llvm-gcc-4.2/libgfortran/io/file_pos.c - llvm-archive - Git at Google

 /* Copyright (C) 2002-2003, 2005, 2006 Free Software Foundation, Inc.
    Contributed by Andy Vaught and Janne Blomqvist

 This file is part of the GNU Fortran runtime library (libgfortran).

 Libgfortran is free software; you can redistribute it and/or modify
 it under the terms of the GNU General Public License as published by
 the Free Software Foundation; either version 2, or (at your option)
 any later version.

 In addition to the permissions in the GNU General Public License, the
 Free Software Foundation gives you unlimited permission to link the
 compiled version of this file into combinations with other programs,
 and to distribute those combinations without any restriction coming
 from the use of this file.  (The General Public License restrictions
 do apply in other respects; for example, they cover modification of
 the file, and distribution when not linked into a combine
 executable.)

 Libgfortran is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 GNU General Public License for more details.

 You should have received a copy of the GNU General Public License
 along with Libgfortran; see the file COPYING.  If not, write to
 the Free Software Foundation, 51 Franklin Street, Fifth Floor,
 Boston, MA 02110-1301, USA.  */

 #include "config.h"
 #include <string.h>
 #include "libgfortran.h"
 #include "io.h"

 /* file_pos.c-- Implement the file positioning statements, i.e. BACKSPACE,
    ENDFILE, and REWIND as well as the FLUSH statement.  */


 /* formatted_backspace(fpp, u)-- Move the file back one line.  The
    current position is after the newline that terminates the previous
    record, and we have to sift backwards to find the newline before
    that or the start of the file, whichever comes first.  */

 #define READ_CHUNK 4096

 static void
 formatted_backspace (st_parameter_filepos *fpp, gfc_unit *u)
 {
   gfc_offset base;
   char *p;
   int n;

   base = file_position (u->s) - 1;

   do
     {
       n = (base < READ_CHUNK) ? base : READ_CHUNK;
       base -= n;

       p = salloc_r_at (u->s, &n, base);
       if (p == NULL)
 	goto io_error;

       /* We have moved backwards from the current position, it should
          not be possible to get a short read.  Because it is not
          clear what to do about such thing, we ignore the possibility.  */

       /* There is no memrchr() in the C library, so we have to do it
          ourselves.  */

       n--;
       while (n >= 0)
 	{
 	  if (p[n] == '\n')
 	    {
 	      base += n + 1;
 	      goto done;
 	    }
 	  n--;
 	}

     }
   while (base != 0);

   /* base is the new pointer.  Seek to it exactly.  */
  done:
   if (sseek (u->s, base) == FAILURE)
     goto io_error;
   u->last_record--;
   u->endfile = NO_ENDFILE;

   return;

  io_error:
   generate_error (&fpp->common, ERROR_OS, NULL);
 }


 /* unformatted_backspace(fpp) -- Move the file backwards for an unformatted
    sequential file.  We are guaranteed to be between records on entry and
    we have to shift to the previous record.  Loop over subrecords.  */

 static void
 unformatted_backspace (st_parameter_filepos *fpp, gfc_unit *u)
 {
   gfc_offset m, new;
   GFC_INTEGER_4 m4;
   GFC_INTEGER_8 m8;
   int length, length_read;
   int continued;
   char *p;

   if (compile_options.record_marker == 0)
     length = sizeof (GFC_INTEGER_4);
   else
     length = compile_options.record_marker;

   do
     {
       length_read = length;

       p = salloc_r_at (u->s, &length_read,
 		       file_position (u->s) - length);
       if (p == NULL || length_read != length)
 	goto io_error;

       /* Only CONVERT_NATIVE and CONVERT_SWAP are valid here.  */
       if (u->flags.convert == CONVERT_NATIVE)
 	{
 	  switch (length)
 	    {
 	    case sizeof(GFC_INTEGER_4):
 	      memcpy (&m4, p, sizeof (m4));
 	      m = m4;
 	      break;

 	    case sizeof(GFC_INTEGER_8):
 	      memcpy (&m8, p, sizeof (m8));
 	      m = m8;
 	      break;

 	    default:
 	      runtime_error ("Illegal value for record marker");
 	      break;
 	    }
 	}
       else
 	{
 	  switch (length)
 	    {
 	    case sizeof(GFC_INTEGER_4):
 	      reverse_memcpy (&m4, p, sizeof (m4));
 	      m = m4;
 	      break;

 	    case sizeof(GFC_INTEGER_8):
 	      reverse_memcpy (&m8, p, sizeof (m8));
 	      m = m8;
 	      break;

 	    default:
 	      runtime_error ("Illegal value for record marker");
 	      break;
 	    }

