacityex( X ) }.
% 1.59/2.04  (13023) {G0,W4,D2,L2,V1,M2}  { ! bcapacityne( X ), ! bcapacitysn( X ) }.
% 1.59/2.04  (13024) {G0,W4,D2,L2,V1,M2}  { ! bcapacityex( X ), ! bcapacitysn( X ) }.
% 1.59/2.04  (13025) {G0,W6,D2,L3,V1,M3}  { conditionhyper( X ), conditionhypo( X ), 
% 1.59/2.04    conditionnormo( X ) }.
% 1.59/2.04  (13026) {G0,W4,D2,L2,V1,M2}  { ! conditionhyper( X ), ! conditionhypo( X )
% 1.59/2.04     }.
% 1.59/2.04  (13027) {G0,W4,D2,L2,V1,M2}  { ! conditionhyper( X ), ! conditionnormo( X )
% 1.59/2.04     }.
% 1.59/2.04  (13028) {G0,W4,D2,L2,V1,M2}  { ! conditionhypo( X ), ! conditionnormo( X )
% 1.59/2.04     }.
% 1.59/2.04  (13029) {G0,W7,D2,L3,V2,M3}  { alpha1( X ), gt( X, Y ), uptakelg( Y ) }.
% 1.59/2.04  (13030) {G0,W7,D2,L3,V2,M3}  { alpha1( X ), gt( X, Y ), uptakepg( Y ) }.
% 1.59/2.04  (13031) {G0,W5,D3,L2,V2,M2}  { ! alpha1( X ), ! drugi( skol1( Y ) ) }.
% 1.59/2.04  (13032) {G0,W6,D3,L2,V1,M2}  { ! alpha1( X ), ! gt( X, skol1( X ) ) }.
% 1.59/2.04  (13033) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), drugi( Y ), alpha1( X ) }.
% 1.59/2.04  (13034) {G0,W7,D2,L3,V2,M3}  { gt( Y, X ), ! uptakelg( X ), ! releaselg( X
% 1.59/2.04     ) }.
% 1.59/2.04  (13035) {G0,W10,D3,L4,V3,M4}  { ! drugsu( skol2( Y ) ), bcapacityex( X ), 
% 1.59/2.04    gt( X, Z ), bsecretioni( Z ) }.
% 1.59/2.04  (13036) {G0,W11,D3,L4,V2,M4}  { ! gt( X, skol2( X ) ), bcapacityex( X ), gt
% 1.59/2.04    ( X, Y ), bsecretioni( Y ) }.
% 1.59/2.04  (13037) {G0,W8,D3,L3,V3,M3}  { ! drugbg( skol3( Y ) ), gt( X, Z ), ! 
% 1.59/2.04    releaselg( Z ) }.
% 1.59/2.04  (13038) {G0,W9,D3,L3,V2,M3}  { ! gt( X, skol3( X ) ), gt( X, Y ), ! 
% 1.59/2.04    releaselg( Y ) }.
% 1.59/2.04  (13039) {G0,W12,D3,L5,V3,M5}  { alpha2( X ), ! qilt27( X ), ! 
% 1.59/2.04    conditionhyper( skol4( Y ) ), gt( X, Z ), conditionnormo( Z ) }.
% 1.59/2.04  (13040) {G0,W13,D3,L5,V2,M5}  { alpha2( X ), ! qilt27( X ), gt( X, skol4( X
% 1.59/2.04     ) ), gt( X, Y ), conditionnormo( Y ) }.
% 1.59/2.04  (13041) {G0,W7,D3,L3,V2,M3}  { ! alpha2( X ), ! bsecretioni( skol5( Y ) ), 
% 1.59/2.04    ! bcapacitysn( X ) }.
% 1.59/2.04  (13042) {G0,W8,D3,L3,V1,M3}  { ! alpha2( X ), ! gt( X, skol5( X ) ), ! 
% 1.59/2.04    bcapacitysn( X ) }.
% 1.59/2.04  (13043) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), bsecretioni( Y ), alpha2( X )
% 1.59/2.04     }.
% 1.59/2.04  (13044) {G0,W4,D2,L2,V1,M2}  { bcapacitysn( X ), alpha2( X ) }.
% 1.59/2.04  (13045) {G0,W12,D3,L5,V3,M5}  { alpha3( X ), qilt27( X ), ! conditionhyper
% 1.59/2.04    ( skol6( Y ) ), gt( X, Z ), conditionnormo( Z ) }.
% 1.59/2.04  (13046) {G0,W13,D3,L5,V2,M5}  { alpha3( X ), qilt27( X ), gt( X, skol6( X )
% 1.59/2.04     ), gt( X, Y ), conditionnormo( Y ) }.
% 1.59/2.04  (13047) {G0,W7,D3,L3,V2,M3}  { ! alpha3( X ), releaselg( skol7( Y ) ), ! 
% 1.59/2.04    bcapacitysn( X ) }.
% 1.59/2.04  (13048) {G0,W8,D3,L3,V1,M3}  { ! alpha3( X ), ! gt( X, skol7( X ) ), ! 
% 1.59/2.04    bcapacitysn( X ) }.
% 1.59/2.04  (13049) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), ! releaselg( Y ), alpha3( X )
% 1.59/2.04     }.
% 1.59/2.04  (13050) {G0,W4,D2,L2,V1,M2}  { bcapacitysn( X ), alpha3( X ) }.
% 1.59/2.04  (13051) {G0,W10,D3,L4,V3,M4}  { alpha4( X ), ! conditionhyper( skol8( Y ) )
% 1.59/2.04    , gt( X, Z ), conditionnormo( Z ) }.
% 1.59/2.04  (13052) {G0,W11,D3,L4,V2,M4}  { alpha4( X ), gt( X, skol8( X ) ), gt( X, Y
% 1.59/2.04     ), conditionnormo( Y ) }.
% 1.59/2.04  (13053) {G0,W7,D3,L3,V2,M3}  { ! alpha4( X ), alpha11( X ), ! bsecretioni( 
% 1.59/2.04    skol9( Y ) ) }.
% 1.59/2.04  (13054) {G0,W8,D3,L3,V1,M3}  { ! alpha4( X ), alpha11( X ), ! gt( X, skol9
% 1.59/2.04    ( X ) ) }.
% 1.59/2.04  (13055) {G0,W4,D2,L2,V1,M2}  { ! alpha11( X ), alpha4( X ) }.
% 1.59/2.04  (13056) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), bsecretioni( Y ), alpha4( X )
% 1.59/2.04     }.
% 1.59/2.04  (13057) {G0,W6,D2,L3,V1,M3}  { ! alpha11( X ), alpha14( X ), ! bcapacityne
% 1.59/2.04    ( X ) }.
% 1.59/2.04  (13058) {G0,W4,D2,L2,V1,M2}  { ! alpha14( X ), alpha11( X ) }.
% 1.59/2.04  (13059) {G0,W4,D2,L2,V1,M2}  { bcapacityne( X ), alpha11( X ) }.
% 1.59/2.04  (13060) {G0,W4,D2,L2,V1,M2}  { ! alpha14( X ), alpha18( X ) }.
% 1.59/2.04  (13061) {G0,W5,D3,L2,V2,M2}  { ! alpha14( X ), ! uptakepg( skol10( Y ) )
% 1.59/2.04     }.
% 1.59/2.04  (13062) {G0,W6,D3,L2,V1,M2}  { ! alpha14( X ), ! gt( X, skol10( X ) ) }.
% 1.59/2.04  (13063) {G0,W9,D2,L4,V2,M4}  { ! alpha18( X ), gt( X, Y ), uptakepg( Y ), 
% 1.59/2.04    alpha14( X ) }.
% 1.59/2.04  (13064) {G0,W5,D3,L2,V2,M2}  { ! alpha18( X ), releaselg( skol11( Y ) ) }.
% 1.59/2.04  (13065) {G0,W6,D3,L2,V1,M2}  { ! alpha18( X ), ! gt( X, skol11( X ) ) }.
% 1.59/2.04  (13066) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), ! releaselg( Y ), alpha18( X )
% 1.59/2.04     }.
% 1.59/2.04  (13067) {G0,W12,D3,L5,V3,M5}  { alpha5( X ), ! conditionhyper( skol12( Y )
% 1.59/2.04     ), gt( X, Z ), conditionnormo( Z ), conditionhypo( Z ) }.
% 1.59/2.04  (13068) {G0,W13,D3,L5,V2,M5}  { alpha5( X ), gt( X, skol12( X ) ), gt( X, Y
% 1.59/2.04     ), conditionnormo( Y ), conditionhypo( Y ) }.
% 1.59/2.04  (13069) {G0,W6,D2,L3,V1,M3}  { ! alpha5( X ), alpha12( X ), ! bcapacityex( 
% 1.59/2.04    X ) }.
% 1.59/2.04  (13070) {G0,W4,D2,L2,V1,M2}  { ! alpha12( X ), alpha5( X ) }.
% 1.59/2.04  (13071) {G0,W4,D2,L2,V1,M2}  { bcapacityex( X ), alpha5( X ) }.
% 1.59/2.04  (13072) {G0,W7,D3,L3,V2,M3}  { ! alpha12( X ), alpha15( X ), ! uptakepg( 
% 1.59/2.04    skol13( Y ) ) }.
% 1.59/2.04  (13073) {G0,W8,D3,L3,V1,M3}  { ! alpha12( X ), alpha15( X ), ! gt( X, 
% 1.59/2.04    skol13( X ) ) }.
% 1.59/2.04  (13074) {G0,W4,D2,L2,V1,M2}  { ! alpha15( X ), alpha12( X ) }.
% 1.59/2.04  (13075) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), uptakepg( Y ), alpha12( X ) }.
% 1.59/2.04  (13076) {G0,W5,D3,L2,V2,M2}  { ! alpha15( X ), ! uptakelg( skol14( Y ) )
% 1.59/2.04     }.
% 1.59/2.04  (13077) {G0,W6,D3,L2,V1,M2}  { ! alpha15( X ), ! gt( X, skol14( X ) ) }.
% 1.59/2.04  (13078) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), uptakelg( Y ), alpha15( X ) }.
% 1.59/2.04  (13079) {G0,W8,D2,L4,V1,M4}  { s0( X ), s1( X ), s2( X ), s3( X ) }.
% 1.59/2.04  (13080) {G0,W4,D2,L2,V1,M2}  { ! s0( X ), ! s1( X ) }.
% 1.59/2.04  (13081) {G0,W4,D2,L2,V1,M2}  { ! s0( X ), ! s2( X ) }.
% 1.59/2.04  (13082) {G0,W4,D2,L2,V1,M2}  { ! s0( X ), ! s3( X ) }.
% 1.59/2.04  (13083) {G0,W4,D2,L2,V1,M2}  { ! s1( X ), ! s2( X ) }.
% 1.59/2.04  (13084) {G0,W4,D2,L2,V1,M2}  { ! s1( X ), ! s3( X ) }.
% 1.59/2.04  (13085) {G0,W4,D2,L2,V1,M2}  { ! s2( X ), ! s3( X ) }.
% 1.59/2.04  (13086) {G0,W7,D2,L3,V2,M3}  { alpha6( X ), gt( X, Y ), uptakelg( Y ) }.
% 1.59/2.04  (13087) {G0,W7,D2,L3,V2,M3}  { alpha6( X ), gt( X, Y ), uptakepg( Y ) }.
% 1.59/2.04  (13088) {G0,W4,D2,L2,V1,M2}  { alpha6( X ), bcapacityex( X ) }.
% 1.59/2.04  (13089) {G0,W7,D2,L3,V2,M3}  { alpha6( X ), ! gt( X, Y ), conditionhyper( Y
% 1.59/2.04     ) }.
% 1.59/2.04  (13090) {G0,W6,D2,L3,V1,M3}  { ! alpha6( X ), alpha13( X ), alpha16( X )
% 1.59/2.04     }.
% 1.59/2.04  (13091) {G0,W4,D2,L2,V1,M2}  { ! alpha13( X ), alpha6( X ) }.
% 1.59/2.04  (13092) {G0,W4,D2,L2,V1,M2}  { ! alpha16( X ), alpha6( X ) }.
% 1.59/2.04  (13093) {G0,W4,D2,L2,V1,M2}  { ! alpha16( X ), alpha19( X ) }.
% 1.59/2.04  (13094) {G0,W7,D2,L3,V2,M3}  { ! alpha16( X ), ! gt( X, Y ), conditionhyper
% 1.59/2.04    ( Y ) }.
