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annotate cpack/dml/lib/compression.pl @ 0:718306e29690 tip

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commiting public release
author Daniel Wolff
date Tue, 09 Feb 2016 21:05:06 +0100
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Daniel@0 1 /* Part of DML (Digital Music Laboratory)
Daniel@0 2 Copyright 2014-2015 Samer Abdallah, University of London
Daniel@0 3
Daniel@0 4 This program is free software; you can redistribute it and/or
Daniel@0 5 modify it under the terms of the GNU General Public License
Daniel@0 6 as published by the Free Software Foundation; either version 2
Daniel@0 7 of the License, or (at your option) any later version.
Daniel@0 8
Daniel@0 9 This program is distributed in the hope that it will be useful,
Daniel@0 10 but WITHOUT ANY WARRANTY; without even the implied warranty of
Daniel@0 11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
Daniel@0 12 GNU General Public License for more details.
Daniel@0 13
Daniel@0 14 You should have received a copy of the GNU General Public
Daniel@0 15 License along with this library; if not, write to the Free Software
Daniel@0 16 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Daniel@0 17 */
Daniel@0 18
Daniel@0 19 :- module(compression,
Daniel@0 20 [ with_transducer/3
Daniel@0 21 , stream_length/1
Daniel@0 22 , print_delimited_dcg/1
Daniel@0 23 , complexity_method/1
Daniel@0 24 , complexity/3
Daniel@0 25 , conditional_complexity/4
Daniel@0 26 , min_complexity/3
Daniel@0 27 , min_conditional_complexity/4
Daniel@0 28 , ncd/4
Daniel@0 29 , conditional_ncd/5
Daniel@0 30 , write_bytes/1
Daniel@0 31 , length_prob/3
Daniel@0 32 , with_stream_encoding/3
Daniel@0 33 , with_zlib_stream/1
Daniel@0 34 , zsync//1
Daniel@0 35 ]).
Daniel@0 36
Daniel@0 37 /** <module> Tools for applying compression programs to abitrary streams.
Daniel@0 38
Daniel@0 39 This module provides a framework for applying a range of compression and
Daniel@0 40 delta compression programs to arbitrary streams generated by Prolog code.
Daniel@0 41 In particular, the predicates complexity/3 and conditional_complexity/4
Daniel@0 42 use compression programs to estimate Kolmogorov complexity and conditional
Daniel@0 43 complexity.
Daniel@0 44
Daniel@0 45 Compression programs are invoked by a collection of shell scripts included
Daniel@0 46 with this software, in the scripts/compression subdirectory of the dml cpack.
Daniel@0 47 The method to be used is determined by a term of type compression_method:
Daniel@0 48 ==
Daniel@0 49 compression_method ---> id % no compression
Daniel@0 50 ; compress(c_method)
Daniel@0 51 ; diff(d_method,pred).
Daniel@0 52 c_method ---> lzma ; gz ; bz.
Daniel@0 53
Daniel@0 54 d_method ---> bsdiff
Daniel@0 55 ; xdelta % using xdelta3 program
Daniel@0 56 ; vcdiff % using open-vcdiff
Daniel@0 57 ; vczip % using vczip tools from AT&T
Daniel@0 58 ; xdiff % using binary to text encoding and diff
Daniel@0 59 ; zzd(c_method, d_method)
Daniel@0 60 ; zzcd(c_method, d_method)
Daniel@0 61 ; dz(d_method, c_method).
Daniel@0 62 ==
Daniel@0 63
Daniel@0 64 Currently we do not subtract an known overheads associated with redundant
Daniel@0 65 information in compression program outputs, such as 'magic bytes' in a header
Daniel@0 66 used to enable tools to recognise which program was used to compress a given file.
Daniel@0 67 */
Daniel@0 68
Daniel@0 69 :- use_module(library(settings)).
Daniel@0 70 :- use_module(library(memo)).
Daniel@0 71 :- use_module(library(process)).
Daniel@0 72 :- use_module(library(fileutils)).
Daniel@0 73 :- use_module(library(swipe)).
Daniel@0 74 :- use_module(library(dcg_core)).
