ref: 0ec1cfd78b495e9be40e4aa24e35b2aa5d5e5704
dir: /appl/alphabet/alphabet.shmod.b/
implement Alphabetsh, Shellbuiltin; include "sys.m"; sys: Sys; include "draw.m"; include "sh.m"; sh: Sh; Context, Listnode: import sh; n_WORD: import sh; include "alphabet/reports.m"; reports: Reports; report, Report: import reports; include "readdir.m"; readdir: Readdir; include "alphabet.m"; alphabet: Alphabet; Value, CHECK, ONDEMAND: import alphabet; include "alphabet/abc.m"; Alphabetsh: module {}; myself: Shellbuiltin; initbuiltin(ctxt: ref Sh->Context, shmod: Sh): string { sys = load Sys Sys->PATH; myself = load Shellbuiltin "$self"; sh = shmod; if (myself == nil) ctxt.fail("bad module", sys->sprint("file2chan: cannot load self: %r")); alphabet = load Alphabet Alphabet->PATH; if(alphabet == nil) ctxt.fail("bad module", sys->sprint("alphabet: cannot load %q: %r", Alphabet->PATH)); reports = load Reports Reports->PATH; if(reports == nil) ctxt.fail("bad module", sys->sprint("alphabet: cannot load %q: %r", Reports->PATH)); readdir = load Readdir Readdir->PATH; if(readdir == nil) ctxt.fail("bad module", sys->sprint("alphabet: cannot load %q: %r", Readdir->PATH)); alphabet->init(); alphabet->setautodeclare(1); if((decls := ctxt.get("autodeclares")) != nil){ for(; decls != nil; decls = tl decls){ d := hd decls; if(d.cmd == nil){ err: string; (d.cmd, err) = sh->parse(d.word); if(err != nil){ sys->fprint(sys->fildes(2), "alphabet: warning: bad autodeclaration: %s\n", err); continue; } } { declares(ctxt, nil::d::nil); }exception{ "fail:*" => ; } } } ctxt.addbuiltin("declare", myself); ctxt.addbuiltin("declares", myself); ctxt.addbuiltin("undeclare", myself); ctxt.addbuiltin("define", myself); ctxt.addbuiltin("import", myself); ctxt.addbuiltin("autodeclare", myself); ctxt.addbuiltin("type", myself); ctxt.addbuiltin("typeset", myself); ctxt.addbuiltin("autoconvert", myself); ctxt.addbuiltin("-", myself); ctxt.addbuiltin("info", myself); ctxt.addbuiltin("clear", myself); # ctxt.addsbuiltin("-", myself); ctxt.addsbuiltin("rewrite", myself); ctxt.addsbuiltin("modules", myself); ctxt.addsbuiltin("types", myself); ctxt.addsbuiltin("usage", myself); return nil; } runbuiltin(c: ref Sh->Context, nil: Sh, cmd: list of ref Listnode, nil: int): string { case (hd cmd).word { "declare" => return declare(c, cmd); "declares" => return declares(c, cmd); "undeclare" => return undeclare(c, cmd); "define" => return define(c, cmd); "import" => return importf(c, cmd); "type" => return importtype(c, cmd); "typeset" => return typeset(c, cmd); "autoconvert" => return autoconvert(c, cmd); "autodeclare" => if(len cmd != 2) usage(c, "usage: autodeclare 0/1"); alphabet->setautodeclare(int word(hd tl cmd)); "info" => return info(c, cmd); "clear" => a := load Alphabet Alphabet->PATH; if(a == nil) c.fail("bad module", sys->sprint("alphabet: cannot load %q: %r", Alphabet->PATH)); alphabet->quit(); alphabet = a; alphabet->init(); alphabet->setautodeclare(1); "-" => return eval(c, cmd); } return nil; } whatis(nil: ref Sh->Context, nil: Sh, mod: string, wtype: int): string { if(wtype == OTHER){ (qname, sig, def) := alphabet->getmodule(mod); if(qname == nil) return nil; s := sys->sprint("declare %q %q", qname, sig); if(def != nil){ for(i := len