package main import ( "fmt" "go/ast" "go/parser" "go/printer" "go/token" "os" "strings" ) func getexprs(e ast.Expr) string { if lit, ok := e.(*ast.BasicLit); ok { return lit.Value } if ident, ok := e.(*ast.Ident); ok { return ident.Name } return "" } func genatomdecl(origfn *ast.FuncDecl, origname, origtag string) (decls []ast.Decl) { fieldslist := &ast.FieldList{} typespec := &ast.TypeSpec{ Name: ast.NewIdent(origname), Type: &ast.StructType{Fields: fieldslist}, } for _, _stmt := range origfn.Body.List { stmt := _stmt.(*ast.ExprStmt) callexpr := stmt.X.(*ast.CallExpr) typ := callexpr.Fun.(*ast.Ident).Name if strings.HasPrefix(typ, "_") { if typ == "_unknowns" { fieldslist.List = append(fieldslist.List, &ast.Field{ Names: []*ast.Ident{ast.NewIdent("Unknowns")}, Type: ast.NewIdent("[]Atom"), }) } continue } name := getexprs(callexpr.Args[0]) name2 := "" if len(callexpr.Args) > 1 { name2 = getexprs(callexpr.Args[1]) } len3 := "" if len(callexpr.Args) > 2 { len3 = getexprs(callexpr.Args[2]) } if strings.HasPrefix(name, "_") { continue } switch typ { case "fixed16": typ = "float64" case "fixed32": typ = "float64" case "bytesleft": typ = "[]byte" case "bytes": typ = "[" + name2 + "]byte" case "uint24": typ = "uint32" case "time64", "time32": typ = "time.Time" case "atom": typ = "*" + name2 case "atoms": typ = "[]*" + name2 case "slice": typ = "[]" + name2 case "array": typ = "[" + len3 + "]" + name2 } fieldslist.List = append(fieldslist.List, &ast.Field{ Names: []*ast.Ident{ast.NewIdent(name)}, Type: ast.NewIdent(typ), }) } if origtag != "" { fieldslist.List = append(fieldslist.List, &ast.Field{ Type: ast.NewIdent("AtomPos"), }) } gendecl := &ast.GenDecl{ Tok: token.TYPE, Specs: []ast.Spec{ typespec, }, } decls = append(decls, gendecl) return } func typegetlen(typ string) (n int) { switch typ { case "uint8": n = 1 case "uint16": n = 2 case "uint24": n = 3 case "uint32": n = 4 case "int16": n = 2 case "int32": n = 4 case "uint64": n = 8 case "time32": n = 4 case "time64": n = 8 case "fixed32": n = 4 case "fixed16": n = 2 } return } func typegetlens(typ string) string { n := typegetlen(typ) if n == 0 { return "Len" + typ } else { return fmt.Sprint(n) } } func typegetvartype(typ string) string { switch typ { case "uint8": return "uint8" case "uint16": return "uint16" case "uint24": return "uint32" case "uint32": return "uint32" case "uint64": return "uint64" case "int16": return "int16" case "int32": return "int32" } return "" } func typegetputfn(typ string) (fn string) { fn = typ switch typ { case "uint8": fn = "pio.PutU8" case "uint16": fn = "pio.PutU16BE" case "uint24": fn = "pio.PutU24BE" case "uint32": fn = "pio.PutU32BE" case "int16": fn = "pio.PutI16BE" case "int32": fn = "pio.PutI32BE" case "uint64": fn = "pio.PutU64BE" case "time32": fn = "PutTime32" case "time64": fn = "PutTime64" case "fixed32": fn = "PutFixed32" case "fixed16": fn = "PutFixed16" default: fn = "Put" + typ } return } func typegetgetfn(typ string) (fn string) { fn = typ switch typ { case "uint8": fn = "pio.U8" case "uint16": fn = "pio.U16BE" case "uint24": fn = "pio.U24BE" case "uint32": fn = "pio.U32BE" case "int16": fn = "pio.I16BE" case "int32": fn = "pio.I32BE" case "uint64": fn = "pio.U64BE" case "time32": fn = "GetTime32" case "time64": fn = "GetTime64" case "fixed32": fn = "GetFixed32" case "fixed16": fn = "GetFixed16" default: fn = "Get" + typ } return } func addns(n string) (stmts []ast.Stmt) { assign := &ast.AssignStmt{ Tok: token.ADD_ASSIGN, Lhs: []ast.Expr{ast.NewIdent("n")}, Rhs: []ast.Expr{&ast.BasicLit{Kind: token.INT, Value: n}}, } stmts = append(stmts, assign) return } func addn(n int) (stmts []ast.Stmt) { return addns(fmt.Sprint(n)) } func simplecall(fun string, args ...string) *ast.ExprStmt { _args := []ast.Expr{} for _, s := range args { _args = append(_args, ast.NewIdent(s)) } return &ast.ExprStmt{ X: &ast.CallExpr{ Fun: ast.NewIdent(fun), Args: _args, }, } } func getxx(typ string, pos, name string, conv bool) (stmts []ast.Stmt) { fn := typegetgetfn(typ) assign := &ast.AssignStmt{ Tok: token.ASSIGN, Lhs: []ast.Expr{ast.NewIdent(name)}, Rhs: []ast.Expr{simplecall(fn, "b["+pos+":]").X}, } stmts = append(stmts, assign) return } func putxx(typ string, pos, name string, conv bool) (stmts []ast.Stmt) { if conv { name = fmt.Sprintf("%s(%s)", typ, name) } fn := typegetputfn(typ) stmts = append(stmts, simplecall(fn, "b["+pos+":]", name)) return } func putxxadd(fn string, name string, conv bool) (stmts []ast.Stmt) { n := typegetlen(fn) stmts = append(stmts, putxx(fn, "n", name, conv)...) stmts = append(stmts, addn(n)...) return } func newdecl(origname, name string, params, res []*ast.Field, stmts []ast.Stmt) *ast.FuncDecl { return &ast.FuncDecl{ Recv: &ast.FieldList{ List: []*ast.Field{ &ast.Field{ Names: []*ast.Ident{ast.NewIdent("self")}, Type: ast.NewIdent(origname), }, }, }, Name: ast.NewIdent(name), Type: &ast.FuncType{ Params: &ast.FieldList{ List: params, }, Results: &ast.FieldList{ List: res, }, }, Body: &ast.BlockStmt{List: stmts}, } } func getstructputgetlenfn(origfn *ast.FuncDecl, origname string) (decls []ast.Decl) { getstmts := []ast.Stmt{} putstmts := []ast.Stmt{} totlen := 0 for _, _stmt := range origfn.Body.List { stmt := _stmt.(*ast.ExprStmt) callexpr := stmt.X.(*ast.CallExpr) typ := callexpr.Fun.(*ast.Ident).Name name := getexprs(callexpr.Args[0]) getstmts = append(getstmts, getxx(typ, fmt.Sprint(totlen), "self."+name, false)...) putstmts = append(putstmts, putxx(typ, fmt.Sprint(totlen), "self."+name, false)...) totlen += typegetlen(typ) } getstmts = append(getstmts, &ast.ReturnStmt{}) decls = append(decls, &ast.FuncDecl{ Name: ast.NewIdent("Get" + origname), Type: &ast.FuncType{ Params: &ast.FieldList{ List: []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("b")}, Type: ast.NewIdent("[]byte")}, }, }, Results: &ast.FieldList{ List: []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("self")}, Type: ast.NewIdent(origname)}, }, }, }, Body: &ast.BlockStmt{List: getstmts}, }) decls = append(decls, &ast.FuncDecl{ Name: ast.NewIdent("Put" + origname), Type: &ast.FuncType{ Params: &ast.FieldList{ List: []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("b")}, Type: ast.NewIdent("[]byte")}, &ast.Field{Names: []*ast.Ident{ast.NewIdent("self")}, Type: ast.NewIdent(origname)}, }, }, }, Body: &ast.BlockStmt{List: putstmts}, }) decls = append(decls, &ast.GenDecl{ Tok: token.CONST, Specs: []ast.Spec{ &ast.ValueSpec{ Names: []*ast.Ident{ast.NewIdent("Len" + origname)}, Values: []ast.Expr{ast.NewIdent(fmt.Sprint(totlen))}, }, }, }) return } func cc4decls(name string) (decls []ast.Decl) { constdecl := &ast.GenDecl{ Tok: token.CONST, Specs: []ast.Spec{ &ast.ValueSpec{ Names: []*ast.Ident{ ast.NewIdent(strings.ToUpper(name)), }, Values: []ast.Expr{ &ast.CallExpr{ Fun: ast.NewIdent("Tag"), Args: []ast.Expr{&ast.BasicLit{Kind: token.INT, Value: fmt.Sprintf("0x%x", []byte(name))}}, }, }, }, }, } decls = append(decls, constdecl) return } func codeclonereplace(stmts []ast.Stmt, doit []ast.Stmt) (out []ast.Stmt) { out = append([]ast.Stmt(nil), stmts...) for i := range out { if ifstmt, ok := out[i].(*ast.IfStmt); ok { newifstmt := &ast.IfStmt{ Cond: ifstmt.Cond, Body: &ast.BlockStmt{ List: codeclonereplace(ifstmt.Body.List, doit), }, } if ifstmt.Else != nil { newifstmt.Else = &ast.BlockStmt{ List: codeclonereplace(ifstmt.Else.(*ast.BlockStmt).List, doit), } } out[i] = newifstmt } else if exprstmt, ok := out[i].(*ast.ExprStmt); ok { if callexpr, ok := exprstmt.X.(*ast.CallExpr); ok { if getexprs(callexpr.Fun) == "doit" { out[i] = &ast.BlockStmt{List: doit} } } } } return } func getatommarshalfn(origfn *ast.FuncDecl, origname, origtag string, tagnamemap map[string]string, ) (decls []ast.Decl) { marstmts := []ast.Stmt{} unmarstmts := []ast.Stmt{} lenstmts := []ast.Stmt{} childrenstmts := []ast.Stmt{} parseerrreturn := func(debug string) (stmts []ast.Stmt) { return []ast.Stmt{ &ast.AssignStmt{ Tok: token.ASSIGN, Lhs: []ast.Expr{ast.NewIdent("err")}, Rhs: []ast.Expr{ast.NewIdent(fmt.Sprintf(`parseErr("%s", n+offset, err)`, debug))}, }, &ast.ReturnStmt{}, } } callmarshal := func(name string) (stmts []ast.Stmt) { callexpr := &ast.CallExpr{ Fun: ast.NewIdent(name + ".Marshal"), Args: []ast.Expr{ast.NewIdent("b[n:]")}, } assign := &ast.AssignStmt{ Tok: token.ADD_ASSIGN, Lhs: []ast.Expr{ast.NewIdent("n")}, Rhs: []ast.Expr{callexpr}, } stmts = append(stmts, assign) return } callputstruct := func(typ, name string) (stmts []ast.Stmt) { stmts = append(stmts, &ast.ExprStmt{ X: &ast.CallExpr{ Fun: ast.NewIdent(typegetputfn(typ)), Args: []ast.Expr{ast.NewIdent("b[n:]"), ast.NewIdent(name)}, }, }) stmts = append(stmts, &ast.AssignStmt{ Tok: token.ADD_ASSIGN, Lhs: []ast.Expr{ast.NewIdent("n")}, Rhs: []ast.Expr{ast.NewIdent(typegetlens(typ))}, }) return } calllenstruct := func(typ, name string) (stmts []ast.Stmt) { inc := typegetlens(typ) + "*len(" + name + ")" stmts = append(stmts, &ast.AssignStmt{ Tok: token.ADD_ASSIGN, Lhs: []ast.Expr{ast.NewIdent("n")}, Rhs: []ast.Expr{ast.NewIdent(inc)}, }) return } calllen := func(name string) (stmts []ast.Stmt) { callexpr := &ast.CallExpr{ Fun: ast.NewIdent(name + ".Len"), Args: []ast.Expr{}, } assign := &ast.AssignStmt{ Tok: token.ADD_ASSIGN, Lhs: []ast.Expr{ast.NewIdent("n")}, Rhs: []ast.Expr{callexpr}, } stmts = append(stmts, assign) return } foreach := func(name, field string, block []ast.Stmt) (stmts []ast.Stmt) { rangestmt := &ast.RangeStmt{ Key: ast.NewIdent("_"), Value: ast.NewIdent(name), Body: &ast.BlockStmt{ List: block, }, Tok: token.DEFINE, X: ast.NewIdent(field), } stmts = append(stmts, rangestmt) return } foreachatom := func(field string, block []ast.Stmt) (stmts []ast.Stmt) { return foreach("atom", field, block) } foreachentry := func(field string, block []ast.Stmt) (stmts []ast.Stmt) { return foreach("entry", field, block) } foreachi := func(field string, block []ast.Stmt) (stmts []ast.Stmt) { rangestmt := &ast.RangeStmt{ Key: ast.NewIdent("i"), Body: &ast.BlockStmt{ List: block, }, Tok: token.DEFINE, X: ast.NewIdent(field), } stmts = append(stmts, rangestmt) return } foreachunknowns := func(block []ast.Stmt) (stmts []ast.Stmt) { return foreachatom("self.Unknowns", block) } declvar := func(name, typ string) (stmts []ast.Stmt) { stmts = append(stmts, &ast.DeclStmt{ Decl: &ast.GenDecl{ Tok: token.VAR, Specs: []ast.Spec{ &ast.ValueSpec{ Names: []*ast.Ident{ ast.NewIdent(typ), }, Type: ast.NewIdent(name), }, }, }, }) return } makeslice := func(name, typ, size string) (stmts []ast.Stmt) { stmts = append(stmts, &ast.ExprStmt{ X: ast.NewIdent(fmt.Sprintf("%s = make([]%s, %s)", name, typ, size)), }) return } simpleassign := func(tok token.Token, l, r string) *ast.AssignStmt { return &ast.AssignStmt{ Tok: tok, Lhs: []ast.Expr{ast.NewIdent(l)}, Rhs: []ast.Expr{ast.NewIdent(r)}, } } struct2tag := func(s string) string { name := tagnamemap[s] return name } foreachatomsappendchildren := func(field string) (stmts []ast.Stmt) { return foreachatom(field, []ast.Stmt{ simpleassign(token.ASSIGN, "r", "append(r, atom)"), }) } var hasunknowns bool var atomnames []string var atomtypes []string var atomarrnames []string var atomarrtypes []string slicenamemap := map[string]string{} unmarshalatom := func(typ, init string) (stmts []ast.Stmt) { return []ast.Stmt{ &ast.AssignStmt{Tok: token.DEFINE, Lhs: []ast.Expr{ast.NewIdent("atom")}, Rhs: []ast.Expr{ast.NewIdent("&" + typ + "{" + init + "}")}, }, &ast.IfStmt{ Init: &ast.AssignStmt{ Tok: token.ASSIGN, Lhs: []ast.Expr{ast.NewIdent("_"), ast.NewIdent("err")}, Rhs: []ast.Expr{ast.NewIdent("atom.Unmarshal(b[n:n+size], offset+n)")}, }, Cond: ast.NewIdent("err != nil"), Body: &ast.BlockStmt{List: parseerrreturn(struct2tag(typ))}, }, } } unmrashalatoms := func() (stmts []ast.Stmt) { blocks := []ast.Stmt{} blocks = append(blocks, &ast.AssignStmt{Tok: token.DEFINE, Lhs: []ast.Expr{ast.NewIdent("tag")}, Rhs: []ast.Expr{ast.NewIdent("Tag(pio.U32BE(b[n+4:]))")}, }) blocks = append(blocks, &ast.AssignStmt{Tok: token.DEFINE, Lhs: []ast.Expr{ast.NewIdent("size")}, Rhs: []ast.Expr{ast.NewIdent("int(pio.U32BE(b[n:]))")}, }) blocks = append(blocks, &ast.IfStmt{ Cond: ast.NewIdent("len(b) < n+size"), Body: &ast.BlockStmt{List: parseerrreturn("TagSizeInvalid")}, }) cases := []ast.Stmt{} for i, atom := range atomnames { cases = append(cases, &ast.CaseClause{ List: []ast.Expr{ast.NewIdent(strings.ToUpper(struct2tag(atomtypes[i])))}, Body: []ast.Stmt{&ast.BlockStmt{ List: append(unmarshalatom(atomtypes[i], ""), simpleassign(token.ASSIGN, "self."