package asm import ( "bytes" "encoding/binary" "fmt" "io" "log" "math" "strconv" "strings" "github.com/alecthomas/participle/v2" "github.com/alecthomas/participle/v2/lexer" "git.defalsify.org/festive/vm" ) type Asm struct { Instructions []*Instruction `@@*` } type Arg struct { Sym *string `(@Sym Whitespace?)?` Size *uint32 `(@Size Whitespace?)?` Flag *uint8 `(@Size Whitespace?)?` Selector *string `(@Sym Whitespace?)?` Desc *string `(Quote ((@Sym | @Size) @Whitespace?)+ Quote Whitespace?)?` } func flush(b *bytes.Buffer, w io.Writer) (int, error) { if w != nil { return w.Write(b.Bytes()) } return 0, nil } func parseDescType(b *bytes.Buffer, arg Arg) (int, error) { var rn int var err error var selector string if arg.Flag != nil { selector = strconv.FormatUint(uint64(*arg.Flag), 10) } else if arg.Selector != nil { selector = *arg.Selector } var size string if arg.Size != nil { size = strconv.FormatUint(uint64(*arg.Size), 10) n, err := writeSym(b, size) rn += n if err != nil { return rn, err } } if arg.Sym != nil { n, err := writeSym(b, *arg.Sym) rn += n if err != nil { return rn, err } } if selector != "" { n, err := writeSym(b, *arg.Selector) rn += n if err != nil { return rn, err } } n, err := writeSym(b, *arg.Desc) rn += n if err != nil { return rn, err } return rn, nil } func parseTwoSym(b *bytes.Buffer, arg Arg) (int, error) { var rn int var selector string var sym string if arg.Size != nil { selector = strconv.FormatUint(uint64(*arg.Size), 10) sym = *arg.Selector } else if arg.Selector != nil { sym = *arg.Sym selector = *arg.Selector } n, err := writeSym(b, selector) rn += n if err != nil { return rn, err } n, err = writeSym(b, sym) rn += n if err != nil { return rn, err } return rn, nil } func parseSig(b *bytes.Buffer, arg Arg) (int, error) { var rn int n, err := writeSym(b, *arg.Sym) rn += n if err != nil { return rn, err } n, err = writeSize(b, *arg.Size) rn += n if err != nil { return rn, err } n, err = b.Write([]byte{uint8(*arg.Flag)}) rn += n if err != nil { return rn, err } return rn, nil } func parseSized(b *bytes.Buffer, arg Arg) (int, error) { var rn int n, err := writeSym(b, *arg.Sym) rn += n if err != nil { return rn, err } n, err = writeSize(b, *arg.Size) rn += n if err != nil { return rn, err } return rn, nil } func parseOne(op vm.Opcode, instruction *Instruction, w io.Writer) (int, error) { a := instruction.OpArg var n_buf int var n_out int b := bytes.NewBuffer(nil) n, err := writeOpcode(b, op) n_buf += n if err != nil { return n_out, err } // Catch MOUT if a.Desc != nil { n, err := parseDescType(b, a) n_buf += n if err != nil { return n_out, err } return flush(b, w) } // Catch if a.Selector != nil { log.Printf("entering twosym for %v", op) n, err := parseTwoSym(b, a) n_buf += n if err != nil { return n_out, err } return flush(b, w) } // Catch CATCH, LOAD if a.Size != nil { if a.Flag != nil { n, err := parseSig(b, a) n_buf += n if err != nil { return n_out, err } } else { n, err := parseSized(b, a) n_buf += n if err != nil { return n_out, err } } return flush(b, w) } // Catch HALT if a.Sym == nil { return flush(b, w) } n, err = writeSym(b, *a.Sym) n_buf += n return flush(b, w) } func (a Arg) String() string { s := "[Arg]" if a.Sym != nil { s += " Sym: " + *a.Sym } if a.Size != nil { s += fmt.Sprintf(" Size: %v", *a.Size) } if a.Flag != nil { s += fmt.Sprintf(" Flag: %v", *a.Flag) } if a.Selector != nil { s += " Selector: " + *a.Selector } if a.Desc != nil { s += " Description: " + *a.Desc } return fmt.Sprintf(s) } type Instruction struct { OpCode string `@Ident` OpArg Arg `(Whitespace @@)?