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OCaml_program_corpus

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let ( > ) = gt
let ( <= ) = leq
let ( >= ) = geq
let invert a n = try Some ( Z . invert a n ) with Division_by_zero -> None
let pr ch x = output_string ch ( I . to_string x ) ; flush ch
let pr2 ch ( x , y ) = Printf . fprintf ch " % s , % s " ( I . to_string x ) ( I . to_string y ) ; flush ch
let pr3 ch ( x , y , z ) = Printf . fprintf ch " % s , % s , % s " ( I . to_string x ) ( I . to_string y ) ( I . to_string z ) ; flush ch
let prfloat ch ( x , y : float * float ) = if x = y then Printf . fprintf ch " OK " else Printf . fprintf ch " WRONG ! ( expected % g , got % g ) " y x
let prmarshal ch ( x , y : I . t * I . t ) = ( if I . equal x y then Printf . fprintf ch " OK " else Printf . fprintf ch " WRONG ! ( expected % a , got % a ) " pr y pr x ) ; flush ch
let pow2 n = let rec doit acc n = if n <= 0 then acc else doit ( I . add acc acc ) ( n - 1 ) in doit I . one n
let fact n = let rec doit acc n = if n <= 1 then acc else doit ( I . mul acc ( I . of_int n ) ) ( n - 1 ) in doit I . one n
let pow a b = let rec doit b = if b <= 0 then I . one else let acc = doit ( b lsr 1 ) in if b land 1 = 1 then I . mul ( I . mul acc acc ) ( I . of_int a ) else I . mul acc acc in doit b
let cvt_int x = try string_of_int ( I . to_int x ) with I . Overflow -> " ovf "
let cvt_int32 x = try Int32 . to_string ( I . to_int32 x ) with I . Overflow -> " ovf "
let cvt_int64 x = try Int64 . to_string ( I . to_int64 x ) with I . Overflow -> " ovf "
let cvt_nativeint x = try Nativeint . to_string ( I . to_nativeint x ) with I . Overflow -> " ovf "
let p2 = I . of_int 2
let p30 = pow2 30
let p62 = pow2 62
let p300 = pow2 300
let p120 = pow2 120
let p121 = pow2 121
let maxi = I . of_int max_int
let mini = I . of_int min_int
let maxi32 = I . of_int32 Int32 . max_int
let mini32 = I . of_int32 Int32 . min_int
let maxi64 = I . of_int64 Int64 . max_int
let mini64 = I . of_int64 Int64 . min_int
let maxni = I . of_nativeint Nativeint . max_int
let minni = I . of_nativeint Nativeint . min_int
let chk_bits x = Printf . printf " to_bits % a \ n " = pr x ; String . iter ( fun c -> Printf . printf " % 02x " ( Char . code c ) ) ( I . to_bits x ) ; Printf . printf " \ n " ; assert ( I . equal ( I . abs x ) ( I . of_bits ( I . to_bits x ) ) ) ; assert ( ( I . to_bits x ) = ( I . to_bits ( I . neg x ) ) ) ; Printf . printf " marshal round trip % a \ n " = pr x ; let y = Marshal . ( from_string ( to_string x [ ] ) 0 ) in Printf . printf " % a \ n " prmarshal ( y , x )
let chk_extract ( x , o , l ) = let expected = I . logand ( I . shift_right x o ) ( I . pred ( I . shift_left ( I . of_int 1 ) l ) ) and actual = I . extract x o l in Printf . printf " extract % a % d % d = % a " pr x o l pr actual ; if I . equal actual expected then Printf . printf " ( passed ) \ n " else Printf . printf " ( FAILED , expected % a ) \ n " pr expected
let chk_signed_extract ( x , o , l ) = let uns_res = I . extract x o l in let expected = if I . compare uns_res ( I . shift_left ( I . of_int 1 ) ( l - 1 ) ) >= 0 then I . sub uns_res ( I . shift_left ( I . of_int 1 ) l ) else uns_res in let actual = I . signed_extract x o l in Printf . printf " signed_extract % a % d % d = % a " pr x o l pr actual ; if I . equal actual expected then Printf . printf " ( passed ) \ n " else Printf . printf " ( FAILED , expected % a ) \ n " pr expected
let chk_numbits_tz x = Printf . printf " numbits / trailing_zeros % a " pr x ; let n = I . numbits x and z = I . trailing_zeros x in if if I . equal x I . zero then n = 0 && z = max_int else n > 0 && z >= 0 && z < n && I . leq ( I . shift_left I . one ( n - 1 ) ) ( I . abs x ) && I . lt ( I . abs x ) ( I . shift_left I . one n ) && ( z = 0 \|\| I . equal ( I . extract x 0 z ) I . zero ) && I . testbit x z then Printf . printf " ( passed ) \ n " else Printf . printf " ( FAILED ) \ n "
let chk_testbit x = Printf . printf " testbit % a " pr x ; let n = I . numbits x in let ok = ref true in for i = 0 to n + 64 do let actual = I . testbit x i and expected = I . extract x i 1 in if not ( I . equal expected ( if actual then I . one else I . zero ) ) then begin Printf . printf " ( error on % d ) " i ; ok := false end done ; if ! ok then Printf . printf " ( passed ) \ n " else Printf . printf " ( FAILED ) \ n "
let test_Z ( ) = Printf . printf " 0 \ n = % a \ n " pr I . zero ; Printf . printf " 1 \ n = % a \ n " pr I . one ; Printf . printf " - 1 \ n = % a \ n " pr I . minus_one ; Printf . printf " 42 \ n = % a \ n " pr ( I . of_int 42 ) ; Printf . printf " 1 + 1 \ n = % a \ n " pr ( I . add I . one I . one ) ; Printf . printf " 1 - 1 \ n = % a \ n " pr ( I . sub I . one I . one ) ; Printf . printf " - 1 \ n = % a \ n " pr ( I . neg I . one ) ; Printf . printf " 0 - 1 \ n = % a \ n " pr ( I . sub I . zero I . one ) ; Printf . printf " max_int \ n = % a \ n " pr maxi ; Printf . printf " min_int \ n = % a \ n " pr mini ; Printf . printf " - max_int \ n = % a \ n " pr ( I . neg maxi ) ; Printf . printf " - min_int \ n = % a \ n " pr ( I . neg mini ) ; Printf . printf " 2 ^ 300 \ n = % a \ n " pr p300 ; Printf . printf " 2 ^ 120 \ n = % a \ n " pr p120 ; Printf . printf " 2 ^ 300 + 2 ^ 120 \ n = % a \ n " pr ( I . add p300 p120 ) ; Printf . printf " 2 ^ 300 - 2 ^ 120 \ n = % a \ n " pr ( I . sub p300 p120 ) ; Printf . printf " 2 ^ 300 ( ( +- 2 ^ 120 ) ) \ n = % a \ n " pr ( I . add p300 ( I . neg p120 ) ) ; Printf . printf " 2 ^ 120 - 2 ^ 300 \ n = % a \ n " pr ( I . sub p120 p300 ) ; Printf . printf " 2 ^ 120 ( ( +- 2 ^ 300 ) ) \ n = % a \ n " pr ( I . add p120 ( I . neg p300 ) ) ; Printf . printf " ( - 2 ^ 120 ) ( ( +- 2 ^ 300 ) ) \ n = % a \ n " pr ( I . add ( I . neg p120 ) ( I . neg p300 ) ) ; Printf . printf " ( - 2 ^ 120 ) - 2 ^ 300 \ n = % a \ n " pr ( I . sub ( I . neg p120 ) p300 ) ; Printf . printf " 2 ^ 300 - 2 ^ 300 \ n = % a \ n " pr ( I . sub p300 p300 ) ; Printf . printf " 2 ^ 121 \ n = % a \ n " pr p121 ; Printf . printf " 2 ^ 121 + 2 ^ 120 \ n = % a \ n " pr ( I . add p121 p120 ) ; Printf . printf " 2 ^ 121 - 2 ^ 120 \ n = % a \ n " pr ( I . sub p121 p120 ) ; Printf . printf " 2 ^ 121 ( ( +- 2 ^ 120 ) ) \ n = % a \ n " pr ( I . add p121 ( I . neg p120 ) ) ; Printf . printf " 2 ^ 120 - 2 ^ 121 \ n = % a \ n " pr ( I . sub p120 p121 ) ; Printf . printf " 2 ^ 120 ( ( +- 2 ^ 121 ) ) \ n = % a \ n " pr ( I . add p120 ( I . neg p121 ) ) ; Printf . printf " ( - 2 ^ 120 ) ( ( +- 2 ^ 121 ) ) \ n = % a \ n " pr ( I . add ( I . neg p120 ) ( I . neg p121 ) ) ; Printf . printf " ( - 2 ^ 120 ) - 2 ^ 121 \ n = % a \ n " pr ( I . sub ( I . neg p120 ) p121 ) ; Printf . printf " 2 ^ 121 + 0 \ n = % a \ n " pr ( I . add p121 I . zero ) ; Printf . printf " 2 ^ 121 - 0 \ n = % a \ n " pr ( I . sub p121 I . zero ) ; Printf . printf " 0 + 2 ^ 121 \ n = % a \ n " pr ( I . add I . zero p121 ) ; Printf . printf " 0 - 2 ^ 121 \ n = % a \ n " pr ( I . sub I . zero p121 ) ; Printf . printf " 2 ^ 300 + 1 \ n = % a \ n " pr ( I . add p300 I . one ) ; Printf . printf " 2 ^ 300 - 1 \ n = % a \ n " pr ( I . sub p300 I . one ) ; Printf . printf " 1 + 2 ^ 300 \ n = % a \ n " pr ( I . add I . one p300 ) ; Printf . printf " 1 - 2 ^ 300 \ n = % a \ n " pr ( I . sub I . one p300 ) ; Printf . printf " 2 ^ 300 ( +- 1 ) \ n = % a \ n " pr ( I . add p300 I . minus_one ) ; Printf . printf " 2 ^ 300 ( -- 1 ) \ n = % a \ n " pr ( I . sub p300 I . minus_one ) ; Printf . printf " ( - 1 ) + 2 ^ 300 \ n = % a \ n " pr ( I . add I . minus_one p300 ) ; Printf . printf " ( - 1 ) - 2 ^ 300 \ n = % a \ n " pr ( I . sub I . minus_one p300 ) ; Printf . printf " ( - 2 ^ 300 ) + 1 \ n = % a \ n " pr ( I . add ( I . neg p300 ) I . one ) ; Printf . printf " ( - 2 ^ 300 ) - 1 \ n = % a \ n " pr ( I . sub ( I . neg p300 ) I . one ) ; Printf . printf " 1 ( ( +- 2 ^ 300 ) ) \ n = % a \ n " pr ( I . add I . one ( I . neg p300 ) ) ; Printf . printf " 1 ( ( -- 2 ^ 300 ) ) \ n = % a \ n " pr ( I . sub I . one ( I . neg p300 ) ) ; Printf . printf " ( - 2 ^ 300 ) ( +- 1 ) \ n = % a \ n " pr ( I . add ( I . neg p300 ) I . minus_one ) ; Printf . printf " ( - 2 ^ 300 ) ( -- 1 ) \ n = % a \ n " pr ( I . sub ( I . neg p300 ) I . minus_one ) ; Printf . printf " ( - 1 ) ( ( +- 2 ^ 300 ) ) \ n = % a \ n " pr ( I . add I . minus_one ( I . neg p300 ) ) ; Printf . printf " ( - 1 ) ( ( -- 2 ^ 300 ) ) \ n = % a \ n " pr ( I . sub I . minus_one ( I . neg p300 ) ) ; Printf . printf " max_int + 1 \ n = % a \ n " pr ( I . add maxi I . one ) ; Printf . printf " min_int - 1 \ n = % a \ n " pr ( I . sub mini I . one ) ; Printf . printf " - max_int - 1 \ n = % a \ n " pr ( I . sub ( I . neg maxi ) I . one ) ; Printf . printf " - min_int - 1 \ n = % a \ n " pr ( I . sub ( I . neg mini ) I . one ) ; Printf . printf " 5 ! = % a \ n " pr ( fact 5 ) ; Printf . printf " 12 ! = % a \ n " pr ( fact 12 ) ; Printf . printf " 15 ! = % a \ n " pr ( fact 15 ) ; Printf . printf " 20 ! = % a \ n " pr ( fact 20 ) ; Printf . printf " 25 ! = % a \ n " pr ( fact 25 ) ; Printf . printf " 50 ! = % a \ n " pr ( fact 50 ) ; Printf . printf " 2 ^ 300 * 2 ^ 120 \ n = % a \ n " pr ( I . mul p300 p120 ) ; Printf . printf " 2 ^ 120 * 2 ^ 300 \ n = % a \ n " pr ( I . mul p120 p300 ) ; Printf . printf " 2 ^ 300 ( ( - 2 ^ 120 ) ) \ n = % a \ n " pr ( I . mul p300 ( I . neg p120 ) ) ; Printf . printf " 2 ^ 120 ( ( - 2 ^ 300 ) ) \ n = % a \ n " pr ( I . mul p120 ( I . neg p300 ) ) ; Printf . printf " ( - 2 ^ 120 ) ( ( - 2 ^ 300 ) ) \ n = % a \ n " pr ( I . mul ( I . neg p120 ) ( I . neg p300 ) ) ; Printf . printf " 2 ^ 121 2 ^ 120 \ n = % a \ n " pr ( I . mul p121 p120 ) ; Printf . printf " 2 ^ 120 * 2 ^ 121 \ n = % a \ n " pr ( I . mul p120 p121 ) ; Printf . printf " 2 ^ 121 * 0 \ n = % a \ n " pr ( I . mul p121 I . zero ) ; Printf . printf " 0 * 2 ^ 121 \ n = % a \ n " pr ( I . mul I . zero p121 ) ; Printf . printf " 2 ^ 300 * 1 \ n = % a \ n " pr ( I . mul p300 I . one ) ; Printf . printf " 1 * 2 ^ 300 \ n = % a \ n " pr ( I . mul I . one p300 ) ; Printf . printf " 2 ^ 300 ( - 1 ) \ n = % a \ n " pr ( I . mul p300 I . minus_one ) ; Printf . printf " ( - 1 ) 2 ^ 300 \ n = % a \ n " pr ( I . mul I . minus_one p300 ) ; Printf . printf " ( - 2 ^ 300 ) * 1 \ n = % a \ n " pr ( I . mul ( I . neg p300 ) I . one ) ; Printf . printf " 1 ( ( - 2 ^ 300 ) ) \ n = % a \ n " pr ( I . mul I . one ( I . neg p300 ) ) ; Printf . printf " ( - 2 ^ 300 ) ( - 1 ) \ n = % a \ n " pr ( I . mul ( I . neg p300 ) I . minus_one ) ; Printf . printf " ( - 1 ) ( ( - 2 ^ 300 ) ) \ n = % a \ n " pr ( I . mul I . minus_one ( I . neg p300 ) ) ; Printf . printf " 1 ( 2 ^ 30 ) \ n = % a \ n " pr ( I . mul I . one p30 ) ; Printf . printf " 1 ( * 2 ^ 62 ) \ n = % a \ n " pr ( I . mul I . one p62 ) ; Printf . printf " ( 2 ^ 30 ) ( * 2 ^ 30 ) \ n = % a \ n " pr ( I . mul p30 p30 ) ; Printf . printf " ( 2 ^ 62 ) ( * 2 ^ 62 ) \ n = % a \ n " pr ( I . mul p62 p62 ) ; Printf . printf " 0 + 1 \ n = % a \ n " pr ( I . succ I . zero ) ; Printf . printf " 1 + 1 \ n = % a \ n " pr ( I . succ I . one ) ; Printf . printf " - 1 + 1 \ n = % a \ n " pr ( I . succ I . minus_one ) ; Printf . printf " 2 + 1 \ n = % a \ n " pr ( I . succ p2 ) ; Printf . printf " - 2 + 1 \ n = % a \ n " pr ( I . succ ( I . neg p2 ) ) ; Printf . printf " ( 2 ^ 300 ) + 1 \ n = % a \ n " pr ( I . succ p300 ) ; Printf . printf " ( - 2 ^ 300 ) + 1 \ n = % a \ n " pr ( I . succ ( I . neg p300 ) ) ; Printf . printf " 0 - 1 \ n = % a \ n " pr ( I . pred I . zero ) ; Printf . printf " 1 - 1 \ n = % a \ n " pr ( I . pred I . one ) ; Printf . printf " - 1 - 1 \ n = % a \ n " pr ( I . pred I . minus_one ) ; Printf . printf " 2 - 1 \ n = % a \ n " pr ( I . pred p2 ) ; Printf . printf " - 2 - 1 \ n = % a \ n " pr ( I . pred ( I . neg p2 ) ) ; Printf . printf " ( 2 ^ 300 ) - 1 \ n = % a \ n " pr ( I . pred p300 ) ; Printf . printf " ( - 2 ^ 300 ) - 1 \ n = % a \ n " pr ( I . pred ( I . neg p300 ) ) ; Printf . printf " max_int + 1 \ n = % a \ n " pr ( I . succ maxi ) ; Printf . printf " min_int - 1 \ n = % a \ n " pr ( I . pred mini ) ; Printf . printf " - max_int - 1 \ n = % a \ n " pr ( I . pred ( I . neg maxi ) ) ; Printf . printf " - min_int - 1 \ n = % a \ n " pr ( I . pred ( I . neg mini ) ) ; Printf . printf " abs ( 0 ) \ n = % a \ n " pr ( I . abs I . zero ) ; Printf . printf " abs ( 1 ) \ n = % a \ n " pr ( I . abs I . one ) ; Printf . printf " abs ( - 1 ) \ n = % a \ n " pr ( I . abs I . minus_one ) ; Printf . printf " abs ( min_int ) \ n = % a \ n " pr ( I . abs mini ) ; Printf . printf " abs ( 2 ^ 300 ) \ n = % a \ n " pr ( I . abs p300 ) ; Printf . printf " abs ( ( - 2 ^ 300 ) ) \ n = % a \ n " pr ( I . abs ( I . neg p300 ) ) ; Printf . printf " max_natint \ n = % a \ n " pr maxni ; Printf . printf " max_int32 \ n = % a \ n " pr maxi32 ; Printf . printf " max_int64 \ n = % a \ n " pr maxi64 ; Printf . printf " to_int 1 \ n = % s \ n " ( cvt_int I . one ) ; Printf . printf " to_int max_int \ n = % s \ n " ( cvt_int maxi ) ; Printf . printf " to_int max_natint \ n = % s \ n " ( cvt_int maxni ) ; Printf . printf " to_int max_int32 \ n = % s \ n " ( cvt_int maxi32 ) ; Printf . printf " to_int max_int64 \ n = % s \ n " ( cvt_int maxi64 ) ; Printf . printf " to_int32 1 \ n = % s \ n " ( cvt_int32 I . one ) ; Printf . printf " to_int32 max_int \ n = % s \ n " ( cvt_int32 maxi ) ; Printf . printf " to_int32 max_natint \ n = % s \ n " ( cvt_int32 maxni ) ; Printf . printf " to_int32 