1 files changed, 70 insertions, 106 deletions

diff --git a/erts/emulator/beam/ops.tab b/erts/emulator/beam/ops.tab
index 304ce22ef2..fc53a88a3a 100644
--- a/erts/emulator/beam/ops.tab
+++ b/erts/emulator/beam/ops.tab
@@ -25,30 +25,12 @@
 # instruction transformations; thus, they never occur in BEAM files.
 #
 
-# Special instruction used to generate an error message when
-# trying to load a module compiled by the V1 compiler (R5 & R6).
-# (Specially treated in beam_load.c.)
+# The too_old_compiler/0 instruction is specially handled in beam_load.c
+# to produce a user-friendly message informing the user that the module
+# needs to be re-compiled with a modern compiler.
 
 too_old_compiler/0
-too_old_compiler
-
-#
-# Obsolete instruction usage follow. (Nowdays we use f with
-# a zero label instead of p.)
-#
-
-is_list p S => too_old_compiler
-is_nonempty_list p R => too_old_compiler
-is_nil p R => too_old_compiler
-
-is_tuple p S => too_old_compiler
-test_arity p S Arity => too_old_compiler
-
-is_integer p R => too_old_compiler
-is_float p R => too_old_compiler
-is_atom p R => too_old_compiler
-
-is_eq_exact p S1 S2 => too_old_compiler
+too_old_compiler | never() =>
 
 # In R9C and earlier, the loader used to insert special instructions inside
 # the module_info/0,1 functions. (In R10B and later, the compiler inserts
@@ -88,12 +70,42 @@ i_time_breakpoint
 i_return_time_trace
 i_return_to_trace
 i_yield
-i_global_cons
-i_global_tuple
-i_global_copy
 
 return
 
+#
+# To ensure that a "move Src x(0)" instruction can be combined
+# with the following call instruction, we need to make sure that
+# there is no line/1 instruction between the move and the call.
+#
+
+move S r | line Loc | call_ext Ar Func => \
+     line Loc | move S r | call_ext Ar Func
+move S r | line Loc | call_ext_last Ar Func=u$is_bif D => \
+     line Loc | move S r | call_ext_last Ar Func D
+move S r | line Loc | call_ext_only Ar Func=u$is_bif => \
+     line Loc | move S r | call_ext_only Ar Func
+move S r | line Loc | call Ar Func => \
+     line Loc | move S r | call Ar Func
+
+#
+# A tail-recursive call to an external function (non-BIF) will
+# never be saved on the stack, so there is no reason to keep
+# the line instruction. (The compiler did not remove the line
+# instruction because it cannot tell the difference between
+# BIFs and ordinary Erlang functions.)
+#
+
+line Loc | call_ext_last Ar Func=u$is_not_bif D => \
+     call_ext_last Ar Func D
+line Loc | call_ext_only Ar Func=u$is_not_bif => \
+     call_ext_only Ar Func
+
+line Loc | func_info M F A => func_info M F A | line Loc
+
+line I
+
+
 %macro: allocate Allocate -pack
 %macro: allocate_zero AllocateZero -pack
 %macro: allocate_heap AllocateHeap -pack
@@ -277,8 +289,6 @@ raise s s
 badarg j
 system_limit j
 
-move R R =>
-
 move C=cxy r | jump Lbl => move_jump Lbl C
 
 %macro: move_jump MoveJump -nonext
@@ -585,8 +595,6 @@ get_tuple_element Reg P Dst => i_get_tuple_element Reg P Dst | original_reg Reg
 
 original_reg Reg Pos =>
 
-get_tuple_element Reg P Dst => i_get_tuple_element Reg P Dst
-
 original_reg/2
 
 extract_next_element D1=xy | original_reg Reg P1 | get_tuple_element Reg P2 D2=xy | \
@@ -837,11 +845,11 @@ call_ext_only u==3 u$func:erlang:apply/3 => i_apply_only
 # thus there is no need to generate any return instruction.
 #
 
-call_ext_last u==1 Bif=u$bif:erlang:exit/1 D => call_bif1 Bif
-call_ext_last u==1 Bif=u$bif:erlang:throw/1 D => call_bif1 Bif
+call_ext_last u==1 Bif=u$bif:erlang:exit/1 D => call_bif Bif
+call_ext_last u==1 Bif=u$bif:erlang:throw/1 D => call_bif Bif
 
-call_ext_only u==1 Bif=u$bif:erlang:exit/1 => call_bif1 Bif
-call_ext_only u==1 Bif=u$bif:erlang:throw/1 => call_bif1 Bif
+call_ext_only u==1 Bif=u$bif:erlang:exit/1 => call_bif Bif
+call_ext_only u==1 Bif=u$bif:erlang:throw/1 => call_bif Bif
 
 #
 # The error/1 and error/2 BIFs never execute the instruction following them;
@@ -851,13 +859,13 @@ call_ext_only u==1 Bif=u$bif:erlang:throw/1 => call_bif1 Bif
 # the continuation pointer on the stack.
 #
 