% 1.59/2.04  (13095) {G0,W7,D3,L3,V2,M3}  { ! alpha19( X ), ! conditionhyper( skol15( Y
% 1.59/2.04     ) ), alpha16( X ) }.
% 1.59/2.04  (13096) {G0,W8,D3,L3,V1,M3}  { ! alpha19( X ), gt( X, skol15( X ) ), 
% 1.59/2.04    alpha16( X ) }.
% 1.59/2.04  (13097) {G0,W4,D2,L2,V1,M2}  { ! alpha19( X ), alpha22( X ) }.
% 1.59/2.04  (13098) {G0,W7,D2,L3,V2,M3}  { ! alpha19( X ), gt( X, Y ), bsecretioni( Y )
% 1.59/2.04     }.
% 1.59/2.04  (13099) {G0,W7,D3,L3,V2,M3}  { ! alpha22( X ), ! bsecretioni( skol16( Y ) )
% 1.59/2.04    , alpha19( X ) }.
% 1.59/2.04  (13100) {G0,W8,D3,L3,V1,M3}  { ! alpha22( X ), ! gt( X, skol16( X ) ), 
% 1.59/2.04    alpha19( X ) }.
% 1.59/2.04  (13101) {G0,W4,D2,L2,V1,M2}  { ! alpha22( X ), alpha25( X ) }.
% 1.59/2.04  (13102) {G0,W4,D2,L2,V1,M2}  { ! alpha22( X ), bcapacityne( X ) }.
% 1.59/2.04  (13103) {G0,W6,D2,L3,V1,M3}  { ! alpha25( X ), ! bcapacityne( X ), alpha22
% 1.59/2.04    ( X ) }.
% 1.59/2.04  (13104) {G0,W9,D2,L4,V2,M4}  { ! alpha25( X ), alpha28( X ), gt( X, Y ), 
% 1.59/2.04    uptakepg( Y ) }.
% 1.59/2.04  (13105) {G0,W4,D2,L2,V1,M2}  { ! alpha28( X ), alpha25( X ) }.
% 1.59/2.04  (13106) {G0,W5,D3,L2,V2,M2}  { ! uptakepg( skol17( Y ) ), alpha25( X ) }.
% 1.59/2.04  (13107) {G0,W6,D3,L2,V1,M2}  { ! gt( X, skol17( X ) ), alpha25( X ) }.
% 1.59/2.04  (13108) {G0,W7,D2,L3,V2,M3}  { ! alpha28( X ), gt( X, Y ), ! releaselg( Y )
% 1.59/2.04     }.
% 1.59/2.04  (13109) {G0,W5,D3,L2,V2,M2}  { releaselg( skol18( Y ) ), alpha28( X ) }.
% 1.59/2.04  (13110) {G0,W6,D3,L2,V1,M2}  { ! gt( X, skol18( X ) ), alpha28( X ) }.
% 1.59/2.04  (13111) {G0,W6,D2,L3,V1,M3}  { ! alpha13( X ), alpha17( X ), alpha20( X )
% 1.59/2.04     }.
% 1.59/2.04  (13112) {G0,W4,D2,L2,V1,M2}  { ! alpha17( X ), alpha13( X ) }.
% 1.59/2.04  (13113) {G0,W4,D2,L2,V1,M2}  { ! alpha20( X ), alpha13( X ) }.
% 1.59/2.04  (13114) {G0,W4,D2,L2,V1,M2}  { ! alpha20( X ), alpha23( X ) }.
% 1.59/2.04  (13115) {G0,W7,D2,L3,V2,M3}  { ! alpha20( X ), ! gt( X, Y ), conditionhyper
% 1.59/2.04    ( Y ) }.
% 1.59/2.04  (13116) {G0,W7,D3,L3,V2,M3}  { ! alpha23( X ), ! conditionhyper( skol19( Y
% 1.59/2.04     ) ), alpha20( X ) }.
% 1.59/2.04  (13117) {G0,W8,D3,L3,V1,M3}  { ! alpha23( X ), gt( X, skol19( X ) ), 
% 1.59/2.04    alpha20( X ) }.
% 1.59/2.04  (13118) {G0,W4,D2,L2,V1,M2}  { ! alpha23( X ), alpha26( X ) }.
% 1.59/2.04  (13119) {G0,W4,D2,L2,V1,M2}  { ! alpha23( X ), ! qilt27( X ) }.
% 1.59/2.04  (13120) {G0,W6,D2,L3,V1,M3}  { ! alpha26( X ), qilt27( X ), alpha23( X )
% 1.59/2.04     }.
% 1.59/2.04  (13121) {G0,W7,D2,L3,V2,M3}  { ! alpha26( X ), gt( X, Y ), ! releaselg( Y )
% 1.59/2.04     }.
% 1.59/2.04  (13122) {G0,W4,D2,L2,V1,M2}  { ! alpha26( X ), bcapacitysn( X ) }.
% 1.59/2.04  (13123) {G0,W7,D3,L3,V2,M3}  { releaselg( skol20( Y ) ), ! bcapacitysn( X )
% 1.59/2.04    , alpha26( X ) }.
% 1.59/2.04  (13124) {G0,W8,D3,L3,V1,M3}  { ! gt( X, skol20( X ) ), ! bcapacitysn( X ), 
% 1.59/2.04    alpha26( X ) }.
% 1.59/2.04  (13125) {G0,W6,D2,L3,V1,M3}  { ! alpha17( X ), alpha21( X ), alpha24( X )
% 1.59/2.04     }.
% 1.59/2.04  (13126) {G0,W4,D2,L2,V1,M2}  { ! alpha21( X ), alpha17( X ) }.
% 1.59/2.04  (13127) {G0,W4,D2,L2,V1,M2}  { ! alpha24( X ), alpha17( X ) }.
% 1.59/2.04  (13128) {G0,W4,D2,L2,V1,M2}  { ! alpha24( X ), alpha27( X ) }.
% 1.59/2.04  (13129) {G0,W7,D2,L3,V2,M3}  { ! alpha24( X ), ! gt( X, Y ), conditionhyper
% 1.59/2.04    ( Y ) }.
% 1.59/2.04  (13130) {G0,W7,D3,L3,V2,M3}  { ! alpha27( X ), ! conditionhyper( skol21( Y
% 1.59/2.04     ) ), alpha24( X ) }.
% 1.59/2.04  (13131) {G0,W8,D3,L3,V1,M3}  { ! alpha27( X ), gt( X, skol21( X ) ), 
% 1.59/2.04    alpha24( X ) }.
% 1.59/2.04  (13132) {G0,W4,D2,L2,V1,M2}  { ! alpha27( X ), alpha29( X ) }.
% 1.59/2.04  (13133) {G0,W4,D2,L2,V1,M2}  { ! alpha27( X ), qilt27( X ) }.
% 1.59/2.04  (13134) {G0,W6,D2,L3,V1,M3}  { ! alpha29( X ), ! qilt27( X ), alpha27( X )
% 1.59/2.04     }.
% 1.59/2.04  (13135) {G0,W7,D2,L3,V2,M3}  { ! alpha29( X ), gt( X, Y ), bsecretioni( Y )
% 1.59/2.04     }.
% 1.59/2.04  (13136) {G0,W4,D2,L2,V1,M2}  { ! alpha29( X ), bcapacitysn( X ) }.
% 1.59/2.04  (13137) {G0,W7,D3,L3,V2,M3}  { ! bsecretioni( skol22( Y ) ), ! bcapacitysn
% 1.59/2.04    ( X ), alpha29( X ) }.
% 1.59/2.04  (13138) {G0,W8,D3,L3,V1,M3}  { ! gt( X, skol22( X ) ), ! bcapacitysn( X ), 
% 1.59/2.04    alpha29( X ) }.
% 1.59/2.04  (13139) {G0,W5,D3,L2,V2,M2}  { ! alpha21( X ), ! conditionnormo( skol23( Y
% 1.59/2.04     ) ) }.
% 1.59/2.04  (13140) {G0,W6,D3,L2,V1,M2}  { ! alpha21( X ), ! gt( X, skol23( X ) ) }.
% 1.59/2.04  (13141) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), conditionnormo( Y ), alpha21( X
% 1.59/2.04     ) }.
% 1.59/2.04  (13142) {G0,W6,D2,L3,V1,M3}  { ! s1( X ), ! qilt27( X ), drugsu( X ) }.
% 1.59/2.04  (13143) {G0,W6,D2,L3,V1,M3}  { ! s1( X ), qilt27( X ), drugbg( X ) }.
% 1.59/2.04  (13144) {G0,W4,D2,L2,V1,M2}  { ! s2( X ), drugbg( X ) }.
% 1.59/2.04  (13145) {G0,W4,D2,L2,V1,M2}  { ! s2( X ), drugsu( X ) }.
% 1.59/2.04  (13146) {G0,W6,D2,L3,V1,M3}  { ! s3( X ), drugi( X ), drugi( X ) }.
% 1.59/2.04  (13147) {G0,W8,D2,L4,V1,M4}  { ! s3( X ), drugsu( X ), drugbg( X ), drugi( 
% 1.59/2.04    X ) }.
% 1.59/2.04  (13148) {G0,W8,D2,L4,V1,M4}  { ! drugbg( X ), s1( X ), s2( X ), s3( X ) }.
% 1.59/2.04  (13149) {G0,W8,D2,L4,V1,M4}  { ! drugbg( X ), ! qilt27( X ), s2( X ), s3( X
% 1.59/2.04     ) }.
% 1.59/2.04  (13150) {G0,W8,D2,L4,V1,M4}  { ! drugsu( X ), s1( X ), s2( X ), s3( X ) }.
% 1.59/2.04  (13151) {G0,W8,D2,L4,V1,M4}  { ! drugsu( X ), qillt27( X ), s2( X ), s3( X
% 1.59/2.04     ) }.
% 1.59/2.04  (13152) {G0,W4,D2,L2,V1,M2}  { ! drugi( X ), s3( X ) }.
% 1.59/2.04  (13153) {G0,W7,D2,L3,V2,M3}  { alpha7( X ), gt( X, Y ), drugi( Y ) }.
% 1.59/2.04  (13154) {G0,W8,D3,L3,V3,M3}  { ! uptakepg( skol24( Y ) ), gt( X, Z ), drugi
% 1.59/2.04    ( Z ) }.
% 1.59/2.04  (13155) {G0,W9,D3,L3,V2,M3}  { ! gt( X, skol24( X ) ), gt( X, Y ), drugi( Y
% 1.59/2.04     ) }.
% 1.59/2.04  (13156) {G0,W5,D3,L2,V2,M2}  { ! alpha7( X ), ! uptakelg( skol25( Y ) ) }.
% 1.59/2.04  (13157) {G0,W6,D3,L2,V1,M2}  { ! alpha7( X ), ! gt( X, skol25( X ) ) }.
% 1.59/2.04  (13158) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), uptakelg( Y ), alpha7( X ) }.
% 1.59/2.04  (13159) {G0,W7,D2,L3,V2,M3}  { gt( Y, X ), releaselg( X ), uptakelg( X )
% 1.59/2.04     }.
% 1.59/2.04  (13160) {G0,W7,D2,L3,V2,M3}  { alpha8( X ), gt( X, Y ), drugsu( Y ) }.
% 1.59/2.04  (13161) {G0,W4,D2,L2,V1,M2}  { alpha8( X ), ! bcapacityex( X ) }.
% 1.59/2.04  (13162) {G0,W5,D3,L2,V2,M2}  { ! alpha8( X ), ! bsecretioni( skol26( Y ) )
% 1.59/2.04     }.
% 1.59/2.04  (13163) {G0,W6,D3,L2,V1,M2}  { ! alpha8( X ), ! gt( X, skol26( X ) ) }.
% 1.59/2.04  (13164) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), bsecretioni( Y ), alpha8( X )
% 1.59/2.04     }.
% 1.59/2.04  (13165) {G0,W8,D3,L3,V3,M3}  { releaselg( skol27( Y ) ), gt( X, Z ), drugbg
% 1.59/2.04    ( Z ) }.
% 1.59/2.04  (13166) {G0,W9,D3,L3,V2,M3}  { ! gt( X, skol27( X ) ), gt( X, Y ), drugbg( 
% 1.59/2.04    Y ) }.
% 1.59/2.04  (13167) {G0,W10,D3,L4,V3,M4}  { ! s0( X ), gt( X, Y ), conditionnormo( Y )
% 1.59/2.04    , s1( skol28( Z ) ) }.