 	}

       continued = m < 0;
       if (continued)
 	m = -m;

       if ((new = file_position (u->s) - m - 2*length) < 0)
 	new = 0;

       if (sseek (u->s, new) == FAILURE)
 	goto io_error;
     } while (continued);

   u->last_record--;
   return;

  io_error:
   generate_error (&fpp->common, ERROR_OS, NULL);
 }


 extern void st_backspace (st_parameter_filepos *);
 export_proto(st_backspace);

 void
 st_backspace (st_parameter_filepos *fpp)
 {
   gfc_unit *u;

   library_start (&fpp->common);

   u = find_unit (fpp->common.unit);
   if (u == NULL)
     {
       generate_error (&fpp->common, ERROR_BAD_UNIT, NULL);
       goto done;
     }

   /* Ignore direct access.  Non-advancing I/O is only allowed for formatted
      sequential I/O and the next direct access transfer repositions the file
      anyway.  */

   if (u->flags.access == ACCESS_DIRECT || u->flags.access == ACCESS_STREAM)
     goto done;

   /* Check for special cases involving the ENDFILE record first.  */

   if (u->endfile == AFTER_ENDFILE)
     {
       u->endfile = AT_ENDFILE;
       flush (u->s);
       struncate (u->s);
     }
   else
     {
       if (file_position (u->s) == 0)
 	goto done;		/* Common special case */

       if (u->mode == WRITING)
 	{
 	  flush (u->s);
 	  struncate (u->s);
 	  u->mode = READING;
         }

       if (u->flags.form == FORM_FORMATTED)
 	formatted_backspace (fpp, u);
       else
 	unformatted_backspace (fpp, u);

       u->endfile = NO_ENDFILE;
       u->current_record = 0;
       u->bytes_left = 0;
     }

  done:
   if (u != NULL)
     unlock_unit (u);

   library_end ();
 }


 extern void st_endfile (st_parameter_filepos *);
 export_proto(st_endfile);

 void
 st_endfile (st_parameter_filepos *fpp)
 {
   gfc_unit *u;

   library_start (&fpp->common);

   u = find_unit (fpp->common.unit);
   if (u != NULL)
     {
       if (u->current_record)
 	{
 	  st_parameter_dt dtp;
 	  dtp.common = fpp->common;
 	  memset (&dtp.u.p, 0, sizeof (dtp.u.p));
 	  dtp.u.p.current_unit = u;
 	  next_record (&dtp, 1);
 	}

       flush (u->s);
       struncate (u->s);
       u->endfile = AFTER_ENDFILE;
       unlock_unit (u);
     }

   library_end ();
 }


 extern void st_rewind (st_parameter_filepos *);
 export_proto(st_rewind);

 void
 st_rewind (st_parameter_filepos *fpp)
 {
   gfc_unit *u;

   library_start (&fpp->common);

   u = find_unit (fpp->common.unit);
   if (u != NULL)
     {
       if (u->flags.access == ACCESS_DIRECT)
 	generate_error (&fpp->common, ERROR_BAD_OPTION,
 			"Cannot REWIND a file opened for DIRECT access");
       else
 	{
 	  /* Flush the buffers.  If we have been writing to the file, the last
 	       written record is the last record in the file, so truncate the
 	       file now.  Reset to read mode so two consecutive rewind
 	       statements do not delete the file contents.  */
 	  flush (u->s);
 	  if (u->mode == WRITING && u->flags.access != ACCESS_STREAM)
 	    struncate (u->s);

 	  u->mode = READING;
 	  u->last_record = 0;
 	  if (sseek (u->s, 0) == FAILURE)
 	    generate_error (&fpp->common, ERROR_OS, NULL);

 	  u->endfile = NO_ENDFILE;
 	  u->current_record = 0;
 	  u->strm_pos = 1;
 	  u->read_bad = 0;
 	  test_endfile (u);
 	}
       /* Update position for INQUIRE.  */
       u->flags.position = POSITION_REWIND;
       unlock_unit (u);
     }

   library_end ();
 }


 extern void st_flush (st_parameter_filepos *);
 export_proto(st_flush);

 void
 st_flush (st_parameter_filepos *fpp)
 {
   gfc_unit *u;

   library_start (&fpp->common);

   u = find_unit (fpp->common.unit);
   if (u != NULL)
     {
       flush (u->s);
       unlock_unit (u);
     }
   else
     /* FLUSH on unconnected unit is illegal: F95 std., 9.3.5. */
     generate_error (&fpp->common, ERROR_BAD_OPTION,
 			"Specified UNIT in FLUSH is not connected");

   library_end ();
 }
	/* Copyright (C) 2002-2003, 2005, 2006 Free Software Foundation, Inc.
	Contributed by Andy Vaught and Janne Blomqvist

	This file is part of the GNU Fortran runtime library (libgfortran).

