567 lines
14 KiB
C
567 lines
14 KiB
C
/***********************************************************************/
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/* */
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/* Objective Caml */
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/* */
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/* Xavier Leroy, projet Cristal, INRIA Rocquencourt */
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/* */
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/* Copyright 1996 Institut National de Recherche en Informatique et */
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/* en Automatique. All rights reserved. This file is distributed */
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/* under the terms of the GNU Library General Public License. */
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/* */
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/***********************************************************************/
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/* $Id$ */
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/* Buffered input/output. */
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#include <errno.h>
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#include <fcntl.h>
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#include <limits.h>
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#include <string.h>
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#include "config.h"
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#ifdef HAS_UNISTD
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#include <unistd.h>
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#endif
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#include "alloc.h"
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#include "fail.h"
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#include "io.h"
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#include "memory.h"
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#include "misc.h"
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#include "mlvalues.h"
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#include "signals.h"
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#include "sys.h"
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#ifdef HAS_UI
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#include "ui.h"
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#endif
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#ifndef SEEK_SET
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#define SEEK_SET 0
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#define SEEK_CUR 1
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#define SEEK_END 2
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#endif
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/* Hooks for locking channels */
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void (*channel_mutex_free) (struct channel *) = NULL;
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void (*channel_mutex_lock) (struct channel *) = NULL;
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void (*channel_mutex_unlock) (struct channel *) = NULL;
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void (*channel_mutex_unlock_exn) (void) = NULL;
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/* Basic functions over type struct channel *.
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These functions can be called directly from C.
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No locking is performed. */
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/* Functions shared between input and output */
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struct channel * open_descriptor(int fd)
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{
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struct channel * channel;
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channel = (struct channel *) stat_alloc(sizeof(struct channel));
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channel->fd = fd;
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channel->offset = 0;
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channel->curr = channel->max = channel->buff;
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channel->end = channel->buff + IO_BUFFER_SIZE;
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channel->mutex = NULL;
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return channel;
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}
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void close_channel(struct channel *channel)
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{
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close(channel->fd);
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if (channel_mutex_free != NULL) (*channel_mutex_free)(channel);
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stat_free(channel);
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}
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long channel_size(struct channel *channel)
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{
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long end;
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end = lseek(channel->fd, 0, SEEK_END);
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if (end == -1 ||
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lseek(channel->fd, channel->offset, SEEK_SET) != channel->offset) {
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sys_error(NO_ARG);
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}
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return end;
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}
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int channel_binary_mode(struct channel *channel)
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{
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#ifdef _WIN32
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int oldmode = setmode(channel->fd, O_BINARY);
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if (oldmode == O_TEXT) setmode(channel->fd, O_TEXT);
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return oldmode == O_BINARY;
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#else
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return 1;
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#endif
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}
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/* Output */
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#ifndef EINTR
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#define EINTR (-1)
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#endif
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#ifndef EAGAIN
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#define EAGAIN (-1)
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#endif
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#ifndef EWOULDBLOCK
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#define EWOULDBLOCK (-1)
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#endif
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static int do_write(int fd, char *p, int n)
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{
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int retcode;
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Assert(!Is_young(p));
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#ifdef HAS_UI
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retcode = ui_write(fd, p, n);
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#else
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again:
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enter_blocking_section();
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retcode = write(fd, p, n);
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leave_blocking_section();
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if (retcode == -1) {
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if (errno == EINTR) goto again;
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if ((errno == EAGAIN || errno == EWOULDBLOCK) && n > 1) {
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/* We couldn't do a partial write here, probably because
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n <= PIPE_BUF and POSIX says that writes of less than
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PIPE_BUF characters must be atomic.
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We first try again with a partial write of 1 character.