% 1.59/2.04  (13168) {G0,W13,D3,L5,V4,M5}  { ! s0( X ), gt( X, Y ), conditionnormo( Y )
% 1.59/2.04    , ! gt( skol28( Z ), T ), conditionhyper( T ) }.
% 1.59/2.04  (13169) {G0,W11,D3,L4,V2,M4}  { ! s0( X ), gt( X, Y ), conditionnormo( Y )
% 1.59/2.04    , ! gt( X, skol28( X ) ) }.
% 1.59/2.04  (13170) {G0,W13,D3,L5,V4,M5}  { ! s1( X ), gt( X, Y ), conditionnormo( Y )
% 1.59/2.04    , ! gt( skol29( Z ), T ), conditionhyper( T ) }.
% 1.59/2.04  (13171) {G0,W13,D3,L5,V3,M5}  { ! s1( X ), gt( X, Y ), conditionnormo( Y )
% 1.59/2.04    , bcapacityne( skol29( Z ) ), bcapacityex( skol29( Z ) ) }.
% 1.59/2.04  (13172) {G0,W11,D3,L4,V2,M4}  { ! s1( X ), gt( X, Y ), conditionnormo( Y )
% 1.59/2.04    , alpha9( X, skol29( X ) ) }.
% 1.59/2.04  (13173) {G0,W6,D2,L2,V2,M2}  { ! alpha9( X, Y ), ! gt( X, Y ) }.
% 1.59/2.04  (13174) {G0,W5,D2,L2,V2,M2}  { ! alpha9( X, Y ), s2( Y ) }.
% 1.59/2.04  (13175) {G0,W8,D2,L3,V2,M3}  { gt( X, Y ), ! s2( Y ), alpha9( X, Y ) }.
% 1.59/2.04  (13176) {G0,W13,D3,L5,V4,M5}  { ! s2( X ), gt( X, Y ), conditionnormo( Y )
% 1.59/2.04    , ! gt( skol30( Z ), T ), conditionhyper( T ) }.
% 1.59/2.04  (13177) {G0,W10,D3,L4,V3,M4}  { ! s2( X ), gt( X, Y ), conditionnormo( Y )
% 1.59/2.04    , bcapacityex( skol30( Z ) ) }.
% 1.59/2.04  (13178) {G0,W11,D3,L4,V2,M4}  { ! s2( X ), gt( X, Y ), conditionnormo( Y )
% 1.59/2.04    , alpha10( X, skol30( X ) ) }.
% 1.59/2.04  (13179) {G0,W6,D2,L2,V2,M2}  { ! alpha10( X, Y ), ! gt( X, Y ) }.
% 1.59/2.04  (13180) {G0,W5,D2,L2,V2,M2}  { ! alpha10( X, Y ), s3( Y ) }.
% 1.59/2.04  (13181) {G0,W8,D2,L3,V2,M3}  { gt( X, Y ), ! s3( Y ), alpha10( X, Y ) }.
% 1.59/2.04  (13182) {G0,W2,D2,L1,V0,M1}  { s1( n0 ) }.
% 1.59/2.04  (13183) {G0,W5,D2,L2,V1,M2}  { ! gt( n0, X ), conditionhyper( X ) }.
% 1.59/2.04  (13184) {G0,W2,D2,L1,V0,M1}  { ! bcapacitysn( n0 ) }.
% 1.59/2.04  (13185) {G0,W2,D2,L1,V0,M1}  { ! qilt27( n0 ) }.
% 1.59/2.04  (13186) {G0,W5,D2,L2,V1,M2}  { gt( n0, X ), conditionnormo( X ) }.
% 1.59/2.04  
% 1.59/2.04  
% 1.59/2.04  Total Proof:
% 1.59/2.04  
% 1.59/2.04  subsumption: (0) {G0,W3,D2,L1,V1,M1} I { ! gt( X, X ) }.
% 1.59/2.04  parent0: (13019) {G0,W3,D2,L1,V1,M1}  { ! gt( X, X ) }.
% 1.59/2.04  substitution0:
% 1.59/2.04     X := X
% 1.59/2.04  end
% 1.59/2.04  permutation0:
% 1.59/2.04     0 ==> 0
% 1.59/2.04  end
% 1.59/2.04  
% 1.59/2.04  subsumption: (8) {G0,W4,D2,L2,V1,M1} I { ! conditionhyper( X ), ! 
% 1.59/2.04    conditionnormo( X ) }.
% 1.59/2.04  parent0: (13027) {G0,W4,D2,L2,V1,M2}  { ! conditionhyper( X ), ! 
% 1.59/2.04    conditionnormo( X ) }.
% 1.59/2.04  substitution0:
% 1.59/2.04     X := X
% 1.59/2.04  end
% 1.59/2.04  permutation0:
% 1.59/2.04     0 ==> 0
% 1.59/2.04     1 ==> 1
% 1.59/2.04  end
% 1.59/2.04  
% 1.59/2.04  subsumption: (15) {G0,W7,D2,L3,V2,M1} I { ! uptakelg( X ), ! releaselg( X )
% 1.59/2.04    , gt( Y, X ) }.
% 1.59/2.04  parent0: (13034) {G0,W7,D2,L3,V2,M3}  { gt( Y, X ), ! uptakelg( X ), ! 
% 1.59/2.04    releaselg( X ) }.
% 1.59/2.04  substitution0:
% 1.59/2.04     X := X
% 1.59/2.04     Y := Y
% 1.59/2.04  end
% 1.59/2.04  permutation0:
% 1.59/2.04     0 ==> 2
% 1.59/2.04     1 ==> 0
% 1.59/2.04     2 ==> 1
% 1.59/2.04  end
% 1.59/2.04  
% 1.59/2.04  subsumption: (18) {G0,W8,D3,L3,V3,M1} I { ! drugbg( skol3( Y ) ), ! 
% 1.59/2.04    releaselg( Z ), gt( X, Z ) }.
% 1.59/2.04  parent0: (13037) {G0,W8,D3,L3,V3,M3}  { ! drugbg( skol3( Y ) ), gt( X, Z )
% 1.59/2.04    , ! releaselg( Z ) }.
% 1.59/2.04  substitution0:
% 1.59/2.04     X := X
% 1.59/2.04     Y := Y
% 1.59/2.04     Z := Z
% 1.59/2.04  end
% 1.59/2.04  permutation0:
% 1.59/2.04     0 ==> 0
% 1.59/2.04     1 ==> 2
% 1.59/2.04     2 ==> 1
% 1.59/2.04  end
% 1.59/2.04  
% 1.59/2.04  subsumption: (42) {G0,W5,D3,L2,V2,M1} I { ! alpha14( X ), ! uptakepg( 
% 1.59/2.04    skol10( Y ) ) }.
% 1.59/2.04  parent0: (13061) {G0,W5,D3,L2,V2,M2}  { ! alpha14( X ), ! uptakepg( skol10
% 1.59/2.04    ( Y ) ) }.
% 1.59/2.04  substitution0:
% 1.59/2.04     X := X
% 1.59/2.04     Y := Y
% 1.59/2.04  end
% 1.59/2.04  permutation0:
% 1.59/2.04     0 ==> 0
% 1.59/2.04     1 ==> 1
% 1.59/2.04  end
% 1.59/2.04  
% 1.59/2.04  subsumption: (43) {G0,W6,D3,L2,V1,M1} I { ! alpha14( X ), ! gt( X, skol10( 
% 1.59/2.04    X ) ) }.
% 1.59/2.04  parent0: (13062) {G0,W6,D3,L2,V1,M2}  { ! alpha14( X ), ! gt( X, skol10( X
% 1.59/2.04     ) ) }.
% 1.59/2.04  substitution0:
% 1.59/2.04     X := X
% 1.59/2.04  end
% 1.59/2.04  permutation0:
% 1.59/2.04     0 ==> 0
% 1.59/2.04     1 ==> 1
% 1.59/2.04  end
% 1.59/2.04  
% 1.59/2.04  subsumption: (44) {G0,W9,D2,L4,V2,M1} I { ! alpha18( X ), uptakepg( Y ), 
% 1.59/2.04    alpha14( X ), gt( X, Y ) }.
% 1.59/2.04  parent0: (13063) {G0,W9,D2,L4,V2,M4}  { ! alpha18( X ), gt( X, Y ), 
% 1.59/2.04    uptakepg( Y ), alpha14( X ) }.
% 1.59/2.04  substitution0:
% 1.59/2.04     X := X
% 1.59/2.04     Y := Y
% 1.59/2.04  end
% 1.59/2.04  permutation0:
% 1.59/2.04     0 ==> 0
% 1.59/2.04     1 ==> 3
% 1.59/2.04     2 ==> 1
% 1.59/2.04     3 ==> 2
% 1.59/2.04  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (47) {G0,W7,D2,L3,V2,M1} I { ! releaselg( Y ), alpha18( X ), 
% 1.59/2.05    gt( X, Y ) }.
% 1.59/2.05  parent0: (13066) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), ! releaselg( Y ), 
% 1.59/2.05    alpha18( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 2
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  *** allocated 256285 integers for termspace/termends
% 1.59/2.05  subsumption: (65) {G0,W4,D2,L2,V1,M1} I { ! s1( X ), ! s3( X ) }.
% 1.59/2.05  parent0: (13084) {G0,W4,D2,L2,V1,M2}  { ! s1( X ), ! s3( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (68) {G0,W7,D2,L3,V2,M1} I { alpha6( X ), uptakepg( Y ), gt( X
% 1.59/2.05    , Y ) }.
% 1.59/2.05  parent0: (13087) {G0,W7,D2,L3,V2,M3}  { alpha6( X ), gt( X, Y ), uptakepg( 
% 1.59/2.05    Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 2
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (70) {G0,W7,D2,L3,V2,M1} I { alpha6( X ), conditionhyper( Y )
% 1.59/2.05    , ! gt( X, Y ) }.
% 1.59/2.05  parent0: (13089) {G0,W7,D2,L3,V2,M3}  { alpha6( X ), ! gt( X, Y ), 
% 1.59/2.05    conditionhyper( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 2
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (71) {G0,W6,D2,L3,V1,M1} I { alpha13( X ), alpha16( X ), ! 
% 1.59/2.05    alpha6( X ) }.
% 1.59/2.05  parent0: (13090) {G0,W6,D2,L3,V1,M3}  { ! alpha6( X ), alpha13( X ), 
% 1.59/2.05    alpha16( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 2
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (74) {G0,W4,D2,L2,V1,M1} I { ! alpha16( X ), alpha19( X ) }.
% 1.59/2.05  parent0: (13093) {G0,W4,D2,L2,V1,M2}  { ! alpha16( X ), alpha19( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (78) {G0,W4,D2,L2,V1,M1} I { ! alpha19( X ), alpha22( X ) }.
% 1.59/2.05  parent0: (13097) {G0,W4,D2,L2,V1,M2}  { ! alpha19( X ), alpha22( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (82) {G0,W4,D2,L2,V1,M1} I { ! alpha22( X ), alpha25( X ) }.
% 1.59/2.05  parent0: (13101) {G0,W4,D2,L2,V1,M2}  { ! alpha22( X ), alpha25( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (85) {G0,W9,D2,L4,V2,M1} I { ! alpha25( X ), alpha28( X ), 
% 1.59/2.05    uptakepg( Y ), gt( X, Y ) }.
% 1.59/2.05  parent0: (13104) {G0,W9,D2,L4,V2,M4}  { ! alpha25( X ), alpha28( X ), gt( X
% 1.59/2.05    , Y ), uptakepg( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05     2 ==> 3
% 1.59/2.05     3 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (89) {G0,W7,D2,L3,V2,M1} I { ! alpha28( X ), ! releaselg( Y )
% 1.59/2.05    , gt( X, Y ) }.
% 1.59/2.05  parent0: (13108) {G0,W7,D2,L3,V2,M3}  { ! alpha28( X ), gt( X, Y ), ! 
% 1.59/2.05    releaselg( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 2
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (92) {G0,W6,D2,L3,V1,M1} I { ! alpha13( X ), alpha17( X ), 
% 1.59/2.05    alpha20( X ) }.
% 1.59/2.05  parent0: (13111) {G0,W6,D2,L3,V1,M3}  { ! alpha13( X ), alpha17( X ), 
% 1.59/2.05    alpha20( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05     2 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (95) {G0,W4,D2,L2,V1,M1} I { ! alpha20( X ), alpha23( X ) }.
% 1.59/2.05  parent0: (13114) {G0,W4,D2,L2,V1,M2}  { ! alpha20( X ), alpha23( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (99) {G0,W4,D2,L2,V1,M1} I { ! alpha23( X ), alpha26( X ) }.