Daniel@0 75 :- use_module(library(dcg_codes)).
Daniel@0 76 :- use_module(library(zlib)).
Daniel@0 77
Daniel@0 78 user:file_search_path(compression,dml(scripts/compression)).
Daniel@0 79
Daniel@0 80 :- initialization time(memo_attach(memo(compression),[])).
Daniel@0 81
Daniel@0 82 %% print_delimited_dcg(+P:phrase(list(code))) is det.
Daniel@0 83 %
Daniel@0 84 % Runs the DCG phrase to generate a list of character codes, and then
Daniel@0 85 % print the textually encoded length of the resulting list, followed by
Daniel@0 86 % a carriage return, followed by the characters themselves. Thus, the resulting
Daniel@0 87 % sequence of bytes is self-delimiting.
Daniel@0 88 print_delimited_dcg(Phrase) :-
Daniel@0 89 phrase(Phrase,Codes),
Daniel@0 90 length(Codes,Length),
Daniel@0 91 format('~d\n~s',[Length,Codes]).
Daniel@0 92
Daniel@0 93 :- meta_predicate
Daniel@0 94 complexity(+,0,-),
Daniel@0 95 min_complexity(-,0,-),
Daniel@0 96 conditional_complexity(+,0,0,-),
Daniel@0 97 min_conditional_complexity(-,0,0,-),
Daniel@0 98 conditional_ncd(+,0,0,0,-),
Daniel@0 99 ncd(+,0,0,-).
Daniel@0 100
Daniel@0 101 :- meta_predicate with_zlib_stream(//).
Daniel@0 102
Daniel@0 103 %% complexity(+Method:compression_method, +Writer:pred, -K:nonneg) is det.
Daniel@0 104 %% complexity(-Method:compression_method, +Writer:pred, -K:nonneg) is nondet.
Daniel@0 105 %% complexity(-Method:compression_method, -Writer:pred, -K:nonneg) is nondet.
Daniel@0 106 %
Daniel@0 107 % Estimates the Kolmogorov complexity in bits of the sequence of bytes written to the
Daniel@0 108 % current output stream by the goal Writer. If Writer is unbound on entry, then
Daniel@0 109 % browses the set of previously computed results, which are stored in a volatile memo.
Daniel@0 110 %
Daniel@0 111 % Method can be =|id|= for no compression, or =|compress(M)|= for compression using
Daniel@0 112 % program M. If Method is a ground term of the form =|diff(M,RefWriter)|=, then
Daniel@0 113 % complexity is estimated using a delta compression with respect to the bytes written
Daniel@0 114 % by RefWriter. Methods are described in the module header. Conditional complexity
Daniel@0 115 % can more conveniently be estimated using conditional_complexity/4.
Daniel@0 116 complexity(Method,Mod:Writer,K) :-
Daniel@0 117 ( nonvar(Writer), complexity_method(Method), ground(Method)
Daniel@0 118 *->complexity1(Method,Mod:Writer,K)
Daniel@0 119 ; browse(complexity1(Method,Mod:Writer,K))
Daniel@0 120 ).
Daniel@0 121
Daniel@0 122 execable(A) :- var(A), !, fail.
Daniel@0 123 execable((A,B)) :- !, execable(A), execable(B).
Daniel@0 124 execable(_).
Daniel@0 125
Daniel@0 126 :- volatile_memo min_complexity(-ground,+callable,-number).
Daniel@0 127 min_complexity(Best,Writer,KMin) :-
Daniel@0 128 aggregate(min(K,Meth),complexity(Meth,Writer,K),min(KMin,Best)).
Daniel@0 129
Daniel@0 130 %% conditional_complexity(+M:cc_method, +RefWriter:pred, +Writer:pred, -K:nonneg) is det.
