#! /usr/bin/perl -w # Copyright (C) 2006, 2008-2010 Free Software Foundation, Inc. # # This file is part of Bison, the GNU Compiler Compiler. # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . =head1 NAME bench.pl - bench marks for Bison parsers. =head1 SYNOPSIS ./bench.pl [OPTIONS]... DIRECTIVES =head1 DIRECTIVES Specify the set of benches to run. The following grammar defines the I: directives ::= directives | directives -- Alternation | directives & directives -- Concatenation | [ directives> ] -- Optional | ( directives> ) -- Parentheses | #d NAME[=VALUE] -- %code { #define NAME [VALUE] } | %d NAME[=VALUE] -- %define NAME ["VALUE"] | %s skeleton -- %skeleton "skeleton" | directive Parentheses only group to override precedence. For instance: [ %debug ] & [ %error-verbose ] & [ %define variant ] will generate eight different cases. =head1 OPTIONS =over 4 =item B<-b>, B<--bench> Predefined benches, that is, combimation between a grammar and a I request. =over 4 =item I Test the push parser vs. the pull interface. Use the C parser. =item I Test the use of variants instead of union in the C++ parser. =back =item B<-c>, B<--cflags>=I Flags to pass to the C or C++ compiler. Defaults to -O2. =item B<-d>, B<--directive>=I Add a set of Bison directives to bench against each other. =item B<-g>, B<--grammar>=I Select the base I to use. Defaults to I. =over 4 =item I Traditional calculator. =item I C++ grammar that uses std::string and std::list. Can be used with or without %define variant. =item I Artificial grammar with very long rules. =back =item B<-h>, B<--help> Display this message and exit succesfully. The more verbose, the more details. =item B<-i>, B<--iterations>=I Say how many times a single test of the bench must be run. If negative, specify the minimum number of CPU seconds to run. Defaults to -1. =item B<-q>, B<--quiet> Decrease the verbosity level (defaults to 1). =item B<-v>, B<--verbose> Raise the verbosity level (defaults to 1). =back =cut use strict; use IO::File; ################################################################## =head1 VARIABLES =over 4 =item C<@bench> The list of benches to run. =item C<$bison> The Bison program to use to compile the grammar. =item C<$cc> The C compiler. =item C<$cxx> The C++ compiler. =item C<$cflags> Compiler flags (C or C++). =item C<@directive> A list of directive sets to measure against each other. =item C<$iterations> The number of times the parser is run for a bench. =item C<$verbose> Verbosity level. =back =cut my $bench; my $bison = $ENV{'BISON'} || '@abs_top_builddir@/tests/bison'; my $cc = $ENV{'CC'} || 'gcc'; my $cxx = $ENV{'CXX'} || 'g++'; my $cflags = '-O2'; my @directive = (); my $grammar = 'calc'; my $iterations = -1; my $verbose = 1; =head1 FUNCTIONS =over 4 =item C Report the C<$message> is C<$level> E= C<$verbose>. =cut sub verbose($$) { my ($level, $message) = @_; print STDERR $message if $level <= $verbose; } ###################################################################### =item C Format the list of directives for Bison for bench named C<$bench>. =cut sub directives($@) { my ($bench, @directive) = @_; my $res = "/* Directives for bench `$bench'. */\n"; $res .= join ("\n", @directive) . "\n"; $res .