sig-1; i >= 0; i--){ if(sig[i] == '>'){ sig = sig[0:i-1]; break; } } s += sys->sprint("; define %q {(%s); %s}", qname, sig, sh->cmd2string(def)); } return s; } return nil; } getself(): Shellbuiltin { return myself; } runsbuiltin(ctxt: ref Context, nil: Sh, argv: list of ref Listnode): list of ref Listnode { case (hd argv).word { "rewrite" => return rewrite(ctxt, argv); "modules" => return sh->stringlist2list(alphabet->getmodules()); "types" => ts := ""; if(tl argv != nil) ts = word(hd tl argv); r := sh->stringlist2list(alphabet->gettypes(ts)); if(r == nil) ctxt.fail("error", sys->sprint("unknown typeset %q", ts)); return r; "usage" => if(len argv != 2) usage(ctxt, "usage qname"); (qname, u, nil) := alphabet->getmodule(word(hd tl argv)); if(qname == nil) ctxt.fail("error", "module not declared"); return ref Listnode(nil, u) :: nil; } return nil; } usage(ctxt: ref Context, s: string) { ctxt.fail("usage", "usage: " + s); } declares(ctxt: ref Sh->Context, argv: list of ref Listnode): string { argv = tl argv; if(argv == nil || (hd argv).cmd == nil) ctxt.fail("usage", "usage: declares decls"); decls := (hd argv).cmd; declares := load Declares Declares->PATH; if(declares == nil) ctxt.fail("bad module", sys->sprint("alphabet: cannot load %q: %r", Declares->PATH)); { declares->init(); } exception e { "fail:*" => ctxt.fail("declares init", e[5:]); } spawn printerrors(errorc := chan of string); e := declares->declares(alphabet, decls, errorc, nil); declares->quit(); if(e != nil) ctxt.fail("bad declaration", sys->sprint("alphabet: declaration failed: %s", e)); return nil; } rewrite(ctxt: ref Sh->Context, argv: list of ref Listnode): list of ref Listnode { argv = tl argv; n := len argv; if(n != 1 && n != 2 || (hd argv).cmd == nil) usage(ctxt, "rewrite {expr} [desttype]"); spawn printerrors(errorc := chan of string); desttype := ""; if(n == 2) desttype = word(hd tl argv); (c, usage) := alphabet->rewrite((hd argv).cmd, desttype, errorc); errorc <-= nil; if(c == nil) raise "fail:bad expression"; return (ref Listnode(c, nil) :: ref Listnode(nil, usage) :: nil); } # XXX add support for optional ONDEMAND and CHECK flags declare(ctxt: ref Sh->Context, argv: list of ref Listnode): string { argv = tl argv; n := len argv; if(n < 1 || n > 2) usage(ctxt, "declare qname [type]"); decltype := ""; if(n == 2) decltype = word(hd tl argv); e := alphabet->declare(word(hd argv), decltype, 0); if(e != nil) ctxt.fail("error", sys->sprint("cannot declare %s: %s", word(hd argv), e)); return nil; } undeclare(ctxt: ref Sh->Context, argv: list of ref Listnode): string { argv = tl argv; if(argv == nil) usage(ctxt, "undeclare name..."); for(; argv != nil; argv = tl argv){ if((e := alphabet->undeclare(word(hd argv))) != nil) sys->fprint(sys->fildes(2), "alphabet: cannot undeclare %q: %s\n", word(hd argv), e); } return nil; } # usage define name expr define(ctxt: ref Sh->Context, argv: list of ref Listnode): string { argv = tl argv; if(len argv != 2 || (hd tl argv).cmd == nil) usage(ctxt, "define name {expr}"); spawn printerrors(errorc := chan of string); err := alphabet->define((hd argv).word, (hd tl argv).cmd, errorc); errorc <-= nil; if(err != nil) raise "fail:bad define: "+err; return nil; } importf(ctxt: ref