Daniel@0 131 %
Daniel@0 132 % Estimate conditional Kolmogorov complexity of byte sequence produced by Writer
Daniel@0 133 % given bit sequence produced by RefWriter, using one of several methods:
Daniel@0 134 % ==
Daniel@0 135 % cc_method ---> id % no compression, complexity is length of data from Writer
Daniel@0 136 % ; compress(c_method) % ignore reference sequence and compress
Daniel@0 137 % ; delta(d_method) % do delta compression using given method
Daniel@0 138 % ; naive(c_method). % use naive estimate using concatentation method
Daniel@0 139 % ==
Daniel@0 140 % The naive estimate of K(x|y) is C(yx) - C(y), where C(.) is compressed length and
Daniel@0 141 % xy is simply x concatenated with y. It may give nonsensical zero results.
Daniel@0 142 % It is not the length of any concrete message that can produce x given y.
Daniel@0 143 conditional_complexity(Method,Ref,Writer,K) :-
Daniel@0 144 ( Method=delta(Diff), M=diff(Diff,Ref)
Daniel@0 145 % ; Method=compress(C), M=compress(C)
Daniel@0 146 % ; Method=compress(zlib), M=zlib
Daniel@0 147 ; Method=delta(zlib), M=zlib(Ref)
Daniel@0 148 ; Method=delta(dlzma), M=dlzma(Ref)
Daniel@0 149 % ; Method=id, M=id
Daniel@0 150 ),
Daniel@0 151 complexity(M,Writer,K).
Daniel@0 152
Daniel@0 153 conditional_complexity(naive(C),Ref,Writer,K) :-
Daniel@0 154 complexity(compress(C),Ref,KY),
Daniel@0 155 complexity(compress(C),(Ref,Writer),KXY),
Daniel@0 156 K is KXY - KY.
Daniel@0 157
Daniel@0 158 ncd(naive(C),Writer1,Writer2,D) :-
Daniel@0 159 complexity(compress(C),Writer1,K1),
Daniel@0 160 complexity(compress(C),Writer2,K2),
Daniel@0 161 complexity(compress(C),(Writer1,Writer2),K12),
Daniel@0 162 D is (K12 - min(K1,K2))/max(K1,K2).
Daniel@0 163
Daniel@0 164 ncd(CM-DM,Writer1,Writer2,D) :-
Daniel@0 165 complexity(CM,Writer1,K1),
Daniel@0 166 complexity(CM,Writer2,K2),
Daniel@0 167 conditional_complexity(DM,Writer1,Writer2,K2g1),
Daniel@0 168 conditional_complexity(DM,Writer2,Writer1,K1g2),
Daniel@0 169 D is max(min(K1,K1g2)/K1, min(K2,K2g1)/K2).
Daniel@0 170
Daniel@0 171 ncd(opt,Writer1,Writer2,D) :-
Daniel@0 172 min_complexity(_,Writer1,K1),
Daniel@0 173 min_complexity(_,Writer2,K2),
Daniel@0 174 min_conditional_complexity(_,Writer1,Writer2,K2g1),
Daniel@0 175 min_conditional_complexity(_,Writer2,Writer1,K1g2),
Daniel@0 176 D is max(min(K1,K1g2)/K1, min(K2,K2g1)/K2).
Daniel@0 177
Daniel@0 178 conditional_ncd(naive(Method),Ref,Writer1,Writer2,D) :-
Daniel@0 179 conditional_complexity(Method,Ref,Writer1,K1),
Daniel@0 180 conditional_complexity(Method,Ref,Writer2,K2),
Daniel@0 181 conditional_complexity(Method,Ref,(Writer1,Writer2),K12),
Daniel@0 182 D is (K12 - min(K1,K2))/max(K1,K2).
Daniel@0 183
Daniel@0 184 conditional_ncd(DM,Ref,Writer1,Writer2,D) :-
Daniel@0 185 conditional_complexity(DM,Ref,Writer1,K1),
Daniel@0 186 conditional_complexity(DM,Ref,Writer2,K2),
Daniel@0 187 conditional_complexity(DM,(Ref,Writer1),Writer2,K2g1),
Daniel@0 188 conditional_complexity(DM,(Ref,Writer2),Writer1,K1g2),
Daniel@0 189 D is max(min(K1,K1g2)/K1, min(K2,K2g1)/K2).
