module Codec.Beam.Instructions
( label, func_info, on_load, line
, call, call_last, call_only, call_ext, call_ext_last, bif0, bif1, bif2, call_ext_only, apply, apply_last, gc_bif1, gc_bif2, gc_bif3
, allocate, allocate_heap, allocate_zero, allocate_heap_zero, test_heap, init', deallocate, return', trim
, send, remove_message, timeout, loop_rec, loop_rec_end, wait, wait_timeout, recv_mark, recv_set
, is_lt, is_ge, is_eq, is_ne, is_eq_exact, is_ne_exact
, is_integer, is_float, is_number, is_atom, is_pid, is_reference, is_port, is_nil, is_binary, is_list, is_nonempty_list, is_tuple, test_arity, is_boolean, is_function, is_function2, is_bitstr, is_map, is_tagged_tuple
, select_val, select_tuple_arity, jump
, move, get_list, get_tuple_element, set_tuple_element
, put_list, put_tuple, put
, badmatch, if_end, case_end
, call_fun, make_fun2
, bs_start_match2, bs_get_integer2, bs_get_float2, bs_get_binary2, bs_skip_bits2, bs_test_tail2, bs_save2, bs_restore2, bs_context_to_binary, bs_test_unit, bs_match_string, bs_append, bs_private_append
, bs_init2, bs_put_integer, bs_put_binary, bs_put_float, bs_put_string, bs_add, bs_init_writable, bs_init_bits, bs_get_utf8, bs_skip_utf8, bs_get_utf16, bs_skip_utf16, bs_get_utf32, bs_skip_utf32, bs_utf8_size, bs_put_utf8, bs_utf16_size, bs_put_utf16, bs_put_utf32
, fclearerror, fcheckerror, fmove, fconv, fadd, fsub, fmul, fdiv, fnegate
, try, try_end, try_case, try_case_end, raise, catch, catch_end
, put_map_assoc, put_map_exact, has_map_fields, get_map_elements
) where
import Codec.Beam.Internal.Syntax
import Data.Text (Text)
label
:: Label
-> Op
label a1 = Op 1 [FromNewLabel a1]
func_info
:: Text
-> Int
-> Op
func_info a1 a2 = Op 2 [FromNewFunction a1 a2, FromAtom a1, FromUntagged a2]
call
:: Int
-> Label
-> Op
call a1 a2 = Op 4 [FromUntagged a1, FromLabel a2]
call_last
:: Int
-> Label
-> Int
-> Op
call_last a1 a2 a3 = Op 5 [FromUntagged a1, FromLabel a2, FromUntagged a3]
call_only
:: Int
-> Label
-> Op
call_only a1 a2 = Op 6 [FromUntagged a1, FromLabel a2]
call_ext :: Import -> Op
call_ext a1 = Op 7 [FromUntagged (_import_arity a1), FromImport a1]
call_ext_last :: Import -> Int -> Op
call_ext_last a1 a2 = Op 8 [FromUntagged (_import_arity a1), FromImport a1, FromUntagged a2]
bif0 :: (Bif0 a1, NoGC a1, IsRegister a2) => a1 -> a2 -> Op
bif0 a1 a2 = Op 9 [FromImport (importBif0 a1), fromRegister a2]
bif1 :: (Bif1 a2, NoGC a2, IsSource a3, IsRegister a4) => Label -> a2 -> a3 -> a4 -> Op
bif1 a1 a2 a3 a4 = Op 10 [FromLabel a1, FromImport (importBif1 a2), fromSource a3, fromRegister a4]
bif2 :: (Bif2 a2, NoGC a2, IsSource a3, IsSource a4, IsRegister a5) => Label -> a2 -> a3 -> a4 -> a5 -> Op
bif2 a1 a2 a3 a4 a5 = Op 11 [FromLabel a1, FromImport (importBif2 a2), fromSource a3, fromSource a4, fromRegister a5]
allocate
:: Int
-> Int
-> Op
allocate a1 a2 = Op 12 [FromUntagged a1, FromUntagged a2]