= "/* End of directives for bench `$bench'. */\n"; return $res; } ###################################################################### =item C Create a large triangular grammar which looks like : input: exp { if ($1 != 0) abort (); $$ = $1; } | input exp { if ($2 != $1 + 1) abort (); $$ = $2; } ; exp: END { $$ = 0; } | "1" END { $$ = 1; } | "1" "2" END { $$ = 2; } | "1" "2" "3" END { $$ = 3; } | "1" "2" "3" "4" END { $$ = 4; } | "1" "2" "3" "4" "5" END { $$ = 5; } ; C<$base> is the base name for the file to create (F<$base.y>). C<$max> is the number of such rules (here, 5). You may pass additional Bison C<@directive>. The created parser is self contained: it includes its scanner, and source of input. =cut sub generate_grammar_triangular ($$@) { my ($base, $max, @directive) = @_; my $directives = directives ($base, @directive); my $out = new IO::File ">$base.y" or die; print $out < #include static int yylex (void); static void yyerror (const char *msg); %} $directives %union { int val; }; %token END "end" %type exp input EOF for my $size (1 .. $max) { print $out "%token t$size $size \"$size\"\n"; }; print $out < $max) return 0; else if (inner > outer) { inner = 1; ++outer; return END; } return inner++; } static void yyerror (const char *msg) { fprintf (stderr, "%s\\n", msg); } int main (void) { #if YYDEBUG yydebug = !!getenv ("YYDEBUG"); #endif return yyparse (); } EOF } ################################################################## =item C Generate the input file F<$base.input> for the calc parser. The input is composed of two expressions. The first one is using left recursion only and consumes no stack. The second one requires a deep stack. These two expressions are repeated C<$max> times in the output file. =cut sub calc_input ($$) { my ($base, $max) = @_; my $out = new IO::File ">$base.input" or die; foreach (1 .. $max) { print $out "0+1+2+3+4+5+6+7+8+9+10+11+12+13+14+15+16+17+18+19+20+21+22+23+24+25+26+27+28+29+30+31+32+33+34+35+36+37+38+39+40+41+42+43+44+45+46+47+48+49+50+51+52+53+54+55+56+57+58+59+60+61+62+63+64+65+66+67+68+69+70+71+72+73+74+75+76+77+78+79+80+81+82+83+84+85+86+87+88+89+90+91+92+93+94+95+96+97+98+99\n"; print $out "1+1*(2+2*(3+3*(4+4*(5+5*(6+6*(7+7*(8+8*(9+9*(10+10*(11+11*(12+12*(13+13*(14+14*(15+15*(16+16*(17+17*(18+18*(19+19*(20+20*(21+21*(22+22*(23+23*(24+24*(25+25*(26+26*(27+27*(28+28*(29+29*(30+30*(31+31*(32+32*(33+33*(34+34*(35+35*(36+36*(37+37*(38+38*(39+39*(40+40*(41+41*(42+42*(43+43*(44+44*(45+45*(46+46*(47+47*(48+48*(49+49*(50+50*(51+51*(52+52*(53+53*(54+54*(55+55*(56+56*(57+57*(58+58*(59+59*(60+60*(61+61*(62+62*(63+63*(64+64*(65+65*(66+66*(67+67*(68+68*(69+69*(70+70*(71+71*(72+72*(73+73*(74+74*(75+75*(76+76*(77+77*(78+78*(79+79*(80+80*(81+81*(82+82*(83+83*(84+84*(85+85*(86+86*(87+87*(88+88*(89+89*(90+90*(91+91*(92+92*(93+93*(94+94*(95+95*(96+96*(97+97*(98+98*(99+99*(100+100*(101+101*(102+102*(103+103*(104+104*(105+105*(106+106*(107+107*(108+108*(109+109*(110+110*(111+111*(112+112*(113+113*(114+114*(115+115*(116+116*(117+117*(118+118*(119+119*(120+120*(121+121*(122+122*(123+123*(124+124*(125+125*(126+126*(127+127*(128+128*(129+129*(130+130*(131+131*(132+132*(133+133*(134+134*(135+135*(136+136*(137+137*(138+138*(139+139*(140+140*(141+141*(142+142*(143+143*(144+144*(145+145*(146+146*(147+147*(148+148*(149+149*(150+150*(151+151*(152+152*(153+153*(154+154*(155+155*(156+156*(157+157*(158+158*(159+159*(160+160*(161+161*(162+162*(163+163*(164+164*(165+165*(166+166*(167+167*(168+168*(169+169*(170+170*(171+171*(172+172*(173+173*(174+174*(175+175*(176+176*(177+177*(178+178*(179+179*(180+180*(181+181*(182+182*(183+183*(184+184*(185+185*(186+186*(187+187*(188+188*(189+189*(190+190*(191+191*(192+192*(193+193*(194+194*(195+195*(196+196*(197+197*(198+198*(199+199*(200+200*(201+201*(202+202*(203+203*(204+204*(205+205*(206+206*(207+207*(