// A protocol compiler for Rust. use to_str::ToStr; use dvec::DVec; use ast::ident; use util::interner; use print::pprust; use pprust::{item_to_str, ty_to_str}; use ext::base::{mk_ctxt, ext_ctxt}; use parse::*; use proto::*; use ast_builder::{append_types, path, empty_span}; // Transitional reexports so qquote can find the paths it is looking for mod syntax { #[legacy_exports]; pub use ext; pub use parse; } trait gen_send { fn gen_send(cx: ext_ctxt, try: bool) -> @ast::item; } trait to_type_decls { fn to_type_decls(cx: ext_ctxt) -> ~[@ast::item]; fn to_endpoint_decls(cx: ext_ctxt, dir: direction) -> ~[@ast::item]; } trait gen_init { fn gen_init(cx: ext_ctxt) -> @ast::item; fn compile(cx: ext_ctxt) -> @ast::item; } impl message: gen_send { fn gen_send(cx: ext_ctxt, try: bool) -> @ast::item { debug!("pipec: gen_send"); match self { message(_id, span, tys, this, Some({state: next, tys: next_tys})) => { debug!("pipec: next state exists"); let next = this.proto.get_state(next); assert next_tys.len() == next.ty_params.len(); let arg_names = tys.mapi(|i, _ty| cx.ident_of(~"x_"+i.to_str())); let args_ast = (arg_names, tys).map( |n, t| cx.arg_mode(*n, *t, ast::by_copy) ); let pipe_ty = cx.ty_path_ast_builder( path(~[this.data_name()], span) .add_tys(cx.ty_vars(this.ty_params))); let args_ast = vec::append( ~[cx.arg_mode(cx.ident_of(~"pipe"), pipe_ty, ast::by_copy)], args_ast); let mut body = ~"{\n"; if this.proto.is_bounded() { let (sp, rp) = match (this.dir, next.dir) { (send, send) => (~"move c", ~"move s"), (send, recv) => (~"s", ~"c"), (recv, send) => (~"s", ~"c"), (recv, recv) => (~"move c", ~"move s") }; body += ~"let b = pipe.reuse_buffer();\n"; body += fmt!("let %s = pipes::SendPacketBuffered(\ ptr::addr_of(&(b.buffer.data.%s)));\n", sp, next.name); body += fmt!("let %s = pipes::RecvPacketBuffered(\ ptr::addr_of(&(b.buffer.data.%s)));\n", rp, next.name); } else { let pat = match (this.dir, next.dir) { (send, send) => "(move c, move s)", (send, recv) => "(s, c)", (recv, send) => "(s, c)", (recv, recv) => "(move c, move s)" }; body += fmt!("let %s = pipes::entangle();\n", pat); } body += fmt!("let message = %s::%s(%s);\n", this.proto.name, self.name(), str::connect(vec::append_one( arg_names.map(|x| ~"move " + cx.str_of(*x)), ~"move s"), ~", ")); if !try { body += fmt!("pipes::send(move pipe, move message);\n"); // return the new channel body += ~"move c }"; } else { body += fmt!("if pipes::send(move pipe, move message) {\n \ pipes::rt::make_some(move c) \ } else { pipes::rt::make_none() } }"); } let body = cx.parse_expr(body); let mut rty = cx.ty_path_ast_builder(path(~[next.data_name()], span) .add_tys(next_tys)); if try { rty = cx.ty_option(rty); } let name = cx.ident_of(if try { ~"try_" + self.name() } else { self.name() } ); cx.item_fn_poly(name, args_ast, rty, self.get_params(), cx.expr_block(body)) } message(_id, span, tys, this, None) => { debug!("pipec: no next state"); let arg_names = tys.mapi(|i, _ty| (~"x_" + i.to_str())); let args_ast = (arg_names, tys).map( |n, t| cx.arg_mode(cx.ident_of(*n), *t, ast::by_copy) ); let args_ast = vec::append( ~[cx.arg_mode(cx.ident_of(~"pipe"), cx.ty_path_ast_builder( path(~[this.data_name()], span) .add_tys(cx.ty_vars(this.ty_params))), ast::by_copy)], args_ast); let message_args = if arg_names.len() == 0 { ~"" } else { ~"(" + str::connect(arg_names.map(|x| ~"move " + *x), ~", ") + ~")" }; let mut body = ~"{ "; body += fmt!("let message = %s::%s%s;\n", this.proto.name, self.name(), message_args); if !try { body += fmt!("pipes::send(move pipe, move message);\n"); body += ~" }"; } else { body += fmt!