allocate_heap
:: Int
-> Int
-> Int
-> Op
allocate_heap a1 a2 a3 = Op 13 [FromUntagged a1, FromUntagged a2, FromUntagged a3]
allocate_zero
:: Int
-> Int
-> Op
allocate_zero a1 a2 = Op 14 [FromUntagged a1, FromUntagged a2]
allocate_heap_zero
:: Int
-> Int
-> Int
-> Op
allocate_heap_zero a1 a2 a3 = Op 15 [FromUntagged a1, FromUntagged a2, FromUntagged a3]
test_heap
:: Int
-> Int
-> Op
test_heap a1 a2 = Op 16 [FromUntagged a1, FromUntagged a2]
init' :: Y -> Op
init' a1 = Op 17 [FromY a1]
deallocate :: Int -> Op
deallocate a1 = Op 18 [FromUntagged a1]
return' :: Op
return' = Op 19 []
send :: Op
send = Op 20 []
remove_message :: Op
remove_message = Op 21 []
timeout :: Op
timeout = Op 22 []
loop_rec :: Label -> X -> Op
loop_rec a1 a2 = Op 23 [FromLabel a1, FromX a2]
loop_rec_end :: Label -> Op
loop_rec_end a1 = Op 24 [FromLabel a1]
wait :: Label -> Op
wait a1 = Op 25 [FromLabel a1]
wait_timeout :: (IsSource a2) => Label -> a2 -> Op
wait_timeout a1 a2 = Op 26 [FromLabel a1, fromSource a2]
is_lt :: (IsSource a2, IsSource a3) => Label -> a2 -> a3 -> Op
is_lt a1 a2 a3 = Op 39 [FromLabel a1, fromSource a2, fromSource a3]
is_ge :: (IsSource a2, IsSource a3) => Label -> a2 -> a3 -> Op
is_ge a1 a2 a3 = Op 40 [FromLabel a1, fromSource a2, fromSource a3]
is_eq :: (IsSource a2, IsSource a3) => Label -> a2 -> a3 -> Op
is_eq a1 a2 a3 = Op 41 [FromLabel a1, fromSource a2, fromSource a3]
is_ne :: (IsSource a2, IsSource a3) => Label -> a2 -> a3 -> Op
is_ne a1 a2 a3 = Op 42 [FromLabel a1, fromSource a2, fromSource a3]
is_eq_exact :: (IsSource a2, IsSource a3) => Label -> a2 -> a3 -> Op
is_eq_exact a1 a2 a3 = Op 43 [FromLabel a1, fromSource a2, fromSource a3]
is_ne_exact :: (IsSource a2, IsSource a3) => Label -> a2 -> a3 -> Op
is_ne_exact a1 a2 a3 = Op 44 [FromLabel a1, fromSource a2, fromSource a3]
is_integer :: (IsSource a2) => Label -> a2 -> Op
is_integer a1 a2 = Op 45 [FromLabel a1, fromSource a2]
is_float :: (IsSource a2) => Label -> a2 -> Op
is_float a1 a2 = Op 46 [FromLabel a1, fromSource a2]
is_number :: (IsSource a2) => Label -> a2 -> Op
is_number a1 a2 = Op 47 [FromLabel a1, fromSource a2]
is_atom :: (IsSource a2) => Label -> a2 -> Op
is_atom a1 a2 = Op 48 [FromLabel a1, fromSource a2]
is_pid :: (IsSource a2) => Label -> a2 -> Op
is_pid a1 a2 = Op 49 [FromLabel a1, fromSource a2]
is_reference :: (IsSource a2) => Label -> a2 -> Op
is_reference a1 a2 = Op 50 [FromLabel a1, fromSource a2]
is_port :: (IsSource a2) => Label -> a2 -> Op
is_port a1 a2 = Op 51 [FromLabel a1, fromSource a2]
is_nil :: (IsSource a2) => Label -> a2 -> Op
is_nil a1 a2 = Op 52 [FromLabel a1, fromSource a2]
is_binary :: (IsSource a2) => Label -> a2 -> Op
is_binary a1 a2 = Op 53 [FromLabel a1, fromSource a2]
is_list :: (IsSource a2) => Label -> a2 -> Op
is_list a1 a2 = Op 55 [FromLabel a1, fromSource a2]
is_nonempty_list :: (IsSource a2) => Label -> a2 -> Op
