ref: 5773244f02b16a6be8235b123d518186f44a09d2
dir: /parse/gram.y/
%{ #define YYERROR_VERBOSE #define YYDEBUG 1 #include <stdlib.h> #include <stdio.h> #include <stdarg.h> #include <inttypes.h> #include <ctype.h> #include <string.h> #include <assert.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <unistd.h> #include "util.h" #include "parse.h" Stab *curscope; static Node **lbls; static size_t nlbls; void yyerror(const char *s); int yylex(void); static Op binop(int toktype); static Node *mkpseudodecl(Srcloc l, Type *t); static void installucons(Stab *st, Type *t); static void addtrait(Type *t, char *str); static void setattrs(Node *dcl, char **attrs, size_t nattrs); static void setupinit(Node *n); %} %token<tok> Tplus /* + */ %token<tok> Tminus /* - */ %token<tok> Tmul /* * */ %token<tok> Tdiv /* / */ %token<tok> Tinc /* ++ */ %token<tok> Tdec /* -- */ %token<tok> Tmod /* % */ %token<tok> Tasn /* = */ %token<tok> Taddeq /* += */ %token<tok> Tsubeq /* -= */ %token<tok> Tmuleq /* *= */ %token<tok> Tdiveq /* /= */ %token<tok> Tmodeq /* %= */ %token<tok> Tboreq /* |= */ %token<tok> Tbxoreq /* ^= */ %token<tok> Tbandeq /* &= */ %token<tok> Tbsleq /* <<= */ %token<tok> Tbsreq /* >>= */ %token<tok> Tbor /* | */ %token<tok> Tbxor /* ^ */ %token<tok> Tband /* & */ %token<tok> Tbsl /* << */ %token<tok> Tbsr /* >> */ %token<tok> Tbnot /* ~ */ %token<tok> Teq /* == */ %token<tok> Tgt /* > */ %token<tok> Tlt /* < */ %token<tok> Tge /* >= */ %token<tok> Tle /* <= */ %token<tok> Tne /* != */ %token<tok> Tlor /* || */ %token<tok> Tland /* && */ %token<tok> Tlnot /* ! */ %token<tok> Tobrace /* { */ %token<tok> Tcbrace /* } */ %token<tok> Toparen /* ( */ %token<tok> Tcparen /* ) */ %token<tok> Tosqbrac /* [ */ %token<tok> Tcsqbrac /* ] */ %token<tok> Ttick /* ` */ %token<tok> Tderef /* # */ %token<tok> Ttype /* type */ %token<tok> Tfor /* for */ %token<tok> Tin /* in */ %token<tok> Twhile /* while */ %token<tok> Tif /* if */ %token<tok> Telse /* else */ %token<tok> Telif /* else */ %token<tok> Tmatch /* match */ %token<tok> Tgoto /* goto */ %token<tok> Tbreak /* break */ %token<tok> Tcontinue /* continue */ %token<tok> Tintlit %token<tok> Tstrlit %token<tok> Tfloatlit %token<tok> Tchrlit %token<tok> Tboollit %token<tok> Tvoidlit %token<tok> Ttrait /* trait */ %token<tok> Timpl /* trait */ %token<tok> Tstruct /* struct */ %token<tok> Tunion /* union */ %token<tok> Ttyparam /* @typename */ %token<tok> Tconst /* const */ %token<tok> Tvar /* var */ %token<tok> Tgeneric /* var */ %token<tok> Tgap /* _ */ %token<tok> Tellipsis /* ... */ %token<tok> Tendln /* ; or \n */ %token<tok> Tendblk /* ;; */ %token<tok> Tcolon /* : */ %token<tok> Twith /* :: */ %token<tok> Tdot /* . */ %token<tok> Tcomma /* , */ %token<tok> Tret /* -> */ %token<tok> Tuse /* use */ %token<tok> Tpkg /* pkg */ %token<tok> Tattr /* $attr */ %token<tok> Tsizeof /* sizeof */ %token<tok> Tident %start file %type <ty> type structdef uniondef tupledef compoundtype