ref: 6d69f6fba35087686f79adb2ea0d67944a62ca7b
dir: /appl/alphabet/typesets/abctypes.b/
# warning: autogenerated code; don't bother to change this, change mktypeset.b or abc.b instead
implement Abctypes;
include "sys.m";
sys: Sys;
include "alphabet/reports.m";
include "draw.m";
include "sh.m";
include "alphabet.m";
extvalues: Extvalues;
Values: import extvalues;
proxymod: Proxy;
Typescmd, Modulecmd: import Proxy;
include "abc.m";
abc: Abc;
Value: import abc;
include "abctypes.m";
Pcontext: adt {
cvt: ref Abccvt;
ctxt: ref Context;
loadtypes: fn(ctxt: self ref Pcontext, name: string): (chan of ref Proxy->Typescmd[ref Value], string);
type2s: fn(ctxt: self ref Pcontext, tc: int): string;
alphabet: fn(ctxt: self ref Pcontext): string;
modules: fn(ctxt: self ref Pcontext, r: chan of string);
find: fn(ctxt: self ref Pcontext, s: string): (ref Module, string);
getcvt: fn(ctxt: self ref Pcontext): ref Abccvt;
};
proxy(): chan of ref Typescmd[ref Alphabet->Value]
{
return proxy0().t0;
}
proxy0(): (
chan of ref Typescmd[ref Alphabet->Value],
chan of (string, chan of ref Typescmd[ref Abc->Value]),
ref Abccvt
)
{
sys = load Sys Sys->PATH;
extvalues = checkload(load Extvalues Extvalues->PATH, Extvalues->PATH);
proxymod = checkload(load Proxy Proxy->PATH, Proxy->PATH);
abc = checkload(load Abc Abc->PATH, Abc->PATH);
abc->init();
cvt := ref Abccvt(Values[ref Value].new());
(t, newts) := proxymod->proxy(ref Pcontext(cvt, Context.new()));
return (t, newts, cvt);
}
include "readdir.m";
Context: adt {
modules: fn(ctxt: self ref Context, r: chan of string);
loadtypes: fn(ctxt: self ref Context, name: string)
: (chan of ref Proxy->Typescmd[ref Value], string);
find: fn(ctxt: self ref Context, s: string): (ref Module, string);
new: fn(): ref Context;
};
Module: adt {
m: Abcmodule;
run: fn(m: self ref Module, ctxt: ref Draw->Context, r: ref Reports->Report,
errorc: chan of string, opts: list of (int, list of ref Value),
args: list of ref Value): ref Value;
typesig: fn(m: self ref Module): string;
quit: fn(m: self ref Module);
};
Context.new(): ref Context
{
return nil;
}
Context.loadtypes(nil: self ref Context, name: string): (chan of ref Typescmd[ref Value], string)
{
p := "/dis/alphabet/abc/"+name+"types.dis";
types := load Abcsubtypes p;
if(types == nil)
return (nil, sys->sprint("cannot load %q: %r", p));
return (types->proxy(), nil);
}
Context.modules(nil: self ref Context, r: chan of string)
{
if((readdir := load Readdir Readdir->PATH) != nil){
(a, nil) := readdir->init("/dis/alphabet/abc", Readdir->NAME|Readdir->COMPACT);
for(i := 0; i < len a; i++){
m := a[i].name;
if((a[i].mode & Sys->DMDIR) == 0 && len m > 4 && m[len m - 4:] == ".dis")
r <-= m[0:len m - 4];
}
}
r <-= nil;
}
Context.find(nil: self ref Context, s: string): (ref Module, string)
{
p := "/dis/alphabet/abc/"+s+".dis";
m := load Abcmodule p;
if(m == nil)
return (nil, sys->sprint("cannot load %q: %r", p));
{
m->init();
} exception e {
"fail:*" =>
return (nil, "init failed: " + e[5:]);
}
return (ref Module(m), nil);
}
Module.run(m: self ref Module, nil: ref Draw->Context, r: ref Reports->Report, errorc: chan of string,
opts: list of (int, list of ref Value), args: list of ref Value): ref Value
{
return m.m->run(errorc, r, opts, args);
}
Module.typesig(m: self ref Module): string
{
return m.m->types();
}
Module.quit(nil: self ref Module)
{
}
Pcontext.type2s(nil: self ref Pcontext, tc: int): string
{
return Value.type2s(tc);
}
Pcontext.alphabet(nil: self ref Pcontext): string
{
return "mtAwcrfs";
}
Pcontext.getcvt(ctxt: self ref Pcontext): ref Abccvt
{
return ctxt.cvt;
}
Pcontext.find(ctxt: self ref Pcontext, s: string): (ref Module, string)
{
return ctxt.ctxt.find(s);
}
Pcontext.modules(ctxt: self ref Pcontext, r: chan of string)
{
ctxt.ctxt.modules(r);
}
Pcontext.loadtypes(ctxt: self ref Pcontext, name: string): (chan of ref Typescmd[ref Value], string)
{
return ctxt.ctxt.loadtypes(name);
}
Abccvt.int2ext(cvt: self ref Abccvt, gv: ref Value): ref Alphabet->Value
{
if(gv == nil)
return nil;
pick v := gv {
Vw =>
return ref (Alphabet->Value).Vw(v.i);
Vf =>
return ref (Alphabet->Value).Vf(v.i);
Vr =>
return ref (Alphabet->Value).Vr(v.i);
Vs =>
return ref (Alphabet->Value).Vs(v.i);
Vc =>
return ref (Alphabet->Value).Vc(v.i);
* =>
id := cvt.values.add(gv);
return ref (Alphabet->Value).Vz((gv.typec(), id));
}
}
Abccvt.ext2int(cvt: self ref Abccvt, ev: ref Alphabet->Value): ref Value
{
if(ev == nil)
return nil;
pick v := ev {
Vd =>
return nil; # can't happen
Vw =>
return ref Value.Vw(v.i);
Vf =>
return ref Value.Vf(v.i);
Vr =>
return ref Value.Vr(v.i);
Vs =>
return ref Value.Vs(v.i);
Vc =>
return ref Value.Vc(v.i);
Vz =>
x := cvt.values.v[v.i.id].t1;
if(x == nil){
sys->print("abctypes: bad id %d, type %c\n", v.i.id, v.i.typec);
return nil;
}
return x;
}
}
Abccvt.free(cvt: self ref Abccvt, gv: ref Alphabet->Value, used: int)
{
pick v := gv {
Vz =>
id := v.i.id;
cvt.values.v[id].t1.free(used);
cvt.values.del(id);
}
}
Abccvt.dup(cvt: self ref Abccvt, gv: ref Alphabet->Value): ref Alphabet->Value
{
pick ev := gv {
Vz =>
id := ev.i.id;
v := cvt.values.v[id].t1;
nv := v.dup();
if(nv == nil)
return nil;
if(nv != v)
return ref (Alphabet->Value).Vz((ev.i.typec, cvt.values.add(nv)));
cvt.values.inc(id);
return ev;
* =>
return nil;
}
}
checkload[T](m: T, path: string): T
{
if(m != nil)
return m;
sys->fprint(sys->fildes(2), "abctypes: cannot load %s: %r\n", path);
raise "fail:bad module";
}