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default Order dec
$include <smt.sail>
$include <flow.sail>
type bits ('n : Int) = vector('n, dec, bit)
val eq_vec = {ocaml: "eq_list", lem: "eq_vec"} : forall 'n. (bits('n), bits('n)) -> bool
val eq_string = {ocaml: "eq_string", lem: "eq"} : (string, string) -> bool
val eq_real = {ocaml: "eq_real", lem: "eq"} : (real, real) -> bool
val eq_anything = {
ocaml: "(fun (x, y) -> x = y)",
interpreter: "eq_anything",
lem: "eq"
} : forall ('a : Type). ('a, 'a) -> bool
val bitvector_length = {ocaml: "length", lem: "length"} : forall 'n. bits('n) -> atom('n)
val vector_length = {ocaml: "length", lem: "length_list"} : forall 'n ('a : Type). vector('n, dec, 'a) -> atom('n)
val list_length = {ocaml: "length", lem: "length_list"} : forall ('a : Type). list('a) -> int
overload length = {bitvector_length, vector_length, list_length}
overload operator == = {eq_vec, eq_string, eq_real, eq_anything}
val vector_subrange_A = {ocaml: "subrange", lem: "subrange_vec_dec"} : forall ('n : Int) ('m : Int) ('o : Int), 'o <= 'm <= 'n.
(bits('n), atom('m), atom('o)) -> bits('m - ('o - 1))
val vector_subrange_B = {ocaml: "subrange", lem: "subrange_vec_dec"} : forall ('n : Int) ('m : Int) ('o : Int).
(bits('n), atom('m), atom('o)) -> bits('m - ('o - 1))
overload vector_subrange = {vector_subrange_A, vector_subrange_B}
val bitvector_access_A = {ocaml: "access", lem: "access_vec_dec"} : forall ('n : Int) ('m : Int), 0 <= 'm < 'n.
(bits('n), atom('m)) -> bit
val bitvector_access_B = {ocaml: "access", lem: "access_vec_dec"} : forall ('n : Int).
(bits('n), int) -> bit
val vector_access_A = {ocaml: "access", lem: "access_list_dec"} : forall ('n : Int) ('m : Int) ('a : Type), 0 <= 'm < 'n.
(vector('n, dec, 'a), atom('m)) -> 'a
val vector_access_B = {ocaml: "access", lem: "access_list_dec"} : forall ('n : Int) ('a : Type).
(vector('n, dec, 'a), int) -> 'a
overload vector_access = {bitvector_access_A, bitvector_access_B, vector_access_A, vector_access_B}
val bitvector_update_B = {ocaml: "update", lem: "update_vec_dec"} : forall 'n.
(bits('n), int, bit) -> bits('n)
val vector_update_B = {ocaml: "update", lem: "update_list_dec"} : forall 'n ('a : Type).
(vector('n, dec, 'a), int, 'a) -> vector('n, dec, 'a)
overload vector_update = {bitvector_update_B, vector_update_B}
val vector_update_subrange = {ocaml: "update_subrange", lem: "update_subrange_vec_dec"} : forall 'n 'm 'o.
(bits('n), atom('m), atom('o), bits('m - ('o - 1))) -> bits('n)
val vcons : forall ('n : Int) ('a : Type).
('a, vector('n, dec, 'a)) -> vector('n + 1, dec, 'a)
val bitvector_concat = {ocaml: "append", lem: "concat_vec"} : forall ('n : Int) ('m : Int).
(bits('n), bits('m)) -> bits('n + 'm)
val vector_concat = {ocaml: "append", lem: "append_list"} : forall ('n : Int) ('m : Int) ('a : Type).
(vector('n, dec, 'a), vector('m, dec, 'a)) -> vector('n + 'm, dec, 'a)
overload append = {bitvector_concat, vector_concat}
val not_vec = "not_vec" : forall 'n. bits('n) -> bits('n)
overload ~ = {not_bool, not_vec}
val neq_int = {lem: "neq"} : (int, int) -> bool
function neq_int (x, y) = not_bool(eq_int(x, y))
val neq_vec = {lem: "neq_vec"} : forall 'n. (bits('n), bits('n)) -> bool
function neq_vec (x, y) = not_bool(eq_vec(x, y))
val neq_anything = {lem: "neq"} : forall ('a : Type). ('a, 'a) -> bool
function neq_anything (x, y) = not_bool(x == y)
overload operator != = {neq_atom, neq_int, neq_vec, neq_anything}
val builtin_and_vec = {ocaml: "and_vec", lem: "Sail_operators.and_vec"} : forall 'n. (bits('n), bits('n)) -> bits('n)
val and_vec : forall 'n. (bits('n), bits('n)) -> bits('n)
function and_vec (xs, ys) = builtin_and_vec(xs, ys)
overload operator & = {and_bool, and_vec}
val builtin_or_vec = {ocaml: "or_vec", lem: "Sail_operators.or_vec"} : forall 'n. (bits('n), bits('n)) -> bits('n)
val or_vec : forall 'n. (bits('n), bits('n)) -> bits('n)
function or_vec (xs, ys) = builtin_or_vec(xs, ys)
overload operator | = {or_bool, or_vec}
val UInt = "uint" : forall 'n. bits('n) -> range(0, 2 ^ 'n - 1)
val SInt = "sint" : forall 'n. bits('n) -> range(- (2 ^ ('n - 1)), 2 ^ ('n - 1) - 1)
val hex_slice = "hex_slice" : forall 'n 'm. (string, atom('n), atom('m)) -> bits('n - 'm)
val __SetSlice_bits = "set_slice" : forall 'n 'm.