functype funcsig %type <ty> generictype %type <tylist> typelist typarams optauxtypes %type <nodelist> typaramlist %type <tok> asnop cmpop addop mulop shiftop optident %type <tydef> tydef pkgtydef typeid %type <trait> traitdef %type<node> exprln retexpr goto continue break expr atomicexpr %type<node> littok literal lorexpr landexpr borexpr strlit bandexpr %type<node> cmpexpr addexpr mulexpr shiftexpr prefixexpr %type<node> postfixexpr funclit seqlit tuplit name block stmt label %type<node> use fnparam declbody declcore typedeclcore structent %type<node> arrayelt structelt tuphead ifstmt forstmt whilestmt %type<node> matchstmt elifs optexprln loopcond optexpr match %type <ucon> unionelt %type <node> blkbody %type <node> implstmt %type <nodelist> arglist argdefs params matches %type <nodelist> structbody structelts arrayelts %type <nodelist> tupbody tuprest %type <nodelist> decl decllist %type <nodelist> traitbody implbody %type <strlist> attrs %type <uconlist> unionbody /* We want to bind more tightly to `Foo unaryexpr than to binary operators around it. Eg: `Foo +bar should be interpreted as (`Foo (+bar)) and not (`Foo) + (bar) The default action of shifting does the right thing, but warnings suck. */ %left Ttick %left Tplus Tminus Tband %union { struct { Srcloc loc; Node **nl; size_t nn; } nodelist; struct { char **str; size_t nstr; } strlist; struct { Srcloc loc; Ucon **ucl; size_t nucl; } uconlist; struct { Srcloc loc; Type **types; size_t ntypes; } tylist; struct { /* FIXME: unused */ Srcloc loc; char *name; Type *type; Type **params; size_t nparams; } tydef; Trait *trait; Node *node; Tok *tok; Type *ty; Ucon *ucon; } %% file : toplev | file Tendln toplev ; toplev : package | use {lappend(&file->file.uses, &file->file.nuses, $1);} | implstmt { lappend(&file->file.stmts, &file->file.nstmts, $1); } | traitdef { size_t i; puttrait(file->file.globls, $1->name, $1); for (i = 0; i < $1->nfuncs; i++) putdcl(file->file.globls, $1->funcs[i]); } | tydef { puttype(file->file.globls, mkname($1.loc, $1.name), $1.type); installucons(file->file.globls, $1.type); } | decl { size_t i; Node *n; for (i = 0; i < $1.nn; i++) { if (!strcmp(declname($1.nl[i]), "__init__")) setupinit($1.nl[i]); /* putdcl can merge, so we need to getdcl after */ putdcl(file->file.globls, $1.nl[i]); n = getdcl(file->file.globls, $1.nl[i]->decl.name); lappend(&file->file.stmts, &file->file.nstmts, n); $1.nl[i]->decl.isglobl = 1; if ($1.nl[i]->decl.isinit) file->file.localinit = $1.nl[i]; } } | /* empty */ ; decl : attrs Tvar decllist { size_t i; for (i = 0; i < $3.nn; i++) setattrs($3.nl[i], $1.str, $1.nstr); $$ = $3; } | attrs Tconst decllist { size_t i; for (i = 0; i < $3.nn; i++) { setattrs($3.nl[i], $1.str, $1.nstr); $3.nl[i]->decl.isconst = 1; } $$ = $3; } | attrs Tgeneric decllist { size_t i; for (i = 0; i < $3.nn; i++) { setattrs($3.nl[i], $1.str, $1.nstr); $3.nl[i]->decl.isconst = 1; $3.nl[i]->decl.isgeneric = 1; } $$ = $3; } ; attrs : /* empty */ {$$.nstr = 0; $$.str = NULL;} | Tattr attrs { $$ = $2; lappend(&$$.str, &$$.nstr, strdup($1->id)); } ; decllist: declbody { $$.loc = $1->loc; $$.nl = NULL; $$.nn = 0; lappend(&$$.nl, &$$.nn, $1); } | declbody Tcomma decllist { linsert(&$3.nl, &$3.nn, 0, $1); $$=$3; } ; use : Tuse Tident {$$ = mkuse($1->loc, $2->id, 0);} | Tuse Tstrlit {$$ = mkuse($1->loc, $2->strval.buf, 1);} ; optident: Tident {$$ = $1;} | /* empty */ {$$ = NULL;} ; package : Tpkg optident Tasn pkgbody Tendblk { if (file->file.globls->name) lfatal($1->loc, "Package already declared\n"); if ($2) { updatens(file->file.globls, $2->id); } } ; pkgbody : pkgitem | pkgbody Tendln pkgitem ; pkgitem : decl { size_t i; for (i = 0; i < $1.nn; i++) { $1.nl[i]->decl.vis = Visexport; $1.nl[i]->decl.isglobl = 1; putdcl(file->file.globls, $1.nl[i]); if ($1.nl[i]->decl.init) lappend(&file->file.stmts, &file->file.nstmts, $1.nl[i]); } } | pkgtydef { /* the type may only be null in a package context, so we can set the type when merging in this case. FIXME: clean up the fucking special cases. */ if ($1.type) $1.type->vis = Visexport; puttype(file->file.globls, mkname($1.loc, $1.name), $1.type); installucons(file->file.globls, $1.type); } | traitdef { size_t i; $1->vis = Visexport; puttrait(file->file.globls, $1->name, $1); for (i = 0; i < $1->nfuncs; i++) putdcl(file->file.globls, $1->funcs[i]); } | implstmt { $1->impl.vis = Visexport; lappend(&file->file.stmts, &file->file.nstmts, $1); } | /* empty */ ; pkgtydef: attrs tydef { size_t i; $$ = $2; for (i = 0; i < $1.nstr; i++) { if (!strcmp($1.str[i], "pkglocal")) $$.type->ispkglocal = 1; else lfatal($$.loc, "invalid type attribute '%s'", $1.str[i]); } } ; declbody: declcore Tasn expr {$$ = $1; $1->decl.init = $3;} | declcore ; declcore: name {$$ = mkdecl($1->loc, $1, mktyvar($1->loc));} | typedeclcore {$$ = $1;} ; typedeclcore : name Tcolon type {$$ = mkdecl($1->loc, $1, $3);} ; name : Tident {$$ = mkname($1->loc, $1->id);} | Tident Tdot Tident { $$ = mkname($3->loc, $3->id); setns($$, $1->id); } ; implstmt: Timpl name type optauxtypes { $$ = mkimplstmt($1->loc, $2, $3, $4.types, $4.ntypes, NULL, 0); $$->impl.isproto = 1; } | Timpl name type optauxtypes Tasn Tendln implbody Tendblk { $$ = mkimplstmt($1->loc, $2, $3, $4.types, $4.ntypes, $7.nl, $7.nn); } ; implbody : optendlns {$$.nl = NULL; $$.nn = 0;} | implbody Tident Tasn exprln optendlns { Node *d; $$ = $1; d = mkdecl($2->loc, mkname($2->loc, $2->id), mktyvar($2->loc)); d->decl.init = $4; d->decl.isconst = 1; d->decl.isglobl = 1; lappend(&$$.nl, &$$.nn, d); } ; traitdef: Ttrait Tident generictype optauxtypes { /* trait prototype */ $$ = mktrait($1->loc, mkname($2->loc, $2->id), $3, $4.types, $4.ntypes, NULL, 0, NULL, 0, 1); } | Ttrait Tident generictype optauxtypes Tasn traitbody Tendblk /* trait definition */ { size_t i; $$ = mktrait($1->loc, mkname($2->loc, $2->id), $3, $4.types, $4.ntypes, NULL, 0, $6.nl, $6.nn, 0); for (i = 0; i < $6.nn; i++) { $6.nl[i]->decl.trait = $$; $6.nl[i]->decl.impls = mkht(tyhash, tyeq); $6.nl[i]->decl.isgeneric = 1; } } ; optauxtypes : Tret typelist {$$ = $2;} | /* empty */ { $$.types = NULL; $$.ntypes = 0; } ; traitbody : optendlns {$$.nl = NULL; $$.nn = 0;} | traitbody Tident Tcolon type optendlns { Node *d; $$ = $1; d = mkdecl($2->loc, mkname($2->loc, $2->id), $4); d->decl.isglobl = 1; d->decl.isgeneric = 1; d->decl.isconst = 1; lappend(&$$.nl, &$$.nn, d); } ; tydef : Ttype typeid {$$ = $2;} | Ttype typeid Tasn type { $$ = $2; if ($$.nparams == 0) { $$.type = mktyname($2.loc, mkname($2.loc, $2.name), $4); } else { $$.type = mktygeneric($2.loc, mkname($2.loc, $2.name), $2.params, $2.nparams, $4); } } ; typeid : Tident { $$.loc = $1->loc; $$.name = $1->id; $$.params = NULL; $$.type = NULL; } | Tident Toparen typarams Tcparen { $$.loc = $1->loc; $$.name = $1->id; $$.params = $3.types; $$.nparams = $3.ntypes; $$.type = NULL; } ; typarams: generictype { $$.types = NULL; $$.ntypes = 0; lappend(&$$.types, &$$.ntypes, $1); } | typarams Tcomma generictype {lappend(&$$.types, &$$.ntypes, $3);} ; type : structdef | tupledef | uniondef | compoundtype | generictype | Tellipsis {$$ = mktype($1->loc, Tyvalist);} ; generictype : Ttyparam {$$ = mktyparam($1->loc, $1->id);} | Ttyparam Twith name { $$ = mktyparam($1->loc, $1->id); addtrait($$, $3->name.name); } | Ttyparam Twith Toparen typaramlist Tcparen { size_t i; $$ = mktyparam($1->loc, $1->id); for (i = 0; i < $4.nn; i++) addtrait($$, $4.nl[i]->name.name); } ; typaramlist : name { $$.nl = NULL; $$.nn = 0; lappend(&$$.nl, &$$.nn, $1); } | typaramlist Tcomma name {lappend(&$$.nl, &$$.nn, $3);} ; compoundtype : functype {$$ = $1;} | type Tosqbrac Tcolon Tcsqbrac {$$ = mktyslice($2->loc, $1);} | type Tosqbrac expr Tcsqbrac {$$ = mktyarray($2->loc, $1, $3);} | type Tosqbrac Tellipsis Tcsqbrac {$$ = mktyarray($2->loc, $1, NULL);} | name Toparen typelist Tcparen {$$ = mktyunres($1->loc, $1, $3.types, $3.ntypes);} | type Tderef {$$ = mktyptr($2->loc, $1);} | Tvoidlit {$$ = mktyunres($1->loc, mkname($1->loc, $1->id), NULL, 0);} | name {$$ = mktyunres($1->loc, $1, NULL, 0);} ; functype: Toparen funcsig Tcparen {$$ = $2;} ; funcsig : argdefs Tret type {$$ = mktyfunc($2->loc, $1.nl, $1.nn, $3);} ; argdefs : typedeclcore { $$.loc = $1->loc; $$.nl = NULL; $$.nn = 0; lappend(&$$.nl, &$$.nn, $1); } | argdefs Tcomma declcore {lappend(&$$.nl, &$$.nn, $3);} | /* empty */ { $$.loc.line = 0; $$.loc.file = 0; $$.nl = NULL; $$.nn = 0; } ; tupledef: Toparen typelist Tcparen {$$ = mktytuple($1->loc, $2.types, $2.ntypes);} ; typelist: type { $$.types = NULL; $$.ntypes = 0; lappend(&$$.types, &$$.ntypes, $1); } | typelist Tcomma type {lappend(&$$.types, &$$.ntypes, $3);} ; structdef : Tstruct structbody Tendblk {$$ = mktystruct($1->loc, $2.nl, $2.nn);} ; structbody : structent { if ($1) { $$.nl = NULL; $$.nn = 0; lappend(&$$.nl, &$$.nn, $1); } } | structbody structent { if ($2) lappend(&$$.nl, &$$.nn, $2); } ; structent : declcore Tendln {$$ = $1;} | Tendln {$$ = NULL;} ; uniondef : Tunion unionbody Tendblk {$$ = mktyunion($1->loc, $2.ucl, $2.nucl);} ; unionbody : unionelt { $$.ucl = NULL; $$.nucl = 0; if ($1) lappend(&$$.ucl, &$$.nucl, $1); } | unionbody unionelt { if ($2) lappend(&$$.ucl, &$$.nucl, $2); } ; unionelt /* nb: the ucon union type gets filled in when we have context */ : Ttick name type Tendln {$$ = mkucon($2->loc, $2, NULL, $3);} | Ttick name Tendln {$$ = mkucon($2->loc, $2, NULL, NULL);} | Tendln {$$ = NULL;} ; goto : Tgoto Tident { Node *lbl; lbl = mklbl($2->loc, ""); lbl->expr.args[0]->lit.lblname = strdup($2->id); $$ = mkexpr($1->loc, Ojmp, lbl, NULL); } ; retexpr : Tret expr {$$ = mkexpr($1->loc, Oret, $2, NULL);} | expr ; optexpr : expr {$$ = $1;} | /* empty */ {$$ = NULL;} ; loopcond: exprln {$$ = $1;} | Tendln {$$ = mkboollit($1->loc, 1);} ; optexprln : exprln {$$ = $1;} | Tendln {$$ = NULL;} ; exprln : expr Tendln ; expr : lorexpr asnop expr {$$ = mkexpr($1->loc, binop($2->type), $1, $3, NULL);} | lorexpr ; asnop : Tasn | Taddeq /* += */ | Tsubeq /* -= */ | Tmuleq /* *= */ | Tdiveq /* /= */ | Tmodeq /* %= */ | Tboreq /* |= */ | Tbxoreq /* ^= */ | Tbandeq /* &= */ | Tbsleq /* <<= */ | Tbsreq /* >>= */ ; lorexpr : lorexpr Tlor landexpr {$$ = mkexpr($1->loc, binop($2->type), $1, $3, NULL);} | landexpr ; landexpr: landexpr Tland cmpexpr {$$ = mkexpr($1->loc, binop($2->type), $1, $3, NULL);} | cmpexpr ; cmpexpr : cmpexpr cmpop borexpr {$$ = mkexpr($1->loc, binop($2->type), $1, $3, NULL);} | borexpr ; cmpop : Teq | Tgt | Tlt | Tge | Tle | Tne ; borexpr : borexpr Tbor bandexpr {$$ = mkexpr($1->loc, binop($2->type), $1, $3, NULL);} | borexpr Tbxor bandexpr {$$ = mkexpr($1->loc, binop($2->type), $1, $3, NULL);} | bandexpr ; bandexpr: bandexpr Tband addexpr {$$ = mkexpr($1->loc, binop($2->type), $1, $3, NULL);} | addexpr ; addexpr : addexpr addop mulexpr {$$ = mkexpr($1->loc, binop($2->type), $1, $3, NULL);} | mulexpr ; addop : Tplus | Tminus ; mulexpr : mulexpr mulop shiftexpr {$$ = mkexpr($1->loc, binop($2->type), $1, $3, NULL);} | shiftexpr ; mulop : Tmul | Tdiv | Tmod ; shiftexpr : shiftexpr shiftop prefixexpr {$$ = mkexpr($1->loc, binop($2->type), $1, $3, NULL);} | prefixexpr ; shiftop : Tbsl | Tbsr; prefixexpr : Tinc prefixexpr {$$ = mkexpr($1->loc, Opreinc, $2, NULL);} | Tdec prefixexpr {$$ = mkexpr($1->loc, Opredec, $2, NULL);} | Tband prefixexpr {$$ = mkexpr($1->loc, Oaddr, $2, NULL);} | Tlnot prefixexpr {$$ = mkexpr($1->loc, Olnot, $2, NULL);} | Tbnot prefixexpr {$$ = mkexpr($1->loc, Obnot, $2, NULL);} | Tminus prefixexpr {$$ = mkexpr($1->loc, Oneg, $2, NULL);} | Tplus prefixexpr {$$ = $2;} /* positive is a nop */ | Ttick name prefixexpr {$$ = mkexpr($1->loc, Oucon, $2, $3, NULL);} | Ttick name {$$ = mkexpr($1->loc, Oucon, $2, NULL);} | postfixexpr ; postfixexpr : postfixexpr Tdot Tident {$$ = mkexpr($1->loc, Omemb, $1, mkname($3->loc, $3->id), NULL);} | postfixexpr Tinc {$$ = mkexpr($1->loc, Opostinc, $1, NULL);} | postfixexpr Tdec {$$ = mkexpr($1->loc, Opostdec, $1, NULL);} | postfixexpr Tosqbrac expr Tcsqbrac {$$ = mkexpr($1->loc, Oidx, $1, $3, NULL);} | postfixexpr Tosqbrac optexpr Tcolon optexpr Tcsqbrac {$$ = mksliceexpr($1->loc, $1, $3, $5);} | postfixexpr Tderef {$$ = mkexpr($1->loc, Oderef, $1, NULL);} | postfixexpr Toparen arglist Tcparen {$$ = mkcall($1->loc, $1, $3.nl, $3.nn);} | atomicexpr ; arglist : expr {$$.nl = NULL; $$.nn = 0; lappend(&$$.nl, &$$.nn, $1);} | arglist Tcomma expr {lappend(&$$.nl, &$$.nn, $3);} | /* empty */ {$$.nl = NULL; $$.nn = 0;} ; atomicexpr : Tident {$$ = mkexpr($1->loc, Ovar, mkname($1->loc, $1->id), NULL);} | Tgap {$$ = mkexpr($1->loc, Ogap, NULL);} | literal | Toparen expr Tcparen {$$ = $2;} | Toparen expr Tcolon type Tcparen { $$ = mkexpr($1->loc, Ocast, $2, NULL); $$->expr.type = $4; } | Tsizeof Toparen type Tcparen {$$ = mkexpr($1->loc, Osize, mkpseudodecl($1->loc, $3), NULL);} ; tupbody : tuphead tuprest {$$ = $2; linsert(&$$.nl, &$$.nn, 0, $1);} ; tuphead : expr Tcomma {$$ = $1;} ; tuprest : /*empty */ {$$.nl = NULL; $$.nn = 0;} | expr { $$.nl = NULL; $$.nn = 0; lappend(&$$.nl, &$$.nn, $1); } | tuprest Tcomma expr {lappend(&$$.nl, &$$.nn, $3);} ; literal : funclit {$$ = mkexpr($1->loc, Olit, $1, NULL);} | littok {$$ = mkexpr($1->loc, Olit, $1, NULL);} | seqlit {$$ = $1;} | tuplit {$$ = $1;} ; tuplit : Toparen tupbody Tcparen {$$ = mkexprl($1->loc, Otup, $2.nl, $2.nn);} littok : strlit {$$ = $1;} | Tchrlit {$$ = mkchar($1->loc, $1->chrval);} | Tfloatlit {$$ = mkfloat($1->loc, $1->fltval);} | Tboollit {$$ = mkbool($1->loc, !strcmp($1->id, "true"));} | Tvoidlit {$$ = mkvoid($1->loc);} | Tintlit { $$ = mkint($1->loc, $1->intval); if ($1->inttype) $$->lit.type = mktype($1->loc, $1->inttype); } ; strlit : Tstrlit { $$ = mkstr($1->loc, $1->strval); } | strlit Tstrlit { Str merged; merged.len = $1->lit.strval.len + $2->strval.len; merged.buf = malloc(merged.len); memcpy(merged.buf, $1->lit.strval.buf, $1->lit.strval.len); memcpy(merged.buf + $1->lit.strval.len, $2->strval.buf, $2->strval.len); $$ = mkstr($1->loc, merged); } ; funclit : Tobrace params Tendln blkbody Tcbrace { size_t i; Node *fn, *lit; $$ = mkfunc($1->loc, $2.nl, $2.nn, mktyvar($3->loc), $4); fn = $$->lit.fnval; for (i = 0; i < nlbls; i++) { lit = lbls[i]->expr.args[0]; putlbl(fn->func.scope, lit->lit.lblname, lbls[i]); } lfree(&lbls, &nlbls); } | Tobrace params Tret type Tendln blkbody Tcbrace { size_t i; Node *fn, *lit; $$ = mkfunc($1->loc, $2.nl, $2.nn, $4, $6); fn = $$->lit.fnval; for (i = 0; i < nlbls; i++) { lit = lbls[i]->expr.args[0]; putlbl(fn->func.scope, lit->lit.lblname, lbls[i]); } lfree(&lbls, &nlbls); } ; params : fnparam { $$.nl = NULL; $$.nn = 0; lappend(&$$.nl, &$$.nn, $1); } | params Tcomma fnparam {lappend(&$$.nl, &$$.nn, $3);} | /* empty */ {$$.nl = NULL; $$.nn = 0;} ; fnparam : declcore {$$ = $1;} | Tgap { $$ = mkpseudodecl($1->loc, mktyvar($1->loc)); } | Tgap