-call_ext_last u==1 Bif=u$bif:erlang:error/1 D => call_bif1 Bif
-call_ext_last u==2 Bif=u$bif:erlang:error/2 D => call_bif2 Bif
+call_ext_last u==1 Bif=u$bif:erlang:error/1 D => call_bif Bif
+call_ext_last u==2 Bif=u$bif:erlang:error/2 D => call_bif Bif
 
 call_ext_only Ar=u==1 Bif=u$bif:erlang:error/1 => \
-  allocate u Ar | call_bif1 Bif
+  allocate u Ar | call_bif Bif
 call_ext_only Ar=u==2 Bif=u$bif:erlang:error/2 => \
-  allocate u Ar | call_bif2 Bif
+  allocate u Ar | call_bif Bif
 
 #
 # The yield/0 BIF is an instruction
@@ -875,47 +883,18 @@ call_ext_last u==3 u$func:erlang:hibernate/3 D => i_hibernate
 call_ext_only u==3 u$func:erlang:hibernate/3 => i_hibernate
 
 #
-# Hybrid memory architecture need special cons and tuple instructions
-# that allocate on the message area. These looks like BIFs in the BEAM code.
-#
-
-call_ext u==2 u$func:hybrid:cons/2 => i_global_cons
-call_ext_last u==2 u$func:hybrid:cons/2 D => i_global_cons | deallocate_return D
-call_ext_only Ar=u==2 u$func:hybrid:cons/2 => i_global_cons | return
-
-call_ext u==1 u$func:hybrid:tuple/1 => i_global_tuple
-call_ext_last u==1 u$func:hybrid:tuple/1 D => i_global_tuple | deallocate_return D
-call_ext_only Ar=u==1 u$func:hybrid:tuple/1 => i_global_tuple | return
-
-call_ext u==1 u$func:hybrid:copy/1 => i_global_copy
-call_ext_last u==1 u$func:hybrid:copy/1 D => i_global_copy | deallocate_return D
-call_ext_only u==1 Ar=u$func:hybrid:copy/1 => i_global_copy | return
-
-#
 # The general case for BIFs that have no special instructions.
 # A BIF used in the tail must be followed by a return instruction.
 #
 # To make trapping and stack backtraces work correctly, we make sure that
 # the continuation pointer is always stored on the stack.
 
-call_ext u==0 Bif=u$is_bif => call_bif0 Bif
-call_ext u==1 Bif=u$is_bif => call_bif1 Bif
-call_ext u==2 Bif=u$is_bif => call_bif2 Bif
-call_ext u==3 Bif=$is_bif => call_bif3 Bif
+call_ext u Bif=u$is_bif => call_bif Bif
 
-call_ext_last u==0 Bif=u$is_bif D => call_bif0 Bif | deallocate_return D
-call_ext_last u==1 Bif=u$is_bif D => call_bif1 Bif | deallocate_return D
-call_ext_last u==2 Bif=u$is_bif D => call_bif2 Bif | deallocate_return D
-call_ext_last u==3 Bif=u$is_bif D => call_bif3 Bif | deallocate_return D
+call_ext_last u Bif=u$is_bif D => call_bif Bif | deallocate_return D
 
-call_ext_only Ar=u==0 Bif=u$is_bif => \
-  allocate u Ar | call_bif0 Bif | deallocate_return u
-call_ext_only Ar=u==1 Bif=u$is_bif => \
-  allocate u Ar | call_bif1 Bif | deallocate_return u
-call_ext_only Ar=u==2 Bif=u$is_bif => \
-  allocate u Ar | call_bif2 Bif | deallocate_return u
-call_ext_only Ar=u==3 Bif=u$is_bif => \
-  allocate u Ar | call_bif3 Bif | deallocate_return u
+call_ext_only Ar=u Bif=u$is_bif => \
+  allocate u Ar | call_bif Bif | deallocate_return u
 
 #
 # Any remaining calls are calls to Erlang functions, not BIFs.
@@ -928,9 +907,9 @@ move S=c r | call_ext Ar=u Func=u$is_not_bif => i_move_call_ext S r Func
 move S=c r | call_ext_last Ar=u Func=u$is_not_bif D => i_move_call_ext_last Func D S r
 move S=c r | call_ext_only Ar=u Func=u$is_not_bif => i_move_call_ext_only Func S r 
 