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If that fails too, we'll raise Sys_blocked_io below. */
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n = 1; goto again;
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}
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}
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#endif
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if (retcode == -1) sys_error(NO_ARG);
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return retcode;
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}
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/* Attempt to flush the buffer. This will make room in the buffer for
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at least one character. Returns true if the buffer is empty at the
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end of the flush, or false if some data remains in the buffer. */
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int flush_partial(struct channel *channel)
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{
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int towrite, written;
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towrite = channel->curr - channel->buff;
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if (towrite > 0) {
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written = do_write(channel->fd, channel->buff, towrite);
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channel->offset += written;
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if (written < towrite)
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bcopy(channel->buff + written, channel->buff, towrite - written);
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channel->curr -= written;
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}
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return (channel->curr == channel->buff);
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}
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/* Flush completely the buffer. */
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void flush(struct channel *channel)
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{
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while (! flush_partial(channel)) /*nothing*/;
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}
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/* Output data */
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void putword(struct channel *channel, uint32 w)
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{
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if (! channel_binary_mode(channel))
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failwith("output_binary_int: not a binary channel");
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putch(channel, w >> 24);
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putch(channel, w >> 16);
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putch(channel, w >> 8);
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putch(channel, w);
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}
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int putblock(struct channel *channel, char *p, long int len)
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{
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int n, free, towrite, written;
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n = len >= INT_MAX ? INT_MAX : (int) len;
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free = channel->end - channel->curr;
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if (n <= free) {
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/* Write request small enough to fit in buffer: transfer to buffer. */
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bcopy(p, channel->curr, n);
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channel->curr += n;
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return n;
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} else {
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/* Write request overflows buffer: transfer whatever fits to buffer
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and write the buffer */
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bcopy(p, channel->curr, free);
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towrite = channel->end - channel->buff;
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written = do_write(channel->fd, channel->buff, towrite);
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if (written < towrite)
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bcopy(channel->buff + written, channel->buff, towrite - written);
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channel->offset += written;
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channel->curr = channel->end - written;
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channel->max = channel->end - written;
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return free;
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}
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}
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void really_putblock(struct channel *channel, char *p, long int len)
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{
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int written;
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while (len > 0) {
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written = putblock(channel, p, len);
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p += written;
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len -= written;
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}
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}
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void seek_out(struct channel *channel, long int dest)
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{
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flush(channel);
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if (lseek(channel->fd, dest, 0) != dest) sys_error(NO_ARG);
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channel->offset = dest;
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}
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long pos_out(struct channel *channel)
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{
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return channel->offset + channel->curr - channel->buff;
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}
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/* Input */
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static int do_read(int fd, char *p, unsigned int n)
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{
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int retcode;
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Assert(!Is_young(p));
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enter_blocking_section();
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#ifdef HAS_UI
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retcode = ui_read(fd, p, n);
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#else
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#ifdef EINTR
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do { retcode = read(fd, p, n); } while (retcode == -1 && errno == EINTR);
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#else
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retcode = read(fd, p, n);
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#endif
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#endif
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leave_blocking_section();
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if (retcode == -1) sys_error(NO_ARG);
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return retcode;
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}
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unsigned char refill(struct channel *channel)
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{
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int n;
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n = do_read(channel->fd, channel->buff, IO_BUFFER_SIZE);
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if (n == 0) raise_end_of_file();
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channel->offset += n;
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channel->max = channel->buff + n;
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channel->curr = channel->buff + 1;
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return (unsigned char)(channel->buff[0]);
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}
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uint32 getword(struct channel *channel)
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{
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int i;
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uint32 res;
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if (! channel_binary_mode(channel))
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failwith("input_binary_int: not a binary channel");
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res = 0;
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for(i = 0; i < 4; i++) {
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res = (res << 8) + getch(channel);
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}
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return res;
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}
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int getblock(struct channel *channel, char *p, long int len)
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{
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int n, avail, nread;
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n = len >= INT_MAX ? INT_MAX : (int) len;