` Comment string `Comment? EOL` } func (i Instruction) String() string { return fmt.Sprintf("%s %s", i.OpCode, i.OpArg) } var ( asmLexer = lexer.MustSimple([]lexer.SimpleRule{ {"Comment", `(?:#)[^\n]*`}, {"Ident", `^[A-Z]+`}, {"Size", `[0-9]+`}, {"Sym", `[a-zA-Z_][a-zA-Z0-9_]*`}, {"Whitespace", `[ \t]+`}, {"EOL", `[\n\r]+`}, {"Quote", `["']`}, }) asmParser = participle.MustBuild[Asm]( participle.Lexer(asmLexer), participle.Elide("Comment", "Whitespace"), ) ) func numSize(n uint32) int { v := math.Log2(float64(n)) return int((v / 8) + 1) } func writeOpcode(w *bytes.Buffer, op vm.Opcode) (int, error) { bn := [2]byte{} binary.BigEndian.PutUint16(bn[:], uint16(op)) n, err := w.Write(bn[:]) return n, err } func writeSym(w *bytes.Buffer, s string) (int, error) { sz := len(s) if sz > 255 { return 0, fmt.Errorf("string size %v too big", sz) } w.Write([]byte{byte(sz)}) return w.WriteString(s) } func writeDisplay(w *bytes.Buffer, s string) (int, error) { s = strings.Trim(s, "\"'") sz := len(s) if sz > 255 { return 0, fmt.Errorf("string size %v too big", sz) } w.Write([]byte{byte(sz)}) return w.WriteString(s) } func writeSize(w *bytes.Buffer, n uint32) (int, error) { bn := [4]byte{} sz := numSize(n) if sz > 4 { return 0, fmt.Errorf("number size %v too big", sz) } w.Write([]byte{byte(sz)}) binary.BigEndian.PutUint32(bn[:], n) c := 4-sz return w.Write(bn[c:]) } type Batcher struct { menuProcessor MenuProcessor inMenu bool } func NewBatcher(mp MenuProcessor) Batcher { return Batcher{ menuProcessor: NewMenuProcessor(), } } func(bt *Batcher) MenuExit(w io.Writer) (int, error) { if !bt.inMenu { return 0, nil } bt.inMenu = false b := bt.menuProcessor.ToLines() log.Printf("tolines %v", b) return w.Write(b) } func(bt *Batcher) MenuAdd(w io.Writer, code string, arg Arg) (int, error) { bt.inMenu = true var selector string if arg.Size != nil { selector = strconv.FormatUint(uint64(*arg.Size), 10) } else if arg.Selector != nil { selector = *arg.Selector } log.Printf("menu processor add %v '%v' '%v' '%v'", code, *arg.Sym, selector, *arg.Desc) err := bt.menuProcessor.Add(code, *arg.Sym, selector, *arg.Desc) return 0, err } func(bt *Batcher) Exit(w io.Writer) (int, error) { return bt.MenuExit(w) } func Parse(s string, w io.Writer) (int, error) { rd := strings.NewReader(s) ast, err := asmParser.Parse("file", rd) if err != nil { return 0, err } batch := Batcher{ } var rn int for _, v := range ast.Instructions { log.Printf("parsing line %v: %v", v.OpCode, v.OpArg) op, ok := vm.OpcodeIndex[v.OpCode] if !ok { n, err := batch.MenuAdd(w, v.OpCode, v.OpArg) rn += n if err != nil { return rn, err } } else { n, err := batch.MenuExit(w) if err != nil { return rn, err } rn += n n, err = parseOne(op, v, w) rn += n if err != nil { return rn, err } log.Printf("wrote %v bytes for %v", n, v.OpArg) } } n, err := batch.Exit(w) rn += n if err != nil { return rn, err } rn += n return rn, err }