is_nonempty_list a1 a2 = Op 56 [FromLabel a1, fromSource a2]
is_tuple :: (IsSource a2) => Label -> a2 -> Op
is_tuple a1 a2 = Op 57 [FromLabel a1, fromSource a2]
test_arity :: (IsSource a2) => Label -> a2 -> Int -> Op
test_arity a1 a2 a3 = Op 58 [FromLabel a1, fromSource a2, FromUntagged a3]
select_val :: (IsSource a1) => a1 -> Label -> [(Label, Source)] -> Op
select_val a1 a2 a3 = Op 59 [fromSource a1, FromLabel a2, fromDestinations a3]
select_tuple_arity :: (IsSource a1) => a1 -> Label -> [(Label, Source)] -> Op
select_tuple_arity a1 a2 a3 = Op 60 [fromSource a1, FromLabel a2, fromDestinations a3]
jump :: Label -> Op
jump a1 = Op 61 [FromLabel a1]
catch :: Y -> Label -> Op
catch a1 a2 = Op 62 [FromY a1, FromLabel a2]
catch_end :: Y -> Op
catch_end a1 = Op 63 [FromY a1]
move :: (IsSource a1, IsRegister a2) => a1 -> a2 -> Op
move a1 a2 = Op 64 [fromSource a1, fromRegister a2]
get_list
:: (IsRegister a1, IsRegister a2, IsRegister a3)
=> a1
-> a2
-> a3
-> Op
get_list a1 a2 a3 = Op 65 [fromRegister a1, fromRegister a2, fromRegister a3]
get_tuple_element
:: (IsRegister a1, IsRegister a3)
=> a1
-> Int
-> a3
-> Op
get_tuple_element a1 a2 a3 = Op 66 [fromRegister a1, FromUntagged a2, fromRegister a3]
set_tuple_element :: (IsSource a1, IsRegister a2) => a1 -> a2 -> Int -> Op
set_tuple_element a1 a2 a3 = Op 67 [fromSource a1, fromRegister a2, FromUntagged a3]
put_list
:: (IsSource a1, IsSource a2, IsRegister a3)
=> a1
-> a2
-> a3
-> Op
put_list a1 a2 a3 = Op 69 [fromSource a1, fromSource a2, fromRegister a3]
put_tuple :: (IsRegister a2) => Int -> a2 -> Op
put_tuple a1 a2 = Op 70 [FromUntagged a1, fromRegister a2]
put :: (IsSource a1) => a1 -> Op
put a1 = Op 71 [fromSource a1]
badmatch :: (IsSource a1) => a1 -> Op
badmatch a1 = Op 72 [fromSource a1]
if_end :: Op
if_end = Op 73 []
case_end :: (IsSource a1) => a1 -> Op
case_end a1 = Op 74 [fromSource a1]
call_fun
:: Int
-> Op
call_fun a1 = Op 75 [FromUntagged a1]
is_function :: (IsSource a2) => Label -> a2 -> Op
is_function a1 a2 = Op 77 [FromLabel a1, fromSource a2]
call_ext_only :: Import -> Op
call_ext_only a1 = Op 78 [FromUntagged (_import_arity a1), FromImport a1]
bs_put_integer :: (IsSource a2, IsSource a5) => Label -> a2 -> Int -> Int -> a5 -> Op
bs_put_integer a1 a2 a3 a4 a5 = Op 89 [FromLabel a1, fromSource a2, FromUntagged a3, FromUntagged a4, fromSource a5]
bs_put_binary :: (IsSource a2, IsSource a5) => Label -> a2 -> Int -> Int -> a5 -> Op
bs_put_binary a1 a2 a3 a4 a5 = Op 90 [FromLabel a1, fromSource a2, FromUntagged a3, FromUntagged a4, fromSource a5]
bs_put_float :: (IsSource a2, IsSource a5) => Label -> a2 -> Int -> Int -> a5 -> Op
bs_put_float a1 a2 a3 a4 a5 = Op 91 [FromLabel a1, fromSource a2, FromUntagged a3, FromUntagged a4, fromSource a5]
bs_put_string :: Int -> Int -> Op
bs_put_string a1 a2 = Op 92 [FromUntagged a1, FromUntagged a2]
fclearerror :: Op