% 1.59/2.05  parent0: (13118) {G0,W4,D2,L2,V1,M2}  { ! alpha23( X ), alpha26( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (103) {G0,W4,D2,L2,V1,M1} I { ! alpha26( X ), bcapacitysn( X )
% 1.59/2.05     }.
% 1.59/2.05  parent0: (13122) {G0,W4,D2,L2,V1,M2}  { ! alpha26( X ), bcapacitysn( X )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (106) {G0,W6,D2,L3,V1,M1} I { ! alpha17( X ), alpha21( X ), 
% 1.59/2.05    alpha24( X ) }.
% 1.59/2.05  parent0: (13125) {G0,W6,D2,L3,V1,M3}  { ! alpha17( X ), alpha21( X ), 
% 1.59/2.05    alpha24( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05     2 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (109) {G0,W4,D2,L2,V1,M1} I { ! alpha24( X ), alpha27( X ) }.
% 1.59/2.05  parent0: (13128) {G0,W4,D2,L2,V1,M2}  { ! alpha24( X ), alpha27( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (114) {G0,W4,D2,L2,V1,M1} I { ! alpha27( X ), qilt27( X ) }.
% 1.59/2.05  parent0: (13133) {G0,W4,D2,L2,V1,M2}  { ! alpha27( X ), qilt27( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (120) {G0,W5,D3,L2,V2,M1} I { ! alpha21( X ), ! conditionnormo
% 1.59/2.05    ( skol23( Y ) ) }.
% 1.59/2.05  parent0: (13139) {G0,W5,D3,L2,V2,M2}  { ! alpha21( X ), ! conditionnormo( 
% 1.59/2.05    skol23( Y ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (121) {G0,W6,D3,L2,V1,M1} I { ! alpha21( X ), ! gt( X, skol23
% 1.59/2.05    ( X ) ) }.
% 1.59/2.05  parent0: (13140) {G0,W6,D3,L2,V1,M2}  { ! alpha21( X ), ! gt( X, skol23( X
% 1.59/2.05     ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (132) {G0,W4,D2,L2,V1,M1} I { ! drugi( X ), s3( X ) }.
% 1.59/2.05  parent0: (13152) {G0,W4,D2,L2,V1,M2}  { ! drugi( X ), s3( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (133) {G0,W7,D2,L3,V2,M1} I { alpha7( X ), drugi( Y ), gt( X, 
% 1.59/2.05    Y ) }.
% 1.59/2.05  parent0: (13153) {G0,W7,D2,L3,V2,M3}  { alpha7( X ), gt( X, Y ), drugi( Y )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 2
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (134) {G0,W8,D3,L3,V3,M1} I { ! uptakepg( skol24( Y ) ), drugi
% 1.59/2.05    ( Z ), gt( X, Z ) }.
% 1.59/2.05  parent0: (13154) {G0,W8,D3,L3,V3,M3}  { ! uptakepg( skol24( Y ) ), gt( X, Z
% 1.59/2.05     ), drugi( Z ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05     Z := Z
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 2
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (135) {G0,W9,D3,L3,V2,M2} I { drugi( Y ), ! gt( X, skol24( X )
% 1.59/2.05     ), gt( X, Y ) }.
% 1.59/2.05  parent0: (13155) {G0,W9,D3,L3,V2,M3}  { ! gt( X, skol24( X ) ), gt( X, Y )
% 1.59/2.05    , drugi( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 2
% 1.59/2.05     2 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (136) {G0,W5,D3,L2,V2,M1} I { ! alpha7( X ), ! uptakelg( 
% 1.59/2.05    skol25( Y ) ) }.
% 1.59/2.05  parent0: (13156) {G0,W5,D3,L2,V2,M2}  { ! alpha7( X ), ! uptakelg( skol25( 
% 1.59/2.05    Y ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (137) {G0,W6,D3,L2,V1,M1} I { ! alpha7( X ), ! gt( X, skol25( 
% 1.59/2.05    X ) ) }.
% 1.59/2.05  parent0: (13157) {G0,W6,D3,L2,V1,M2}  { ! alpha7( X ), ! gt( X, skol25( X )
% 1.59/2.05     ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (138) {G0,W7,D2,L3,V2,M1} I { uptakelg( Y ), alpha7( X ), gt( 
% 1.59/2.05    X, Y ) }.
% 1.59/2.05  parent0: (13158) {G0,W7,D2,L3,V2,M3}  { gt( X, Y ), uptakelg( Y ), alpha7( 
% 1.59/2.05    X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 2
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (139) {G0,W7,D2,L3,V2,M1} I { releaselg( X ), uptakelg( X ), 
% 1.59/2.05    gt( Y, X ) }.
% 1.59/2.05  parent0: (13159) {G0,W7,D2,L3,V2,M3}  { gt( Y, X ), releaselg( X ), 
% 1.59/2.05    uptakelg( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 2
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (145) {G0,W8,D3,L3,V3,M1} I { releaselg( skol27( Y ) ), drugbg
% 1.59/2.05    ( Z ), gt( X, Z ) }.
% 1.59/2.05  parent0: (13165) {G0,W8,D3,L3,V3,M3}  { releaselg( skol27( Y ) ), gt( X, Z
% 1.59/2.05     ), drugbg( Z ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05     Z := Z
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 2
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (162) {G0,W2,D2,L1,V0,M1} I { s1( n0 ) }.
% 1.59/2.05  parent0: (13182) {G0,W2,D2,L1,V0,M1}  { s1( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (163) {G0,W5,D2,L2,V1,M1} I { conditionhyper( X ), ! gt( n0, X
% 1.59/2.05     ) }.
% 1.59/2.05  parent0: (13183) {G0,W5,D2,L2,V1,M2}  { ! gt( n0, X ), conditionhyper( X )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (164) {G0,W2,D2,L1,V0,M1} I { ! bcapacitysn( n0 ) }.
% 1.59/2.05  parent0: (13184) {G0,W2,D2,L1,V0,M1}  { ! bcapacitysn( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (165) {G0,W2,D2,L1,V0,M1} I { ! qilt27( n0 ) }.
% 1.59/2.05  parent0: (13185) {G0,W2,D2,L1,V0,M1}  { ! qilt27( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (166) {G0,W5,D2,L2,V1,M1} I { conditionnormo( X ), gt( n0, X )
% 1.59/2.05     }.
% 1.59/2.05  parent0: (13186) {G0,W5,D2,L2,V1,M2}  { gt( n0, X ), conditionnormo( X )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13380) {G1,W2,D2,L1,V0,M1}  { ! alpha27( n0 ) }.
% 1.59/2.05  parent0[0]: (165) {G0,W2,D2,L1,V0,M1} I { ! qilt27( n0 ) }.
% 1.59/2.05  parent1[1]: (114) {G0,W4,D2,L2,V1,M1} I { ! alpha27( X ), qilt27( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (175) {G1,W2,D2,L1,V0,M1} R(114,165) { ! alpha27( n0 ) }.
% 1.59/2.05  parent0: (13380) {G1,W2,D2,L1,V0,M1}  { ! alpha27( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13381) {G1,W2,D2,L1,V0,M1}  { ! alpha24( n0 ) }.
% 1.59/2.05  parent0[0]: (175) {G1,W2,D2,L1,V0,M1} R(114,165) { ! alpha27( n0 ) }.
% 1.59/2.05  parent1[1]: (109) {G0,W4,D2,L2,V1,M1} I { ! alpha24( X ), alpha27( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (176) {G2,W2,D2,L1,V0,M1} R(109,175) { ! alpha24( n0 ) }.
% 1.59/2.05  parent0: (13381) {G1,W2,D2,L1,V0,M1}  { ! alpha24( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13382) {G1,W2,D2,L1,V0,M1}  { ! alpha26( n0 ) }.
% 1.59/2.05  parent0[0]: (164) {G0,W2,D2,L1,V0,M1} I { ! bcapacitysn( n0 ) }.
% 1.59/2.05  parent1[1]: (103) {G0,W4,D2,L2,V1,M1} I { ! alpha26( X ), bcapacitysn( X )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (179) {G1,W2,D2,L1,V0,M1} R(103,164) { ! alpha26( n0 ) }.
% 1.59/2.05  parent0: (13382) {G1,W2,D2,L1,V0,M1}  { ! alpha26( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13383) {G1,W2,D2,L1,V0,M1}  { ! alpha23( n0 ) }.
% 1.59/2.05  parent0[0]: (179) {G1,W2,D2,L1,V0,M1} R(103,164) { ! alpha26( n0 ) }.
% 1.59/2.05  parent1[1]: (99) {G0,W4,D2,L2,V1,M1} I { ! alpha23( X ), alpha26( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (184) {G2,W2,D2,L1,V0,M1} R(99,179) { ! alpha23( n0 ) }.
% 1.59/2.05  parent0: (13383) {G1,W2,D2,L1,V0,M1}  { ! alpha23( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13384) {G1,W2,D2,L1,V0,M1}  { ! alpha20( n0 ) }.
% 1.59/2.05  parent0[0]: (184) {G2,W2,D2,L1,V0,M1} R(99,179) { ! alpha23( n0 ) }.
% 1.59/2.05  parent1[1]: (95) {G0,W4,D2,L2,V1,M1} I { ! alpha20( X ), alpha23( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (185) {G3,W2,D2,L1,V0,M1} R(95,184) { ! alpha20( n0 ) }.
% 1.59/2.05  parent0: (13384) {G1,W2,D2,L1,V0,M1}  { ! alpha20( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13385) {G1,W4,D2,L2,V1,M2}  { ! s1( X ), ! drugi( X ) }.
% 1.59/2.05  parent0[1]: (65) {G0,W4,D2,L2,V1,M1} I { ! s1( X ), ! s3( X ) }.
% 1.59/2.05  parent1[1]: (132) {G0,W4,D2,L2,V1,M1} I { ! drugi( X ), s3( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (210) {G1,W4,D2,L2,V1,M1} R(65,132) { ! drugi( X ), ! s1( X )
% 1.59/2.05     }.
% 1.59/2.05  parent0: (13385) {G1,W4,D2,L2,V1,M2}  { ! s1( X ), ! drugi( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13386) {G1,W2,D2,L1,V0,M1}  { ! drugi( n0 ) }.
% 1.59/2.05  parent0[1]: (210) {G1,W4,D2,L2,V1,M1} R(65,132) { ! drugi( X ), ! s1( X )
% 1.59/2.05     }.
% 1.59/2.05  parent1[0]: (162) {G0,W2,D2,L1,V0,M1} I { s1( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (211) {G2,W2,D2,L1,V0,M1} R(210,162) { ! drugi( n0 ) }.
% 1.59/2.05  parent0: (13386) {G1,W2,D2,L1,V0,M1}  { ! drugi( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13387) {G1,W4,D2,L2,V1,M2}  { ! uptakelg( X ), ! releaselg( X
% 1.59/2.05     ) }.
% 1.59/2.05  parent0[0]: (0) {G0,W3,D2,L1,V1,M1} I { ! gt( X, X ) }.
% 1.59/2.05  parent1[2]: (15) {G0,W7,D2,L3,V2,M1} I { ! uptakelg( X ), ! releaselg( X )
% 1.59/2.05    , gt( Y, X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (215) {G1,W4,D2,L2,V1,M1} R(15,0) { ! uptakelg( X ), ! 
% 1.59/2.05    releaselg( X ) }.
% 1.59/2.05  parent0: (13387) {G1,W4,D2,L2,V1,M2}  { ! uptakelg( X ), ! releaselg( X )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13388) {G1,W5,D3,L2,V2,M2}  { ! drugbg( skol3( Y ) ), ! 
% 1.59/2.05    releaselg( X ) }.
% 1.59/2.05  parent0[0]: (0) {G0,W3,D2,L1,V1,M1} I { ! gt( X, X ) }.
% 1.59/2.05  parent1[2]: (18) {G0,W8,D3,L3,V3,M1} I { ! drugbg( skol3( Y ) ), ! 
% 1.59/2.05    releaselg( Z ), gt( X, Z ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05     Z := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (237) {G1,W5,D3,L2,V2,M1} R(18,0) { ! releaselg( Y ), ! drugbg
% 1.59/2.05    ( skol3( X ) ) }.
% 1.59/2.05  parent0: (13388) {G1,W5,D3,L2,V2,M2}  { ! drugbg( skol3( Y ) ), ! releaselg
% 1.59/2.05    ( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13389) {G1,W8,D2,L4,V1,M4}  { conditionhyper( X ), ! alpha18( 
% 1.59/2.05    n0 ), uptakepg( X ), alpha14( n0 ) }.
