diff options
author | Andrzej Bialecki <abial@FreeBSD.org> | 1998-10-25 03:02:56 +0000 |
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committer | Andrzej Bialecki <abial@FreeBSD.org> | 1998-10-25 03:02:56 +0000 |
commit | f2c7b777e2e48406d2a1757e715f8e53e41fc8e9 (patch) | |
tree | ed189cf8b28af694d352f56399ca69d80766ac3a /release/picobsd | |
parent | a57faa7b13930142c744fadd7951b3b5bdb390f1 (diff) | |
download | src-f2c7b777e2e48406d2a1757e715f8e53e41fc8e9.tar.gz src-f2c7b777e2e48406d2a1757e715f8e53e41fc8e9.zip |
With much regret, I had to remove these two programs - their license
doesn't permit us to distribute them. I think I should take some law
classes...
Explained by: bde
Notes
Notes:
svn path=/head/; revision=40633
Diffstat (limited to 'release/picobsd')
-rw-r--r-- | release/picobsd/tinyware/mined/LICENSE | 77 | ||||
-rw-r--r-- | release/picobsd/tinyware/mined/Makefile | 18 | ||||
-rw-r--r-- | release/picobsd/tinyware/mined/README | 23 | ||||
-rw-r--r-- | release/picobsd/tinyware/mined/mined.h | 377 | ||||
-rw-r--r-- | release/picobsd/tinyware/mined/mined1.c | 2025 | ||||
-rw-r--r-- | release/picobsd/tinyware/mined/mined2.c | 1764 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/LICENSE | 77 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/Makefile | 16 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/README | 16 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/sh.1 | 261 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/sh.h | 388 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/sh1.c | 953 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/sh2.c | 801 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/sh3.c | 1143 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/sh4.c | 767 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/sh5.c | 675 | ||||
-rw-r--r-- | release/picobsd/tinyware/msh/sh6.c | 9 |
17 files changed, 0 insertions, 9390 deletions
diff --git a/release/picobsd/tinyware/mined/LICENSE b/release/picobsd/tinyware/mined/LICENSE deleted file mode 100644 index 78e3b6939167..000000000000 --- a/release/picobsd/tinyware/mined/LICENSE +++ /dev/null @@ -1,77 +0,0 @@ - LICENSE AGREEMENT AND LIMITED WARRANTY - - READ THE FOLLOWING TERMS AND CONDITIONS CAREFULLY BEFORE YOU - PROCEED. THIS LEGAL DOCUMENT IS AN AGREEMENT BETWEEN YOU AND - PRENTICE-HALL, INC. (THE "COMPANY"). BY ACCESSING THE SOFTWARE, YOU - ARE AGREEING TO BE BOUND BY THESE TERMS AND CONDITIONS. IF YOU DO - NOT AGREE WITH THESE TERMS AND CONDITIONS, DO NOT ACCESS TO SOFTWARE - AND ALL ACCOMPANYING ITEMS. - - 1. GRANT OF LICENSE: - In consideration of your agreement to abide by the terms and - conditions of this Agreement, the Company grants to you a - nonexclusive right to use, display and modify the Software being - transmitted to you (hereinafter "the Software") for educational and - research purposes and to include such Software as part of another - computer program (i) for use by you; or (ii) for use by third - parties, provided that copies to those third parties are distributed - for educational or research purposes free of direct or indirect - charges. If you wish to otherwise use or distribute the Software, - you must enter into a separate agreement with the Company. To do so, - please contact the person designated below. - - This license shall continue in effect so long as you comply with the - terms of this Agreement and will automatically terminate if you fail - to comply. The Company is and shall remain the copyright owner of - the Software and reserves all rights not expressly granted to you - under this Agreement. All provisions of this Agreement as to - warranties, limitation of liability, remedies or damages and - ownership rights shall survive termination. - - 2. MISCELLANEOUS: - This Agreement shall be construed in accordance with the laws of the - United States of America and the State of New York and shall benefit - the Company, its affiliates and assignees. - - 3. LIMITED WARRANTY AND DISCLAIMER OF WARRANTY: - Because this Software is being given to you without charge, the - Company makes no warranties about the SOFTWARE, which is provided - "AS-IS." THE COMPANY DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, - INCLUDING WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF - MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE COMPANY - DOES NOT WARRANT, GUARANTEE OR MAKE ANY REPRESENTATION REGARDING THE - USE OR THE RESULTS OF THE USE OF THE SOFTWARE. IN NO EVENT SHALL - THE COMPANY OR ITS EMPLOYEES, AGENTS, SUPPLIERS OR CONTRACTORS BE - LIABLE FOR ANY INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL - DAMAGES ARISING OUT OF OR IN CONNECTION WITH THE LICENSE GRANTED - UNDER THIS AGREEMENT INCLUDING, WITHOUT LIMITATION, LOSS OF USE, - LOSS OF DATA, LOSS OF INCOME OR PROFIT, OR OTHER LOSSES SUSTAINED AS - A RESULT OF INJURY TO ANY PERSON, OR LOSS OF OR DAMAGE TO PROPERTY, - OR CLAIMS OF THIRD PARTIES, EVEN IF THE COMPANY OR AN AUTHORIZED - REPRESENTATIVE OF THE COMPANY HAS BEEN ADVISED OF THE POSSIBILITY OF - SUCH DAMAGES. - - SOME JURISDICTIONS DO NOT ALLOW THE LIMITATION OF IMPLIED WARRANTIES - OR LIABILITY FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL - DAMAGES, SO THE ABOVE LIMITATIONS MAY NOT ALWAYS APPLY. YOU MAY HAVE - RIGHTS WHICH VARY IN ACCORDANCE WITH LOCAL LAW. - - - ACKNOWLEDGMENT - - YOU ACKNOWLEDGE THAT YOU HAVE READ THIS AGREEMENT, UNDERSTAND IT AND - AGREE TO BE BOUND BY ITS TERMS AND CONDITIONS. YOU ALSO AGREE THAT - THIS AGREEMENT IS THE COMPLETE AND EXCLUSIVE STATEMENT OF THE - AGREEMENT BETWEEN YOU AND THE COMPANY AND SUPERSEDES ALL PROPOSALS - OR PRIOR AGREEMENTS, ORAL OR WRITTEN, AND ANY OTHER COMMUNICATIONS - BETWEEN YOU AND THE COMPANY OR ANY REPRESENTATIVE OF THE COMPANY - RELATING TO THE SUBJECT MATTER OF THIS AGREEMENT. - - Should you have any questions concerning this agreement or if you - wish to contact the Company for any reason, please contact - - Alan Apt (alan_apt@prenhall.com) - Prentice Hall - 2629 Redwing Rd. - Suite #260 - Ft.Collins,CO 80526 diff --git a/release/picobsd/tinyware/mined/Makefile b/release/picobsd/tinyware/mined/Makefile deleted file mode 100644 index 7a45bbbc35ee..000000000000 --- a/release/picobsd/tinyware/mined/Makefile +++ /dev/null @@ -1,18 +0,0 @@ -# Makefile for mined - -CFLAGS = -D_POSIX_SOURCE -DASSUME_CONS25 - -OBJ = mined1.o mined2.o - -all: mined - -mined: $(OBJ) - $(CC) -static -o $@ $(OBJ) - -install: /usr/bin/mined - - -$(OBJ): mined.h - -clean: - rm -f mined *.o *.s core *.bak diff --git a/release/picobsd/tinyware/mined/README b/release/picobsd/tinyware/mined/README deleted file mode 100644 index 1142390e4c3c..000000000000 --- a/release/picobsd/tinyware/mined/README +++ /dev/null @@ -1,23 +0,0 @@ -Warsaw, 1998.10.21 - -This is a port of Minix editor. It's small, fast and relatively -robust. It can perform basic editing commands, block operations, -and search and replace. - -The keybindings are just plain insane. I added a help screen -(available under F1), and remapped some of the wildest keys to -function keys. If you have some time and a bit of hacking skills, -you're welcome to sanitize it. :-) - -A bit of warning: one of the reasons for its small size is that it -doesn't use any termcap calls - it uses hardwired codes for 'cons25' -terminal type. If you try to use it with some other terminal, you -have to change them, or recompile with -DUNIX -ltermcap. - -This is a copyrighted software - see the file LICENSE. It allows -you to use it for research and educational purposes only. - -Andrzej Bialecki -<abial@FreeBSD.org> - -$Id: README,v 1.1 1998/10/21 17:36:16 abial Exp $ diff --git a/release/picobsd/tinyware/mined/mined.h b/release/picobsd/tinyware/mined/mined.h deleted file mode 100644 index cb97f9aa9d01..000000000000 --- a/release/picobsd/tinyware/mined/mined.h +++ /dev/null @@ -1,377 +0,0 @@ -/*========================================================================* - * Mined.h * - *========================================================================*/ - -#include <sys/types.h> -#include <fcntl.h> -#include <stdlib.h> -#include <unistd.h> -#include <limits.h> - -#ifndef YMAX -#ifdef UNIX -#include <stdio.h> -#undef putchar -#undef getchar -#undef NULL -#undef EOF -extern char *CE, *VS, *SO, *SE, *CL, *AL, *CM; -#define YMAX 49 -#else -#define YMAX 24 /* Maximum y coordinate starting at 0 */ -/* Escape sequences. */ -extern char *enter_string; /* String printed on entering mined */ -extern char *rev_video; /* String for starting reverse video */ -extern char *normal_video; /* String for leaving reverse video */ -extern char *rev_scroll; /* String for reverse scrolling */ -extern char *pos_string; /* Absolute cursor positioning */ -#define X_PLUS ' ' /* To be added to x for cursor sequence */ -#define Y_PLUS ' ' /* To be added to y for cursor sequence */ -#endif /* UNIX */ - -#define XMAX 79 /* Maximum x coordinate starting at 0*/ -#define SCREENMAX (YMAX - 1) /* Number of lines displayed */ -#define XBREAK (XMAX - 1) /* Line shift at this coordinate */ -#define SHIFT_SIZE 25 /* Number of chars to shift */ -#define SHIFT_MARK '!' /* Char indicating line continues */ -#define MAX_CHARS 1024 /* Maximum chars on one line */ - -/* LINE_START must be rounded up to the lowest SHIFT_SIZE */ -#define LINE_START (((-MAX_CHARS - 1) / SHIFT_SIZE) * SHIFT_SIZE \ - - SHIFT_SIZE) -#define LINE_END (MAX_CHARS + 1) /* Highest x-coordinate for line */ - -#define LINE_LEN (XMAX + 1) /* Number of characters on line */ -#define SCREEN_SIZE (XMAX * YMAX) /* Size of I/O buffering */ -#define BLOCK_SIZE 1024 - -/* Return values of functions */ -#define ERRORS -1 -#define NO_LINE (ERRORS - 1) /* Must be < 0 */ -#define FINE (ERRORS + 1) -#define NO_INPUT (ERRORS + 2) - -#define STD_OUT 1 /* File descriptor for terminal */ - -#if (CHIP == INTEL) -#define MEMORY_SIZE (50 * 1024) /* Size of data space to malloc */ -#endif - -#define REPORT 2 /* Report change of lines on # lines */ - -typedef int FLAG; - -/* General flags */ -#define FALSE 0 -#define TRUE 1 -#define NOT_VALID 2 -#define VALID 3 -#define OFF 4 -#define ON 5 - -/* Expression flags */ -#define FORWARD 6 -#define REVERSE 7 - -/* Yank flags */ -#define SMALLER 8 -#define BIGGER 9 -#define SAME 10 -#define EMPTY 11 -#define NO_DELETE 12 -#define DELETE 13 -#define READ 14 -#define WRITE 15 - -/* - * The Line structure. Each line entry contains a pointer to the next line, - * a pointer to the previous line, a pointer to the text and an unsigned char - * telling at which offset of the line printing should start (usually 0). - */ -struct Line { - struct Line *next; - struct Line *prev; - char *text; - unsigned char shift_count; -}; - -typedef struct Line LINE; - -/* Dummy line indicator */ -#define DUMMY 0x80 -#define DUMMY_MASK 0x7F - -/* Expression definitions */ -#define NO_MATCH 0 -#define MATCH 1 -#define REG_ERROR 2 - -#define BEGIN_LINE (2 * REG_ERROR) -#define END_LINE (2 * BEGIN_LINE) - -/* - * The regex structure. Status can be any of 0, BEGIN_LINE or REG_ERROR. In - * the last case, the result.err_mess field is assigned. Start_ptr and end_ptr - * point to the match found. For more details see the documentation file. - */ -struct regex { - union { - char *err_mess; - int *expression; - } result; - char status; - char *start_ptr; - char *end_ptr; -}; - -typedef struct regex REGEX; - -/* NULL definitions */ -#define NIL_PTR ((char *) 0) -#define NIL_LINE ((LINE *) 0) -#define NIL_REG ((REGEX *) 0) -#define NIL_INT ((int *) 0) - -/* - * Forward declarations - */ -extern int nlines; /* Number of lines in file */ -extern LINE *header; /* Head of line list */ -extern LINE *tail; /* Last line in line list */ -extern LINE *top_line; /* First line of screen */ -extern LINE *bot_line; /* Last line of screen */ -extern LINE *cur_line; /* Current line in use */ -extern char *cur_text; /* Pointer to char on current line in use */ -extern int last_y; /* Last y of screen. Usually SCREENMAX */ -extern int ymax; -extern int screenmax; -extern char screen[SCREEN_SIZE];/* Output buffer for "writes" and "reads" */ - -extern int x, y; /* x, y coordinates on screen */ -extern FLAG modified; /* Set when file is modified */ -extern FLAG stat_visible; /* Set if status_line is visible */ -extern FLAG writable; /* Set if file cannot be written */ -extern FLAG quit; /* Set when quit character is typed */ -extern FLAG rpipe; /* Set if file should be read from stdin */ -extern int input_fd; /* Fd for command input */ -extern FLAG loading; /* Set if we're loading a file */ -extern int out_count; /* Index in output buffer */ -extern char file_name[LINE_LEN]; /* Name of file in use */ -extern char text_buffer[MAX_CHARS]; /* Buffer for modifying text */ -extern char *blank_line; /* Clear line to end */ - -extern char yank_file[]; /* Temp file for buffer */ -extern FLAG yank_status; /* Status of yank_file */ -extern long chars_saved; /* Nr of chars saved in buffer */ - -/* - * Empty output buffer - */ -#define clear_buffer() (out_count = 0) - -/* - * Print character on terminal - */ -#define putchar(c) (void) write_char(STD_OUT, (c)) - -/* - * Ring bell on terminal - */ -#define ring_bell() putchar('\07') - -/* - * Print string on terminal - */ -#define string_print(str) (void) writeline(STD_OUT, (str)) - -/* - * Flush output buffer - */ -#define flush() (void) flush_buffer(STD_OUT) - -/* - * Convert cnt to nearest tab position - */ -#define tab(cnt) (((cnt) + 8) & ~07) -#define is_tab(c) ((c) == '\t') - -/* - * Word defenitions - */ -#define white_space(c) ((c) == ' ' || (c) == '\t') -#define alpha(c) ((c) != ' ' && (c) != '\t' && (c) != '\n') - -/* - * Print line on terminal at offset 0 and clear tail of line - */ -#define line_print(line) put_line(line, 0, TRUE) - -/* - * Move to coordinates and set textp. (Don't use address) - */ -#define move_to(nx, ny) move((nx), NIL_PTR, (ny)) - -/* - * Move to coordinates on screen as indicated by textp. - */ -#define move_address(address) move(0, (address), y) - -/* - * Functions handling status_line. ON means in reverse video. - */ -#define status_line(str1, str2) (void) bottom_line(ON, (str1), \ - (str2), NIL_PTR, FALSE) -#define error(str1, str2) (void) bottom_line(ON, (str1), \ - (str2), NIL_PTR, FALSE) -#define get_string(str1,str2, fl) bottom_line(ON, (str1), NIL_PTR, (str2), fl) -#define clear_status() (void) bottom_line(OFF, NIL_PTR, NIL_PTR, \ - NIL_PTR, FALSE) - -/* - * Print info about current file and buffer. - */ -#define fstatus(mess, cnt) file_status((mess), (cnt), file_name, \ - nlines, writable, modified) - -/* - * Get real shift value. - */ -#define get_shift(cnt) ((cnt) & DUMMY_MASK) - -#endif /* YMAX */ - -#ifdef __FreeBSD__ -#define _PROTOTYPE(x,y) x ## y -#endif - -/* mined1.c */ - -_PROTOTYPE(void FS, (void)); -_PROTOTYPE(void VI, (void)); -_PROTOTYPE(int WT, (void)); -_PROTOTYPE(void XWT, (void)); -_PROTOTYPE(void SH, (void)); -_PROTOTYPE(LINE *proceed, (LINE *line, int count )); -_PROTOTYPE(int bottom_line, (FLAG revfl, char *s1, char *s2, char *inbuf, FLAG statfl )); -_PROTOTYPE(int count_chars, (LINE *line )); -_PROTOTYPE(void move, (int new_x, char *new_address, int new_y )); -_PROTOTYPE(int find_x, (LINE *line, char *address )); -_PROTOTYPE(char *find_address, (LINE *line, int x_coord, int *old_x )); -_PROTOTYPE(int length_of, (char *string )); -_PROTOTYPE(void copy_string, (char *to, char *from )); -_PROTOTYPE(void reset, (LINE *head_line, int screen_y )); -_PROTOTYPE(void set_cursor, (int nx, int ny )); -_PROTOTYPE(void open_device, (void)); -_PROTOTYPE(int getchar, (void)); -_PROTOTYPE(void display, (int x_coord, int y_coord, LINE *line, int count )); -_PROTOTYPE(int write_char, (int fd, int c )); -_PROTOTYPE(int writeline, (int fd, char *text )); -_PROTOTYPE(void put_line, (LINE *line, int offset, FLAG clear_line )); -_PROTOTYPE(int flush_buffer, (int fd )); -_PROTOTYPE(void bad_write, (int fd )); -_PROTOTYPE(void catch, (int sig )); -_PROTOTYPE(void abort_mined, (void)); -_PROTOTYPE(void raw_mode, (FLAG state )); -_PROTOTYPE(void panic, (char *message )); -_PROTOTYPE(char *alloc, (int bytes )); -_PROTOTYPE(void free_space, (char *p )); -/* -#ifdef UNIX -_PROTOTYPE(void (*key_map [128]), (void)); -#else -_PROTOTYPE(void (*key_map [256]), (void)); -#endif -*/ -_PROTOTYPE(void initialize, (void)); -_PROTOTYPE(char *basename, (char *path )); -_PROTOTYPE(void load_file, (char *file )); -_PROTOTYPE(int get_line, (int fd, char *buffer )); -_PROTOTYPE(LINE *install_line, (char *buffer, int length )); -_PROTOTYPE(void main, (int argc, char *argv [])); -_PROTOTYPE(void RD, (void)); -_PROTOTYPE(void I, (void)); -_PROTOTYPE(void XT, (void)); -_PROTOTYPE(void ESC, (void)); -_PROTOTYPE(int ask_save, (void)); -_PROTOTYPE(int line_number, (void)); -_PROTOTYPE(void file_status, (char *message, long count, char *file, int lines, - FLAG writefl, FLAG changed )); -#if __STDC__ -void build_string(char *buf, char *fmt, ...); -#else -void build_string(); -#endif -_PROTOTYPE(char *num_out, (long number )); -_PROTOTYPE(int get_number, (char *message, int *result )); -_PROTOTYPE(int input, (char *inbuf, FLAG clearfl )); -_PROTOTYPE(int get_file, (char *message, char *file )); -_PROTOTYPE(int _getchar, (void)); -_PROTOTYPE(void _flush, (void)); -_PROTOTYPE(void _putchar, (int c )); -_PROTOTYPE(void get_term, (void)); - -/* mined2.c */ - -_PROTOTYPE(void UP, (void)); -_PROTOTYPE(void DN, (void)); -_PROTOTYPE(void LF, (void)); -_PROTOTYPE(void RT, (void)); -_PROTOTYPE(void HIGH, (void)); -_PROTOTYPE(void LOW, (void)); -_PROTOTYPE(void BL, (void)); -_PROTOTYPE(void EL, (void)); -_PROTOTYPE(void GOTO, (void)); -_PROTOTYPE(void HLP, (void)); -_PROTOTYPE(void PD, (void)); -_PROTOTYPE(void PU, (void)); -_PROTOTYPE(void HO, (void)); -_PROTOTYPE(void EF, (void)); -_PROTOTYPE(void SU, (void)); -_PROTOTYPE(void SD, (void)); -_PROTOTYPE(int forward_scroll, (void)); -_PROTOTYPE(int reverse_scroll, (void)); -_PROTOTYPE(void MP, (void)); -_PROTOTYPE(void move_previous_word, (FLAG remove )); -_PROTOTYPE(void MN, (void)); -_PROTOTYPE(void move_next_word, (FLAG remove )); -_PROTOTYPE(void DCC, (void)); -_PROTOTYPE(void DPC, (void)); -_PROTOTYPE(void DLN, (void)); -_PROTOTYPE(void DNW, (void)); -_PROTOTYPE(void DPW, (void)); -_PROTOTYPE(void S, (int character )); -_PROTOTYPE(void CTL, (void)); -_PROTOTYPE(void LIB, (void)); -_PROTOTYPE(LINE *line_insert, (LINE *line, char *string, int len )); -_PROTOTYPE(int insert, (LINE *line, char *location, char *string )); -_PROTOTYPE(LINE *line_delete, (LINE *line )); -_PROTOTYPE(void delete, (LINE *start_line, char *start_textp, LINE *end_line, char *end_textp )); -_PROTOTYPE(void PT, (void)); -_PROTOTYPE(void IF, (void)); -_PROTOTYPE(void file_insert, (int fd, FLAG old_pos )); -_PROTOTYPE(void WB, (void)); -_PROTOTYPE(void MA, (void)); -_PROTOTYPE(void YA, (void)); -_PROTOTYPE(void DT, (void)); -_PROTOTYPE(void set_up, (FLAG remove )); -_PROTOTYPE(FLAG checkmark, (void)); -_PROTOTYPE(int legal, (void)); -_PROTOTYPE(void yank, (LINE *start_line, char *start_textp, LINE *end_line, char *end_textp, FLAG remove )); -_PROTOTYPE(int scratch_file, (FLAG mode )); -_PROTOTYPE(void SF, (void)); -_PROTOTYPE(void SR, (void)); -_PROTOTYPE(REGEX *get_expression, (char *message )); -_PROTOTYPE(void GR, (void)); -_PROTOTYPE(void LR, (void)); -_PROTOTYPE(void change, (char *message, FLAG file )); -_PROTOTYPE(char *substitute, (LINE *line, REGEX *program, char *replacement )); -_PROTOTYPE(void search, (char *message, FLAG method )); -_PROTOTYPE(int find_y, (LINE *match_line )); -_PROTOTYPE(void finished, (REGEX *program, int *last_exp )); -_PROTOTYPE(void compile, (char *pattern, REGEX *program )); -_PROTOTYPE(LINE *match, (REGEX *program, char *string, FLAG method )); -_PROTOTYPE(int line_check, (REGEX *program, char *string, FLAG method )); -_PROTOTYPE(int check_string, (REGEX *program, char *string, int *expression )); -_PROTOTYPE(int star, (REGEX *program, char *end_position, char *string, int *expression )); -_PROTOTYPE(int in_list, (int *list, int c, int list_length, int opcode )); -_PROTOTYPE(void dummy_line, (void)); diff --git a/release/picobsd/tinyware/mined/mined1.c b/release/picobsd/tinyware/mined/mined1.c deleted file mode 100644 index aff7c9c60df8..000000000000 --- a/release/picobsd/tinyware/mined/mined1.c +++ /dev/null @@ -1,2025 +0,0 @@ -/* - * Part one of the mined editor. - */ - -/* - * Ported to FreeBSD by Andrzej Bialecki <abial@freebsd.org>, Oct 1998 - * - * Added a help screen, and remapped some of the wildest keybindings... - */ - -/* - * Author: Michiel Huisjes. - * - * 1. General remarks. - * - * Mined is a screen editor designed for the MINIX operating system. - * It is meant to be used on files not larger than 50K and to be fast. - * When mined starts up, it reads the file into its memory to minimize - * disk access. The only time that disk access is needed is when certain - * save, write or copy commands are given. - * - * Mined has the style of Emacs or Jove, that means that there are no modes. - * Each character has its own entry in an 256 pointer to function array, - * which is called when that character is typed. Only ASCII characters are - * connected with a function that inserts that character at the current - * location in the file. Two execptions are <linefeed> and <tab> which are - * inserted as well. Note that the mapping between commands and functions - * called is implicit in the table. Changing the mapping just implies - * changing the pointers in this table. - * - * The display consists of SCREENMAX + 1 lines and XMAX + 1 characters. When - * a line is larger (or gets larger during editing) than XBREAK characters, - * the line is either shifted SHIFT_SIZE characters to the left (which means - * that the first SHIFT_SIZE characters are not printed) or the end of the - * line is marked with the SHIFT_MARK character and the rest of the line is - * not printed. A line can never exceed MAX_CHARS characters. Mined will - * always try to keep the cursor on the same line and same (relative) - * x-coordinate if nothing changed. So if you scroll one line up, the cursor - * stays on the same line, or when you move one line down, the cursor will - * move to the same place on the line as it was on the previous. - * Every character on the line is available for editing including the - * linefeed at the the of the line. When the linefeed is deleted, the current - * line and the next line are joined. The last character of the file (which - * is always a linefeed) can never be deleted. - * The bottomline (as indicated by YMAX + 1) is used as a status line during - * editing. This line is usually blank or contains information mined needs - * during editing. This information (or rather questions) is displayed in - * reverse video. - * - * The terminal modes are changed completely. All signals like start/stop, - * interrupt etc. are unset. The only signal that remains is the quit signal. - * The quit signal (^\) is the general abort signal for mined. Typing a ^\ - * during searching or when mined is asking for filenames, etc. will abort - * the function and mined will return to the main loop. Sending a quit - * signal during the main loop will abort the session (after confirmation) - * and the file is not (!) saved. - * The session will also be aborted when an unrecoverable error occurs. E.g - * when there is no more memory available. If the file has been modified, - * mined will ask if the file has to be saved or not. - * If there is no more space left on the disk, mined will just give an error - * message and continue. - * - * The number of system calls are minized. This is done to keep the editor - * as fast as possible. I/O is done in SCREEN_SIZE reads/writes. Accumulated - * output is also flushed at the end of each character typed. - * - * 2. Regular expressions - * - * Mined has a build in regular expression matcher, which is used for - * searching and replace routines. A regular expression consists of a - * sequence of: - * - * 1. A normal character matching that character. - * 2. A . matching any character. - * 3. A ^ matching the begin of a line. - * 4. A $ (as last character of the pattern) mathing the end of a line. - * 5. A \<character> matching <character>. - * 6. A number of characters enclosed in [] pairs matching any of these - * characters. A list of characters can be indicated by a '-'. So - * [a-z] matches any letter of the alphabet. If the first character - * after the '[' is a '^' then the set is negated (matching none of - * the characters). - * A ']', '^' or '-' can be escaped by putting a '\' in front of it. - * Of course this means that a \ must be represented by \\. - * 7. If one of the expressions as described in 1-6 is followed by a - * '*' than that expressions matches a sequence of 0 or more of - * that expression. - * - * Parsing of regular expression is done in two phases. In the first phase - * the expression is compiled into a more comprehensible form. In the second - * phase the actual matching is done. For more details see 3.6. - * - * - * 3. Implementation of mined. - * - * 3.1 Data structures. - * - * The main data structures are as follows. The whole file is kept in a - * double linked list of lines. The LINE structure looks like this: - * - * typedef struct Line { - * struct Line *next; - * struct Line *prev; - * char *text; - * unsigned char shift_count; - * } LINE; - * - * Each line entry contains a pointer to the next line, a pointer to the - * previous line and a pointer to the text of that line. A special field - * shift_count contains the number of shifts (in units of SHIFT_SIZE) - * that is performed on that line. The total size of the structure is 7 - * bytes so a file consisting of 1000 empty lines will waste a lot of - * memory. A LINE structure is allocated for each line in the file. After - * that the number of characters of the line is counted and sufficient - * space is allocated to store them (including a linefeed and a '\0'). - * The resulting address is assigned to the text field in the structure. - * - * A special structure is allocated and its address is assigned to the - * variable header as well as the variable tail. The text field of this - * structure is set to NIL_PTR. The tail->prev of this structure points - * to the last LINE of the file and the header->next to the first LINE. - * Other LINE *variables are top_line and bot_line which point to the - * first line resp. the last line on the screen. - * Two other variables are important as well. First the LINE *cur_line, - * which points to the LINE currently in use and the char *cur_text, - * which points to the character at which the cursor stands. - * Whenever an ASCII character is typed, a new line is build with this - * character inserted. Then the old data space (pointed to by - * cur_line->text) is freed, data space for the new line is allocated and - * assigned to cur_line->text. - * - * Two global variables called x and y represent the x and y coordinates - * from the cursor. The global variable nlines contains the number of - * lines in the file. Last_y indicates the maximum y coordinate of the - * screen (which is usually SCREENMAX). - * - * A few strings must be initialized by hand before compiling mined. - * These string are enter_string, which is printed upon entering mined, - * rev_video (turn on reverse video), normal_video, rev_scroll (perform a - * reverse scroll) and pos_string. The last string should hold the - * absolute position string to be printed for cursor motion. The #define - * X_PLUS and Y_PLUS should contain the characters to be added to the - * coordinates x and y (both starting at 0) to finish cursor positioning. - * - * 3.2 Starting up. - * - * Mined can be called with or without argument and the function - * load_file () is called with these arguments. load_file () checks - * if the file exists if it can be read and if it is writable and - * sets the writable flag accordingly. If