max_int32 \ n = % s \ n " ( cvt_int32 maxi32 ) ; Printf . printf " to_int32 max_int64 \ n = % s \ n " ( cvt_int32 maxi64 ) ; Printf . printf " to_int64 1 \ n = % s \ n " ( cvt_int64 I . one ) ; Printf . printf " to_int64 max_int \ n = % s \ n " ( cvt_int64 maxi ) ; Printf . printf " to_int64 max_natint \ n = % s \ n " ( cvt_int64 maxni ) ; Printf . printf " to_int64 max_int32 \ n = % s \ n " ( cvt_int64 maxi32 ) ; Printf . printf " to_int64 max_int64 \ n = % s \ n " ( cvt_int64 maxi64 ) ; Printf . printf " to_natint 1 \ n = % s \ n " ( cvt_nativeint I . one ) ; Printf . printf " to_natint max_int \ n = % s \ n " ( cvt_nativeint maxi ) ; Printf . printf " to_natint max_natint \ n = % s \ n " ( cvt_nativeint maxni ) ; Printf . printf " to_natint max_int32 \ n = % s \ n " ( cvt_nativeint maxi32 ) ; Printf . printf " to_natint max_int64 \ n = % s \ n " ( cvt_nativeint maxi64 ) ; Printf . printf " to_int - min_int \ n = % s \ n " ( cvt_int ( I . neg mini ) ) ; Printf . printf " to_int - min_natint \ n = % s \ n " ( cvt_int ( I . neg minni ) ) ; Printf . printf " to_int - min_int32 \ n = % s \ n " ( cvt_int ( I . neg mini32 ) ) ; Printf . printf " to_int - min_int64 \ n = % s \ n " ( cvt_int ( I . neg mini64 ) ) ; Printf . printf " to_int32 - min_int \ n = % s \ n " ( cvt_int32 ( I . neg mini ) ) ; Printf . printf " to_int32 - min_natint \ n = % s \ n " ( cvt_int32 ( I . neg minni ) ) ; Printf . printf " to_int32 - min_int32 \ n = % s \ n " ( cvt_int32 ( I . neg mini32 ) ) ; Printf . printf " to_int32 - min_int64 \ n = % s \ n " ( cvt_int32 ( I . neg mini64 ) ) ; Printf . printf " to_int64 - min_int \ n = % s \ n " ( cvt_int64 ( I . neg mini ) ) ; Printf . printf " to_int64 - min_natint \ n = % s \ n " ( cvt_int64 ( I . neg minni ) ) ; Printf . printf " to_int64 - min_int32 \ n = % s \ n " ( cvt_int64 ( I . neg mini32 ) ) ; Printf . printf " to_int64 - min_int64 \ n = % s \ n " ( cvt_int64 ( I . neg mini64 ) ) ; Printf . printf " to_natint - min_int \ n = % s \ n " ( cvt_nativeint ( I . neg mini ) ) ; Printf . printf " to_natint - min_natint \ n = % s \ n " ( cvt_nativeint ( I . neg minni ) ) ; Printf . printf " to_natint - min_int32 \ n = % s \ n " ( cvt_nativeint ( I . neg mini32 ) ) ; Printf . printf " to_natint - min_int64 \ n = % s \ n " ( cvt_nativeint ( I . neg mini64 ) ) ; Printf . printf " of_float 1 . \ n = % a \ n " pr ( I . of_float 1 . ) ; Printf . printf " of_float - 1 . \ n = % a \ n " pr ( I . of_float ( . - 1 . ) ) ; Printf . printf " of_float pi \ n = % a \ n " pr ( I . of_float ( 2 . . * acos 0 . ) ) ; Printf . printf " of_float 2 ^ 30 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 30 ) ) ; Printf . printf " of_float 2 ^ 31 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 31 ) ) ; Printf . printf " of_float 2 ^ 32 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 32 ) ) ; Printf . printf " of_float 2 ^ 33 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 33 ) ) ; Printf . printf " of_float - 2 ^ 30 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 30 ) ) ) ; Printf . printf " of_float - 2 ^ 31 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 31 ) ) ) ; Printf . printf " of_float - 2 ^ 32 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 32 ) ) ) ; Printf . printf " of_float - 2 ^ 33 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 33 ) ) ) ; Printf . printf " of_float 2 ^ 61 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 61 ) ) ; Printf . printf " of_float 2 ^ 62 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 62 ) ) ; Printf . printf " of_float 2 ^ 63 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 63 ) ) ; Printf . printf " of_float 2 ^ 64 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 64 ) ) ; Printf . printf " of_float 2 ^ 65 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 65 ) ) ; Printf . printf " of_float - 2 ^ 61 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 61 ) ) ) ; Printf . printf " of_float - 2 ^ 62 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 62 ) ) ) ; Printf . printf " of_float - 2 ^ 63 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 63 ) ) ) ; Printf . printf " of_float - 2 ^ 64 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 64 ) ) ) ; Printf . printf " of_float - 2 ^ 65 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 65 ) ) ) ; Printf . printf " of_float 2 ^ 120 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 120 ) ) ; Printf . printf " of_float 2 ^ 300 \ n = % a \ n " pr ( I . of_float ( ldexp 1 . 300 ) ) ; Printf . printf " of_float - 2 ^ 120 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 120 ) ) ) ; Printf . printf " of_float - 2 ^ 300 \ n = % a \ n " pr ( I . of_float ( . ( - ldexp 1 . 300 ) ) ) ; Printf . printf " of_float 0 . 5 \ n = % a \ n " pr ( I . of_float 0 . 5 ) ; Printf . printf " of_float - 0 . 5 \ n = % a \ n " pr ( I . of_float ( . - 0 . 5 ) ) ; Printf . printf " of_float 200 . 5 \ n = % a \ n " pr ( I . of_float 200 . 5 ) ; Printf . printf " of_float - 200 . 5 \ n = % a \ n " pr ( I . of_float ( . - 200 . 5 ) ) ; Printf . printf " to_float 0 \ n = % a \ n " prfloat ( I . to_float I . zero , 0 . 0 ) ; Printf . printf " to_float 1 \ n = % a \ n " prfloat ( I . to_float I . one , 1 . 0 ) ; Printf . printf " to_float - 1 \ n = % a \ n " prfloat ( I . to_float I . minus_one , - 1 . 0 ) ; Printf . printf " to_float 2 ^ 120 \ n = % a \ n " prfloat ( I . to_float p120 , ldexp 1 . 0 120 ) ; Printf . printf " to_float - 2 ^ 120 \ n = % a \ n " prfloat ( I . to_float ( I . neg p120 ) , . - ( ldexp 1 . 0 120 ) ) ; Printf . printf " to_float ( 2 ^ 120 - 1 ) \ n = % a \ n " prfloat ( I . to_float ( I . pred p120 ) , ldexp 1 . 0 120 ) ; Printf . printf " to_float ( - 2 ^ 120 + 1 ) \ n = % a \ n " prfloat ( I . to_float ( I . succ ( I . neg p120 ) ) , . - ( ldexp 1 . 0 120 ) ) ; Printf . printf " to_float 2 ^ 63 \ n = % a \ n " prfloat ( I . to_float ( pow2 63 ) , ldexp 1 . 0 63 ) ; Printf . printf " to_float - 2 ^ 63 \ n = % a \ n " prfloat ( I . to_float ( I . neg ( pow2 63 ) ) , . - ( ldexp 1 . 0 63 ) ) ; Printf . printf " to_float ( 2 ^ 63 - 1 ) \ n = % a \ n " prfloat ( I . to_float ( I . pred ( pow2 63 ) ) , ldexp 1 . 0 63 ) ; Printf . printf " to_float ( - 2 ^ 63 - 1 ) \ n = % a \ n " prfloat ( I . to_float ( I . pred ( I . neg ( pow2 63 ) ) ) , . - ( ldexp 1 . 0 63 ) ) ; Printf . printf " to_float ( - 2 ^ 63 + 1 ) \ n = % a \ n " prfloat ( I . to_float ( I . succ ( I . neg ( pow2 63 ) ) ) , . - ( ldexp 1 . 0 63 ) ) ; Printf . printf " to_float 2 ^ 300 \ n = % a \ n " prfloat ( I . to_float p300 , ldexp 1 . 0 300 ) ; Printf . printf " to_float - 2 ^ 300 \ n = % a \ n " prfloat ( I . to_float ( I . neg p300 ) , . - ( ldexp 1 . 