%------------------------------------------------------------------------------
% File     : ANA121^1 : TPTP v9.0.0. Released v7.0.0.
% Domain   : Analysis
% Problem  : REAL_POLYFUN_EQ_0
% Version  : Especial.
% English  :

% Refs     : [Kal16] Kalisyk (2016), Email to Geoff Sutcliffe
% Source   : [Kal16]
% Names    : REAL_POLYFUN_EQ_0_.p [Kal16]

% Status   : Theorem
% Rating   : 1.00 v7.1.0
% Syntax   : Number of formulae    :   28 (   7 unt;  17 typ;   0 def)
%            Number of atoms       :   45 (  16 equ;   0 cnn)
%            Maximal formula atoms :   11 (   4 avg)
%            Number of connectives :  145 (   2   ~;   0   |;   2   &; 136   @)
%                                         (   0 <=>;   5  =>;   0  <=;   0 <~>)
%            Maximal formula depth :   15 (   5 avg)
%            Number of types       :    3 (   2 usr)
%            Number of type conns  :   41 (  41   >;   0   *;   0   +;   0  <<)
%            Number of symbols     :   16 (  15 usr;   1 con; 0-4 aty)
%            Number of variables   :   47 (   7   ^;  29   !;   3   ?;  47   :)
%                                         (   8  !>;   0  ?*;   0  @-;   0  @+)
% SPC      : TH1_THM_EQU_NAR

% Comments : Exported from core HOL Light.
%------------------------------------------------------------------------------
thf('thf_type_type/realax/real',type,
    'type/realax/real': $tType ).

thf('thf_type_type/nums/num',type,
    'type/nums/num': $tType ).

thf('thf_const_const/sets/UNIV',type,
    'const/sets/UNIV': 
      !>[A: $tType] : ( A > $o ) ).

thf('thf_const_const/sets/SETSPEC',type,
    'const/sets/SETSPEC': 
      !>[A: $tType] : ( A > $o > A > $o ) ).

thf('thf_const_const/sets/INFINITE',type,
    'const/sets/INFINITE': 
      !>[A: $tType] : ( ( A > $o ) > $o ) ).

thf('thf_const_const/sets/IN',type,
    'const/sets/IN': 
      !>[A: $tType] : ( A > ( A > $o ) > $o ) ).

thf('thf_const_const/sets/GSPEC',type,
    'const/sets/GSPEC': 
      !>[A: $tType] : ( ( A > $o ) > A > $o ) ).

thf('thf_const_const/sets/FINITE',type,
    'const/sets/FINITE': 
      !>[A: $tType] : ( ( A > $o ) > $o ) ).

thf('thf_const_const/sets/CARD',type,
    'const/sets/CARD': 
      !>[A: $tType] : ( ( A > $o ) > 'type/nums/num' ) ).

thf('thf_const_const/realax/real_pow',type,
    'const/realax/real_pow': 'type/realax/real' > 'type/nums/num' > 'type/realax/real' ).

thf('thf_const_const/realax/real_of_num',type,
    'const/realax/real_of_num': 'type/nums/num' > 'type/realax/real' ).

thf('thf_const_const/realax/real_mul',type,
    'const/realax/real_mul': 'type/realax/real' > 'type/realax/real' > 'type/realax/real' ).

thf('thf_const_const/nums/NUMERAL',type,
    'const/nums/NUMERAL': 'type/nums/num' > 'type/nums/num' ).

thf('thf_const_const/nums/_0',type,
    'const/nums/_0': 'type/nums/num' ).

thf('thf_const_const/iterate/sum',type,
    'const/iterate/sum': 
      !>[A: $tType] : ( ( A > $o ) > ( A > 'type/realax/real' ) > 'type/realax/real' ) ).

thf('thf_const_const/iterate/..',type,
    'const/iterate/..': 'type/nums/num' > 'type/nums/num' > 'type/nums/num' > $o ).

thf('thf_const_const/arith/<=',type,
    'const/arith/<=': 'type/nums/num' > 'type/nums/num' > $o ).

thf('thm/iterate/SUM_0_',axiom,
    ! [A: $tType,A0: A > $o] :
      ( ( 'const/iterate/sum' @ A @ A0
        @ ^ [A1: A] : ( 'const/realax/real_of_num' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) ) )
      = ( 'const/realax/real_of_num' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) ) ) ).

thf('thm/iterate/SUM_EQ_',axiom,
    ! [A: $tType,A0: A > 'type/realax/real',A1: A > 'type/realax/real',A2: A > $o] :
      ( ! [A3: A] :
          ( ( 'const/sets/IN' @ A @ A3 @ A2 )
         => ( ( A0 @ A3 )
            = ( A1 @ A3 ) ) )
     => ( ( 'const/iterate/sum' @ A @ A2 @ A0 )
        = ( 'const/iterate/sum' @ A @ A2 @ A1 ) ) ) ).

thf('thm/sets/IN_ELIM_THM_1',axiom,
    ! [A: $tType,A0: A > $o,A1: A] :
      ( ( 'const/sets/IN' @ A @ A1
        @ ( 'const/sets/GSPEC' @ A
          @ ^ [A2: A] :
            ? [A3: A] : ( 'const/sets/SETSPEC' @ A @ A2 @ ( A0 @ A3 ) @ A3 ) ) )
      = ( A0 @ A1 ) ) ).