fclearerror = Op 94 []
fcheckerror :: Label -> Op
fcheckerror a1 = Op 95 [FromLabel a1]
fmove :: (IsSourceF a1, IsRegisterF a2) => a1 -> a2 -> Op
fmove a1 a2 = Op 96 [fromSourceF a1, fromRegisterF a2]
fconv :: (IsSource a1) => a1 -> F -> Op
fconv a1 a2 = Op 97 [fromSource a1, FromF a2]
fadd :: F -> F -> F -> Op
fadd a1 a2 a3 = Op 98 [FromLabel (Label 0), FromF a1, FromF a2, FromF a3]
fsub :: F -> F -> F -> Op
fsub a1 a2 a3 = Op 99 [FromLabel (Label 0), FromF a1, FromF a2, FromF a3]
fmul :: F -> F -> F -> Op
fmul a1 a2 a3 = Op 100 [FromLabel (Label 0), FromF a1, FromF a2, FromF a3]
fdiv :: F -> F -> F -> Op
fdiv a1 a2 a3 = Op 101 [FromLabel (Label 0), FromF a1, FromF a2, FromF a3]
fnegate :: F -> F -> Op
fnegate a1 a2 = Op 102 [FromLabel (Label 0), FromF a1, FromF a2]
make_fun2 :: Lambda -> Op
make_fun2 a1 = Op 103 [FromLambda a1]
try :: Y -> Label -> Op
try a1 a2 = Op 104 [FromY a1, FromLabel a2]
try_end :: Y -> Op
try_end a1 = Op 105 [FromY a1]
try_case :: Y -> Op
try_case a1 = Op 106 [FromY a1]
try_case_end :: (IsSource a1) => a1 -> Op
try_case_end a1 = Op 107 [fromSource a1]
raise :: (IsSource a1, IsSource a2) => a1 -> a2 -> Op
raise a1 a2 = Op 108 [fromSource a1, fromSource a2]
bs_init2 :: (IsSource a2, IsRegister a6) => Label -> a2 -> Int -> Int -> Int -> a6 -> Op
bs_init2 a1 a2 a3 a4 a5 a6 = Op 109 [FromLabel a1, fromSource a2, FromUntagged a3, FromUntagged a4, FromUntagged a5, fromRegister a6]
bs_add :: (IsSource a2, IsSource a3, IsRegister a5) => Label -> a2 -> a3 -> Int -> a5 -> Op
bs_add a1 a2 a3 a4 a5 = Op 111 [FromLabel a1, fromSource a2, fromSource a3, FromUntagged a4, fromRegister a5]
apply
:: Int
-> Op
apply a1 = Op 112 [FromUntagged a1]
apply_last
:: Int
-> Int
-> Op
apply_last a1 a2 = Op 113 [FromUntagged a1, FromUntagged a2]
is_boolean :: (IsSource a2) => Label -> a2 -> Op
is_boolean a1 a2 = Op 114 [FromLabel a1, fromSource a2]
is_function2
:: (IsSource a2, IsSource a3)
=> Label
-> a2
-> a3
-> Op
is_function2 a1 a2 a3 = Op 115 [FromLabel a1, fromSource a2, fromSource a3]
bs_start_match2 :: (IsSource a2, IsRegister a5) => Label -> a2 -> Int -> Int -> a5 -> Op
bs_start_match2 a1 a2 a3 a4 a5 = Op 116 [FromLabel a1, fromSource a2, FromUntagged a3, FromUntagged a4, fromRegister a5]
bs_get_integer2 :: (IsSource a4, IsRegister a7) => Label -> X -> Int -> a4 -> Int -> Int -> a7 -> Op
bs_get_integer2 a1 a2 a3 a4 a5 a6 a7 = Op 117 [FromLabel a1, FromX a2, FromUntagged a3, fromSource a4, FromUntagged a5, FromUntagged a6, fromRegister a7]
bs_get_float2 :: (IsSource a4, IsRegister a7) => Label -> X -> Int -> a4 -> Int -> Int -> a7 -> Op
bs_get_float2 a1 a2 a3 a4 a5 a6 a7 = Op 118 [FromLabel a1, FromX a2, FromUntagged a3, fromSource a4, FromUntagged a5, FromUntagged a6, fromRegister a7]
bs_get_binary2 :: (IsSource a4, IsRegister a7) => Label -> X -> Int -> a4 -> Int -> Int -> a7 -> Op