% 1.59/2.05  parent0[1]: (163) {G0,W5,D2,L2,V1,M1} I { conditionhyper( X ), ! gt( n0, X
% 1.59/2.05     ) }.
% 1.59/2.05  parent1[3]: (44) {G0,W9,D2,L4,V2,M1} I { ! alpha18( X ), uptakepg( Y ), 
% 1.59/2.05    alpha14( X ), gt( X, Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (430) {G1,W8,D2,L4,V1,M1} R(44,163) { ! alpha18( n0 ), alpha14
% 1.59/2.05    ( n0 ), conditionhyper( X ), uptakepg( X ) }.
% 1.59/2.05  parent0: (13389) {G1,W8,D2,L4,V1,M4}  { conditionhyper( X ), ! alpha18( n0
% 1.59/2.05     ), uptakepg( X ), alpha14( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 2
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 3
% 1.59/2.05     3 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13390) {G1,W6,D2,L3,V1,M3}  { conditionhyper( X ), ! releaselg
% 1.59/2.05    ( X ), alpha18( n0 ) }.
% 1.59/2.05  parent0[1]: (163) {G0,W5,D2,L2,V1,M1} I { conditionhyper( X ), ! gt( n0, X
% 1.59/2.05     ) }.
% 1.59/2.05  parent1[2]: (47) {G0,W7,D2,L3,V2,M1} I { ! releaselg( Y ), alpha18( X ), gt
% 1.59/2.05    ( X, Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (493) {G1,W6,D2,L3,V1,M1} R(47,163) { alpha18( n0 ), 
% 1.59/2.05    conditionhyper( X ), ! releaselg( X ) }.
% 1.59/2.05  parent0: (13390) {G1,W6,D2,L3,V1,M3}  { conditionhyper( X ), ! releaselg( X
% 1.59/2.05     ), alpha18( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 2
% 1.59/2.05     2 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13391) {G1,W8,D2,L4,V2,M4}  { alpha6( X ), conditionhyper( Y )
% 1.59/2.05    , alpha6( X ), uptakepg( Y ) }.
% 1.59/2.05  parent0[2]: (70) {G0,W7,D2,L3,V2,M1} I { alpha6( X ), conditionhyper( Y ), 
% 1.59/2.05    ! gt( X, Y ) }.
% 1.59/2.05  parent1[2]: (68) {G0,W7,D2,L3,V2,M1} I { alpha6( X ), uptakepg( Y ), gt( X
% 1.59/2.05    , Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  factor: (13392) {G1,W6,D2,L3,V2,M3}  { alpha6( X ), conditionhyper( Y ), 
% 1.59/2.05    uptakepg( Y ) }.
% 1.59/2.05  parent0[0, 2]: (13391) {G1,W8,D2,L4,V2,M4}  { alpha6( X ), conditionhyper( 
% 1.59/2.05    Y ), alpha6( X ), uptakepg( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (649) {G1,W6,D2,L3,V2,M1} R(70,68);f { alpha6( X ), 
% 1.59/2.05    conditionhyper( Y ), uptakepg( Y ) }.
% 1.59/2.05  parent0: (13392) {G1,W6,D2,L3,V2,M3}  { alpha6( X ), conditionhyper( Y ), 
% 1.59/2.05    uptakepg( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05     2 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13393) {G1,W9,D3,L4,V1,M4}  { ! alpha14( X ), ! alpha25( X ), 
% 1.59/2.05    alpha28( X ), uptakepg( skol10( X ) ) }.
% 1.59/2.05  parent0[1]: (43) {G0,W6,D3,L2,V1,M1} I { ! alpha14( X ), ! gt( X, skol10( X
% 1.59/2.05     ) ) }.
% 1.59/2.05  parent1[3]: (85) {G0,W9,D2,L4,V2,M1} I { ! alpha25( X ), alpha28( X ), 
% 1.59/2.05    uptakepg( Y ), gt( X, Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := skol10( X )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (787) {G1,W9,D3,L4,V1,M1} R(85,43) { ! alpha25( X ), alpha28( 
% 1.59/2.05    X ), ! alpha14( X ), uptakepg( skol10( X ) ) }.
% 1.59/2.05  parent0: (13393) {G1,W9,D3,L4,V1,M4}  { ! alpha14( X ), ! alpha25( X ), 
% 1.59/2.05    alpha28( X ), uptakepg( skol10( X ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 2
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 1
% 1.59/2.05     3 ==> 3
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13394) {G1,W4,D2,L2,V0,M2}  { ! alpha17( n0 ), alpha21( n0 )
% 1.59/2.05     }.
% 1.59/2.05  parent0[0]: (176) {G2,W2,D2,L1,V0,M1} R(109,175) { ! alpha24( n0 ) }.
% 1.59/2.05  parent1[2]: (106) {G0,W6,D2,L3,V1,M1} I { ! alpha17( X ), alpha21( X ), 
% 1.59/2.05    alpha24( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (804) {G3,W4,D2,L2,V0,M1} R(106,176) { ! alpha17( n0 ), 
% 1.59/2.05    alpha21( n0 ) }.
% 1.59/2.05  parent0: (13394) {G1,W4,D2,L2,V0,M2}  { ! alpha17( n0 ), alpha21( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13395) {G1,W6,D2,L3,V1,M3}  { conditionhyper( X ), ! alpha28( 
% 1.59/2.05    n0 ), ! releaselg( X ) }.
% 1.59/2.05  parent0[1]: (163) {G0,W5,D2,L2,V1,M1} I { conditionhyper( X ), ! gt( n0, X
% 1.59/2.05     ) }.
% 1.59/2.05  parent1[2]: (89) {G0,W7,D2,L3,V2,M1} I { ! alpha28( X ), ! releaselg( Y ), 
% 1.59/2.05    gt( X, Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (843) {G1,W6,D2,L3,V1,M1} R(89,163) { ! alpha28( n0 ), 
% 1.59/2.05    conditionhyper( X ), ! releaselg( X ) }.
% 1.59/2.05  parent0: (13395) {G1,W6,D2,L3,V1,M3}  { conditionhyper( X ), ! alpha28( n0
% 1.59/2.05     ), ! releaselg( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13396) {G1,W4,D2,L2,V0,M2}  { ! alpha13( n0 ), alpha17( n0 )
% 1.59/2.05     }.
% 1.59/2.05  parent0[0]: (185) {G3,W2,D2,L1,V0,M1} R(95,184) { ! alpha20( n0 ) }.
% 1.59/2.05  parent1[2]: (92) {G0,W6,D2,L3,V1,M1} I { ! alpha13( X ), alpha17( X ), 
% 1.59/2.05    alpha20( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (888) {G4,W4,D2,L2,V0,M1} R(92,185) { ! alpha13( n0 ), alpha17
% 1.59/2.05    ( n0 ) }.
% 1.59/2.05  parent0: (13396) {G1,W4,D2,L2,V0,M2}  { ! alpha13( n0 ), alpha17( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13397) {G1,W5,D3,L2,V0,M2}  { ! alpha7( n0 ), conditionnormo( 
% 1.59/2.05    skol25( n0 ) ) }.
% 1.59/2.05  parent0[1]: (137) {G0,W6,D3,L2,V1,M1} I { ! alpha7( X ), ! gt( X, skol25( X
% 1.59/2.05     ) ) }.
% 1.59/2.05  parent1[1]: (166) {G0,W5,D2,L2,V1,M1} I { conditionnormo( X ), gt( n0, X )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := skol25( n0 )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1088) {G1,W5,D3,L2,V0,M1} R(137,166) { ! alpha7( n0 ), 
% 1.59/2.05    conditionnormo( skol25( n0 ) ) }.
% 1.59/2.05  parent0: (13397) {G1,W5,D3,L2,V0,M2}  { ! alpha7( n0 ), conditionnormo( 
% 1.59/2.05    skol25( n0 ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13398) {G1,W5,D3,L2,V0,M2}  { ! conditionhyper( skol25( n0 ) )
% 1.59/2.05    , ! alpha7( n0 ) }.
% 1.59/2.05  parent0[1]: (8) {G0,W4,D2,L2,V1,M1} I { ! conditionhyper( X ), ! 
% 1.59/2.05    conditionnormo( X ) }.
% 1.59/2.05  parent1[1]: (1088) {G1,W5,D3,L2,V0,M1} R(137,166) { ! alpha7( n0 ), 
% 1.59/2.05    conditionnormo( skol25( n0 ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := skol25( n0 )
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1101) {G2,W5,D3,L2,V0,M1} R(1088,8) { ! alpha7( n0 ), ! 
% 1.59/2.05    conditionhyper( skol25( n0 ) ) }.
% 1.59/2.05  parent0: (13398) {G1,W5,D3,L2,V0,M2}  { ! conditionhyper( skol25( n0 ) ), !
% 1.59/2.05     alpha7( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13399) {G1,W5,D3,L2,V0,M2}  { ! alpha21( n0 ), conditionnormo
% 1.59/2.05    ( skol23( n0 ) ) }.
% 1.59/2.05  parent0[1]: (121) {G0,W6,D3,L2,V1,M1} I { ! alpha21( X ), ! gt( X, skol23( 
% 1.59/2.05    X ) ) }.
% 1.59/2.05  parent1[1]: (166) {G0,W5,D2,L2,V1,M1} I { conditionnormo( X ), gt( n0, X )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := skol23( n0 )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1123) {G1,W5,D3,L2,V0,M1} R(121,166) { ! alpha21( n0 ), 
% 1.59/2.05    conditionnormo( skol23( n0 ) ) }.
% 1.59/2.05  parent0: (13399) {G1,W5,D3,L2,V0,M2}  { ! alpha21( n0 ), conditionnormo( 
% 1.59/2.05    skol23( n0 ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13400) {G1,W4,D2,L2,V1,M2}  { ! alpha21( X ), ! alpha21( n0 )
% 1.59/2.05     }.
% 1.59/2.05  parent0[1]: (120) {G0,W5,D3,L2,V2,M1} I { ! alpha21( X ), ! conditionnormo
% 1.59/2.05    ( skol23( Y ) ) }.
% 1.59/2.05  parent1[1]: (1123) {G1,W5,D3,L2,V0,M1} R(121,166) { ! alpha21( n0 ), 
% 1.59/2.05    conditionnormo( skol23( n0 ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := n0
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1136) {G2,W4,D2,L2,V1,M2} R(1123,120) { ! alpha21( X ), ! 
% 1.59/2.05    alpha21( n0 ) }.
% 1.59/2.05  parent0: (13400) {G1,W4,D2,L2,V1,M2}  { ! alpha21( X ), ! alpha21( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  factor: (13402) {G2,W2,D2,L1,V0,M1}  { ! alpha21( n0 ) }.
% 1.59/2.05  parent0[0, 1]: (1136) {G2,W4,D2,L2,V1,M2} R(1123,120) { ! alpha21( X ), ! 
% 1.59/2.05    alpha21( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1137) {G3,W2,D2,L1,V0,M1} F(1136) { ! alpha21( n0 ) }.
% 1.59/2.05  parent0: (13402) {G2,W2,D2,L1,V0,M1}  { ! alpha21( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13403) {G4,W2,D2,L1,V0,M1}  { ! alpha17( n0 ) }.
% 1.59/2.05  parent0[0]: (1137) {G3,W2,D2,L1,V0,M1} F(1136) { ! alpha21( n0 ) }.
% 1.59/2.05  parent1[1]: (804) {G3,W4,D2,L2,V0,M1} R(106,176) { ! alpha17( n0 ), alpha21
% 1.59/2.05    ( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1140) {G4,W2,D2,L1,V0,M1} R(1137,804) { ! alpha17( n0 ) }.
% 1.59/2.05  parent0: (13403) {G4,W2,D2,L1,V0,M1}  { ! alpha17( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13404) {G5,W2,D2,L1,V0,M1}  { ! alpha13( n0 ) }.
% 1.59/2.05  parent0[0]: (1140) {G4,W2,D2,L1,V0,M1} R(1137,804) { ! alpha17( n0 ) }.
% 1.59/2.05  parent1[1]: (888) {G4,W4,D2,L2,V0,M1} R(92,185) { ! alpha13( n0 ), alpha17
% 1.59/2.05    ( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1165) {G5,W2,D2,L1,V0,M1} R(1140,888) { ! alpha13( n0 ) }.