208+208*(209+209*(210+210*(211+211*(212+212*(213+213*(214+214*(215+215*(216+216*(217+217*(218+218*(219+219*(220+220*(221+221*(222+222*(223+223*(224+224*(225+225*(226+226*(227+227*(228+228*(229+229*(230+230*(231+231*(232+232*(233+233*(234+234*(235+235*(236+236*(237+237*(238+238*(239+239*(240+240*(241+241*(242+242*(243+243*(244+244*(245+245*(246+246*(247+247*(248+248*(249+249*(250+250*(251+251*(252+252*(253+253*(254+254*(255+255*(256+256*(257+257*(258+258*(259+259*(260+260*(261+261*(262+262*(263+263*(264+264*(265+265*(266+266*(267+267*(268+268*(269+269*(270+270*(271+271*(272+272*(273+273*(274+274*(275+275*(276+276*(277+277*(278+278*(279+279*(280+280*(281+281*(282+282*(283+283*(284+284*(285+285*(286+286*(287+287*(288+288*(289+289*(290+290*(291+291*(292+292*(293+293*(294+294*(295+295*(296+296*(297+297*(298+298*(299+299*(300+300*(301+301*(302+302*(303+303*(304+304*(305+305*(306+306*(307+307*(308+308*(309+309*(310+310*(311+311*(312+312*(313+313*(314+314*(315+315*(316+316*(317+317*(318+318*(319+319*(320+320*(321+321*(322+322*(323+323*(324+324*(325+325*(326+326*(327+327*(328+328*(329+329*(330+330*(331+331*(332+332*(333+333*(334+334*(335+335*(336+336*(337+337*(338+338*(339+339*(340+340*(341+341*(342+342*(343+343*(344+344*(345+345*(346+346*(347+347*(348+348*(349+349*(350+350*(351+351*(352+352*(353+353*(354+354*(355+355*(356+356*(357+357*(358+358*(359+359*(360+360*(361+361*(362+362*(363+363*(364+364*(365+365*(366+366*(367+367*(368+368*(369+369*(370+370*(371+371*(372+372*(373+373*(374+374*(375+375*(376+376*(377+377*(378+378*(379+379*(380+380*(381+381*(382+382*(383+383*(384+384*(385+385*(386+386*(387+387*(388+388*(389+389*(390+390*(391+391*(392+392*(393+393*(394+394*(395+395*(396+396*(397+397*(398+398*(399+399*(400+400*(401+401*(402+402*(403+403*(404+404*(405+405*(406+406*(407+407*(408+408*(409+409*(410+410*(411+411*(412+412*(413+413*(414+414*(415+415*(416+416*(417+417*(418+418*(419+419*(420+420*(421+421*(422+422*(423+423*(424+424*(425+425*(426+426*(427+427*(428+428*(429+429*(430+430*(431+431*(432+432*(433+433*(434+434*(435+435*(436+436*(437+437*(438+438*(439+439*(440+440*(441+441*(442+442*(443+443*(444+444*(445+445*(446+446*(447+447*(448+448*(449+449*(450+450*(451+451*(452+452*(453+453*(454+454*(455+455*(456+456*(457+457*(458+458*(459+459*(460+460*(461+461*(462+462*(463+463*(464+464*(465+465*(466+466*(467+467*(468+468*(469+469*(470+470*(471+471*(472+472*(473+473*(474+474*(475+475*(476+476*(477+477*(478+478*(479+479*(480+480*(481+481*(482+482*(483+483*(484+484*(485+485*(486+486*(487+487*(488+488*(489+489*(490+490*(491+491*(492+492*(493+493*(494+494*(495+495*(496+496*(497+497*(498+498*(499+499*(500+500*(501+501*(502+502*(503+503*(504+504*(505+505*(506+506*(507+507*(508+508*(509+509*(510+510*(511+511*(512+512*(513+513*(514+514*(515+515*(516+516*(517+517*(518+518*(519+519*(520+520*(521+521*(522+522*(523+523*(524+524*(525+525*(526+526*(527+527*(528+528*(529+529*(530+530*(531+531*(532+532*(533+533*(534+534*(535+535*(536+536*(537+537*(538+538*(539+539*(540+540*(541+541*(542+542*(543+543*(544+544*(545+545*(546+546*(547+547*(548+548*(549+549*(550+550*(551+551*(552+552*(553+553*(554+554*(555+555*(556+556*(557+557*(558+558*(559+559*(560+560*(561+561*(562+562*(563+563*(564+564*(565+565*(566+566*(567+567*(568+568*(569+569*(570+570*(571+571*(572+572*(573+573*(574+574*(575+575*(576+576*(577+577*(578+578*(579+579*(580+580*(581+581*(582+582*(583+583*(584+584*(585+585*(586+586*(587+587*(588+588*(589+589*(590+590*(591+591*(592+592*(593+593*(594+594*(595+595*(596+596*(597+597*(598+598*(599+599*(600