-call_ext Ar=u Func        => i_call_ext Func
-call_ext_last Ar=u Func D => i_call_ext_last Func D
-call_ext_only Ar=u Func   => i_call_ext_only Func
+call_ext Ar Func        => i_call_ext Func
+call_ext_last Ar Func D => i_call_ext_last Func D
+call_ext_only Ar Func   => i_call_ext_only Func
 
 i_apply
 i_apply_last P
@@ -942,10 +921,7 @@ i_apply_fun_only
 
 i_hibernate
 
-call_bif0 e
-call_bif1 e
-call_bif2 e
-call_bif3 e
+call_bif e
 
 #
 # Calls to non-building and guard BIFs.
@@ -964,7 +940,7 @@ bif1 p Bif S1 Dst => bif1_body Bif S1 Dst
 bif1_body Bif Literal=q Dst => move Literal x | bif1_body Bif x Dst
 
 bif2 p Bif S1 S2 Dst => i_fetch S1 S2 | i_bif2_body Bif Dst
-bif2 Fail=f Bif S1 S2 Dst => i_fetch S1 S2 | i_bif2 Fail Bif Dst
+bif2 Fail Bif S1 S2 Dst => i_fetch S1 S2 | i_bif2 Fail Bif Dst
 
 i_get s d
 
@@ -1047,8 +1023,8 @@ i_move_call_ext_only e c r
 
 # Fun calls.
 
-call_fun Arity=u | deallocate D | return => i_call_fun_last Arity D
-call_fun Arity=u => i_call_fun Arity
+call_fun Arity | deallocate D | return => i_call_fun_last Arity D
+call_fun Arity => i_call_fun Arity
 
 i_call_fun I
 i_call_fun_last I P
@@ -1304,13 +1280,13 @@ i_bs_utf16_size s d
 
 bs_put_utf8 Fail=j Flags=u Literal=q => \
 	move Literal x | bs_put_utf8 Fail Flags x
-bs_put_utf8 Fail=j u Src=s => i_bs_put_utf8 Fail Src
+bs_put_utf8 Fail u Src=s => i_bs_put_utf8 Fail Src
 
 i_bs_put_utf8 j s
 
 bs_put_utf16 Fail=j Flags=u Literal=q => \
 	move Literal x | bs_put_utf16 Fail Flags x
-bs_put_utf16 Fail=j Flags=u Src=s => i_bs_put_utf16 Fail Flags Src
+bs_put_utf16 Fail Flags=u Src=s => i_bs_put_utf16 Fail Flags Src
 
 i_bs_put_utf16 j I s
 
@@ -1475,34 +1451,13 @@ bif1 Fail u$bif:erlang:trunc/1 s d => too_old_compiler
 #
 # Guard BIFs.
 #
-gc_bif1 Fail I Bif=u$bif:erlang:length/1 Src Dst=d => \
-	gen_guard_bif1(Fail, I, Bif, Src, Dst)
-
-gc_bif1 Fail I Bif=u$bif:erlang:size/1 Src Dst=d => \
-	gen_guard_bif1(Fail, I, Bif, Src, Dst)
-
-gc_bif1 Fail I Bif=u$bif:erlang:bit_size/1 Src Dst=d => \
-	gen_guard_bif1(Fail, I, Bif, Src, Dst)
-
-gc_bif1 Fail I Bif=u$bif:erlang:byte_size/1 Src Dst=d => \
-	gen_guard_bif1(Fail, I, Bif, Src, Dst)
-
-gc_bif1 Fail I Bif=u$bif:erlang:abs/1 Src Dst=d => \
-	gen_guard_bif1(Fail, I, Bif, Src, Dst)
-
-gc_bif1 Fail I Bif=u$bif:erlang:float/1 Src Dst=d => \
+gc_bif1 Fail I Bif Src Dst => \
 	gen_guard_bif1(Fail, I, Bif, Src, Dst)
 
-gc_bif1 Fail I Bif=u$bif:erlang:round/1 Src Dst=d => \
-	gen_guard_bif1(Fail, I, Bif, Src, Dst)
-
-gc_bif1 Fail I Bif=u$bif:erlang:trunc/1 Src Dst=d => \
-	gen_guard_bif1(Fail, I, Bif, Src, Dst)
-
-gc_bif2 Fail I Bif=u$bif:erlang:binary_part/2 S1 S2 Dst=d => \
+gc_bif2 Fail I Bif S1 S2 Dst => \
 	gen_guard_bif2(Fail, I, Bif, S1, S2, Dst)
 
-gc_bif3 Fail I Bif=u$bif:erlang:binary_part/3 S1 S2 S3 Dst=d => \
+gc_bif3 Fail I Bif S1 S2 S3 Dst => \
 	gen_guard_bif3(Fail, I, Bif, S1, S2, S3, Dst)
 
 i_gc_bif1 Fail Bif V=q Live D => move V x | i_gc_bif1 Fail Bif x Live D
@@ -1520,6 +1475,15 @@ ii_gc_bif3/7
 ii_gc_bif3 Fail Bif S1 S2 S3 Live D => move S1 x | i_fetch S2 S3 | i_gc_bif3 Fail Bif x Live D
 
 i_gc_bif3 j I s I d
+
+#
+# The following instruction is specially handled in beam_load.c
+# to produce a user-friendly message if an unsupported guard BIF is
+# encountered.
+#
+unsupported_guard_bif/3
+unsupported_guard_bif A B C | never() =>
+
 #
 # R13B03
 #