+atom, "atom")), }}, }) } for i, atom := range atomarrnames { selfatom := "self." + atom cases = append(cases, &ast.CaseClause{ List: []ast.Expr{ast.NewIdent(strings.ToUpper(struct2tag(atomarrtypes[i])))}, Body: []ast.Stmt{&ast.BlockStmt{ List: append(unmarshalatom(atomarrtypes[i], ""), simpleassign(token.ASSIGN, selfatom, "append("+selfatom+", atom)")), }}, }) } if hasunknowns { init := "Tag_: tag, Data: b[n:n+size]" selfatom := "self.Unknowns" cases = append(cases, &ast.CaseClause{ Body: []ast.Stmt{&ast.BlockStmt{ List: append(unmarshalatom("Dummy", init), simpleassign(token.ASSIGN, selfatom, "append("+selfatom+", atom)")), }}, }) } blocks = append(blocks, &ast.SwitchStmt{ Tag: ast.NewIdent("tag"), Body: &ast.BlockStmt{List: cases}, }) blocks = append(blocks, addns("size")...) stmts = append(stmts, &ast.ForStmt{ Cond: ast.NewIdent("n+8 < len(b)"), Body: &ast.BlockStmt{List: blocks}, }) return } marshalwrapstmts := func() (stmts []ast.Stmt) { stmts = append(stmts, putxx("uint32", "4", strings.ToUpper(origtag), true)...) stmts = append(stmts, addns("self.marshal(b[8:])+8")...) stmts = append(stmts, putxx("uint32", "0", "n", true)...) stmts = append(stmts, &ast.ReturnStmt{}) return } ifnotnil := func(name string, block []ast.Stmt) (stmts []ast.Stmt) { stmts = append(stmts, &ast.IfStmt{ Cond: &ast.BinaryExpr{ X: ast.NewIdent(name), Op: token.NEQ, Y: ast.NewIdent("nil"), }, Body: &ast.BlockStmt{List: block}, }) return } getchildrennr := func(name string) (stmts []ast.Stmt) { stmts = append(stmts, &ast.AssignStmt{ Tok: token.DEFINE, Lhs: []ast.Expr{ast.NewIdent(name)}, Rhs: []ast.Expr{ast.NewIdent("0")}, }) for _, atom := range atomnames { stmts = append(stmts, ifnotnil("self."+atom, []ast.Stmt{ &ast.IncDecStmt{X: ast.NewIdent(name), Tok: token.INC}, })...) } if hasunknowns { assign := &ast.AssignStmt{ Tok: token.ADD_ASSIGN, Lhs: []ast.Expr{ast.NewIdent("_childrenNR")}, Rhs: []ast.Expr{ast.NewIdent("len(self.Unknowns)")}, } stmts = append(stmts, assign) } return } checkcurlen := func(inc, debug string) (stmts []ast.Stmt) { stmts = append(stmts, &ast.IfStmt{ Cond: &ast.BinaryExpr{ X: ast.NewIdent("len(b)"), Op: token.LSS, Y: ast.NewIdent("n+" + inc), }, Body: &ast.BlockStmt{List: parseerrreturn(debug)}, }) return } checklendo := func(typ, name, debug string) (stmts []ast.Stmt) { stmts = append(stmts, checkcurlen(typegetlens(typ), debug)...) stmts = append(stmts, getxx(typ, "n", name, false)...) stmts = append(stmts, addns(typegetlens(typ))...) return } checkstructlendo := func(typ, name, debug string, foreach func(string, []ast.Stmt) []ast.Stmt, ) (stmts []ast.Stmt) { inc := typegetlens(typ) + "*len(" + name + ")" stmts = append(stmts, checkcurlen(inc, debug)...) stmts = append(stmts, foreach(name, append( []ast.Stmt{ &ast.AssignStmt{ Tok: token.ASSIGN, Lhs: []ast.Expr{ ast.NewIdent(name + "[i]"), }, Rhs: []ast.Expr{ &ast.CallExpr{ Fun: ast.NewIdent(typegetgetfn(typ)), Args: []ast.Expr{ast.NewIdent("b[n:]")}, }, }, }, }, addns(typegetlens(typ))..., ))...) return } checklencopy := func(name string) (stmts []ast.Stmt) { lens := fmt.Sprintf("len(self.%s)", name) stmts = append(stmts, checkcurlen(lens, name)...) stmts = append(stmts, simplecall("copy", fmt.Sprintf("self.%s[:]", name), "b[n:]")) stmts = append(stmts, addns(lens)...) return } appendcode := func(args []ast.Expr, marstmts *[]ast.Stmt, lenstmts *[]ast.Stmt, unmarstmts *[]ast.Stmt, defmarstmts []ast.Stmt, deflenstmts []ast.Stmt, defunmarstmts []ast.Stmt, ) { bodylist := func(i int, doit []ast.Stmt) []ast.Stmt { return codeclonereplace(args[i].