% 1.59/2.05  parent0: (13404) {G5,W2,D2,L1,V0,M1}  { ! alpha13( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13405) {G1,W4,D2,L2,V1,M2}  { alpha7( X ), drugi( X ) }.
% 1.59/2.05  parent0[0]: (0) {G0,W3,D2,L1,V1,M1} I { ! gt( X, X ) }.
% 1.59/2.05  parent1[2]: (133) {G0,W7,D2,L3,V2,M1} I { alpha7( X ), drugi( Y ), gt( X, Y
% 1.59/2.05     ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1415) {G1,W4,D2,L2,V1,M1} R(133,0) { alpha7( X ), drugi( X )
% 1.59/2.05     }.
% 1.59/2.05  parent0: (13405) {G1,W4,D2,L2,V1,M2}  { alpha7( X ), drugi( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13406) {G2,W2,D2,L1,V0,M1}  { alpha7( n0 ) }.
% 1.59/2.05  parent0[0]: (211) {G2,W2,D2,L1,V0,M1} R(210,162) { ! drugi( n0 ) }.
% 1.59/2.05  parent1[1]: (1415) {G1,W4,D2,L2,V1,M1} R(133,0) { alpha7( X ), drugi( X )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1421) {G3,W2,D2,L1,V0,M1} R(1415,211) { alpha7( n0 ) }.
% 1.59/2.05  parent0: (13406) {G2,W2,D2,L1,V0,M1}  { alpha7( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13407) {G1,W5,D3,L2,V2,M2}  { ! uptakepg( skol24( Y ) ), drugi
% 1.59/2.05    ( X ) }.
% 1.59/2.05  parent0[0]: (0) {G0,W3,D2,L1,V1,M1} I { ! gt( X, X ) }.
% 1.59/2.05  parent1[2]: (134) {G0,W8,D3,L3,V3,M1} I { ! uptakepg( skol24( Y ) ), drugi
% 1.59/2.05    ( Z ), gt( X, Z ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05     Z := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1457) {G1,W5,D3,L2,V2,M1} R(134,0) { drugi( Y ), ! uptakepg( 
% 1.59/2.05    skol24( X ) ) }.
% 1.59/2.05  parent0: (13407) {G1,W5,D3,L2,V2,M2}  { ! uptakepg( skol24( Y ) ), drugi( X
% 1.59/2.05     ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13408) {G1,W6,D3,L2,V1,M2}  { drugi( X ), ! gt( X, skol24( X )
% 1.59/2.05     ) }.
% 1.59/2.05  parent0[0]: (0) {G0,W3,D2,L1,V1,M1} I { ! gt( X, X ) }.
% 1.59/2.05  parent1[2]: (135) {G0,W9,D3,L3,V2,M2} I { drugi( Y ), ! gt( X, skol24( X )
% 1.59/2.05     ), gt( X, Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1521) {G1,W6,D3,L2,V1,M1} R(135,0) { drugi( X ), ! gt( X, 
% 1.59/2.05    skol24( X ) ) }.
% 1.59/2.05  parent0: (13408) {G1,W6,D3,L2,V1,M2}  { drugi( X ), ! gt( X, skol24( X ) )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13409) {G1,W4,D2,L2,V1,M2}  { uptakelg( X ), alpha7( X ) }.
% 1.59/2.05  parent0[0]: (0) {G0,W3,D2,L1,V1,M1} I { ! gt( X, X ) }.
% 1.59/2.05  parent1[2]: (138) {G0,W7,D2,L3,V2,M1} I { uptakelg( Y ), alpha7( X ), gt( X
% 1.59/2.05    , Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1560) {G1,W4,D2,L2,V1,M1} R(138,0) { alpha7( X ), uptakelg( X
% 1.59/2.05     ) }.
% 1.59/2.05  parent0: (13409) {G1,W4,D2,L2,V1,M2}  { uptakelg( X ), alpha7( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13411) {G1,W5,D3,L2,V2,M2}  { ! alpha7( X ), alpha7( skol25( Y
% 1.59/2.05     ) ) }.
% 1.59/2.05  parent0[1]: (136) {G0,W5,D3,L2,V2,M1} I { ! alpha7( X ), ! uptakelg( skol25
% 1.59/2.05    ( Y ) ) }.
% 1.59/2.05  parent1[1]: (1560) {G1,W4,D2,L2,V1,M1} R(138,0) { alpha7( X ), uptakelg( X
% 1.59/2.05     ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := skol25( Y )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1564) {G2,W5,D3,L2,V2,M2} R(1560,136) { ! alpha7( Y ), alpha7
% 1.59/2.05    ( skol25( X ) ) }.
% 1.59/2.05  parent0: (13411) {G1,W5,D3,L2,V2,M2}  { ! alpha7( X ), alpha7( skol25( Y )
% 1.59/2.05     ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13412) {G1,W4,D2,L2,V1,M2}  { releaselg( X ), uptakelg( X )
% 1.59/2.05     }.
% 1.59/2.05  parent0[0]: (0) {G0,W3,D2,L1,V1,M1} I { ! gt( X, X ) }.
% 1.59/2.05  parent1[2]: (139) {G0,W7,D2,L3,V2,M1} I { releaselg( X ), uptakelg( X ), gt
% 1.59/2.05    ( Y, X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1591) {G1,W4,D2,L2,V1,M1} R(139,0) { uptakelg( X ), releaselg
% 1.59/2.05    ( X ) }.
% 1.59/2.05  parent0: (13412) {G1,W4,D2,L2,V1,M2}  { releaselg( X ), uptakelg( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13413) {G2,W6,D2,L3,V1,M3}  { ! alpha28( n0 ), conditionhyper
% 1.59/2.05    ( X ), uptakelg( X ) }.
% 1.59/2.05  parent0[2]: (843) {G1,W6,D2,L3,V1,M1} R(89,163) { ! alpha28( n0 ), 
% 1.59/2.05    conditionhyper( X ), ! releaselg( X ) }.
% 1.59/2.05  parent1[1]: (1591) {G1,W4,D2,L2,V1,M1} R(139,0) { uptakelg( X ), releaselg
% 1.59/2.05    ( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1595) {G2,W6,D2,L3,V1,M1} R(1591,843) { ! alpha28( n0 ), 
% 1.59/2.05    conditionhyper( X ), uptakelg( X ) }.
% 1.59/2.05  parent0: (13413) {G2,W6,D2,L3,V1,M3}  { ! alpha28( n0 ), conditionhyper( X
% 1.59/2.05     ), uptakelg( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05     2 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13414) {G2,W6,D2,L3,V1,M3}  { alpha18( n0 ), conditionhyper( X
% 1.59/2.05     ), uptakelg( X ) }.
% 1.59/2.05  parent0[2]: (493) {G1,W6,D2,L3,V1,M1} R(47,163) { alpha18( n0 ), 
% 1.59/2.05    conditionhyper( X ), ! releaselg( X ) }.
% 1.59/2.05  parent1[1]: (1591) {G1,W4,D2,L2,V1,M1} R(139,0) { uptakelg( X ), releaselg
% 1.59/2.05    ( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1599) {G2,W6,D2,L3,V1,M1} R(1591,493) { alpha18( n0 ), 
% 1.59/2.05    conditionhyper( X ), uptakelg( X ) }.
% 1.59/2.05  parent0: (13414) {G2,W6,D2,L3,V1,M3}  { alpha18( n0 ), conditionhyper( X )
% 1.59/2.05    , uptakelg( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05     2 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13415) {G1,W5,D3,L2,V2,M2}  { releaselg( skol27( Y ) ), drugbg
% 1.59/2.05    ( X ) }.
% 1.59/2.05  parent0[0]: (0) {G0,W3,D2,L1,V1,M1} I { ! gt( X, X ) }.
% 1.59/2.05  parent1[2]: (145) {G0,W8,D3,L3,V3,M1} I { releaselg( skol27( Y ) ), drugbg
% 1.59/2.05    ( Z ), gt( X, Z ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05     Z := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1713) {G1,W5,D3,L2,V2,M1} R(145,0) { releaselg( skol27( X ) )
% 1.59/2.05    , drugbg( Y ) }.
% 1.59/2.05  parent0: (13415) {G1,W5,D3,L2,V2,M2}  { releaselg( skol27( Y ) ), drugbg( X
% 1.59/2.05     ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13417) {G2,W5,D3,L2,V2,M2}  { ! releaselg( X ), releaselg( 
% 1.59/2.05    skol27( Z ) ) }.
% 1.59/2.05  parent0[1]: (237) {G1,W5,D3,L2,V2,M1} R(18,0) { ! releaselg( Y ), ! drugbg
% 1.59/2.05    ( skol3( X ) ) }.
% 1.59/2.05  parent1[1]: (1713) {G1,W5,D3,L2,V2,M1} R(145,0) { releaselg( skol27( X ) )
% 1.59/2.05    , drugbg( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := Z
% 1.59/2.05     Y := skol3( Y )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1714) {G2,W5,D3,L2,V2,M2} R(1713,237) { ! releaselg( Y ), 
% 1.59/2.05    releaselg( skol27( X ) ) }.
% 1.59/2.05  parent0: (13417) {G2,W5,D3,L2,V2,M2}  { ! releaselg( X ), releaselg( skol27
% 1.59/2.05    ( Z ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := Z
% 1.59/2.05     Z := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13418) {G2,W5,D3,L2,V2,M2}  { releaselg( skol27( Y ) ), 
% 1.59/2.05    uptakelg( X ) }.
% 1.59/2.05  parent0[0]: (1714) {G2,W5,D3,L2,V2,M2} R(1713,237) { ! releaselg( Y ), 
% 1.59/2.05    releaselg( skol27( X ) ) }.
% 1.59/2.05  parent1[1]: (1591) {G1,W4,D2,L2,V1,M1} R(139,0) { uptakelg( X ), releaselg
% 1.59/2.05    ( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1715) {G3,W5,D3,L2,V2,M1} R(1714,1591) { uptakelg( Y ), 
% 1.59/2.05    releaselg( skol27( X ) ) }.
% 1.59/2.05  parent0: (13418) {G2,W5,D3,L2,V2,M2}  { releaselg( skol27( Y ) ), uptakelg
% 1.59/2.05    ( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13420) {G2,W5,D3,L2,V2,M2}  { ! uptakelg( skol27( X ) ), 
% 1.59/2.05    uptakelg( Y ) }.
% 1.59/2.05  parent0[1]: (215) {G1,W4,D2,L2,V1,M1} R(15,0) { ! uptakelg( X ), ! 
% 1.59/2.05    releaselg( X ) }.
% 1.59/2.05  parent1[1]: (1715) {G3,W5,D3,L2,V2,M1} R(1714,1591) { uptakelg( Y ), 
% 1.59/2.05    releaselg( skol27( X ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := skol27( X )
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (1733) {G4,W5,D3,L2,V2,M2} R(1715,215) { ! uptakelg( skol27( Y
% 1.59/2.05     ) ), uptakelg( X ) }.
% 1.59/2.05  parent0: (13420) {G2,W5,D3,L2,V2,M2}  { ! uptakelg( skol27( X ) ), uptakelg
% 1.59/2.05    ( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13421) {G3,W3,D3,L1,V0,M1}  { ! conditionhyper( skol25( n0 ) )
% 1.59/2.05     }.
% 1.59/2.05  parent0[0]: (1101) {G2,W5,D3,L2,V0,M1} R(1088,8) { ! alpha7( n0 ), ! 
% 1.59/2.05    conditionhyper( skol25( n0 ) ) }.
% 1.59/2.05  parent1[0]: (1421) {G3,W2,D2,L1,V0,M1} R(1415,211) { alpha7( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (2042) {G4,W3,D3,L1,V0,M1} S(1101);r(1421) { ! conditionhyper
% 1.59/2.05    ( skol25( n0 ) ) }.
% 1.59/2.05  parent0: (13421) {G3,W3,D3,L1,V0,M1}  { ! conditionhyper( skol25( n0 ) )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13422) {G2,W5,D3,L2,V2,M2}  { uptakelg( Y ), alpha7( skol27( X
% 1.59/2.05     ) ) }.
% 1.59/2.05  parent0[0]: (1733) {G4,W5,D3,L2,V2,M2} R(1715,215) { ! uptakelg( skol27( Y
% 1.59/2.05     ) ), uptakelg( X ) }.
% 1.59/2.05  parent1[1]: (1560) {G1,W4,D2,L2,V1,M1} R(138,0) { alpha7( X ), uptakelg( X
% 1.59/2.05     ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := skol27( X )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (2218) {G5,W5,D3,L2,V2,M1} R(1733,1560) { alpha7( skol27( Y )
% 1.59/2.05     ), uptakelg( X ) }.