0 300 ) ) ; Printf . printf " to_float ( 2 ^ 300 - 1 ) \ n = % a \ n " prfloat ( I . to_float ( I . pred p300 ) , ldexp 1 . 0 300 ) ; Printf . printf " to_float ( - 2 ^ 300 + 1 ) \ n = % a \ n " prfloat ( I . to_float ( I . succ ( I . neg p300 ) ) , . - ( ldexp 1 . 0 300 ) ) ; Printf . printf " of_string 12 \ n = % a \ n " pr ( I . of_string " 12 " ) ; Printf . printf " of_string 0x12 \ n = % a \ n " pr ( I . of_string " 0x12 " ) ; Printf . printf " of_string 0b10 \ n = % a \ n " pr ( I . of_string " 0b10 " ) ; Printf . printf " of_string 0o12 \ n = % a \ n " pr ( I . of_string " 0o12 " ) ; Printf . printf " of_string - 12 \ n = % a \ n " pr ( I . of_string " - 12 " ) ; Printf . printf " of_string - 0x12 \ n = % a \ n " pr ( I . of_string " - 0x12 " ) ; Printf . printf " of_string - 0b10 \ n = % a \ n " pr ( I . of_string " - 0b10 " ) ; Printf . printf " of_string - 0o12 \ n = % a \ n " pr ( I . of_string " - 0o12 " ) ; Printf . printf " of_string 000123456789012345678901234567890 \ n = % a \ n " pr ( I . of_string " 000123456789012345678901234567890 " ) ; Printf . printf " 2 ^ 120 / 2 ^ 300 ( trunc ) \ n = % a \ n " pr ( I . div p120 p300 ) ; Printf . printf " max_int / 2 ( trunc ) \ n = % a \ n " pr ( I . div maxi p2 ) ; Printf . printf " ( 2 ^ 300 + 1 ) / 2 ^ 120 ( trunc ) \ n = % a \ n " pr ( I . div ( I . succ p300 ) p120 ) ; Printf . printf " ( ( - 2 ^ 300 + 1 ) ) / 2 ^ 120 ( trunc ) \ n = % a \ n " pr ( I . div ( I . neg ( I . succ p300 ) ) p120 ) ; Printf . printf " ( 2 ^ 300 + 1 ) / ( ( - 2 ^ 120 ) ) ( trunc ) \ n = % a \ n " pr ( I . div ( I . succ p300 ) ( I . neg p120 ) ) ; Printf . printf " ( ( - 2 ^ 300 + 1 ) ) / ( ( - 2 ^ 120 ) ) ( trunc ) \ n = % a \ n " pr ( I . div ( I . neg ( I . succ p300 ) ) ( I . neg p120 ) ) ; Printf . printf " 2 ^ 120 / 2 ^ 300 ( ceil ) \ n = % a \ n " pr ( I . cdiv p120 p300 ) ; Printf . printf " max_int / 2 ( ceil ) \ n = % a \ n " pr ( I . cdiv maxi p2 ) ; Printf . printf " ( 2 ^ 300 + 1 ) / 2 ^ 120 ( ceil ) \ n = % a \ n " pr ( I . cdiv ( I . succ p300 ) p120 ) ; Printf . printf " ( ( - 2 ^ 300 + 1 ) ) / 2 ^ 120 ( ceil ) \ n = % a \ n " pr ( I . cdiv ( I . neg ( I . succ p300 ) ) p120 ) ; Printf . printf " ( 2 ^ 300 + 1 ) / ( ( - 2 ^ 120 ) ) ( ceil ) \ n = % a \ n " pr ( I . cdiv ( I . succ p300 ) ( I . neg p120 ) ) ; Printf . printf " ( ( - 2 ^ 300 + 1 ) ) / ( ( - 2 ^ 120 ) ) ( ceil ) \ n = % a \ n " pr ( I . cdiv ( I . neg ( I . succ p300 ) ) ( I . neg p120 ) ) ; Printf . printf " 2 ^ 120 / 2 ^ 300 ( floor ) \ n = % a \ n " pr ( I . fdiv p120 p300 ) ; Printf . printf " max_int / 2 ( floor ) \ n = % a \ n " pr ( I . fdiv maxi p2 ) ; Printf . printf " ( 2 ^ 300 + 1 ) / 2 ^ 120 ( floor ) \ n = % a \ n " pr ( I . fdiv ( I . succ p300 ) p120 ) ; Printf . printf " ( ( - 2 ^ 300 + 1 ) ) / 2 ^ 120 ( floor ) \ n = % a \ n " pr ( I . fdiv ( I . neg ( I . succ p300 ) ) p120 ) ; Printf . printf " ( 2 ^ 300 + 1 ) / ( ( - 2 ^ 120 ) ) ( floor ) \ n = % a \ n " pr ( I . fdiv ( I . succ p300 ) ( I . neg p120 ) ) ; Printf . printf " ( ( - 2 ^ 300 + 1 ) ) / ( ( - 2 ^ 120 ) ) ( floor ) \ n = % a \ n " pr ( I . fdiv ( I . neg ( I . succ p300 ) ) ( I . neg p120 ) ) ; Printf . printf " 2 ^ 120 %% 2 ^ 300 \ n = % a \ n " pr ( I . rem p120 p300 ) ; Printf . printf " max_int %% 2 \ n = % a \ n " pr ( I . rem maxi p2 ) ; Printf . printf " ( 2 ^ 300 + 1 ) %% 2 ^ 120 \ n = % a \ n " pr ( I . rem ( I . succ p300 ) p120 ) ; Printf . printf " ( ( - 2 ^ 300 + 1 ) ) %% 2 ^ 120 \ n = % a \ n " pr ( I . rem ( I . neg ( I . succ p300 ) ) p120 ) ; Printf . printf " ( 2 ^ 300 + 1 ) %% ( ( - 2 ^ 120 ) ) \ n = % a \ n " pr ( I . rem ( I . succ p300 ) ( I . neg p120 ) ) ; Printf . printf " ( ( - 2 ^ 300 + 1 ) ) %% ( ( - 2 ^ 120 ) ) \ n = % a \ n " pr ( I . rem ( I . neg ( I . succ p300 ) ) ( I . neg p120 ) ) ; Printf . printf " 2 ^ 120 , /%% 2 ^ 300 \ n = % a \ n " pr2 ( I . div_rem p120 p300 ) ; Printf . printf " max_int , /%% 2 \ n = % a \ n " pr2 ( I . div_rem maxi p2 ) ; Printf . printf " ( 2 ^ 300 + 1 ) , /%% 2 ^ 120 \ n = % a \ n " pr2 ( I . div_rem ( I . succ p300 ) p120 ) ; Printf . printf " ( ( - 2 ^ 300 + 1 ) ) , /%% 2 ^ 120 \ n = % a \ n " pr2 ( I . div_rem ( I . neg ( I . succ p300 ) ) p120 ) ; Printf . printf " ( 2 ^ 300 + 1 ) , /%% ( ( - 2 ^ 120 ) ) \ n = % a \ n " pr2 ( I . div_rem ( I . succ p300 ) ( I . neg p120 ) ) ; Printf . printf " ( ( - 2 ^ 300 + 1 ) ) , /%% ( ( - 2 ^ 120 ) ) \ n = % a \ n " pr2 ( I . div_rem ( I . neg ( I . succ p300 ) ) ( I . neg p120 ) ) ; Printf . printf " 1 & 2 \ n = % a \ n " pr ( I . logand I . one p2 ) ; Printf . printf " 1 & 2 ^ 300 \ n = % a \ n " pr ( I . logand I . one p300 ) ; Printf . printf " 2 ^ 120 & 2 ^ 300 \ n = % a \ n " pr ( I . logand p120 p300 ) ; Printf . printf " 2 ^ 300 & 2 ^ 120 \ n = % a \ n " pr ( I . logand p300 p120 ) ; Printf . printf " 2 ^ 300 & 2 ^ 300 \ n = % a \ n " pr ( I . logand p300 p300 ) ; Printf . printf " 2 ^ 300 & 0 \ n = % a \ n " pr ( I . logand p300 I . zero ) ; Printf . printf " - 2 ^ 120 & 2 ^ 300 \ n = % a \ n " pr ( I . logand ( I . neg p120 ) p300 ) ; Printf . printf " 2 ^ 120 & - 2 ^ 300 \ n = % a \ n " pr ( I . logand p120 ( I . neg p300 ) ) ; Printf . printf " - 2 ^ 120 & - 2 ^ 300 \ n = % a \ n " pr ( I . logand ( I . neg p120 ) ( I . neg p300 ) ) ; Printf . printf " - 2 ^ 300 & 2 ^ 120 \ n = % a \ n " pr ( I . logand ( I . neg p300 ) p120 ) ; Printf . printf " 2 ^ 300 & - 2 ^ 120 \ n = % a \ n " pr ( I . logand p300 ( I . neg p120 ) ) ; Printf . printf " - 2 ^ 300 & - 2 ^ 120 \ n = % a \ n " pr ( I . logand ( I . neg p300 ) ( I . neg p120 ) ) ; Printf . printf " 1 \| 2 \ n = % a \ n " pr ( I . logor I . one p2 ) ; Printf . printf " 1 \| 2 ^ 300 \ n = % a \ n " pr ( I . logor I . one p300 ) ; Printf . printf " 2 ^ 120 \| 2 ^ 300 \ n = % a \ n " pr ( I . logor p120 p300 ) ; Printf . printf " 2 ^ 300 \| 2 ^ 120 \ n = % a \ n " pr ( I . logor p300 p120 ) ; Printf . printf " 2 ^ 300 \| 2 ^ 300 \ n = % a \ n " pr ( I . logor p300 p300 ) ; Printf . printf " 2 ^ 300 \| 0 \ n = % a \ n " pr ( I . logor p300 I . zero ) ; Printf . printf " - 2 ^ 120 \| 2 ^ 300 \ n = % a \ n " pr ( I . logor ( I . neg p120 ) p300 ) ; Printf . printf " 2 ^ 120 \| - 2 ^ 300 \ n = % a \ n " pr ( I . logor p120 ( I . neg p300 ) ) ; Printf . printf " - 2 ^ 120 \| - 2 ^ 300 \ n = % a \ n " pr ( I . logor ( I . neg p120 ) ( I . neg p300 ) ) ; Printf . printf " - 2 ^ 300 \| 2 ^ 120 \ n = % a \ n " pr ( I . logor ( I . neg p300 ) p120 ) ; Printf . printf " 2 ^ 300 \| - 2 ^ 120 \ n = % a \ n " pr ( I . logor p300 ( I . neg p120 ) ) ; Printf . printf " - 2 ^ 300 \| - 2 ^ 120 \ n = % a \ n " pr ( I . logor ( I . neg p300 ) ( I . neg p120 ) ) ; Printf . printf " 1 ^ 2 \ n = % a \ n " pr ( I . logxor I . one p2 ) ; Printf . printf " 1 ^ 2 ^ 300 \ n = % a \ n " pr ( I . logxor I . one p300 ) ; Printf . printf " 2 ^ 120 ^ 2 ^ 300 \ n = % a \ n " pr ( I . logxor p120 p300 ) ; Printf . printf " 2 ^ 300 ^ 2 ^ 120 \ n = % a \ n " pr ( I . logxor p300 p120 ) ; Printf . printf " 2 ^ 300 ^ 2 ^ 300 \ n = % a \ n " pr ( I . logxor p300 p300 ) ; Printf . printf " 2 ^ 300 ^ 0 \ n = % a \ n " pr ( I . logxor p300 I . zero ) ; Printf . printf " - 2 ^ 120 ^ 2 ^ 300 \ n = % a \ n " pr ( I . logxor ( I . neg p120 ) p300 ) ; Printf . printf " 2 ^ 120 ^ - 2 ^ 300 \ n = % a \ n " pr ( I . logxor p120 ( I . neg p300 ) ) ; Printf . printf " - 2 ^ 120 ^ - 2 ^ 300 \ n = % a \ n " pr ( I . logxor ( I . neg p120 ) ( I . neg p300 ) ) ; Printf . printf " - 2 ^ 300 ^ 2 ^ 120 \ n = % a \ n " pr ( I . logxor ( I . neg p300 ) p120 ) ; Printf . printf " 2 ^ 300 ^ - 2 ^ 120 \ n = % a \ n " pr ( I . logxor p300 ( I . neg p120 ) ) ; Printf . printf " - 2 ^ 300 ^ - 2 ^ 120 \ n = % a \ n " pr ( I . logxor ( I . neg p300 ) ( I . neg p120 ) ) ; Printf . printf " ~ 0 \ n = % a \ n " pr ( I . lognot I . zero ) ; Printf . printf " ~ 1 \ n = % a \ n " pr ( I . lognot I . one ) ; Printf . printf " ~ 2 \ n = % a \ n " pr ( I . lognot p2 ) ; Printf . printf " ~ 2 ^ 300 \ n = % a \ n " pr ( I . lognot p300 ) ; Printf . printf " ( ~- 1 ) \ n = % a \ n " pr ( I . lognot I . minus_one ) ; Printf . printf " ( ~- 2 ) \ n = % a \ n " pr ( I . lognot ( I . neg p2 ) ) ; Printf . printf " ( ( ~- 2 ^ 300 ) ) \ n = % a \ n " pr ( I . lognot ( I . neg p300 ) ) ; Printf . printf " 0 >> 1 \ n = % a \ n " pr ( I . shift_right I . zero 1 ) ; Printf . printf " 0 >> 100 \ n = % a \ n " pr ( I . shift_right I . zero 100 ) ; Printf . printf " 2 >> 1 \ n = % a \ n " pr ( I . shift_right p2 1 ) ; Printf . printf " 2 >> 2 \ n = % a \ n " pr ( I . shift_right p2 2 ) ; Printf . printf " 2 >> 100 \ n = % a \ n " pr ( I . shift_right p2 100 ) ; Printf . printf " 2 ^ 300 >> 1 \ n = % a \ n " pr ( I . shift_right p300 1 ) ; Printf . printf " 2 ^ 300 >> 2 \ n = % a \ n " pr ( I . shift_right p300 2 ) ; Printf . printf " 2 ^ 300 >> 100 \ n = % a \ n " pr ( I . shift_right p300 100 ) ; Printf . printf " 2 ^ 300 >> 200 \ n = % a \ n " pr ( I . shift_right p300 200 ) ; Printf . printf " 2 ^ 300 >> 300 \ n = % a \ n " pr ( I . shift_right p300 300 ) ; Printf . printf " 2 ^ 300 >> 400 \ n = % a \ n " pr ( I . shift_right p300 400 ) ; Printf . printf " - 1 >> 1 \ n = % a \ n " pr ( I . shift_right I . minus_one 1 ) ; Printf . printf " - 2 >> 1 \ n = % a \ n " pr ( I . shift_right ( I . neg p2 ) 1 ) ; Printf . printf " - 2 >> 2 \ n = % a \ n " pr ( I . shift_right ( I . neg p2 ) 2 ) ; Printf . printf " - 2 >> 100 \ n = % a \ n " pr ( I . shift_right ( I . neg p2 ) 100 ) ; Printf . printf " - 2 ^ 300 >> 1 \ n = % a \ n " pr ( I . shift_right ( I . neg p300 ) 1 ) ; Printf . printf " - 2 ^ 300 >> 2 \ n = % a \ n " pr ( I . shift_right ( I . neg p300 ) 2 ) ; Printf . printf " - 2 ^ 300 >> 100 \ n = % a \ n " pr ( I . shift_right ( I . neg p300 ) 100 ) ; Printf . printf " - 2 ^ 300 >> 200 \ n = % a \ n " pr ( I . shift_right ( I . neg p300 ) 200 ) ; Printf . printf " - 2 ^ 300 >> 300 \ n = % a \ n " pr ( I . shift_right ( I . neg p300 ) 300 ) ; Printf . printf " - 2 ^ 300 >> 400 \ n = % a \ n " pr ( I . shift_right ( I . neg p300 ) 400 ) ; Printf . printf " 0 >> 0 1 \ n = % a \ n " pr ( I . shift_right_trunc I . zero 1 ) ; Printf . printf " 0 >> 0 100 \ n = % a \ n " pr ( I . shift_right_trunc I . zero 100 ) ; Printf . printf " 2 >> 0 1 \ n = % a \ n " pr ( I . shift_right_trunc p2 1 ) ; Printf . printf " 2 >> 0 2 \ n = % a \ n " pr ( I . shift_right_trunc p2 2 ) ; Printf . printf " 2 >> 0 100 \ n = % a \ n " pr ( I . shift_right_trunc p2 100 ) ; Printf . printf " 2 ^ 300 >> 0 1 \ n = % a \ n " pr ( I . shift_right_trunc p300 1 ) ; Printf . printf " 2 ^ 300 >> 0 2 \ n = % a \ n " pr ( I . shift_right_trunc p300 2 ) ; Printf . printf " 2 ^ 300 >> 0 100 \ n = % a \ n " pr ( I . shift_right_trunc p300 100 ) ; Printf . printf " 2 ^ 300 >> 0 200 \ n = % a \ n " pr ( I . shift_right_trunc p300 200 ) ; Printf . printf " 2 ^ 300 >> 0 300 \ n = % a \ n " pr ( I . shift_right_trunc p300 300 ) ; Printf . printf " 2 ^ 300 >> 0 400 \ n = % a \ n " pr ( I . shift_right_trunc p300 400 ) ; Printf . printf " - 1 >> 0 1 \ n = % a \ n " pr ( I . shift_right_trunc I . minus_one 1 ) ; Printf . printf " - 2 >> 0 1 \ n = % a \ n " pr ( I . shift_right_trunc ( I . neg p2 ) 1 ) ; Printf . printf " - 2 >> 0 2 \ n = % a \ n " pr ( I . shift_right_trunc ( I . neg p2 ) 2 ) ; Printf . printf " - 2 >> 0 100 \ n = % a \ n " pr ( I . shift_right_trunc ( I . neg p2 ) 100 ) ; Printf . printf " - 2 ^ 300 >> 0 1 \ n = % a \ n " pr ( I . shift_right_trunc ( I . neg p300 ) 1 ) ; Printf . printf " - 2 ^ 300 >> 0 2 \ n = % a \ n " pr ( I . shift_right_trunc ( I . neg p300 ) 2 ) ; Printf . printf " - 2 ^ 300 >> 0 100 \ n = % a \ n " pr ( I . shift_right_trunc ( I . neg p300 ) 100 ) ; Printf . printf " - 2 ^ 300 >> 0 200 \ n = % a \ n " pr ( I . shift_right_trunc ( I . neg p300 ) 200 ) ; Printf . printf " - 2 ^ 300 >> 0 300 \ n = % a \ n " pr ( I . shift_right_trunc ( I . neg p300 ) 300 ) ; Printf . printf " - 2 ^ 300 >> 0 400 \ n = % a \ n " pr ( I . shift_right_trunc ( I . neg p300 ) 400 ) ; Printf . printf " 0 << 1 \ n = % a \ n " pr ( I . shift_left I . zero 1 ) ; Printf . printf " 0 << 100 \ n = % a \ n " pr ( I . shift_left I . zero 100 ) ; Printf . printf " 2 << 1 \ n = % a \ n " pr ( I . shift_left p2 1 ) ; Printf . printf " 2 << 32 \ n = % a \ n " pr ( I . shift_left p2 32 ) ; Printf . printf " 2 << 64 \ n = % a \ n " pr ( I . shift_left p2 64 ) ; Printf . printf " 2 << 299 \ n = % a \ n " pr ( I . shift_left p2 299 ) ; Printf . printf " 2 ^ 120 << 1 \ n = % a \ n " pr ( I . shift_left p120 1 ) ; Printf . printf " 2 ^ 120 << 180 \ n = % a \ n " pr ( I . shift_left p120 180 ) ; Printf . printf " compare 1 2 \ n = % i \ n " ( I . compare I . one p2 ) ; Printf . printf " compare 1 1 \ n = % i \ n " ( I . compare I . one I . one ) ; Printf . printf " compare 2 1 \ n = % i \ n " ( I . compare p2 I . one ) ; Printf . printf " compare 2 ^ 300 2 ^ 120 \ n = % i \ n " ( I . compare p300 p120 ) ; Printf . printf " compare 2 ^ 120 2 ^ 120 \ n = % i \ n " ( I . compare p120 p120 ) ; Printf . printf " compare 2 ^ 120 2 ^ 300 \ n = % i \ n " ( I . compare p120 p300 ) ; Printf . printf " compare 2 ^ 121 2 ^ 120 \ n = % i \ n " ( I . compare p121 p120 ) ; Printf . printf " compare 2 ^ 120 2 ^ 121 \ n = % i \ n " ( I . compare p120 p121 ) ; Printf . printf " compare 2 ^ 300 - 2 ^ 120 \ n = % i \ n " ( I . compare p300 ( I . neg p120 ) ) ; Printf . printf " compare 2 ^ 120 - 2 ^ 120 \ n = % i \ n " ( I . compare p120 ( I . neg p120 ) ) ; Printf . printf " compare 2 ^ 120 - 2 ^ 300 \ n = % i \ n " ( I . compare p120 ( I . neg p300 ) ) ; Printf . printf " compare - 2 ^ 300 2 ^ 120 \ n = % i \ n " ( I . compare ( I . neg p300 ) p120 ) ; Printf . printf " compare - 2 ^ 120 2 ^ 120 \ n = % i \ n " ( I . compare ( I . neg p120 ) p120 ) ; Printf . printf " compare - 2 ^ 120 2 ^ 300 \ n = % i \ n " ( I . compare ( I . neg p120 ) p300 ) ; Printf . printf " compare - 2 ^ 300 - 2 ^ 120 \ n = % i \ n " ( I . compare ( I . neg p300 ) ( I . neg p120 ) ) ; Printf . printf " compare - 2 ^ 120 - 2 ^ 120 \ n = % i \ n " ( I . compare ( I . neg p120 ) ( I . neg p120 ) ) ; Printf . printf " compare - 2 ^ 120 - 2 ^ 300 \ n = % i \ n " ( I . compare ( I . neg p120 ) ( I . neg p300 ) ) ; Printf . printf " equal 1 2 \ n = % B \ n " ( I . equal I . one p2 ) ; Printf . printf " equal 1 1 \ n = % B \ n " ( I . equal I . one I . one ) ; Printf . printf " equal 2 1 \ n = % B \ n " ( I . equal p2 I . one ) ; Printf . printf " equal 2 ^ 300 2 ^ 120 \ n = % B \ n " ( I . equal p300 p120 ) ; Printf . printf " equal 2 ^ 120 2 ^ 120 \ n = % B \ n " ( I . equal p120 p120 ) ; Printf . printf " equal 2 ^ 120 2 ^ 300 \ n = % B \ n " ( I . equal p120 p300 ) ; Printf . printf " equal 2 ^ 121 2 ^ 120 \ n = % B \ n " ( I . equal p121 p120 ) ; Printf . printf " equal 2 ^ 120 2 ^ 121 \ n = % B \ n " ( I . equal p120 p121 ) ; Printf . printf " equal 2 ^ 120 - 2 ^ 120 \ n = % B \ n " ( I . equal p120 ( I . neg p120 ) ) ; Printf . printf " equal - 2 ^ 120 2 ^ 120 \ n = % B \ n " ( I . equal ( I . neg p120 ) p120 ) ; Printf . printf " equal - 2 ^ 120 - 2 ^ 120 \ n = % B \ n " ( I . equal ( I . neg p120 ) ( I . neg p120 ) ) ; Printf . printf " sign 0 \ n = % i \ n " ( I . sign I . zero ) ; Printf . printf " sign 1 \ n = % i \ n " ( I . sign I . one ) ; Printf . printf " sign - 1 \ n = % i \ n " ( I . sign I . minus_one ) ; Printf . printf " sign 2 ^ 300 \ n = % i \ n " ( I . sign p300 ) ; Printf . printf " sign - 2 ^ 300 \ n = % i \ n " ( I . sign ( I . neg p300 ) ) ; Printf . printf " gcd 0 0 \ n = % a \ n " pr ( I . gcd I . zero I . zero ) ; Printf . printf " gcd 0 - 137 \ n = % a \ n " pr ( I . gcd ( I . of_int 0 ) ( I . of_int ( - 137 ) ) ) ; Printf . printf " gcd 12 27 \ n = % a \ n " pr ( I . gcd ( I . of_int 12 ) ( I . of_int 27 ) ) ; Printf . printf " gcd 27 12 \ n = % a \ n " pr ( I . gcd ( I . of_int 27 ) ( I . of_int 12 ) ) ; Printf . printf " gcd 27 27 \ n = % a \ n " pr ( I . gcd ( I . of_int 27 ) ( I . of_int 27 ) ) ; Printf . printf " gcd - 12 27 \ n = % a \ n " pr ( I . gcd ( I . of_int ( - 12 ) ) ( I . of_int 27 ) ) ; Printf . printf " gcd 12 - 27 \ n = % a \ n " pr ( I . gcd ( I . of_int 12 ) ( I . of_int ( - 27 ) ) ) ; Printf . printf " gcd - 12 - 27 \ n = % a \ n " pr ( I . gcd ( I . of_int ( - 12 ) ) ( I . of_int ( - 27 ) ) ) ; Printf . printf " gcd 0 2 ^ 300 \ n = % a \ n " pr ( I . gcd ( I . of_int 0 ) p300 ) ; Printf . printf " gcd 2 ^ 120 2 ^ 300 \ n = % a \ n " pr ( I . gcd p120 p300 ) ; Printf . printf " gcd 2 ^ 300 2 ^ 120 \ n = % a \ n " pr ( I . gcd p300 p120 ) ; Printf . printf " gcd 0 - 2 ^ 300 \ n = % a \ n " pr ( I . gcd ( I . of_int 0 ) ( I . neg p300 ) ) ; Printf . printf " gcd 2 ^ 120 - 2 ^ 300 \ n = % a \ n " pr ( I . gcd p120 ( I . neg p300 ) ) ; Printf . printf " gcd 2 ^ 300 - 2 ^ 120 \ n = % a \ n " pr ( I . gcd p300 ( I . neg p120 ) ) ; Printf . printf " gcd - 2 ^ 120 2 ^ 300 \ n = % a \ n " pr ( I . gcd ( I . neg p120 ) p300 ) ; Printf . printf " gcd - 2 ^ 300 2 ^ 120 \ n = % a \ n " pr ( I . gcd ( I . neg p300 ) p120 ) ; Printf . printf " gcd - 2 ^ 120 - 2 ^ 300 \ n = % a \ n " pr ( I . gcd ( I . neg p120 ) ( I . neg p300 ) ) ; Printf . printf " gcd - 2 ^ 300 - 2 ^ 120 \ n = % a \ n " pr ( I . gcd ( I . neg p300 ) ( I . neg p120 ) ) ; Printf . printf " gcdext 12 27 \ n = % a \ n " pr3 ( I . gcdext ( I . of_int 12 ) ( I . of_int 27 ) ) ; Printf . printf " gcdext 27 12 \ n = % a \ n " pr3 ( I . gcdext ( I . of_int 27 ) ( I . of_int 12 ) ) ; Printf . printf " gcdext 27 27 \ n = % a \ n " pr3 ( I . gcdext ( I . of_int 27 ) ( I . of_int 27 ) ) ; Printf . printf " gcdext - 12 27 \ n = % a \ n " pr3 ( I . gcdext ( I . of_int ( - 12 ) ) ( I . of_int 27 ) ) ; Printf . printf " gcdext 12 - 27 \ n = % a \ n " pr3 ( I . gcdext ( I . of_int 12 ) ( I . of_int ( - 27 ) ) ) ; Printf . printf " gcdext - 12 - 27 \ n = % a \ n " pr3 ( I . gcdext ( I . of_int ( - 12 ) ) ( I . of_int ( - 27 ) ) ) ; Printf . printf " gcdext 2 ^ 120 2 ^ 300 \ n = % a \ n " pr3 ( I . gcdext p120 p300 ) ; Printf . printf " gcdext 2 ^ 300 2 ^ 120 \ n = % a \ n " pr3 ( I . gcdext p300 p120 ) ; Printf . printf " gcdext 12 0 \ n = % a \ n " pr3 ( I . gcdext ( I . of_int 12 ) I . zero ) ; Printf . printf " gcdext 0 27 \ n = % a \ n " pr3 ( I . gcdext I . zero ( I . of_int 27 ) ) ; Printf . printf " gcdext - 12 0 \ n = % a \ n " pr3 ( I . gcdext ( I . of_int ( - 12 ) ) I . zero ) ; Printf . printf " gcdext 0 - 27 \ n = % a \ n " pr3 ( I . gcdext I . zero ( I . of_int ( - 27 ) ) ) ; Printf . printf " gcdext 2 ^ 120 0 \ n = % a \ n " pr3 ( I . gcdext p120 I . zero ) ; Printf . printf " gcdext 0 2 ^ 300 \ n = % a \ n " pr3 ( I . gcdext I . zero p300 ) ; Printf . printf " gcdext - 2 ^ 120 0 \ n = % a \ n " pr3 ( I . gcdext ( I . neg p120 ) I . zero ) ; Printf . printf " gcdext 0 - 2 ^ 300 \ n = % a \ n " pr3 ( I . gcdext I . zero ( I . neg p300 ) ) ; Printf . printf " gcdext 0 0 \ n = % a \ n " pr3 ( I . gcdext I . zero I . zero ) ; Printf . printf " lcm 0 0 = % a \ n " pr ( I . lcm I . zero I . zero ) ; Printf . printf " lcm 10 12 = % a \ n " pr ( I . lcm ( I . of_int 10 ) ( I . of_int 12 ) ) ; Printf . printf " lcm - 10 12 = % a \ n " pr ( I . lcm ( I . of_int ( - 10 ) ) ( I . of_int 12 ) ) ; Printf . printf " lcm 10 - 12 = % a \ n " pr ( I . lcm ( I . of_int 10 ) ( I . of_int ( - 12 ) ) ) ; Printf . printf " lcm - 10 - 12 = % a \ n " pr ( I . lcm ( I . of_int ( - 10 ) ) ( I . of_int ( - 12 ) ) ) ; Printf . printf " lcm 0 12 = % a \ n " pr ( I . lcm I . zero ( I . of_int 12 ) ) ; Printf . printf " lcm 0 - 12 = % a \ n " pr ( I . lcm I . zero ( I . of_int ( - 12 ) ) ) ; Printf . printf " lcm 10 0 = % a \ n " pr ( I . lcm ( I . of_int 10 ) I . zero ) ; Printf . printf " lcm - 10 0 = % a \ n " pr ( I . lcm ( I . of_int ( - 10 ) ) I . zero ) ; Printf . printf " lcm 2 ^ 120 2 ^ 300 = % a \ n " pr ( I . lcm p120 p300 ) ; Printf . printf " lcm 2 ^ 120 - 2 ^ 300 = % a \ n " pr ( I . lcm p120 ( I . neg p300 ) ) ; Printf . printf " lcm - 2 ^ 120 2 ^ 300 = % a \ n " pr ( I . lcm ( I . neg p120 ) p300 ) ; Printf . printf " lcm - 2 ^ 120 - 2 ^ 300 = % a \ n " pr ( I . lcm ( I . neg p120 ) ( I . neg p300 ) ) ; Printf . printf " lcm 2 ^ 120 0 = % a \ n " pr ( I . lcm p120 I . zero ) ; Printf . printf " lcm - 2 ^ 120 0 = % a \ n " pr ( I . lcm ( I . neg p120 ) I . zero ) ; Printf . printf " is_odd 0 \ n = % b \ n " ( I . is_odd ( Z . of_int 0 ) ) ; Printf . printf " is_odd 1 \ n = % b \ n " ( I . is_odd ( Z . of_int 1 ) ) ; Printf . printf " is_odd 2 \ n = % b \ n " ( I . is_odd ( Z . of_int 2 ) ) ; Printf . printf " is_odd 3 \ n = % b \ n " ( I . is_odd ( Z . of_int 3 ) ) ; Printf . printf " is_odd 2 ^ 120 \ n = % b \ n " ( I . is_odd p120 ) ; Printf . printf " is_odd 2 ^ 120 + 1 \ n = % b \ n " ( I . is_odd ( Z . succ p120 ) ) ; Printf . printf " is_odd 2 ^ 300 \ n = % b \ n " ( I . is_odd p300 ) ; Printf . printf " is_odd 2 ^ 300 + 1 \ n = % b \ n " ( I . is_odd ( Z . succ p300 ) ) ; Printf . printf " sqrt 0 \ n = % a \ n " pr ( I . sqrt I . zero ) ; Printf . printf " sqrt 1 \ n = % a \ n " pr ( I . sqrt I . one ) ; Printf . printf " sqrt 2 \ n = % a \ n " pr ( I . sqrt p2 ) ; Printf . printf " sqrt 2 ^ 120 \ n = % a \ n " pr ( I . sqrt p120 ) ; Printf . printf " sqrt 2 ^ 121 \ n = % a \ n " pr ( I . sqrt p121 ) ; Printf . printf " sqrt_rem 0 \ n = % a \ n " pr2 ( I . sqrt_rem I . zero ) ; Printf . printf " sqrt_rem 1 \ n = % a \ n " pr2 ( I . sqrt_rem I . one ) ; Printf . printf " sqrt_rem 2 \ n = % a \ n " pr2 ( I . sqrt_rem p2 ) ; Printf . printf " sqrt_rem 2 ^ 120 \ n = % a \ n " pr2 ( I . sqrt_rem p120 ) ; Printf . printf " sqrt_rem 2 ^ 121 \ n = % a \ n " pr2 ( I . sqrt_rem p121 ) ; Printf . printf " popcount 0 \ n = % i \ n " ( I . popcount I . zero ) ; Printf . printf " popcount 1 \ n = % i \ n " ( I . popcount I . one ) ; Printf . printf " popcount 2 \ n = % i \ n " ( I . popcount p2 ) ; Printf . printf " popcount max_int32 \ n = % i \ n " ( I . popcount maxi32 ) ; Printf . printf " popcount 2 ^ 120 \ n = % i \ n " ( I . popcount p120 ) ; Printf . printf " popcount ( 2 ^ 120 - 1 ) \ n = % i \ n " ( I . popcount ( I . pred p120 ) ) ; Printf . printf " hamdist 0 0 \ n = % i \ n " ( I . hamdist I . zero I . zero ) ; Printf . printf " hamdist 0 1 \ n = % i \ n " ( I . hamdist I . zero I . one ) ; Printf . printf " hamdist 0 2 ^ 300 \ n = % i \ n " ( I . hamdist I . zero p300 ) ; Printf . printf " hamdist 2 ^ 120 2 ^ 120 \ n = % i \ n " ( I . hamdist p120 p120 ) ; Printf . printf " hamdist 2 ^ 120 ( 2 ^ 120 - 1 ) \ n = % i \ n " ( I . hamdist p120 ( I . pred p120 ) ) ; Printf . printf " hamdist 2 ^ 120 2 ^ 300 \ n = % i \ n " ( I . hamdist p120 p300 ) ; Printf . printf " hamdist ( 2 ^ 120 - 1 ) ( 2 ^ 300 - 1 ) \ n = % i \ n " ( I . hamdist ( I . pred p120 ) ( I . pred p300 ) ) ; Printf . printf " hash ( 2 ^ 120 ) \ n = % i \ n " ( Hashtbl . hash p120 ) ; Printf . printf " hash ( 2 ^ 121 ) \ n = % i \ n " ( Hashtbl . hash p121 ) ; Printf . printf " hash ( 2 ^ 300 ) \ n = % i \ n " ( Hashtbl . hash p300 ) ; Printf . printf " 2 ^ 120 = 2 ^ 300 \ n = % B \ n " ( p120 = p300 ) ; Printf . printf " 2 ^ 120 = 2 ^ 120 \ n = % B \ n " ( p120 = p120 ) ; Printf . printf " 2 ^ 120 = 2 ^ 120 \ n = % B \ n " ( p120 = ( pow2 120 ) ) ; Printf . printf " 2 ^ 120 > 2 ^ 300 \ n = % B \ n " ( p120 > p300 ) ; Printf . printf " 2 ^ 120 < 2 ^ 300 \ n = % B \ n " ( p120 < p300 ) ; Printf . printf " 2 ^ 120 = 1 \ n = % B \ n " ( p120 = I . one ) ; Printf . printf " 2 ^ 120 > 1 \ n = % B \ n " ( p120 > I . one ) ; Printf . printf " 2 ^ 120 < 1 \ n = % B \ n " ( p120 < I . one ) ; Printf . printf " - 2 ^ 120 > 1 \ n = % B \ n " ( ( I . neg p120 ) > I . one ) ; Printf . printf " - 2 ^ 120 < 1 \ n = % B \ n " ( ( I . neg p120 ) < I . one ) ; Printf . printf " demarshal 2 ^ 120 , 2 ^ 300 , 1 \ n = % a \ n " pr3 ( Marshal . from_string ( Marshal . to_string ( p120 , p300 , I . one ) [ ] ) 0 ) ; Printf . printf " demarshal - 2 ^ 120 , - 2 ^ 300 , - 1 \ n = % a \ n " pr3 ( Marshal . from_string ( Marshal . to_string ( I . neg p120 , I . neg p300 , I . minus_one ) [ ] ) 0 ) ; Printf . printf " format %% i 0 = /% s /\ n " ( I . format " % i " I . zero ) ; Printf . printf " format %% i 1 = /% s /\ n " ( I . format " % i " I . one ) ; Printf . printf " format %% i - 1 = /% s /\ n " ( I . format " % i " I . minus_one ) ; Printf . printf " format %% i 2 ^ 30 = /% s /\ n " ( I . format " % i " p30 ) ; Printf . printf " format %% i - 2 ^ 30 = /% s /\ n " ( I . format " % i " ( I . neg p30 ) ) ; Printf . printf " format %% i 1 = /% s /\ n " ( I . format " % i " I . one ) ; Printf . printf " format %%+ i 1 = /% s /\ n " ( I . format " %+ i " I . one ) ; Printf . printf " format %% x 0 = /% s /\ n " ( I . format " % x " I . zero ) ; Printf . printf " format %% x 1 = /% s /\ n " ( I . format " % x " I . one ) ; Printf . printf " format %% x - 1 = /% s /\ n " ( I . format " % x " I . minus_one ) ; Printf . printf " format %% x 2 ^ 30 = /% s /\ n " ( I . format " % x " p30 ) ; Printf . printf " format %% x - 2 ^ 30 = /% s /\ n " ( I . format " % x " ( I . neg p30 ) ) ; Printf . printf " format %% X 0 = /% s /\ n " ( I . format " % X " I . zero ) ; Printf . printf " format %% X 1 = /% s /\ n " ( I . format " % X " I . one ) ; Printf . printf " format %% X - 1 = /% s /\ n " ( I . format " % X " I . minus_one ) ; Printf . printf " format %% X 2 ^ 30 = /% s /\ n " ( I . format " % X " p30 ) ; Printf . printf " format %% X - 2 ^ 30 = /% s /\ n " ( I . format " % X " ( I . neg p30 ) ) ; Printf . printf " format %% o 0 = /% s /\ n " ( I . format " % o " I . zero ) ; Printf . printf " format %% o 1 = /% s /\ n " ( I . format " % o " I . one ) ; Printf . printf " format %% o - 1 = /% s /\ n " ( I . format " % o " I . minus_one ) ; Printf . printf " format %% o 2 ^ 30 = /% s /\ n " ( I . format " % o " p30 ) ; Printf . printf " format %% o - 2 ^ 30 = /% s /\ n " ( I . format " % o " ( I . neg p30 ) ) ; Printf . printf " format %% 10i 0 = /% s /\ n " ( I . format " % 10i " I . zero ) ; Printf . printf " format %% 10i 1 = /% s /\ n " ( I . format " % 10i " I . one ) ; Printf . printf " format %% 10i - 1 = /% s /\ n " ( I . format " % 10i " I . minus_one ) ; Printf . printf " format %% 10i 2 ^ 30 = /% s /\ n " ( I . format " % 10i " p30 ) ; Printf . printf " format %% 10i - 2 ^ 30 = /% s /\ n " ( I . format " % 10i " ( I . neg p30 ) ) ; Printf . printf " format %%- 10i 0 = /% s /\ n " ( I . format " %- 10i " I . zero ) ; Printf . printf " format %%- 10i 1 = /% s /\ n " ( I . format " %- 10i " I . one ) ; Printf . printf " format %%- 10i - 1 = /% s /\ n " ( I . format " %- 10i " I . minus_one ) ; Printf . printf " format %%- 10i 2 ^ 30 = /% s /\ n " ( I . format " %- 10i " p30 ) ; Printf . printf " format %%- 10i - 2 ^ 30 = /% s /\ n " ( I . format " %- 10i " ( I . neg p30 ) ) ; Printf . printf " format %%+ 10i 0 = /% s /\ n " ( I . format " %+ 10i " I . zero ) ; Printf . printf " format %%+ 10i 1 = /% s /\ n " ( I . format " %+ 10i " I . one ) ; Printf . printf " format %%+ 10i - 1 = /% s /\ n " ( I . format " %+ 10i " I . minus_one ) ; Printf . printf " format %%+ 10i 2 ^ 30 = /% s /\ n " ( I . format " %+ 10i " p30 ) ; Printf . printf " format %%+ 10i - 2 ^ 30 = /% s /\ n " ( I . format " %+ 10i " ( I . neg p30 ) ) ; Printf . printf " format %% 10i 0 = /% s /\ n " ( I . format " % 10i " I . zero ) ; Printf . printf " format %% 10i 1 = /% s /\ n " ( I . format " % 10i " I . one ) ; Printf . printf " format %% 10i - 1 = /% s /\ n " ( I . format " % 10i " I . minus_one ) ; Printf . printf " format %% 10i 2 ^ 30 = /% s /\ n " ( I . format " % 10i " p30 ) ; Printf . printf " format %% 10i - 2 ^ 30 = /% s /\ n " ( I . format " % 10i " ( I . neg p30 ) ) ; Printf . printf " format %% 010i 0 = /% s /\ n " ( I . format " % 010i " I . zero ) ; Printf . printf " format %% 010i 1 = /% s /\ n " ( I . format " % 010i " I . one ) ; Printf . printf " format %% 010i - 1 = /% s /\ n " ( I . format " % 010i " I . minus_one ) ; Printf . printf " format %% 010i 2 ^ 30 = /% s /\ n " ( I . format " % 010i " p30 ) ; Printf . printf " format %% 010i - 2 ^ 30 = /% s /\ n " ( I . format " % 010i " ( I . neg p30 ) ) ; Printf . printf " format %%# x 0 = /% s /\ n " ( I . format " %# x " I . zero ) ; Printf . printf " format %%# x 1 = /% s /\ n " ( I . format " %# x " I . one ) ; Printf . printf " format %%# x - 1 = /% s /\ n " ( I . format " %# x " I . minus_one ) ; Printf . printf " format %%# x 2 ^ 30 = /% s /\ n " ( I . format " %# x " p30 ) ; Printf . printf " format %%# x - 2 ^ 30 = /% s /\ n " ( I . format " %# x " ( I . neg p30 ) ) ; Printf . printf " format %%# X 0 = /% s /\ n " ( I . format " %# X " I . zero ) ; Printf . printf " format %%# X 1 = /% s /\ n " ( I . format " %# X " I . one ) ; Printf . printf " format %%# X - 1 = /% s /\ n " ( I . format " %# X " I . minus_one ) ; Printf . printf " format %%# X 2 ^ 30 = /% s /\ n " ( I . format " %# X " p30 ) ; Printf . printf " format %%# X - 2 ^ 30 = /% s /\ n " ( I . format " %# X " ( I . neg p30 ) ) ; Printf . printf " format %%# o 0 = /% s /\ n " ( I . format " %# o " I . zero ) ; Printf . printf " format %%# o 1 = /% s /\ n " ( I . format " %# o " I . one ) ; Printf . printf " format %%# o - 1 = /% s /\ n " ( I . format " %# o " I . minus_one ) ; Printf . printf " format %%# o 2 ^ 30 = /% s /\ n " ( I . format " %# o " p30 ) ; Printf . printf " format %%# o - 2 ^ 30 = /% s /\ n " ( I . format " %# o " ( I . neg p30 ) ) ; Printf . printf " format %%# 10x 0 = /% s /\ n " ( I . format " %# 10x " I . zero ) ; Printf . printf " format %%# 10x 1 = /% s /\ n " ( I . format " %# 10x " I . one ) ; Printf . printf " format %%# 10x - 1 = /% s /\ n " ( I . format " %# 10x " I . minus_one ) ; Printf . printf " format %%# 10x 2 ^ 30 = /% s /\ n " ( I . format " %# 10x " p30 ) ; Printf . printf " format %%# 10x - 2 ^ 30 = /% s /\ n " ( I . format " %# 10x " ( I . neg p30 ) ) ; Printf . printf " format %%# 10X 0 = /% s /\ n " ( I . format " %# 10X " I . zero ) ; Printf . printf " format %%# 10X 1 = /% s /\ n " ( I . format " %# 10X " I . one ) ; Printf . printf " format %%# 10X - 1 = /% s /\ n " ( I . format " %# 10X " I . minus_one ) ; Printf . printf " format %%# 10X 2 ^ 30 = /% s /\ n " ( I . format " %# 10X " p30 ) ; Printf . printf " format %%# 10X - 2 ^ 30 = /% s /\ n " ( I . format " %# 10X " ( I . neg p30 ) ) ; Printf . printf " format %%# 10o 0 = /% s /\ n " ( I . format " %# 10o " I . zero ) ; Printf . printf " format %%# 10o 1 = /% s /\ n " ( I . format " %# 10o " I . one ) ; Printf . printf " format %%# 10o - 1 = /% s /\ n " ( I . format " %# 10o " I . minus_one ) ; Printf . printf " format %%# 10o 2 ^ 30 = /% s /\ n " ( I . format " %# 10o " p30 ) ; Printf . printf " format %%# 10o - 2 ^ 30 = /% s /\ n " ( I . format " %# 10o " ( I . neg p30 ) ) ; Printf . printf " format %%#- 10x 0 = /% s /\ n " ( I . format " %#- 10x " I . zero ) ; Printf . printf " format %%#- 10x 1 = /% s /\ n " ( I . format " %#- 10x " I . one ) ; Printf . printf " format %%#- 10x - 1 = /% s /\ n " ( I . format " %#- 10x " I . minus_one ) ; Printf . printf " format %%#- 10x 2 ^ 30 = /% s /\ n " ( I . format " %#- 10x " p30 ) ; Printf . printf " format %%#- 10x - 2 ^ 30 = /% s /\ n " ( I . format " %#- 10x " ( I . neg p30 ) ) ; Printf . printf " format %%#- 10X 0 = /% s /\ n " ( I . format " %#- 10X " I . zero ) ; Printf . printf " format %%#- 10X 1 = /% s /\ n " ( I . format " %#- 10X " I . one ) ; Printf . printf " format %%#- 10X - 1 = /% s /\ n " ( I . format " %#- 10X " I . minus_one ) ; Printf . printf " format %%#- 10X 2 ^ 30 = /% s /\ n " ( I . format " %#- 10X " p30 ) ; Printf . printf " format %%#- 10X - 2 ^ 30 = /% s /\ n " ( I . format " %#- 10X " ( I . neg p30 ) ) ; Printf . printf " format %%#- 10o 0 = /% s /\ n " ( I . format " %#- 10o " I . zero ) ; Printf . printf " format %%#- 10o 1 = /% s /\ n " ( I . format " %#- 10o " I . one ) ; Printf . printf " format %%#- 10o - 1 = /% s /\ n " ( I . format " %#- 10o " I . minus_one ) ; Printf . printf " format %%#- 10o 2 ^ 30 = /% s /\ n " ( I . format " %#- 10o " p30 ) ; Printf . printf " format %%#- 10o - 2 ^ 30 = /% s /\ n " ( I . format " %#- 10o " ( I . neg p30 ) ) ; let extract_testdata = let a = I . of_int 42 and b = I . of_int ( - 42 ) and c = I . of_string " 3141592653589793238462643383279502884197169399375105820974944592307816406286208998628034825342117067982148086513282306647093844609550582231725359408128481117450284102701 " in [ a , 0 , 1 ; a , 0 , 5 ; a , 0 , 32 ; a , 0 , 64 ; a , 1 , 1 ; a , 1 , 5 ; a , 1 , 32 ; a , 1 , 63 ; a , 1 , 64 ; a , 1 , 127 ; a , 1 , 128 ; a , 69 , 12 ; b , 0 , 1 ; b , 0 , 5 ; b , 0 , 32 ; b , 0 , 64 ; b , 1 , 1 ; b , 1 , 5 ; b , 1 , 32 ; b , 1 , 63 ; b , 1 , 64 ; b , 1 , 127 ; b , 1 , 128 ; b , 69 , 12 ; c , 0 , 1 ; c , 0 , 64 ; c , 128 , 1 ; c , 128 , 5 ; c , 131 , 32 ; c , 175 , 63 ; c , 277 , 123 ] in List . iter chk_extract extract_testdata ; List . iter chk_signed_extract extract_testdata ; chk_bits I . zero ; chk_bits p2 ; chk_bits ( I . neg p2 ) ; chk_bits p30 ; chk_bits ( I . neg p30 ) ; chk_bits p62 ; chk_bits ( I . neg p62 ) ; chk_bits p300 ; chk_bits p120 ; chk_bits p121 ; chk_bits maxi ; chk_bits mini ; chk_bits maxi32 ; chk_bits mini32 ; chk_bits maxi64 ; chk_bits mini64 ; chk_bits maxni ; chk_bits minni ; List . iter chk_testbit [ I . zero ; I . one ; I . of_int ( - 42 ) ; I . of_string " 31415926535897932384626433832795028841971693993751058209749445923078164062862089986 " ; I . neg ( I . shift_left ( I . of_int 123456 ) 64 ) ; ] ; List . iter chk_numbits_tz [ I . zero ; I . one ; I . of_int ( - 42 ) ; I . shift_left ( I . of_int 9999 ) 77 ; I . neg ( I . shift_left ( I . of_int 123456 ) 64 ) ; ] ; ( )