+600*(601+601*(602+602*(603+603*(604+604*(605+605*(606+606*(607+607*(608+608*(609+609*(610+610*(611+611*(612+612*(613+613*(614+614*(615+615*(616+616*(617+617*(618+618*(619+619*(620+620*(621+621*(622+622*(623+623*(624+624*(625+625*(626+626*(627+627*(628+628*(629+629*(630+630*(631+631*(632+632*(633+633*(634+634*(635+635*(636+636*(637+637*(638+638*(639+639*(640+640*(641+641*(642+642*(643+643*(644+644*(645+645*(646+646*(647+647*(648+648*(649+649*(650+650*(651+651*(652+652*(653+653*(654+654*(655+655*(656+656*(657+657*(658+658*(659+659*(660+660*(661+661*(662+662*(663+663*(664+664*(665+665*(666+666*(667+667*(668+668*(669+669*(670+670*(671+671*(672+672*(673+673*(674+674*(675+675*(676+676*(677+677*(678+678*(679+679*(680+680*(681+681*(682+682*(683+683*(684+684*(685+685*(686+686*(687+687*(688+688*(689+689*(690+690*(691+691*(692+692*(693+693*(694+694*(695+695*(696+696*(697+697*(698+698*(699+699*(700+700*(701+701*(702+702*(703+703*(704+704*(705+705*(706+706*(707+707*(708+708*(709+709*(710+710*(711+711*(712+712*(713+713*(714+714*(715+715*(716+716*(717+717*(718+718*(719+719*(720+720*(721+721*(722+722*(723+723*(724+724*(725+725*(726+726*(727+727*(728+728*(729+729*(730+730*(731+731*(732+732*(733+733*(734+734*(735+735*(736+736*(737+737*(738+738*(739+739*(740+740*(741+741*(742+742*(743+743*(744+744*(745+745*(746+746*(747+747*(748+748*(749+749*(750+750*(751+751*(752+752*(753+753*(754+754*(755+755*(756+756*(757+757*(758+758*(759+759*(760+760*(761+761*(762+762*(763+763*(764+764*(765+765*(766+766*(767+767*(768+768*(769+769*(770+770*(771+771*(772+772*(773+773*(774+774*(775+775*(776+776*(777+777*(778+778*(779+779*(780+780*(781+781*(782+782*(783+783*(784+784*(785+785*(786+786*(787+787*(788+788*(789+789*(790+790*(791+791*(792+792*(793+793*(794+794*(795+795*(796+796*(797+797*(798+798*(799+799*(800+800*(801+801*(802+802*(803+803*(804+804*(805+805*(806+806*(807+807*(808+808*(809+809*(810+810*(811+811*(812+812*(813+813*(814+814*(815+815*(816+816*(817+817*(818+818*(819+819*(820+820*(821+821*(822+822*(823+823*(824+824*(825+825*(826+826*(827+827*(828+828*(829+829*(830+830*(831+831*(832+832*(833+833*(834+834*(835+835*(836+836*(837+837*(838+838*(839+839*(840+840*(841+841*(842+842*(843+843*(844+844*(845+845*(846+846*(847+847*(848+848*(849+849*(850+850*(851+851*(852+852*(853+853*(854+854*(855+855*(856+856*(857+857*(858+858*(859+859*(860+860*(861+861*(862+862*(863+863*(864+864*(865+865*(866+866*(867+867*(868+868*(869+869*(870+870*(871+871*(872+872*(873+873*(874+874*(875+875*(876+876*(877+877*(878+878*(879+879*(880+880*(881+881*(882+882*(883+883*(884+884*(885+885*(886+886*(887+887*(888+888*(889+889*(890+890*(891+891*(892+892*(893+893*(894+894*(895+895*(896+896*(897+897*(898+898*(899+899*(900+900*(901+901*(902+902*(903+903*(904+904*(905+905*(906+906*(907+907*(908+908*(909+909*(910+910*(911+911*(912+912*(913+913*(914+914*(915+915*(916+916*(917+917*(918+918*(919+919*(920+920*(921+921*(922+922*(923+923*(924+924*(925+925*(926+926*(927+927*(928+928*(929+929*(930+930*(931+931*(932+932*(933+933*(934+934*(935+935*(936+936*(937+937*(938+938*(939+939*(940+940*(941+941*(942+942*(943+943*(944+944*(945+945*(946+946*(947+947*(948+948*(949+949*(950+950*(951+951*(952+952*(953+953*(954+954*(955+955*(956+956*(957+957*(958+958*(959+959*(960+960*(961+961*(962+962*(963+963*(964+964*(965+965*(966+966*(967+967*(968+968*(969+969*(970+970*(971+971*(972+972*(973+973*(974+974*(975+975*(976+976*(977+977*(978+978*(979+979*(980+980*(981+981*(982+982*(983+983*(984+984*(985+985*(986+986*(987+987*(988+988*(989+989*(990+990*(991+991*(992+992*(993+993*(994+994*(995+995*(996+996*(997+997*(998+998*(999+999*(1000+1000*(1001))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))\n"; } } ################################################################## =item