(atom('n), atom('m), bits('n), int, bits('m)) -> bits('n)
val __SetSlice_int = "set_slice_int" : forall 'w. (atom('w), int, int, bits('w)) -> int
val __raw_SetSlice_int : forall 'w. (atom('w), int, int, bits('w)) -> int
val __raw_GetSlice_int = "get_slice_int" : forall 'w. (atom('w), int, int) -> bits('w)
val __GetSlice_int : forall 'n. (atom('n), int, int) -> bits('n)
function __GetSlice_int (n, m, o) = __raw_GetSlice_int(n, m, o)
val __raw_SetSlice_bits : forall 'n 'w.
(atom('n), atom('w), bits('n), int, bits('w)) -> bits('n)
val __raw_GetSlice_bits : forall 'n 'w.
(atom('n), atom('w), bits('n), int) -> bits('w)
val __ShiftLeft = "shiftl" : forall 'm. (bits('m), int) -> bits('m)
val __SignExtendSlice = {lem: "exts_slice"} : forall 'm. (bits('m), int, int) -> bits('m)
val __ZeroExtendSlice = {lem: "extz_slice"} : forall 'm. (bits('m), int, int) -> bits('m)
val cast cast_unit_vec : bit -> bits(1)
function cast_unit_vec bitzero = 0b0
and cast_unit_vec bitone = 0b1
val print = "prerr_endline" : string -> unit
val putchar = "putchar" : forall ('a : Type). 'a -> unit
val concat_str = {ocaml: "concat_str", lem: "stringAppend"} : (string, string) -> string
val DecStr : int -> string
val HexStr : int -> string
val BitStr = "string_of_bits" : forall 'n. bits('n) -> string
val xor_vec = "xor_vec" : forall 'n. (bits('n), bits('n)) -> bits('n)
val int_power = {lem: "pow"} : (int, int) -> int
val real_power = {ocaml: "real_power", lem: "realPowInteger"} : (real, int) -> real
overload operator ^ = {xor_vec, int_power, real_power}
val add_range = {ocaml: "add_int", lem: "integerAdd"} : forall 'n 'm 'o 'p.
(range('n, 'm), range('o, 'p)) -> range('n + 'o, 'm + 'p)
val add_int = {ocaml: "add_int", lem: "integerAdd"} : (int, int) -> int
val add_vec = "add_vec" : forall 'n. (bits('n), bits('n)) -> bits('n)
val add_vec_int = "add_vec_int" : forall 'n. (bits('n), int) -> bits('n)
val add_real = {ocaml: "add_real", lem: "realAdd"} : (real, real) -> real
overload operator + = {add_range, add_int, add_vec, add_vec_int, add_real}
val sub_range = {ocaml: "sub_int", lem: "integerMinus"} : forall 'n 'm 'o 'p.
(range('n, 'm), range('o, 'p)) -> range('n - 'p, 'm - 'o)
val sub_int = {ocaml: "sub_int", lem: "integerMinus"} : (int, int) -> int
val "sub_vec" : forall 'n. (bits('n), bits('n)) -> bits('n)
val "sub_vec_int" : forall 'n. (bits('n), int) -> bits('n)
val sub_real = {ocaml: "sub_real", lem: "realMinus"} : (real, real) -> real
val negate_range = {ocaml: "negate", lem: "integerNegate"} : forall 'n 'm. range('n, 'm) -> range(- 'm, - 'n)
val negate_int = {ocaml: "negate", lem: "integerNegate"} : int -> int
val negate_real = {ocaml: "negate_real", lem: "realNegate"} : real -> real
overload operator - = {sub_range, sub_int, sub_vec, sub_vec_int, sub_real}
overload negate = {negate_range, negate_int, negate_real}
val mult_range = {ocaml: "mult", lem: "integerMult"} : forall 'n 'm 'o 'p.
