/* Implementation of the FGET, FGETC, FPUT, FPUTC, FLUSH FTELL, TTYNAM and ISATTY intrinsics. Copyright (C) 2005-2018 Free Software Foundation, Inc. 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 3 of the License, or (at your option) any later version. 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. Under Section 7 of GPL version 3, you are granted additional permissions described in the GCC Runtime Library Exception, version 3.1, as published by the Free Software Foundation. You should have received a copy of the GNU General Public License and a copy of the GCC Runtime Library Exception along with this program; see the files COPYING3 and COPYING.RUNTIME respectively. If not, see . */ #include "io.h" #include "fbuf.h" #include "unix.h" #include static const int five = 5; static const int six = 6; extern int PREFIX(fgetc) (const int *, char *, gfc_charlen_type); export_proto_np(PREFIX(fgetc)); int PREFIX(fgetc) (const int *unit, char *c, gfc_charlen_type c_len) { int ret; gfc_unit *u = find_unit (*unit); if (u == NULL) return -1; fbuf_reset (u); if (u->mode == WRITING) { sflush (u->s); u->mode = READING; } memset (c, ' ', c_len); ret = sread (u->s, c, 1); unlock_unit (u); if (ret < 0) return ret; if (ret != 1) return -1; else return 0; } #define FGETC_SUB(kind) \ extern void fgetc_i ## kind ## _sub \ (const int *, char *, GFC_INTEGER_ ## kind *, gfc_charlen_type); \ export_proto(fgetc_i ## kind ## _sub); \ void fgetc_i ## kind ## _sub \ (const int *unit, char *c, GFC_INTEGER_ ## kind *st, gfc_charlen_type c_len) \ { if (st != NULL) \ *st = PREFIX(fgetc) (unit, c, c_len); \ else \ PREFIX(fgetc) (unit, c, c_len); } FGETC_SUB(1) FGETC_SUB(2) FGETC_SUB(4) FGETC_SUB(8) extern int PREFIX(fget) (char *, gfc_charlen_type); export_proto_np(PREFIX(fget)); int PREFIX(fget) (char *c, gfc_charlen_type c_len) { return PREFIX(fgetc) (&five, c, c_len); } #define FGET_SUB(kind) \ extern void fget_i ## kind ## _sub \ (char *, GFC_INTEGER_ ## kind *, gfc_charlen_type); \ export_proto(fget_i ## kind ## _sub); \ void fget_i ## kind ## _sub \ (char *c, GFC_INTEGER_ ## kind *st, gfc_charlen_type c_len) \ { if (st != NULL) \ *st = PREFIX(fgetc) (&five, c, c_len); \ else \ PREFIX(fgetc) (&five, c, c_len); } FGET_SUB(1) FGET_SUB(2) FGET_SUB(4) FGET_SUB(8) extern int PREFIX(fputc) (const int *, char *, gfc_charlen_type); export_proto_np(PREFIX(fputc)); int PREFIX(fputc) (const int *unit, char *c, gfc_charlen_type c_len __attribute__((unused))) { ssize_t s; gfc_unit *u = find_unit (*unit); if (u == NULL) return -1; fbuf_reset (u); if (u->mode == READING) { sflush (u->s); u->mode = WRITING; } s = swrite (u->s, c, 1); unlock_unit (u); if (s < 0) return -1; return 0; } #define FPUTC_SUB(kind) \ extern void fputc_i ## kind ## _sub \ (const int *, char *, GFC_INTEGER_ ## kind *, gfc_charlen_type); \ export_proto(fputc_i ## kind ## _sub); \ void fputc_i ## kind ## _sub \ (const int *unit, char *c, GFC_INTEGER_ ## kind *st, gfc_charlen_type c_len) \ { if (st != NULL) \ *st = PREFIX(fputc) (unit, c, c_len); \ else \ PREFIX(fputc) (unit, c, c_len); } FPUTC_SUB(1) FPUTC_SUB(2) FPUTC_SUB(4) FPUTC_SUB(8) extern int PREFIX(fput) (char *, gfc_charlen_type); export_proto_np(PREFIX(fput)); int PREFIX(fput) (char *c, gfc_charlen_type c_len) { return PREFIX(fputc) (&six, c, c_len); } #define FPUT_SUB(kind) \ extern void fput_i ## kind ## _sub \ (char *, GFC_INTEGER_ ## kind *, gfc_charlen_type); \ export_proto(fput_i ## kind ## _sub); \ void fput_i ## kind ## _sub \ (char *c, GFC_INTEGER_ ## kind *st, gfc_charlen_type c_len) \ { if (st != NULL) \ *st = PREFIX(fputc) (&six, c, c_len); \ else \ PREFIX(fputc) (&six, c, c_len); } FPUT_SUB(1) FPUT_SUB(2) FPUT_SUB(4) FPUT_SUB(8) /* SUBROUTINE FLUSH(UNIT) INTEGER, INTENT(IN), OPTIONAL :: UNIT */ extern void flush_i4 (GFC_INTEGER_4 *); export_proto(flush_i4); void flush_i4 (GFC_INTEGER_4 *unit) { gfc_unit *us; /* flush all streams */ if (unit == NULL) flush_all_units (); else { us = find_unit (*unit); if (us != NULL) { sflush (us->s); unlock_unit (us); } } } extern void flush_i8 (GFC_INTEGER_8 *); export_proto(flush_i8); void flush_i8 (GFC_INTEGER_8 *unit) { gfc_unit *us; /* flush all streams */ if (unit == NULL) flush_all_units (); else { us = find_unit (*unit); if (us != NULL) { sflush (us->s); unlock_unit (us); } } } /* FSEEK intrinsic */ extern void fseek_sub (int *, GFC_IO_INT *, int *, int *); export_proto(fseek_sub); void fseek_sub (int *unit, GFC_IO_INT *offset, int *whence, int *status) { gfc_unit *u = find_unit (*unit); ssize_t result = -1; if (u != NULL) { result = sseek(u->s, *offset, *whence); unlock_unit (u); } if (status) *status = (result < 0 ? -1 : 0); } /* FTELL intrinsic */ static gfc_offset gf_ftell (int unit) { gfc_unit *u = find_unit (unit); if (u == NULL) return -1; int pos = fbuf_reset (u); if (pos != 0) sseek (u->s, pos, SEEK_CUR); gfc_offset ret = stell (u->s); unlock_unit (u); return ret; } extern GFC_IO_INT PREFIX(ftell) (int *); export_proto_np(PREFIX(ftell)); GFC_IO_INT PREFIX(ftell) (int *unit) { return gf_ftell (*unit); } #define FTELL_SUB(kind) \ extern void ftell_i ## kind ## _sub (int *, GFC_INTEGER_ ## kind *); \ export_proto(ftell_i ## kind ## _sub); \ void \ ftell_i ## kind ## _sub (int *unit, GFC_INTEGER_ ## kind *offset) \ { \ *offset = gf_ftell (*unit); \ } FTELL_SUB(1) FTELL_SUB(2) FTELL_SUB(4) FTELL_SUB(8) /* LOGICAL FUNCTION ISATTY(UNIT) INTEGER, INTENT(IN) :: UNIT */ extern GFC_LOGICAL_4 isatty_l4 (int *); export_proto(isatty_l4); GFC_LOGICAL_4 isatty_l4 (int *unit) { gfc_unit *u; GFC_LOGICAL_4 ret = 0; u = find_unit (*unit); if (u != NULL) { ret = (GFC_LOGICAL_4) stream_isatty (u->s); unlock_unit (u); } return ret; } extern GFC_LOGICAL_8 isatty_l8 (int *); export_proto(isatty_l8); GFC_LOGICAL_8 isatty_l8 (int *unit) { gfc_unit *u; GFC_LOGICAL_8 ret = 0; u = find_unit (*unit); if (u != NULL) { ret = (GFC_LOGICAL_8) stream_isatty (u->s); unlock_unit (u); } return ret; } /* SUBROUTINE TTYNAM(UNIT,NAME) INTEGER,SCALAR,INTENT(IN) :: UNIT CHARACTER,SCALAR,INTENT(OUT) :: NAME */ extern void ttynam_sub (int *, char *, gfc_charlen_type); export_proto(ttynam_sub); void ttynam_sub (int *unit, char *name, gfc_charlen_type name_len) { gfc_unit *u; int nlen; int err = 1; u = find_unit (*unit); if (u != NULL) { err = stream_ttyname (u->s, name, name_len); if (err == 0) { nlen = strlen (name); memset (&name[nlen], ' ', name_len - nlen); } unlock_unit (u); } if (err != 0) memset (name, ' ', name_len); } extern void ttynam (char **, gfc_charlen_type *, int); export_proto(ttynam); void ttynam (char **name, gfc_charlen_type *name_len, int unit) { gfc_unit *u; u = find_unit (unit); if (u != NULL) { *name = xmalloc (TTY_NAME_MAX); int err = stream_ttyname (u->s, *name, TTY_NAME_MAX); if (err == 0) { *name_len = strlen (*name); unlock_unit (u); return; } free (*name); unlock_unit (u); } *name_len = 0; *name = NULL; }