# # write out some stub C code for limbo modules # emit(globals: ref Decl) { for(m := globals; m != nil; m = m.next){ if(m.store != Dtype || m.ty.kind != Tmodule) continue; m.ty = usetype(m.ty); for(d := m.ty.ids; d != nil; d = d.next){ d.ty = usetype(d.ty); if(d.store == Dglobal || d.store == Dfn) modrefable(d.ty); if(d.store == Dtype && d.ty.kind == Tadt){ for(id := d.ty.ids; id != nil; id = id.next){ id.ty = usetype(id.ty); modrefable(d.ty); } } } } if(emitstub){ print("#pragma hjdicks x4\n"); print("#pragma pack x4\n"); adtstub(globals); modstub(globals); print("#pragma pack off\n"); print("#pragma hjdicks off\n"); } if(emittab != nil) modtab(globals); if(emitcode != nil) modcode(globals); if(emitsbl != nil) modsbl(globals); } modsbl(globals: ref Decl) { for(d := globals; d != nil; d = d.next) if(d.store == Dtype && d.ty.kind == Tmodule && d.sym.name == emitsbl) break; if(d == nil) return; bsym = bufio->fopen(sys->fildes(1), Bufio->OWRITE); sblmod(d); sblfiles(); n := 0; genstart(); for(id := d.ty.tof.ids; id != nil; id = id.next){ if(id.sym.name == ".mp") continue; pushblock(); id.pc = genrawop(id.src, INOP, nil, nil, nil); id.pc.pc = n++; popblock(); } firstinst = firstinst.next; sblinst(firstinst, n); # (adts, nadts) := findadts(globals); sblty(adts, nadts); fs := array[n] of ref Decl; n = 0; for(id = d.ty.tof.ids; id != nil; id = id.next){ if(id.sym.name == ".mp") continue; fs[n] = id; n++; } sblfn(fs, n); sblvar(nil); } lowercase(f: string): string { for(i := 0; i < len f; i++) if(f[i] >= 'A' && f[i] <= 'Z') f[i] += 'a' - 'A'; return f; } modcode(globals: ref Decl) { buf: string; if(emitdyn){ buf = lowercase(emitcode); print("#include \"%s.h\"\n", buf); } else{ print("#include \n"); print("#include \n"); print("#include \n"); print("#include \"%smod.h\"\n", emitcode); } print("\n"); for(d := globals; d != nil; d = d.next) if(d.store == Dtype && d.ty.kind == Tmodule && d.sym.name == emitcode) break; if(d == nil) return; # # stub types # for(id := d.ty.ids; id != nil; id = id.next){ if(id.store == Dtype && id.ty.kind == Tadt){ id.ty = usetype(id.ty); print("Type*\tT_%s;\n", id.sym.name); } } # # type maps # if(emitdyn){ for(id = d.ty.ids; id != nil; id = id.next) if(id.store == Dtype && id.ty.kind == Tadt) print("uchar %s_map[] = %s_%s_map;\n", id.sym.name, emitcode, id.sym.name); } # # heap allocation and garbage collection for a type # if(emitdyn){ for(id = d.ty.ids; id != nil; id = id.next) if(id.store == Dtype && id.ty.kind == Tadt){ print("\n%s_%s*\n%salloc%s(void)\n{\n\tHeap *h;\n\n\th = heap(T_%s);\n\treturn H2D(%s_%s*, h);\n}\n", emitcode, id.sym.name, emitcode, id.sym.name, id.sym.name, emitcode, id.sym.name); print("\nvoid\n%sfree%s(Heap *h, int swept)\n{\n\t%s_%s *d;\n\n\td = H2D(%s_%s*, h);\n\tfreeheap(h, swept);\n}\n", emitcode, id.sym.name, emitcode, id.sym.name, emitcode, id.sym.name); } } # # initialization function # if(emitdyn) print("\nvoid\n%sinit(void)\n{\n", emitcode); else{ print("\nvoid\n%smodinit(void)\n{\n", emitcode); print("\tbuiltinmod(\"$%s\", %smodtab);\n", emitcode, emitcode); } for(id = d.ty.ids; id != nil; id = id.next) if(id.store == Dtype && id.ty.kind == Tadt){ if(emitdyn) print("\tT_%s = dtype(%sfree%s, %s_%s_size, %s_map, sizeof(%s_map));\n", id.sym.name, emitcode, id.sym.name, emitcode, id.sym.name, id.sym.name, id.sym.name); else print("\tT_%s = dtype(freeheap, sizeof(%s), %smap, sizeof(%smap));\n", id.sym.name, id.sym.name, id.sym.name, id.sym.name); } print("}\n"); # # end function # if(emitdyn){ print("\nvoid\n%send(void)\n{\n", emitcode); for(id = d.ty.ids; id != nil; id = id.next) if(id.store == Dtype && id.ty.kind == Tadt) print("\tfreetype(T_%s);\n", id.sym.name); print("}\n"); } # # stub functions # for(id = d.ty.tof.ids; id != nil; id = id.next){ print("\nvoid\n%s_%s(void *fp)\n{\n\tF_%s_%s *f = fp;\n", id.dot.sym.name, id.sym.name, id.dot.sym.name, id.sym.name); if(id.ty.tof != tnone && tattr[id.ty.tof.kind].isptr) print("\n\tdestroy(*f->ret);\n\t*f->ret = H;\n"); print("}\n"); } if(emitdyn) print("\n#include \"%smod.h\"\n", buf); } modtab(globals: ref Decl) { print("typedef struct{char *name; long sig; void (*fn)(void*); int size; int np; uchar map[16];} Runtab;\n"); for(d := globals; d != nil; d = d.next){ if(d.store == Dtype && d.ty.kind == Tmodule && d.sym.name == emittab){ n := 0; print("Runtab %smodtab[]={\n", d.sym.name); for(id := d.ty.tof.ids; id != nil; id = id.next){ n++; print("\t\""); if(id.dot != d) print("%s.", id.dot.sym.name); print("%s\",0x%ux,%s_%s,", id.sym.name, sign(id), id.dot.sym.name, id.sym.name); if(id.ty.varargs != byte 0) print("0,0,{0},"); else{ md := mkdesc(idoffsets(id.ty.ids, MaxTemp, MaxAlign), id.ty.ids); print("%d,%d,%s,", md.size, md.nmap, mapconv(md)); } print("\n"); } print("\t0\n};\n"); print("#define %smodlen %d\n", d.sym.name, n); } } } # # produce activation records for all the functions in modules # modstub(globals: ref Decl) { for(d := globals; d != nil; d = d.next){ if(d.store != Dtype || d.ty.kind != Tmodule) continue; arg := 0; for(id := d.ty.tof.ids; id != nil; id = id.next){ s := id.dot.sym.name + "_" + id.sym.name; if(emitdyn && id.dot.dot != nil) s = id.dot.dot.sym.name + "_" + s; print("void %s(void*);\ntypedef struct F_%s F_%s;\nstruct F_%s\n{\n", s, s, s, s); print(" WORD regs[NREG-1];\n"); if(id.ty.tof != tnone) print(" %s* ret;\n", ctypeconv(id.ty.tof)); else print(" WORD noret;\n"); print(" uchar temps[%d];\n", MaxTemp-NREG*IBY2WD); offset := MaxTemp; for(m := id.ty.ids; m != nil; m = m.next){ p := ""; if(m.sym != nil) p = m.sym.name; else p = "arg"+string arg; # # explicit pads for structure alignment # t := m.ty; (offset, nil) = stubalign(offset, t.align, nil); if(offset != m.offset) yyerror("module stub must not contain data objects"); # fatal("modstub bad offset"); print(" %s %s;\n", ctypeconv(t), p); arg++; offset += t.size; #ZZZ need to align? } if(id.ty.varargs != byte 0) print(" WORD vargs;\n"); print("};\n"); } for(id = d.ty.ids; id != nil; id = id.next) if(id.store == Dconst) constub(id); } } chanstub(in: string, id: ref Decl) { print("typedef %s %s_%s;\n", ctypeconv(id.ty.tof), in, id.sym.name); desc := mktdesc(id.ty.tof); print("#define %s_%s_size %d\n", in, id.sym.name, desc.size); print("#define %s_%s_map %s\n", in, id.sym.name, mapconv(desc)); } # # produce c structs for all adts # adtstub(globals: ref Decl) { t, tt: ref Type; m, d, id: ref Decl; for(m = globals; m != nil; m = m.next){ if(m.store != Dtype || m.ty.kind != Tmodule) continue; for(d = m.ty.ids; d != nil; d = d.next){ if(d.store != Dtype) continue; t = usetype(d.ty); d.ty = t; s := dotprint(d.ty.decl, '_'); case d.ty.kind{ Tadt => print("typedef struct %s %s;\n", s, s); Tint or Tbyte or Treal or Tbig or Tfix => print("typedef %s %s;\n", ctypeconv(t), s); } } } for(m = globals; m != nil; m = m.next){ if(m.store != Dtype || m.ty.kind != Tmodule) continue; for(d = m.ty.ids; d != nil; d = d.next){ if(d.store != Dtype) continue; t = d.ty; if(t.kind == Tadt || t.kind == Ttuple && t.decl.sym != anontupsym){ if(t.tags != nil){ pickadtstub(t); continue; } s := dotprint(t.decl, '_'); print("struct %s\n{\n", s); offset := 0; for(id = t.ids; id != nil; id = id.next){ if(id.store == Dfield){ tt = id.ty; (offset, nil) = stubalign(offset, tt.align, nil); if(offset != id.offset) fatal("adtstub bad offset"); print(" %s %s;\n", ctypeconv(tt), id.sym.name); offset += tt.size; } } if(t.ids == nil){ print(" char dummy[1];\n"); offset = 1; } (offset, nil)= stubalign(offset, t.align, nil); #ZZZ (offset, nil) = stubalign(offset, IBY2WD, nil); if(offset != t.size && t.ids != nil) fatal("adtstub: bad size"); print("};\n"); for(id = t.ids; id != nil; id = id.next) if(id.store == Dconst) constub(id); for(id = t.ids; id != nil; id = id.next) if(id.ty.kind == Tchan) chanstub(s, id); desc := mktdesc(t); if(offset != desc.size && t.ids != nil) fatal("adtstub: bad desc size"); print("#define %s_size %d\n", s, offset); print("#define %s_map %s\n", s, mapconv(desc)); #ZZZ if(0) print("struct %s_check {int s[2*(sizeof(%s)==%s_size)-1];};\n", s, s, s); }else if(t.kind == Tchan) chanstub(m.sym.name, d); } } } # # emit an expicit pad field for aligning emitted c structs # according to limbo's definition # stubalign(offset: int, a: int, s: string): (int, string) { x := offset & (a-1); if(x == 0) return (offset, s); x = a - x; if(s != nil) s += sprint("uchar\t_pad%d[%d]; ", offset, x); else print("\tuchar\t_pad%d[%d];\n", offset, x); offset += x; if((offset & (a-1)) || x >= a) fatal("compiler stub misalign"); return (offset, s); } constub(id: ref Decl) { s := id.dot.sym.name + "_" + id.sym.name; case id.ty.kind{ Tbyte => print("#define %s %d\n", s, int id.init.c.val & 16rff); Tint or Tfix => print("#define %s %d\n", s, int id.init.c.val); Tbig => print("#define %s %bd\n", s, id.init.c.val); Treal => print("#define %s %g\n", s, id.init.c.rval); Tstring => print("#define %s \"%s\"\n", s, id.init.decl.sym.name); } } mapconv(d: ref Desc): string { s := "{"; for(i := 0; i < d.nmap; i++) s += "0x" + hex(int d.map[i], 0) + ","; if(i == 0) s += "0"; s += "}"; return s; } dotprint(d: ref Decl, dot: int): string { s : string; if(d.dot != nil){ s = dotprint(d.dot, dot); s[len s] = dot; } if(d.sym == nil) return s; return s + d.sym.name; } ckindname := array[Tend] of { Tnone => "void", Tadt => "struct", Tadtpick => "?adtpick?", Tarray => "Array*", Tbig => "LONG", Tbyte => "BYTE", Tchan => "Channel*", Treal => "REAL", Tfn => "?fn?", Tint => "WORD", Tlist => "List*", Tmodule => "Modlink*", Tref => "?ref?", Tstring => "String*", Ttuple => "?tuple?", Texception => "?exception", Tfix => "WORD", Tpoly => "void*", Tainit => "?ainit?", Talt => "?alt?", Tany => "void*", Tarrow => "?arrow?", Tcase => "?case?", Tcasel => "?casel?", Tcasec => "?casec?", Tdot => "?dot?", Terror => "?error?", Tgoto => "?goto?", Tid => "?id?", Tiface => "?iface?", Texcept => "?except?", Tinst => "?inst?", }; ctypeconv(t: ref Type): string { if(t == nil) return "void"; s := ""; case t.kind{ Terror => return "type error"; Tref => s = ctypeconv(t.tof); s += "*"; Tarray or Tlist or Tint or Tbig or Tstring or Treal or Tbyte or Tnone or Tany or Tchan or Tmodule or Tfix or Tpoly => return ckindname[t.kind]; Tadtpick => return ctypeconv(t.decl.dot.ty); Tadt or Ttuple => if(t.decl.sym != anontupsym) return dotprint(t.decl, '_'); s += "struct{ "; offset := 0; for(id := t.ids; id != nil; id = id.next){ tt := id.ty; (offset, s) = stubalign(offset, tt.align, s); if(offset != id.offset) fatal("ctypeconv tuple bad offset"); s += ctypeconv(tt); s += " "; s += id.sym.name; s += "; "; offset += tt.size; } (offset, s) = stubalign(offset, t.align, s); if(offset != t.size) fatal(sprint("ctypeconv tuple bad t=%s size=%d offset=%d", typeconv(t), t.size, offset)); s += "}"; * => fatal("no C equivalent for type " + string t.kind); } return s; } pickadtstub(t: ref Type) { tt: ref Type; desc: ref Desc; id, tg: ref Decl; ok: byte; offset, tgoffset: int; buf := dotprint(t.decl, '_'); offset = 0; for(tg = t.tags; tg != nil; tg = tg.next) print("#define %s_%s %d\n", buf, tg.sym.name, offset++); print("struct %s\n{\n", buf); print(" int pick;\n"); offset = IBY2WD; for(id = t.ids; id != nil; id = id.next){ if(id.store == Dfield){ tt = id.ty; (offset, nil) = stubalign(offset, tt.align, nil); if(offset != id.offset) fatal("pickadtstub bad offset"); print(" %s %s;\n", ctypeconv(tt), id.sym.name); offset += tt.size; } } print(" union{\n"); for(tg = t.tags; tg != nil; tg = tg.next){ tgoffset = offset; print(" struct{\n"); for(id = tg.ty.ids; id != nil; id = id.next){ if(id.store == Dfield){ tt = id.ty; (tgoffset, nil) = stubalign(tgoffset, tt.align, nil); if(tgoffset != id.offset) fatal("pickadtstub bad offset"); print(" %s %s;\n", ctypeconv(tt), id.sym.name); tgoffset += tt.size; } } if(tg.ty.ids == nil) print(" char dummy[1];\n"); print(" } %s;\n", tg.sym.name); } print(" } u;\n"); print("};\n"); for(id = t.ids; id != nil; id = id.next) if(id.store == Dconst) constub(id); for(id = t.ids; id != nil; id = id.next) if(id.ty.kind == Tchan) chanstub(buf, id); for(tg = t.tags; tg != nil; tg = tg.next){ ok = tg.ty.tof.ok; tg.ty.tof.ok = OKverify; sizetype(tg.ty.tof); tg.ty.tof.ok = OKmask; desc = mktdesc(tg.ty.tof); tg.ty.tof.ok = ok; print("#define %s_%s_size %d\n", buf, tg.sym.name, tg.ty.size); print("#define %s_%s_map %s\n", buf, tg.sym.name, mapconv(desc)); } }