Daniel@0 190
Daniel@0 191 :- volatile_memo min_conditional_complexity(-ground,+callable,+callable,-number).
Daniel@0 192 min_conditional_complexity(Best,Ref,Writer,KMin) :-
Daniel@0 193 aggregate(min(K,Meth),(conditional_complexity(Meth,Ref,Writer,K),Meth\=naive(_)), min(KMin,Best)).
Daniel@0 194
Daniel@0 195 %% complexity_method(-M:compression_method) is nondet.
Daniel@0 196 complexity_method(diff(Diff,_)) :- command(diff0(Diff,library('swipe.pl')),_,_).
Daniel@0 197 complexity_method(compress(Comp)) :- command(compress(Comp),_,_).
Daniel@0 198 complexity_method(id).
Daniel@0 199 complexity_method(zlib).
Daniel@0 200 complexity_method(zlibi).
Daniel@0 201 complexity_method(zlib(_)).
Daniel@0 202 complexity_method(dlzma(_)).
Daniel@0 203
Daniel@0 204 :- persistent_memo complexity1(+ground,+callable,-number).
Daniel@0 205 complexity1(id,Writer,K) :- with_transducer(cat,Writer,stream_length(K)).
Daniel@0 206 complexity1(compress(Meth),Writer,K) :- with_transducer(compress(Meth), Writer, stream_length(K)).
Daniel@0 207 complexity1(diff(Diff,RefWriter),Writer,K) :-
Daniel@0 208 with_temp_files([F1],
Daniel@0 209 ( with_output_to_file(F1,RefWriter),
Daniel@0 210 with_transducer(diff0(Diff,F1), Writer, stream_length(K)))).
Daniel@0 211 complexity1(zlib,Writer,K) :-
Daniel@0 212 with_zlib_stream(call_zsync(Writer,K)).
Daniel@0 213
Daniel@0 214 complexity1(zlibi,Writer,K) :-
Daniel@0 215 with_zlib_stream((call_zsync(write_bytes([255]),_), call_zsync(Writer,K))).
Daniel@0 216
Daniel@0 217 complexity1(zlib(Ref),Writer,K) :-
Daniel@0 218 with_zlib_stream((call_zsync(Ref,_), call_zsync(Writer,K))).
Daniel@0 219
Daniel@0 220 complexity1(dlzma(RefWriter),Writer,K) :-
Daniel@0 221 with_temp_files([F1],
Daniel@0 222 ( with_output_to_file(F1,RefWriter),
Daniel@0 223 with_transducer(dlzma(F1,['-b0']), Writer, read_line_to_string(current_input,KString)))),
Daniel@0 224 number_string(K,KString).
Daniel@0 225
Daniel@0 226
Daniel@0 227 subs(_,_,T1,T2) :- var(T1), !, T1=T2.
Daniel@0 228 subs(Old,New,T1,T2) :- T1==Old, !, T2=New.
Daniel@0 229 subs(Old,New,T1,T2) :-
Daniel@0 230 T1 =.. [F | Args1],
Daniel@0 231 maplist(subs(Old,New),Args1,Args2),
Daniel@0 232 T2 =.. [F | Args2].
Daniel@0 233
Daniel@0 234
Daniel@0 235 % this is hopeless...
Daniel@0 236 length_prob(Meth,L,Prob) :-
Daniel@0 237 length(X,L),
Daniel@0 238 aggregate( sum(2**(-8*B)),
Daniel@0 239 X^(maplist(between(0,255),X),
Daniel@0 240 with_transducer(compress(Meth), write_bytes(X), stream_length(B)),
Daniel@0 241 format(user_error, '\r~w : ~w', [X,B])
Daniel@0 242 ),
Daniel@0 243 Prob).
Daniel@0 244
Daniel@0 245 %% write_bytes(+Bytes:list(between(0,255))) is det.
Daniel@0 246 % Writes a sequence of bytes to current_output.
Daniel@0 247 write_bytes(Bytes) :- with_stream_encoding(current_output,octet,maplist(put_code,Bytes)).