C Generate a Bison file F<$base.y> for a calculator parser in C. Pass the additional Bison C<@directive>. C<$max> is ignored, but left to have the same interface as C. =cut sub generate_grammar_calc ($$@) { my ($base, $max, @directive) = @_; my $directives = directives ($base, @directive); # Putting this request here is stupid, since the input will be # generated each time we generate a grammar. calc_input ('calc', 200); my $out = new IO::File ">$base.y" or die; print $out < #include #include #include #define USE(Var) /* Exercise pre-prologue dependency to %union. */ typedef int semantic_value; static semantic_value global_result = 0; static int global_count = 0; %} $directives %error-verbose /* Exercise %union. */ %union { semantic_value ival; }; %{ static int power (int base, int exponent); /* yyerror receives the location if: - %location & %pure & %glr - %location & %pure & %yacc & %parse-param. */ static void yyerror (const char *s); #if YYPURE static int yylex (YYSTYPE* yylvalp); #else static int yylex (void); #endif %} /* Bison Declarations */ %token CALC_EOF 0 "end of input" %token NUM "number" %type exp %nonassoc '=' /* comparison */ %left '-' '+' %left '*' '/' %left NEG /* negation--unary minus */ %right '^' /* exponentiation */ /* Grammar follows */ %% input: line | input line ; line: '\\n' | exp '\\n' { USE (\$1); } ; exp: NUM { \$\$ = \$1; } | exp '=' exp { if (\$1 != \$3) fprintf (stderr, "calc: error: %d != %d\\n", \$1, \$3); \$\$ = \$1; } | exp '+' exp { \$\$ = \$1 + \$3; } | exp '-' exp { \$\$ = \$1 - \$3; } | exp '*' exp { \$\$ = \$1 * \$3; } | exp '/' exp { \$\$ = \$1 / \$3; } | '-' exp %prec NEG { \$\$ = -\$2; } | exp '^' exp { \$\$ = power (\$1, \$3); } | '(' exp ')' { \$\$ = \$2; } | '(' error ')' { \$\$ = 1111; } | '!' { \$\$ = 0; YYERROR; } | '-' error { \$\$ = 0; YYERROR; } ; %% /* The input. */ static FILE *input; static void yyerror (const char *s) { fprintf (stderr, "%s\\n", s); } static int get_char (void) { return getc (input); } static void unget_char ( int c) { ungetc (c, input); } static int read_signed_integer (void) { int c = get_char (); int sign = 1; int n = 0; if (c == '-') { c = get_char (); sign = -1; } while (isdigit (c)) { n = 10 * n + (c - '0'); c = get_char (); } unget_char (c); return sign * n; } static int #if YYPURE # define yylval (*yylvalp) yylex (YYSTYPE* yylvalp) #else yylex (void) #endif { int c; /* Skip white space. */ while ((c = get_char ()) == ' ' || c == '\t') continue; /* process numbers */ if (c == '.' || isdigit (c)) { unget_char ( c); yylval.ival = read_signed_integer (); return NUM; } /* Return end-of-file. */ if (c == EOF) return CALC_EOF; /* Return single chars. */ return c; } static int power (int base, int exponent) { int res = 1; if (exponent < 0) exit (3); for (/* Niente */; exponent; --exponent) res *= base; return res; } int main (int argc, const char **argv) { semantic_value result = 0; int count = 0; int status; #if YYDEBUG yydebug = !!getenv ("YYDEBUG"); #endif input = fopen ("calc.input", "r"); if (!input) { perror ("calc.input"); return 3; } status = yyparse (); if (global_result != result) abort (); if (global_count != count) abort (); return status; } EOF } ################################################################## =item C Generate a Bison file F<$base.y> for a C++ parser that uses C++ objects (std::string, std::list). Tailored for using %define variant. =cut sub generate_grammar_list ($$@) { my ($base, $max, @directive) = @_; my $directives = directives ($base, @directive); my $variant = grep { /%define "?variant"?