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avail = channel->max - channel->curr;
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if (n <= avail) {
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bcopy(channel->curr, p, n);
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channel->curr += n;
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return n;
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} else if (avail > 0) {
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bcopy(channel->curr, p, avail);
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channel->curr += avail;
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return avail;
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} else if (n < IO_BUFFER_SIZE) {
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nread = do_read(channel->fd, channel->buff, IO_BUFFER_SIZE);
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channel->offset += nread;
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channel->max = channel->buff + nread;
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if (n > nread) n = nread;
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bcopy(channel->buff, p, n);
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channel->curr = channel->buff + n;
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return n;
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} else {
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nread = do_read(channel->fd, p, n);
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channel->offset += nread;
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return nread;
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}
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}
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int really_getblock(struct channel *chan, char *p, long int n)
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{
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int r;
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while (n > 0) {
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r = getblock(chan, p, n);
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if (r == 0) break;
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p += r;
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n -= r;
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}
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return (n == 0);
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}
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void seek_in(struct channel *channel, long int dest)
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{
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if (dest >= channel->offset - (channel->max - channel->buff) &&
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dest <= channel->offset) {
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channel->curr = channel->max - (channel->offset - dest);
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} else {
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if (lseek(channel->fd, dest, SEEK_SET) != dest) sys_error(NO_ARG);
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channel->offset = dest;
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channel->curr = channel->max = channel->buff;
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}
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}
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long pos_in(struct channel *channel)
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{
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return channel->offset - (channel->max - channel->curr);
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}
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long input_scan_line(struct channel *channel)
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{
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char * p;
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int n;
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p = channel->curr;
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do {
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if (p >= channel->max) {
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/* No more characters available in the buffer */
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if (channel->curr > channel->buff) {
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/* Try to make some room in the buffer by shifting the unread
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portion at the beginning */
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bcopy(channel->curr, channel->buff, channel->max - channel->curr);
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n = channel->curr - channel->buff;
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channel->curr -= n;
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channel->max -= n;
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p -= n;
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}
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if (channel->max >= channel->end) {
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/* Buffer is full, no room to read more characters from the input.
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Return the number of characters in the buffer, with negative
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sign to indicate that no newline was encountered. */
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return -(channel->max - channel->curr);
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}
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/* Fill the buffer as much as possible */
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n = do_read(channel->fd, channel->max, channel->end - channel->max);
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if (n == 0) {
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/* End-of-file encountered. Return the number of characters in the
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buffer, with negative sign since we haven't encountered
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a newline. */
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return -(channel->max - channel->curr);
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}
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channel->offset += n;
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channel->max += n;
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}
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} while (*p++ != '\n');
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/* Found a newline. Return the length of the line, newline included. */
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return (p - channel->curr);
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}
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/* Caml entry points for the I/O functions. Wrap struct channel *
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objects into a heap-allocated, finalized object. Perform locking
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and unlocking around the I/O operations. */
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static void finalize_channel(value vchan)
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{
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struct channel * chan = Channel(vchan);
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if (channel_mutex_free != NULL) (*channel_mutex_free)(chan);
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stat_free(chan);
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}
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static value alloc_channel(struct channel *chan)
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{
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value res = alloc_final(2, finalize_channel, 1, 1000);
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Field(res, 1) = (value) chan;
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return res;
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}
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value caml_open_descriptor(value fd) /* ML */
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{
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return alloc_channel(open_descriptor(Int_val(fd)));
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}
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value channel_descriptor(value vchannel) /* ML */
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{
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int fd = Channel(vchannel)->fd;
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if (fd == -1) { errno = EBADF; sys_error(NO_ARG); }
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return Val_int(fd);
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}
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value caml_close_channel(value vchannel) /* ML */
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{
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/* For output channels, must have flushed before */
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struct channel * channel = Channel(vchannel);
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close(channel->fd);
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channel->fd = -1;
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return Val_unit;
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}
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value caml_channel_size(value vchannel) /* ML */
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{
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return Val_long(channel_size(Channel(vchannel)));
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}
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value caml_set_binary_mode(value vchannel, value mode) /* ML */
