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| author | Björn Gustavsson <[email protected]> | 2019-01-12 15:57:32 +0100 |
|---|---|---|
| committer | Björn Gustavsson <[email protected]> | 2019-01-16 13:06:00 +0100 |
| commit | eb0b8da6e816afde020e3f229803045f8b2bdb89 (patch) | |
| tree | 1b59ad3c0dc45ea34138495d1e0a98a5bc565ff2 /lib/compiler/src/beam_z.erl | |
| parent | c865abfcd396957e3c831a9f3dbe7922f63795be (diff) | |
| download | otp-eb0b8da6e816afde020e3f229803045f8b2bdb89.tar.gz otp-eb0b8da6e816afde020e3f229803045f8b2bdb89.tar.bz2 otp-eb0b8da6e816afde020e3f229803045f8b2bdb89.zip | |
Refactor string operands
There are two instructions that take string operands:
{bs_put_string,Fail,NumberOfBytes,{string,String}}
{bs_match_string,Fail,Register,NumberOfBits,{string,String}}
In the canonical BEAM code that is passed to beam_asm, string String
is currently represented as a list. (The string in bs_match_string is
a bitstring before the beam_z compiler pass.) That is wasteful,
because there will be unnecessary conversions between lists and
binaries.
Change the representation of String to be a binary.
Furthermore, bs_put_string is an optimization of a bs_put_binary
instruction with a literal binary operand. Currently, the
bs_put_string instruction is introduced in beam_bs. Delay the
introduction of bs_put_string to the beam_z pass. That will simplify
optimizations and allow us to do the optimization currently done
in beam_bs in a SSA pass in a future commit.
Diffstat (limited to 'lib/compiler/src/beam_z.erl')
| -rw-r--r-- | lib/compiler/src/beam_z.erl | 29 |
1 files changed, 26 insertions, 3 deletions
diff --git a/lib/compiler/src/beam_z.erl b/lib/compiler/src/beam_z.erl index 677094b3cd..415b579240 100644 --- a/lib/compiler/src/beam_z.erl +++ b/lib/compiler/src/beam_z.erl @@ -71,6 +71,31 @@ undo_renames([{get_hd,Src,Dst1},{get_tl,Src,Dst2}|Is]) -> [{get_list,Src,Dst1,Dst2}|undo_renames(Is)]; undo_renames([{get_tl,Src,Dst2},{get_hd,Src,Dst1}|Is]) -> [{get_list,Src,Dst1,Dst2}|undo_renames(Is)]; +undo_renames([{bs_put,_,{bs_put_binary,1,_}, + [{atom,all},{literal,<<>>}]}|Is]) -> + undo_renames(Is); +undo_renames([{bs_put,Fail,{bs_put_binary,1,_Flags}, + [{atom,all},{literal,BinString}]}|Is0]) -> + Bits = bit_size(BinString), + Bytes = Bits div 8, + case Bits rem 8 of + 0 -> + I = {bs_put_string,byte_size(BinString), + {string,BinString}}, + [undo_rename(I)|undo_renames(Is0)]; + Rem -> + <<Binary:Bytes/bytes,Int:Rem>> = BinString, + PutInt = {bs_put_integer,Fail,{integer,Rem},1, + {field_flags,[unsigned,big]},{integer,Int}}, + Is = [PutInt|undo_renames(Is0)], + case Binary of + <<>> -> + Is; + _ -> + [{bs_put_string,byte_size(Binary), + {string,Binary}}|Is] + end + end; undo_renames([I|Is]) -> [undo_rename(I)|undo_renames(Is)]; undo_renames([]) -> []. @@ -79,8 +104,6 @@ undo_rename({bs_put,F,{I,U,Fl},[Sz,Src]}) -> {I,F,Sz,U,Fl,Src}; undo_rename({bs_put,F,{I,Fl},[Src]}) -> {I,F,Fl,Src}; -undo_rename({bs_put,{f,0},{bs_put_string,_,_}=I,[]}) -> - I; undo_rename({bif,bs_add=I,F,[Src1,Src2,{integer,U}],Dst}) -> {I,F,[Src1,Src2,U],Dst}; undo_rename({bif,bs_utf8_size=I,F,[Src],Dst}) -> @@ -101,7 +124,7 @@ undo_rename({test,bs_match_string=Op,F,[Ctx,Bin0]}) -> 0 -> Bin0; Rem -> <<Bin0/bitstring,0:(8-Rem)>> end, - {test,Op,F,[Ctx,Bits,{string,binary_to_list(Bin)}]}; + {test,Op,F,[Ctx,Bits,{string,Bin}]}; undo_rename({put_map,Fail,assoc,S,D,R,L}) -> {put_map_assoc,Fail,S,D,R,L}; undo_rename({put_map,Fail,exact,S,D,R,L}) -> |