/ } @directive; my $lex_symbol = grep { /%define "?lex_symbol"?/ } @directive; my $out = new IO::File ">$base.y" or die; print $out < } %code // *.c { #include #include #include #define STAGE_MAX ($max * 10) // max = $max #define USE_LEX_SYMBOL $lex_symbol #define USE_VARIANTS $variant // Prototype of the yylex function providing subsequent tokens. static #if USE_LEX_SYMBOL yy::parser::symbol_type yylex(); #else yy::parser::token_type yylex(yy::parser::semantic_type* yylval, yy::parser::location_type* yylloc); #endif // Conversion to string. template inline std::string string_cast (const T& t) { std::ostringstream o; o << t; return o.str (); } } %token END_OF_FILE 0 EOF if ($variant) { print $out <<'EOF'; %token TEXT %token NUMBER %printer { std::cerr << "Number: " << $$; } %printer { std::cerr << "Text: " << $$; } %type text result %% result: text { /* Throw away the result. */ } ; text: /* nothing */ { /* This will generate an empty string */ } | text TEXT { std::swap ($$, $2); } | text NUMBER { $$ = string_cast($2); } ; EOF } else { # Not using Bison variants. print $out <<'EOF'; %union {int ival; std::string* sval;} %token TEXT %token NUMBER %printer { std::cerr << "Number: " << $$; } %printer { std::cerr << "Text: " << *$$; } %type text result %% result: text { delete $1; } ; text: /* nothing */ { $$ = new std::string; } | text TEXT { delete $1; $$ = $2; } | text NUMBER { delete $1; $$ = new std::string (string_cast ($2)); } ; EOF } print $out <<'EOF'; %% # static #if USE_LEX_SYMBOL yy::parser::symbol_type yylex() #else yy::parser::token_type yylex(yy::parser::semantic_type* yylval, yy::parser::location_type* yylloc) #endif { typedef yy::parser::location_type location_type; typedef yy::parser::token token; static int stage = -1; ++stage; if (stage == STAGE_MAX) { #if USE_LEX_SYMBOL return yy::parser::make_END_OF_FILE (location_type ()); #else *yylloc = location_type (); return token::END_OF_FILE; #endif } else if (stage % 2) { #if USE_LEX_SYMBOL return yy::parser::make_NUMBER (stage, location_type ()); #else # if defined ONE_STAGE_BUILD yylval->build(stage); # elif USE_VARIANTS yylval->build() = stage; # else yylval->ival = stage; # endif *yylloc = location_type (); return token::NUMBER; #endif } else { #if USE_LEX_SYMBOL return yy::parser::make_TEXT ("A string.", location_type ()); #else # if defined ONE_STAGE_BUILD yylval->build(std::string("A string.")); # elif USE_VARIANTS yylval->build() = std::string("A string."); # else yylval->sval = new std::string("A string."); # endif *yylloc = location_type (); return token::TEXT; #endif } abort(); } // Mandatory error function void yy::parser::error(const yy::parser::location_type& loc, const std::string& msg) { std::cerr << loc << ": " << msg << std::endl; } int main(int argc, char *argv[]) { yy::parser p; #if YYDEBUG p.set_debug_level(!!getenv("YYDEBUG")); #endif p.parse(); return 0; } EOF } ################################################################## =item C Generate F<$base.y> by calling C<&generate_grammar_$name>. =cut sub generate_grammar ($$@) { my ($name, $base, @directive) = @_; verbose 3, "Generating $base.y\n"; my %generator = ( "calc" => \&generate_grammar_calc, "list" => \&generate_grammar_list, "triangular" => \&generate_grammar_triangular, ); &{$generator{$name}}($base, 