("if pipes::send(move pipe, move message) { \ pipes::rt::make_some(()) \ } else { pipes::rt::make_none() } }"); } let body = cx.parse_expr(body); let name = if try { ~"try_" + self.name() } else { self.name() }; cx.item_fn_poly(cx.ident_of(name), args_ast, if try { cx.ty_option(cx.ty_nil_ast_builder()) } else { cx.ty_nil_ast_builder() }, self.get_params(), cx.expr_block(body)) } } } fn to_ty(cx: ext_ctxt) -> @ast::ty { cx.ty_path_ast_builder(path(~[cx.ident_of(self.name())], self.span()) .add_tys(cx.ty_vars(self.get_params()))) } } impl state: to_type_decls { fn to_type_decls(cx: ext_ctxt) -> ~[@ast::item] { debug!("pipec: to_type_decls"); // This compiles into two different type declarations. Say the // state is called ping. This will generate both `ping` and // `ping_message`. The first contains data that the user cares // about. The second is the same thing, but extended with a // next packet pointer, which is used under the covers. let name = self.data_name(); let mut items_msg = ~[]; for self.messages.each |m| { let message(name, span, tys, this, next) = *m; let tys = match next { Some({state: next, tys: next_tys}) => { let next = this.proto.get_state(next); let next_name = cx.str_of(next.data_name()); let dir = match this.dir { send => ~"server", recv => ~"client" }; vec::append_one(tys, cx.ty_path_ast_builder( path(~[cx.ident_of(dir), cx.ident_of(next_name)], span) .add_tys(next_tys))) } None => tys }; let v = cx.variant(cx.ident_of(name), span, tys); items_msg.push(v); } ~[cx.item_enum_poly(name, self.span, ast::enum_def({ variants: items_msg, common: None }), self.ty_params)] } fn to_endpoint_decls(cx: ext_ctxt, dir: direction) -> ~[@ast::item] { debug!("pipec: to_endpoint_decls"); let dir = match dir { send => (*self).dir, recv => (*self).dir.reverse() }; let mut items = ~[]; for self.messages.each |m| { if dir == send { items.push(m.gen_send(cx, true)); items.push(m.gen_send(cx, false)); } } if !self.proto.is_bounded() { items.push( cx.item_ty_poly( self.data_name(), self.span, cx.ty_path_ast_builder( path(~[cx.ident_of(~"pipes"), cx.ident_of(dir.to_str() + ~"Packet")], empty_span()) .add_ty(cx.ty_path_ast_builder( path(~[cx.ident_of(self.proto.name), self.data_name()], empty_span()) .add_tys(cx.ty_vars(self.ty_params))))), self.ty_params)); } else { items.push( cx.item_ty_poly( self.data_name(), self.span, cx.ty_path_ast_builder( path(~[cx.ident_of(~"pipes"), cx.ident_of(dir.to_str() + ~"PacketBuffered")], empty_span()) .add_tys(~[cx.ty_path_ast_builder( path(~[cx.ident_of(self.proto.name), self.data_name()], empty_span()) .add_tys(cx.ty_vars(self.ty_params))), self.proto.buffer_ty_path(cx)])), self.ty_params)); }; items } } impl protocol: gen_init { fn gen_init(cx: ext_ctxt) -> @ast::item { let ext_cx = cx; debug!("gen_init"); let start_state = self.states[0]; let body = if !self.is_bounded() { match start_state.dir { send => #ast { pipes::entangle() }, recv => { #ast {{ let (s, c) = pipes::entangle(); (move c, move s) }} } } } else { let body = self.gen_init_bounded(ext_cx); match start_state.dir { send => body, recv => { #ast {{ let (s, c) = $(body); (move c, move s) }} } } }; cx.parse_item(fmt!("pub fn init%s() -> (client::%s, server::%s)\ { use pipes::HasBuffer; %s }", start_state.ty_params.to_source(cx), start_state.to_ty(cx).to_source(cx), start_state.to_ty(cx).to_source(cx), body.to_source(cx))) } fn gen_buffer_init(ext_cx: ext_ctxt) -> @ast::expr { ext_cx.rec(self.states.map_to_vec(|s| { let fty = s.to_ty(ext_cx); ext_cx.field_imm(ext_cx.ident_of(s.name), #ast { pipes::mk_packet::<$(fty)>() }) })) } fn gen_init_bounded(ext_cx: ext_ctxt) -> @ast::expr { debug!