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$ifndef _VECTOR_DEC
$define _VECTOR_DEC
$include <flow.sail>
type bits ('n : Int) = vector('n, dec, bit)
val "eq_bit" : (bit, bit) -> bool
val eq_bits = {
ocaml: "eq_list",
lem: "eq_vec",
c: "eq_bits"
} : forall 'n. (vector('n, dec, bit), vector('n, dec, bit)) -> bool
overload operator == = {eq_bit, eq_bits}
val bitvector_length = {coq: "length_mword", _:"length"} : forall 'n. bits('n) -> atom('n)
val vector_length = {
ocaml: "length",
lem: "length_list",
c: "length"
} : forall 'n ('a : Type). vector('n, dec, 'a) -> atom('n)
overload length = {bitvector_length, vector_length}
val "zeros" : forall 'n. atom('n) -> bits('n)
val "print_bits" : forall 'n. (string, bits('n)) -> unit
val "sign_extend" : forall 'n 'm, 'm >= 'n. (bits('n), atom('m)) -> bits('m)
val "zero_extend" : forall 'n 'm, 'm >= 'n. (bits('n), atom('m)) -> bits('m)
val truncate = {
ocaml: "vector_truncate",
lem: "vector_truncate",
coq: "vector_truncate",
c: "truncate"
} : forall 'm 'n, 'm <= 'n. (vector('n, dec, bit), atom('m)) -> vector('m, dec, bit)
val mask : forall 'len 'v, 'v >= 0. (atom('len), vector('v, dec, bit)) -> vector('len, dec, bit)
function mask(len, v) = if len <= length(v) then truncate(v, len) else zero_extend(v, len)
overload operator ^ = {mask}
val bitvector_concat = {ocaml: "append", lem: "concat_vec", c: "append"} : forall ('n : Int) ('m : Int).
(bits('n), bits('m)) -> bits('n + 'm)
overload append = {bitvector_concat}
/* Used for creating long bitvector literals in the C backend. */
val "append_64" : forall 'n. (bits('n), bits(64)) -> bits('n + 64)
val vector_access = {
ocaml: "access",
lem: "access_list_dec",
c: "vector_access"
} : forall ('n : Int) ('m : Int) ('a : Type), 0 <= 'm < 'n. (vector('n, dec, 'a), atom('m)) -> 'a
val vector_update = {
ocaml: "update",
lem: "update_list_dec",
c: "vector_update"
} : forall 'n ('a : Type). (vector('n, dec, 'a), int, 'a) -> vector('n, dec, 'a)
val add_bits = {
ocaml: "add_vec",
c: "add_bits"
} : forall 'n. (bits('n), bits('n)) -> bits('n)
val add_bits_int = {
ocaml: "add_vec_int",
c: "add_bits_int"
} : forall 'n. (bits('n), int) -> bits('n)
overload operator + = {add_bits, add_bits_int}
val vector_subrange = {
ocaml: "subrange",
lem: "subrange_vec_dec",
c: "vector_subrange"
} : forall ('n : Int) ('m : Int) ('o : Int), 'o <= 'm <= 'n.
(bits('n), atom('m), atom('o)) -> bits('m - ('o - 1))
val vector_update_subrange = {
ocaml: "update_subrange",
lem: "update_subrange_vec_dec",
c: "vector_update_subrange"
} : forall 'n 'm 'o. (bits('n), atom('m), atom('o), bits('m - ('o - 1))) -> bits('n)
// Some ARM specific builtins
val get_slice_int = "get_slice_int" : forall 'w. (atom('w), int, int) -> bits('w)
val set_slice_int = "set_slice_int" : forall 'w. (atom('w), int, int, bits('w)) -> int
val set_slice_bits = "set_slice" : forall 'n 'm.
(atom('n), atom('m), bits('n), int, bits('m)) -> bits('n)
val slice = "slice" : forall 'n 'm 'o, 0 <= 'o < 'm & 'o + 'n <= 'm & 0 <= 'n.
(bits('m), atom('o), atom('n)) -> bits('n)
val replicate_bits = "replicate_bits" : forall 'n 'm. (bits('n), atom('m)) -> bits('n * 'm)
val unsigned = {
ocaml: "uint",
lem: "uint",
interpreter: "uint",
c: "sail_uint"
} : forall 'n. bits('n) -> range(0, 2 ^ 'n - 1)
val signed = "sint" : forall 'n. bits('n) -> range(- (2 ^ ('n - 1)), 2 ^ ('n - 1) - 1)
$endif
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