the file can be read, - * load_file () reads a line from the file and stores this line into - * a structure by calling install_line () and line_insert () which - * installs the line into the double linked list, until the end of the - * file is reached. - * Lines are read by the function get_line (), which buffers the - * reading in blocks of SCREEN_SIZE. Load_file () also initializes the - * LINE *variables described above. - * - * 3.3 Moving around. - * - * Several commands are implemented for moving through the file. - * Moving up (UP), down (DN) left (LF) and right (RT) are done by the - * arrow keys. Moving one line below the screen scrolls the screen one - * line up. Moving one line above the screen scrolls the screen one line - * down. The functions forward_scroll () and reverse_scroll () take care - * of that. - * Several other move functions exist: move to begin of line (BL), end of - * line (EL) top of screen (HIGH), bottom of screen (LOW), top of file - * (HO), end of file (EF), scroll one page down (PD), scroll one page up - * (PU), scroll one line down (SD), scroll one line up (SU) and move to a - * certain line number (GOTO). - * Two functions called MN () and MP () each move one word further or - * backwards. A word is a number of non-blanks seperated by a space, a - * tab or a linefeed. - * - * 3.4 Modifying text. - * - * The modifying commands can be separated into two modes. The first - * being inserting text, and the other deleting text. Two functions are - * created for these purposes: insert () and delete (). Both are capable - * of deleting or inserting large amounts of text as well as one - * character. Insert () must be given the line and location at which - * the text must be inserted. Is doesn't make any difference whether this - * text contains linefeeds or not. Delete () must be given a pointer to - * the start line, a pointer from where deleting should start on that - * line and the same information about the end position. The last - * character of the file will never be deleted. Delete () will make the - * necessary changes to the screen after deleting, but insert () won't. - * The functions for modifying text are: insert one char (S), insert a - * file (file_insert (fd)), insert a linefeed and put cursor back to - * end of line (LIB), delete character under the cursor (DCC), delete - * before cursor (even linefeed) (DPC), delete next word (DNW), delete - * previous word (DPC) and delete to end of line (if the cursor is at - * a linefeed delete line) (DLN). - * - * 3.5 Yanking. - * - * A few utilities are provided for yanking pieces of text. The function - * MA () marks the current position in the file. This is done by setting - * LINE *mark_line and char *mark_text to the current position. Yanking - * of text can be done in two modes. The first mode just copies the text - * from the mark to the current position (or visa versa) into a buffer - * (YA) and the second also deletes the text (DT). Both functions call - * the function set_up () with the delete flag on or off. Set_up () - * checks if the marked position is still a valid one (by using - * check_mark () and legal ()), and then calls the function yank () with - * a start and end position in the file. This function copies the text - * into a scratch_file as indicated by the variable yank_file. This - * scratch_file is made uniq by the function scratch_file (). At the end - * of copying yank will (if necessary) delete the text. A global flag - * called yank_status keeps track of the buffer (or file) status. It is - * initialized on NOT_VALID and set to EMPTY (by set_up ()) or VALID (by - * yank ()). Several things can be done with the buffer. It can be - * inserted somewhere else in the file (PT) or it can be copied into - * another file (WB), which will be prompted for. - * - * 3.6 Search and replace routines. - * - * Searching for strings and replacing strings are done by regular - * expressions. For any expression the function compile () is called - * with as argument the expression to compile. Compile () returns a - * pointer to a structure which looks like this: - * - * typedef struct regex { - * union { - * char *err_mess; - * int *expression; - * } result; - * char status; - * char *start_ptr; - * char *end_ptr; - * } REGEX; - * - * If something went wrong during compiling (e.g. an illegal expression - * was given), the function reg_error () is called, which sets the status - * field to REG_ERROR and the err_mess field to the error message. If the - * match must be anchored at the beginning of the line (end of line), the - * status field is set to BEGIN_LINE (END_LINE). If none of these special - * cases are true, the field is set to 0 and the function finished () is - * called. Finished () allocates space to hold the compiled expression - * and copies this expression into the expression field of the union - * (bcopy ()). Matching is done by the routines match() and line_check(). - * Match () takes as argument the REGEX *program, a pointer to the - * startposition on the current line, and a flag indicating FORWARD or - * REVERSE search. Match () checks out the whole file until a match is - * found. If match is found it returns a pointer to the line in which the - * match was found else it returns a NIL_LINE. Line_check () takes the - * same arguments, but return either MATCH or NO_MATCH. - * During checking, the start_ptr and end_ptr fields of the REGEX - * structure are assigned to the start and end of the match. - * Both functions try to find a match by walking through the line - * character by character. For each possibility, the function - * check_string () is called with as arguments the REGEX *program and the - * string to search in. It starts walking through the expression until - * the end of the expression or the end of the string is reached. - * Whenever a * is encountered, this position of the string is marked, - * the maximum number of matches are performed and the function star () - * is called in order to try to find the longest match possible. Star () - * takes as arguments the REGEX program, the current position of the - * string, the marked position and the current position of the expression - * Star () walks from the current position of the string back to the - * marked position, and calls string_check () in order to find a match. - * It returns MATCH or NO_MATCH, just as string_check () does. - * Searching is now easy. Both search routines (forward (SF) and - * backwards search (SR)) call search () with an apropiate message and a - * flag indicating FORWARD or REVERSE search. Search () will get an - * expression from the user by calling get_expression(). Get_expression() - * returns a pointer to a REGEX structure or NIL_REG upon errors and - * prompts for the expression. If no expression if given, the previous is - * used instead. After that search will call match (), and if a match is - * found, we can move to that place in the file by the functions find_x() - * and find_y () which will find display the match on the screen. - * Replacing can be done in two ways. A global replace (GR) or a line - * replace (LR). Both functions call change () with a message an a flag - * indicating global or line replacement. Change () will prompt for the - * expression and for the replacement. Every & in the replacement pattern - * means substitute the match instead. An & can be escaped by a \. When - * a match is found, the function substitute () will perform the - * substitution. - * - * 3.6 Miscellaneous commands. - * - * A few commands haven't be discussed yet. These are redraw the screen - * (RD) fork a shell (SH), print file status (FS), write file to disc - * (WT), insert a file at current position (IF), leave editor (XT) and - * visit another file (VI). The last two functions will check if the file - * has been modified. If it has, they will ask if you want to save the - * file by calling ask_save (). - * The function ESC () will repeat a command n times. It will prompt for - * the number. Aborting the loop can be done by sending the ^\ signal. - * - * 3.7 Utility functions. - * - * Several functions exists for internal use. First allocation routines: - * alloc (bytes) and newline () will return a pointer to free data space - * if the given size. If there is no more memory available, the function - * panic () is called. - * Signal handling: The only signal that can be send to mined is the - * SIGQUIT signal. This signal, functions as a general abort command. - * Mined will abort if the signal is given during the main loop. The - * function abort_mined () takes care of that. - * Panic () is a function with as argument a error message. It will print - * the message and the error number set by the kernel (errno) and will - * ask if the file must be saved or not. It resets the terminal - * (raw_mode ()) and exits. - * String handling routines like copy_string(to, from), length_of(string) - * and build_string (buffer, format, arg1, arg2, ...). The latter takes - * a description of the string out out the format field and puts the - * result in the buffer. (It works like printf (3), but then into a - * string). The functions status_line (string1, string2), error (string1, - * string2), clear_status () and bottom_line () all print information on - * the status line. - * Get_string (message, buffer) reads a string and getchar () reads one - * character from the terminal. - * Num_out ((long) number) prints the number into a 11 digit field - * without leading zero's. It returns a pointer to the resulting string. - * File_status () prints all file information on the status line. - * Set_cursor (x, y) prints the string to put the cursor at coordinates - * x and y. - * Output is done by four functions: writeline(fd,string), clear_buffer() - * write_char (fd, c) and flush_buffer (fd). Three defines are provided - * to write on filedescriptor STD_OUT (terminal) which is used normally: - * string_print (string), putchar (c) and flush (). All these functions - * use the global I/O buffer screen and the global index for this array - * called out_count. In this way I/O can be buffered, so that reads or - * writes can be done in blocks of SCREEN_SIZE size. - * The following functions all handle internal line maintenance. The - * function proceed (start_line, count) returns the count'th line after - * start_line. If count is negative, the count'th line before the - * start_line is returned. If header or tail is encountered then that - * will be returned. Display (x, y, start_line, count) displays count - * lines starting at coordinates [x, y] and beginning at start_line. If - * the header or tail is encountered, empty lines are displayed instead. - * The function reset (head_line, ny) reset top_line, last_y, bot_line, - * cur_line and y-coordinate. This is not a neat way to do the - * maintenance, but it sure saves a lot of code. It is usually used in - * combination with display (). - * Put_line(line, offset, clear_line), prints a line (skipping characters - * according to the line->shift_size field) until XBREAK - offset - * characters are printed or a '\n' is encountered. If clear_line is - * TRUE, spaces are printed until XBREAK - offset characters. - * Line_print (line) is a #define from put_line (line, 0, TRUE). - * Moving is done by the functions move_to (x, y), move_addres (address) - * and move (x, adress, y). This function is the most important one in - * mined. New_y must be between 0 and last_y, new_x can be about - * anything, address must be a pointer to an character on the current - * line (or y). Move_to () first adjust the y coordinate together with - * cur_line. If an address is given, it finds the corresponding - * x-coordinate. If an new x-coordinate was given, it will try to locate - * the corresponding character. After that it sets the shift_count field - * of cur_line to an apropiate number according to new_x. The only thing - * left to do now is to assign the new values to cur_line, cur_text, x - * and y. - * - * 4. Summary of commands. - * - * CURSOR MOTION - * up-arrow Move cursor 1 line up. At top of screen, reverse scroll - * down-arrow Move cursor 1 line down. At bottom, scroll forward. - * left-arrow Move cursor 1 character left or to end of previous line - * right-arrow Move cursor 1 character right or to start of next line - * CTRL-A Move cursor to start of current line - * CTRL-Z Move cursor to end of current line - * CTRL-^ Move cursor to top of screen - * CTRL-_ Move cursor to bottom of screen - * CTRL-F Forward to start of next word (even to next line) - * CTRL-B Backward to first character of previous word - * - * SCREEN MOTION - * Home key Move cursor to first character of file - * End key Move cursor to last character of file - * PgUp Scroll backward 1 page. Bottom line becomes top line - * PgD Scroll backward 1 page. Top line becomes bottom line - * CTRL-D Scroll screen down one line (reverse scroll) - * CTRL-U Scroll screen up one line (forward scroll) - * - * MODIFYING TEXT - * ASCII char Self insert character at cursor - * tab Insert tab at cursor - * backspace Delete the previous char (left of cursor), even line feed - * Del Delete the character under the cursor - * CTRL-N Delete next word - * CTRL-P Delete previous word - * CTRL-O Insert line feed at cursor and back up 1 character - * CTRL-T Delete tail of line (cursor to end); if empty, delete line - * CTRL-@ Set the mark (remember the current location) - * CTRL-K Delete text from the mark to current position save on file - * CTRL-C Save the text from the mark to the current position - * CTRL-Y Insert the contents of the save file at current position - * CTRL-Q Insert the contents of the save file into a new file - * CTRL-G Insert a file at the current position - * - * MISCELLANEOUS - * CTRL-E Erase and redraw the screen - * CTRL-V Visit file (read a new file); complain if old one changed - * CTRL-W Write the current file back to the disk - * numeric + Search forward (prompt for regular expression) - * numeric - Search backward (prompt for regular expression) - * numeric 5 Print the current status of the file - * CTRL-R (Global) Replace str1 by str2 (prompts for each string) - * CTRL-L (Line) Replace string1 by string2 - * CTRL-S Fork off a shell and wait for it to finish - * CTRL-X EXIT (prompt if file modified) - * CTRL-] Go to a line. Prompts for linenumber - * CTRL-\ Abort whatever editor was doing and start again - * escape key Repeat a command count times; (prompts for count) - */ - -/* ======================================================================== * - * Utilities * - * ======================================================================== */ - -#include "mined.h" -#include <signal.h> -#include <termios.h> -#include <limits.h> -#include <errno.h> -#include <sys/wait.h> -#include <sys/ioctl.h> -#if __STDC__ -#include <stdarg.h> -#else -#include <varargs.h> -#endif - -extern int errno; -int ymax = YMAX; -int screenmax = SCREENMAX; - - -/* - * Print file status. - */ -void FS() -{ - fstatus(file_name[0] ? "" : "[buffer]", -1L); -} - -/* - * Visit (edit) another file. If the file has been modified, ask the user if - * he wants to save it. - */ -void VI() -{ - char new_file[LINE_LEN]; /* Buffer to hold new file name */ - - if (modified == TRUE && ask_save() == ERRORS) - return; - -/* Get new file name */ - if (get_file("Visit file:", new_file) == ERRORS) - return; - -/* Free old linked list, initialize global variables and load new file */ - initialize(); -#ifdef UNIX - tputs(CL, 0, _putchar); -#else - string_print (enter_string); -#endif /* UNIX */ - load_file(new_file[0] == '\0' ? NIL_PTR : new_file); -} - -/* - * Write file in core to disc. - */ -int WT() -{ - register LINE *line; - register long count = 0L; /* Nr of chars written */ - char file[LINE_LEN]; /* Buffer for new file name */ - int fd; /* Filedescriptor of file */ - - if (modified == FALSE) { - error ("Write not necessary.", NIL_PTR); - return FINE; - } - -/* Check if file_name is valid and if file can be written */ - if (file_name[0] == '\0' || writable == FALSE) { - if (get_file("Enter file name:", file) != FINE) - return ERRORS; - copy_string(file_name, file); /* Save file name */ - } - if ((fd = creat(file_name, 0644)) < 0) { /* Empty file */ - error("Cannot create ", file_name); - writable = FALSE; - return ERRORS; - } - else - writable = TRUE; - - clear_buffer(); - - status_line("Writing ", file_name); - for (line = header->next; line != tail; line = line->next) { - if (line->shift_count & DUMMY) { - if (line->next == tail && line->text[0] == '\n') - continue; - } - if (writeline(fd, line->text) == ERRORS) { - count = -1L; - break; - } - count += (long) length_of(line->text); - } - - if (count > 0L && flush_buffer(fd) == ERRORS) - count = -1L; - - (void) close(fd); - - if (count == -1L) - return ERRORS; - - modified = FALSE; - rpipe = FALSE; /* File name is now assigned */ - -/* Display how many chars (and lines) were written */ - fstatus("Wrote", count); - return FINE; -} - -/* Call WT and discard value returned. */ -void XWT() -{ - (void) WT(); -} - - - -/* - * Call an interactive shell. - */ -void SH() -{ - register int w; - int pid, status; - char *shell; - - if ((shell = getenv("SHELL")) == NIL_PTR) shell = "/bin/sh"; - - switch (pid = fork()) { - case -1: /* Error */ - error("Cannot fork.", NIL_PTR); - return; - case 0: /* This is the child */ - set_cursor(0, ymax); - putchar('\n'); - flush(); - raw_mode(OFF); - if (rpipe) { /* Fix stdin */ - close (0); - if (open("/dev/tty", 0) < 0) - exit (126); - } - execl(shell, shell, (char *) 0); - exit(127); /* Exit with 127 */ - default : /* This is the parent */ - signal(SIGINT, SIG_IGN); - signal(SIGQUIT, SIG_IGN); - do { - w = wait(&status); - } while (w != -1 && w != pid); - } - - raw_mode(ON); - RD(); - - if ((status >> 8) == 127) /* Child died with 127 */ - error("Cannot exec ", shell); - else if ((status >> 8) == 126) - error("Cannot open /dev/tty as fd #0", NIL_PTR); -} - -/* - * Proceed returns the count'th line after `line'. When count is negative - * it returns the count'th line before `line'. When the next (previous) - * line is the tail (header) indicating EOF (tof) it stops. - */ -LINE *proceed(line, count) -register LINE *line; -register int count; -{ - if (count < 0) - while (count++ < 0 && line != header) - line = line->prev; - else - while (count-- > 0 && line != tail) - line = line->next; - return line; -} - -/* - * Show concatenation of s1 and s2 on the status line (bottom of screen) - * If revfl is TRUE, turn on reverse video on both strings. Set stat_visible - * only if bottom_line is visible. - */ -int bottom_line(revfl, s1, s2, inbuf, statfl) -FLAG revfl; -char *s1, *s2; -char *inbuf; -FLAG statfl; -{ - int ret = FINE; - char buf[LINE_LEN]; - register char *p = buf; - - *p++ = ' '; - if (s1 != NIL_PTR) - while (*p = *s1++) - p++; - if (s2 != NIL_PTR) - while (*p = *s2++) - p++; - *p++ = ' '; - *p++ = 0; - - if (revfl == ON && stat_visible == TRUE) - clear_status (); - set_cursor(0, ymax); - if (revfl == ON) { /* Print rev. start sequence */ -#ifdef UNIX - tputs(SO, 0, _putchar); -#else - string_print(rev_video); -#endif /* UNIX */ - stat_visible = TRUE; - } - else /* Used as clear_status() */ - stat_visible = FALSE; - - string_print(buf); - - if (inbuf != NIL_PTR) - ret = input(inbuf, statfl); - - /* Print normal video */ -#ifdef UNIX - tputs(SE, 0, _putchar); - tputs(CE, 0, _putchar); -#else - string_print(normal_video); - string_print(blank_line); /* Clear the rest of the line */ -#endif /* UNIX */ - if (inbuf != NIL_PTR) - set_cursor(0, ymax); - else - set_cursor(x, y); /* Set cursor back to old position */ - flush(); /* Perform the actual write */ - if (ret != FINE) - clear_status(); - return ret; -} - -/* - * Count_chars() count the number of chars that the line would occupy on the - * screen. Counting starts at the real x-coordinate of the line. - */ -int count_chars(line) -LINE *line; -{ - register int cnt = get_shift(line->shift_count) * -SHIFT_SIZE; - register char *textp = line->text; - -/* Find begin of line on screen */ - while (cnt < 0) { - if (is_tab(*textp++)) - cnt = tab(cnt); - else - cnt++; - } - -/* Count number of chars left */ - cnt = 0; - while (*textp != '\n') { - if (is_tab(*textp++)) - cnt = tab(cnt); - else - cnt++; - } - return cnt; -} - -/* - * Move to coordinates nx, ny at screen. The caller must check that scrolling - * is not needed. - * If new_x is lower than 0 or higher than XBREAK, move_to() will check if - * the line can be shifted. If it can it sets(or resets) the shift_count field - * of the current line accordingly. - * Move also sets cur_text to the right char. - * If we're moving to the same x coordinate, try to move the the x-coordinate - * used on the other previous call. - */ -void move(new_x, new_address, new_y) -register int new_x; -int new_y; -char *new_address; -{ - register LINE *line = cur_line; /* For building new cur_line */ - int shift = 0; /* How many shifts to make */ - static int rel_x = 0; /* Remember relative x position */ - int tx = x; - -/* Check for illegal values */ - if (new_y < 0 || new_y > last_y) - return; - -/* Adjust y-coordinate and cur_line */ - if (new_y < y) - while (y != new_y) { - if(line->shift_count>0) { - line->shift_count=0; - move_to(0,y); - string_print(blank_line); - line_print(line); - } - y--; - line = line->prev; - } - else - while (y != new_y) { - if(line->shift_count>0) { - line->shift_count=0; - move_to(0,y); - string_print(blank_line); - line_print(line); - } - y++; - line = line->next; - } - -/* Set or unset relative x-coordinate */ - if (new_address == NIL_PTR) { - new_address = find_address(line, (new_x == x) ? rel_x : new_x , &tx); - if (new_x != x) - rel_x = tx; - new_x = tx; - } - else { - rel_x = new_x = find_x(line, new_address); - } - -/* Adjust shift_count if new_x lower than 0 or higher than XBREAK */ - if (new_x < 0 || new_x >= XBREAK) { - if (new_x > XBREAK || (new_x == XBREAK && *new_address != '\n')) - shift = (new_x - XBREAK) / SHIFT_SIZE + 1; - else { - shift = new_x / SHIFT_SIZE; - if (new_x % SHIFT_SIZE) - shift--; - } - - if (shift != 0) { - line->shift_count += shift; - new_x = find_x(line, new_address); - set_cursor(0, y); - line_print(line); - rel_x = new_x; - } - } - -/* Assign and position cursor */ - x = new_x; - cur_text = new_address; - cur_line = line; - set_cursor(x, y); -} - -/* - * Find_x() returns the x coordinate belonging to address. - * (Tabs are expanded). - */ -int find_x(line, address) -LINE *line; -char *address; -{ - register char *textp = line->text; - register int nx = get_shift(line->shift_count) * -SHIFT_SIZE; - - while (textp != address && *textp != '\0') { - if (is_tab(*textp++)) /* Expand tabs */ - nx = tab(nx); - else - nx++; - } - return nx; -} - -/* - * Find_address() returns the pointer in the line with offset x_coord. - * (Tabs are expanded). - */ -char *find_address(line, x_coord, old_x) -LINE *line; -int x_coord; -int *old_x; -{ - register char *textp = line->text; - register int tx = get_shift(line->shift_count) * -SHIFT_SIZE; - - while (tx < x_coord && *textp != '\n') { - if (is_tab(*textp)) { - if (*old_x - x_coord == 1 && tab(tx) > x_coord) - break; /* Moving left over tab */ - else - tx = tab(tx); - } - else - tx++; - textp++; - } - - *old_x = tx; - return textp; -} - -/* - * Length_of() returns the number of characters int the string `string' - * excluding the '\0'. - */ -int length_of(string) -register char *string; -{ - register int count = 0; - - if (string != NIL_PTR) { - while (*string++ != '\0') - count++; - } - return count; -} - -/* - * Copy_string() copies the string `from' into the string `to'. `To' must be - * long enough to hold `from'. - */ -void copy_string(to, from) -register char *to; -register char *from; -{ - while (*to++ = *from++) - ; -} - -/* - * Reset assigns bot_line, top_line and cur_line according to `head_line' - * which must be the first line of the screen, and an y-coordinate, - * which will be the current y-coordinate (if it isn't larger than last_y) - */ -void reset(head_line, screen_y) -LINE *head_line; -int screen_y; -{ - register LINE *line; - - top_line = line = head_line; - -/* Search for bot_line (might be last line in file) */ - for (last_y = 0; last_y < nlines - 1 && last_y < screenmax - && line->next != tail; last_y++) - line = line->next; - - bot_line = line; - y = (screen_y > last_y) ? last_y : screen_y; - -/* Set cur_line according to the new y value */ - cur_line = proceed(top_line, y); -} - -/* - * Set cursor at coordinates x, y. - */ -void set_cursor(nx, ny) -int nx, ny; -{ -#ifdef UNIX - extern char *tgoto(); - - tputs(tgoto(CM, nx, ny), 0, _putchar); -#else - char text_buffer[10]; - - build_string(text_buffer, pos_string, ny+1, nx+1); - string_print(text_buffer); -#endif /* UNIX */ -} - -/* - * Routine to open terminal when mined is used in a pipeline. - */ -void open_device() -{ - if ((input_fd = open("/dev/tty", 0)) < 0) - panic("Cannot open /dev/tty for read"); -} - -/* - * Getchar() reads one character from the terminal. The character must be - * masked with 0377 to avoid sign extension. - */ -int getchar() -{ -#ifdef UNIX - return (_getchar() & 0377); -#else - char c; - - if (read(input_fd, &c, 1) != 1 && quit == FALSE) - panic("Can't read one char from fd #0"); - - return c & 0377; -#endif /* UNIX */ -} - -/* - * Display() shows count lines on the terminal starting at the given - * coordinates. When the tail of the list is encountered it will fill the - * rest of the screen with blank_line's. - * When count is negative, a backwards print from `line' will be done. - */ -void display(x_coord, y_coord, line, count) -int x_coord, y_coord; -register LINE *line; -register int count; -{ - set_cursor(x_coord, y_coord); - -/* Find new startline if count is negative */ - if (count < 0) { - line = proceed(line, count); - count = -count; - } - -/* Print the lines */ - while (line != tail && count-- >= 0) { - line->shift_count=0; - line_print(line); - line = line->next; - } - -/* Print the blank lines (if any) */ - if (loading == FALSE) { - while (count-- >= 0) { -#ifdef UNIX - tputs(CE, 0, _putchar); -#else - string_print(blank_line); -#endif /* UNIX */ - putchar('\n'); - } - } -} - -/* - * Write_char does a buffered output. - */ -int write_char(fd, c) -int fd; -char c; -{ - screen [out_count++] = c; - if (out_count == SCREEN_SIZE) /* Flush on SCREEN_SIZE chars */ - return flush_buffer(fd); - return FINE; -} - -/* - * Writeline writes the given string on the given filedescriptor. - */ -int writeline(fd, text) -register int fd; -register char *text; -{ - while(*text) - if (write_char(fd, *text++) == ERRORS) - return ERRORS; - return FINE; -} - -/* - * Put_line print the given line on the standard output. If offset is not zero - * printing will start at that x-coordinate. If the FLAG clear_line is TRUE, - * then (screen) line will be cleared when the end of the line has been - * reached. - */ -void put_line(line, offset, clear_line) -LINE *line; /* Line to print */ -int offset; /* Offset to start */ -FLAG clear_line; /* Clear to eoln if TRUE */ -{ - register char *textp = line->text; - register int count = get_shift(line->shift_count) * -SHIFT_SIZE; - int tab_count; /* Used in tab expansion */ - -/* Skip all chars as indicated by the offset and the shift_count field */ - while (count < offset) { - if (is_tab(*textp++)) - count = tab(count); - else - count++; - } - - while (*textp != '\n' && count < XBREAK) { - if (is_tab(*textp)) { /* Expand tabs to spaces */ - tab_count = tab(count); - while (count < XBREAK && count < tab_count) { - count++; - putchar(' '); - } - textp++; - } - else { - if (*textp >= '\01' && *textp <= '\037') { -#ifdef UNIX - tputs(SO, 0, _putchar); -#else - string_print (rev_video); -#endif /* UNIX */ - putchar(*textp++ + '\100'); -#ifdef UNIX - tputs(SE, 0, _putchar); -#else - string_print (normal_video); -#endif /* UNIX */ - } - else - putchar(*textp++); - count++; - } - } - -/* If line is longer than XBREAK chars, print the shift_mark */ - if (count == XBREAK && *textp != '\n') - putchar(textp[1]=='\n' ? *textp : SHIFT_MARK); - -/* Clear the rest of the line is clear_line is TRUE */ - if (clear_line == TRUE) { -#ifdef UNIX - tputs(CE, 0, _putchar); -#else - string_print(blank_line); -#endif /* UNIX */ - putchar('\n'); - } -} - -/* - * Flush the I/O buffer on filedescriptor fd. - */ -int flush_buffer(fd) -int fd; -{ - if (out_count <= 0) /* There is nothing to flush */ - return FINE; -#ifdef UNIX - if (fd == STD_OUT) { - printf("%.*s", out_count, screen); - _flush(); - } - else -#endif /* UNIX */ - if (write(fd, screen, out_count) != out_count) { - bad_write(fd); - return ERRORS; - } - clear_buffer(); /* Empty buffer */ - return FINE; -} - -/* - * Bad_write() is called when a write failed. Notify the user. - */ -void bad_write(fd) -int fd; -{ - if (fd == STD_OUT) /* Cannot write to terminal? */ - exit(1); - - clear_buffer(); - build_string(text_buffer, "Command aborted: %s (File incomplete)", - (errno == ENOSPC || errno == -ENOSPC) ? - "No space on device" : "Write error"); - error(text_buffer, NIL_PTR); -} - -/* - * Catch the SIGQUIT signal (^\) send to mined. It turns on the quitflag. - */ -void catch(sig) -int sig; -{ -/* Reset the signal */ - signal(SIGQUIT, catch); - quit = TRUE; -} - -/* - * Abort_mined() will leave mined. Confirmation is asked first. - */ -void abort_mined() -{ - quit = FALSE; - -/* Ask for confirmation */ - status_line("Really abort? ", NIL_PTR); - if (getchar() != 'y') { - clear_status(); - return; - } - -/* Reset terminal */ - raw_mode(OFF); - set_cursor(0, ymax); - putchar('\n'); - flush(); -#ifdef UNIX - abort(); -#else - exit(1); -#endif /* UNIX */ -} - -#define UNDEF _POSIX_VDISABLE - -/* - * Set and reset tty into CBREAK or old mode according to argument `state'. It - * also sets all signal characters (except for ^\) to UNDEF. ^\ is caught. - */ -void raw_mode(state) -FLAG state; -{ - static struct termios old_tty; - static struct termios new_tty; - - if (state == OFF) { - tcsetattr(input_fd, TCSANOW, &old_tty); - return; - } - -/* Save old tty settings */ - tcgetattr(input_fd, &old_tty); - -/* Set tty to CBREAK mode */ - tcgetattr(input_fd, &new_tty); - new_tty.c_lflag &= ~(ICANON|ECHO|ECHONL); - new_tty.c_iflag &= ~(IXON|IXOFF); - -/* Unset signal chars, leave only SIGQUIT set to ^\ */ - new_tty.c_cc[VINTR] = new_tty.c_cc[VSUSP] = UNDEF; - new_tty.c_cc[VQUIT] = '\\' & 037; - signal(SIGQUIT, catch); /* Which is caught */ - - tcsetattr(input_fd, TCSANOW, &new_tty); -} - -/* - * Panic() is called with an error number and a message. It is called when - * something unrecoverable has happened. - * It writes the message to the terminal, resets the tty and exits. - * Ask the user if he wants to save his file. - */ -void panic(message) -register char *message; -{ - extern char yank_file[]; - -#ifdef UNIX - tputs(CL, 0, _putchar); - build_string(text_buffer, "%s\nError code %d\n", message, errno); -#else - build_string(text_buffer, "%s%s\nError code %d\n", enter_string, message, errno); -#endif /* UNIX */ - (void) write(STD_OUT, text_buffer, length_of(text_buffer)); - - if (loading == FALSE) - XT(); /* Check if file can be saved */ - else - (void) unlink(yank_file); - raw_mode(OFF); - -#ifdef UNIX - abort(); -#else - exit(1); -#endif /* UNIX */ -} - -char *alloc(bytes) -int bytes; -{ - char *p; - - p = malloc((unsigned) bytes); - if (p == NIL_PTR) { - if (loading == TRUE) - panic("File too big."); - panic("Out of memory."); - } - return(p); -} - -void free_space(p) -char *p; -{ - free(p); -} - -/* ======================================================================== * - * Main loops * - * ======================================================================== */ - -/* The mapping between input codes and functions. */ - -void (*key_map[256])() = { /* map ASCII characters to functions */ - /* 000-017 */ MA, BL, MP, YA, SD, RD, MN, IF, DPC, S, S, DT, LR, S, DNW,LIB, - /* 020-037 */ DPW, WB, GR, SH, DLN, SU, VI, XWT, XT, PT, EL, ESC, I, GOTO, - HIGH, LOW, - /* 040-057 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 060-077 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 100-117 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 120-137 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 140-157 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 160-177 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, DCC, - /* 200-217 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 220-237 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 240-257 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 260-277 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 300-317 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 320-337 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 340-357 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, - /* 360-377 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, -}; - -int nlines; /* Number of lines in file */ -LINE *header; /* Head of line list */ -LINE *tail; /* Last line in line list */ -LINE *cur_line; /* Current line in use */ -LINE *top_line; /* First line of screen */ -LINE *bot_line; /* Last line of screen */ -char *cur_text; /* Current char on current line in use */ -int last_y; /* Last y of screen. Usually SCREENMAX */ -char screen[SCREEN_SIZE]; /* Output buffer for "writes" and "reads" */ - -int x, y; /* x, y coordinates on screen */ -FLAG modified = FALSE; /* Set when file is modified */ -FLAG stat_visible; /* Set if status_line is visible */ -FLAG writable; /* Set if file cannot be written */ -FLAG loading; /* Set if we are loading a file. */ -FLAG quit = FALSE; /* Set when quit character is typed */ -FLAG rpipe = FALSE; /* Set if file should be read from stdin */ -int input_fd = 0; /* Fd for command input */ -int out_count; /* Index in output buffer */ -char file_name[LINE_LEN]; /* Name of file in use */ -char text_buffer[MAX_CHARS]; /* Buffer for modifying text */ - -/* Escape sequences. */ -#ifdef UNIX -char *CE, *VS, *SO, *SE, *CL, *AL, *CM; -#else -char *enter_string = "\033[H\033[J"; /* String printed on entering mined */ -char *pos_string = "\033[%d;%dH"; /* Absolute cursor position */ -char *rev_scroll = "\033M"; /* String for reverse scrolling */ -char *rev_video = "\033[7m"; /* String for starting reverse video */ -char *normal_video = "\033[m"; /* String for leaving reverse video */ -char *blank_line = "\033[K"; /* Clear line to end */ -#endif /* UNIX */ - -/* - * Yank variables. - */ -FLAG yank_status = NOT_VALID; /* Status of yank_file */ -char yank_file[] = "/tmp/mined.XXXXXX"; -long chars_saved; /* Nr of chars in buffer */ - -/* - * Initialize is called when a another file is edited. It free's the allocated - * space and sets modified back to FALSE and fixes the header/tail pointer. - */ -void initialize() -{ - register LINE *line, *next_line; - -/* Delete the whole list */ - for (line = header->next; line != tail; line = next_line) { - next_line = line->next; - free_space(line->text); - free_space((char*)line); - } - -/* header and tail should point to itself */ - line->next = line->prev = line; - x = y = 0; - rpipe = modified = FALSE; -} - -/* - * Basename() finds the absolute name of the file out of a given path_name. - */ -char *basename(path) -char *path; -{ - register char *ptr = path; - register char *last = NIL_PTR; - - while (*ptr != '\0') { - if (*ptr == '/') - last = ptr; - ptr++; - } - if (last == NIL_PTR) - return path; - if (*(last + 1) == '\0') { /* E.g. /usr/tmp/pipo/ */ - *last = '\0'; - return basename(path);/* Try again */ - } - return last + 1; -} - -/* - * Load_file loads the file `file' into core. If file is a NIL_PTR or the file - * couldn't be opened, just some initializations are done, and a line consisting - * of a `\n' is installed. - */ -void load_file(file) -char *file; -{ - register LINE *line = header; - register int len; - long nr_of_chars = 0L; - int fd = -1; /* Filedescriptor for file */ - - nlines = 0; /* Zero lines to start with */ - -/* Open file */ - writable = TRUE; /* Benefit of the doubt */ - if (file == NIL_PTR) { - if (rpipe == FALSE) - status_line("No file.", NIL_PTR); - else { - fd = 0; - file = "standard input"; - } - file_name[0] = '\0'; - } - else { - copy_string(file_name, file); /* Save file name */ - if (access(file, 0) < 0) /* Cannot access file. */ - status_line("New file ", file); - else if ((fd = open(file, 0)) < 0) - status_line("Cannot open ", file); - else if (access(file, 2) != 0) /* Set write flag */ - writable = FALSE; - } - -/* Read file */ - loading = TRUE; /* Loading file, so set flag */ - - if (fd >= 0) { - status_line("Reading ", file); - while ((len = get_line(fd, text_buffer)) != ERRORS) { - line = line_insert(line, text_buffer, len); - nr_of_chars += (long) len; - } - if (nlines == 0) /* The file was empty! */ - line = line_insert(line, "\n", 1); - clear_buffer(); /* Clear output buffer */ - cur_line = header->next; - fstatus("Read", nr_of_chars); - (void) close(fd); /* Close file */ - } - else /* Just install a "\n" */ - (void) line_insert(line, "\n", 1); - - reset(header->next, 0); /* Initialize pointers */ - -/* Print screen */ - display (0, 0, header->next, last_y); - move_to (0, 0); - flush(); /* Flush buffer */ - loading = FALSE; /* Stop loading, reset flag */ -} - - -/* - * Get_line reads one line from filedescriptor fd. If EOF is reached on fd, - * get_line() returns ERRORS, else it returns the length of the string. - */ -int get_line(fd, buffer) -int fd; -register char *buffer; -{ - static char *last = NIL_PTR; - static char *current = NIL_PTR; - static int read_chars; - register char *cur_pos = current; - char *begin = buffer; - - do { - if (cur_pos == last) { - if ((read_chars = read(fd, screen, SCREEN_SIZE)) <= 0) - break; - last = &screen[read_chars]; - cur_pos = screen; - } - if (*cur_pos == '\0') - *cur_pos = ' '; - } while ((*buffer++ = *cur_pos++) != '\n'); - - current = cur_pos; - if (read_chars <= 0) { - if (buffer == begin) - return ERRORS; - if (*(buffer - 1) != '\n') - if (loading == TRUE) /* Add '\n' to last line of file */ - *buffer++ = '\n'; - else { - *buffer = '\0'; - return NO_LINE; - } - } - - *buffer = '\0'; - return buffer - begin; -} - -/* - * Install_line installs the buffer into a LINE structure It returns a pointer - * to the allocated structure. - */ -LINE *install_line(buffer, length) -char *buffer; -int length; -{ - register LINE *new_line = (LINE *) alloc(sizeof(LINE)); - - new_line->text = alloc(length + 1); - new_line->shift_count = 0; - copy_string(new_line->text, buffer); - - return new_line; -} - -void main(argc, argv) -int argc; -char *argv[]; -{ -/* mined is the Minix editor. */ - - register int index; /* Index in key table */ - struct winsize winsize; - -#ifdef UNIX - get_term(); - tputs(VS, 0, _putchar); - tputs(CL, 0, _putchar); -#else - string_print(enter_string); /* Hello world */ -#endif /* UNIX */ - if (ioctl(STD_OUT, TIOCGWINSZ, &winsize) == 0 && winsize.ws_row != 0) { - ymax = winsize.ws_row - 1; - screenmax = ymax - 1; - } - - if (!isatty(0)) { /* Reading from pipe */ - if (argc != 1) { - write(2, "Cannot find terminal.\n", 22); - exit (1); - } - rpipe = TRUE; - modified = TRUE; /* Set modified so he can write */ - open_device(); - } - - raw_mode(ON); /* Set tty to appropriate mode */ - - header = tail = (LINE *) alloc(sizeof(LINE)); /* Make header of list*/ - header->text = NIL_PTR; - header->next = tail->prev = header; - -/* Load the file (if any) */ - if (argc < 2) - load_file(NIL_PTR); - else { - (void) get_file(NIL_PTR, argv[1]); /* Truncate filename */ - load_file(argv[1]); - } - - /* Main loop of the editor. */ - for (;;) { - index = getchar(); - if (stat_visible == TRUE) - clear_status(); - if (quit == TRUE) - abort_mined(); - else { /* Call the function for this key */ - (*key_map[index])(index); - flush(); /* Flush output (if any) */ - if (quit == TRUE) - quit = FALSE; - } - } - /* NOTREACHED */ -} - -/* ======================================================================== * - * Miscellaneous * - * ======================================================================== */ - -/* - * Redraw the screen - */ -void RD() -{ -/* Clear screen */ -#ifdef UNIX - tputs(VS, 0, _putchar); - tputs(CL, 0, _putchar); -#else - string_print(enter_string); -#endif /* UNIX */ - -/* Print first page */ - display(0, 0, top_line, last_y); - -/* Clear last line */ - set_cursor(0, ymax); -#ifdef UNIX - tputs(CE, 0, _putchar); -#else - string_print(blank_line); -#endif /* UNIX */ - move_to(x, y); -} - -/* - * Ignore this keystroke. - */ -void I() -{ -} - -/* - * Leave editor. If the file has changed, ask if the user wants to save it. - */ -void XT() -{ - if (modified == TRUE && ask_save() == ERRORS) - return; - - raw_mode(OFF); - set_cursor(0, ymax); - putchar('\n'); - flush(); - (void) unlink(yank_file); /* Might not be necessary */ - exit(0); -} - -void (*escfunc(c))() -int c; -{ -#if (CHIP == M68000) -#ifndef COMPAT - int ch; -#endif -#endif - if (c == '[') { - /* Start of ASCII escape sequence. */ - c = getchar(); -#if (CHIP == M68000) -#ifndef COMPAT - if ((c >= '0') && (c <= '9')) ch = getchar(); - /* ch is either a tilde or a second digit */ -#endif -#endif - switch (c) { - case 'H': return(HO); - case 'A': return(UP); - case 'B': return(DN); - case 'C': return(RT); - case 'D': return(LF); -#if (CHIP == M68000) -#ifndef COMPAT - /* F1 = ESC [ 1 ~ */ - /* F2 = ESC [ 2 ~ */ - /* F3 = ESC [ 3 ~ */ - /* F4 = ESC [ 4 ~ */ - /* F5 = ESC [ 5 ~ */ - /* F6 = ESC [ 6 ~ */ - /* F7 = ESC [ 17 ~ */ - /* F8 = ESC [ 18 ~ */ - case '1': - switch (ch) { - case '~': return(SF); - case '7': (void) getchar(); return(MA); - case '8': (void) getchar(); return(CTL); - } - case '2': return(SR); - case '3': return(PD); - case '4': return(PU); - case '5': return(FS); - case '6': return(EF); -#endif -#endif -#if (CHIP == INTEL) -#ifdef ASSUME_CONS25 - case 'G': return(PD); - case 'I': return(PU); - case 'F': return(EF); - /* F1 - help */ - case 'M': return(HLP); - /* F2 - file status */ - case 'N': return(FS); - /* F3 - search fwd */ - case 'O': return(SF); - /* Shift-F3 - search back */ - case 'a':return(SR); - /* F4 - global replace */ - case 'P': return(GR); - /* Shift-F4 - line replace */ - case 'b': return(LR); -#else - case 'G': return(FS); - case 'S': return(SR); - case 'T': return(SF); - case 'U': return(PD); - case 'V': return(PU); - case 'Y': return(EF); -#endif -#endif - } - return(I); - } -#if (CHIP == M68000) -#ifdef COMPAT - if (c == 'O') { - /* Start of ASCII function key escape sequence. */ - switch (getchar()) { - case 'P': return(SF); - case 'Q': return(SR); - case 'R': return(PD); - case 'S': return(PU); - case 'T': return(FS); - case 'U': return(EF); - case 'V': return(MA); - case 'W': return(CTL); - } - } -#endif -#endif - return(I); -} - -/* - * ESC() wants a count and a command after that. It repeats the - * command count times. If a ^\ is given during repeating, stop looping and - * return to main loop. - */ -void ESC() -{ - register int count = 0; - register void (*func)(); - int index; - - index = getchar(); - while (index >= '0' && index <= '9' && quit == FALSE) { - count *= 10; - count += index - '0'; - index = getchar(); - } - if (count == 0) { - count = 1; - func = escfunc(index); - } else { - func = key_map[index]; - if (func == ESC) - func = escfunc(getchar()); - } - - if (func == I) { /* Function assigned? */ - clear_status(); - return; - } - - while (count-- > 0 && quit == FALSE) { - if (stat_visible == TRUE) - clear_status(); - (*func)(index); - flush(); - } - - if (quit == TRUE) /* Abort has been given */ - error("Aborted", NIL_PTR); -} - -/* - * Ask the user if he wants to save his file or not. - */ -int ask_save() -{ - register int c; - - status_line(file_name[0] ? basename(file_name) : "[buffer]" , - " has been modified. Save? (y/n)"); - - while((c = getchar()) != 'y' && c != 'n' && quit == FALSE) { - ring_bell(); - flush(); - } - - clear_status(); - - if (c == 'y') - return WT(); - - if (c == 'n') - return FINE; - - quit = FALSE; /* Abort character has been given */ - return ERRORS; -} - -/* - * Line_number() finds the line number we're on. - */ -int line_number() -{ - register LINE *line = header->next; - register int count = 1; - - while (line != cur_line) { - count++; - line = line->next; - } - - return count; -} - -/* - * Display a line telling how many chars and lines the file contains. Also tell - * whether the file is readonly and/or modified. - */ -void file_status(message, count, file, lines, writefl, changed) -char *message; -register long count; /* Contains number of characters in file */ -char *file; -int lines; -FLAG writefl, changed; -{ - register LINE *line; - char msg[LINE_LEN + 40];/* Buffer to hold line */ - char yank_msg[LINE_LEN];/* Buffer for msg of yank_file */ - - if (count < 0) /* Not valid. Count chars in file */ - for (line = header->next; line != tail; line = line->next) - count += length_of(line->text); - - if (yank_status != NOT_VALID) /* Append buffer info */ - build_string(yank_msg, " Buffer: %D char%s.", chars_saved, - (chars_saved == 1L) ? "" : "s"); - else - yank_msg[0] = '\0'; - - build_string(msg, "%s %s%s%s %d line%s %D char%s.%s Line %d", message, - (rpipe == TRUE && *message != '[') ? "standard input" : basename(file), - (changed == TRUE) ? "*" : "", - (writefl == FALSE) ? " (Readonly)" : "", - lines, (lines == 1) ? "" : "s", - count, (count == 1L) ? "" : "s", - yank_msg, line_number()); - - if (length_of(msg) + 1 > LINE_LEN - 4) { - msg[LINE_LEN - 4] = SHIFT_MARK; /* Overflow on status line */ - msg[LINE_LEN - 3] = '\0'; - } - status_line(msg, NIL_PTR); /* Print the information */ -} - -/* - * Build_string() prints the arguments as described in fmt, into the buffer. - * %s indicates an argument string, %d indicated an argument number. - */ -#if __STDC__ -void build_string(char *buf, char *fmt, ...) -{ -#else -void build_string(buf, fmt, va_alist) -char *buf, *fmt; -va_dcl -{ -#endif - va_list argptr; - char *scanp; - -#if __STDC__ - va_start(argptr, fmt); -#else - va_start(argptr); -#endif - - while (*fmt) { - if (*fmt == '%') { - fmt++; - switch (*fmt++) { - case 's' : - scanp = va_arg(argptr, char *); - break; - case 'd' : - scanp = num_out((long) va_arg(argptr, int)); - break; - case 'D' : - scanp = num_out((long) va_arg(argptr, long)); - break; - default : - scanp = ""; - } - while (*buf++ = *scanp++) - ; - buf--; - } - else - *buf++ = *fmt++; - } - va_end(argptr); - *buf = '\0'; -} - -/* - * Output an (unsigned) long in a 10 digit field without leading zeros. - * It returns a pointer to the first digit in the buffer. - */ -char *num_out(number) -long number; -{ - static char num_buf[11]; /* Buffer to build number */ - register long digit; /* Next digit of number */ - register long pow = 1000000000L; /* Highest ten power of long */ - FLAG digit_seen = FALSE; - int i; - - for (i = 0; i < 10; i++) { - digit = number / pow; /* Get next digit */ - if (digit == 0L && digit_seen == FALSE && i != 9) - num_buf[i] = ' '; - else { - num_buf[i] = '0' + (char) digit; - number -= digit * pow; /* Erase digit */ - digit_seen = TRUE; - } - pow /= 10L; /* Get next digit */ - } - for (i = 0; num_buf[i] == ' '; i++) /* Skip leading spaces */ - ; - return (&num_buf[i]); -} - -/* - * Get_number() read a number from the terminal. The last character typed in is - * returned. ERRORS is returned on a bad number. The resulting number is put - * into the integer the arguments points to. - */ -int get_number(message, result) -char *message; -int *result; -{ - register int index; - register int count = 0; - - status_line(message, NIL_PTR); - - index = getchar(); - if (quit == FALSE && (index < '0' || index > '9')) { - error("Bad count", NIL_PTR); - return ERRORS; - } - -/* Convert input to a decimal number */ - while (index >= '0' && index <= '9' && quit == FALSE) { - count *= 10; - count += index - '0'; - index = getchar(); - } - - if (quit == TRUE) { - clear_status(); - return ERRORS; - } - - *result = count; - return index; -} - -/* - * Input() reads a string from the terminal. When the KILL character is typed, - * it returns ERRORS. - */ -int input(inbuf, clearfl) -char *inbuf; -FLAG clearfl; -{ - register char *ptr; - register char c; /* Character read */ - - ptr = inbuf; - - *ptr = '\0'; - while (quit == FALSE) { - flush(); - switch (c = getchar()) { - case '\b' : /* Erase previous char */ - if (ptr > inbuf) { - ptr--; -#ifdef UNIX - tputs(SE, 0, _putchar); -#else - string_print(normal_video); -#endif /* UNIX */ - if (is_tab(*ptr)) - string_print(" \b\b\b \b\b"); - else - string_print(" \b\b \b"); -#ifdef UNIX - tputs(SO, 0, _putchar); -#else - string_print(rev_video); -#endif /* UNIX */ - string_print(" \b"); - *ptr = '\0'; - } - else - ring_bell(); - break; - case '\n' : /* End of input */ - /* If inbuf is empty clear status_line */ - return (ptr == inbuf && clearfl == TRUE) ? NO_INPUT :FINE; - default : /* Only read ASCII chars */ - if ((c >= ' ' && c <= '~') || c == '\t') { - *ptr++ = c; - *ptr = '\0'; - if (c == '\t') - string_print("^I"); - else - putchar(c); - string_print(" \b"); - } - else - ring_bell(); - } - } - quit = FALSE; - return ERRORS; -} - -/* - * Get_file() reads a filename from the terminal. Filenames longer than - * FILE_LENGHT chars are truncated. - */ -int get_file(message, file) -char *message, *file; -{ - char *ptr; - int ret; - - if (message == NIL_PTR || (ret = get_string(message, file, TRUE)) == FINE) { - if (length_of((ptr = basename(file))) > NAME_MAX) - ptr[NAME_MAX] = '\0'; - } - return ret; -} - -/* ======================================================================== * - * UNIX I/O Routines * - * ======================================================================== */ - -#ifdef UNIX -#undef putchar - -int _getchar() -{ - char c; - - if (read(input_fd, &c, 1) != 1 && quit == FALSE) - panic ("Cannot read 1 byte from input"); - return c & 0377; -} - -void _flush() -{ - (void) fflush(stdout); -} - -void _putchar(c) -char c; -{ - (void) write_char(STD_OUT, c); -} - -void get_term() -{ - static char termbuf[50]; - extern char *tgetstr(), *getenv(); - char *loc = termbuf; - char entry[1024]; - - if (tgetent(entry, getenv("TERM")) <= 0) { - printf("Unknown terminal.\n"); - exit(1); - } - - AL = tgetstr("al", &loc); - CE = tgetstr("ce", &loc); - VS = tgetstr("vs", &loc); - CL = tgetstr("cl", &loc); - SO = tgetstr("so", &loc); - SE = tgetstr("se", &loc); - CM = tgetstr("cm", &loc); - ymax = tgetnum("li") - 1; - screenmax = ymax - 1; - - if (!CE || !SO || !SE || !CL || !AL || !CM) { - printf("Sorry, no mined on this type of terminal\n"); - exit(1); - } -} -#endif /* UNIX */ diff --git a/release/picobsd/tinyware/mined/mined2.c b/release/picobsd/tinyware/mined/mined2.c deleted file mode 100644 index ecaffd7c1a5f..000000000000 --- a/release/picobsd/tinyware/mined/mined2.c +++ /dev/null @@ -1,1764 +0,0 @@ -/* - * Part 2 of the mined editor. - */ - -/* ======================================================================== * - * Move Commands * - * ======================================================================== */ - -#include "mined.h" -#include <string.h> - -/* - * Move one line up. - */ -void UP() -{ - if (y == 0) { /* Top line of screen. Scroll one line */ - (void) reverse_scroll(); - move_to(x, y); - } - else /* Move to previous line */ - move_to(x, y - 1); -} - -static char *help_string= -" Mined (Minix Editor), FreeBSD version.\n" -"------------------------+-------------------------------+---------------------\n" -" CURSOR MOTION | EDITING | MISC\n" -" Up | ^N Delete next word | ^E Erase & redraw\n" -" Down cursor keys | ^P Delete prev. word | screen\n" -" Left | ^T Delete to EOL | ^\\ Abort current\n" -" Right +-------------------------------+ operation\n" -" ^A start of line | BLOCKS | Esc repeat last\n" -" ^Z end of line | ^@ Set mark | cmd # times\n" -" ^^ screen top | ^K Delete mark <--> cursor | F2 file status\n" -" ^_ screen bottom | ^C Save mark <--> cursor +=====================\n" -" ^F word fwd. | ^Y Insert the contents of | ^X EXIT\n" -" ^B word back | the save file at cursor | ^S run shell\n" -"------------------------+ ^Q Insert the contents of +=====================\n" -" SCREEN MOTION | the save file into new | SEARCH & REPLACE\n" -" Home file top | file | F3 fwd. search\n" -" End file bottom +-------------------------------+ SF3 bck. search\n" -" PgUp page up | FILES | F4 Global replace\n" -" PgD page down | ^G Insert a file at cursor | SF4 Line replace\n" -" ^D rev. scroll | ^V Visit another file +---------------------\n" -" ^U fwd. scroll | ^W Write current file | F1 HELP\n" -" ^] goto line # | |\n" -"------------------------+-------------------------------+---------------------\n" -"Press any key to continue..."; -/* - * Help - */ -void HLP() -{ - char c; - - string_print(enter_string); - string_print(help_string); - flush(); - c=getchar(); - RD(); - return; -} - -/* - * Move one line down. - */ -void DN() -{ - if (y == last_y) { /* Last line of screen. Scroll one line */ - if (bot_line->next == tail && bot_line->text[0] != '\n') { - dummy_line(); /* Create new empty line */ - DN(); - return; - } - else { - (void) forward_scroll(); - move_to(x, y); - } - } - else /* Move to next line */ - move_to(x, y + 1); -} - -/* - * Move left one position. - */ -void LF() -{ - if (x == 0 && get_shift(cur_line->shift_count) == 0) {/* Begin of line */ - if (cur_line->prev != header) { - UP(); /* Move one line up */ - move_to(LINE_END, y); - } - } - else - move_to(x - 1, y); -} - -/* - * Move right one position. - */ -void RT() -{ - if (*cur_text == '\n') { - if (cur_line->next != tail) { /* Last char of file */ - DN(); /* Move one line down */ - move_to(LINE_START, y); - } - } - else - move_to(x + 1, y); -} - -/* - * Move to coordinates [0, 0] on screen. - */ -void HIGH() -{ - move_to(0, 0); -} - -/* - * Move to coordinates [0, YMAX] on screen. - */ -void LOW() -{ - move_to(0, last_y); -} - -/* - * Move to begin of line. - */ -void BL() -{ - move_to(LINE_START, y); -} - -/* - * Move to end of line. - */ -void EL() -{ - move_to(LINE_END, y); -} - -/* - * GOTO() prompts for a linenumber and moves to that line. - */ -void GOTO() -{ - int number; - LINE *line; - - if (get_number("Please enter line number.", &number) == ERRORS) - return; - - if (number <= 0 || (line = proceed(header->next, number - 1)) == tail) - error("Illegal line number: ", num_out((long) number)); - else - move_to(x, find_y(line)); -} - -/* - * Scroll forward one page or to eof, whatever comes first. (Bot_line becomes - * top_line of display.) Try to leave the cursor on the same line. If this is - * not possible, leave cursor on the line halfway the page. - */ -void PD() -{ - register int i; - - for (i = 0; i < screenmax; i++) - if (forward_scroll() == ERRORS) - break; /* EOF reached */ - if (y - i < 0) /* Line no longer on screen */ - move_to(0, screenmax >> 1); - else - move_to(0, y - i); -} - - -/* - * Scroll backwards one page or to top of file, whatever comes first. (Top_line - * becomes bot_line of display). The very bottom line (YMAX) is always blank. - * Try to leave the cursor on the same line. If this is not possible, leave - * cursor on the line halfway the page. - */ -void PU() -{ - register int i; - - for (i = 0; i < screenmax; i++) - if (reverse_scroll() == ERRORS) - break; /* Top of file reached */ - set_cursor(0, ymax); /* Erase very bottom line */ -#ifdef UNIX - tputs(CE, 0, _putchar); -#else - string_print(blank_line); -#endif /* UNIX */ - if (y + i > screenmax) /* line no longer on screen */ - move_to(0, screenmax >> 1); - else - move_to(0, y + i); -} - -/* - * Go to top of file, scrolling if possible, else redrawing screen. - */ -void HO() -{ - if (proceed(top_line, -screenmax) == header) - PU(); /* It fits. Let PU do it */ - else { - reset(header->next, 0);/* Reset top_line, etc. */ - RD(); /* Display full page */ - } - move_to(LINE_START, 0); -} - -/* - * Go to last line of file, scrolling if possible, else redrawing screen - */ -void EF() -{ - if (tail->prev->text[0] != '\n') - dummy_line(); - if (proceed(bot_line, screenmax) == tail) - PD(); /* It fits. Let PD do it */ - else { - reset(proceed(tail->prev, -screenmax), screenmax); - RD(); /* Display full page */ - } - move_to(LINE_START, last_y); -} - -/* - * Scroll one line up. Leave the cursor on the same line (if possible). - */ -void SU() -{ - if (top_line->prev == header) /* Top of file. Can't scroll */ - return; - - (void) reverse_scroll(); - set_cursor(0, ymax); /* Erase very bottom line */ -#ifdef UNIX - tputs(CE, 0, _putchar); -#else - string_print(blank_line); -#endif /* UNIX */ - move_to(x, (y == screenmax) ? screenmax : y + 1); -} - -/* - * Scroll one line down. Leave the cursor on the same line (if possible). - */ -void SD() -{ - if (forward_scroll() != ERRORS) - move_to(x, (y == 0) ? 0 : y - 1); - else - set_cursor(x, y); -} - -/* - * Perform a forward scroll. It returns ERRORS if we're at the last line of the - * file. - */ -int forward_scroll() -{ - if (bot_line->next == tail) /* Last line of file. No dice */ - return ERRORS; - top_line = top_line->next; - bot_line = bot_line->next; - cur_line = cur_line->next; - set_cursor(0, ymax); - line_print(bot_line); - - return FINE; -} - -/* - * Perform a backwards scroll. It returns ERRORS if we're at the first line - * of the file. - */ -int reverse_scroll() -{ - if (top_line->prev == header) - return ERRORS; /* Top of file. Can't scroll */ - - if (last_y != screenmax) /* Reset last_y if necessary */ - last_y++; - else - bot_line = bot_line->prev; /* Else adjust bot_line */ - top_line = top_line->prev; - cur_line = cur_line->prev; - -/* Perform the scroll */ - set_cursor(0, 0); -#ifdef UNIX - tputs(AL, 0, _putchar); -#else - string_print(rev_scroll); -#endif /* UNIX */ - set_cursor(0, 0); - line_print(top_line); - - return FINE; -} - -/* - * A word is defined as a number of non-blank characters separated by tabs - * spaces or linefeeds. - */ - -/* - * MP() moves to the start of the previous word. A word is defined as a - * number of non-blank characters separated by tabs spaces or linefeeds. - */ -void MP() -{ - move_previous_word(NO_DELETE); -} - -void move_previous_word(remove) -FLAG remove; -{ - register char *begin_line; - register char *textp; - char start_char = *cur_text; - char *start_pos = cur_text; - -/* Fist check if we're at the beginning of line. */ - if (cur_text == cur_line->text) { - if (cur_line->prev == header) - return; - start_char = '\0'; - } - - LF(); - - begin_line = cur_line->text; - textp = cur_text; - -/* Check if we're in the middle of a word. */ - if (!alpha(*textp) || !alpha(start_char)) { - while (textp != begin_line && (white_space(*textp) || *textp == '\n')) - textp--; - } - -/* Now we're at the end of previous word. Skip non-blanks until a blank comes */ - while (textp != begin_line && alpha(*textp)) - textp--; - -/* Go to the next char if we're not at the beginning of the line */ - if (textp != begin_line && *textp != '\n') - textp++; - -/* Find the x-coordinate of this address, and move to it */ - move_address(textp); - if (remove == DELETE) - delete(cur_line, textp, cur_line, start_pos); -} - -/* - * MN() moves to the start of the next word. A word is defined as a number of - * non-blank characters separated by tabs spaces or linefeeds. Always keep in - * mind that the pointer shouldn't pass the '\n'. - */ -void MN() -{ - move_next_word(NO_DELETE); -} - -void move_next_word(remove) -FLAG remove; -{ - register char *textp = cur_text; - -/* Move to the end of the current word. */ - while (*textp != '\n' && alpha(*textp)) - textp++; - -/* Skip all white spaces */ - while (*textp != '\n' && white_space(*textp)) - textp++; -/* If we're deleting. delete the text in between */ - if (remove == DELETE) { - delete(cur_line, cur_text, cur_line, textp); - return; - } - -/* If we're at end of line. move to the first word on the next line. */ - if (*textp == '\n' && cur_line->next != tail) { - DN(); - move_to(LINE_START, y); - textp = cur_text; - while (*textp != '\n' && white_space(*textp)) - textp++; - } - move_address(textp); -} - -/* ======================================================================== * - * Modify Commands * - * ======================================================================== */ - -/* - * DCC deletes the character under the cursor. If this character is a '\n' the - * current line is joined with the next one. - * If this character is the only character of the line, the current line will - * be deleted. - */ -void DCC() -{ - if (*cur_text == '\n') - delete(cur_line,cur_text, cur_line->next,cur_line->next->text); - else - delete(cur_line, cur_text, cur_line, cur_text + 1); -} - -/* - * DPC deletes the character on the left side of the cursor. If the cursor is - * at the beginning of the line, the last character if the previous line is - * deleted. - */ -void DPC() -{ - if (x == 0 && cur_line->prev == header) - return; /* Top of file */ - - LF(); /* Move one left */ - DCC(); /* Delete character under cursor */ -} - -/* - * DLN deletes all characters until the end of the line. If the current - * character is a '\n', then delete that char. - */ -void DLN() -{ - if (*cur_text == '\n') - DCC(); - else - delete(cur_line, cur_text, cur_line, cur_text + length_of(cur_text) -1); -} - -/* - * DNW() deletes the next word (as described in MN()) - */ -void DNW() -{ - if (*cur_text == '\n') - DCC(); - else - move_next_word(DELETE); -} - -/* - * DPW() deletes the next word (as described in MP()) - */ -void DPW() -{ - if (cur_text == cur_line->text) - DPC(); - else - move_previous_word(DELETE); -} - -/* - * Insert character `character' at current location. - */ -void S(character) -register char character; -{ - static char buffer[2]; - - buffer[0] = character; -/* Insert the character */ - if (insert(cur_line, cur_text, buffer) == ERRORS) - return; - -/* Fix screen */ - if (character == '\n') { - set_cursor(0, y); - if (y == screenmax) { /* Can't use display */ - line_print(cur_line); - (void) forward_scroll(); - } - else { - reset(top_line, y); /* Reset pointers */ - display(0, y, cur_line, last_y - y); - } - move_to(0, (y == screenmax) ? y : y + 1); - } - else if (x + 1 == XBREAK)/* If line must be shifted, just call move_to*/ - move_to(x + 1, y); - else { /* else display rest of line */ - put_line(cur_line, x, FALSE); - move_to(x + 1, y); - } -} - -/* - * CTL inserts a control-char at the current location. A message that this - * function is called is displayed at the status line. - */ -void CTL() -{ - register char ctrl; - - status_line("Enter control character.", NIL_PTR); - if ((ctrl = getchar()) >= '\01' && ctrl <= '\037') { - S(ctrl); /* Insert the char */ - clear_status(); - } - else - error ("Unknown control character", NIL_PTR); -} - -/* - * LIB insert a line at the current position and moves back to the end of - * the previous line. - */ -void LIB() -{ - S('\n'); /* Insert the line */ - UP(); /* Move one line up */ - move_to(LINE_END, y); /* Move to end of this line */ -} - -/* - * Line_insert() inserts a new line with text pointed to by `string'. - * It returns the address of the new line. - */ -LINE *line_insert(line, string, len) -register LINE *line; -char *string; -int len; -{ - register LINE *new_line; - -/* Allocate space for LINE structure and text */ - new_line = install_line(string, len); - -/* Install the line into the double linked list */ - new_line->prev = line; - new_line->next = line->next; - line->next = new_line; - new_line->next->prev = new_line; - -/* Increment nlines */ - nlines++; - - return new_line; -} - -/* - * Insert() insert the string `string' at the given line and location. - */ -int insert(line, location, string) -register LINE *line; -char *location, *string; -{ - register char *bufp = text_buffer; /* Buffer for building line */ - register char *textp = line->text; - - if (length_of(textp) + length_of(string) >= MAX_CHARS) { - error("Line too long", NIL_PTR); - return ERRORS; - } - - modified = TRUE; /* File has been modified */ - -/* Copy part of line until `location' has been reached */ - while (textp != location) - *bufp++ = *textp++; - -/* Insert string at this location */ - while (*string != '\0') - *bufp++ = *string++; - *bufp = '\0'; - - if (*(string - 1) == '\n') /* Insert a new line */ - (void) line_insert(line, location, length_of(location)); - else /* Append last part of line */ - copy_string(bufp, location); - -/* Install the new text in this line */ - free_space(line->text); - line->text = alloc(length_of(text_buffer) + 1); - copy_string(line->text, text_buffer); - - return FINE; -} - -/* - * Line_delete() deletes the argument line out of the line list. The pointer to - * the next line is returned. - */ -LINE *line_delete(line) -register LINE *line; -{ - register LINE *next_line = line->next; - -/* Delete the line */ - line->prev->next = line->next; - line->next->prev = line->prev; - -/* Free allocated space */ - free_space(line->text); - free_space((char*)line); - -/* Decrement nlines */ - nlines--; - - return next_line; -} - -/* - * Delete() deletes all the characters (including newlines) between the - * startposition and endposition and fixes the screen accordingly. It - * returns the number of lines deleted. - */ -void delete(start_line, start_textp, end_line, end_textp) -register LINE *start_line; -LINE *end_line; -char *start_textp, *end_textp; -{ - register char *textp = start_line->text; - register char *bufp = text_buffer; /* Storage for new line->text */ - LINE *line, *stop; - int line_cnt = 0; /* Nr of lines deleted */ - int count = 0; - int shift = 0; /* Used in shift calculation */ - int nx = x; - - modified = TRUE; /* File has been modified */ - -/* Set up new line. Copy first part of start line until start_position. */ - while (textp < start_textp) { - *bufp++ = *textp++; - count++; - } - -/* Check if line doesn't exceed MAX_CHARS */ - if (count + length_of(end_textp) >= MAX_CHARS) { - error("Line too long", NIL_PTR); - return; - } - -/* Copy last part of end_line if end_line is not tail */ - copy_string(bufp, (end_textp != NIL_PTR) ? end_textp : "\n"); - -/* Delete all lines between start and end_position (including end_line) */ - line = start_line->next; - stop = end_line->next; - while (line != stop && line != tail) { - line = line_delete(line); - line_cnt++; - } - -/* Check if last line of file should be deleted */ - if (end_textp == NIL_PTR && length_of(start_line->text) == 1 && nlines > 1) { - start_line = start_line->prev; - (void) line_delete(start_line->next); - line_cnt++; - } - else { /* Install new text */ - free_space(start_line->text); - start_line->text = alloc(length_of(text_buffer) + 1); - copy_string(start_line->text, text_buffer); - } - -/* Fix screen. First check if line is shifted. Perhaps we should shift it back*/ - if (get_shift(start_line->shift_count)) { - shift = (XBREAK - count_chars(start_line)) / SHIFT_SIZE; - if (shift > 0) { /* Shift line `shift' back */ - if (shift >= get_shift(start_line->shift_count)) - start_line->shift_count = 0; - else - start_line->shift_count -= shift; - nx += shift * SHIFT_SIZE;/* Reset x value */ - } - } - - if (line_cnt == 0) { /* Check if only one line changed */ - if (shift > 0) { /* Reprint whole line */ - set_cursor(0, y); - line_print(start_line); - } - else { /* Just display last part of line */ - set_cursor(x, y); - put_line(start_line, x, TRUE); - } - move_to(nx, y); /* Reset cur_text */ - return; - } - - shift = last_y; /* Save value */ - reset(top_line, y); - display(0, y, start_line, shift - y); - move_to((line_cnt == 1) ? nx : 0, y); -} - -/* ======================================================================== * - * Yank Commands * - * ======================================================================== */ - -LINE *mark_line; /* For marking position. */ -char *mark_text; -int lines_saved; /* Nr of lines in buffer */ - -/* - * PT() inserts the buffer at the current location. - */ -void PT() -{ - register int fd; /* File descriptor for buffer */ - - if ((fd = scratch_file(READ)) == ERRORS) - error("Buffer is empty.", NIL_PTR); - else { - file_insert(fd, FALSE);/* Insert the buffer */ - (void) close(fd); - } -} - -/* - * IF() prompt for a filename and inserts the file at the current location - * in the file. - */ -void IF() -{ - register int fd; /* File descriptor of file */ - char name[LINE_LEN]; /* Buffer for file name */ - -/* Get the file name */ - if (get_file("Get and insert file:", name) != FINE) - return; - - if ((fd = open(name, 0)) < 0) - error("Cannot open ", name); - else { - file_insert(fd, TRUE); /* Insert the file */ - (void) close(fd); - } -} - -/* - * File_insert() inserts a an opened file (as given by filedescriptor fd) - * at the current location. - */ -void file_insert(fd, old_pos) -int fd; -FLAG old_pos; -{ - char line_buffer[MAX_CHARS]; /* Buffer for next line */ - register LINE *line = cur_line; - register int line_count = nlines; /* Nr of lines inserted */ - LINE *page = cur_line; - int ret = ERRORS; - -/* Get the first piece of text (might be ended with a '\n') from fd */ - if (get_line(fd, line_buffer) == ERRORS) - return; /* Empty file */ - -/* Insert this text at the current location. */ - if (insert(line, cur_text, line_buffer) == ERRORS) - return; - -/* Repeat getting lines (and inserting lines) until EOF is reached */ - while ((ret = get_line(fd, line_buffer)) != ERRORS && ret != NO_LINE) - line = line_insert(line, line_buffer, ret); - - if (ret == NO_LINE) { /* Last line read not ended by a '\n' */ - line = line->next; - (void) insert(line, line->text, line_buffer); - } - -/* Calculate nr of lines added */ - line_count = nlines - line_count; - -/* Fix the screen */ - if (line_count == 0) { /* Only one line changed */ - set_cursor(0, y); - line_print(line); - move_to((old_pos == TRUE) ? x : x + length_of(line_buffer), y); - } - else { /* Several lines changed */ - reset(top_line, y); /* Reset pointers */ - while (page != line && page != bot_line->next) - page = page->next; - if (page != bot_line->next || old_pos == TRUE) - display(0, y, cur_line, screenmax - y); - if (old_pos == TRUE) - move_to(x, y); - else if (ret == NO_LINE) - move_to(length_of(line_buffer), find_y(line)); - else - move_to(0, find_y(line->next)); - } - -/* If nr of added line >= REPORT, print the count */ - if (line_count >= REPORT) - status_line(num_out((long) line_count), " lines added."); -} - -/* - * WB() writes the buffer (yank_file) into another file, which - * is prompted for. - */ -void WB() -{ - register int new_fd; /* Filedescriptor to copy file */ - int yank_fd; /* Filedescriptor to buffer */ - register int cnt; /* Count check for read/write */ - int ret = 0; /* Error check for write */ - char file[LINE_LEN]; /* Output file */ - -/* Checkout the buffer */ - if ((yank_fd = scratch_file(READ)) == ERRORS) { - error("Buffer is empty.", NIL_PTR); - return; - } - -/* Get file name */ - if (get_file("Write buffer to file:", file) != FINE) - return; - -/* Creat the new file */ - if ((new_fd = creat(file, 0644)) < 0) { - error("Cannot create ", file); - return; - } - - status_line("Writing ", file); - -/* Copy buffer into file */ - while ((cnt = read(yank_fd, text_buffer, sizeof(text_buffer))) > 0) - if (write(new_fd, text_buffer, cnt) != cnt) { - bad_write(new_fd); - ret = ERRORS; - break; - } - -/* Clean up open files and status_line */ - (void) close(new_fd); - (void) close(yank_fd); - - if (ret != ERRORS) /* Bad write */ - file_status("Wrote", chars_saved, file, lines_saved, TRUE, FALSE); -} - -/* - * MA sets mark_line (mark_text) to the current line (text pointer). - */ -void MA() -{ - mark_line = cur_line; - mark_text = cur_text; - status_line("Mark set", NIL_PTR); -} - -/* - * YA() puts the text between the marked position and the current - * in the buffer. - */ -void YA() -{ - set_up(NO_DELETE); -} - -/* - * DT() is essentially the same as YA(), but in DT() the text is deleted. - */ -void DT() -{ - set_up(DELETE); -} - -/* - * Set_up is an interface to the actual yank. It calls checkmark () to check - * if the marked position is still valid. If it is, yank is called with the - * arguments in the right order. - */ -void set_up(remove) -FLAG remove; /* DELETE if text should be deleted */ -{ - switch (checkmark()) { - case NOT_VALID : - error("Mark not set.", NIL_PTR); - return; - case SMALLER : - yank(mark_line, mark_text, cur_line, cur_text, remove); - break; - case BIGGER : - yank(cur_line, cur_text, mark_line, mark_text, remove); - break; - case SAME : /* Ignore stupid behaviour */ - yank_status = EMPTY; - chars_saved = 0L; - status_line("0 characters saved in buffer.", NIL_PTR); - break; - } -} - -/* - * Check_mark() checks if mark_line and mark_text are still valid pointers. If - * they are it returns SMALLER if the marked position is before the current, - * BIGGER if it isn't or SAME if somebody didn't get the point. - * NOT_VALID is returned when mark_line and/or mark_text are no longer valid. - * Legal() checks if mark_text is valid on the mark_line. - */ -FLAG checkmark() -{ - register LINE *line; - FLAG cur_seen = FALSE; - -/* Special case: check is mark_line and cur_line are the same. */ - if (mark_line == cur_line) { - if (mark_text == cur_text) /* Even same place */ - return SAME; - if (legal() == ERRORS) /* mark_text out of range */ - return NOT_VALID; - return (mark_text < cur_text) ? SMALLER : BIGGER; - } - -/* Start looking for mark_line in the line structure */ - for (line = header->next; line != tail; line = line->next) { - if (line == cur_line) - cur_seen = TRUE; - else if (line == mark_line) - break; - } - -/* If we found mark_line (line != tail) check for legality of mark_text */ - if (line == tail || legal() == ERRORS) - return NOT_VALID; - -/* cur_seen is TRUE if cur_line is before mark_line */ - return (cur_seen == TRUE) ? BIGGER : SMALLER; -} - -/* - * Legal() checks if mark_text is still a valid pointer. - */ -int legal() -{ - register char *textp = mark_line->text; - -/* Locate mark_text on mark_line */ - while (textp != mark_text && *textp++ != '\0') - ; - return (*textp == '\0') ? ERRORS : FINE; -} - -/* - * Yank puts all the text between start_position and end_position into - * the buffer. - * The caller must check that the arguments to yank() are valid. (E.g. in - * the right order) - */ -void yank(start_line, start_textp, end_line, end_textp, remove) -LINE *start_line, *end_line; -char *start_textp, *end_textp; -FLAG remove; /* DELETE if text should be deleted */ -{ - register LINE *line = start_line; - register char *textp = start_textp; - int fd; - -/* Creat file to hold buffer */ - if ((fd = scratch_file(WRITE)) == ERRORS) - return; - - chars_saved = 0L; - lines_saved = 0; - status_line("Saving text.", NIL_PTR); - -/* Keep writing chars until the end_location is reached. */ - while (textp != end_textp) { - if (write_char(fd, *textp) == ERRORS) { - (void) close(fd); - return; - } - if (*textp++ == '\n') { /* Move to the next line */ - line = line->next; - textp = line->text; - lines_saved++; - } - chars_saved++; - } - -/* Flush the I/O buffer and close file */ - if (flush_buffer(fd) == ERRORS) { - (void) close(fd); - return; - } - (void) close(fd); - yank_status = VALID; - -/* - * Check if the text should be deleted as well. If it should, the following - * hack is used to save a lot of code. First move back to the start_position. - * (This might be the location we're on now!) and them delete the text. - * It might be a bit confusing the first time somebody uses it. - * Delete() will fix the screen. - */ - if (remove == DELETE) { - move_to(find_x(start_line, start_textp), find_y(start_line)); - delete(start_line, start_textp, end_line, end_textp); - } - - status_line(num_out(chars_saved), " characters saved in buffer."); -} - -/* - * Scratch_file() creates a uniq file in /usr/tmp. If the file couldn't - * be created other combinations of files are tried until a maximum - * of MAXTRAILS times. After MAXTRAILS times, an error message is given - * and ERRORS is returned. - */ - -#define MAXTRAILS 26 - -int scratch_file(mode) -FLAG mode; /* Can be READ or WRITE permission */ -{ - static int trials = 0; /* Keep track of trails */ - register char *y_ptr, *n_ptr; - int fd; /* Filedescriptor to buffer */ - -/* If yank_status == NOT_VALID, scratch_file is called for the first time */ - if (yank_status == NOT_VALID && mode == WRITE) { /* Create new file */ - /* Generate file name. */ - y_ptr = &yank_file[11]; - n_ptr = num_out((long) getpid()); - while ((*y_ptr = *n_ptr++) != '\0') - y_ptr++; - *y_ptr++ = 'a' + trials; - *y_ptr = '\0'; - /* Check file existence */ - if (access(yank_file, 0) == 0 || (fd = creat(yank_file, 0644)) < 0) { - if (trials++ >= MAXTRAILS) { - error("Unable to creat scratchfile.", NIL_PTR); - return ERRORS; - } - else - return scratch_file(mode);/* Have another go */ - } - } - else if ((mode == READ && (fd = open(yank_file, 0)) < 0) || - (mode == WRITE && (fd = creat(yank_file, 0644)) < 0)) { - yank_status = NOT_VALID; - return ERRORS; - } - - clear_buffer(); - return fd; -} - -/* ======================================================================== * - * Search Routines * - * ======================================================================== */ - -/* - * A regular expression consists of a sequence of: - * 1. A normal character matching that character. - * 2. A . matching any character. - * 3. A ^ matching the begin of a line. - * 4. A $ (as last character of the pattern) mathing the end of a line. - * 5. A \<character> matching <character>. - * 6. A number of characters enclosed in [] pairs matching any of these - * characters. A list of characters can be indicated by a '-'. So - * [a-z] matches any letter of the alphabet. If the first character - * after the '[' is a '^' then the set is negated (matching none of - * the characters). - * A ']', '^' or '-' can be escaped by putting a '\' in front of it. - * 7. If one of the expressions as described in 1-6 is followed by a - * '*' than that expressions matches a sequence of 0 or more of - * that expression. - */ - -char typed_expression[LINE_LEN]; /* Holds previous expr. */ - -/* - * SF searches forward for an expression. - */ -void SF() -{ - search("Search forward:", FORWARD); -} - -/* - * SF searches backwards for an expression. - */ -void SR() -{ - search("Search reverse:", REVERSE); -} - -/* - * Get_expression() prompts for an expression. If just a return is typed, the - * old expression is used. If the expression changed, compile() is called and - * the returning REGEX structure is returned. It returns NIL_REG upon error. - * The save flag indicates whether the expression should be appended at the - * message pointer. - */ -REGEX *get_expression(message) -char *message; -{ - static REGEX program; /* Program of expression */ - char exp_buf[LINE_LEN]; /* Buffer for new expr. */ - - if (get_string(message, exp_buf, FALSE) == ERRORS) - return NIL_REG; - - if (exp_buf[0] == '\0' && typed_expression[0] == '\0') { - error("No previous expression.", NIL_PTR); - return NIL_REG; - } - - if (exp_buf[0] != '\0') { /* A new expr. is typed */ - copy_string(typed_expression, exp_buf);/* Save expr. */ - compile(exp_buf, &program); /* Compile new expression */ - } - - if (program.status == REG_ERROR) { /* Error during compiling */ - error(program.result.err_mess, NIL_PTR); - return NIL_REG; - } - return &program; -} - -/* - * GR() a replaces all matches from the current position until the end - * of the file. - */ -void GR() -{ - change("Global replace:", VALID); -} - -/* - * LR() replaces all matches on the current line. - */ -void LR() -{ - change("Line replace:", NOT_VALID); -} - -/* - * Change() prompts for an expression and a substitution pattern and changes - * all matches of the expression into the substitution. change() start looking - * for expressions at the current line and continues until the end of the file - * if the FLAG file is VALID. - */ -void change(message, file) -char *message; /* Message to prompt for expression */ -FLAG file; -{ - char mess_buf[LINE_LEN]; /* Buffer to hold message */ - char replacement[LINE_LEN]; /* Buffer to hold subst. pattern */ - REGEX *program; /* Program resulting from compilation */ - register LINE *line = cur_line; - register char *textp; - long lines = 0L; /* Nr of lines on which subs occurred */ - long subs = 0L; /* Nr of subs made */ - int page = y; /* Index to check if line is on screen*/ - -/* Save message and get expression */ - copy_string(mess_buf, message); - if ((program = get_expression(mess_buf)) == NIL_REG) - return; - -/* Get substitution pattern */ - build_string(mess_buf, "%s %s by:", mess_buf, typed_expression); - if (get_string(mess_buf, replacement, FALSE) == ERRORS) - return; - - set_cursor(0, ymax); - flush(); -/* Substitute until end of file */ - do { - if (line_check(program, line->text, FORWARD)) { - lines++; - /* Repeat sub. on this line as long as we find a match*/ - do { - subs++; /* Increment subs */ - if ((textp = substitute(line, program,replacement)) - == NIL_PTR) - return; /* Line too long */ - } while ((program->status & BEGIN_LINE) != BEGIN_LINE && - (program->status & END_LINE) != END_LINE && - line_check(program, textp, FORWARD)); - /* Check to see if we can print the result */ - if (page <= screenmax) { - set_cursor(0, page); - line_print(line); - } - } - if (page <= screenmax) - page++; - line = line->next; - } while (line != tail && file == VALID && quit == FALSE); - - copy_string(mess_buf, (quit == TRUE) ? "(Aborted) " : ""); -/* Fix the status line */ - if (subs == 0L && quit == FALSE) - error("Pattern not found.", NIL_PTR); - else if (lines >= REPORT || quit == TRUE) { - build_string(mess_buf, "%s %D substitutions on %D lines.", mess_buf, - subs, lines); - status_line(mess_buf, NIL_PTR); - } - else if (file == NOT_VALID && subs >= REPORT) - status_line(num_out(subs), " substitutions."); - else - clear_status(); - move_to (x, y); -} - -/* - * Substitute() replaces the match on this line by the substitute pattern - * as indicated by the program. Every '&' in the replacement is replaced by - * the original match. A \ in the replacement escapes the next character. - */ -char *substitute(line, program, replacement) -LINE *line; -REGEX *program; -char *replacement; /* Contains replacement pattern */ -{ - register char *textp = text_buffer; - register char *subp = replacement; - char *linep = line->text; - char *amp; - - modified = TRUE; - -/* Copy part of line until the beginning of the match */ - while (linep != program->start_ptr) - *textp++ = *linep++; - -/* - * Replace the match by the substitution pattern. Each occurrence of '&' is - * replaced by the original match. A \ escapes the next character. - */ - while (*subp != '\0' && textp < &text_buffer[MAX_CHARS]) { - if (*subp == '&') { /* Replace the original match */ - amp = program->start_ptr; - while (amp < program->end_ptr && textp<&text_buffer[MAX_CHARS]) - *textp++ = *amp++; - subp++; - } - else { - if (*subp == '\\' && *(subp + 1) != '\0') - subp++; - *textp++ = *subp++; - } - } - -/* Check for line length not exceeding MAX_CHARS */ - if (length_of(text_buffer) + length_of(program->end_ptr) >= MAX_CHARS) { - error("Substitution result: line too big", NIL_PTR); - return NIL_PTR; - } - -/* Append last part of line to the new build line */ - copy_string(textp, program->end_ptr); - -/* Free old line and install new one */ - free_space(line->text); - line->text = alloc(length_of(text_buffer) + 1); - copy_string(line->text, text_buffer); - - return(line->text + (textp - text_buffer)); -} - -/* - * Search() calls get_expression to fetch the expression. If this went well, - * the function match() is called which returns the line with the next match. - * If this line is the NIL_LINE, it means that a match could not be found. - * Find_x() and find_y() display the right page on the screen, and return - * the right coordinates for x and y. These coordinates are passed to move_to() - */ -void search(message, method) -char *message; -FLAG method; -{ - register REGEX *program; - register LINE *match_line; - -/* Get the expression */ - if ((program = get_expression(message)) == NIL_REG) - return; - - set_cursor(0, ymax); - flush(); -/* Find the match */ - if ((match_line = match(program, cur_text, method)) == NIL_LINE) { - if (quit == TRUE) - status_line("Aborted", NIL_PTR); - else - status_line("Pattern not found.", NIL_PTR); - return; - } - - move(0, program->start_ptr, find_y(match_line)); - clear_status(); -} - -/* - * find_y() checks if the matched line is on the current page. If it is, it - * returns the new y coordinate, else it displays the correct page with the - * matched line in the middle and returns the new y value; - */ -int find_y(match_line) -LINE *match_line; -{ - register LINE *line; - register int count = 0; - -/* Check if match_line is on the same page as currently displayed. */ - for (line = top_line; line != match_line && line != bot_line->next; - line = line->next) - count++; - if (line != bot_line->next) - return count; - -/* Display new page, with match_line in center. */ - if ((line = proceed(match_line, -(screenmax >> 1))) == header) { - /* Can't display in the middle. Make first line of file top_line */ - count = 0; - for (line = header->next; line != match_line; line = line->next) - count++; - line = header->next; - } - else /* New page is displayed. Set cursor to middle of page */ - count = screenmax >> 1; - -/* Reset pointers and redraw the screen */ - reset(line, 0); - RD(); - - return count; -} - -/* Opcodes for characters */ -#define NORMAL 0x0200 -#define DOT 0x0400 -#define EOLN 0x0800 -#define STAR 0x1000 -#define BRACKET 0x2000 -#define NEGATE 0x0100 -#define DONE 0x4000 - -/* Mask for opcodes and characters */ -#define LOW_BYTE 0x00FF -#define HIGH_BYTE 0xFF00 - -/* Previous is the contents of the previous address (ptr) points to */ -#define previous(ptr) (*((ptr) - 1)) - -/* Buffer to store outcome of compilation */ -int exp_buffer[BLOCK_SIZE]; - -/* Errors often used */ -char *too_long = "Regular expression too long"; - -/* - * Reg_error() is called by compile() is something went wrong. It set the - * status of the structure to error, and assigns the error field of the union. - */ -#define reg_error(str) program->status = REG_ERROR, \ - program->result.err_mess = (str) -/* - * Finished() is called when everything went right during compilation. It - * allocates space for the expression, and copies the expression buffer into - * this field. - */ -void finished(program, last_exp) -register REGEX *program; -int *last_exp; -{ - register int length = (last_exp - exp_buffer) * sizeof(int); - -/* Allocate space */ - program->result.expression = (int *) alloc(length); -/* Copy expression. (expression consists of ints!) */ - bcopy(exp_buffer, program->result.expression, length); -} - -/* - * Compile compiles the pattern into a more comprehensible form and returns a - * REGEX structure. If something went wrong, the status field of the structure - * is set to REG_ERROR and an error message is set into the err_mess field of - * the union. If all went well the expression is saved and the expression - * pointer is set to the saved (and compiled) expression. - */ -void compile(pattern, program) -register char *pattern; /* Pointer to pattern */ -REGEX *program; -{ - register int *expression = exp_buffer; - int *prev_char; /* Pointer to previous compiled atom */ - int *acct_field; /* Pointer to last BRACKET start */ - FLAG negate; /* Negate flag for BRACKET */ - char low_char; /* Index for chars in BRACKET */ - char c; - -/* Check for begin of line */ - if (*pattern == '^') { - program->status = BEGIN_LINE; - pattern++; - } - else { - program->status = 0; -/* If the first character is a '*' we have to assign it here. */ - if (*pattern == '*') { - *expression++ = '*' + NORMAL; - pattern++; - } - } - - for (; ;) { - switch (c = *pattern++) { - case '.' : - *expression++ = DOT; - break; - case '$' : - /* - * Only means EOLN if it is the last char of the pattern - */ - if (*pattern == '\0') { - *expression++ = EOLN | DONE; - program->status |= END_LINE; - finished(program, expression); - return; - } - else - *expression++ = NORMAL + '$'; - break; - case '\0' : - *expression++ = DONE; - finished(program, expression); - return; - case '\\' : - /* If last char, it must! mean a normal '\' */ - if (*pattern == '\0') - *expression++ = NORMAL + '\\'; - else - *expression++ = NORMAL + *pattern++; - break; - case '*' : - /* - * If the previous expression was a [] find out the - * begin of the list, and adjust the opcode. - */ - prev_char = expression - 1; - if (*prev_char & BRACKET) - *(expression - (*acct_field & LOW_BYTE))|= STAR; - else - *prev_char |= STAR; - break; - case '[' : - /* - * First field in expression gives information about - * the list. - * The opcode consists of BRACKET and if necessary - * NEGATE to indicate that the list should be negated - * and/or STAR to indicate a number of sequence of this - * list. - * The lower byte contains the length of the list. - */ - acct_field = expression++; - if (*pattern == '^') { /* List must be negated */ - pattern++; - negate = TRUE; - } - else - negate = FALSE; - while (*pattern != ']') { - if (*pattern == '\0') { - reg_error("Missing ]"); - return; - } - if (*pattern == '\\') - pattern++; - *expression++ = *pattern++; - if (*pattern == '-') { - /* Make list of chars */ - low_char = previous(pattern); - pattern++; /* Skip '-' */ - if (low_char++ > *pattern) { - reg_error("Bad range in [a-z]"); - return; - } - /* Build list */ - while (low_char <= *pattern) - *expression++ = low_char++; - pattern++; - } - if (expression >= &exp_buffer[BLOCK_SIZE]) { - reg_error(too_long); - return; - } - } - pattern++; /* Skip ']' */ - /* Assign length of list in acct field */ - if ((*acct_field = (expression - acct_field)) == 1) { - reg_error("Empty []"); - return; - } - /* Assign negate and bracket field */ - *acct_field |= BRACKET; - if (negate == TRUE) - *acct_field |= NEGATE; - /* - * Add BRACKET to opcode of last char in field because - * a '*' may be following the list. - */ - previous(expression) |= BRACKET; - break; - default : - *expression++ = c + NORMAL; - } - if (expression == &exp_buffer[BLOCK_SIZE]) { - reg_error(too_long); - return; - } - } - /* NOTREACHED */ -} - -/* - * Match gets as argument the program, pointer to place in current line to - * start from and the method to search for (either FORWARD or REVERSE). - * Match() will look through the whole file until a match is found. - * NIL_LINE is returned if no match could be found. - */ -LINE *match(program, string, method) -REGEX *program; -char *string; -register FLAG method; -{ - register LINE *line = cur_line; - char old_char; /* For saving chars */ - -/* Corrupted program */ - if (program->status == REG_ERROR) - return NIL_LINE; - -/* Check part of text first */ - if (!(program->status & BEGIN_LINE)) { - if (method == FORWARD) { - if (line_check(program, string + 1, method) == MATCH) - return cur_line; /* Match found */ - } - else if (!(program->status & END_LINE)) { - old_char = *string; /* Save char and */ - *string = '\n'; /* Assign '\n' for line_check */ - if (line_check(program, line->text, method) == MATCH) { - *string = old_char; /* Restore char */ - return cur_line; /* Found match */ - } - *string = old_char; /* No match, but restore char */ - } - } - -/* No match in last (or first) part of line. Check out rest of file */ - do { - line = (method == FORWARD) ? line->next : line->prev; - if (line->text == NIL_PTR) /* Header/tail */ - continue; - if (line_check(program, line->text, method) == MATCH) - return line; - } while (line != cur_line && quit == FALSE); - -/* No match found. */ - return NIL_LINE; -} - -/* - * Line_check() checks the line (or rather string) for a match. Method - * indicates FORWARD or REVERSE search. It scans through the whole string - * until a match is found, or the end of the string is reached. - */ -int line_check(program, string, method) -register REGEX *program; -char *string; -FLAG method; -{ - register char *textp = string; - -/* Assign start_ptr field. We might find a match right away! */ - program->start_ptr = textp; - -/* If the match must be anchored, just check the string. */ - if (program->status & BEGIN_LINE) - return check_string(program, string, NIL_INT); - - if (method == REVERSE) { - /* First move to the end of the string */ - for (textp = string; *textp != '\n'; textp++) - ; - /* Start checking string until the begin of the string is met */ - while (textp >= string) { - program->start_ptr = textp; - if (check_string(program, textp--, NIL_INT)) - return MATCH; - } - } - else { - /* Move through the string until the end of is found */ - while (quit == FALSE && *textp != '\0') { - program->start_ptr = textp; - if (check_string(program, textp, NIL_INT)) - return MATCH; - if (*textp == '\n') - break; - textp++; - } - } - - return NO_MATCH; -} - -/* - * Check() checks of a match can be found in the given string. Whenever a STAR - * is found during matching, then the begin position of the string is marked - * and the maximum number of matches is performed. Then the function star() - * is called which starts to finish the match from this position of the string - * (and expression). Check() return MATCH for a match, NO_MATCH is the string - * couldn't be matched or REG_ERROR for an illegal opcode in expression. - */ -int check_string(program, string, expression) -REGEX *program; -register char *string; -int *expression; -{ - register int opcode; /* Holds opcode of next expr. atom */ - char c; /* Char that must be matched */ - char *mark; /* For marking position */ - int star_fl; /* A star has been born */ - - if (expression == NIL_INT) - expression = program->result.expression; - -/* Loop until end of string or end of expression */ - while (quit == FALSE && !(*expression & DONE) && - *string != '\0' && *string != '\n') { - c = *expression & LOW_BYTE; /* Extract match char */ - opcode = *expression & HIGH_BYTE; /* Extract opcode */ - if (star_fl = (opcode & STAR)) { /* Check star occurrence */ - opcode &= ~STAR; /* Strip opcode */ - mark = string; /* Mark current position */ - } - expression++; /* Increment expr. */ - switch (opcode) { - case NORMAL : - if (star_fl) - while (*string++ == c) /* Skip all matches */ - ; - else if (*string++ != c) - return NO_MATCH; - break; - case DOT : - string++; - if (star_fl) /* Skip to eoln */ - while (*string != '\0' && *string++ != '\n') - ; - break; - case NEGATE | BRACKET: - case BRACKET : - if (star_fl) - while (in_list(expression, *string++, c, opcode) - == MATCH) - ; - else if (in_list(expression, *string++, c, opcode) == NO_MATCH) - return NO_MATCH; - expression += c - 1; /* Add length of list */ - break; - default : - panic("Corrupted program in check_string()"); - } - if (star_fl) - return star(program, mark, string, expression); - } - if (*expression & DONE) { - program->end_ptr = string; /* Match ends here */ - /* - * We might have found a match. The last thing to do is check - * whether a '$' was given at the end of the expression, or - * the match was found on a null string. (E.g. [a-z]* always - * matches) unless a ^ or $ was included in the pattern. - */ - if ((*expression & EOLN) && *string != '\n' && *string != '\0') - return NO_MATCH; - if (string == program->start_ptr && !(program->status & BEGIN_LINE) - && !(*expression & EOLN)) - return NO_MATCH; - return MATCH; - } - return NO_MATCH; -} - -/* - * Star() calls check_string() to find out the longest match possible. - * It searches backwards until the (in check_string()) marked position - * is reached, or a match is found. - */ -int star(program, end_position, string, expression) -REGEX *program; -register char *end_position; -register char *string; -int *expression; -{ - do { - string--; - if (check_string(program, string, expression)) - return MATCH; - } while (string != end_position); - - return NO_MATCH; -} - -/* - * In_list() checks if the given character is in the list of []. If it is - * it returns MATCH. if it isn't it returns NO_MATCH. These returns values - * are reversed when the NEGATE field in the opcode is present. - */ -int in_list(list, c, list_length, opcode) -register int *list; -char c; -register int list_length; -int opcode; -{ - if (c == '\0' || c == '\n') /* End of string, never matches */ - return NO_MATCH; - while (list_length-- > 1) { /* > 1, don't check acct_field */ - if ((*list & LOW_BYTE) == c) - return (opcode & NEGATE) ? NO_MATCH : MATCH; - list++; - } - return (opcode & NEGATE) ? MATCH : NO_MATCH; -} - -/* - * Dummy_line() adds an empty line at the end of the file. This is sometimes - * useful in combination with the EF and DN command in combination with the - * Yank command set. - */ -void dummy_line() -{ - (void) line_insert(tail->prev, "\n", 1); - tail->prev->shift_count = DUMMY; - if (last_y != screenmax) { - last_y++; - bot_line = bot_line->next; - } -} diff --git a/release/picobsd/tinyware/msh/LICENSE b/release/picobsd/tinyware/msh/LICENSE deleted file mode 100644 index 78e3b6939167..000000000000 --- a/release/picobsd/tinyware/msh/LICENSE +++ /dev/null @@ -1,77 +0,0 @@ - LICENSE AGREEMENT AND LIMITED WARRANTY - - READ THE FOLLOWING TERMS AND CONDITIONS CAREFULLY BEFORE YOU - PROCEED. THIS LEGAL DOCUMENT IS AN AGREEMENT BETWEEN YOU AND - PRENTICE-HALL, INC. (THE "COMPANY"). BY ACCESSING THE SOFTWARE, YOU - ARE AGREEING TO BE BOUND BY THESE TERMS AND CONDITIONS. IF YOU DO - NOT AGREE WITH THESE TERMS AND CONDITIONS, DO NOT ACCESS TO SOFTWARE - AND ALL ACCOMPANYING ITEMS. - - 1. GRANT OF LICENSE: - In consideration of your agreement to abide by the terms and - conditions of this Agreement, the Company grants to you a - nonexclusive right to use, display and modify the Software being - transmitted to you (hereinafter "the Software") for educational and - research purposes and to include such Software as part of another - computer program (i) for use by you; or (ii) for use by third - parties, provided that copies to those third parties are distributed - for educational or research purposes free of direct or indirect - charges. If you wish to otherwise use or distribute the Software, - you must enter into a separate agreement with the Company. To do so, - please contact the person designated below. - - This license shall continue in effect so long as you comply with the - terms of this Agreement and will automatically terminate if you fail - to comply. The Company is and shall remain the copyright owner of - the Software and reserves all rights not expressly granted to you - under this Agreement. All provisions of this Agreement as to - warranties, limitation of liability, remedies or damages and - ownership rights shall survive termination. - - 2. MISCELLANEOUS: - This Agreement shall be construed in accordance with the laws of the - United States of America and the State of New York and shall benefit - the Company, its affiliates and assignees. - - 3. LIMITED WARRANTY AND DISCLAIMER OF WARRANTY: - Because this Software is being given to you without charge, the - Company makes no warranties about the SOFTWARE, which is provided - "AS-IS." THE COMPANY DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, - INCLUDING WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF - MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE COMPANY - DOES NOT WARRANT, GUARANTEE OR MAKE ANY REPRESENTATION REGARDING THE - USE OR THE RESULTS OF THE USE OF THE SOFTWARE. IN NO EVENT SHALL - THE COMPANY OR ITS EMPLOYEES, AGENTS, SUPPLIERS OR CONTRACTORS BE - LIABLE FOR ANY INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL - DAMAGES ARISING OUT OF OR IN CONNECTION WITH THE LICENSE GRANTED - UNDER THIS AGREEMENT INCLUDING, WITHOUT LIMITATION, LOSS OF USE, - LOSS OF DATA, LOSS OF INCOME OR PROFIT, OR OTHER LOSSES SUSTAINED AS - A RESULT OF INJURY TO ANY PERSON, OR LOSS OF OR DAMAGE TO PROPERTY, - OR CLAIMS OF THIRD PARTIES, EVEN IF THE COMPANY OR AN AUTHORIZED - REPRESENTATIVE OF THE COMPANY HAS BEEN ADVISED OF THE POSSIBILITY OF - SUCH DAMAGES. - - SOME JURISDICTIONS DO NOT ALLOW THE LIMITATION OF IMPLIED WARRANTIES - OR LIABILITY FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL - DAMAGES, SO THE ABOVE LIMITATIONS MAY NOT ALWAYS APPLY. YOU MAY HAVE - RIGHTS WHICH VARY IN ACCORDANCE WITH LOCAL LAW. - - - ACKNOWLEDGMENT - - YOU ACKNOWLEDGE THAT YOU HAVE READ THIS AGREEMENT, UNDERSTAND IT AND - AGREE TO BE BOUND BY ITS TERMS AND CONDITIONS. YOU ALSO AGREE THAT - THIS AGREEMENT IS THE COMPLETE AND EXCLUSIVE STATEMENT OF THE - AGREEMENT BETWEEN YOU AND THE COMPANY AND SUPERSEDES ALL PROPOSALS - OR PRIOR AGREEMENTS, ORAL OR WRITTEN, AND ANY OTHER COMMUNICATIONS - BETWEEN YOU AND THE COMPANY OR ANY REPRESENTATIVE OF THE COMPANY - RELATING TO THE SUBJECT MATTER OF THIS AGREEMENT. - - Should you have any questions concerning this agreement or if you - wish to contact the Company for any reason, please contact - - Alan Apt (alan_apt@prenhall.com) - Prentice Hall - 2629 Redwing Rd. - Suite #260 - Ft.Collins,CO 80526 diff --git a/release/picobsd/tinyware/msh/Makefile b/release/picobsd/tinyware/msh/Makefile deleted file mode 100644 index 26137d56068a..000000000000 --- a/release/picobsd/tinyware/msh/Makefile +++ /dev/null @@ -1,16 +0,0 @@ -# Makefile for sh - -CFLAGS = -O2 #-D_POSIX_SOURCE -LDFLAGS = -static - -OBJ = sh1.o sh2.o sh3.o sh4.o sh5.o sh6.o - -all: sh - -sh: $(OBJ) - cc $(LDFLAGS) -o $@ $(OBJ) - -$(OBJ): sh.h - -clean: - rm -f sh *.o *.bak core diff --git a/release/picobsd/tinyware/msh/README b/release/picobsd/tinyware/msh/README deleted file mode 100644 index cbc91944c9ea..000000000000 --- a/release/picobsd/tinyware/msh/README +++ /dev/null @@ -1,16 +0,0 @@ -Warsaw, 1998.10.21 - -This is a port of Minix /bin/sh shell. - -It's quite limited, but also quite small. One of most serious -limitations is lack of support for user-defined functions. Also, -globbing should be implemented with our glob(3) - the version in -sh4.c is rather primitive. - -This is a copyrighted software - see the file LICENSE. In short, -it allows you to use it for research and educational purposes only. - -Andrzej Bialecki -<abial@FreeBSD.org> - -$Id: README,v 1.1 1998/10/21 17:36:28 abial Exp $ diff --git a/release/picobsd/tinyware/msh/sh.1 b/release/picobsd/tinyware/msh/sh.1 deleted file mode 100644 index f19bce02cb7a..000000000000 --- a/release/picobsd/tinyware/msh/sh.1 +++ /dev/null @@ -1,261 +0,0 @@ -.TH SH 1 -.SH NAME -sh, ., break, case, cd, continue, eval, exec, exit, export, for, if, read, readonly, set, shift, trap, umask, wait, while \- shell -.SH SYNOPSIS -\fBsh\fR [\fB\-eiknqstvxu\fR] [\fB\-c \fIstr\fR] \fB[\fIfile\fR]\fR -.br -.de FL -.TP -\\fB\\$1\\fR -\\$2 -.. -.de EX -.TP 20 -\\fB\\$1\\fR -# \\$2 -.. -.SH OPTIONS -.FL "\-c" "Execute the commands in \fIstr\fR" -.FL "\-e" "Quit on error" -.FL "\-i" "Interactive mode; ignore QUIT, TERMINATE, INTERRUPT" -.FL "\-k" "Look for name=value everywhere on command line" -.FL "\-n" "Do not execute commands" -.FL "\-q" "Change qflag from sig_ign to sig_del" -.FL "\-s" "Read commands from standard input" -.FL "\-t" "Exit after reading and executing one command" -.FL "\-v" "Echo input lines as they are read" -.FL "\-x" "Trace" -.FL "\-u" "Unset variables" -.SH EXAMPLES -.EX "sh script" "Run a shell script" -.SH DESCRIPTION -.PP -.I Sh -is the shell, which forms the user's main interface with the system. -On startup, the shell reads /etc/profile and $HOME/.profile, if they exist, -and executes any commands they contain. The Minix shell has most of the -features of the V7 (Bourne) shell, including redirection of input and output, -pipes, magic characters, background processes, and shell scripts. A brief -summary follows, but whole books have been written on shell programming alone. -.LP -Some of the more common notations are: -.PP -.in +2.45i -.ta 2i 2.2i -.ti -2.2i -date # Regular command -.ti -2.2i -sort <file # Redirect \fIstdin\fR (standard input) -.ti -2.2i -sort <file1 >file2 # Redirect \fIstdin\fR and \fIstdout\fR -.ti -2.2i -cc file.c 2>error # Redirect \fIstderr\fR -.ti -2.2i -a.out >f 2>&1 # Combine standard output and standard error -.ti -2.2i -sort <file1 >>file2 # Append output to \fIfile2\fR -.ti -2.2i -sort <file1 >file2 & # Background job -.ti -2.2i -(ls \-l; a.out) & # Run two background commands sequentially -.ti -2.2i -sort <file | wc # Two-process pipeline -.ti -2.2i -sort <f | uniq | wc # Three-process pipeline -.ti -2.2i -ls \-l *.c # List all files ending in \fI.c\fR -.ti -2.2i -ls \-l [\fIa-c\fR]* # List all files beginning with \fIa\fR, \fIb\fR, or \fIc\fR -.ti -2.2i -ls \-l ? # List all one-character file names -.ti -2.2i -ls \e? # List the file whose name is question mark -.ti -2.2i -ls \(fm???\(fm # List the file whose name is three question marks -.ti -2.2i -v=/usr/ast # Set shell variable \fIv\fR -.ti -2.2i -ls \-l $v # Use shell variable \fIv\fR -.ti -2.2i -PS1=\(fmHi! \(fm # Change the primary prompt to \fIHi!\fR -.ti -2.2i -PS2=\(fmMore: \(fm # Change the secondary prompt to \fIMore:\fR -.ti -2.2i -ls \-l $HOME # List the home directory -.ti -2.2i -echo $PATH # Echo the search path -.ti -2.2i -echo $? # Echo exit status of previous command in decimal -.ti -2.2i -echo $$ # Echo shell's pid in decimal -.ti -2.2i -echo $! # Echo PID of last background process -.ti -2.2i -echo $# # Echo number of parameters (shell script) -.ti -2.2i -echo $2 # Echo second parameter (shell script) -.ti -2.2i -echo "$2" # Echo second parameter without expanding spaces -.ti -2.2i -echo $* # Echo all parameters (shell script) -.ti -2.2i -echo $@ # Echo all parameters (shell script) -.ti -2.2i -echo "$@" # Echo all parameters without expanding spaces -.in -2.45i -.LP -The shell uses the following variables for specific purposes: -.PP -.in +2.25i -.ta 2i -.ti -2i -SHELL the path of the current shell -.ti -2i -HOME the default value for the cd(1) command -.ti -2i -PATH the directories to be searched to find commands -.ti -2i -IFS the internal field separators for command strings -.ti -2i -PS1 the primary shell prompt -.ti -2i -PS2 the secondary shell prompt -.in -2.25i -.LP -There are various forms of substitution on the shell command line: -.PP -.in +2.25i -.ta 2i -.ti -2i -`...` Command string between back-quotes is replaced by its output -.ti -2i -"..." Permits variable substitution between quotes -.ti -2i -\&'...' Inhibits variable substitution between quotes -.ti -2i -$VAR Replaced by contents of variable VAR -.ti -2i -${VAR} Delimits variable VAR from any following string -.in -2.25i -.LP -The expressions below depend on whether or not VAR has ever been set. -If VAR has been set, they give: -.PP -.in +2.25i -.ta 2i -.ti -2i -${VAR-str} Replace expression by VAR, else by str -.ti -2i -${VAR=str} Replace expression by VAR, else by str and set VAR to str -.ti -2i -${VAR?str} Replace expression by VAR, else print str and exit shell -.ti -2i -${VAR+str} Replace expression by str, else by null string -.in -2.25i -.LP -If a colon is placed after VAR, the expressions depend on whether or not -VAR is currently set and non-null. -.LP -The shell has a number of built-in commands: -.PP -.in +2.25i -.ta 2i -.ti -2i -: return true status -.ti -2i -\&. fn execute shell script fn on current path -.ti -2i -break [n] break from a for, until or while loop; exit n levels -.ti -2i -continue [n] continue a for, until or while loop; resume nth loop -.ti -2i -cd [dir] change current working directory; move to $HOME -.ti -2i -eval cmd rescan cmd, performing substitutions -.ti -2i -eval rescan the current command line -.ti -2i -exec cmd execute cmd without creating a new process -.ti -2i -exec <|> with no command name, modify shell I/O -.ti -2i -exit [n] exit a shell program, with exit value n -.ti -2i -export [var] export var to shell's children; list exported variables -.ti -2i -pwd print the name of the current working directory -.ti -2i -read var read a line from stdin and assign to var -.ti -2i -readonly [var] make var readonly; list readonly variables -.ti -2i -set -f set shell flag (+f unsets flag) -.ti -2i -set str set positional parameter to str -.ti -2i -set show the current shell variables -.ti -2i -shift reassign positional parameters (except ${0}) one left -.ti -2i -times print accumulated user and system times for processes -.ti -2i -trap arg sigs trap signals sigs and run arg on receipt -.ti -2i -trap list trapped signals -.ti -2i -umask [n] set the user file creation mask; show the current umask -.ti -2i -wait [n] wait for process pid n; wait for all processes -.in -2.25i -.LP -The shell also contains a programming language, which has the following -operators and flow control statements: -.PP -.in +3.50i -.ta 2i 3.25i -.ti -3.25i -# Comment The rest of the line is ignored -.ti -3.25i -= Assignment Set a shell variable -.ti -3.25i -&& Logical AND Execute second command only if first succeeds -.ti -3.25i -|| Logical OR Execute second command only if first fails -.ti -3.25i -(...) Group Execute enclosed commands before continuing -.in -3.50i -.PP -.in +2.25i -.ta 2i -.ti -2i -for For loop (for ... in ... do ... done) -.ti -2i -case Case statement ((case ... ) ... ;; ... esac) -.ti -2i -esac Case statement end -.ti -2i -while While loop (while ... do ... done) -.ti -2i -do Do/For/While loop start (do ... until ...) -.ti -2i -done For/While loop end -.ti -2i -if Conditional statement (if ... else ... elif ... fi) -.ti -2i -in For loop selection -.ti -2i -then Conditional statement start -.ti -2i -else Conditional statement alternative -.ti -2i -elif Conditional statement end -.ti -2i -until Do loop end -.ti -2i -fi Conditional statement end -.in -2.25i -.SH "SEE ALSO" -.BR echo (1), -.BR expr (1), -.BR pwd (1), -.BR true (1). diff --git a/release/picobsd/tinyware/msh/sh.h b/release/picobsd/tinyware/msh/sh.h deleted file mode 100644 index 223761eb18c7..000000000000 --- a/release/picobsd/tinyware/msh/sh.h +++ /dev/null @@ -1,388 +0,0 @@ -#include <stdlib.h> -#include <string.h> -#include <unistd.h> -#include <fcntl.h> - -/* Need a way to have void used for ANSI, nothing for K&R. */ -#ifndef _ANSI -#undef _VOID -#define _VOID -#endif - -/* -------- sh.h -------- */ -/* - * shell - */ - -#define LINELIM 2100 -#define NPUSH 8 /* limit to input nesting */ - -#define NOFILE 20 /* Number of open files */ -#define NUFILE 10 /* Number of user-accessible files */ -#define FDBASE 10 /* First file usable by Shell */ - -/* - * values returned by wait - */ -#define WAITSIG(s) ((s)&0177) -#define WAITVAL(s) (((s)>>8)&0377) -#define WAITCORE(s) (((s)&0200)!=0) - -/* - * library and system defintions - */ -#ifdef __STDC__ -typedef void xint; /* base type of jmp_buf, for not broken compilers */ -#else -typedef char * xint; /* base type of jmp_buf, for broken compilers */ -#endif - -/* - * shell components - */ -/* #include "area.h" */ -/* #include "word.h" */ -/* #include "io.h" */ -/* #include "var.h" */ - -#define QUOTE 0200 - -#define NOBLOCK ((struct op *)NULL) -#define NOWORD ((char *)NULL) -#define NOWORDS ((char **)NULL) -#define NOPIPE ((int *)NULL) - -/* - * Description of a command or an operation on commands. - * Might eventually use a union. - */ -struct op { - int type; /* operation type, see below */ - char **words; /* arguments to a command */ - struct ioword **ioact; /* IO actions (eg, < > >>) */ - struct op *left; - struct op *right; - char *str; /* identifier for case and for */ -}; - -#define TCOM 1 /* command */ -#define TPAREN 2 /* (c-list) */ -#define TPIPE 3 /* a | b */ -#define TLIST 4 /* a [&;] b */ -#define TOR 5 /* || */ -#define TAND 6 /* && */ -#define TFOR 7 -#define TDO 8 -#define TCASE 9 -#define TIF 10 -#define TWHILE 11 -#define TUNTIL 12 -#define TELIF 13 -#define TPAT 14 /* pattern in case */ -#define TBRACE 15 /* {c-list} */ -#define TASYNC 16 /* c & */ - -/* - * actions determining the environment of a process - */ -#define BIT(i) (1<<(i)) -#define FEXEC BIT(0) /* execute without forking */ - -/* - * flags to control evaluation of words - */ -#define DOSUB 1 /* interpret $, `, and quotes */ -#define DOBLANK 2 /* perform blank interpretation */ -#define DOGLOB 4 /* interpret [?* */ -#define DOKEY 8 /* move words with `=' to 2nd arg. list */ -#define DOTRIM 16 /* trim resulting string */ - -#define DOALL (DOSUB|DOBLANK|DOGLOB|DOKEY|DOTRIM) - -Extern char **dolv; -Extern int dolc; -Extern int exstat; -Extern char gflg; -Extern int talking; /* interactive (talking-type wireless) */ -Extern int execflg; -Extern int multiline; /* \n changed to ; */ -Extern struct op *outtree; /* result from parser */ - -Extern xint *failpt; -Extern xint *errpt; - -struct brkcon { - jmp_buf brkpt; - struct brkcon *nextlev; -} ; -Extern struct brkcon *brklist; -Extern int isbreak; - -/* - * redirection - */ -struct ioword { - short io_unit; /* unit affected */ - short io_flag; /* action (below) */ - char *io_name; /* file name */ -}; -#define IOREAD 1 /* < */ -#define IOHERE 2 /* << (here file) */ -#define IOWRITE 4 /* > */ -#define IOCAT 8 /* >> */ -#define IOXHERE 16 /* ${}, ` in << */ -#define IODUP 32 /* >&digit */ -#define IOCLOSE 64 /* >&- */ - -#define IODEFAULT (-1) /* token for default IO unit */ - -Extern struct wdblock *wdlist; -Extern struct wdblock *iolist; - -/* - * parsing & execution environment - */ -extern struct env { - char *linep; - struct io *iobase; - struct io *iop; - xint *errpt; - int iofd; - struct env *oenv; -} e; - -/* - * flags: - * -e: quit on error - * -k: look for name=value everywhere on command line - * -n: no execution - * -t: exit after reading and executing one command - * -v: echo as read - * -x: trace - * -u: unset variables net diagnostic - */ -extern char *flag; - -extern char *null; /* null value for variable */ -extern int intr; /* interrupt pending */ - -Extern char *trap[_NSIG+1]; -Extern char ourtrap[_NSIG+1]; -Extern int trapset; /* trap pending */ - -extern int heedint; /* heed interrupt signals */ - -Extern int yynerrs; /* yacc */ - -Extern char line[LINELIM]; -extern char *elinep; - -/* - * other functions - */ -#ifdef __STDC__ -int (*inbuilt(char *s ))(void); -#else -int (*inbuilt())(); -#endif - -#ifdef __FreeBSD__ -#define _PROTOTYPE(x,y) x ## y -#endif - -_PROTOTYPE(char *rexecve , (char *c , char **v , char **envp )); -_PROTOTYPE(char *space , (int n )); -_PROTOTYPE(char *strsave , (char *s , int a )); -_PROTOTYPE(char *evalstr , (char *cp , int f )); -_PROTOTYPE(char *putn , (int n )); -_PROTOTYPE(char *itoa , (unsigned u , int n )); -_PROTOTYPE(char *unquote , (char *as )); -_PROTOTYPE(struct var *lookup , (char *n )); -_PROTOTYPE(int rlookup , (char *n )); -_PROTOTYPE(struct wdblock *glob , (char *cp , struct wdblock *wb )); -_PROTOTYPE(int subgetc , (int ec , int quoted )); -_PROTOTYPE(char **makenv , (void)); -_PROTOTYPE(char **eval , (char **ap , int f )); -_PROTOTYPE(int setstatus , (int s )); -_PROTOTYPE(int waitfor , (int lastpid , int canintr )); - -_PROTOTYPE(void onintr , (int s )); /* SIGINT handler */ - -_PROTOTYPE(int newenv , (int f )); -_PROTOTYPE(void quitenv , (void)); -_PROTOTYPE(void err , (char *s )); -_PROTOTYPE(int anys , (char *s1 , char *s2 )); -_PROTOTYPE(int any , (int c , char *s )); -_PROTOTYPE(void next , (int f )); -_PROTOTYPE(void setdash , (void)); -_PROTOTYPE(void onecommand , (void)); -_PROTOTYPE(void runtrap , (int i )); -_PROTOTYPE(void xfree , (char *s )); -_PROTOTYPE(int letter , (int c )); -_PROTOTYPE(int digit , (int c )); -_PROTOTYPE(int letnum , (int c )); -_PROTOTYPE(int gmatch , (char *s , char *p )); - -/* - * error handling - */ -_PROTOTYPE(void leave , (void)); /* abort shell (or fail in subshell) */ -_PROTOTYPE(void fail , (void)); /* fail but return to process next command */ -_PROTOTYPE(void warn , (char *s )); -_PROTOTYPE(void sig , (int i )); /* default signal handler */ - -/* -------- var.h -------- */ - -struct var { - char *value; - char *name; - struct var *next; - char status; -}; -#define COPYV 1 /* flag to setval, suggesting copy */ -#define RONLY 01 /* variable is read-only */ -#define EXPORT 02 /* variable is to be exported */ -#define GETCELL 04 /* name & value space was got with getcell */ - -Extern struct var *vlist; /* dictionary */ - -Extern struct var *homedir; /* home directory */ -Extern struct var *prompt; /* main prompt */ -Extern struct var *cprompt; /* continuation prompt */ -Extern struct var *path; /* search path for commands */ -Extern struct var *shell; /* shell to interpret command files */ -Extern struct var *ifs; /* field separators */ - -_PROTOTYPE(int yyparse , (void)); -_PROTOTYPE(struct var *lookup , (char *n )); -_PROTOTYPE(void setval , (struct var *vp , char *val )); -_PROTOTYPE(void nameval , (struct var *vp , char *val , char *name )); -_PROTOTYPE(void export , (struct var *vp )); -_PROTOTYPE(void ronly , (struct var *vp )); -_PROTOTYPE(int isassign , (char *s )); -_PROTOTYPE(int checkname , (char *cp )); -_PROTOTYPE(int assign , (char *s , int cf )); -_PROTOTYPE(void putvlist , (int f , int out )); -_PROTOTYPE(int eqname , (char *n1 , char *n2 )); - -_PROTOTYPE(int execute , (struct op *t , int *pin , int *pout , int act )); - -/* -------- io.h -------- */ -/* io buffer */ -struct iobuf { - unsigned id; /* buffer id */ - char buf[512]; /* buffer */ - char *bufp; /* pointer into buffer */ - char *ebufp; /* pointer to end of buffer */ -}; - -/* possible arguments to an IO function */ -struct ioarg { - char *aword; - char **awordlist; - int afile; /* file descriptor */ - unsigned afid; /* buffer id */ - long afpos; /* file position */ - struct iobuf *afbuf; /* buffer for this file */ -}; -Extern struct ioarg ioargstack[NPUSH]; -#define AFID_NOBUF (~0) -#define AFID_ID 0 - -/* an input generator's state */ -struct io { - int (*iofn)(_VOID); - struct ioarg *argp; - int peekc; - char prev; /* previous character read by readc() */ - char nlcount; /* for `'s */ - char xchar; /* for `'s */ - char task; /* reason for pushed IO */ -}; -Extern struct io iostack[NPUSH]; -#define XOTHER 0 /* none of the below */ -#define XDOLL 1 /* expanding ${} */ -#define XGRAVE 2 /* expanding `'s */ -#define XIO 3 /* file IO */ - -/* in substitution */ -#define INSUB() (e.iop->task == XGRAVE || e.iop->task == XDOLL) - -/* - * input generators for IO structure - */ -_PROTOTYPE(int nlchar , (struct ioarg *ap )); -_PROTOTYPE(int strchar , (struct ioarg *ap )); -_PROTOTYPE(int qstrchar , (struct ioarg *ap )); -_PROTOTYPE(int filechar , (struct ioarg *ap )); -_PROTOTYPE(int herechar , (struct ioarg *ap )); -_PROTOTYPE(int linechar , (struct ioarg *ap )); -_PROTOTYPE(int gravechar , (struct ioarg *ap , struct io *iop )); -_PROTOTYPE(int qgravechar , (struct ioarg *ap , struct io *iop )); -_PROTOTYPE(int dolchar , (struct ioarg *ap )); -_PROTOTYPE(int wdchar , (struct ioarg *ap )); -_PROTOTYPE(void scraphere , (void)); -_PROTOTYPE(void freehere , (int area )); -_PROTOTYPE(void gethere , (void)); -_PROTOTYPE(void markhere , (char *s , struct ioword *iop )); -_PROTOTYPE(int herein , (char *hname , int xdoll )); -_PROTOTYPE(int run , (struct ioarg *argp , int (*f)(_VOID))); - -/* - * IO functions - */ -_PROTOTYPE(int eofc , (void)); -_PROTOTYPE(int getc , (int ec )); -_PROTOTYPE(int readc , (void)); -_PROTOTYPE(void unget , (int c )); -_PROTOTYPE(void ioecho , (int c )); -_PROTOTYPE(void prs , (char *s )); -_PROTOTYPE(void putc , (int c )); -_PROTOTYPE(void prn , (unsigned u )); -_PROTOTYPE(void closef , (int i )); -_PROTOTYPE(void closeall , (void)); - -/* - * IO control - */ -_PROTOTYPE(void pushio , (struct ioarg *argp , int (*fn)(_VOID))); -_PROTOTYPE(int remap , (int fd )); -_PROTOTYPE(int openpipe , (int *pv )); -_PROTOTYPE(void closepipe , (int *pv )); -_PROTOTYPE(struct io *setbase , (struct io *ip )); - -extern struct ioarg temparg; /* temporary for PUSHIO */ -#define PUSHIO(what,arg,gen) ((temparg.what = (arg)),pushio(&temparg,(gen))) -#define RUN(what,arg,gen) ((temparg.what = (arg)), run(&temparg,(gen))) - -/* -------- word.h -------- */ -#ifndef WORD_H -#define WORD_H 1 -struct wdblock { - short w_bsize; - short w_nword; - /* bounds are arbitrary */ - char *w_words[1]; -}; - -_PROTOTYPE(struct wdblock *addword , (char *wd , struct wdblock *wb )); -_PROTOTYPE(struct wdblock *newword , (int nw )); -_PROTOTYPE(char **getwords , (struct wdblock *wb )); -#endif - -/* -------- area.h -------- */ - -/* - * storage allocation - */ -_PROTOTYPE(char *getcell , (unsigned nbytes )); -_PROTOTYPE(void garbage , (void)); -_PROTOTYPE(void setarea , (char *cp , int a )); -_PROTOTYPE(int getarea , (char *cp )); -_PROTOTYPE(void freearea , (int a )); -_PROTOTYPE(void freecell , (char *cp )); - -Extern int areanum; /* current allocation area */ - -#define NEW(type) (type *)getcell(sizeof(type)) -#define DELETE(obj) freecell((char *)obj) diff --git a/release/picobsd/tinyware/msh/sh1.c b/release/picobsd/tinyware/msh/sh1.c deleted file mode 100644 index 34b024df9c51..000000000000 --- a/release/picobsd/tinyware/msh/sh1.c +++ /dev/null @@ -1,953 +0,0 @@ -#define Extern extern -#include <sys/types.h> -#include <signal.h> -#define _NSIG NSIG -#include <errno.h> -#include <setjmp.h> -#include "sh.h" -/* -------- sh.c -------- */ -/* - * shell - */ - -/* #include "sh.h" */ - -int intr; -int inparse; -char flags['z'-'a'+1]; -char *flag = flags-'a'; -char *elinep = line+sizeof(line)-5; -char *null = ""; -int heedint =1; -struct env e ={line, iostack, iostack-1, - (xint *)NULL, FDBASE, (struct env *)NULL}; - -extern char **environ; /* environment pointer */ - -/* - * default shell, search rules - */ -char shellname[] = "/bin/sh"; -char search[] = ":/bin:/usr/bin"; - -_PROTOTYPE(void (*qflag), (int)) = SIG_IGN; - -_PROTOTYPE(int main, (int argc, char **argv )); -_PROTOTYPE(int newfile, (char *s )); -_PROTOTYPE(static char *findeq, (char *cp )); -_PROTOTYPE(static char *cclass, (char *p, int sub )); -_PROTOTYPE(void initarea, (void)); - -int main(argc, argv) -int argc; -register char **argv; -{ - register int f; - register char *s; - int cflag; - char *name, **ap; - int (*iof)(); - - initarea(); - if ((ap = environ) != NULL) { - while (*ap) - assign(*ap++, !COPYV); - for (ap = environ; *ap;) - export(lookup(*ap++)); - } - closeall(); - areanum = 1; - - shell = lookup("SHELL"); - if (shell->value == null) - setval(shell, shellname); - export(shell); - - homedir = lookup("HOME"); - if (homedir->value == null) - setval(homedir, "/"); - export(homedir); - - setval(lookup("$"), itoa(getpid(), 5)); - - path = lookup("PATH"); - if (path->value == null) - setval(path, search); - export(path); - - ifs = lookup("IFS"); - if (ifs->value == null) - setval(ifs, " \t\n"); - - prompt = lookup("PS1"); - if (prompt->value == null) -#ifndef UNIXSHELL - setval(prompt, "$ "); -#else - setval(prompt, "% "); -#endif - - if (geteuid() == 0) { - setval(prompt, "# "); - prompt->status &= ~EXPORT; - } - cprompt = lookup("PS2"); - if (cprompt->value == null) - setval(cprompt, "> "); - - iof = filechar; - cflag = 0; - name = *argv++; - if (--argc >= 1) { - if(argv[0][0] == '-' && argv[0][1] != '\0') { - for (s = argv[0]+1; *s; s++) - switch (*s) { - case 'c': - prompt->status &= ~EXPORT; - cprompt->status &= ~EXPORT; - setval(prompt, ""); - setval(cprompt, ""); - cflag = 1; - if (--argc > 0) - PUSHIO(aword, *++argv, iof = nlchar); - break; - - case 'q': - qflag = SIG_DFL; - break; - - case 's': - /* standard input */ - break; - - case 't': - prompt->status &= ~EXPORT; - setval(prompt, ""); - iof = linechar; - break; - - case 'i': - talking++; - default: - if (*s>='a' && *s<='z') - flag[*s]++; - } - } else { - argv--; - argc++; - } - if (iof == filechar && --argc > 0) { - setval(prompt, ""); - setval(cprompt, ""); - prompt->status &= ~EXPORT; - cprompt->status &= ~EXPORT; - if (newfile(name = *++argv)) - exit(1); - } - } - setdash(); - if (e.iop < iostack) { - PUSHIO(afile, 0, iof); - if (isatty(0) && isatty(1) && !cflag) - talking++; - } - signal(SIGQUIT, qflag); - if (name && name[0] == '-') { - talking++; - if ((f = open(".profile", 0)) >= 0) - next(remap(f)); - if ((f = open("/etc/profile", 0)) >= 0) - next(remap(f)); - } - if (talking) - signal(SIGTERM, sig); - if (signal(SIGINT, SIG_IGN) != SIG_IGN) - signal(SIGINT, onintr); - dolv = argv; - dolc = argc; - dolv[0] = name; - if (dolc > 1) - for (ap = ++argv; --argc > 0;) - if (assign(*ap = *argv++, !COPYV)) - dolc--; /* keyword */ - else - ap++; - setval(lookup("#"), putn((--dolc < 0) ? (dolc = 0) : dolc)); - - for (;;) { - if (talking && e.iop <= iostack) - prs(prompt->value); - onecommand(); - } -} - -void -setdash() -{ - register char *cp, c; - char m['z'-'a'+1]; - - cp = m; - for (c='a'; c<='z'; c++) - if (flag[c]) - *cp++ = c; - *cp = 0; - setval(lookup("-"), m); -} - -int -newfile(s) -register char *s; -{ - register f; - - if (strcmp(s, "-") != 0) { - f = open(s, 0); - if (f < 0) { - prs(s); - err(": cannot open"); - return(1); - } - } else - f = 0; - next(remap(f)); - return(0); -} - -void -onecommand() -{ - register i; - jmp_buf m1; - - while (e.oenv) - quitenv(); - areanum = 1; - freehere(areanum); - freearea(areanum); - garbage(); - wdlist = 0; - iolist = 0; - e.errpt = 0; - e.linep = line; - yynerrs = 0; - multiline = 0; - inparse = 1; - intr = 0; - execflg = 0; - setjmp(failpt = m1); /* Bruce Evans' fix */ - if (setjmp(failpt = m1) || yyparse() || intr) { - while (e.oenv) - quitenv(); - scraphere(); - if (!talking && intr) - leave(); - inparse = 0; - intr = 0; - return; - } - inparse = 0; - brklist = 0; - intr = 0; - execflg = 0; - if (!flag['n']) - execute(outtree, NOPIPE, NOPIPE, 0); - if (!talking && intr) { - execflg = 0; - leave(); - } - if ((i = trapset) != 0) { - trapset = 0; - runtrap(i); - } -} - -void -fail() -{ - longjmp(failpt, 1); - /* NOTREACHED */ -} - -void -leave() -{ - if (execflg) - fail(); - scraphere(); - freehere(1); - runtrap(0); - exit(exstat); - /* NOTREACHED */ -} - -void -warn(s) -register char *s; -{ - if(*s) { - prs(s); - exstat = -1; - } - prs("\n"); - if (flag['e']) - leave(); -} - -void -err(s) -char *s; -{ - warn(s); - if (flag['n']) - return; - if (!talking) - leave(); - if (e.errpt) - longjmp(e.errpt, 1); - closeall(); - e.iop = e.iobase = iostack; -} - -int -newenv(f) -int f; -{ - register struct env *ep; - - if (f) { - quitenv(); - return(1); - } - ep = (struct env *) space(sizeof(*ep)); - if (ep == NULL) { - while (e.oenv) - quitenv(); - fail(); - } - *ep = e; - e.oenv = ep; - e.errpt = errpt; - return(0); -} - -void -quitenv() -{ - register struct env *ep; - register fd; - - if ((ep = e.oenv) != NULL) { - fd = e.iofd; - e = *ep; - /* should close `'d files */ - DELETE(ep); - while (--fd >= e.iofd) - close(fd); - } -} - -/* - * Is any character from s1 in s2? - */ -int -anys(s1, s2) -register char *s1, *s2; -{ - while (*s1) - if (any(*s1++, s2)) - return(1); - return(0); -} - -/* - * Is character c in s? - */ -int -any(c, s) -register int c; -register char *s; -{ - while (*s) - if (*s++ == c) - return(1); - return(0); -} - -char * -putn(n) -register int n; -{ - return(itoa(n, -1)); -} - -char * -itoa(u, n) -register unsigned u; -int n; -{ - register char *cp; - static char s[20]; - int m; - - m = 0; - if (n < 0 && (int) u < 0) { - m++; - u = -u; - } - cp = s+sizeof(s); - *--cp = 0; - do { - *--cp = u%10 + '0'; - u /= 10; - } while (--n > 0 || u); - if (m) - *--cp = '-'; - return(cp); -} - -void -next(f) -int f; -{ - PUSHIO(afile, f, filechar); -} - -void -onintr(s) -int s; /* ANSI C requires a parameter */ -{ - signal(SIGINT, onintr); - intr = 1; - if (talking) { - if (inparse) { - prs("\n"); - fail(); - } - } - else if (heedint) { - execflg = 0; - leave(); - } -} - -int -letter(c) -register c; -{ - return((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c == '_'); -} - -int -digit(c) -register c; -{ - return(c >= '0' && c <= '9'); -} - -int -letnum(c) -register c; -{ - return(letter(c) || digit(c)); -} - -char * -space(n) -int n; -{ - register char *cp; - - if ((cp = getcell(n)) == 0) - err("out of string space"); - return(cp); -} - -char * -strsave(s, a) -register char *s; -int a; -{ - register char *cp, *xp; - - if ((cp = space(strlen(s)+1)) != NULL) { - setarea((char *)cp, a); - for (xp = cp; (*xp++ = *s++) != '\0';) - ; - return(cp); - } - return(""); -} - -void -xfree(s) -register char *s; -{ - DELETE(s); -} - -/* - * trap handling - */ -void -sig(i) -register int i; -{ - trapset = i; - signal(i, sig); -} - -void runtrap(i) -int i; -{ - char *trapstr; - - if ((trapstr = trap[i]) == NULL) - return; - if (i == 0) - trap[i] = 0; - RUN(aword, trapstr, nlchar); -} - -/* -------- var.c -------- */ -/* #include "sh.h" */ - -/* - * Find the given name in the dictionary - * and return its value. If the name was - * not previously there, enter it now and - * return a null value. - */ -struct var * -lookup(n) -register char *n; -{ - register struct var *vp; - register char *cp; - register int c; - static struct var dummy; - - if (digit(*n)) { - dummy.name = n; - for (c = 0; digit(*n) && c < 1000; n++) - c = c*10 + *n-'0'; - dummy.status = RONLY; - dummy.value = c <= dolc? dolv[c]: null; - return(&dummy); - } - for (vp = vlist; vp; vp = vp->next) - if (eqname(vp->name, n)) - return(vp); - cp = findeq(n); - vp = (struct var *)space(sizeof(*vp)); - if (vp == 0 || (vp->name = space((int)(cp-n)+2)) == 0) { - dummy.name = dummy.value = ""; - return(&dummy); - } - for (cp = vp->name; (*cp = *n++) && *cp != '='; cp++) - ; - if (*cp == 0) - *cp = '='; - *++cp = 0; - setarea((char *)vp, 0); - setarea((char *)vp->name, 0); - vp->value = null; - vp->next = vlist; - vp->status = GETCELL; - vlist = vp; - return(vp); -} - -/* - * give variable at `vp' the value `val'. - */ -void -setval(vp, val) -struct var *vp; -char *val; -{ - nameval(vp, val, (char *)NULL); -} - -/* - * if name is not NULL, it must be - * a prefix of the space `val', - * and end with `='. - * this is all so that exporting - * values is reasonably painless. - */ -void -nameval(vp, val, name) -register struct var *vp; -char *val, *name; -{ - register char *cp, *xp; - char *nv; - int fl; - - if (vp->status & RONLY) { - for (xp = vp->name; *xp && *xp != '=';) - putc(*xp++); - err(" is read-only"); - return; - } - fl = 0; - if (name == NULL) { - xp = space(strlen(vp->name)+strlen(val)+2); - if (xp == 0) - return; - /* make string: name=value */ - setarea((char *)xp, 0); - name = xp; - for (cp = vp->name; (*xp = *cp++) && *xp!='='; xp++) - ; - if (*xp++ == 0) - xp[-1] = '='; - nv = xp; - for (cp = val; (*xp++ = *cp++) != '\0';) - ; - val = nv; - fl = GETCELL; - } - if (vp->status & GETCELL) - xfree(vp->name); /* form new string `name=value' */ - vp->name = name; - vp->value = val; - vp->status |= fl; -} - -void -export(vp) -struct var *vp; -{ - vp->status |= EXPORT; -} - -void -ronly(vp) -struct var *vp; -{ - if (letter(vp->name[0])) /* not an internal symbol ($# etc) */ - vp->status |= RONLY; -} - -int -isassign(s) -register char *s; -{ - if (!letter((int)*s)) - return(0); - for (; *s != '='; s++) - if (*s == 0 || !letnum(*s)) - return(0); - return(1); -} - -int -assign(s, cf) -register char *s; -int cf; -{ - register char *cp; - struct var *vp; - - if (!letter(*s)) - return(0); - for (cp = s; *cp != '='; cp++) - if (*cp == 0 || !letnum(*cp)) - return(0); - vp = lookup(s); - nameval(vp, ++cp, cf == COPYV? (char *)NULL: s); - if (cf != COPYV) - vp->status &= ~GETCELL; - return(1); -} - -int -checkname(cp) -register char *cp; -{ - if (!letter(*cp++)) - return(0); - while (*cp) - if (!letnum(*cp++)) - return(0); - return(1); -} - -void -putvlist(f, out) -register int f, out; -{ - register struct var *vp; - - for (vp = vlist; vp; vp = vp->next) - if (vp->status & f && letter(*vp->name)) { - if (vp->status & EXPORT) - write(out, "export ", 7); - if (vp->status & RONLY) - write(out, "readonly ", 9); - write(out, vp->name, (int)(findeq(vp->name) - vp->name)); - write(out, "\n", 1); - } -} - -int -eqname(n1, n2) -register char *n1, *n2; -{ - for (; *n1 != '=' && *n1 != 0; n1++) - if (*n2++ != *n1) - return(0); - return(*n2 == 0 || *n2 == '='); -} - -static char * -findeq(cp) -register char *cp; -{ - while (*cp != '\0' && *cp != '=') - cp++; - return(cp); -} - -/* -------- gmatch.c -------- */ -/* - * int gmatch(string, pattern) - * char *string, *pattern; - * - * Match a pattern as in sh(1). - */ - -#define CMASK 0377 -#define QUOTE 0200 -#define QMASK (CMASK&~QUOTE) -#define NOT '!' /* might use ^ */ - -int -gmatch(s, p) -register char *s, *p; -{ - register int sc, pc; - - if (s == NULL || p == NULL) - return(0); - while ((pc = *p++ & CMASK) != '\0') { - sc = *s++ & QMASK; - switch (pc) { - case '[': - if ((p = cclass(p, sc)) == NULL) - return(0); - break; - - case '?': - if (sc == 0) - return(0); - break; - - case '*': - s--; - do { - if (*p == '\0' || gmatch(s, p)) - return(1); - } while (*s++ != '\0'); - return(0); - - default: - if (sc != (pc&~QUOTE)) - return(0); - } - } - return(*s == 0); -} - -static char * -cclass(p, sub) -register char *p; -register int sub; -{ - register int c, d, not, found; - - if ((not = *p == NOT) != 0) - p++; - found = not; - do { - if (*p == '\0') - return((char *)NULL); - c = *p & CMASK; - if (p[1] == '-' && p[2] != ']') { - d = p[2] & CMASK; - p++; - } else - d = c; - if (c == sub || (c <= sub && sub <= d)) - found = !not; - } while (*++p != ']'); - return(found? p+1: (char *)NULL); -} - -/* -------- area.c -------- */ -#define REGSIZE sizeof(struct region) -#define GROWBY 256 -#undef SHRINKBY 64 -#define FREE 32767 -#define BUSY 0 -#define ALIGN (sizeof(int)-1) - -/* #include "area.h" */ - -struct region { - struct region *next; - int area; -}; - -/* - * All memory between (char *)areabot and (char *)(areatop+1) is - * exclusively administered by the area management routines. - * It is assumed that sbrk() and brk() manipulate the high end. - */ -static struct region *areabot; /* bottom of area */ -static struct region *areatop; /* top of area */ -static struct region *areanxt; /* starting point of scan */ - -void -initarea() -{ - while ((int)sbrk(0) & ALIGN) - sbrk(1); - areabot = (struct region *)sbrk(REGSIZE); - areabot->next = areabot; - areabot->area = BUSY; - areatop = areabot; - areanxt = areabot; -} - -char * -getcell(nbytes) -unsigned nbytes; -{ - register int nregio; - register struct region *p, *q; - register i; - - if (nbytes == 0) - abort(); /* silly and defeats the algorithm */ - /* - * round upwards and add administration area - */ - nregio = (nbytes+(REGSIZE-1))/REGSIZE + 1; - for (p = areanxt;;) { - if (p->area > areanum) { - /* - * merge free cells - */ - while ((q = p->next)->area > areanum && q != areanxt) - p->next = q->next; - /* - * exit loop if cell big enough - */ - if (q >= p + nregio) - goto found; - } - p = p->next; - if (p == areanxt) - break; - } - i = nregio >= GROWBY ? nregio : GROWBY; - p = (struct region *)sbrk(i * REGSIZE); - if (p == (struct region *)-1) - return((char *)NULL); - p--; - if (p != areatop) - abort(); /* allocated areas are contiguous */ - q = p + i; - p->next = q; - p->area = FREE; - q->next = areabot; - q->area = BUSY; - areatop = q; -found: - /* - * we found a FREE area big enough, pointed to by 'p', and up to 'q' - */ - areanxt = p + nregio; - if (areanxt < q) { - /* - * split into requested area and rest - */ - if (areanxt+1 > q) - abort(); /* insufficient space left for admin */ - areanxt->next = q; - areanxt->area = FREE; - p->next = areanxt; - } - p->area = areanum; - return((char *)(p+1)); -} - -void -freecell(cp) -char *cp; -{ - register struct region *p; - - if ((p = (struct region *)cp) != NULL) { - p--; - if (p < areanxt) - areanxt = p; - p->area = FREE; - } -} - -void -freearea(a) -register int a; -{ - register struct region *p, *top; - - top = areatop; - for (p = areabot; p != top; p = p->next) - if (p->area >= a) - p->area = FREE; -} - -void -setarea(cp,a) -char *cp; -int a; -{ - register struct region *p; - - if ((p = (struct region *)cp) != NULL) - (p-1)->area = a; -} - -int -getarea(cp) -char *cp; -{ - return ((struct region*)cp-1)->area; -} - -void -garbage() -{ - register struct region *p, *q, *top; - - top = areatop; - for (p = areabot; p != top; p = p->next) { - if (p->area > areanum) { - while ((q = p->next)->area > areanum) - p->next = q->next; - areanxt = p; - } - } -#ifdef SHRINKBY - if (areatop >= q + SHRINKBY && q->area > areanum) { - brk((char *)(q+1)); - q->next = areabot; - q->area = BUSY; - areatop = q; - } -#endif -} diff --git a/release/picobsd/tinyware/msh/sh2.c b/release/picobsd/tinyware/msh/sh2.c deleted file mode 100644 index f7eaf017f5ec..000000000000 --- a/release/picobsd/tinyware/msh/sh2.c +++ /dev/null @@ -1,801 +0,0 @@ -#define Extern extern -#include <sys/types.h> -#include <signal.h> -#define _NSIG NSIG -#include <errno.h> -#include <setjmp.h> -#include "sh.h" - -/* -------- csyn.c -------- */ -/* - * shell: syntax (C version) - */ - -typedef union { - char *cp; - char **wp; - int i; - struct op *o; -} YYSTYPE; -#define WORD 256 -#define LOGAND 257 -#define LOGOR 258 -#define BREAK 259 -#define IF 260 -#define THEN 261 -#define ELSE 262 -#define ELIF 263 -#define FI 264 -#define CASE 265 -#define ESAC 266 -#define FOR 267 -#define WHILE 268 -#define UNTIL 269 -#define DO 270 -#define DONE 271 -#define IN 272 -#define YYERRCODE 300 - -/* flags to yylex */ -#define CONTIN 01 /* skip new lines to complete command */ - -/* #include "sh.h" */ -#define SYNTAXERR zzerr() -static int startl; -static int peeksym; -static int nlseen; -static int iounit = IODEFAULT; - -static YYSTYPE yylval; - -_PROTOTYPE(static struct op *pipeline, (int cf )); -_PROTOTYPE(static struct op *andor, (void)); -_PROTOTYPE(static struct op *c_list, (void)); -_PROTOTYPE(static int synio, (int cf )); -_PROTOTYPE(static void musthave, (int c, int cf )); -_PROTOTYPE(static struct op *simple, (void)); -_PROTOTYPE(static struct op *nested, (int type, int mark )); -_PROTOTYPE(static struct op *command, (int cf )); -_PROTOTYPE(static struct op *dogroup, (int onlydone )); -_PROTOTYPE(static struct op *thenpart, (void)); -_PROTOTYPE(static struct op *elsepart, (void)); -_PROTOTYPE(static struct op *caselist, (void)); -_PROTOTYPE(static struct op *casepart, (void)); -_PROTOTYPE(static char **pattern, (void)); -_PROTOTYPE(static char **wordlist, (void)); -_PROTOTYPE(static struct op *list, (struct op *t1, struct op *t2 )); -_PROTOTYPE(static struct op *block, (int type, struct op *t1, struct op *t2, char **wp )); -_PROTOTYPE(static struct op *newtp, (void)); -_PROTOTYPE(static struct op *namelist, (struct op *t )); -_PROTOTYPE(static char **copyw, (void)); -_PROTOTYPE(static void word, (char *cp )); -_PROTOTYPE(static struct ioword **copyio, (void)); -_PROTOTYPE(static struct ioword *io, (int u, int f, char *cp )); -_PROTOTYPE(static void zzerr, (void)); -_PROTOTYPE(void yyerror, (char *s )); -_PROTOTYPE(static int yylex, (int cf )); -_PROTOTYPE(int collect, (int c, int c1 )); -_PROTOTYPE(int dual, (int c )); -_PROTOTYPE(static void diag, (int ec )); -_PROTOTYPE(static char *tree, (unsigned size )); -_PROTOTYPE(void printf, (char *s )); - -int -yyparse() -{ - startl = 1; - peeksym = 0; - yynerrs = 0; - outtree = c_list(); - musthave('\n', 0); - return(yynerrs!=0); -} - -static struct op * -pipeline(cf) -int cf; -{ - register struct op *t, *p; - register int c; - - t = command(cf); - if (t != NULL) { - while ((c = yylex(0)) == '|') { - if ((p = command(CONTIN)) == NULL) - SYNTAXERR; - if (t->type != TPAREN && t->type != TCOM) { - /* shell statement */ - t = block(TPAREN, t, NOBLOCK, NOWORDS); - } - t = block(TPIPE, t, p, NOWORDS); - } - peeksym = c; - } - return(t); -} - -static struct op * -andor() -{ - register struct op *t, *p; - register int c; - - t = pipeline(0); - if (t != NULL) { - while ((c = yylex(0)) == LOGAND || c == LOGOR) { - if ((p = pipeline(CONTIN)) == NULL) - SYNTAXERR; - t = block(c == LOGAND? TAND: TOR, t, p, NOWORDS); - } - peeksym = c; - } - return(t); -} - -static struct op * -c_list() -{ - register struct op *t, *p; - register int c; - - t = andor(); - if (t != NULL) { - if((peeksym = yylex(0)) == '&') - t = block(TASYNC, t, NOBLOCK, NOWORDS); - while ((c = yylex(0)) == ';' || c == '&' || (multiline && c == '\n')) { - if ((p = andor()) == NULL) - return(t); - if((peeksym = yylex(0)) == '&') - p = block(TASYNC, p, NOBLOCK, NOWORDS); - t = list(t, p); - } - peeksym = c; - } - return(t); -} - - -static int -synio(cf) -int cf; -{ - register struct ioword *iop; - register int i; - register int c; - - if ((c = yylex(cf)) != '<' && c != '>') { - peeksym = c; - return(0); - } - i = yylval.i; - musthave(WORD, 0); - iop = io(iounit, i, yylval.cp); - iounit = IODEFAULT; - if (i & IOHERE) - markhere(yylval.cp, iop); - return(1); -} - -static void -musthave(c, cf) -int c, cf; -{ - if ((peeksym = yylex(cf)) != c) - SYNTAXERR; - peeksym = 0; -} - -static struct op * -simple() -{ - register struct op *t; - - t = NULL; - for (;;) { - switch (peeksym = yylex(0)) { - case '<': - case '>': - (void) synio(0); - break; - - case WORD: - if (t == NULL) { - t = newtp(); - t->type = TCOM; - } - peeksym = 0; - word(yylval.cp); - break; - - default: - return(t); - } - } -} - -static struct op * -nested(type, mark) -int type, mark; -{ - register struct op *t; - - multiline++; - t = c_list(); - musthave(mark, 0); - multiline--; - return(block(type, t, NOBLOCK, NOWORDS)); -} - -static struct op * -command(cf) -int cf; -{ - register struct op *t; - struct wdblock *iosave; - register int c; - - iosave = iolist; - iolist = NULL; - if (multiline) - cf |= CONTIN; - while (synio(cf)) - cf = 0; - switch (c = yylex(cf)) { - default: - peeksym = c; - if ((t = simple()) == NULL) { - if (iolist == NULL) - return((struct op *)NULL); - t = newtp(); - t->type = TCOM; - } - break; - - case '(': - t = nested(TPAREN, ')'); - break; - - case '{': - t = nested(TBRACE, '}'); - break; - - case FOR: - t = newtp(); - t->type = TFOR; - musthave(WORD, 0); - startl = 1; - t->str = yylval.cp; - multiline++; - t->words = wordlist(); - if ((c = yylex(0)) != '\n' && c != ';') - peeksym = c; - t->left = dogroup(0); - multiline--; - break; - - case WHILE: - case UNTIL: - multiline++; - t = newtp(); - t->type = c == WHILE? TWHILE: TUNTIL; - t->left = c_list(); - t->right = dogroup(1); - t->words = NULL; - multiline--; - break; - - case CASE: - t = newtp(); - t->type = TCASE; - musthave(WORD, 0); - t->str = yylval.cp; - startl++; - multiline++; - musthave(IN, CONTIN); - startl++; - t->left = caselist(); - musthave(ESAC, 0); - multiline--; - break; - - case IF: - multiline++; - t = newtp(); - t->type = TIF; - t->left = c_list(); - t->right = thenpart(); - musthave(FI, 0); - multiline--; - break; - } - while (synio(0)) - ; - t = namelist(t); - iolist = iosave; - return(t); -} - -static struct op * -dogroup(onlydone) -int onlydone; -{ - register int c; - register struct op *list; - - c = yylex(CONTIN); - if (c == DONE && onlydone) - return((struct op *)NULL); - if (c != DO) - SYNTAXERR; - list = c_list(); - musthave(DONE, 0); - return(list); -} - -static struct op * -thenpart() -{ - register int c; - register struct op *t; - - if ((c = yylex(0)) != THEN) { - peeksym = c; - return((struct op *)NULL); - } - t = newtp(); - t->type = 0; - t->left = c_list(); - if (t->left == NULL) - SYNTAXERR; - t->right = elsepart(); - return(t); -} - -static struct op * -elsepart() -{ - register int c; - register struct op *t; - - switch (c = yylex(0)) { - case ELSE: - if ((t = c_list()) == NULL) - SYNTAXERR; - return(t); - - case ELIF: - t = newtp(); - t->type = TELIF; - t->left = c_list(); - t->right = thenpart(); - return(t); - - default: - peeksym = c; - return((struct op *)NULL); - } -} - -static struct op * -caselist() -{ - register struct op *t; - - t = NULL; - while ((peeksym = yylex(CONTIN)) != ESAC) - t = list(t, casepart()); - return(t); -} - -static struct op * -casepart() -{ - register struct op *t; - - t = newtp(); - t->type = TPAT; - t->words = pattern(); - musthave(')', 0); - t->left = c_list(); - if ((peeksym = yylex(CONTIN)) != ESAC) - musthave(BREAK, CONTIN); - return(t); -} - -static char ** -pattern() -{ - register int c, cf; - - cf = CONTIN; - do { - musthave(WORD, cf); - word(yylval.cp); - cf = 0; - } while ((c = yylex(0)) == '|'); - peeksym = c; - word(NOWORD); - return(copyw()); -} - -static char ** -wordlist() -{ - register int c; - - if ((c = yylex(0)) != IN) { - peeksym = c; - return((char **)NULL); - } - startl = 0; - while ((c = yylex(0)) == WORD) - word(yylval.cp); - word(NOWORD); - peeksym = c; - return(copyw()); -} - -/* - * supporting functions - */ -static struct op * -list(t1, t2) -register struct op *t1, *t2; -{ - if (t1 == NULL) - return(t2); - if (t2 == NULL) - return(t1); - return(block(TLIST, t1, t2, NOWORDS)); -} - -static struct op * -block(type, t1, t2, wp) -int type; -struct op *t1, *t2; -char **wp; -{ - register struct op *t; - - t = newtp(); - t->type = type; - t->left = t1; - t->right = t2; - t->words = wp; - return(t); -} - -struct res { - char *r_name; - int r_val; -} restab[] = { - "for", FOR, - "case", CASE, - "esac", ESAC, - "while", WHILE, - "do", DO, - "done", DONE, - "if", IF, - "in", IN, - "then", THEN, - "else", ELSE, - "elif", ELIF, - "until", UNTIL, - "fi", FI, - - ";;", BREAK, - "||", LOGOR, - "&&", LOGAND, - "{", '{', - "}", '}', - - 0, -}; - -int -rlookup(n) -register char *n; -{ - register struct res *rp; - - for (rp = restab; rp->r_name; rp++) - if (strcmp(rp->r_name, n) == 0) - return(rp->r_val); - return(0); -} - -static struct op * -newtp() -{ - register struct op *t; - - t = (struct op *)tree(sizeof(*t)); - t->type = 0; - t->words = NULL; - t->ioact = NULL; - t->left = NULL; - t->right = NULL; - t->str = NULL; - return(t); -} - -static struct op * -namelist(t) -register struct op *t; -{ - if (iolist) { - iolist = addword((char *)NULL, iolist); - t->ioact = copyio(); - } else - t->ioact = NULL; - if (t->type != TCOM) { - if (t->type != TPAREN && t->ioact != NULL) { - t = block(TPAREN, t, NOBLOCK, NOWORDS); - t->ioact = t->left->ioact; - t->left->ioact = NULL; - } - return(t); - } - word(NOWORD); - t->words = copyw(); - return(t); -} - -static char ** -copyw() -{ - register char **wd; - - wd = getwords(wdlist); - wdlist = 0; - return(wd); -} - -static void -word(cp) -char *cp; -{ - wdlist = addword(cp, wdlist); -} - -static struct ioword ** -copyio() -{ - register struct ioword **iop; - - iop = (struct ioword **) getwords(iolist); - iolist = 0; - return(iop); -} - -static struct ioword * -io(u, f, cp) -int u; -int f; -char *cp; -{ - register struct ioword *iop; - - iop = (struct ioword *) tree(sizeof(*iop)); - iop->io_unit = u; - iop->io_flag = f; - iop->io_name = cp; - iolist = addword((char *)iop, iolist); - return(iop); -} - -static void -zzerr() -{ - yyerror("syntax error"); -} - -void -yyerror(s) -char *s; -{ - yynerrs++; - if (talking && e.iop <= iostack) { - multiline = 0; - while (eofc() == 0 && yylex(0) != '\n') - ; - } - err(s); - fail(); -} - -static int -yylex(cf) -int cf; -{ - register int c, c1; - int atstart; - - if ((c = peeksym) > 0) { - peeksym = 0; - if (c == '\n') - startl = 1; - return(c); - } - nlseen = 0; - e.linep = line; - atstart = startl; - startl = 0; - yylval.i = 0; - -loop: - while ((c = getc(0)) == ' ' || c == '\t') - ; - switch (c) { - default: - if (any(c, "0123456789")) { - unget(c1 = getc(0)); - if (c1 == '<' || c1 == '>') { - iounit = c - '0'; - goto loop; - } - *e.linep++ = c; - c = c1; - } - break; - - case '#': - while ((c = getc(0)) != 0 && c != '\n') - ; - unget(c); - goto loop; - - case 0: - return(c); - - case '$': - *e.linep++ = c; - if ((c = getc(0)) == '{') { - if ((c = collect(c, '}')) != '\0') - return(c); - goto pack; - } - break; - - case '`': - case '\'': - case '"': - if ((c = collect(c, c)) != '\0') - return(c); - goto pack; - - case '|': - case '&': - case ';': - if ((c1 = dual(c)) != '\0') { - startl = 1; - return(c1); - } - startl = 1; - return(c); - case '^': - startl = 1; - return('|'); - case '>': - case '<': - diag(c); - return(c); - - case '\n': - nlseen++; - gethere(); - startl = 1; - if (multiline || cf & CONTIN) { - if (talking && e.iop <= iostack) - prs(cprompt->value); - if (cf & CONTIN) - goto loop; - } - return(c); - - case '(': - case ')': - startl = 1; - return(c); - } - - unget(c); - -pack: - while ((c = getc(0)) != 0 && !any(c, "`$ '\"\t;&<>()|^\n")) - if (e.linep >= elinep) - err("word too long"); - else - *e.linep++ = c; - unget(c); - if(any(c, "\"'`$")) - goto loop; - *e.linep++ = '\0'; - if (atstart && (c = rlookup(line))!=0) { - startl = 1; - return(c); - } - yylval.cp = strsave(line, areanum); - return(WORD); -} - -int -collect(c, c1) -register c, c1; -{ - char s[2]; - - *e.linep++ = c; - while ((c = getc(c1)) != c1) { - if (c == 0) { - unget(c); - s[0] = c1; - s[1] = 0; - prs("no closing "); yyerror(s); - return(YYERRCODE); - } - if (talking && c == '\n' && e.iop <= iostack) - prs(cprompt->value); - *e.linep++ = c; - } - *e.linep++ = c; - return(0); -} - -int -dual(c) -register c; -{ - char s[3]; - register char *cp = s; - - *cp++ = c; - *cp++ = getc(0); - *cp = 0; - if ((c = rlookup(s)) == 0) - unget(*--cp); - return(c); -} - -static void -diag(ec) -register int ec; -{ - register int c; - - c = getc(0); - if (c == '>' || c == '<') { - if (c != ec) - zzerr(); - yylval.i = ec == '>'? IOWRITE|IOCAT: IOHERE; - c = getc(0); - } else - yylval.i = ec == '>'? IOWRITE: IOREAD; - if (c != '&' || yylval.i == IOHERE) - unget(c); - else - yylval.i |= IODUP; -} - -static char * -tree(size) -unsigned size; -{ - register char *t; - - if ((t = getcell(size)) == NULL) { - prs("command line too complicated\n"); - fail(); - /* NOTREACHED */ - } - return(t); -} - -/* VARARGS1 */ -/* ARGSUSED */ -void -printf(s) /* yyparse calls it */ -char *s; -{ -} - diff --git a/release/picobsd/tinyware/msh/sh3.c b/release/picobsd/tinyware/msh/sh3.c deleted file mode 100644 index 5959f2735424..000000000000 --- a/release/picobsd/tinyware/msh/sh3.c +++ /dev/null @@ -1,1143 +0,0 @@ -#define Extern extern -#include <sys/types.h> -#include <signal.h> -#define _NSIG NSIG -#include <errno.h> -#include <setjmp.h> -#include <stddef.h> -#include <time.h> -#include <sys/times.h> -#include <sys/stat.h> -#include <sys/wait.h> -#undef NULL -#include "sh.h" - -/* -------- exec.c -------- */ -/* #include "sh.h" */ - -/* - * execute tree - */ - -static char *signame[] = { - "Signal 0", - "Hangup", - (char *)NULL, /* interrupt */ - "Quit", - "Illegal instruction", - "Trace/BPT trap", - "Abort", - "EMT trap", - "Floating exception", - "Killed", - "Bus error", - "Memory fault", - "Bad system call", - (char *)NULL, /* broken pipe */ - "Alarm clock", - "Terminated", -}; -#define NSIGNAL (sizeof(signame)/sizeof(signame[0])) - - -_PROTOTYPE(static int forkexec, (struct op *t, int *pin, int *pout, int act, char **wp, int *pforked )); -_PROTOTYPE(static int parent, (void)); -_PROTOTYPE(int iosetup, (struct ioword *iop, int pipein, int pipeout )); -_PROTOTYPE(static void echo, (char **wp )); -_PROTOTYPE(static struct op **find1case, (struct op *t, char *w )); -_PROTOTYPE(static struct op *findcase, (struct op *t, char *w )); -_PROTOTYPE(static void brkset, (struct brkcon *bc )); -_PROTOTYPE(int dolabel, (void)); -_PROTOTYPE(int dochdir, (struct op *t )); -_PROTOTYPE(int doshift, (struct op *t )); -_PROTOTYPE(int dologin, (struct op *t )); -_PROTOTYPE(int doumask, (struct op *t )); -_PROTOTYPE(int doexec, (struct op *t )); -_PROTOTYPE(int dodot, (struct op *t )); -_PROTOTYPE(int dowait, (struct op *t )); -_PROTOTYPE(int doread, (struct op *t )); -_PROTOTYPE(int doeval, (struct op *t )); -_PROTOTYPE(int dotrap, (struct op *t )); -_PROTOTYPE(int getsig, (char *s )); -_PROTOTYPE(void setsig, (int n, void (*f)())); -_PROTOTYPE(int getn, (char *as )); -_PROTOTYPE(int dobreak, (struct op *t )); -_PROTOTYPE(int docontinue, (struct op *t )); -_PROTOTYPE(static int brkcontin, (char *cp, int val )); -_PROTOTYPE(int doexit, (struct op *t )); -_PROTOTYPE(int doexport, (struct op *t )); -_PROTOTYPE(int doreadonly, (struct op *t )); -_PROTOTYPE(static void rdexp, (char **wp, void (*f)(), int key)); -_PROTOTYPE(static void badid, (char *s )); -_PROTOTYPE(int doset, (struct op *t )); -_PROTOTYPE(void varput, (char *s, int out )); -_PROTOTYPE(int dotimes, (void)); - -int -execute(t, pin, pout, act) -register struct op *t; -int *pin, *pout; -int act; -{ - register struct op *t1; - int i, pv[2], rv, child, a; - char *cp, **wp, **wp2; - struct var *vp; - struct brkcon bc; - - if (t == NULL) - return(0); - rv = 0; - a = areanum++; - wp = (wp2 = t->words) != NULL - ? eval(wp2, t->type == TCOM ? DOALL : DOALL & ~DOKEY) - : NULL; - - switch(t->type) { - case TPAREN: - case TCOM: - rv = forkexec(t, pin, pout, act, wp, &child); - if (child) { - exstat = rv; - leave(); - } - break; - - case TPIPE: - if ((rv = openpipe(pv)) < 0) - break; - pv[0] = remap(pv[0]); - pv[1] = remap(pv[1]); - (void) execute(t->left, pin, pv, 0); - rv = execute(t->right, pv, pout, 0); - break; - - case TLIST: - (void) execute(t->left, pin, pout, 0); - rv = execute(t->right, pin, pout, 0); - break; - - case TASYNC: - i = parent(); - if (i != 0) { - if (i != -1) { - setval(lookup("!"), putn(i)); - if (pin != NULL) - closepipe(pin); - if (talking) { - prs(putn(i)); - prs("\n"); - } - } else - rv = -1; - setstatus(rv); - } else { - signal(SIGINT, SIG_IGN); - signal(SIGQUIT, SIG_IGN); - if (talking) - signal(SIGTERM, SIG_DFL); - talking = 0; - if (pin == NULL) { - close(0); - open("/dev/null", 0); - } - exit(execute(t->left, pin, pout, FEXEC)); - } - break; - - case TOR: - case TAND: - rv = execute(t->left, pin, pout, 0); - if ((t1 = t->right)!=NULL && (rv == 0) == (t->type == TAND)) - rv = execute(t1, pin, pout, 0); - break; - - case TFOR: - if (wp == NULL) { - wp = dolv+1; - if ((i = dolc) < 0) - i = 0; - } else { - i = -1; - while (*wp++ != NULL) - ; - } - vp = lookup(t->str); - while (setjmp(bc.brkpt)) - if (isbreak) - goto broken; - brkset(&bc); - for (t1 = t->left; i-- && *wp != NULL;) { - setval(vp, *wp++); - rv = execute(t1, pin, pout, 0); - } - brklist = brklist->nextlev; - break; - - case TWHILE: - case TUNTIL: - while (setjmp(bc.brkpt)) - if (isbreak) - goto broken; - brkset(&bc); - t1 = t->left; - while ((execute(t1, pin, pout, 0) == 0) == (t->type == TWHILE)) - rv = execute(t->right, pin, pout, 0); - brklist = brklist->nextlev; - break; - - case TIF: - case TELIF: - if (t->right != NULL) { - rv = !execute(t->left, pin, pout, 0) ? - execute(t->right->left, pin, pout, 0): - execute(t->right->right, pin, pout, 0); - } - break; - - case TCASE: - if ((cp = evalstr(t->str, DOSUB|DOTRIM)) == 0) - cp = ""; - if ((t1 = findcase(t->left, cp)) != NULL) - rv = execute(t1, pin, pout, 0); - break; - - case TBRACE: -/* - if (iopp = t->ioact) - while (*iopp) - if (iosetup(*iopp++, pin!=NULL, pout!=NULL)) { - rv = -1; - break; - } -*/ - if (rv >= 0 && (t1 = t->left)) - rv = execute(t1, pin, pout, 0); - break; - } - -broken: - t->words = wp2; - isbreak = 0; - freehere(areanum); - freearea(areanum); - areanum = a; - if (talking && intr) { - closeall(); - fail(); - } - if ((i = trapset) != 0) { - trapset = 0; - runtrap(i); - } - return(rv); -} - -static int -forkexec(t, pin, pout, act, wp, pforked) -register struct op *t; -int *pin, *pout; -int act; -char **wp; -int *pforked; -{ - int i, rv, (*shcom)(); - register int f; - char *cp; - struct ioword **iopp; - int resetsig; - char **owp; - - owp = wp; - resetsig = 0; - *pforked = 0; - shcom = NULL; - rv = -1; /* system-detected error */ - if (t->type == TCOM) { - while ((cp = *wp++) != NULL) - ; - cp = *wp; - - /* strip all initial assignments */ - /* not correct wrt PATH=yyy command etc */ - if (flag['x']) - echo (cp ? wp: owp); - if (cp == NULL && t->ioact == NULL) { - while ((cp = *owp++) != NULL && assign(cp, COPYV)) - ; - return(setstatus(0)); - } - else if (cp != NULL) - shcom = inbuilt(cp); - } - t->words = wp; - f = act; - if (shcom == NULL && (f & FEXEC) == 0) { - i = parent(); - if (i != 0) { - if (i == -1) - return(rv); - if (pin != NULL) - closepipe(pin); - return(pout==NULL? setstatus(waitfor(i,0)): 0); - } - if (talking) { - signal(SIGINT, SIG_IGN); - signal(SIGQUIT, SIG_IGN); - resetsig = 1; - } - talking = 0; - intr = 0; - (*pforked)++; - brklist = 0; - execflg = 0; - } - if (owp != NULL) - while ((cp = *owp++) != NULL && assign(cp, COPYV)) - if (shcom == NULL) - export(lookup(cp)); -#ifdef COMPIPE - if ((pin != NULL || pout != NULL) && shcom != NULL && shcom != doexec) { - err("piping to/from shell builtins not yet done"); - return(-1); - } -#endif - if (pin != NULL) { - dup2(pin[0], 0); - closepipe(pin); - } - if (pout != NULL) { - dup2(pout[1], 1); - closepipe(pout); - } - if ((iopp = t->ioact) != NULL) { - if (shcom != NULL && shcom != doexec) { - prs(cp); - err(": cannot redirect shell command"); - return(-1); - } - while (*iopp) - if (iosetup(*iopp++, pin!=NULL, pout!=NULL)) - return(rv); - } - if (shcom) - return(setstatus((*shcom)(t))); - /* should use FIOCEXCL */ - for (i=FDBASE; i<NOFILE; i++) - close(i); - if (resetsig) { - signal(SIGINT, SIG_DFL); - signal(SIGQUIT, SIG_DFL); - } - if (t->type == TPAREN) - exit(execute(t->left, NOPIPE, NOPIPE, FEXEC)); - if (wp[0] == NULL) - exit(0); - cp = rexecve(wp[0], wp, makenv()); - prs(wp[0]); prs(": "); warn(cp); - if (!execflg) - trap[0] = NULL; - leave(); - /* NOTREACHED */ -} - -/* - * common actions when creating a new child - */ -static int -parent() -{ - register int i; - - i = fork(); - if (i != 0) { - if (i == -1) - warn("try again"); - } - return(i); -} - -/* - * 0< 1> are ignored as required - * within pipelines. - */ -int -iosetup(iop, pipein, pipeout) -register struct ioword *iop; -int pipein, pipeout; -{ - register u; - char *cp, *msg; - - if (iop->io_unit == IODEFAULT) /* take default */ - iop->io_unit = iop->io_flag&(IOREAD|IOHERE)? 0: 1; - if (pipein && iop->io_unit == 0) - return(0); - if (pipeout && iop->io_unit == 1) - return(0); - msg = iop->io_flag&(IOREAD|IOHERE)? "open": "create"; - if ((iop->io_flag & IOHERE) == 0) { - cp = iop->io_name; - if ((cp = evalstr(cp, DOSUB|DOTRIM)) == NULL) - return(1); - } - if (iop->io_flag & IODUP) { - if (cp[1] || (!digit(*cp) && *cp != '-')) { - prs(cp); - err(": illegal >& argument"); - return(1); - } - if (*cp == '-') - iop->io_flag = IOCLOSE; - iop->io_flag &= ~(IOREAD|IOWRITE); - } - switch (iop->io_flag) { - case IOREAD: - u = open(cp, 0); - break; - - case IOHERE: - case IOHERE|IOXHERE: - u = herein(iop->io_name, iop->io_flag&IOXHERE); - cp = "here file"; - break; - - case IOWRITE|IOCAT: - if ((u = open(cp, 1)) >= 0) { - lseek(u, (long)0, 2); - break; - } - case IOWRITE: - u = creat(cp, 0666); - break; - - case IODUP: - u = dup2(*cp-'0', iop->io_unit); - break; - - case IOCLOSE: - close(iop->io_unit); - return(0); - } - if (u < 0) { - prs(cp); - prs(": cannot "); - warn(msg); - return(1); - } else { - if (u != iop->io_unit) { - dup2(u, iop->io_unit); - close(u); - } - } - return(0); -} - -static void -echo(wp) -register char **wp; -{ - register i; - - prs("+"); - for (i=0; wp[i]; i++) { - if (i) - prs(" "); - prs(wp[i]); - } - prs("\n"); -} - -static struct op ** -find1case(t, w) -struct op *t; -char *w; -{ - register struct op *t1; - struct op **tp; - register char **wp, *cp; - - if (t == NULL) - return((struct op **)NULL); - if (t->type == TLIST) { - if ((tp = find1case(t->left, w)) != NULL) - return(tp); - t1 = t->right; /* TPAT */ - } else - t1 = t; - for (wp = t1->words; *wp;) - if ((cp = evalstr(*wp++, DOSUB)) && gmatch(w, cp)) - return(&t1->left); - return((struct op **)NULL); -} - -static struct op * -findcase(t, w) -struct op *t; -char *w; -{ - register struct op **tp; - - return((tp = find1case(t, w)) != NULL? *tp: (struct op *)NULL); -} - -/* - * Enter a new loop level (marked for break/continue). - */ -static void -brkset(bc) -struct brkcon *bc; -{ - bc->nextlev = brklist; - brklist = bc; -} - -/* - * Wait for the last process created. - * Print a message for each process found - * that was killed by a signal. - * Ignore interrupt signals while waiting - * unless `canintr' is true. - */ -int -waitfor(lastpid, canintr) -register int lastpid; -int canintr; -{ - register int pid, rv; - int s; - int oheedint = heedint; - - heedint = 0; - rv = 0; - do { - pid = wait(&s); - if (pid == -1) { - if (errno != EINTR || canintr) - break; - } else { - if ((rv = WAITSIG(s)) != 0) { - if (rv < NSIGNAL) { - if (signame[rv] != NULL) { - if (pid != lastpid) { - prn(pid); - prs(": "); - } - prs(signame[rv]); - } - } else { - if (pid != lastpid) { - prn(pid); - prs(": "); - } - prs("Signal "); prn(rv); prs(" "); - } - if (WAITCORE(s)) - prs(" - core dumped"); - if (rv >= NSIGNAL || signame[rv]) - prs("\n"); - rv = -1; - } else - rv = WAITVAL(s); - } - } while (pid != lastpid); - heedint = oheedint; - if (intr) - if (talking) { - if (canintr) - intr = 0; - } else { - if (exstat == 0) exstat = rv; - onintr(0); - } - return(rv); -} - -int -setstatus(s) -register int s; -{ - exstat = s; - setval(lookup("?"), putn(s)); - return(s); -} - -/* - * PATH-searching interface to execve. - * If getenv("PATH") were kept up-to-date, - * execvp might be used. - */ -char * -rexecve(c, v, envp) -char *c, **v, **envp; -{ - register int i; - register char *sp, *tp; - int eacces = 0, asis = 0; - - sp = any('/', c)? "": path->value; - asis = *sp == '\0'; - while (asis || *sp != '\0') { - asis = 0; - tp = e.linep; - for (; *sp != '\0'; tp++) - if ((*tp = *sp++) == ':') { - asis = *sp == '\0'; - break; - } - if (tp != e.linep) - *tp++ = '/'; - for (i = 0; (*tp++ = c[i++]) != '\0';) - ; - execve(e.linep, v, envp); - switch (errno) { - case ENOEXEC: - *v = e.linep; - tp = *--v; - *v = e.linep; - execve("/bin/sh", v, envp); - *v = tp; - return("no Shell"); - - case ENOMEM: - return("program too big"); - - case E2BIG: - return("argument list too long"); - - case EACCES: - eacces++; - break; - } - } - return(errno==ENOENT ? "not found" : "cannot execute"); -} - -/* - * Run the command produced by generator `f' - * applied to stream `arg'. - */ -int -run(argp, f) -struct ioarg *argp; -int (*f)(); -{ - struct op *otree; - struct wdblock *swdlist; - struct wdblock *siolist; - jmp_buf ev, rt; - xint *ofail; - int rv; - - areanum++; - swdlist = wdlist; - siolist = iolist; - otree = outtree; - ofail = failpt; - rv = -1; - if (newenv(setjmp(errpt = ev)) == 0) { - wdlist = 0; - iolist = 0; - pushio(argp, f); - e.iobase = e.iop; - yynerrs = 0; - if (setjmp(failpt = rt) == 0 && yyparse() == 0) - rv = execute(outtree, NOPIPE, NOPIPE, 0); - quitenv(); - } - wdlist = swdlist; - iolist = siolist; - failpt = ofail; - outtree = otree; - freearea(areanum--); - return(rv); -} - -/* -------- do.c -------- */ -/* #include "sh.h" */ - -/* - * built-in commands: doX - */ - -int -dolabel() -{ - return(0); -} - -int -dochdir(t) -register struct op *t; -{ - register char *cp, *er; - - if ((cp = t->words[1]) == NULL && (cp = homedir->value) == NULL) - er = ": no home directory"; - else if(chdir(cp) < 0) - er = ": bad directory"; - else - return(0); - prs(cp != NULL? cp: "cd"); - err(er); - return(1); -} - -int -doshift(t) -register struct op *t; -{ - register n; - - n = t->words[1]? getn(t->words[1]): 1; - if(dolc < n) { - err("nothing to shift"); - return(1); - } - dolv[n] = dolv[0]; - dolv += n; - dolc -= n; - setval(lookup("#"), putn(dolc)); - return(0); -} - -/* - * execute login and newgrp directly - */ -int -dologin(t) -struct op *t; -{ - register char *cp; - - if (talking) { - signal(SIGINT, SIG_DFL); - signal(SIGQUIT, SIG_DFL); - } - cp = rexecve(t->words[0], t->words, makenv()); - prs(t->words[0]); prs(": "); err(cp); - return(1); -} - -int -doumask(t) -register struct op *t; -{ - register int i, n; - register char *cp; - - if ((cp = t->words[1]) == NULL) { - i = umask(0); - umask(i); - for (n=3*4; (n-=3) >= 0;) - putc('0'+((i>>n)&07)); - putc('\n'); - } else { - for (n=0; *cp>='0' && *cp<='9'; cp++) - n = n*8 + (*cp-'0'); - umask(n); - } - return(0); -} - -int -doexec(t) -register struct op *t; -{ - register i; - jmp_buf ex; - xint *ofail; - - t->ioact = NULL; - for(i = 0; (t->words[i]=t->words[i+1]) != NULL; i++) - ; - if (i == 0) - return(1); - execflg = 1; - ofail = failpt; - if (setjmp(failpt = ex) == 0) - execute(t, NOPIPE, NOPIPE, FEXEC); - failpt = ofail; - execflg = 0; - return(1); -} - -int -dodot(t) -struct op *t; -{ - register i; - register char *sp, *tp; - char *cp; - - if ((cp = t->words[1]) == NULL) - return(0); - sp = any('/', cp)? ":": path->value; - while (*sp) { - tp = e.linep; - while (*sp && (*tp = *sp++) != ':') - tp++; - if (tp != e.linep) - *tp++ = '/'; - for (i = 0; (*tp++ = cp[i++]) != '\0';) - ; - if ((i = open(e.linep, 0)) >= 0) { - exstat = 0; - next(remap(i)); - return(exstat); - } - } - prs(cp); - err(": not found"); - return(-1); -} - -int -dowait(t) -struct op *t; -{ - register i; - register char *cp; - - if ((cp = t->words[1]) != NULL) { - i = getn(cp); - if (i == 0) - return(0); - } else - i = -1; - setstatus(waitfor(i, 1)); - return(0); -} - -int -doread(t) -struct op *t; -{ - register char *cp, **wp; - register nb; - register int nl = 0; - - if (t->words[1] == NULL) { - err("Usage: read name ..."); - return(1); - } - for (wp = t->words+1; *wp; wp++) { - for (cp = e.linep; !nl && cp < elinep-1; cp++) - if ((nb = read(0, cp, sizeof(*cp))) != sizeof(*cp) || - (nl = (*cp == '\n')) || - (wp[1] && any(*cp, ifs->value))) - break; - *cp = 0; - if (nb <= 0) - break; - setval(lookup(*wp), e.linep); - } - return(nb <= 0); -} - -int -doeval(t) -register struct op *t; -{ - return(RUN(awordlist, t->words+1, wdchar)); -} - -int -dotrap(t) -register struct op *t; -{ - register int n, i; - register int resetsig; - - if (t->words[1] == NULL) { - for (i=0; i<=_NSIG; i++) - if (trap[i]) { - prn(i); - prs(": "); - prs(trap[i]); - prs("\n"); - } - return(0); - } - resetsig = digit(*t->words[1]); - for (i = resetsig ? 1 : 2; t->words[i] != NULL; ++i) { - n = getsig(t->words[i]); - xfree(trap[n]); - trap[n] = 0; - if (!resetsig) { - if (*t->words[1] != '\0') { - trap[n] = strsave(t->words[1], 0); - setsig(n, sig); - } else - setsig(n, SIG_IGN); - } else { - if (talking) - if (n == SIGINT) - setsig(n, onintr); - else - setsig(n, n == SIGQUIT ? SIG_IGN - : SIG_DFL); - else - setsig(n, SIG_DFL); - } - } - return(0); -} - -int -getsig(s) -char *s; -{ - register int n; - - if ((n = getn(s)) < 0 || n > _NSIG) { - err("trap: bad signal number"); - n = 0; - } - return(n); -} - -void -setsig(n, f) -register n; -_PROTOTYPE(void (*f), (int)); -{ - if (n == 0) - return; - if (signal(n, SIG_IGN) != SIG_IGN || ourtrap[n]) { - ourtrap[n] = 1; - signal(n, f); - } -} - -int -getn(as) -char *as; -{ - register char *s; - register n, m; - - s = as; - m = 1; - if (*s == '-') { - m = -1; - s++; - } - for (n = 0; digit(*s); s++) - n = (n*10) + (*s-'0'); - if (*s) { - prs(as); - err(": bad number"); - } - return(n*m); -} - -int -dobreak(t) -struct op *t; -{ - return(brkcontin(t->words[1], 1)); -} - -int -docontinue(t) -struct op *t; -{ - return(brkcontin(t->words[1], 0)); -} - -static int -brkcontin(cp, val) -register char *cp; -int val; -{ - register struct brkcon *bc; - register nl; - - nl = cp == NULL? 1: getn(cp); - if (nl <= 0) - nl = 999; - do { - if ((bc = brklist) == NULL) - break; - brklist = bc->nextlev; - } while (--nl); - if (nl) { - err("bad break/continue level"); - return(1); - } - isbreak = val; - longjmp(bc->brkpt, 1); - /* NOTREACHED */ -} - -int -doexit(t) -struct op *t; -{ - register char *cp; - - execflg = 0; - if ((cp = t->words[1]) != NULL) - setstatus(getn(cp)); - leave(); - /* NOTREACHED */ -} - -int -doexport(t) -struct op *t; -{ - rdexp(t->words+1, export, EXPORT); - return(0); -} - -int -doreadonly(t) -struct op *t; -{ - rdexp(t->words+1, ronly, RONLY); - return(0); -} - -static void -rdexp(wp, f, key) -register char **wp; -void (*f)(); -int key; -{ - if (*wp != NULL) { - for (; *wp != NULL; wp++) - if (checkname(*wp)) - (*f)(lookup(*wp)); - else - badid(*wp); - } else - putvlist(key, 1); -} - -static void -badid(s) -register char *s; -{ - prs(s); - err(": bad identifier"); -} - -int -doset(t) -register struct op *t; -{ - register struct var *vp; - register char *cp; - register n; - - if ((cp = t->words[1]) == NULL) { - for (vp = vlist; vp; vp = vp->next) - varput(vp->name, 1); - return(0); - } - if (*cp == '-') { - /* bad: t->words++; */ - for(n = 0; (t->words[n]=t->words[n+1]) != NULL; n++) - ; - if (*++cp == 0) - flag['x'] = flag['v'] = 0; - else - for (; *cp; cp++) - switch (*cp) { - case 'e': - if (!talking) - flag['e']++; - break; - - default: - if (*cp>='a' && *cp<='z') - flag[*cp]++; - break; - } - setdash(); - } - if (t->words[1]) { - t->words[0] = dolv[0]; - for (n=1; t->words[n]; n++) - setarea((char *)t->words[n], 0); - dolc = n-1; - dolv = t->words; - setval(lookup("#"), putn(dolc)); - setarea((char *)(dolv-1), 0); - } - return(0); -} - -void -varput(s, out) -register char *s; -int out; -{ - if (letnum(*s)) { - write(out, s, strlen(s)); - write(out, "\n", 1); - } -} - - -#define SECS 60L -#define MINS 3600L - -int -dotimes() -{ - struct tms tbuf; - - times(&tbuf); - - prn((int)(tbuf.tms_cutime / MINS)); - prs("m"); - prn((int)((tbuf.tms_cutime % MINS) / SECS)); - prs("s "); - prn((int)(tbuf.tms_cstime / MINS)); - prs("m"); - prn((int)((tbuf.tms_cstime % MINS) / SECS)); - prs("s\n"); - return(0); -} - -struct builtin { - char *command; - int (*fn)(); -}; -static struct builtin builtin[] = { - ":", dolabel, - "cd", dochdir, - "shift", doshift, - "exec", doexec, - "wait", dowait, - "read", doread, - "eval", doeval, - "trap", dotrap, - "break", dobreak, - "continue", docontinue, - "exit", doexit, - "export", doexport, - "readonly", doreadonly, - "set", doset, - ".", dodot, - "umask", doumask, - "login", dologin, - "newgrp", dologin, - "times", dotimes, - 0, -}; - -int (*inbuilt(s))() -register char *s; -{ - register struct builtin *bp; - - for (bp = builtin; bp->command != NULL; bp++) - if (strcmp(bp->command, s) == 0) - return(bp->fn); - return((int(*)())NULL); -} - diff --git a/release/picobsd/tinyware/msh/sh4.c b/release/picobsd/tinyware/msh/sh4.c deleted file mode 100644 index ac2a5827aeea..000000000000 --- a/release/picobsd/tinyware/msh/sh4.c +++ /dev/null @@ -1,767 +0,0 @@ -#define Extern extern -#include <sys/types.h> -#include <sys/stat.h> -#include <dirent.h> -#include <limits.h> -#include <signal.h> -#define _NSIG NSIG -#include <errno.h> -#include <setjmp.h> -#include "sh.h" - -/* -------- eval.c -------- */ -/* #include "sh.h" */ -/* #include "word.h" */ - -/* - * ${} - * `command` - * blank interpretation - * quoting - * glob - */ - -_PROTOTYPE(static int expand, (char *cp, struct wdblock **wbp, int f )); -_PROTOTYPE(static char *blank, (int f )); -_PROTOTYPE(static int dollar, (int quoted )); -_PROTOTYPE(static int grave, (int quoted )); -_PROTOTYPE(void globname, (char *we, char *pp )); -_PROTOTYPE(static char *generate, (char *start1, char *end1, char *middle, char *end )); -_PROTOTYPE(static int anyspcl, (struct wdblock *wb )); -_PROTOTYPE(static int xstrcmp, (char *p1, char *p2 )); -_PROTOTYPE(void glob0, (char *a0, unsigned int a1, int a2, int (*a3)(char *, char *))); -_PROTOTYPE(void glob1, (char *base, char *lim )); -_PROTOTYPE(void glob2, (char *i, char *j )); -_PROTOTYPE(void glob3, (char *i, char *j, char *k )); -_PROTOTYPE(char *memcopy, (char *ato, char *from, int nb )); - -char ** -eval(ap, f) -register char **ap; -int f; -{ - struct wdblock *wb; - char **wp; - char **wf; - jmp_buf ev; - - wp = NULL; - wb = NULL; - wf = NULL; - if (newenv(setjmp(errpt = ev)) == 0) { - while (*ap && isassign(*ap)) - expand(*ap++, &wb, f & ~DOGLOB); - if (flag['k']) { - for (wf = ap; *wf; wf++) { - if (isassign(*wf)) - expand(*wf, &wb, f & ~DOGLOB); - } - } - for (wb = addword((char *)0, wb); *ap; ap++) { - if (!flag['k'] || !isassign(*ap)) - expand(*ap, &wb, f & ~DOKEY); - } - wb = addword((char *)0, wb); - wp = getwords(wb); - quitenv(); - } else - gflg = 1; - return(gflg? (char **)NULL: wp); -} - -/* - * Make the exported environment from the exported - * names in the dictionary. Keyword assignments - * will already have been done. - */ -char ** -makenv() - -{ - register struct wdblock *wb; - register struct var *vp; - - wb = NULL; - for (vp = vlist; vp; vp = vp->next) - if (vp->status & EXPORT) - wb = addword(vp->name, wb); - wb = addword((char *)0, wb); - return(getwords(wb)); -} - -char * -evalstr(cp, f) -register char *cp; -int f; -{ - struct wdblock *wb; - - wb = NULL; - if (expand(cp, &wb, f)) { - if (wb == NULL || wb->w_nword == 0 || (cp = wb->w_words[0]) == NULL) - cp = ""; - DELETE(wb); - } else - cp = NULL; - return(cp); -} - -static int -expand(cp, wbp, f) -register char *cp; -register struct wdblock **wbp; -int f; -{ - jmp_buf ev; - - gflg = 0; - if (cp == NULL) - return(0); - if (!anys("$`'\"", cp) && - !anys(ifs->value, cp) && - ((f&DOGLOB)==0 || !anys("[*?", cp))) { - cp = strsave(cp, areanum); - if (f & DOTRIM) - unquote(cp); - *wbp = addword(cp, *wbp); - return(1); - } - if (newenv(setjmp(errpt = ev)) == 0) { - PUSHIO(aword, cp, strchar); - e.iobase = e.iop; - while ((cp = blank(f)) && gflg == 0) { - e.linep = cp; - cp = strsave(cp, areanum); - if ((f&DOGLOB) == 0) { - if (f & DOTRIM) - unquote(cp); - *wbp = addword(cp, *wbp); - } else - *wbp = glob(cp, *wbp); - } - quitenv(); - } else - gflg = 1; - return(gflg == 0); -} - -/* - * Blank interpretation and quoting - */ -static char * -blank(f) -int f; -{ - register c, c1; - register char *sp; - int scanequals, foundequals; - - sp = e.linep; - scanequals = f & DOKEY; - foundequals = 0; - -loop: - switch (c = subgetc('"', foundequals)) { - case 0: - if (sp == e.linep) - return(0); - *e.linep++ = 0; - return(sp); - - default: - if (f & DOBLANK && any(c, ifs->value)) - goto loop; - break; - - case '"': - case '\'': - scanequals = 0; - if (INSUB()) - break; - for (c1 = c; (c = subgetc(c1, 1)) != c1;) { - if (c == 0) - break; - if (c == '\'' || !any(c, "$`\"")) - c |= QUOTE; - *e.linep++ = c; - } - c = 0; - } - unget(c); - if (!letter(c)) - scanequals = 0; - for (;;) { - c = subgetc('"', foundequals); - if (c == 0 || - f & (DOBLANK && any(c, ifs->value)) || - (!INSUB() && any(c, "\"'"))) { - scanequals = 0; - unget(c); - if (any(c, "\"'")) - goto loop; - break; - } - if (scanequals) - if (c == '=') { - foundequals = 1; - scanequals = 0; - } - else if (!letnum(c)) - scanequals = 0; - *e.linep++ = c; - } - *e.linep++ = 0; - return(sp); -} - -/* - * Get characters, substituting for ` and $ - */ -int -subgetc(ec, quoted) -register char ec; -int quoted; -{ - register char c; - -again: - c = getc(ec); - if (!INSUB() && ec != '\'') { - if (c == '`') { - if (grave(quoted) == 0) - return(0); - e.iop->task = XGRAVE; - goto again; - } - if (c == '$' && (c = dollar(quoted)) == 0) { - e.iop->task = XDOLL; - goto again; - } - } - return(c); -} - -/* - * Prepare to generate the string returned by ${} substitution. - */ -static int -dollar(quoted) -int quoted; -{ - int otask; - struct io *oiop; - char *dolp; - register char *s, c, *cp; - struct var *vp; - - c = readc(); - s = e.linep; - if (c != '{') { - *e.linep++ = c; - if (letter(c)) { - while ((c = readc())!=0 && letnum(c)) - if (e.linep < elinep) - *e.linep++ = c; - unget(c); - } - c = 0; - } else { - oiop = e.iop; - otask = e.iop->task; - e.iop->task = XOTHER; - while ((c = subgetc('"', 0))!=0 && c!='}' && c!='\n') - if (e.linep < elinep) - *e.linep++ = c; - if (oiop == e.iop) - e.iop->task = otask; - if (c != '}') { - err("unclosed ${"); - gflg++; - return(c); - } - } - if (e.linep >= elinep) { - err("string in ${} too long"); - gflg++; - e.linep -= 10; - } - *e.linep = 0; - if (*s) - for (cp = s+1; *cp; cp++) - if (any(*cp, "=-+?")) { - c = *cp; - *cp++ = 0; - break; - } - if (s[1] == 0 && (*s == '*' || *s == '@')) { - if (dolc > 1) { - /* currently this does not distinguish $* and $@ */ - /* should check dollar */ - e.linep = s; - PUSHIO(awordlist, dolv+1, dolchar); - return(0); - } else { /* trap the nasty ${=} */ - s[0] = '1'; - s[1] = 0; - } - } - vp = lookup(s); - if ((dolp = vp->value) == null) { - switch (c) { - case '=': - if (digit(*s)) { - err("cannot use ${...=...} with $n"); - gflg++; - break; - } - setval(vp, cp); - dolp = vp->value; - break; - - case '-': - dolp = strsave(cp, areanum); - break; - - case '?': - if (*cp == 0) { - prs("missing value for "); - err(s); - } else - err(cp); - gflg++; - break; - } - } else if (c == '+') - dolp = strsave(cp, areanum); - if (flag['u'] && dolp == null) { - prs("unset variable: "); - err(s); - gflg++; - } - e.linep = s; - PUSHIO(aword, dolp, quoted ? qstrchar : strchar); - return(0); -} - -/* - * Run the command in `...` and read its output. - */ -static int -grave(quoted) -int quoted; -{ - register char *cp; - register int i; - int pf[2]; - - for (cp = e.iop->argp->aword; *cp != '`'; cp++) - if (*cp == 0) { - err("no closing `"); - return(0); - } - if (openpipe(pf) < 0) - return(0); - if ((i = fork()) == -1) { - closepipe(pf); - err("try again"); - return(0); - } - if (i != 0) { - e.iop->argp->aword = ++cp; - close(pf[1]); - PUSHIO(afile, remap(pf[0]), quoted? qgravechar: gravechar); - return(1); - } - *cp = 0; - /* allow trapped signals */ - for (i=0; i<=_NSIG; i++) - if (ourtrap[i] && signal(i, SIG_IGN) != SIG_IGN) - signal(i, SIG_DFL); - dup2(pf[1], 1); - closepipe(pf); - flag['e'] = 0; - flag['v'] = 0; - flag['n'] = 0; - cp = strsave(e.iop->argp->aword, 0); - areanum = 1; - freehere(areanum); - freearea(areanum); /* free old space */ - e.oenv = NULL; - e.iop = (e.iobase = iostack) - 1; - unquote(cp); - talking = 0; - PUSHIO(aword, cp, nlchar); - onecommand(); - exit(1); -} - -char * -unquote(as) -register char *as; -{ - register char *s; - - if ((s = as) != NULL) - while (*s) - *s++ &= ~QUOTE; - return(as); -} - -/* -------- glob.c -------- */ -/* #include "sh.h" */ - -/* - * glob - */ - -#define scopy(x) strsave((x), areanum) -#define BLKSIZ 512 -#define NDENT ((BLKSIZ+sizeof(struct dirent)-1)/sizeof(struct dirent)) - -static struct wdblock *cl, *nl; -static char spcl[] = "[?*"; - -struct wdblock * -glob(cp, wb) -char *cp; -struct wdblock *wb; -{ - register i; - register char *pp; - - if (cp == 0) - return(wb); - i = 0; - for (pp = cp; *pp; pp++) - if (any(*pp, spcl)) - i++; - else if (!any(*pp & ~QUOTE, spcl)) - *pp &= ~QUOTE; - if (i != 0) { - for (cl = addword(scopy(cp), (struct wdblock *)0); anyspcl(cl); cl = nl) { - nl = newword(cl->w_nword*2); - for(i=0; i<cl->w_nword; i++) { /* for each argument */ - for (pp = cl->w_words[i]; *pp; pp++) - if (any(*pp, spcl)) { - globname(cl->w_words[i], pp); - break; - } - if (*pp == '\0') - nl = addword(scopy(cl->w_words[i]), nl); - } - for(i=0; i<cl->w_nword; i++) - DELETE(cl->w_words[i]); - DELETE(cl); - } - for(i=0; i<cl->w_nword; i++) - unquote(cl->w_words[i]); - glob0((char *)cl->w_words, cl->w_nword, sizeof(char *), xstrcmp); - if (cl->w_nword) { - for (i=0; i<cl->w_nword; i++) - wb = addword(cl->w_words[i], wb); - DELETE(cl); - return(wb); - } - } - wb = addword(unquote(cp), wb); - return(wb); -} - -void -globname(we, pp) -char *we; -register char *pp; -{ - register char *np, *cp; - char *name, *gp, *dp; - int dn, j, n, k; - DIR *dirp; - struct dirent *de; - char dname[NAME_MAX+1]; - struct stat dbuf; - - for (np = we; np != pp; pp--) - if (pp[-1] == '/') - break; - for (dp = cp = space((int)(pp-np)+3); np < pp;) - *cp++ = *np++; - *cp++ = '.'; - *cp = '\0'; - for (gp = cp = space(strlen(pp)+1); *np && *np != '/';) - *cp++ = *np++; - *cp = '\0'; - dirp = opendir(dp); - if (dirp == 0) { - DELETE(dp); - DELETE(gp); - return; - } - dname[NAME_MAX] = '\0'; - while ((de=readdir(dirp))!=NULL) { - /* XXX Hmmm... What this could be? (abial) */ - /* - if (ent[j].d_ino == 0) - continue; - */ - strncpy(dname, de->d_name, NAME_MAX); - if (dname[0] == '.') - if (*gp != '.') - continue; - for(k=0; k<NAME_MAX; k++) - if (any(dname[k], spcl)) - dname[k] |= QUOTE; - if (gmatch(dname, gp)) { - name = generate(we, pp, dname, np); - if (*np && !anys(np, spcl)) { - if (stat(name,&dbuf)) { - DELETE(name); - continue; - } - } - nl = addword(name, nl); - } - } - closedir(dirp); - DELETE(dp); - DELETE(gp); -} - -/* - * generate a pathname as below. - * start..end1 / middle end - * the slashes come for free - */ -static char * -generate(start1, end1, middle, end) -char *start1; -register char *end1; -char *middle, *end; -{ - char *p; - register char *op, *xp; - - p = op = space((int)(end1-start1)+strlen(middle)+strlen(end)+2); - for (xp = start1; xp != end1;) - *op++ = *xp++; - for (xp = middle; (*op++ = *xp++) != '\0';) - ; - op--; - for (xp = end; (*op++ = *xp++) != '\0';) - ; - return(p); -} - -static int -anyspcl(wb) -register struct wdblock *wb; -{ - register i; - register char **wd; - - wd = wb->w_words; - for (i=0; i<wb->w_nword; i++) - if (anys(spcl, *wd++)) - return(1); - return(0); -} - -static int -xstrcmp(p1, p2) -char *p1, *p2; -{ - return(strcmp(*(char **)p1, *(char **)p2)); -} - -/* -------- word.c -------- */ -/* #include "sh.h" */ -/* #include "word.h" */ - -#define NSTART 16 /* default number of words to allow for initially */ - -struct wdblock * -newword(nw) -register int nw; -{ - register struct wdblock *wb; - - wb = (struct wdblock *) space(sizeof(*wb) + nw*sizeof(char *)); - wb->w_bsize = nw; - wb->w_nword = 0; - return(wb); -} - -struct wdblock * -addword(wd, wb) -char *wd; -register struct wdblock *wb; -{ - register struct wdblock *wb2; - register nw; - - if (wb == NULL) - wb = newword(NSTART); - if ((nw = wb->w_nword) >= wb->w_bsize) { - wb2 = newword(nw * 2); - memcopy((char *)wb2->w_words, (char *)wb->w_words, nw*sizeof(char *)); - wb2->w_nword = nw; - DELETE(wb); - wb = wb2; - } - wb->w_words[wb->w_nword++] = wd; - return(wb); -} - -char ** -getwords(wb) -register struct wdblock *wb; -{ - register char **wd; - register nb; - - if (wb == NULL) - return((char **)NULL); - if (wb->w_nword == 0) { - DELETE(wb); - return((char **)NULL); - } - wd = (char **) space(nb = sizeof(*wd) * wb->w_nword); - memcopy((char *)wd, (char *)wb->w_words, nb); - DELETE(wb); /* perhaps should done by caller */ - return(wd); -} - -_PROTOTYPE(int (*func), (char *, char *)); -int globv; - -void -glob0(a0, a1, a2, a3) -char *a0; -unsigned a1; -int a2; -_PROTOTYPE(int (*a3), (char *, char *)); -{ - func = a3; - globv = a2; - glob1(a0, a0 + a1 * a2); -} - -void -glob1(base, lim) -char *base, *lim; -{ - register char *i, *j; - int v2; - char *lptr, *hptr; - int c; - unsigned n; - - - v2 = globv; - -top: - if ((n=(int)(lim-base)) <= v2) - return; - n = v2 * (n / (2*v2)); - hptr = lptr = base+n; - i = base; - j = lim-v2; - for(;;) { - if (i < lptr) { - if ((c = (*func)(i, lptr)) == 0) { - glob2(i, lptr -= v2); - continue; - } - if (c < 0) { - i += v2; - continue; - } - } - -begin: - if (j > hptr) { - if ((c = (*func)(hptr, j)) == 0) { - glob2(hptr += v2, j); - goto begin; - } - if (c > 0) { - if (i == lptr) { - glob3(i, hptr += v2, j); - i = lptr += v2; - goto begin; - } - glob2(i, j); - j -= v2; - i += v2; - continue; - } - j -= v2; - goto begin; - } - - - if (i == lptr) { - if (lptr-base >= lim-hptr) { - glob1(hptr+v2, lim); - lim = lptr; - } else { - glob1(base, lptr); - base = hptr+v2; - } - goto top; - } - - - glob3(j, lptr -= v2, i); - j = hptr -= v2; - } -} - -void -glob2(i, j) -char *i, *j; -{ - register char *index1, *index2, c; - int m; - - m = globv; - index1 = i; - index2 = j; - do { - c = *index1; - *index1++ = *index2; - *index2++ = c; - } while(--m); -} - -void -glob3(i, j, k) -char *i, *j, *k; -{ - register char *index1, *index2, *index3; - int c; - int m; - - m = globv; - index1 = i; - index2 = j; - index3 = k; - do { - c = *index1; - *index1++ = *index3; - *index3++ = *index2; - *index2++ = c; - } while(--m); -} - -char * -memcopy(ato, from, nb) -register char *ato, *from; -register int nb; -{ - register char *to; - - to = ato; - while (--nb >= 0) - *to++ = *from++; - return(ato); -} diff --git a/release/picobsd/tinyware/msh/sh5.c b/release/picobsd/tinyware/msh/sh5.c deleted file mode 100644 index 74feac9cebce..000000000000 --- a/release/picobsd/tinyware/msh/sh5.c +++ /dev/null @@ -1,675 +0,0 @@ -#define Extern extern -#include <sys/types.h> -#include <signal.h> -#define _NSIG NSIG -#include <errno.h> -#include <setjmp.h> -#include "sh.h" - -/* -------- io.c -------- */ -/* #include "sh.h" */ - -/* - * shell IO - */ - -static struct iobuf sharedbuf = {AFID_NOBUF}; -static struct iobuf mainbuf = {AFID_NOBUF}; -static unsigned bufid = AFID_ID; /* buffer id counter */ - -struct ioarg temparg = {0, 0, 0, AFID_NOBUF, 0}; - -_PROTOTYPE(static void readhere, (char **name, char *s, int ec )); -_PROTOTYPE(void pushio, (struct ioarg *argp, int (*fn)())); -_PROTOTYPE(static int xxchar, (struct ioarg *ap )); -_PROTOTYPE(void tempname, (char *tname )); - -int -getc(ec) -register int ec; -{ - register int c; - - if(e.linep > elinep) { - while((c=readc()) != '\n' && c) - ; - err("input line too long"); - gflg++; - return(c); - } - c = readc(); - if (ec != '\'' && e.iop->task != XGRAVE) { - if(c == '\\') { - c = readc(); - if (c == '\n' && ec != '\"') - return(getc(ec)); - c |= QUOTE; - } - } - return(c); -} - -void -unget(c) -int c; -{ - if (e.iop >= e.iobase) - e.iop->peekc = c; -} - -int -eofc() - -{ - return e.iop < e.iobase || (e.iop->peekc == 0 && e.iop->prev == 0); -} - -int -readc() -{ - register c; - - for (; e.iop >= e.iobase; e.iop--) - if ((c = e.iop->peekc) != '\0') { - e.iop->peekc = 0; - return(c); - } - else { - if (e.iop->prev != 0) { - if ((c = (*e.iop->iofn)(e.iop->argp, e.iop)) != '\0') { - if (c == -1) { - e.iop++; - continue; - } - if (e.iop == iostack) - ioecho(c); - return(e.iop->prev = c); - } - else if (e.iop->task == XIO && e.iop->prev != '\n') { - e.iop->prev = 0; - if (e.iop == iostack) - ioecho('\n'); - return '\n'; - } - } - if (e.iop->task == XIO) { - if (multiline) - return e.iop->prev = 0; - if (talking && e.iop == iostack+1) - prs(prompt->value); - } - } - if (e.iop >= iostack) - return(0); - leave(); - /* NOTREACHED */ -} - -void -ioecho(c) -char c; -{ - if (flag['v']) - write(2, &c, sizeof c); -} - -void -pushio(argp, fn) -struct ioarg *argp; -int (*fn)(); -{ - if (++e.iop >= &iostack[NPUSH]) { - e.iop--; - err("Shell input nested too deeply"); - gflg++; - return; - } - e.iop->iofn = fn; - - if (argp->afid != AFID_NOBUF) - e.iop->argp = argp; - else { - e.iop->argp = ioargstack + (e.iop - iostack); - *e.iop->argp = *argp; - e.iop->argp->afbuf = e.iop == &iostack[0] ? &mainbuf : &sharedbuf; - if (isatty(e.iop->argp->afile) == 0 && - (e.iop == &iostack[0] || - lseek(e.iop->argp->afile, 0L, 1) != -1)) { - if (++bufid == AFID_NOBUF) - bufid = AFID_ID; - e.iop->argp->afid = bufid; - } - } - - e.iop->prev = ~'\n'; - e.iop->peekc = 0; - e.iop->xchar = 0; - e.iop->nlcount = 0; - if (fn == filechar || fn == linechar) - e.iop->task = XIO; - else if (fn == gravechar || fn == qgravechar) - e.iop->task = XGRAVE; - else - e.iop->task = XOTHER; -} - -struct io * -setbase(ip) -struct io *ip; -{ - register struct io *xp; - - xp = e.iobase; - e.iobase = ip; - return(xp); -} - -/* - * Input generating functions - */ - -/* - * Produce the characters of a string, then a newline, then EOF. - */ -int -nlchar(ap) -register struct ioarg *ap; -{ - register int c; - - if (ap->aword == NULL) - return(0); - if ((c = *ap->aword++) == 0) { - ap->aword = NULL; - return('\n'); - } - return(c); -} - -/* - * Given a list of words, produce the characters - * in them, with a space after each word. - */ -int -wdchar(ap) -register struct ioarg *ap; -{ - register char c; - register char **wl; - - if ((wl = ap->awordlist) == NULL) - return(0); - if (*wl != NULL) { - if ((c = *(*wl)++) != 0) - return(c & 0177); - ap->awordlist++; - return(' '); - } - ap->awordlist = NULL; - return('\n'); -} - -/* - * Return the characters of a list of words, - * producing a space between them. - */ -int -dolchar(ap) -register struct ioarg *ap; -{ - register char *wp; - - if ((wp = *ap->awordlist++) != NULL) { - PUSHIO(aword, wp, *ap->awordlist == NULL? strchar: xxchar); - return(-1); - } - return(0); -} - -static int -xxchar(ap) -register struct ioarg *ap; -{ - register int c; - - if (ap->aword == NULL) - return(0); - if ((c = *ap->aword++) == '\0') { - ap->aword = NULL; - return(' '); - } - return(c); -} - -/* - * Produce the characters from a single word (string). - */ -int -strchar(ap) -register struct ioarg *ap; -{ - register int c; - - if (ap->aword == NULL || (c = *ap->aword++) == 0) - return(0); - return(c); -} - -/* - * Produce quoted characters from a single word (string). - */ -int -qstrchar(ap) -register struct ioarg *ap; -{ - register int c; - - if (ap->aword == NULL || (c = *ap->aword++) == 0) - return(0); - return(c|QUOTE); -} - -/* - * Return the characters from a file. - */ -int -filechar(ap) -register struct ioarg *ap; -{ - register int i; - char c; - struct iobuf *bp = ap->afbuf; - - if (ap->afid != AFID_NOBUF) { - if ((i = ap->afid != bp->id) || bp->bufp == bp->ebufp) { - if (i) - lseek(ap->afile, ap->afpos, 0); - do { - i = read(ap->afile, bp->buf, sizeof(bp->buf)); - } while (i < 0 && errno == EINTR); - if (i <= 0) { - closef(ap->afile); - return 0; - } - bp->id = ap->afid; - bp->ebufp = (bp->bufp = bp->buf) + i; - } - ap->afpos++; - return *bp->bufp++ & 0177; - } - - do { - i = read(ap->afile, &c, sizeof(c)); - } while (i < 0 && errno == EINTR); - return(i == sizeof(c)? c&0177: (closef(ap->afile), 0)); -} - -/* - * Return the characters from a here temp file. - */ -int -herechar(ap) -register struct ioarg *ap; -{ - char c; - - - if (read(ap->afile, &c, sizeof(c)) != sizeof(c)) { - close(ap->afile); - c = 0; - } - return (c); - -} - -/* - * Return the characters produced by a process (`...`). - * Quote them if required, and remove any trailing newline characters. - */ -int -gravechar(ap, iop) -struct ioarg *ap; -struct io *iop; -{ - register int c; - - if ((c = qgravechar(ap, iop)&~QUOTE) == '\n') - c = ' '; - return(c); -} - -int -qgravechar(ap, iop) -register struct ioarg *ap; -struct io *iop; -{ - register int c; - - if (iop->xchar) { - if (iop->nlcount) { - iop->nlcount--; - return('\n'|QUOTE); - } - c = iop->xchar; - iop->xchar = 0; - } else if ((c = filechar(ap)) == '\n') { - iop->nlcount = 1; - while ((c = filechar(ap)) == '\n') - iop->nlcount++; - iop->xchar = c; - if (c == 0) - return(c); - iop->nlcount--; - c = '\n'; - } - return(c!=0? c|QUOTE: 0); -} - -/* - * Return a single command (usually the first line) from a file. - */ -int -linechar(ap) -register struct ioarg *ap; -{ - register int c; - - if ((c = filechar(ap)) == '\n') { - if (!multiline) { - closef(ap->afile); - ap->afile = -1; /* illegal value */ - } - } - return(c); -} - -void -prs(s) -register char *s; -{ - if (*s) - write(2, s, strlen(s)); -} - -void -putc(c) -char c; -{ - write(2, &c, sizeof c); -} - -void -prn(u) -unsigned u; -{ - prs(itoa(u, 0)); -} - -void -closef(i) -register int i; -{ - if (i > 2) - close(i); -} - -void -closeall() -{ - register u; - - for (u=NUFILE; u<NOFILE;) - close(u++); -} - -/* - * remap fd into Shell's fd space - */ -int -remap(fd) -register int fd; -{ - register int i; - int map[NOFILE]; - - if (fd < e.iofd) { - for (i=0; i<NOFILE; i++) - map[i] = 0; - do { - map[fd] = 1; - fd = dup(fd); - } while (fd >= 0 && fd < e.iofd); - for (i=0; i<NOFILE; i++) - if (map[i]) - close(i); - if (fd < 0) - err("too many files open in shell"); - } - return(fd); -} - -int -openpipe(pv) -register int *pv; -{ - register int i; - - if ((i = pipe(pv)) < 0) - err("can't create pipe - try again"); - return(i); -} - -void -closepipe(pv) -register int *pv; -{ - if (pv != NULL) { - close(*pv++); - close(*pv); - } -} - -/* -------- here.c -------- */ -/* #include "sh.h" */ - -/* - * here documents - */ - -struct here { - char *h_tag; - int h_dosub; - struct ioword *h_iop; - struct here *h_next; -}; - -static struct here *inhere; /* list of hear docs while parsing */ -static struct here *acthere; /* list of active here documents */ - -void -markhere(s, iop) -register char *s; -struct ioword *iop; -{ - register struct here *h, *lh; - - h = (struct here *) space(sizeof(struct here)); - if (h == 0) - return; - h->h_tag = evalstr(s, DOSUB); - if (h->h_tag == 0) - return; - h->h_iop = iop; - iop->io_name = 0; - h->h_next = NULL; - if (inhere == 0) - inhere = h; - else - for (lh = inhere; lh!=NULL; lh = lh->h_next) - if (lh->h_next == 0) { - lh->h_next = h; - break; - } - iop->io_flag |= IOHERE|IOXHERE; - for (s = h->h_tag; *s; s++) - if (*s & QUOTE) { - iop->io_flag &= ~ IOXHERE; - *s &= ~ QUOTE; - } - h->h_dosub = iop->io_flag & IOXHERE; -} - -void -gethere() -{ - register struct here *h, *hp; - - /* Scan here files first leaving inhere list in place */ - for (hp = h = inhere; h != NULL; hp = h, h = h->h_next) - readhere(&h->h_iop->io_name, h->h_tag, h->h_dosub? 0: '\''); - - /* Make inhere list active - keep list intact for scraphere */ - if (hp != NULL) { - hp->h_next = acthere; - acthere = inhere; - inhere = NULL; - } -} - -static void -readhere(name, s, ec) -char **name; -register char *s; -int ec; -{ - int tf; - char tname[30]; - register c; - jmp_buf ev; - char line [LINELIM+1]; - char *next; - - tempname(tname); - *name = strsave(tname, areanum); - tf = creat(tname, 0600); - if (tf < 0) - return; - if (newenv(setjmp(errpt = ev)) != 0) - unlink(tname); - else { - pushio(e.iop->argp, e.iop->iofn); - e.iobase = e.iop; - for (;;) { - if (talking && e.iop <= iostack) - prs(cprompt->value); - next = line; - while ((c = getc(ec)) != '\n' && c) { - if (ec == '\'') - c &= ~ QUOTE; - if (next >= &line[LINELIM]) { - c = 0; - break; - } - *next++ = c; - } - *next = 0; - if (strcmp(s, line) == 0 || c == 0) - break; - *next++ = '\n'; - write (tf, line, (int)(next-line)); - } - if (c == 0) { - prs("here document `"); prs(s); err("' unclosed"); - } - quitenv(); - } - close(tf); -} - -/* - * open here temp file. - * if unquoted here, expand here temp file into second temp file. - */ -int -herein(hname, xdoll) -char *hname; -int xdoll; -{ - register hf, tf; - - if (hname == 0) - return(-1); - hf = open(hname, 0); - if (hf < 0) - return (-1); - if (xdoll) { - char c; - char tname[30]; - jmp_buf ev; - - tempname(tname); - if ((tf = creat(tname, 0600)) < 0) - return (-1); - if (newenv(setjmp(errpt = ev)) == 0) { - PUSHIO(afile, hf, herechar); - setbase(e.iop); - while ((c = subgetc(0, 0)) != 0) { - c &= ~ QUOTE; - write(tf, &c, sizeof c); - } - quitenv(); - } else - unlink(tname); - close(tf); - tf = open(tname, 0); - unlink(tname); - return (tf); - } else - return (hf); -} - -void -scraphere() -{ - register struct here *h; - - for (h = inhere; h != NULL; h = h->h_next) { - if (h->h_iop && h->h_iop->io_name) - unlink(h->h_iop->io_name); - } - inhere = NULL; -} - -/* unlink here temp files before a freearea(area) */ -void -freehere(area) -int area; -{ - register struct here *h, *hl; - - hl = NULL; - for (h = acthere; h != NULL; h = h->h_next) - if (getarea((char *) h) >= area) { - if (h->h_iop->io_name != NULL) - unlink(h->h_iop->io_name); - if (hl == NULL) - acthere = h->h_next; - else - hl->h_next = h->h_next; - } else - hl = h; -} - -void -tempname(tname) -char *tname; -{ - static int inc; - register char *cp, *lp; - - for (cp = tname, lp = "/tmp/shtm"; (*cp = *lp++) != '\0'; cp++) - ; - lp = putn(getpid()*1000 + inc++); - for (; (*cp = *lp++) != '\0'; cp++) - ; -} diff --git a/release/picobsd/tinyware/msh/sh6.c b/release/picobsd/tinyware/msh/sh6.c deleted file mode 100644 index bd3ba05aeab3..000000000000 --- a/release/picobsd/tinyware/msh/sh6.c +++ /dev/null @@ -1,9 +0,0 @@ -#define Extern - -#include <sys/types.h> -#include <signal.h> -#define _NSIG NSIG -#include <errno.h> -#include <setjmp.h> -#include "sh.h" - |