% 1.59/2.05  parent0: (13422) {G2,W5,D3,L2,V2,M2}  { uptakelg( Y ), alpha7( skol27( X )
% 1.59/2.05     ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13424) {G1,W5,D3,L2,V2,M2}  { ! alpha7( X ), alpha7( skol27( Z
% 1.59/2.05     ) ) }.
% 1.59/2.05  parent0[1]: (136) {G0,W5,D3,L2,V2,M1} I { ! alpha7( X ), ! uptakelg( skol25
% 1.59/2.05    ( Y ) ) }.
% 1.59/2.05  parent1[1]: (2218) {G5,W5,D3,L2,V2,M1} R(1733,1560) { alpha7( skol27( Y ) )
% 1.59/2.05    , uptakelg( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := skol25( Y )
% 1.59/2.05     Y := Z
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (2231) {G6,W5,D3,L2,V2,M2} R(2218,136) { ! alpha7( Y ), alpha7
% 1.59/2.05    ( skol27( X ) ) }.
% 1.59/2.05  parent0: (13424) {G1,W5,D3,L2,V2,M2}  { ! alpha7( X ), alpha7( skol27( Z )
% 1.59/2.05     ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := Z
% 1.59/2.05     Z := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13425) {G4,W3,D3,L1,V1,M1}  { alpha7( skol27( X ) ) }.
% 1.59/2.05  parent0[0]: (2231) {G6,W5,D3,L2,V2,M2} R(2218,136) { ! alpha7( Y ), alpha7
% 1.59/2.05    ( skol27( X ) ) }.
% 1.59/2.05  parent1[0]: (1421) {G3,W2,D2,L1,V0,M1} R(1415,211) { alpha7( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := n0
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (2232) {G7,W3,D3,L1,V1,M1} R(2231,1421) { alpha7( skol27( X )
% 1.59/2.05     ) }.
% 1.59/2.05  parent0: (13425) {G4,W3,D3,L1,V1,M1}  { alpha7( skol27( X ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13426) {G3,W3,D3,L1,V1,M1}  { alpha7( skol25( Y ) ) }.
% 1.59/2.05  parent0[0]: (1564) {G2,W5,D3,L2,V2,M2} R(1560,136) { ! alpha7( Y ), alpha7
% 1.59/2.05    ( skol25( X ) ) }.
% 1.59/2.05  parent1[0]: (2232) {G7,W3,D3,L1,V1,M1} R(2231,1421) { alpha7( skol27( X ) )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := skol27( X )
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (2794) {G8,W3,D3,L1,V1,M1} R(1564,2232) { alpha7( skol25( X )
% 1.59/2.05     ) }.
% 1.59/2.05  parent0: (13426) {G3,W3,D3,L1,V1,M1}  { alpha7( skol25( Y ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13427) {G2,W7,D3,L3,V3,M3}  { drugi( X ), alpha6( Z ), 
% 1.59/2.05    conditionhyper( skol24( Y ) ) }.
% 1.59/2.05  parent0[1]: (1457) {G1,W5,D3,L2,V2,M1} R(134,0) { drugi( Y ), ! uptakepg( 
% 1.59/2.05    skol24( X ) ) }.
% 1.59/2.05  parent1[2]: (649) {G1,W6,D2,L3,V2,M1} R(70,68);f { alpha6( X ), 
% 1.59/2.05    conditionhyper( Y ), uptakepg( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := Z
% 1.59/2.05     Y := skol24( Y )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (2892) {G2,W7,D3,L3,V3,M1} R(1457,649) { alpha6( Y ), 
% 1.59/2.05    conditionhyper( skol24( Z ) ), drugi( X ) }.
% 1.59/2.05  parent0: (13427) {G2,W7,D3,L3,V3,M3}  { drugi( X ), alpha6( Z ), 
% 1.59/2.05    conditionhyper( skol24( Y ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Z
% 1.59/2.05     Z := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 2
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13428) {G1,W7,D3,L3,V2,M3}  { ! alpha7( X ), ! alpha28( n0 ), 
% 1.59/2.05    conditionhyper( skol25( Y ) ) }.
% 1.59/2.05  parent0[1]: (136) {G0,W5,D3,L2,V2,M1} I { ! alpha7( X ), ! uptakelg( skol25
% 1.59/2.05    ( Y ) ) }.
% 1.59/2.05  parent1[2]: (1595) {G2,W6,D2,L3,V1,M1} R(1591,843) { ! alpha28( n0 ), 
% 1.59/2.05    conditionhyper( X ), uptakelg( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := skol25( Y )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (3168) {G3,W7,D3,L3,V2,M1} R(1595,136) { ! alpha28( n0 ), ! 
% 1.59/2.05    alpha7( Y ), conditionhyper( skol25( X ) ) }.
% 1.59/2.05  parent0: (13428) {G1,W7,D3,L3,V2,M3}  { ! alpha7( X ), ! alpha28( n0 ), 
% 1.59/2.05    conditionhyper( skol25( Y ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13429) {G1,W7,D3,L3,V2,M3}  { ! alpha7( X ), alpha18( n0 ), 
% 1.59/2.05    conditionhyper( skol25( Y ) ) }.
% 1.59/2.05  parent0[1]: (136) {G0,W5,D3,L2,V2,M1} I { ! alpha7( X ), ! uptakelg( skol25
% 1.59/2.05    ( Y ) ) }.
% 1.59/2.05  parent1[2]: (1599) {G2,W6,D2,L3,V1,M1} R(1591,493) { alpha18( n0 ), 
% 1.59/2.05    conditionhyper( X ), uptakelg( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := skol25( Y )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (3204) {G3,W7,D3,L3,V2,M1} R(1599,136) { alpha18( n0 ), ! 
% 1.59/2.05    alpha7( Y ), conditionhyper( skol25( X ) ) }.
% 1.59/2.05  parent0: (13429) {G1,W7,D3,L3,V2,M3}  { ! alpha7( X ), alpha18( n0 ), 
% 1.59/2.05    conditionhyper( skol25( Y ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13430) {G1,W5,D3,L2,V0,M2}  { drugi( n0 ), conditionnormo( 
% 1.59/2.05    skol24( n0 ) ) }.
% 1.59/2.05  parent0[1]: (1521) {G1,W6,D3,L2,V1,M1} R(135,0) { drugi( X ), ! gt( X, 
% 1.59/2.05    skol24( X ) ) }.
% 1.59/2.05  parent1[1]: (166) {G0,W5,D2,L2,V1,M1} I { conditionnormo( X ), gt( n0, X )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := skol24( n0 )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13431) {G2,W3,D3,L1,V0,M1}  { conditionnormo( skol24( n0 ) )
% 1.59/2.05     }.
% 1.59/2.05  parent0[0]: (211) {G2,W2,D2,L1,V0,M1} R(210,162) { ! drugi( n0 ) }.
% 1.59/2.05  parent1[0]: (13430) {G1,W5,D3,L2,V0,M2}  { drugi( n0 ), conditionnormo( 
% 1.59/2.05    skol24( n0 ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (3387) {G3,W3,D3,L1,V0,M1} R(1521,166);r(211) { conditionnormo
% 1.59/2.05    ( skol24( n0 ) ) }.
% 1.59/2.05  parent0: (13431) {G2,W3,D3,L1,V0,M1}  { conditionnormo( skol24( n0 ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13432) {G1,W3,D3,L1,V0,M1}  { ! conditionhyper( skol24( n0 ) )
% 1.59/2.05     }.
% 1.59/2.05  parent0[1]: (8) {G0,W4,D2,L2,V1,M1} I { ! conditionhyper( X ), ! 
% 1.59/2.05    conditionnormo( X ) }.
% 1.59/2.05  parent1[0]: (3387) {G3,W3,D3,L1,V0,M1} R(1521,166);r(211) { conditionnormo
% 1.59/2.05    ( skol24( n0 ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := skol24( n0 )
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (3397) {G4,W3,D3,L1,V0,M1} R(3387,8) { ! conditionhyper( 
% 1.59/2.05    skol24( n0 ) ) }.
% 1.59/2.05  parent0: (13432) {G1,W3,D3,L1,V0,M1}  { ! conditionhyper( skol24( n0 ) )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13433) {G3,W5,D3,L2,V2,M2}  { alpha6( X ), conditionhyper( 
% 1.59/2.05    skol24( Y ) ) }.
% 1.59/2.05  parent0[0]: (211) {G2,W2,D2,L1,V0,M1} R(210,162) { ! drugi( n0 ) }.
% 1.59/2.05  parent1[2]: (2892) {G2,W7,D3,L3,V3,M1} R(1457,649) { alpha6( Y ), 
% 1.59/2.05    conditionhyper( skol24( Z ) ), drugi( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05     Y := X
% 1.59/2.05     Z := Y
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (4242) {G3,W5,D3,L2,V2,M1} R(2892,211) { alpha6( X ), 
% 1.59/2.05    conditionhyper( skol24( Y ) ) }.
% 1.59/2.05  parent0: (13433) {G3,W5,D3,L2,V2,M2}  { alpha6( X ), conditionhyper( skol24
% 1.59/2.05    ( Y ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13434) {G4,W2,D2,L1,V1,M1}  { alpha6( X ) }.
% 1.59/2.05  parent0[0]: (3397) {G4,W3,D3,L1,V0,M1} R(3387,8) { ! conditionhyper( skol24
% 1.59/2.05    ( n0 ) ) }.
% 1.59/2.05  parent1[1]: (4242) {G3,W5,D3,L2,V2,M1} R(2892,211) { alpha6( X ), 
% 1.59/2.05    conditionhyper( skol24( Y ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (4332) {G5,W2,D2,L1,V1,M1} R(4242,3397) { alpha6( X ) }.
% 1.59/2.05  parent0: (13434) {G4,W2,D2,L1,V1,M1}  { alpha6( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13435) {G1,W4,D2,L2,V1,M2}  { alpha13( X ), alpha16( X ) }.
% 1.59/2.05  parent0[2]: (71) {G0,W6,D2,L3,V1,M1} I { alpha13( X ), alpha16( X ), ! 
% 1.59/2.05    alpha6( X ) }.
% 1.59/2.05  parent1[0]: (4332) {G5,W2,D2,L1,V1,M1} R(4242,3397) { alpha6( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (4333) {G6,W4,D2,L2,V1,M1} R(4332,71) { alpha13( X ), alpha16
% 1.59/2.05    ( X ) }.
% 1.59/2.05  parent0: (13435) {G1,W4,D2,L2,V1,M2}  { alpha13( X ), alpha16( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13436) {G4,W4,D2,L2,V1,M2}  { alpha18( n0 ), ! alpha7( X ) }.
% 1.59/2.05  parent0[0]: (2042) {G4,W3,D3,L1,V0,M1} S(1101);r(1421) { ! conditionhyper( 
% 1.59/2.05    skol25( n0 ) ) }.
% 1.59/2.05  parent1[2]: (3204) {G3,W7,D3,L3,V2,M1} R(1599,136) { alpha18( n0 ), ! 
% 1.59/2.05    alpha7( Y ), conditionhyper( skol25( X ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (4531) {G5,W4,D2,L2,V1,M1} R(3204,2042) { alpha18( n0 ), ! 
% 1.59/2.05    alpha7( X ) }.
% 1.59/2.05  parent0: (13436) {G4,W4,D2,L2,V1,M2}  { alpha18( n0 ), ! alpha7( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13437) {G6,W2,D2,L1,V0,M1}  { alpha18( n0 ) }.
% 1.59/2.05  parent0[1]: (4531) {G5,W4,D2,L2,V1,M1} R(3204,2042) { alpha18( n0 ), ! 
% 1.59/2.05    alpha7( X ) }.
% 1.59/2.05  parent1[0]: (2794) {G8,W3,D3,L1,V1,M1} R(1564,2232) { alpha7( skol25( X ) )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := skol25( X )
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (4537) {G9,W2,D2,L1,V0,M1} R(4531,2794) { alpha18( n0 ) }.
% 1.59/2.05  parent0: (13437) {G6,W2,D2,L1,V0,M1}  { alpha18( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13438) {G4,W4,D2,L2,V1,M2}  { ! alpha28( n0 ), ! alpha7( X )
% 1.59/2.05     }.
% 1.59/2.05  parent0[0]: (2042) {G4,W3,D3,L1,V0,M1} S(1101);r(1421) { ! conditionhyper( 
% 1.59/2.05    skol25( n0 ) ) }.