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{
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#ifdef _WIN32
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struct channel * channel = Channel(vchannel);
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if (setmode(channel->fd, Bool_val(mode) ? O_BINARY : O_TEXT) == -1)
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sys_error(NO_ARG);
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#endif
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return Val_unit;
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}
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value caml_flush_partial(value vchannel) /* ML */
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{
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struct channel * channel = Channel(vchannel);
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int res;
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Lock(channel);
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res = flush_partial(channel);
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Unlock(channel);
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return Val_bool(res);
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}
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value caml_flush(value vchannel) /* ML */
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{
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struct channel * channel = Channel(vchannel);
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Lock(channel);
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flush(channel);
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Unlock(channel);
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return Val_unit;
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}
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value caml_output_char(value vchannel, value ch) /* ML */
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{
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struct channel * channel = Channel(vchannel);
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Lock(channel);
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putch(channel, Long_val(ch));
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Unlock(channel);
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return Val_unit;
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}
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value caml_output_int(value vchannel, value w) /* ML */
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{
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struct channel * channel = Channel(vchannel);
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Lock(channel);
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putword(channel, Long_val(w));
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Unlock(channel);
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return Val_unit;
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}
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value caml_output_partial(value vchannel, value buff, value start, value length) /* ML */
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{
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CAMLparam4 (vchannel, buff, start, length);
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struct channel * channel = Channel(vchannel);
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int res;
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Lock(channel);
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res = putblock(channel, &Byte(buff, Long_val(start)), Long_val(length));
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Unlock(channel);
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CAMLreturn (Val_int(res));
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}
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value caml_output(value vchannel, value buff, value start, value length) /* ML */
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{
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CAMLparam4 (vchannel, buff, start, length);
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struct channel * channel = Channel(vchannel);
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long pos = Long_val(start);
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long len = Long_val(length);
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Lock(channel);
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while (len > 0) {
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int written = putblock(channel, &Byte(buff, pos), len);
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pos += written;
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len -= written;
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}
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Unlock(channel);
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CAMLreturn (Val_unit);
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}
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value caml_seek_out(value vchannel, value pos) /* ML */
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{
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struct channel * channel = Channel(vchannel);
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Lock(channel);
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seek_out(channel, Long_val(pos));
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Unlock(channel);
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return Val_unit;
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}
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value caml_pos_out(value vchannel) /* ML */
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{
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return Val_long(pos_out(Channel(vchannel)));
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}
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value caml_input_char(value vchannel) /* ML */
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{
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struct channel * channel = Channel(vchannel);
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unsigned char c;
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Lock(channel);
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c = getch(channel);
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Unlock(channel);
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return Val_long(c);
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}
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value caml_input_int(value vchannel) /* ML */
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{
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struct channel * channel = Channel(vchannel);
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long i;
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Lock(channel);
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i = getword(channel);
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Unlock(channel);
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#ifdef ARCH_SIXTYFOUR
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i = (i << 32) >> 32; /* Force sign extension */
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#endif
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return Val_long(i);
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}
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value caml_input(value vchannel, value buff, value start, value length) /* ML */
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{
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CAMLparam4 (vchannel, buff, start, length);
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struct channel * channel = Channel(vchannel);
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long res;
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Lock(channel);
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res = getblock(channel, &Byte(buff, Long_val(start)), Long_val(length));
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Unlock(channel);
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CAMLreturn (Val_long(res));
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}
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value caml_seek_in(value vchannel, value pos) /* ML */
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{
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struct channel * channel = Channel(vchannel);
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Lock(channel);
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seek_in(channel, Long_val(pos));
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Unlock(channel);
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return Val_unit;
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}
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value caml_pos_in(value vchannel) /* ML */
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{
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return Val_long(pos_in(Channel(vchannel)));
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}
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value caml_input_scan_line(value vchannel) /* ML */
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{
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struct channel * channel = Channel(vchannel);
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long res;
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Lock(channel);
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res = input_scan_line(channel);
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Unlock(channel);
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return Val_long(res);
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}
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