	Libgfortran is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 2, or (at your option)
	any later version.

	In addition to the permissions in the GNU General Public License, the
	Free Software Foundation gives you unlimited permission to link the
	compiled version of this file into combinations with other programs,
	and to distribute those combinations without any restriction coming
	from the use of this file. (The General Public License restrictions
	do apply in other respects; for example, they cover modification of
	the file, and distribution when not linked into a combine
	executable.)

	Libgfortran is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	GNU General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with Libgfortran; see the file COPYING. If not, write to
	the Free Software Foundation, 51 Franklin Street, Fifth Floor,
	Boston, MA 02110-1301, USA. */

	#include "config.h"
	#include <string.h>
	#include "libgfortran.h"
	#include "io.h"

	/* file_pos.c-- Implement the file positioning statements, i.e. BACKSPACE,
	ENDFILE, and REWIND as well as the FLUSH statement. */


	/* formatted_backspace(fpp, u)-- Move the file back one line. The
	current position is after the newline that terminates the previous
	record, and we have to sift backwards to find the newline before
	that or the start of the file, whichever comes first. */

	#define READ_CHUNK 4096

	static void
	formatted_backspace (st_parameter_filepos fpp, gfc_unit u)
	{
	gfc_offset base;
	char *p;
	int n;

	base = file_position (u->s) - 1;

	do
	{
	n = (base < READ_CHUNK) ? base : READ_CHUNK;
	base -= n;

	p = salloc_r_at (u->s, &n, base);
	if (p == NULL)
	goto io_error;

	/* We have moved backwards from the current position, it should
	not be possible to get a short read. Because it is not
	clear what to do about such thing, we ignore the possibility. */

	/* There is no memrchr() in the C library, so we have to do it
	ourselves. */

	n--;
	while (n >= 0)
	{
	if (p[n] == '\n')
	{
	base += n + 1;
	goto done;
	}
	n--;
	}

	}
	while (base != 0);

	/* base is the new pointer. Seek to it exactly. */
	done:
	if (sseek (u->s, base) == FAILURE)
	goto io_error;
	u->last_record--;
	u->endfile = NO_ENDFILE;

	return;

	io_error:
	generate_error (&fpp->common, ERROR_OS, NULL);
	}


	/* unformatted_backspace(fpp) -- Move the file backwards for an unformatted
	sequential file. We are guaranteed to be between records on entry and
	we have to shift to the previous record. Loop over subrecords. */

	static void
	unformatted_backspace (st_parameter_filepos fpp, gfc_unit u)
	{
	gfc_offset m, new;
	GFC_INTEGER_4 m4;
	GFC_INTEGER_8 m8;
	int length, length_read;
	int continued;
	char *p;

	if (compile_options.record_marker == 0)
	length = sizeof (GFC_INTEGER_4);
	else
	length = compile_options.record_marker;

	do
	{
	length_read = length;

	p = salloc_r_at (u->s, &length_read,
	file_position (u->s) - length);
	if (p == NULL \|\| length_read != length)
	goto io_error;

	/* Only CONVERT_NATIVE and CONVERT_SWAP are valid here. */
	if (u->flags.convert == CONVERT_NATIVE)
	{
	switch (length)
	{
	case sizeof(GFC_INTEGER_4):
	memcpy (&m4, p, sizeof (m4));
	m = m4;
	break;

	case sizeof(GFC_INTEGER_8):
	memcpy (&m8, p, sizeof (m8));
	m = m8;
	break;

	default:
	runtime_error ("Illegal value for record marker");
	break;
	}
	}
	else
	{
	switch (length)
	{
	case sizeof(GFC_INTEGER_4):
	reverse_memcpy (&m4, p, sizeof (m4));
	m = m4;
	break;

	case sizeof(GFC_INTEGER_8):
	reverse_memcpy (&m8, p, sizeof (m8));
	m = m8;
	break;

