ref: 5611a46d8fb04ec3fd60c05a1486743cea98a311
dir: /appl/cmd/mash/make.b/
implement Mashbuiltin; # # "make" builtin, defines: # # depends - print dependencies # make - make-like command # match - print details of rule matches # rules - print rules # include "mash.m"; include "mashparse.m"; verbose: con 0; # debug output mashlib: Mashlib; Cmd, Env, Item, Stab: import mashlib; Depend, Rule, Target: import mashlib; sys, bufio, hash: import mashlib; Iobuf: import bufio; # # Interface to catch the use as a command. # init(nil: ref Draw->Context, args: list of string) { raise "fail: " + hd args + " not loaded"; } # # Used by whatis. # name(): string { return "make"; } # # Install commands. # mashinit(nil: list of string, lib: Mashlib, this: Mashbuiltin, e: ref Env) { mashlib = lib; e.defbuiltin("depends", this); e.defbuiltin("make", this); e.defbuiltin("match", this); e.defbuiltin("rules", this); } # # Execute a builtin. # mashcmd(e: ref Env, l: list of string) { s := hd l; l = tl l; case s { "depends" => out := e.outfile(); if (out == nil) return; if (l == nil) alldeps(out); else depends(out, l); out.close(); "make" => domake(e, l); "match" => domatch(e, l); "rules" => out := e.outfile(); if (out == nil) return; if (l == nil) allrules(out); else rules(out, l); out.close(); } } # # Node states. # SUnknown, SNoexist, SExist, SStale, SMade, SDir, SDirload : con iota; # # Node flags. # # FMark - marked as in progress # FMark : con 1 << iota; Node: adt { name: string; state: int; flags: int; mtime: int; }; # # Step in implicit chain. # Step: type (ref Rule, array of string, ref Node); # # Implicit match. # Match: adt { node: ref Node; path: list of Step; }; NSIZE: con 127; # node hash size DSIZE: con 32; # number of dir entries for read ntab: array of list of ref Node; # node hash table initnodes() { ntab = array[NSIZE] of list of ref Node; } # # Find node for a pathname. # getnode(s: string): ref Node { h := hash->fun1(s, NSIZE); for (l := ntab[h]; l != nil; l = tl l) { n := hd l; if (n.name == s) return n; } r := ref Node(s, SUnknown, 0, 0); ntab[h] = r :: ntab[h]; return r; } # # Make a pathname from a dir and an entry. # mkpath(d, s: string): string { if (d == ".") return s; else if (d == "/") return "/" + s; else return d + "/" + s; } # # Load a directory. # loaddir(s: string) { if (verbose) sys->print("loaddir %s\n", s); fd := sys->open(s, Sys->OREAD); if (fd == nil) return; for (;;) { (c, dbuf) := sys->dirread(fd); if(c <= 0) break; for (i := 0; i < c; i++) { n := getnode(mkpath(s, dbuf[i].name)); if (dbuf[i].mode & Sys->DMDIR) n.state = SDir; else n.state = SExist; n.mtime = dbuf[i].mtime; } } } # # Load a file. Get its node, maybe stat it or loaddir. # loadfile(s: string): ref Node { n := getnode(s); if (n.state == SUnknown) { if (verbose) sys->print("stat %s\n", s); (ok, d) := sys->stat(s); if (ok >= 0) { n.mtime = d.mtime; if (d.mode & Sys->DMDIR) { loaddir(s); n.state = SDirload; } else n.state = SExist; } else n.state = SNoexist; } else if (n.state == SDir) { loaddir(s); n.state = SDirload; } return n; } # # Get the node for a file and load the directories in its path. # getfile(s: string): ref Node { d: string; n := len s; while (n >= 2 && s[0:2] == "./") { n -= 2; s = s[2:]; } if (n > 0 && s[0] == '/') { d = "/"; s = s[1:]; } else d = "."; (nil, l) := sys->tokenize(s, "/"); for (;;) { w := loadfile(d); if (l == nil) return w; s = hd l; l = tl l; d = mkpath(d, s); } } # # If a dependency rule makes more than one target propogate SMade. # propagate(l: list of string) { if (tl l == nil) return ; while (l != nil) { s := hd l; if (verbose) sys->print("propogate to %s\n", s); getfile(s).state = SMade; l = tl l; } } # # Try to make a node, or mark it as stale. # Return -1 on (reported) error, 0 on fail, 1 on success. # explicit(e: ref Env, t: ref Target, n: ref Node): int { d: ref Depend; for (l := t.depends; l != nil ; l = tl l) { if ((hd l).op != Cnop) { if (d != nil) { e.report(sys->sprint("make: too many rules for %s", t.target)); return -1; } d = hd l; } } for (l = t.depends; l != nil ; l = tl l) { for (u := (hd l).depends; u != nil; u = tl u) { s := hd u; m := getfile(s); x := make(e, m, s); if (x < 0) { sys->print("don't know how to make %s\n", s); return x; } if (m.state == SMade || m.mtime > n.mtime) { if (verbose) sys->print("%s makes %s stale\n", s, t.target); n.state = SStale; } } } if (d != nil) { if (n.state == SNoexist || n.state == SStale) { if (verbose) sys->print("build %s with explicit rule\n", t.target); e = e.copy(); e.flags |= mashlib->EEcho | Mashlib->ERaise; e.flags &= ~mashlib->EInter; d.cmd.xeq(e); propagate(d.targets); n.state = SMade; } else if (verbose) sys->print("%s up to date\n", t.target); return 1; } return 0; } # # Report multiple implicit chains of equal length. # multimatch(e: ref Env, n: ref Node, l: list of Match) { e.report(sys->sprint("%d rules match for %s", len l, n.name)); f := e.stderr; while (l != nil) { m := hd l; sys->fprint(f, "%s", m.node.name); for (p := m.path; p != nil; p = tl p) { (nil, nil, t) := hd p; sys->fprint(f, " -> %s", t.name); } sys->fprint(f, "\n"); l = tl l; } } cycle(e: ref Env, n: ref Node) { e.report(sys->sprint("make: cycle in dependencies for target %s", n.name)); } # # Mark the nodes in an implicit chain. # markchain(e: ref Env, l: list of Step): int { while (tl l != nil) { (nil, nil, n) := hd l; if (n.flags & FMark) { cycle(e, n); return 0; } n.flags |= FMark; l = tl l; } return 1; } # # Unmark the nodes in an implicit chain. # unmarkchain(l: list of Step): int { while (tl l != nil) { (nil, nil, n) := hd l; n.flags &= ~FMark; l = tl l; } return 1; } # # Execute an implicit rule chain. # xeqmatch(e: ref Env, b, n: ref Node, l: list of Step): int { if (!markchain(e, l)) return -1; if (verbose) sys->print("making %s for implicit rule chain\n", n.name); e.args = nil; x := make(e, n, n.name); if (x < 0) { sys->print("don't know how to make %s\n", n.name); return x; } if (n.state == SMade || n.mtime > b.mtime || b.state == SStale) { e = e.copy(); e.flags |= mashlib->EEcho | Mashlib->ERaise; e.flags &= ~mashlib->EInter; for (;;) { (r, a, t) := hd l; if (verbose) sys->print("making %s with implicit rule\n", t.name); e.args = a; r.cmd.xeq(e); t.state = SMade; l = tl l; if (l == nil) break; t.flags &= ~FMark; } } else unmarkchain(l); return 1; } # # Find the shortest implicit rule chain. # implicit(e: ref Env, base: ref Node): int { win, lose: list of Match; l: list of ref Rule; cand := Match(base, nil) :: nil; do { # cand - list of candidate chains # lose - list of extended chains that lose # win - list of extended chains that win lose = nil; match: # for each candidate for (c := cand; c != nil; c = tl c) { (b, x) := hd c; s := b.name; # find rules that match end of chain m := mashlib->rulematch(s); l = nil; # exclude rules already in the chain exclude: for (n := m; n != nil; n = tl n) { r := hd n; for (y := x; y != nil; y = tl y) { (u, nil, nil) := hd y; if (u == r) continue exclude; } l = r :: l; } if (l == nil) continue match; (nil, t) := sys->tokenize(s, "/"); # for each new rule that matched for (n = l; n != nil; n = tl n) { r := hd n; a := r.matches(t); if (a == nil) { e.report("rule match cock up"); return -1; } a[0] = s; e.args = a; # eval rhs (v, nil, nil) := r.rhs.ieval2(e); if (v == nil) continue; y := (r, a, b) :: x; z := getfile(v); # winner or loser if (z.state != SNoexist || Target.find(v) != nil) win = (z, y) :: win; else lose = (z, y) :: lose; } } # winner should be unique if (win != nil) { if (tl win != nil) { multimatch(e, base, win); return -1; } else { (a, p) := hd win; return xeqmatch(e, base, a, p); } } # losers are candidates in next round cand = lose; } while (cand != nil); return 0; } # # Make a node (recursive). # Return -1 on (reported) error, 0 on fail, 1 on success. # make(e: ref Env, n: ref Node, s: string): int { if (n == nil) n = getfile(s); if (verbose) sys->print("making %s\n", n.name); if (n.state == SMade) return 1; if (n.flags & FMark) { cycle(e, n); return -1; } n.flags |= FMark; t := Target.find(s); if (t != nil) { x := explicit(e, t, n); if (x != 0) { n.flags &= ~FMark; return x; } } x := implicit(e, n); n.flags &= ~FMark; if (x != 0) return x; if (n.state == SExist) return 0; return -1; } makelevel: int = 0; # count recursion # # Make driver routine. Maybe initialize and handle exceptions. # domake(e: ref Env, l: list of string) { if ((e.flags & mashlib->ETop) == 0) { e.report("make not at top level"); return; } inited := 0; if (makelevel > 0) inited = 1; makelevel++; if (l == nil) l = "default" :: nil; while (l != nil) { s := hd l; l = tl l; if (s[0] == '-') { case s { "-clear" => mashlib->initdep(); * => e.report("make: unknown option: " + s); } } else { if (!inited) { initnodes(); inited = 1; } { if (make(e, nil, s) < 0) { sys->print("don't know how to make %s\n", s); raise "fail: make error"; } }exception x{ mashlib->FAILPAT => makelevel--; raise x; } } } makelevel--; } # # Print dependency/rule command. # prcmd(out: ref Iobuf, op: int, c: ref Cmd) { if (op == Clistgroup) out.putc(':'); if (c != nil) { out.puts("{ "); out.puts(c.text()); out.puts(" }"); } else out.puts("{}"); } # # Print details of rule matches. # domatch(e: ref Env, l: list of string) { out := e.outfile(); if (out == nil) return; e = e.copy(); while (l != nil) { s := hd l; out.puts(sys->sprint("%s:\n", s)); m := mashlib->rulematch(s); (nil, t) := sys->tokenize(s, "/"); while (m != nil) { r := hd m; out.puts(sys->sprint("\tlhs %s\n", r.lhs.text)); a := r.matches(t); if (a != nil) { a[0] = s; n := len a; for (i := 0; i < n; i++) out.puts(sys->sprint("\t$%d '%s'\n", i, a[i])); e.args = a; (v, w, nil) := r.rhs.ieval2(e); if (v != nil) out.puts(sys->sprint("\trhs '%s'\n", v)); else out.puts(sys->sprint("\trhs list %d\n", len w)); if (r.cmd != nil) { out.putc('\t'); prcmd(out, r.op, r.cmd); out.puts(";\n"); } } else out.puts("\tcock up\n"); m = tl m; } l = tl l; } out.close(); } # # Print word list. # prwords(out: ref Iobuf, l: list of string, pre: int) { while (l != nil) { if (pre) out.putc(' '); out.puts(mashlib->quote(hd l)); if (!pre) out.putc(' '); l = tl l; } } # # Print dependency. # prdep(out: ref Iobuf, d: ref Depend) { prwords(out, d.targets, 0); out.putc(':'); prwords(out, d.depends, 1); if (d.op != Cnop) { out.putc(' '); prcmd(out, d.op, d.cmd); } out.puts(";\n"); } # # Print all dependencies, avoiding duplicates. # alldep(out: ref Iobuf, d: ref Depend, pass: int) { case pass { 0 => d.mark = 0; 1 => if (!d.mark) { prdep(out, d); d.mark = 1; } } } # # Print all dependencies. # alldeps(out: ref Iobuf) { a := mashlib->dephash; n := len a; for (p := 0; p < 2; p++) for (i := 0; i < n; i++) for (l := a[i]; l != nil; l = tl l) for (d := (hd l).depends; d != nil; d = tl d) alldep(out, hd d, p); } # # Print dependencies. # depends(out: ref Iobuf, l: list of string) { while (l != nil) { s := hd l; out.puts(s); out.puts(":\n"); t := Target.find(s); if (t != nil) { for (d := t.depends; d != nil; d = tl d) prdep(out, hd d); } l = tl l; } } # # Print rule. # prrule(out: ref Iobuf, r: ref Rule) { out.puts(r.lhs.text); out.puts(" :~ "); out.puts(r.rhs.text()); out.putc(' '); prcmd(out, r.op, r.cmd); out.puts(";\n"); } # # Print all rules. # allrules(out: ref Iobuf) { for (l := mashlib->rules; l != nil; l = tl l) prrule(out, hd l); } # # Print matching rules. # rules(out: ref Iobuf, l: list of string) { while (l != nil) { s := hd l; out.puts(s); out.puts(":\n"); r := mashlib->rulematch(s); while (r != nil) { prrule(out, hd r); r = tl r; } l = tl l; } }