bs_get_binary2 a1 a2 a3 a4 a5 a6 a7 = Op 119 [FromLabel a1, FromX a2, FromUntagged a3, fromSource a4, FromUntagged a5, FromUntagged a6, fromRegister a7]
bs_skip_bits2 :: (IsSource a3) => Label -> X -> a3 -> Int -> Int -> Op
bs_skip_bits2 a1 a2 a3 a4 a5 = Op 120 [FromLabel a1, FromX a2, fromSource a3, FromUntagged a4, FromUntagged a5]
bs_test_tail2 :: Label -> X -> Int -> Op
bs_test_tail2 a1 a2 a3 = Op 121 [FromLabel a1, FromX a2, FromUntagged a3]
bs_save2 :: (IsRegister a1) => a1 -> Int -> Op
bs_save2 a1 a2 = Op 122 [fromRegister a1, FromUntagged a2]
bs_restore2 :: (IsRegister a1) => a1 -> Int -> Op
bs_restore2 a1 a2 = Op 123 [fromRegister a1, FromUntagged a2]
gc_bif1
:: (Bif1 a3, IsSource a4, IsRegister a5)
=> Label
-> Int
-> a3
-> a4
-> a5
-> Op
gc_bif1 a1 a2 a3 a4 a5 = Op 124 [FromLabel a1, FromUntagged a2, FromImport (importBif1 a3), fromSource a4, fromRegister a5]
gc_bif2 :: (Bif2 a3, IsSource a4, IsSource a5, IsRegister a6) => Label -> Int -> a3 -> a4 -> a5 -> a6 -> Op
gc_bif2 a1 a2 a3 a4 a5 a6 = Op 125 [FromLabel a1, FromUntagged a2, FromImport (importBif2 a3), fromSource a4, fromSource a5, fromRegister a6]
is_bitstr :: (IsSource a2) => Label -> a2 -> Op
is_bitstr a1 a2 = Op 129 [FromLabel a1, fromSource a2]
bs_context_to_binary :: (IsRegister a1) => a1 -> Op
bs_context_to_binary a1 = Op 130 [fromRegister a1]
bs_test_unit :: Label -> X -> Int -> Op
bs_test_unit a1 a2 a3 = Op 131 [FromLabel a1, FromX a2, FromUntagged a3]
bs_match_string :: Label -> X -> Int -> Int -> Op
bs_match_string a1 a2 a3 a4 = Op 132 [FromLabel a1, FromX a2, FromUntagged a3, FromUntagged a4]
bs_init_writable :: Op
bs_init_writable = Op 133 []
bs_append :: (IsSource a2, IsSource a6, IsRegister a8) => Label -> a2 -> Int -> Int -> Int -> a6 -> Int -> a8 -> Op
bs_append a1 a2 a3 a4 a5 a6 a7 a8 = Op 134 [FromLabel a1, fromSource a2, FromUntagged a3, FromUntagged a4, FromUntagged a5, fromSource a6, FromUntagged a7, fromRegister a8]
bs_private_append :: (IsSource a2, IsSource a4, IsRegister a6) => Label -> a2 -> Int -> a4 -> Int -> a6 -> Op
bs_private_append a1 a2 a3 a4 a5 a6 = Op 135 [FromLabel a1, fromSource a2, FromUntagged a3, fromSource a4, FromUntagged a5, fromRegister a6]
trim
:: Int
-> Int
-> Op
trim a1 a2 = Op 136 [FromUntagged a1, FromUntagged a2]
bs_init_bits :: (IsSource a2, IsRegister a6) => Label -> a2 -> Int -> Int -> Int -> a6 -> Op
bs_init_bits a1 a2 a3 a4 a5 a6 = Op 137 [FromLabel a1, fromSource a2, FromUntagged a3, FromUntagged a4, FromUntagged a5, fromRegister a6]
bs_get_utf8 :: (IsRegister a5) => Label -> X -> Int -> Int -> a5 -> Op
bs_get_utf8 a1 a2 a3 a4 a5 = Op 138 [FromLabel a1, FromX a2, FromUntagged a3, FromUntagged a4, fromRegister a5]
bs_skip_utf8 :: Label -> X -> Int -> Int -> Op
bs_skip_utf8 a1 a2 a3 a4 = Op 139 [FromLabel a1, FromX a2, FromUntagged a3, FromUntagged a4]
bs_get_utf16 :: (IsRegister a5) => Label -> X -> Int -> Int -> a5 -> Op