200, @directive); } ################################################################## =item C Run, possibly verbosely, the shell C<$command>. =cut sub run ($) { my ($command) = @_; verbose 3, "$command\n"; system ("$command") == 0 or die "$command failed"; } ################################################################## =item C Compile C<$base.y> to an executable C, Using the C or C++ compiler depending on the %language specification in C<$base.y>. =cut sub compile ($) { my ($base) = @_; my $language = `sed -ne '/%language "\\(.*\\)"/{s//\\1/;p;q;}' $base.y`; chomp $language; my $compiler = $language eq 'C++' ? $cxx : $cc; run "$bison $base.y -o $base.c"; run "$compiler -o $base $cflags $base.c"; } ###################################################################### =item C Generate benches for the C<$grammar> and the directive specification given in the list of C<@token>. =cut sub bench ($@) { my ($grammar, @token) = @_; use Benchmark qw (:all :hireswallclock); my @directive = parse (@token); # Set up the benches as expected by timethese. my %bench; # A counter of directive sets. my $count = 1; for my $d (@directive) { $bench{$count} = $d; printf " %2d. %s\n", $count, join (' ', split ("\n", $d)); $count++; }; # For each bench, capture the size. my %size; while (my ($name, $directives) = each %bench) { generate_grammar ($grammar, $name, $directives); # Compile the executable. compile ($name); $bench{$name} = "system ('./$name');"; chop($size{$name} = `wc -c <$name`); } # Run the benches. # # STYLE can be any of 'all', 'none', 'noc', 'nop' or 'auto'. 'all' # shows each of the 5 times available ('wallclock' time, user time, # system time, user time of children, and system time of # children). 'noc' shows all except the two children times. 'nop' # shows only wallclock and the two children times. 'auto' (the # default) will act as 'all' unless the children times are both # zero, in which case it acts as 'noc'. 'none' prevents output. verbose 3, "Running the benches for $grammar\n"; my $res = timethese ($iterations, \%bench, 'nop'); # Output the speed result. cmpthese ($res, 'nop'); # Display the sizes. print "Sizes (decreasing):\n"; my $width = 10; for my $bench (keys %size) { $width = length $bench if $width < length $bench; } # Benches sorted by decreasing size. my @benches_per_size = sort {$size{$b} <=> $size{$a}} keys %size; for my $bench (@benches_per_size) { printf "%${width}s: %5.2fkB\n", $bench, $size{$bench} / 1024; } } ###################################################################### =item C Bench the C push parser against the pull parser, pure and impure interfaces. =cut sub bench_push_parser () { bench ('calc', qw( [ %d api.pure ] & [ %d api.push-pull=both ] )); } ###################################################################### =item C Bench the C++ lalr1.cc parser using variants or %union. =cut sub bench_variant_parser () { bench ('list', qw( [ %d variant & [ #d ONE_STAGE_BUILD | %d lex_symbol ] ] ) ); } ############################################################################ sub help ($) { my ($verbose) = @_; use Pod::Usage; # See . pod2usage( { -message => "Bench Bison parsers", -exitval => 0, -verbose => $verbose, -output => \*STDOUT }); } ###################################################################### # The end of the directives to parse. my $eod = "end of directives"; # The list of tokens parsed by the following functions. my @token; # eat ($EXPECTED) # --------------- # Check that the current token