package hcl /* #include #include */ import "C" import ( // "bufio" // "io" "os" // "sync" // "unsafe" ) type IOHandle struct { file *os.File ioif interface{} } /* type IOHandleTable struct { mtx sync.Mutex handles []IOHandle free_slots []int } func (io *IOHandleTable) add_io_handle(f *os.File, ioif interface{}) int { io.mtx.Lock() defer io.mtx.Unlock() var n int = len(io.free_slots) if n <= 0 { // no free slots io.handles = append(io.handles, IOHandle{file: f, ioif: ioif}) return len(io.handles) - 1 } else { var slot int n-- slot = io.free_slots[n] io.free_slots = io.free_slots[:n] io.handles[slot].file = f io.handles[slot].ioif = ioif return slot } } func (io *IOHandleTable) del_io_handle(slot int) IOHandle { var ( h IOHandle n int ) io.mtx.Lock() defer io.mtx.Unlock() h = io.handles[slot] io.handles[slot].file = nil io.handles[slot].ioif = nil n = len(io.handles) if slot == n-1 { io.handles = io.handles[:n-1] } else { io.free_slots = append(io.free_slots, slot) } return h } func (io *IOHandleTable) slot_to_io_handle(slot int) IOHandle { io.mtx.Lock() defer io.mtx.Unlock() return io.handles[slot] } var io_tab IOHandleTable = IOHandleTable{} //export go_read_handler func go_read_handler(c *C.hcl_t, cmd C.hcl_iocmd_t, arg unsafe.Pointer) C.int { var ( g *HCL err error ) g = c_to_go(c) switch cmd { case C.HCL_IO_OPEN: var ( ioarg *C.hcl_iosrarg_t name string includer_name string fd int ) ioarg = (*C.hcl_iosrarg_t)(arg) if ioarg.name == nil { // main stream when it's not feed based. name = "" } else { var k []rune = ucstr_to_rune_slice(ioarg.name) name = string(k) } if ioarg.includer == nil || ioarg.includer.name == nil { includer_name = "" } else { var k []rune = ucstr_to_rune_slice(ioarg.includer.name) includer_name = string(k) } fd, err = g.io.r.Open(g, name, includer_name) if err != nil { C.hcl_seterrbmsg(c, C.HCL_ENOIMPL, C.CString(err.Error())) return -1 } ioarg.handle = unsafe.Pointer(uintptr(fd)) return 0 case C.HCL_IO_CLOSE: var ioarg *C.hcl_iosrarg_t = (*C.hcl_iosrarg_t)(arg) g.io.r.Close(int(uintptr(ioarg.handle))) return 0 case C.HCL_IO_READ: var ( ioarg *C.hcl_iosrarg_t n int i int buf []rune ) ioarg = (*C.hcl_iosrarg_t)(arg) buf = make([]rune, 1024) // TODO: different size... n, err = g.io.r.Read(int(uintptr(ioarg.handle)), buf) if err != nil { C.hcl_seterrbmsg(c, C.HCL_ENOIMPL, C.CString(err.Error())) return -1 } for i = 0; i < n; i++ { // TODO: use a proper conversion when the rune size is different from hio_uch_t ioarg.buf[i] = C.hcl_uch_t(buf[i]) } ioarg.xlen = C.hcl_oow_t(n) return 0 } C.hcl_seterrnum(c, C.HCL_ENOIMPL) return -1 } //export go_scan_handler func go_scan_handler(c *C.hcl_t, cmd C.hcl_iocmd_t, arg unsafe.Pointer) C.int { var ( g *HCL err error ) g = c_to_go(c) switch cmd { case C.HCL_IO_OPEN: err = g.io.s.Open(g) if err != nil { C.hcl_seterrbmsg(c, C.HCL_ENOIMPL, C.CString(err.Error())) return -1 } // we don't need to set ioarg.handle because the c object to go object // mapping has been established and it doesn't handle multiple streams return 0 case C.HCL_IO_CLOSE: g.io.s.Close() return 0 case C.HCL_IO_READ: var ( ioarg *C.hcl_ioinarg_t n int err error buf []rune ) ioarg = (*C.hcl_ioinarg_t)(arg) buf = make([]rune, 1024) // TODO: different size... n, err = g.io.s.Read(buf) if err != nil { C.hcl_seterrbmsg(c, C.HCL_ENOIMPL, C.CString(err.Error())) return -1 } ioarg.xlen = C.ulong(n) return 0 } C.hcl_seterrnum(c, C.HCL_ENOIMPL) return -1 } //export go_print_handler func go_print_handler(c *C.hcl_t, cmd C.hcl_iocmd_t, arg unsafe.Pointer) C.int { var ( g *HCL err error ) g = c_to_go(c) switch cmd { case C.HCL_IO_OPEN: err = g.io.p.Open(g) if err != nil { C.hcl_seterrbmsg(c, C.HCL_ENOIMPL, C.CString(err.Error())) return -1 } // we don't need to set ioarg.handle because the c object to go object // mapping has been established and it doesn't