thf('thm/iterate/IN_NUMSEG_',axiom,
    ! [A: 'type/nums/num',A0: 'type/nums/num',A1: 'type/nums/num'] :
      ( ( 'const/sets/IN' @ 'type/nums/num' @ A1 @ ( 'const/iterate/..' @ A @ A0 ) )
      = ( ( 'const/arith/<=' @ A @ A1 )
        & ( 'const/arith/<=' @ A1 @ A0 ) ) ) ).

thf('thm/calc_int/REAL_MUL_LZERO_',axiom,
    ! [A: 'type/realax/real'] :
      ( ( 'const/realax/real_mul' @ ( 'const/realax/real_of_num' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) ) @ A )
      = ( 'const/realax/real_of_num' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) ) ) ).

thf('thm/sets/IN_UNIV_',axiom,
    ! [A: $tType,A0: A] : ( 'const/sets/IN' @ A @ A0 @ ( 'const/sets/UNIV' @ A ) ) ).

thf('thm/sets/EXTENSION_',axiom,
    ! [A: $tType,A0: A > $o,A1: A > $o] :
      ( ( A0 = A1 )
      = ( ! [A2: A] :
            ( ( 'const/sets/IN' @ A @ A2 @ A0 )
            = ( 'const/sets/IN' @ A @ A2 @ A1 ) ) ) ) ).

thf('thm/sets/real_INFINITE_',axiom,
    'const/sets/INFINITE' @ 'type/realax/real' @ ( 'const/sets/UNIV' @ 'type/realax/real' ) ).

thf('thm/sets/INFINITE_',axiom,
    ! [A: $tType,A0: A > $o] :
      ( ( 'const/sets/INFINITE' @ A @ A0 )
      = ( ~ ( 'const/sets/FINITE' @ A @ A0 ) ) ) ).

thf('thm/iterate/REAL_POLYFUN_ROOTBOUND_',axiom,
    ! [A: 'type/nums/num',A0: 'type/nums/num' > 'type/realax/real'] :
      ( ~ ! [A1: 'type/nums/num'] :
            ( ( 'const/sets/IN' @ 'type/nums/num' @ A1 @ ( 'const/iterate/..' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) @ A ) )
           => ( ( A0 @ A1 )
              = ( 'const/realax/real_of_num' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) ) ) )
     => ( ( 'const/sets/FINITE' @ 'type/realax/real'
          @ ( 'const/sets/GSPEC' @ 'type/realax/real'
            @ ^ [A1: 'type/realax/real'] :
              ? [A2: 'type/realax/real'] :
                ( 'const/sets/SETSPEC' @ 'type/realax/real' @ A1
                @ ( ( 'const/iterate/sum' @ 'type/nums/num' @ ( 'const/iterate/..' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) @ A )
                    @ ^ [A3: 'type/nums/num'] : ( 'const/realax/real_mul' @ ( A0 @ A3 ) @ ( 'const/realax/real_pow' @ A2 @ A3 ) ) )
                  = ( 'const/realax/real_of_num' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) ) )
                @ A2 ) ) )
        & ( 'const/arith/<='
          @ ( 'const/sets/CARD' @ 'type/realax/real'
            @ ( 'const/sets/GSPEC' @ 'type/realax/real'
              @ ^ [A1: 'type/realax/real'] :
                ? [A2: 'type/realax/real'] :
                  ( 'const/sets/SETSPEC' @ 'type/realax/real' @ A1
                  @ ( ( 'const/iterate/sum' @ 'type/nums/num' @ ( 'const/iterate/..' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) @ A )
                      @ ^ [A3: 'type/nums/num'] : ( 'const/realax/real_mul' @ ( A0 @ A3 ) @ ( 'const/realax/real_pow' @ A2 @ A3 ) ) )
                    = ( 'const/realax/real_of_num' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) ) )
                  @ A2 ) ) )
          @ A ) ) ) ).

thf('thm/iterate/REAL_POLYFUN_EQ_0_',conjecture,
    ! [A: 'type/nums/num',A0: 'type/nums/num' > 'type/realax/real'] :
      ( ( ! [A1: 'type/realax/real'] :
            ( ( 'const/iterate/sum' @ 'type/nums/num' @ ( 'const/iterate/..' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) @ A )
              @ ^ [A2: 'type/nums/num'] : ( 'const/realax/real_mul' @ ( A0 @ A2 ) @ ( 'const/realax/real_pow' @ A1 @ A2 ) ) )
            = ( 'const/realax/real_of_num' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) ) ) )
      = ( ! [A1: 'type/nums/num'] :
            ( ( 'const/sets/IN' @ 'type/nums/num' @ A1 @ ( 'const/iterate/..' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) @ A ) )
           => ( ( A0 @ A1 )
              = ( 'const/realax/real_of_num' @ ( 'const/nums/NUMERAL' @ 'const/nums/_0' ) ) ) ) ) ) ).

%------------------------------------------------------------------------------