("gen_init_bounded"); let buffer_fields = self.gen_buffer_init(ext_cx); let buffer = #ast { ~{header: pipes::BufferHeader(), data: $(buffer_fields)} }; let entangle_body = ext_cx.block_expr( ext_cx.block( self.states.map_to_vec( |s| ext_cx.parse_stmt( fmt!("data.%s.set_buffer_(buffer)", s.name))), ext_cx.parse_expr( fmt!("ptr::addr_of(&(data.%s))", self.states[0].name)))); #ast {{ let buffer = $(buffer); do pipes::entangle_buffer(move buffer) |buffer, data| { $(entangle_body) } }} } fn buffer_ty_path(cx: ext_ctxt) -> @ast::ty { let mut params: ~[ast::ty_param] = ~[]; for (copy self.states).each |s| { for s.ty_params.each |tp| { match params.find(|tpp| tp.ident == tpp.ident) { None => params.push(*tp), _ => () } } } cx.ty_path_ast_builder(path(~[cx.ident_of(~"__Buffer")], self.span) .add_tys(cx.ty_vars(params))) } fn gen_buffer_type(cx: ext_ctxt) -> @ast::item { let ext_cx = cx; let mut params: ~[ast::ty_param] = ~[]; let fields = do (copy self.states).map_to_vec |s| { for s.ty_params.each |tp| { match params.find(|tpp| tp.ident == tpp.ident) { None => params.push(*tp), _ => () } } let ty = s.to_ty(cx); let fty = #ast[ty] { pipes::Packet<$(ty)> }; cx.ty_field_imm(cx.ident_of(s.name), fty) }; cx.item_ty_poly( cx.ident_of(~"__Buffer"), cx.empty_span(), cx.ty_rec(fields), params) } fn compile(cx: ext_ctxt) -> @ast::item { let mut items = ~[self.gen_init(cx)]; let mut client_states = ~[]; let mut server_states = ~[]; // :( for (copy self.states).each |s| { items += s.to_type_decls(cx); client_states += s.to_endpoint_decls(cx, send); server_states += s.to_endpoint_decls(cx, recv); } if self.is_bounded() { items.push(self.gen_buffer_type(cx)) } items.push(cx.item_mod(cx.ident_of(~"client"), self.span, client_states)); items.push(cx.item_mod(cx.ident_of(~"server"), self.span, server_states)); cx.item_mod(cx.ident_of(self.name), self.span, items) } } trait to_source { // Takes a thing and generates a string containing rust code for it. fn to_source(cx: ext_ctxt) -> ~str; } impl @ast::item: to_source { fn to_source(cx: ext_ctxt) -> ~str { item_to_str(self, cx.parse_sess().interner) } } impl ~[@ast::item]: to_source { fn to_source(cx: ext_ctxt) -> ~str { str::connect(self.map(|i| i.to_source(cx)), ~"\n\n") } } impl @ast::ty: to_source { fn to_source(cx: ext_ctxt) -> ~str { ty_to_str(self, cx.parse_sess().interner) } } impl ~[@ast::ty]: to_source { fn to_source(cx: ext_ctxt) -> ~str { str::connect(self.map(|i| i.to_source(cx)), ~", ") } } impl ~[ast::ty_param]: to_source { fn to_source(cx: ext_ctxt) -> ~str { pprust::typarams_to_str(self, cx.parse_sess().interner) } } impl @ast::expr: to_source { fn to_source(cx: ext_ctxt) -> ~str { pprust::expr_to_str(self, cx.parse_sess().interner) } } trait ext_ctxt_parse_utils { fn parse_item(s: ~str) -> @ast::item; fn parse_expr(s: ~str) -> @ast::expr; fn parse_stmt(s: ~str) -> @ast::stmt; } impl ext_ctxt: ext_ctxt_parse_utils { fn parse_item(s: ~str) -> @ast::item { let res = parse::parse_item_from_source_str( ~"***protocol expansion***", @(copy s), self.cfg(), ~[], self.parse_sess()); match res { Some(ast) => ast, None => { error!("Parse error with ```\n%s\n```", s); fail } } } fn parse_stmt(s: ~str) -> @ast::stmt { parse::parse_stmt_from_source_str( ~"***protocol expansion***", @(copy s), self.cfg(), ~[], self.parse_sess()) } fn parse_expr(s: ~str) -> @ast::expr { parse::parse_expr_from_source_str( ~"***protocol expansion***", @(copy s), self.cfg(), self.parse_sess()) } }