Daniel@0 248
Daniel@0 249
Daniel@0 250 % -------------------------------- Using ZLIB ------------------------------
Daniel@0 251
Daniel@0 252
Daniel@0 253 with_zlib_stream(Phrase) :-
Daniel@0 254 setup_call_cleanup(
Daniel@0 255 open_null_stream(Out),
Daniel@0 256 setup_call_cleanup(
Daniel@0 257 zopen(Out,ZOut,[level(9),close_parent(false)]),
Daniel@0 258 with_output_to(ZOut,call_dcg(Phrase,Out-0,_)),
Daniel@0 259 close(ZOut)),
Daniel@0 260 close(Out)).
Daniel@0 261
Daniel@0 262 zpos(Pos,Out-Pos,Out-Pos).
Daniel@0 263 zsync(Bits,Out-Pos0,Out-Pos1) :-
Daniel@0 264 flush_output,
Daniel@0 265 byte_count(Out,Pos1),
Daniel@0 266 ( Pos1=Pos0 -> Bits=0 % no data since last sync
Daniel@0 267 ; Bits is 8*((Pos1-Pos0)-4)-(3+3) % subtract estimate of final type 0 block.
Daniel@0 268 ).
Daniel@0 269
Daniel@0 270 call_zsync(Goal,Delta) --> {call(Goal)}, zsync(Delta).
Daniel@0 271
Daniel@0 272
Daniel@0 273 % ------ Method comparison -----
Daniel@0 274 evaluate_delta(KRel,Method) :-
Daniel@0 275 call_with_mode(browse, setof(K-Meth,conditional_complexity(Meth,_:_,_:_,K),KMeths)),
Daniel@0 276 memberchk(_-delta(_),KMeths),
Daniel@0 277 exclude(eval_exclude,KMeths,KMeths1),
Daniel@0 278 KMeths1 = [KBest-_|_],
Daniel@0 279 member(K-Method,KMeths1),
Daniel@0 280 KRel is K/KBest.
Daniel@0 281
Daniel@0 282 :- public method_rankings/2.
Daniel@0 283 method_rankings(Method,Scores) :-
Daniel@0 284 setof( Method-KRels,
Daniel@0 285 bagof(KRel, evaluate_delta(KRel,Method), KRels),
Daniel@0 286 AllScores),
Daniel@0 287 member(Method-Scores,AllScores).
Daniel@0 288
Daniel@0 289 eval_exclude(_-Method) :- exclude_method(Method).
Daniel@0 290 exclude_method(naive(_)).
Daniel@0 291 exclude_method(delta(DMethod)) :- exclude_dmethod(DMethod).
Daniel@0 292 exclude_dmethod(xdiff).
Daniel@0 293 exclude_dmethod(dz(DM,_)) :- exclude_dmethod(DM).
Daniel@0 294 exclude_dmethod(zzcd(_,DM)) :- exclude_dmethod(DM).
Daniel@0 295 exclude_dmethod(zzd(_,DM)) :- exclude_dmethod(DM).
Daniel@0 296
Daniel@0 297 delta_method(compress(C),compress(C)).
Daniel@0 298 delta_method(delta(M),delta(M)).
Daniel@0 299 delta_method(id,id).
Daniel@0 300
Daniel@0 301
Daniel@0 302 % ----------------------- Compression framework --------------------------------------
Daniel@0 303
Daniel@0 304
Daniel@0 305 swipe:def(Pipe,Def) :- def(Pipe,Def).
Daniel@0 306
Daniel@0 307 def( findcat(Dir), sh(0 >> $_, '~s ~s',[compression(findcat)+execute, file(Dir,[file_type(directory)])])).
Daniel@0 308 def( humdump(Dir), findcat(Dir) >> sh($hum >> $hum,'rid -G')).
Daniel@0 309 def( length, sh($_ >> $number, 'wc -c')).
Daniel@0 310 def( prepend(File^T), sh($T >> $T,'cat ~s -',[File+read])).
Daniel@0 311 def( prepend(_<Pipe), Pipe * cat). % sh($T >> $T,'cat ~s -',[T<Pipe])).
Daniel@0 312 def( unprepend(File^T), sh($T >> $T, 'tail -c +$((1+~s))',[$(File^T :> length)])).
