0.00/0.00	% File    : /export/starexec/sandbox/benchmark/theBenchmark.p
0.00/0.00	% app-encoded or not : original
0.00/0.00	% Variant    : supatvars_int
0.00/0.00	% Ordering    : kbo
0.00/0.00	% Command    : 
0.00/0.00	#!/bin/sh
0.00/0.00	
0.00/0.00	./zipperposition.native ${1:+"$1"} \
0.00/0.00	  -i tptp \
0.00/0.00	  -o tptp \
0.00/0.00	  --timeout "$STAREXEC_WALLCLOCK_LIMIT" \
0.00/0.00	  --mem-limit "$STAREXEC_MAX_MEM" \
0.00/0.00	  --no-avatar \
0.00/0.00	  --ho \
0.00/0.00	  --force-ho \
0.00/0.00	  --no-ho-elim-pred-var \
0.00/0.00	  --ho-general-ext-pos \
0.00/0.00	  --no-ho-unif \
0.00/0.00	  --no-induction \
0.00/0.00	  --no-unif-pattern \
0.00/0.00	  --ord $2  \
0.00/0.00	  --simultaneous-sup false \
0.00/0.00	  --sup-at-vars \
0.00/0.00	  --ho-no-ext-pos \
0.00/0.00	  --ho-no-ext-neg \
0.00/0.00	  --ho-prim-enum none \
0.00/0.00	  --no-max-vars \
0.00/0.00	  --dont-select-ho-var-lits \
0.00/0.00	  --no-fool
0.00/0.19	% Computer   : n035.star.cs.uiowa.edu
0.00/0.19	% Model      : x86_64 x86_64
0.00/0.19	% CPU        : Intel(R) Xeon(R) CPU E5-2609 0 @ 2.40GHz
0.00/0.19	% Memory     : 32218.625MB
0.00/0.19	% OS         : Linux 3.10.0-693.2.2.el7.x86_64
0.00/0.19	% CPULimit   : 300
0.00/0.19	% DateTime   : Fri Feb  2 09:52:54 CST 2018
1.82/2.05	% done 1858 iterations in 1.851s
1.82/2.05	% SZS status Theorem for '/export/starexec/sandbox/benchmark/theBenchmark.p'
1.82/2.05	% SZS output start Refutation
1.82/2.05	tff(conj_0, conjecture,
1.82/2.05	  (power_power(complex,
1.82/2.05	               inverse_divide(complex,v,
1.82/2.05	                              of_real(complex,root(na,norm_norm(complex,b)))),
1.82/2.05	               na) =
1.82/2.05	   inverse_divide(complex,power_power(complex,v,na),
1.82/2.05	                  of_real(complex,norm_norm(complex,b))))).
1.82/2.05	tff(zf_stmt_0, negated_conjecture,
1.82/2.05	  (power_power(complex,
1.82/2.05	               inverse_divide(complex,v,
1.82/2.05	                              of_real(complex,root(na,norm_norm(complex,b)))),
1.82/2.05	               na) !=
1.82/2.05	   inverse_divide(complex,power_power(complex,v,na),
1.82/2.05	                  of_real(complex,norm_norm(complex,b))))).
1.82/2.05	tff('0', plain,
1.82/2.05	    power_power(complex, 
1.82/2.05	      inverse_divide(complex, v, 
1.82/2.05	        of_real(complex, root(na, norm_norm(complex, b)))), na)
1.82/2.05	     != inverse_divide(complex, power_power(complex, v, na), 
1.82/2.05	          of_real(complex, norm_norm(complex, b))),
1.82/2.05	    inference('cnf', [status(esa)], [zf_stmt_0])).
1.82/2.05	tff(fact_0__096root_An_A_Icmod_Ab_J_A_094_An_A_061_Acmod_Ab_096, axiom,
1.82/2.05	  (power_power(real,root(na,norm_norm(complex,b)),na) = norm_norm(complex,b))).
1.82/2.05	tff('1', plain,
1.82/2.05	    power_power(real, root(na, norm_norm(complex, b)), na)
1.82/2.05	     = norm_norm(complex, b),
1.82/2.05	    inference('cnf', [status(esa)],
1.82/2.05	              [fact_0__096root_An_A_Icmod_Ab_J_A_094_An_A_061_Acmod_Ab_096])).
1.82/2.05	tff(fact_8_complex__of__real__power, axiom,
1.82/2.05	  (![N:nat,X1:real]:
1.82/2.05	     (power_power(complex,of_real(complex,X1),N) =
1.82/2.05	      of_real(complex,power_power(real,X1,N))))).