(*ast.FuncLit).Body.List, doit) } if len(args) == 1 { *marstmts = append(*marstmts, bodylist(0, defmarstmts)...) *lenstmts = append(*lenstmts, bodylist(0, deflenstmts)...) *unmarstmts = append(*unmarstmts, bodylist(0, defunmarstmts)...) } else { *marstmts = append(*marstmts, bodylist(0, defmarstmts)...) *lenstmts = append(*lenstmts, bodylist(1, deflenstmts)...) *unmarstmts = append(*unmarstmts, bodylist(2, defunmarstmts)...) } } getdefaultstmts := func( typ, name, name2 string, marstmts *[]ast.Stmt, lenstmts *[]ast.Stmt, unmarstmts *[]ast.Stmt, childrenstmts *[]ast.Stmt, ) { switch typ { case "bytes", "bytesleft": *marstmts = append(*marstmts, simplecall("copy", "b[n:]", "self."+name+"[:]")) *marstmts = append(*marstmts, addns(fmt.Sprintf("len(self.%s[:])", name))...) *lenstmts = append(*lenstmts, addns(fmt.Sprintf("len(self.%s[:])", name))...) if typ == "bytes" { *unmarstmts = append(*unmarstmts, checklencopy(name)...) } else { *unmarstmts = append(*unmarstmts, simpleassign(token.ASSIGN, "self."+name, "b[n:]")) *unmarstmts = append(*unmarstmts, addns("len(b[n:])")...) } case "array": *marstmts = append(*marstmts, foreachentry("self."+name, callputstruct(name2, "entry"))...) *lenstmts = append(*lenstmts, calllenstruct(name2, "self."+name+"[:]")...) *unmarstmts = append(*unmarstmts, checkstructlendo(name2, "self."+name, name, foreachi)...) case "atoms": *marstmts = append(*marstmts, foreachatom("self."+name, callmarshal("atom"))...) *lenstmts = append(*lenstmts, foreachatom("self."+name, calllen("atom"))...) *childrenstmts = append(*childrenstmts, foreachatomsappendchildren("self."+name)...) case "slice": *marstmts = append(*marstmts, foreachentry("self."+name, callputstruct(name2, "entry"))...) *lenstmts = append(*lenstmts, calllenstruct(name2, "self."+name)...) *unmarstmts = append(*unmarstmts, checkstructlendo(name2, "self."+name, name2, foreachi)...) case "atom": *marstmts = append(*marstmts, ifnotnil("self."+name, callmarshal("self."+name))...) *lenstmts = append(*lenstmts, ifnotnil("self."+name, calllen("self."+name))...) *childrenstmts = append(*childrenstmts, ifnotnil("self."+name, []ast.Stmt{ simpleassign(token.ASSIGN, "r", fmt.Sprintf("append(r, %s)", "self."+name)), })...) default: *marstmts = append(*marstmts, putxxadd(typ, "self."+name, false)...) *lenstmts = append(*lenstmts, addn(typegetlen(typ))...) *unmarstmts = append(*unmarstmts, checklendo(typ, "self."+name, name)...) } } for _, _stmt := range origfn.Body.List { stmt := _stmt.(*ast.ExprStmt) callexpr := stmt.X.(*ast.CallExpr) typ := callexpr.Fun.(*ast.Ident).Name if typ == "_unknowns" { hasunknowns = true } else if typ == "atom" { name := getexprs(callexpr.Args[0]) name2 := getexprs(callexpr.Args[1]) atomnames = append(atomnames, name) atomtypes = append(atomtypes, name2) } else if typ == "atoms" { name := getexprs(callexpr.Args[0]) name2 := getexprs(callexpr.Args[1]) atomarrnames = append(atomarrnames, name) atomarrtypes = append(atomarrtypes, name2) } else if typ == "slice" { name := getexprs(callexpr.Args[0]) name2 := getexprs(callexpr.Args[1]) slicenamemap[name] = name2 } } lenstmts = append(lenstmts, addn(8)...) unmarstmts = append(unmarstmts, simplecall("(&self.AtomPos).setPos", "offset", "len(b)")) unmarstmts = append(unmarstmts, addn(8)...) for _, _stmt := range origfn.Body.List { stmt := _stmt.