	default:
	runtime_error ("Illegal value for record marker");
	break;
	}

	}

	continued = m < 0;
	if (continued)
	m = -m;

	if ((new = file_position (u->s) - m - 2*length) < 0)
	new = 0;

	if (sseek (u->s, new) == FAILURE)
	goto io_error;
	} while (continued);

	u->last_record--;
	return;

	io_error:
	generate_error (&fpp->common, ERROR_OS, NULL);
	}


	extern void st_backspace (st_parameter_filepos *);
	export_proto(st_backspace);

	void
	st_backspace (st_parameter_filepos *fpp)
	{
	gfc_unit *u;

	library_start (&fpp->common);

	u = find_unit (fpp->common.unit);
	if (u == NULL)
	{
	generate_error (&fpp->common, ERROR_BAD_UNIT, NULL);
	goto done;
	}

	/* Ignore direct access. Non-advancing I/O is only allowed for formatted
	sequential I/O and the next direct access transfer repositions the file
	anyway. */

	if (u->flags.access == ACCESS_DIRECT \|\| u->flags.access == ACCESS_STREAM)
	goto done;

	/* Check for special cases involving the ENDFILE record first. */

	if (u->endfile == AFTER_ENDFILE)
	{
	u->endfile = AT_ENDFILE;
	flush (u->s);
	struncate (u->s);
	}
	else
	{
	if (file_position (u->s) == 0)
	goto done; /* Common special case */

	if (u->mode == WRITING)
	{
	flush (u->s);
	struncate (u->s);
	u->mode = READING;
	}

	if (u->flags.form == FORM_FORMATTED)
	formatted_backspace (fpp, u);
	else
	unformatted_backspace (fpp, u);

	u->endfile = NO_ENDFILE;
	u->current_record = 0;
	u->bytes_left = 0;
	}

	done:
	if (u != NULL)
	unlock_unit (u);

	library_end ();
	}


	extern void st_endfile (st_parameter_filepos *);
	export_proto(st_endfile);

	void
	st_endfile (st_parameter_filepos *fpp)
	{
	gfc_unit *u;

	library_start (&fpp->common);

	u = find_unit (fpp->common.unit);
	if (u != NULL)
	{
	if (u->current_record)
	{
	st_parameter_dt dtp;
	dtp.common = fpp->common;
	memset (&dtp.u.p, 0, sizeof (dtp.u.p));
	dtp.u.p.current_unit = u;
	next_record (&dtp, 1);
	}

	flush (u->s);
	struncate (u->s);
	u->endfile = AFTER_ENDFILE;
	unlock_unit (u);
	}

	library_end ();
	}


	extern void st_rewind (st_parameter_filepos *);
	export_proto(st_rewind);

	void
	st_rewind (st_parameter_filepos *fpp)
	{
	gfc_unit *u;

	library_start (&fpp->common);

	u = find_unit (fpp->common.unit);
	if (u != NULL)
	{
	if (u->flags.access == ACCESS_DIRECT)
	generate_error (&fpp->common, ERROR_BAD_OPTION,
	"Cannot REWIND a file opened for DIRECT access");
	else
	{
	/* Flush the buffers. If we have been writing to the file, the last
	written record is the last record in the file, so truncate the
	file now. Reset to read mode so two consecutive rewind
	statements do not delete the file contents. */
	flush (u->s);
	if (u->mode == WRITING && u->flags.access != ACCESS_STREAM)
	struncate (u->s);

	u->mode = READING;
	u->last_record = 0;
	if (sseek (u->s, 0) == FAILURE)
	generate_error (&fpp->common, ERROR_OS, NULL);

	u->endfile = NO_ENDFILE;
	u->current_record = 0;
	u->strm_pos = 1;
	u->read_bad = 0;
	test_endfile (u);
	}
	/* Update position for INQUIRE. */
	u->flags.position = POSITION_REWIND;
	unlock_unit (u);
	}

	library_end ();
	}


	extern void st_flush (st_parameter_filepos *);
	export_proto(st_flush);

	void
	st_flush (st_parameter_filepos *fpp)
	{
	gfc_unit *u;

	library_start (&fpp->common);

	u = find_unit (fpp->common.unit);
	if (u != NULL)
	{
	flush (u->s);
	unlock_unit (u);
	}
	else
	/* FLUSH on unconnected unit is illegal: F95 std., 9.3.5. */
	generate_error (&fpp->common, ERROR_BAD_OPTION,
	"Specified UNIT in FLUSH is not connected");

	library_end ();
	}