1.82/2.05	tff('2', plain,
1.82/2.05	    ![X6 : real, X7 : nat]:
1.82/2.05	      power_power(complex, of_real(complex, X6), X7)
1.82/2.05	       = of_real(complex, power_power(real, X6, X7)),
1.82/2.05	    inference('cnf', [status(esa)], [fact_8_complex__of__real__power])).
1.82/2.05	tff('3', plain,
1.82/2.05	    power_power(complex, of_real(complex, root(na, norm_norm(complex, b))), 
1.82/2.05	      na)
1.82/2.05	     = of_real(complex, norm_norm(complex, b)),
1.82/2.05	    inference('sup+', [status(thm)], ['1', '2'])).
1.82/2.05	tff(fact_13_power__divide, axiom,
1.82/2.05	  (![A:$tType]:
1.82/2.05	     (field_inverse_zero(A) =>
1.82/2.05	      (![N:nat,B:A,A1:A]:
1.82/2.05	         (power_power(A,inverse_divide(A,A1,B),N) =
1.82/2.05	          inverse_divide(A,power_power(A,A1,N),power_power(A,B,N))))))).
1.82/2.05	tff('4', plain,
1.82/2.05	    ![X18 : $tType, X19 : X18, X20 : nat, X21 : X18]:
1.82/2.05	      (power_power(X18, inverse_divide(X18, X19, X21), X20)
1.82/2.05	        = inverse_divide(X18, power_power(X18, X19, X20), 
1.82/2.05	            power_power(X18, X21, X20))
1.82/2.05	       | ~ field_inverse_zero(X18)),
1.82/2.05	    inference('cnf', [status(esa)], [fact_13_power__divide])).
1.82/2.05	tff('5', plain,
1.82/2.05	    ![X0 : complex]:
1.82/2.05	      (power_power(complex, 
1.82/2.05	         inverse_divide(complex, X0, 
1.82/2.05	           of_real(complex, root(na, norm_norm(complex, b)))), na)
1.82/2.05	        = inverse_divide(complex, power_power(complex, X0, na), 
1.82/2.05	            of_real(complex, norm_norm(complex, b)))
1.82/2.05	       | ~ field_inverse_zero(complex)),
1.82/2.05	    inference('sup+', [status(thm)], ['3', '4'])).
1.82/2.05	tff(arity_Complex_Ocomplex___Fields_Ofield__inverse__zero, axiom,
1.82/2.05	  (field_inverse_zero(complex))).
1.82/2.05	tff('6', plain, field_inverse_zero(complex),
1.82/2.05	    inference('cnf', [status(esa)],
1.82/2.05	              [arity_Complex_Ocomplex___Fields_Ofield__inverse__zero])).
1.82/2.05	tff('7', plain,
1.82/2.05	    ![X0 : complex]:
1.82/2.05	      (power_power(complex, 
1.82/2.05	         inverse_divide(complex, X0, 
1.82/2.05	           of_real(complex, root(na, norm_norm(complex, b)))), na)
1.82/2.05	        = inverse_divide(complex, power_power(complex, X0, na), 
1.82/2.05	            of_real(complex, norm_norm(complex, b)))
1.82/2.05	       | ~ $true),
1.82/2.05	    inference('demod', [status(thm)], ['5', '6'])).
1.82/2.05	tff('8', plain,
1.82/2.05	    ![X0 : complex]:
1.82/2.05	      power_power(complex, 
1.82/2.05	        inverse_divide(complex, X0, 
1.82/2.05	          of_real(complex, root(na, norm_norm(complex, b)))), na)
1.82/2.05	       = inverse_divide(complex, power_power(complex, X0, na), 
1.82/2.05	           of_real(complex, norm_norm(complex, b))),
1.82/2.05	    inference('simplify', [status(thm)], ['7'])).
1.82/2.05	tff('9', plain,
1.82/2.05	    inverse_divide(complex, power_power(complex, v, na), 
1.82/2.05	      of_real(complex, norm_norm(complex, b)))
1.82/2.05	     != inverse_divide(complex, power_power(complex, v, na), 
1.82/2.05	          of_real(complex, norm_norm(complex, b))),
1.82/2.05	    inference('demod', [status(thm)], ['0', '8'])).
1.82/2.05	tff('10', plain, $false, inference('simplify', [status(thm)], ['9'])).
1.82/2.05	
1.82/2.05	% SZS output end Refutation
1.82/2.06	EOF