handle multiple streams return 0 case C.HCL_IO_CLOSE: g.io.p.Close() return 0 case C.HCL_IO_WRITE: var ( ioarg *C.hcl_iooutarg_t data []rune err error ) ioarg = (*C.hcl_iooutarg_t)(arg) data = uchars_to_rune_slice((*C.hcl_uch_t)(ioarg.ptr), uintptr(ioarg.len)) err = g.io.p.Write(data) if err != nil { C.hcl_seterrbmsg(c, C.HCL_ENOIMPL, C.CString(err.Error())) return -1 } ioarg.xlen = C.hcl_oow_t(len(data)) return 0 case C.HCL_IO_WRITE_BYTES: var ( ioarg *C.hcl_iooutarg_t data []byte err error ) ioarg = (*C.hcl_iooutarg_t)(arg) data = unsafe.Slice((*byte)(ioarg.ptr), ioarg.len) err = g.io.p.WriteBytes(data) if err != nil { C.hcl_seterrbmsg(c, C.HCL_ENOIMPL, C.CString(err.Error())) return -1 } ioarg.xlen = C.hcl_oow_t(len(data)) return 0 case C.HCL_IO_FLUSH: var err error = g.io.p.Flush() if err != nil { C.hcl_seterrbmsg(c, C.HCL_ENOIMPL, C.CString(err.Error())) return -1 } return 0 } C.hcl_seterrnum(c, C.HCL_ENOIMPL) return -1 } // ------------------------------------------------------ type ReadFileHandler struct { g *HCL } func (p *ReadFileHandler) Open(g *HCL, name string, includer_name string) (int, error) { var ( f *os.File r *bufio.Reader fd int err error ) if name == "" { f = os.Stdin } else { f, err = os.Open(name) if err != nil { return -1, err } } r = bufio.NewReader(f) fd = io_tab.add_io_handle(f, r) p.g = g return fd, nil } func (p *ReadFileHandler) Close(fd int) { var hnd IOHandle = io_tab.slot_to_io_handle(fd) if hnd.file != nil { if hnd.file != os.Stdout && hnd.file != os.Stderr { hnd.file.Close() } hnd.file = nil hnd.ioif = nil } } func (p *ReadFileHandler) Read(fd int, buf []rune) (int, error) { var ( hnd IOHandle i int c rune r *bufio.Reader err error ) hnd = io_tab.slot_to_io_handle(fd) r, _ = hnd.ioif.(*bufio.Reader) for i = 0; i < len(buf); i++ { c, _, err = r.ReadRune() if err == io.EOF { break } else if err != nil { return -1, err } buf[i] = c } return i, nil } // ------------------------------------------------------ type ScanFileHandler struct { g *HCL f *os.File r *bufio.Reader } func (p *ScanFileHandler) Open(g *HCL) error { var ( f *os.File // err error ) f = os.Stdin //f, err = os.Open("/dev/stdin") //if err != nil { // return err //} p.r = bufio.NewReader(f) p.f = f p.g = g return nil } func (p *ScanFileHandler) Close() { if p.f != nil { if p.f != os.Stdout && p.f != os.Stderr { p.f.Close() } p.f = nil p.r = nil } } func (p *ScanFileHandler) Read(buf []rune) (int, error) { var ( i int c rune err error ) // flush all pending print out before reading p.g.io.p.Flush() for i = 0; i < len(buf); i++ { c, _, err = p.r.ReadRune() if err == io.EOF { break } else if err != nil { return -1, err } buf[i] = c } return i, nil } // ------------------------------------------------------ type PrintFileHandler struct { f *os.File w *bufio.Writer } func (p *PrintFileHandler) Open(g *HCL) error { var ( f *os.File // err error ) // f, err = os.OpenFile("/dev/stdout", os.O_WRONLY|os.O_CREATE|os.O_TRUNC, 0644) // if err != nil { // return err // } f = os.Stdout p.w = bufio.NewWriter(f) p.f = f //fmt.Fprintf(os.Stderr, "XXXXXXXXXX open porint\n") return nil } func (p *PrintFileHandler) Close() { //fmt.Fprintf(os.Stderr, "XXXXXXXXXX close porint\n") if p.f != nil { if p.f != os.Stdout && p.f != os.Stderr { p.f.Close() } p.f = nil p.w = nil } } func (p *PrintFileHandler) Write(data []rune) error { var err error //fmt.Fprintf(os.Stderr, "XXXXXXXXXX write porint\n") _, err = p.w.WriteString(string(data)) p.w.Flush() // TODO: is this needed? return err } func (p *PrintFileHandler) WriteBytes(data []byte) error { var err error //fmt.Fprintf(os.Stderr, "XXXXXXXXXX write porint\n") _, err = p.w.Write(data) p.w.Flush() // TODO: is this needed? return err } func (p *PrintFileHandler) Flush() error { //fmt.Fprintf(os.Stderr, "XXXXXXXXXX flush porint\n") return p.w.Flush() } */