% 1.59/2.05  parent1[2]: (3168) {G3,W7,D3,L3,V2,M1} R(1595,136) { ! alpha28( n0 ), ! 
% 1.59/2.05    alpha7( Y ), conditionhyper( skol25( X ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (4650) {G5,W4,D2,L2,V1,M1} R(3168,2042) { ! alpha28( n0 ), ! 
% 1.59/2.05    alpha7( X ) }.
% 1.59/2.05  parent0: (13438) {G4,W4,D2,L2,V1,M2}  { ! alpha28( n0 ), ! alpha7( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13439) {G6,W2,D2,L1,V0,M1}  { ! alpha28( n0 ) }.
% 1.59/2.05  parent0[1]: (4650) {G5,W4,D2,L2,V1,M1} R(3168,2042) { ! alpha28( n0 ), ! 
% 1.59/2.05    alpha7( X ) }.
% 1.59/2.05  parent1[0]: (2794) {G8,W3,D3,L1,V1,M1} R(1564,2232) { alpha7( skol25( X ) )
% 1.59/2.05     }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := skol25( X )
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (4656) {G9,W2,D2,L1,V0,M1} R(4650,2794) { ! alpha28( n0 ) }.
% 1.59/2.05  parent0: (13439) {G6,W2,D2,L1,V0,M1}  { ! alpha28( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13440) {G2,W6,D2,L3,V1,M3}  { alpha14( n0 ), conditionhyper( X
% 1.59/2.05     ), uptakepg( X ) }.
% 1.59/2.05  parent0[0]: (430) {G1,W8,D2,L4,V1,M1} R(44,163) { ! alpha18( n0 ), alpha14
% 1.59/2.05    ( n0 ), conditionhyper( X ), uptakepg( X ) }.
% 1.59/2.05  parent1[0]: (4537) {G9,W2,D2,L1,V0,M1} R(4531,2794) { alpha18( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (8008) {G10,W6,D2,L3,V1,M1} S(430);r(4537) { alpha14( n0 ), 
% 1.59/2.05    conditionhyper( X ), uptakepg( X ) }.
% 1.59/2.05  parent0: (13440) {G2,W6,D2,L3,V1,M3}  { alpha14( n0 ), conditionhyper( X )
% 1.59/2.05    , uptakepg( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05     2 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13441) {G2,W7,D3,L3,V2,M3}  { drugi( X ), alpha14( n0 ), 
% 1.59/2.05    conditionhyper( skol24( Y ) ) }.
% 1.59/2.05  parent0[1]: (1457) {G1,W5,D3,L2,V2,M1} R(134,0) { drugi( Y ), ! uptakepg( 
% 1.59/2.05    skol24( X ) ) }.
% 1.59/2.05  parent1[2]: (8008) {G10,W6,D2,L3,V1,M1} S(430);r(4537) { alpha14( n0 ), 
% 1.59/2.05    conditionhyper( X ), uptakepg( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := skol24( Y )
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (8009) {G11,W7,D3,L3,V2,M1} R(8008,1457) { alpha14( n0 ), 
% 1.59/2.05    conditionhyper( skol24( X ) ), drugi( Y ) }.
% 1.59/2.05  parent0: (13441) {G2,W7,D3,L3,V2,M3}  { drugi( X ), alpha14( n0 ), 
% 1.59/2.05    conditionhyper( skol24( Y ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := Y
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 2
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13442) {G3,W5,D3,L2,V1,M2}  { alpha14( n0 ), conditionhyper( 
% 1.59/2.05    skol24( X ) ) }.
% 1.59/2.05  parent0[0]: (211) {G2,W2,D2,L1,V0,M1} R(210,162) { ! drugi( n0 ) }.
% 1.59/2.05  parent1[2]: (8009) {G11,W7,D3,L3,V2,M1} R(8008,1457) { alpha14( n0 ), 
% 1.59/2.05    conditionhyper( skol24( X ) ), drugi( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := X
% 1.59/2.05     Y := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (8014) {G12,W5,D3,L2,V1,M1} R(8009,211) { alpha14( n0 ), 
% 1.59/2.05    conditionhyper( skol24( X ) ) }.
% 1.59/2.05  parent0: (13442) {G3,W5,D3,L2,V1,M2}  { alpha14( n0 ), conditionhyper( 
% 1.59/2.05    skol24( X ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05     1 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13443) {G5,W2,D2,L1,V0,M1}  { alpha14( n0 ) }.
% 1.59/2.05  parent0[0]: (3397) {G4,W3,D3,L1,V0,M1} R(3387,8) { ! conditionhyper( skol24
% 1.59/2.05    ( n0 ) ) }.
% 1.59/2.05  parent1[1]: (8014) {G12,W5,D3,L2,V1,M1} R(8009,211) { alpha14( n0 ), 
% 1.59/2.05    conditionhyper( skol24( X ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (8016) {G13,W2,D2,L1,V0,M1} R(8014,3397) { alpha14( n0 ) }.
% 1.59/2.05  parent0: (13443) {G5,W2,D2,L1,V0,M1}  { alpha14( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13444) {G1,W8,D2,L4,V2,M4}  { ! alpha14( X ), ! alpha25( Y ), 
% 1.59/2.05    alpha28( Y ), ! alpha14( Y ) }.
% 1.59/2.05  parent0[1]: (42) {G0,W5,D3,L2,V2,M1} I { ! alpha14( X ), ! uptakepg( skol10
% 1.59/2.05    ( Y ) ) }.
% 1.59/2.05  parent1[3]: (787) {G1,W9,D3,L4,V1,M1} R(85,43) { ! alpha25( X ), alpha28( X
% 1.59/2.05     ), ! alpha14( X ), uptakepg( skol10( X ) ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := Y
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := Y
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (13005) {G2,W8,D2,L4,V2,M1} R(787,42) { ! alpha25( X ), ! 
% 1.59/2.05    alpha14( X ), ! alpha14( Y ), alpha28( X ) }.
% 1.59/2.05  parent0: (13444) {G1,W8,D2,L4,V2,M4}  { ! alpha14( X ), ! alpha25( Y ), 
% 1.59/2.05    alpha28( Y ), ! alpha14( Y ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 3
% 1.59/2.05     3 ==> 1
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  factor: (13446) {G2,W6,D2,L3,V1,M3}  { ! alpha25( X ), ! alpha14( X ), 
% 1.59/2.05    alpha28( X ) }.
% 1.59/2.05  parent0[1, 2]: (13005) {G2,W8,D2,L4,V2,M1} R(787,42) { ! alpha25( X ), ! 
% 1.59/2.05    alpha14( X ), ! alpha14( Y ), alpha28( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05     Y := X
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (13006) {G3,W6,D2,L3,V1,M1} F(13005) { ! alpha14( X ), ! 
% 1.59/2.05    alpha25( X ), alpha28( X ) }.
% 1.59/2.05  parent0: (13446) {G2,W6,D2,L3,V1,M3}  { ! alpha25( X ), ! alpha14( X ), 
% 1.59/2.05    alpha28( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05     X := X
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 1
% 1.59/2.05     1 ==> 0
% 1.59/2.05     2 ==> 2
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13447) {G4,W4,D2,L2,V0,M2}  { ! alpha14( n0 ), ! alpha25( n0 )
% 1.59/2.05     }.
% 1.59/2.05  parent0[0]: (4656) {G9,W2,D2,L1,V0,M1} R(4650,2794) { ! alpha28( n0 ) }.
% 1.59/2.05  parent1[2]: (13006) {G3,W6,D2,L3,V1,M1} F(13005) { ! alpha14( X ), ! 
% 1.59/2.05    alpha25( X ), alpha28( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13448) {G5,W2,D2,L1,V0,M1}  { ! alpha25( n0 ) }.
% 1.59/2.05  parent0[0]: (13447) {G4,W4,D2,L2,V0,M2}  { ! alpha14( n0 ), ! alpha25( n0 )
% 1.59/2.05     }.
% 1.59/2.05  parent1[0]: (8016) {G13,W2,D2,L1,V0,M1} R(8014,3397) { alpha14( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (13010) {G14,W2,D2,L1,V0,M1} R(13006,4656);r(8016) { ! alpha25
% 1.59/2.05    ( n0 ) }.
% 1.59/2.05  parent0: (13448) {G5,W2,D2,L1,V0,M1}  { ! alpha25( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13449) {G1,W2,D2,L1,V0,M1}  { ! alpha22( n0 ) }.
% 1.59/2.05  parent0[0]: (13010) {G14,W2,D2,L1,V0,M1} R(13006,4656);r(8016) { ! alpha25
% 1.59/2.05    ( n0 ) }.
% 1.59/2.05  parent1[1]: (82) {G0,W4,D2,L2,V1,M1} I { ! alpha22( X ), alpha25( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (13014) {G15,W2,D2,L1,V0,M1} R(13010,82) { ! alpha22( n0 ) }.
% 1.59/2.05  parent0: (13449) {G1,W2,D2,L1,V0,M1}  { ! alpha22( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13450) {G1,W2,D2,L1,V0,M1}  { ! alpha19( n0 ) }.
% 1.59/2.05  parent0[0]: (13014) {G15,W2,D2,L1,V0,M1} R(13010,82) { ! alpha22( n0 ) }.
% 1.59/2.05  parent1[1]: (78) {G0,W4,D2,L2,V1,M1} I { ! alpha19( X ), alpha22( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (13015) {G16,W2,D2,L1,V0,M1} R(13014,78) { ! alpha19( n0 ) }.
% 1.59/2.05  parent0: (13450) {G1,W2,D2,L1,V0,M1}  { ! alpha19( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13451) {G1,W2,D2,L1,V0,M1}  { ! alpha16( n0 ) }.
% 1.59/2.05  parent0[0]: (13015) {G16,W2,D2,L1,V0,M1} R(13014,78) { ! alpha19( n0 ) }.
% 1.59/2.05  parent1[1]: (74) {G0,W4,D2,L2,V1,M1} I { ! alpha16( X ), alpha19( X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (13016) {G17,W2,D2,L1,V0,M1} R(13015,74) { ! alpha16( n0 ) }.
% 1.59/2.05  parent0: (13451) {G1,W2,D2,L1,V0,M1}  { ! alpha16( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05     0 ==> 0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13452) {G7,W2,D2,L1,V0,M1}  { alpha13( n0 ) }.
% 1.59/2.05  parent0[0]: (13016) {G17,W2,D2,L1,V0,M1} R(13015,74) { ! alpha16( n0 ) }.
% 1.59/2.05  parent1[1]: (4333) {G6,W4,D2,L2,V1,M1} R(4332,71) { alpha13( X ), alpha16( 
% 1.59/2.05    X ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05     X := n0
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  resolution: (13453) {G6,W0,D0,L0,V0,M0}  {  }.
% 1.59/2.05  parent0[0]: (1165) {G5,W2,D2,L1,V0,M1} R(1140,888) { ! alpha13( n0 ) }.
% 1.59/2.05  parent1[0]: (13452) {G7,W2,D2,L1,V0,M1}  { alpha13( n0 ) }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  substitution1:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  subsumption: (13017) {G18,W0,D0,L0,V0,M0} R(13016,4333);r(1165) {  }.
% 1.59/2.05  parent0: (13453) {G6,W0,D0,L0,V0,M0}  {  }.
% 1.59/2.05  substitution0:
% 1.59/2.05  end
% 1.59/2.05  permutation0:
% 1.59/2.05  end
% 1.59/2.05  
% 1.59/2.05  Proof check complete!
% 1.59/2.05  
% 1.59/2.05  Memory use:
% 1.59/2.05  
% 1.59/2.05  space for terms:        169362
% 1.59/2.05  space for clauses:      457037
% 1.59/2.05  
% 1.59/2.05  
% 1.59/2.05  clauses generated:      44056
% 1.59/2.05  clauses kept:           13018
% 1.59/2.05  clauses selected:       2177
% 1.59/2.05  clauses deleted:        657
% 1.59/2.05  clauses inuse deleted:  402
% 1.59/2.05  
% 1.59/2.05  subsentry:          156175
% 1.59/2.05  literals s-matched: 134952
% 1.59/2.05  literals matched:   134944
% 1.59/2.05  full subsumption:   30192
% 1.59/2.05  
% 1.59/2.05  checksum:           -516173571
% 1.59/2.05  
% 1.59/2.05  
% 1.59/2.05  Bliksem ended
%------------------------------------------------------------------------------