bs_get_utf16 a1 a2 a3 a4 a5 = Op 140 [FromLabel a1, FromX a2, FromUntagged a3, FromUntagged a4, fromRegister a5]
bs_skip_utf16 :: Label -> X -> Int -> Int -> Op
bs_skip_utf16 a1 a2 a3 a4 = Op 141 [FromLabel a1, FromX a2, FromUntagged a3, FromUntagged a4]
bs_get_utf32 :: (IsRegister a5) => Label -> X -> Int -> Int -> a5 -> Op
bs_get_utf32 a1 a2 a3 a4 a5 = Op 142 [FromLabel a1, FromX a2, FromUntagged a3, FromUntagged a4, fromRegister a5]
bs_skip_utf32 :: Label -> X -> Int -> Int -> Op
bs_skip_utf32 a1 a2 a3 a4 = Op 143 [FromLabel a1, FromX a2, FromUntagged a3, FromUntagged a4]
bs_utf8_size :: (IsSource a2, IsRegister a3) => Label -> a2 -> a3 -> Op
bs_utf8_size a1 a2 a3 = Op 144 [FromLabel a1, fromSource a2, fromRegister a3]
bs_put_utf8 :: (IsSource a3) => Label -> Int -> a3 -> Op
bs_put_utf8 a1 a2 a3 = Op 145 [FromLabel a1, FromUntagged a2, fromSource a3]
bs_utf16_size :: (IsSource a2, IsRegister a3) => Label -> a2 -> a3 -> Op
bs_utf16_size a1 a2 a3 = Op 146 [FromLabel a1, fromSource a2, fromRegister a3]
bs_put_utf16 :: (IsSource a3) => Label -> Int -> a3 -> Op
bs_put_utf16 a1 a2 a3 = Op 147 [FromLabel a1, FromUntagged a2, fromSource a3]
bs_put_utf32 :: (IsSource a3) => Label -> Int -> a3 -> Op
bs_put_utf32 a1 a2 a3 = Op 148 [FromLabel a1, FromUntagged a2, fromSource a3]
on_load :: Op
on_load = Op 149 []
recv_mark :: Label -> Op
recv_mark a1 = Op 150 [FromLabel a1]
recv_set :: Label -> Op
recv_set a1 = Op 151 [FromLabel a1]
gc_bif3 :: (Bif3 a3, IsSource a4, IsSource a5, IsSource a6, IsRegister a7) => Label -> Int -> a3 -> a4 -> a5 -> a6 -> a7 -> Op
gc_bif3 a1 a2 a3 a4 a5 a6 a7 = Op 152 [FromLabel a1, FromUntagged a2, FromImport (importBif3 a3), fromSource a4, fromSource a5, fromSource a6, fromRegister a7]
line :: Int -> Op
line a1 = Op 153 [FromUntagged a1]
put_map_assoc :: (IsSource a2, IsRegister a3) => Label -> a2 -> a3 -> [(Source, Source)] -> Op
put_map_assoc a1 a2 a3 a4 = Op 154 [FromLabel a1, fromSource a2, fromRegister a3, FromUntagged (length a4 + 1), fromPairs fromSource a4]
put_map_exact :: (IsSource a2, IsRegister a3) => Label -> a2 -> a3 -> [(Source, Source)] -> Op
put_map_exact a1 a2 a3 a4 = Op 155 [FromLabel a1, fromSource a2, fromRegister a3, FromUntagged (length a4 + 1), fromPairs fromSource a4]
is_map :: (IsSource a2) => Label -> a2 -> Op
is_map a1 a2 = Op 156 [FromLabel a1, fromSource a2]
has_map_fields :: (IsSource a2) => Label -> a2 -> [Source] -> Op
has_map_fields a1 a2 a3 = Op 157 [FromLabel a1, fromSource a2, FromList (map fromSource a3)]
get_map_elements
:: (IsSource a2)
=> Label
-> a2
-> [(Register, Register)]
-> Op
get_map_elements a1 a2 a3 = Op 158 [FromLabel a1, fromSource a2, fromPairs fromRegister a3]
is_tagged_tuple :: (IsSource a2) => Label -> a2 -> Int -> Text -> Op
is_tagged_tuple a1 a2 a3 a4 = Op 159 [FromLabel a1, fromSource a2, FromUntagged a3, FromAtom a4]