Daniel@0 313 def( unprepend(T<Pipe), sh($T >> $T, 'tail -c +$((1+~s))',[$(Pipe >> length)])).
Daniel@0 314 def( compress(Method), sh( $X >> $z(Method,X), Cmd)) :- compressor(Method,Cmd,_).
Daniel@0 315 def( decompress(Method), sh( $z(Method,X) >> $X, Cmd)) :- compressor(Method,_,Cmd).
Daniel@0 316
Daniel@0 317 def( diff0(Diff,Ref), diff(Diff,Ref)).
Daniel@0 318 % def( diff0(dz(Diff,Comp),Ref), diff(Diff,Ref) >> compress(Comp)).
Daniel@0 319 def( diff(Diff,Ref), diff(Diff, encode, Ref+read)).
Daniel@0 320 % def( diff(zzd(Comp,Diff),Ref), compress(Comp) >> buf(2,diff(Diff, encode, T<(Ref^T :> compress(Comp))))).
Daniel@0 321 def( diff(zzcd(Comp,Diff),Ref), prepend(Ref^T) >> compress(Comp) >> buf(2,diff(Diff, encode, _<(Ref^T :> compress(Comp))))).
Daniel@0 322
Daniel@0 323 def( patch(Method,Ref), diff(Method, decode, Ref+read)).
Daniel@0 324 def( patch(zzd(Comp,Diff),Ref), buf(2,diff(Diff, decode, _<(Ref^_ :> compress(Comp)))) >> decompress(Comp)).
Daniel@0 325 def( patch(zzcd(Comp,Diff),Ref), buf(2,diff(Diff, decode, _<(Ref^T :> compress(Comp)))) >> decompress(Comp) >> unprepend(Ref^T)).
Daniel@0 326
Daniel@0 327 def( diff(Method,encode,RefSource), sh( $X >> $dz(Method,X), [compression(Script)+execute, encode, RefSource | Args])) :- differ(Method,Script,Args,_).
Daniel@0 328 def( diff(Method,decode,RefSource), sh( $dz(Method,X) >> $X, [compression(Script)+execute, decode, RefSource | Args])) :- differ(Method,Script,_,Args), Method\=zvcz.
Daniel@0 329 def( buf(N,Pipe), sh(Type,'~s ~d ~s',[compression(bufs)+execute, \N, \Cmd])) :- command(Pipe,Type,Cmd).
Daniel@0 330
Daniel@0 331 def( diff1(Diff,Ref), diff2(Diff, Ref)).
Daniel@0 332 def( diff1(zzd(Comp,Diff),Ref), compress(Comp) >> diff2(Diff, Ref >> compress(Comp))).
Daniel@0 333 def( diff1(zzcd(Comp,Diff),Ref), prepend(_<Ref) >> compress(Comp) >> diff2(Diff, Ref >> compress(Comp))).
Daniel@0 334 def( patch1(Diff,Ref), patch2(Diff, Ref)).
Daniel@0 335 def( patch1(zzd(Comp,Diff),Ref), patch2(Diff, Ref >> compress(Comp)) >> decompress(Comp)).
Daniel@0 336 def( patch1(zzcd(Comp,Diff),Ref), patch2(Diff, Ref >> compress(Comp)) >> decompress(Comp) >> unprepend(_<Ref)).
Daniel@0 337
Daniel@0 338 def( diff2(Method,Ref), sh( $X >> $dz(Method,X), [compression(encode)+execute, Script, X<Ref | Args])) :- differ(Method,Script,Args,_).
Daniel@0 339 def( patch2(Method,Ref), sh( $dz(Method,X) >> $X, [compression(decode)+execute, Script, X<Ref | Args])) :- differ(Method,Script,_,Args), Method\=zvcz.
Daniel@0 340
Daniel@0 341 def( dlzma(Ref,Opts), sh($X >> $dz(dlzma,X), [compression(dlzma)+execute | Args])) :-
Daniel@0 342 append(Opts,[Ref],Args).
Daniel@0 343
Daniel@0 344 % compressor(xz,xz,xzcat).