(*ast.ExprStmt) callexpr := stmt.X.(*ast.CallExpr) typ := callexpr.Fun.(*ast.Ident).Name name := "" if len(callexpr.Args) > 0 { name = getexprs(callexpr.Args[0]) } name2 := "" if len(callexpr.Args) > 1 { name2 = getexprs(callexpr.Args[1]) } var defmarstmts, deflenstmts, defunmarstmts, defchildrenstmts []ast.Stmt getdefaultstmts(typ, name, name2, &defmarstmts, &deflenstmts, &defunmarstmts, &defchildrenstmts) var code []ast.Expr for _, arg := range callexpr.Args { if fn, ok := arg.(*ast.CallExpr); ok { if getexprs(fn.Fun) == "_code" { code = fn.Args } } } if code != nil { appendcode(code, &marstmts, &lenstmts, &unmarstmts, defmarstmts, deflenstmts, defunmarstmts, ) continue } if strings.HasPrefix(typ, "_") { if typ == "_unknowns" { marstmts = append(marstmts, foreachunknowns(callmarshal("atom"))...) lenstmts = append(lenstmts, foreachunknowns(calllen("atom"))...) childrenstmts = append(childrenstmts, simpleassign(token.ASSIGN, "r", "append(r, self.Unknowns...)")) } if typ == "_skip" { marstmts = append(marstmts, addns(name)...) lenstmts = append(lenstmts, addns(name)...) unmarstmts = append(unmarstmts, addns(name)...) } if typ == "_code" { appendcode(callexpr.Args, &marstmts, &lenstmts, &unmarstmts, defmarstmts, deflenstmts, defunmarstmts, ) } continue } if name == "_childrenNR" { marstmts = append(marstmts, getchildrennr(name)...) marstmts = append(marstmts, putxxadd(typ, name, true)...) lenstmts = append(lenstmts, addn(typegetlen(typ))...) unmarstmts = append(unmarstmts, addn(typegetlen(typ))...) continue } if strings.HasPrefix(name, "_len_") { field := name[len("_len_"):] marstmts = append(marstmts, putxxadd(typ, "len(self."+field+")", true)...) lenstmts = append(lenstmts, addn(typegetlen(typ))...) unmarstmts = append(unmarstmts, declvar(typegetvartype(typ), name)...) unmarstmts = append(unmarstmts, getxx(typ, "n", name, false)...) unmarstmts = append(unmarstmts, addn(typegetlen(typ))...) unmarstmts = append(unmarstmts, makeslice("self."+field, slicenamemap[field], name)...) continue } marstmts = append(marstmts, defmarstmts...) lenstmts = append(lenstmts, deflenstmts...) unmarstmts = append(unmarstmts, defunmarstmts...) childrenstmts = append(childrenstmts, defchildrenstmts...) } if len(atomnames) > 0 || len(atomarrnames) > 0 || hasunknowns { unmarstmts = append(unmarstmts, unmrashalatoms()...) } marstmts = append(marstmts, &ast.ReturnStmt{}) lenstmts = append(lenstmts, &ast.ReturnStmt{}) unmarstmts = append(unmarstmts, &ast.ReturnStmt{}) childrenstmts = append(childrenstmts, &ast.ReturnStmt{}) decls = append(decls, newdecl(origname, "Marshal", []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("b")}, Type: ast.NewIdent("[]byte")}, }, []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("n")}, Type: ast.NewIdent("int")}, }, marshalwrapstmts())) decls = append(decls, newdecl(origname, "marshal", []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("b")}, Type: ast.NewIdent("[]byte")}, }, []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("n")}, Type: ast.NewIdent("int")}, }, marstmts)) decls = append(decls, newdecl(origname, "Len", []*ast.Field{}, []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("n")}, Type: ast.NewIdent("int")}, }, lenstmts)) decls = append(decls, newdecl("*"+origname, "Unmarshal", []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("b")}, Type: ast.NewIdent("[]byte")}, &ast.Field{Names: []*ast.Ident{ast.NewIdent("offset")}, Type: ast.NewIdent("int")}, }, []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("n")}, Type: ast.NewIdent("int")}, &ast.Field{Names: []*ast.Ident{ast.NewIdent("err")}, Type: ast.NewIdent("error")}, }, unmarstmts)) decls = append(decls, newdecl(origname, "Children", []*ast.Field{}, []*ast.Field{ &ast.Field{Names: []*ast.Ident{ast.NewIdent("r")}, Type: ast.NewIdent("[]Atom")}, }, childrenstmts)) return } func genatoms(filename, outfilename string) { // Create the AST by parsing src. fset := token.NewFileSet() // positions are relative to fset file, err := parser.ParseFile(fset, filename, nil, 0) if err != nil { panic(err) } gen := &ast.File{} gen.Name = ast.NewIdent("mp4io") gen.Decls = []ast.Decl{ &ast.GenDecl{ Tok: token.IMPORT, Specs: []ast.Spec{ &ast.ImportSpec{Path: &ast.BasicLit{Kind: token.STRING, Value: `"git.icomsys.co.kr/ljhwan026/joy4/utils/bits/pio"`}}, }, }, &ast.GenDecl{ Tok: token.IMPORT, Specs: []ast.Spec{ &ast.ImportSpec{Path: &ast.BasicLit{Kind: token.STRING, Value: `"time"`}}, }, }, } tagnamemap := map[string]string{} tagnamemap["ElemStreamDesc"] = "esds" splittagname := func(fnname string) (ok bool, tag, name string) { if len(fnname) > 5 && fnname[4] == '_' { tag = fnname[0:4] tag = strings.Replace(tag, "_", " ", 1) name = fnname[5:] ok = true } else { name = fnname } return } for _, decl := range file.Decls { if fndecl, ok := decl.(*ast.FuncDecl); ok { ok, tag, name := splittagname(fndecl.Name.Name) if ok { tagnamemap[name] = tag } } } tagfuncdecl := func(name, tag string) (decls ast.Decl) { return newdecl(name, "Tag", []*ast.Field{}, []*ast.Field{ &ast.Field{Type: ast.NewIdent("Tag")}, }, []ast.Stmt{ &ast.ReturnStmt{ Results: []ast.Expr{ast.NewIdent(strings.ToUpper(tag))}}}) } for k, v := range tagnamemap { gen.Decls = append(gen.Decls, cc4decls(v)...) gen.Decls = append(gen.Decls, tagfuncdecl(k, v)) } gen.Decls = append(gen.Decls, cc4decls("mdat")...) for _, decl := range file.Decls { if fndecl, ok := decl.(*ast.FuncDecl); ok { ok, tag, name := splittagname(fndecl.Name.Name) if ok { gen.Decls = append(gen.Decls, genatomdecl(fndecl, name, tag)...) gen.Decls = append(gen.Decls, getatommarshalfn(fndecl, name, tag, tagnamemap)...) } else { gen.Decls = append(gen.Decls, genatomdecl(fndecl, name, tag)...) gen.Decls = append(gen.Decls, getstructputgetlenfn(fndecl, name)...) } } } outfile, _ := os.Create(outfilename) printer.Fprint(outfile, fset, gen) outfile.Close() } func parse(filename, outfilename string) { fset := token.NewFileSet() file, err := parser.ParseFile(fset, filename, nil, 0) if err != nil { panic(err) } outfile, _ := os.Create(outfilename) ast.Fprint(outfile, fset, file, nil) outfile.Close() } func main() { switch os.Args[1] { case "parse": parse(os.Args[2], os.Args[3]) case "gen": genatoms(os.Args[2], os.Args[3]) } }