is $EXPECTED, and move to the next. sub eat ($) { my ($expected) = @_; die "expected $expected, unexpected: $token[0] (@token)\n" unless $token[0] eq $expected; shift @token; } # Parse directive specifications: # expr: term (| term)* # term: fact (& fact)* # fact: ( expr ) | [ expr ] | dirs # dirs: %s SKELETON | #d NAME[=VALUE] | %d NAME[=VALUE] | directive sub parse (@) { @token = (@_, $eod); verbose 3, "Parsing: @token\n"; my @res = parse_expr (); eat ($eod); return @res; } sub parse_expr () { my @res = parse_term (); while ($token[0] eq '|') { eat ('|'); # Alternation. push @res, parse_term (); } return @res; } sub parse_term () { my @res = parse_fact (); while ($token[0] eq '&') { eat ('&'); # Cartesian product. my @lhs = @res; @res = (); for my $rhs (parse_fact ()) { for my $lhs (@lhs) { push @res, $lhs . ($lhs && $rhs ? "\n" : "") . $rhs; } } } return @res; } sub parse_fact () { my @res; die "unexpected end of expression" unless defined $token[0]; if ($token[0] eq '(') { eat ('('); @res = parse_expr (); eat (')'); } elsif ($token[0] eq '[') { eat ('['); @res = (parse_expr (), ''); eat (']'); } else { @res = parse_dirs (); } return @res; } sub parse_dirs () { my @res; die "unexpected end of expression" unless defined $token[0]; if ($token[0] eq '#d') { eat ('#d'); $token[0] =~ s/(.*?)=(.*)/$1 $2/; @res = ("%code {\n#define $token[0]\n}"); shift @token; } elsif ($token[0] eq '%d') { shift @token; $token[0] =~ s/(.*?)=(.*)/$1 "$2"/; @res = ("%define $token[0]"); shift @token; } elsif ($token[0] eq '%s') { shift @token; @res = ("%skeleton \"$token[0]\""); shift @token; } else { @res = $token[0]; shift @token; } return @res; } ###################################################################### sub getopt () { use Getopt::Long; my %option = ( "b|bench=s" => \$bench, "c|cflags=s" => \$cflags, "d|directive=s" => \@directive, "g|grammar=s" => \$grammar, "h|help" => sub { help ($verbose) }, "i|iterations=i" => \$iterations, "q|quiet" => sub { --$verbose }, "v|verbose" => sub { ++$verbose }, ); Getopt::Long::Configure ("bundling", "pass_through"); GetOptions (%option) or exit 1; } ###################################################################### getopt; # Create the directory we work in. mkdir "benches" or die "cannot create benches" unless -d "benches"; my $count = 1; ++$count while -d "benches/$count"; my $dir = "benches/$count"; mkdir $dir or die "cannot create $dir"; chdir $dir or die "cannot chdir $dir"; # The following message is tailored to please Emacs' compilation-mode. verbose 1, "Entering directory `$dir'\n"; verbose 1, "Using bison=$bison.\n"; verbose 2, "Using cc=$cc.\n"; verbose 2, "Using cxx=$cxx.\n"; verbose 2, "Using cflags=$cflags.\n"; verbose 2, "Grammar: $grammar\n"; # Support -b: predefined benches. my %bench = ( "push" => \&bench_push_parser, "variant" => \&bench_variant_parser, ); if (defined $bench) { die "invalid argument for --bench: $bench" unless defined $bench{$bench}; &{$bench{$bench}}(); exit 0; } else { # Launch the bench marking. bench ($grammar, @ARGV); } ### Setup "GNU" style for perl-mode and cperl-mode. ## Local Variables: ## perl-indent-level: 2 ## perl-continued-statement-offset: 2 ## perl-continued-brace-offset: 0 ## perl-brace-offset: 0 ## perl-brace-imaginary-offset: 0 ## perl-label-offset: -2 ## cperl-indent-level: 2 ## cperl-brace-offset: 0 ## cperl-continued-brace-offset: 0 ## cperl-label-offset: -2 ## cperl-extra-newline-before-brace: t ## cperl-merge-trailing-else: nil ## cperl-continued-statement-offset: 2 ## End: