/* -*-c-*- -------------- mix_device.c : * Implementation of the functions declared in mix_device.h * ------------------------------------------------------------------ * Copyright (C) 2000 jose antonio ortega ruiz * * This program 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 of the License, or * (at your option) any later version. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * */ #include "mix_file.h" #include "mix_device.h" /* Actual definition of a mix device, which can be cast to a mix file. */ struct mix_device_t { mix_iochannel_t *file; mix_device_type_t type; }; static const char *DEV_EXT_ = ".dev"; static const char *DEF_NAMES_[] = { "tape0", "tape1", "tape2", "tape3", "tape4", "tape5", "tape6", "tape7", "disk0", "disk1", "disk2", "disk3", "disk4", "disk5", "disk6", "disk7", "cardrd", "cardwr", "printer", "console", "paper" }; static const size_t SIZES_[] = { 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 16, 16, 24, 14, 14 }; static const mix_device_mode_t MODES_[] = { mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_BIN, mix_dev_CHAR, mix_dev_CHAR, mix_dev_CHAR, mix_dev_CHAR, mix_dev_CHAR }; static const mix_fmode_t FMODES_[] = { mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_RDWRT, mix_io_READ, mix_io_WRITE, mix_io_WRITE, mix_io_RDWRT, mix_io_WRITE }; #define GET_CHANNEL_(dev) (dev->file) #define GET_FILE_(dev) ((mix_file_t *)(dev->file)) mix_device_t * mix_device_new (mix_device_type_t type) { mix_device_t *result = g_new (mix_device_t, 1); result->type = type; if (type != mix_dev_CONSOLE) { result->file = MIX_IOCHANNEL(mix_file_new_with_def_ext (DEF_NAMES_[type], FMODES_[type], DEV_EXT_)); } else result->file = mix_io_new (stdout); return result; } void mix_device_delete (mix_device_t *dev) { if (dev != NULL) { if (dev->type != mix_dev_CONSOLE && GET_FILE_(dev) != NULL) mix_file_delete (GET_FILE_(dev)); g_free (dev); } } mix_device_t * mix_device_new_with_name (mix_device_type_t type, const gchar *name) { mix_device_t *result = NULL; g_return_val_if_fail (name != NULL, result); result = g_new (mix_device_t, 1); result->type = type; if (type != mix_dev_CONSOLE) { result->file = MIX_IOCHANNEL(mix_file_new_with_def_ext (name, FMODES_[type], DEV_EXT_)); } else { result->file = mix_io_new (stdout); } return result; } const char * mix_device_get_name (mix_device_t *dev) { g_return_val_if_fail (dev != NULL, NULL); return mix_file_base_name(GET_FILE_(dev)); } /* Get the device block size */ size_t mix_device_block_size (mix_device_t *dev) { g_return_val_if_fail (dev != NULL, 0); return SIZES_[dev->type]; } /* Get the device io mode */ mix_device_mode_t mix_device_mode (mix_device_t *dev) { g_return_val_if_fail (dev != NULL, 0); return MODES_[dev->type]; } /* Write a block to the device. */ gboolean mix_device_write (mix_device_t *dev, const mix_word_t *block) { gboolean result; g_return_val_if_fail (dev != NULL, FALSE); g_return_val_if_fail (block != NULL, FALSE); if (FMODES_[dev->type] == mix_io_READ) return FALSE; if (MODES_[dev->type] == mix_dev_CHAR) result = mix_io_write_word_array_as_char (GET_CHANNEL_ (dev), block, SIZES_[dev->type]); else result = mix_io_write_word_array (GET_CHANNEL_ (dev), block, SIZES_[dev->type]); if (result && mix_device_mode(dev) == mix_dev_CHAR) putc ('\n', mix_io_to_FILE (GET_CHANNEL_ (dev))); fflush (mix_io_to_FILE (GET_CHANNEL_ (dev))); return result; } gboolean mix_device_read (mix_device_t *dev, mix_word_t *block) { g_return_val_if_fail (dev != NULL, FALSE); g_return_val_if_fail (block != NULL, FALSE); if (FMODES_[dev->type] == mix_io_WRITE) return FALSE; if (MODES_[dev->type] == mix_dev_CHAR) return mix_io_read_word_array_as_char (GET_CHANNEL_ (dev), block, SIZES_[dev->type]); else return mix_io_read_word_array (GET_CHANNEL_ (dev), block, SIZES_[dev->type]); } gboolean mix_device_ioc (mix_device_t *dev, mix_short_t arg) { int m; FILE *file; g_return_val_if_fail (dev != NULL, FALSE); m = mix_short_magnitude(arg); if (mix_short_is_negative(arg)) m = -m; m *= sizeof (mix_word_t) * SIZES_[dev->type]; file = mix_io_to_FILE (GET_CHANNEL_(dev)); if (dev->type >= mix_dev_TAPE_0 && dev->type <= mix_dev_TAPE_7) { if (m == 0) rewind (file); else fseek (file, m, SEEK_CUR); } if (dev->type >= mix_dev_DISK_0 && dev->type <= mix_dev_DISK_7) { g_return_val_if_fail (m == 0, FALSE); // position disk } if (dev->type == mix_dev_PAPER_TAPE) { g_return_val_if_fail (m == 0, FALSE); rewind (file); } return TRUE; } gboolean mix_device_busy (mix_device_t *dev) { return (dev != NULL && !mix_io_is_ready(GET_CHANNEL_(dev))); }