(range('n, 'm), range('o, 'p)) -> range('n * 'o, 'm * 'p)
val mult_int = {ocaml: "mult", lem: "integerMult"} : (int, int) -> int
val mult_real = {ocaml: "mult_real", lem: "realMult"} : (real, real) -> real
overload operator * = {mult_range, mult_int, mult_real}
val Sqrt = {ocaml: "sqrt_real", lem: "realSqrt"} : real -> real
val gteq_int = "gteq" : (int, int) -> bool
val gteq_real = {ocaml: "gteq_real", lem: "gteq"} : (real, real) -> bool
overload operator >= = {gteq_atom, gteq_int, gteq_real}
val lteq_int = "lteq" : (int, int) -> bool
val lteq_real = {ocaml: "lteq_real", lem: "lteq"} : (real, real) -> bool
overload operator <= = {lteq_atom, lteq_int, lteq_real}
val gt_int = "gt" : (int, int) -> bool
val gt_real = {ocaml: "gt_real", lem: "gt"} : (real, real) -> bool
overload operator > = {gt_atom, gt_int, gt_real}
val lt_int = "lt" : (int, int) -> bool
val lt_real = {ocaml: "lt_real", lem: "lt"} : (real, real) -> bool
overload operator < = {lt_atom, lt_int, lt_real}
val RoundDown = {ocaml: "round_down", lem: "realFloor"} : real -> int
val RoundUp = {ocaml: "round_up", lem: "realCeiling"} : real -> int
val abs_int = "abs_int" : int -> int
val abs_real = "abs_real" : real -> real
overload abs = {abs, abs_int, abs_real}
val quotient_nat = {ocaml: "quotient", lem: "integerDiv"} : (nat, nat) -> nat
val quotient_real = {ocaml: "quotient_real", lem: "realDiv"} : (real, real) -> real
val quotient = {ocaml: "quotient", lem: "integerDiv"} : (int, int) -> int
overload operator / = {quotient_nat, quotient, quotient_real}
val modulus = {ocaml: "modulus", lem: "hardware_mod"} : (int, int) -> int
overload operator % = {modulus}
val Real = {ocaml: "to_real", lem: "realFromInteger"} : int -> real
val shl_int = "shl_int" : (int, int) -> int
val shr_int = "shr_int" : (int, int) -> int
val min_nat = {ocaml: "min_int", lem: "min"} : (nat, nat) -> nat
val min_int = {ocaml: "min_int", lem: "min"} : (int, int) -> int
val max_nat = {ocaml: "max_int", lem: "max"} : (nat, nat) -> nat
val max_int = {ocaml: "max_int", lem: "max"} : (int, int) -> int
overload min = {min_nat, min_int}
overload max = {max_nat, max_int}
val __WriteRAM = "write_ram" : forall 'n 'm.
(atom('m), atom('n), bits('m), bits('m), bits(8 * 'n)) -> unit
val __TraceMemoryWrite : forall 'n 'm.
(atom('n), bits('m), bits(8 * 'n)) -> unit
val __ReadRAM = "read_ram" : forall 'n 'm.
(atom('m), atom('n), bits('m), bits('m)) -> bits(8 * 'n)
val __TraceMemoryRead : forall 'n 'm. (atom('n), bits('m), bits(8 * 'n)) -> unit
val replicate_bits = "replicate_bits" : forall 'n 'm. (bits('n), atom('m)) -> bits('n * 'm)
val cast ex_nat : nat -> {'n, 'n >= 0. atom('n)}
function ex_nat 'n = n
val cast ex_int : int -> {'n, true. atom('n)}
function ex_int 'n = n
val ex_range : forall 'n 'm.
range('n, 'm) -> {'o, 'n <= 'o & 'o <= 'm. atom('o)}
val coerce_int_nat : int -> nat effect {escape}
function coerce_int_nat 'x = {
assert(constraint('x >= 0));
x
}
val slice = "slice" : forall ('n : Int) ('m : Int), 'm >= 0 & 'n >= 0.
(bits('m), int, atom('n)) -> bits('n)
val pow2 = "pow2" : forall 'n. atom('n) -> atom(2 ^ 'n)
val print_int = "print_int" : (string, int) -> unit
val print_bits = "print_bits" : forall 'n. (string, bits('n)) -> unit
val break : unit -> unit
function break () = ()
union exception = {
Error_Undefined,
Error_See : string,
Error_Implementation_Defined : string,
Error_ReservedEncoding
}
union option ('a : Type) = {
None,
Some : 'a
}
|