Tcolon type { $$ = mkpseudodecl($1->loc, $3); } ; seqlit : Tosqbrac arrayelts optcomma Tcsqbrac {$$ = mkexprl($1->loc, Oarr, $2.nl, $2.nn);} | Tosqbrac structelts optcomma Tcsqbrac {$$ = mkexprl($1->loc, Ostruct, $2.nl, $2.nn);} | Tosqbrac optendlns optcomma Tcsqbrac /* [] is the empty array. */ {$$ = mkexprl($1->loc, Oarr, NULL, 0);} ; optcomma: Tcomma optendlns | /* empty */ ; arrayelts : optendlns arrayelt { $$.nl = NULL; $$.nn = 0; if ($2->expr.idx) lappend(&$$.nl, &$$.nn, $2); else lappend(&$$.nl, &$$.nn, mkidxinit($2->loc, mkintlit($2->loc, 0), $2)); } | arrayelts Tcomma optendlns arrayelt { if ($4->expr.idx) lappend(&$$.nl, &$$.nn, $4); else lappend(&$$.nl, &$$.nn, mkidxinit($4->loc, mkintlit($4->loc, $$.nn), $4)); } ; arrayelt: expr optendlns {$$ = $1;} | expr Tcolon expr optendlns { $$ = mkidxinit($2->loc, $1, $3); } ; structelts : optendlns structelt { $$.nl = NULL; $$.nn = 0; lappend(&$$.nl, &$$.nn, $2); } | structelts Tcomma optendlns structelt { lappend(&$$.nl, &$$.nn, $4); } ; structelt: Tdot Tident Tasn expr optendlns { $$ = $4; mkidxinit($2->loc, mkname($2->loc, $2->id), $4); } ; optendlns : /* none */ | optendlns Tendln ; stmt : goto | break | continue | retexpr | label | ifstmt | forstmt | whilestmt | matchstmt | /* empty */ {$$ = NULL;} ; break : Tbreak {$$ = mkexpr($1->loc, Obreak, NULL);} ; continue : Tcontinue {$$ = mkexpr($1->loc, Ocontinue, NULL);} ; forstmt : Tfor optexprln loopcond optexprln block {$$ = mkloopstmt($1->loc, $2, $3, $4, $5);} | Tfor expr Tin exprln block {$$ = mkiterstmt($1->loc, $2, $4, $5);} | Tfor decl Tendln loopcond optexprln block { //Node *init; if ($2.nn != 1) lfatal($1->loc, "only one declaration is allowed in for loop"); $$ = mkloopstmt($1->loc, $2.nl[0], $4, $5, $6); putdcl($$->loopstmt.scope, $2.nl[0]); } ; whilestmt : Twhile exprln block {$$ = mkloopstmt($1->loc, NULL, $2, NULL, $3);} ; ifstmt : Tif exprln blkbody elifs {$$ = mkifstmt($1->loc, $2, $3, $4);} ; elifs : Telif exprln blkbody elifs {$$ = mkifstmt($1->loc, $2, $3, $4);} | Telse block {$$ = $2;} | Tendblk {$$ = NULL;} ; matchstmt: Tmatch exprln optendlns Tbor matches Tendblk {$$ = mkmatchstmt($1->loc, $2, $5.nl, $5.nn);} ; matches : match { $$.nl = NULL; $$.nn = 0; if ($1) lappend(&$$.nl, &$$.nn, $1); } | matches Tbor match { if ($2) lappend(&$$.nl, &$$.nn, $3); } ; match : expr Tcolon blkbody Tendln {$$ = mkmatch($1->loc, $1, $3);} ; block : blkbody Tendblk ; blkbody : decl { size_t i; Node *n, *d, *u; $$ = mkblock($1.loc, mkstab(0)); for (i = 0; i < $1.nn; i++) { d = $1.nl[i]; putdcl($$->block.scope, d); if (!d->decl.init) { n = mkexpr(d->loc, Ovar, d->decl.name, NULL); u = mkexpr(n->loc, Oundef, n, NULL); n->expr.did = d->decl.did; lappend(&$$->block.stmts, &$$->block.nstmts, u); } lappend(&$$->block.stmts, &$$->block.nstmts, d); } } | stmt { $$ = mkblock(curloc, mkstab(0)); if ($1) lappend(&$$->block.stmts, &$$->block.nstmts, $1); } | tydef { $$ = mkblock(curloc, mkstab(0)); puttype($$->block.scope, mkname($1.loc, $1.name), $1.type); installucons($$->block.scope, $1.type); } | blkbody Tendln stmt { if ($3) lappend(&$1->block.stmts, &$1->block.nstmts, $3); $$ = $1; } | blkbody Tendln decl { size_t i; for (i = 0; i < $3.nn; i++){ putdcl($$->block.scope, $3.nl[i]); lappend(&$1->block.stmts, &$1->block.nstmts, $3.nl[i]); } } | blkbody Tendln tydef { puttype($$->block.scope, mkname($3.loc, $3.name), $3.type); installucons($$->block.scope, $3.type); } ; label : Tcolon Tident { char buf[512]; genlblstr(buf, sizeof buf, $2->id); $$ = mklbl($2->loc, buf); $$->expr.args[0]->lit.lblname = strdup($2->id); lappend(&lbls, &nlbls, $$); } ; %% static void setupinit(Node *n) { char name[1024]; char *p; bprintf(name, sizeof name, "%s$__init__", file->file.files[0]); p = name; while (*p) { if (!isalnum(*p) && *p != '_') *p = '$'; p++; } n->decl.isinit = 1; n->decl.vis = Vishidden; n->decl.name->name.name = strdup(name); } static void addtrait(Type *t, char *str) { size_t i; for (i = 0; i < ntraittab; i++) { if (!strcmp(namestr(traittab[i]->name), str)) { settrait(t, traittab[i]); return; } } lfatal(t->loc, "Constraint %s does not exist", str); } static Node *mkpseudodecl(Srcloc l, Type *t) { static int nextpseudoid; char buf[128]; bprintf(buf, 128, ".pdecl%d", nextpseudoid++); return mkdecl(l, mkname(l, buf), t); } static void setattrs(Node *dcl, char **attrs, size_t nattrs) { size_t i; for (i = 0; i < nattrs; i++) { if (!strcmp(attrs[i], "extern")) dcl->decl.isextern = 1; else if (!strcmp(attrs[i], "$noret")) dcl->decl.isnoret = 1; else if (!strcmp(attrs[i], "pkglocal")) dcl->decl.ispkglocal = 1; } } static void installucons(Stab *st, Type *t) { Type *b; size_t i; if (!t) return; b = tybase(t); switch (b->type) { case Tystruct: for (i = 0; i < b->nmemb; i++) installucons(st, b->sdecls[i]->decl.type); break; case Tyunion: for (i = 0; i < b->nmemb; i++) { b->udecls[i]->utype = b; b->udecls[i]->id = i; putucon(st, b->udecls[i]); } break; default: break; } } static Op binop(int tt) { Op o; o = Obad; switch (tt) { case Tplus: o = Oadd; break; case Tminus: o = Osub; break; case Tmul: o = Omul; break; case Tdiv: o = Odiv; break; case Tmod: o = Omod; break; case Tasn: o = Oasn; break; case Taddeq: o = Oaddeq; break; case Tsubeq: o = Osubeq; break; case Tmuleq: o = Omuleq; break; case Tdiveq: o = Odiveq; break; case Tmodeq: o = Omodeq; break; case Tboreq: o = Oboreq; break; case Tbxoreq: o = Obxoreq; break; case Tbandeq: o = Obandeq; break; case Tbsleq: o = Obsleq; break; case Tbsreq: o = Obsreq; break; case Tbor: o = Obor; break; case Tbxor: o = Obxor; break; case Tband: o = Oband; break; case Tbsl: o = Obsl; break; case Tbsr: o = Obsr; break; case Teq: o = Oeq; break; case Tgt: o = Ogt; break; case Tlt: o = Olt; break; case Tge: o = Oge; break; case Tle: o = Ole; break; case Tne: o = One; break; case Tlor: o = Olor; break; case Tland: o = Oland; break; default: die("Unimplemented binop\n"); break; } return o; }