Daniel@0 345 compressor(lzma,lzma,lzcat).
Daniel@0 346 compressor(xzraw,'xz -q -F raw','xzcat -F raw').
Daniel@0 347 compressor(gz,gzip,zcat).
Daniel@0 348 compressor(bz,bzip2,bzcat).
Daniel@0 349
Daniel@0 350 contains(Diff,Diff).
Daniel@0 351 contains(dz(D1,_),D2) :- contains(D1,D2).
Daniel@0 352 contains(zzd(_,D1),D2) :- contains(D1,D2).
Daniel@0 353 contains(zzcd(_,D1),D2) :- contains(D1,D2).
Daniel@0 354
Daniel@0 355
Daniel@0 356 % :- setting(max_vczip_chain_length, nonneg, 2, 'Maximum length of vczip processing chain').
Daniel@0 357
Daniel@0 358 differ(Method,Exec,[],[]) :- differ(Method,Exec).
Daniel@0 359 differ(Method-Opts, Exec, EncArgs, []) :- differ(Method,Exec), options_for(Method,Opts,EncArgs).
Daniel@0 360 differ(vczip(vcdiff),zvcz,['-Vcdiff'],[]).
Daniel@0 361 differ(vczip(delta),zvcz,['-mdelta'],[]).
Daniel@0 362 differ(vczip(sieve),zvcz,['-msieve.delta'],[]).
Daniel@0 363 % differ(vczip(Delta,Chain,Encode),zvcz,[\Codes],[]) :-
Daniel@0 364 % setting(max_vczip_chain_length,N),
Daniel@0 365 % between(1,N,L),
Daniel@0 366 % length(Chain,L),
Daniel@0 367 % vczip_chain(Delta,Chain,Encode,Codes,[]).
Daniel@0 368
Daniel@0 369 % differ(bsdiff,zbs).
Daniel@0 370 % differ(xdelta,zxd).
Daniel@0 371 differ(vcdiff,zvcd).
Daniel@0 372 % differ(vczip,zvcz).
Daniel@0 373 % differ(xdiff,zdiff).
Daniel@0 374
Daniel@0 375 options_for(Method,Opts,Args) :-
Daniel@0 376 Opts=[_|_],
Daniel@0 377 setof(opt(Opt,Gen,A1,A2),method_option(Method,Opt,Gen,A1,A2),Possible),
Daniel@0 378 seqmap(maybe_option,Possible,Opts-Args,[]-[]).
Daniel@0 379
Daniel@0 380 maybe_option(_) --> [].
Daniel@0 381 maybe_option(opt(Opt,Gen,A1,A2),[Opt|Opts]-A1,Opts-A2) :- call(Gen).
Daniel@0 382
Daniel@0 383 method_option(xdelta, secondary(A), member(A,[djw,fgk])) --> ['-S',A].
Daniel@0 384 method_option(vcdiff, target_matches, true) --> ['-target_matches'].
Daniel@0 385
Daniel@0 386 % vczip_chain(Delta,Chain,Encode) -->
Daniel@0 387 % "-m",
Daniel@0 388 % vczip_delta(Delta), ",",
Daniel@0 389 % seqmap_with_sep(",",vczip_transform,Chain), ",",
Daniel@0 390 % vczip_encode(Encode).
Daniel@0 391
Daniel@0 392 % vczip_delta(delta) --> "delta".
Daniel@0 393 % vczip_delta(sieve) --> "sieve.delta".
Daniel@0 394
Daniel@0 395 % vczip_transform(bwt) --> "bwt".
Daniel@0 396 % vczip_transform(mtf) --> "mtf".
Daniel@0 397 % vczip_transform(rle) --> "rle".
Daniel@0 398 % vczip_transform(rle(N)) --> "rle.", {between(0,1,N)}, at(N).
Daniel@0 399
Daniel@0 400 % vczip_encode(huffman) --> "huffman".
Daniel@0 401 % vczip_encode(huffgroup) --> "huffgroup".
Daniel@0 402 % vczip_encode(huffpart) --> "huffpart".