Sh->Context, argv: list of ref Listnode): string { argv = tl argv; if(argv == nil) usage(ctxt, "import qname..."); errs := 0; for(; argv != nil; argv = tl argv){ e := alphabet->importmodule(word(hd argv)); if(e != nil){ sys->fprint(sys->fildes(2), "alphabet: cannot import %s: %s\n", word(hd argv), e); errs++; } } if(errs) raise "fail:import error"; return nil; } importtype(ctxt: ref Sh->Context, argv: list of ref Listnode): string { argv = tl argv; if(argv == nil) usage(ctxt, "type qname..."); errs := 0; for(; argv != nil; argv = tl argv){ e := alphabet->importtype(word(hd argv)); if(e != nil){ sys->fprint(sys->fildes(2), "alphabet: cannot import type %s: %s\n", word(hd argv), e); errs++; } } if(errs) raise "fail:type declare error"; return nil; } typeset(ctxt: ref Sh->Context, argv: list of ref Listnode): string { argv = tl argv; if(len argv != 1) usage(ctxt, "typeset qname"); spawn printerrors(errorc := chan of string); e := alphabet->loadtypeset(word(hd argv), nil, errorc); # XXX errorc? errorc <-= nil; if(e != nil) ctxt.fail("error", sys->sprint("cannot load typeset %q: %s", word(hd argv), e)); return nil; } autoconvert(ctxt: ref Sh->Context, argv: list of ref Listnode): string { argv = tl argv; if(len argv != 3) usage(ctxt, "autoconvert src dst fn"); src := word(hd argv); dst := word(hd tl argv); expr := (hd tl tl argv).cmd; if(expr == nil) expr = ref Sh->Cmd(Sh->n_WORD, nil, nil, (hd tl tl argv).word, nil); spawn printerrors(errorc := chan of string); e := alphabet->autoconvert(src, dst, expr, errorc); errorc <-= nil; if(e != nil) ctxt.fail("error", sys->sprint("cannot autoconvert %s to %s via %s: %s", src, dst, word(hd tl tl argv), e)); return nil; } info(ctxt: ref Sh->Context, argv: list of ref Listnode): string { first := 1; if(tl argv != nil) usage(ctxt, "info"); for(tsl := alphabet->gettypesets(); tsl != nil; tsl = tl tsl){ ts := hd tsl; r := alphabet->gettypesetmodules(ts); if(r == nil) continue; if(first == 0) sys->print("\n"); sys->print("typeset %s\n", ts); while((mod := <-r) != nil){ (qname, u, nil) := alphabet->getmodule(ts+"/"+mod); if(qname != nil) sys->print("%s %s\n", qname, u); } first = 0; } acl := alphabet->getautoconversions(); if(acl != nil) sys->print("\n"); for(; acl != nil; acl = tl acl){ (src, dst, via) := hd acl; sys->print("autoconvert %q %q %s\n", src, dst, sh->cmd2string(via)); } return nil; } eval(ctxt: ref Sh->Context, argv: list of ref Listnode): string { argv = tl argv; if(argv == nil || (hd argv).cmd == nil) usage(ctxt, "- {expr} [arg...]"); c := (hd argv).cmd; if(c == nil) c = mkw((hd argv).word); args: list of ref Value; for(argv = tl argv; argv != nil; argv = tl argv){ if((hd argv).cmd != nil) args = ref Value.Vc((hd argv).cmd) :: args; else args = ref Value.Vs((hd argv).word) :: args; } return alphabet->eval(c, ctxt.drawcontext, rev(args)); } rev[T](x: list of T): list of T { l: list of T; for(; x != nil; x = tl x) l = hd x :: l; return l; } word(n: ref Listnode): string { if (n.word != nil) return n.word; if (n.cmd != nil) n.word = sh->cmd2string(n.cmd); return n.word; } printerrors(c: chan of string) { while((s := <-c) != nil) sys->fprint(sys->fildes(2), "e: %s\n", s); } mkw(w: string): ref Sh->Cmd { return ref Sh->Cmd(n_WORD, nil, nil, w, nil); }