Daniel@0 403
Daniel@0 404
Daniel@0 405 compressor_overhead(gz,18). % see http://www.onicos.com/staff/iz/formats/gzip.html, https://tools.ietf.org/html/rfc1952
Daniel@0 406 compressor_overhead(bz,4). % http://en.wikipedia.org/wiki/Bzip2 (need to know number of blocks for better estimate)
Daniel@0 407 compressor_overhead(lzma,0). % http://svn.python.org/projects/external/xz-5.0.3/doc/lzma-file-format.txt
Daniel@0 408
Daniel@0 409 % ------------------------- Pipe and file tools ----------------------------------
Daniel@0 410
Daniel@0 411 splice_in(Pipe) :- with_pipe_input(S,Pipe,copy_stream_data(current_input,S)).
Daniel@0 412 splice_out(Pipe) :-
Daniel@0 413 with_pipe_output(S,Pipe,
Daniel@0 414 ( with_stream_encoding(S,octet,
Daniel@0 415 with_stream_encoding(current_output,octet,
Daniel@0 416 copy_stream_data(S,current_output))))).
Daniel@0 417
Daniel@0 418 :- op(1050,xfy,&).
Daniel@0 419
Daniel@0 420
Daniel@0 421 %% with_transducer(+P:pipe, +Writer:pred, +Reader:pred) is det.
Daniel@0 422 % Runs a pipeline defined using the framework provided by library(swipe),
Daniel@0 423 % while concurrently sending data written by Writer to the process
Daniel@0 424 % on its standard input and making data from the standard output of the
Daniel@0 425 % process available to Reader on current_input.
Daniel@0 426 :- meta_predicate with_transducer(+,0,0).
Daniel@0 427 with_transducer(Pipe,Writer,Reader) :-
Daniel@0 428 with_pipe_io( To-From, Pipe,
Daniel@0 429 ( call_cleanup(with_output_to(To,Writer), close(To))
Daniel@0 430 & call_cleanup(with_input_from(From,Reader), close(From))
Daniel@0 431 )).
Daniel@0 432
Daniel@0 433
Daniel@0 434 A & B :- concurrent(2, [A,B], []).
Daniel@0 435
Daniel@0 436 %% with_stream_encoding(+S:stream,+E:encoding,+G:pred) is det.
Daniel@0 437 % Call goall G with encoding of stream S temporarily set to E. Encoding
Daniel@0 438 % is restored afterwards.
Daniel@0 439 :- meta_predicate with_stream_encoding(+,+,0).
Daniel@0 440 with_stream_encoding(S,Enc,Goal) :-
Daniel@0 441 stream_property(S,encoding(Old)),
Daniel@0 442 setup_call_cleanup(set_stream(S,encoding(Enc)), Goal, set_stream(S,encoding(Old))).
Daniel@0 443
Daniel@0 444 %% stream_length(-L:natural) is det.
Daniel@0 445 % Reads all the data available on Prolog stream current_input and returns the
Daniel@0 446 % number of bits consumed.
Daniel@0 447 stream_length(S,Bits) :- with_input_from(S,stream_length(Bits)).
Daniel@0 448 stream_length(Bits) :-
Daniel@0 449 with_stream_encoding(current_input,octet,accum_length(0,Bytes)),
Daniel@0 450 Bits is 8*Bytes.
Daniel@0 451
Daniel@0 452 accum_length(L,L) :- at_end_of_stream, !.
Daniel@0 453 accum_length(L1,L3) :-
Daniel@0 454 read_pending_input(current_input, Codes, []),
Daniel@0 455 length(Codes,L),
Daniel@0 456 L2 is L1 + L,
Daniel@0 457 accum_length(L2,L3).
Daniel@0 458
Daniel@0 459 with_temp_files(Files,Goal) :-
Daniel@0 460 must_be(list(var),Files),
Daniel@0 461 setup_call_cleanup(
Daniel@0 462 maplist(tmp_file_stream(binary),Files,Streams),
Daniel@0 463 (maplist(close,Streams), call(Goal)),
Daniel@0 464 maplist(delete_file,Files)).