/* print.c Copyright (C) 1990-2007 Codemist Ltd */
/*
* Printing, plus some file-related operations.
*/
/*
* This code may be used and modified, and redistributed in binary
* or source form, subject to the "CCL Public License", which should
* accompany it. This license is a variant on the BSD license, and thus
* permits use of code derived from this in either open and commercial
* projects: but it does require that updates to this code be made
* available back to the originators of the package.
* Before merging other code in with this or linking this code
* with other packages or libraries please check that the license terms
* of the other material are compatible with those of this.
*/
/* Signature: 50be624f 12-Apr-2008 */
#include "headers.h"
#ifdef COMMON
#include "clsyms.h"
#endif
#ifdef SOCKETS
#include "sockhdr.h"
#endif
FILE *spool_file = NULL;
char spool_file_name[32];
int32_t terminal_column = 0;
int32_t terminal_line_length = (int32_t)0x80000000;
#ifdef HAVE_FWIN
#define default_terminal_line_length fwin_linelength
#else
#define default_terminal_line_length 80
#endif
/*
* The next line is a clue to the unsafe nature of a Standard C library!
* I want to implement "printf-like" functions of my own, but need to
* process the characters others than via a normal (FILE *) object. So I
* use vsprintf etc to place stuff in a buffer from where I can pass it on.
* however usage such as
* my_magic_printf("%s", ...)
* can oh so easily generate unbounded amounts of stuff to overflow any
* buffer I have. I allow space for VPRINTF_CHUNK chars so demand
* discipline of myself in all uses...
*
* The 1999 C standard introduced vsnprintf and solves this worry!
*/
#define VPRINTF_CHUNK 256
void ensure_screen()
{
#ifdef SOCKETS
if (socket_server != 0) flush_socket();
#endif
#ifdef HAVE_FWIN
fwin_ensure_screen();
#else
fflush(stdout);
#endif
if (spool_file != NULL) fflush(spool_file);
}
void MS_CDECL term_printf(char *fmt, ...)
{
va_list a;
char print_temp[VPRINTF_CHUNK], *p;
int n;
va_start(a, fmt);
n = vsprintf(print_temp, fmt, a);
p = print_temp;
while (n-- > 0) char_to_terminal(*p++, 0);
va_end(a);
}
void MS_CDECL stdout_printf(char *fmt, ...)
{
va_list a;
char print_temp[VPRINTF_CHUNK], *p;
int n;
nil_as_base
Lisp_Object stream = qvalue(standard_output);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
va_start(a, fmt);
n = vsprintf(print_temp, fmt, a);
p = print_temp;
while (n-- > 0) putc_stream(*p++, stream);
va_end(a);
}
void MS_CDECL err_printf(char *fmt, ...)
{
va_list a;
char print_temp[VPRINTF_CHUNK], *p;
int n;
nil_as_base
Lisp_Object stream = qvalue(error_output);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
va_start(a, fmt);
n = vsprintf(print_temp, fmt, a);
p = print_temp;
while (n-- > 0) putc_stream(*p++, stream);
va_end(a);
}
void MS_CDECL debug_printf(char *fmt, ...)
{
va_list a;
char print_temp[VPRINTF_CHUNK], *p;
int n;
nil_as_base
Lisp_Object stream = qvalue(debug_io);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
va_start(a, fmt);
n = vsprintf(print_temp, fmt, a);
p = print_temp;
while (n-- > 0) putc_stream(*p++, stream);
va_end(a);
}
void MS_CDECL trace_printf(char *fmt, ...)
{
va_list a;
char print_temp[VPRINTF_CHUNK], *p;
int n;
nil_as_base
Lisp_Object stream = qvalue(trace_output);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
va_start(a, fmt);
n = vsprintf(print_temp, fmt, a);
p = print_temp;
while (n-- > 0) putc_stream(*p++, stream);
va_end(a);
}
Lisp_Object Ltyo(Lisp_Object nil, Lisp_Object a)
{
/*
* Print a character given its character code. NOTE that in earlier
* versions of CSL this always printed to the standard output regardless
* of what output stream was selected. Such a curious behaviour was
* provided for use when magic characters sent to the standard output had
* odd behaviour (eg caused graphics effects). Now tyo is a more
* sensible function for use across all systems. To be generous it
* accepts either a character or a numeric code.
*/
int c;
Lisp_Object stream = qvalue(standard_output);
CSL_IGNORE(nil);
if (a == CHAR_EOF) return onevalue(a);
else if (is_char(a)) c = (int)code_of_char(a);
else if (is_fixnum(a)) c = (int)int_of_fixnum(a);
else return aerror1("tyo", a);
push(a);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
putc_stream(c, stream);
pop(a);
errexit();
return onevalue(a);
}
int char_to_illegal(int c, Lisp_Object f)
{
Lisp_Object nil = C_nil;
CSL_IGNORE(c);
CSL_IGNORE(f);
if (exception_pending()) return 1;
aerror1("Attempt to write to an input stream or one that has been closed",
stream_type(f));
return 1;
}
int char_from_illegal(Lisp_Object f)
{
Lisp_Object nil = C_nil;
CSL_IGNORE(f);
if (exception_pending()) return EOF;
aerror1("Attempt to read from an output stream or one that has been closed",
stream_type(f));
return EOF;
}
int32_t write_action_illegal(int32_t op, Lisp_Object f)
{
CSL_IGNORE(f);
if (op == WRITE_GET_INFO+WRITE_IS_CONSOLE) return 0;
if (op != WRITE_CLOSE)
aerror1("Illegal operation on stream",
cons_no_gc(fixnum_of_int(op >> 8), stream_type(f)));
return 0;
}
int32_t write_action_file(int32_t op, Lisp_Object f)
{
int32_t w;
switch (op & 0xf0000000)
{
case WRITE_CLOSE:
if (stream_file(f) == NULL) op = 0;
else op = fclose(stream_file(f));
set_stream_write_fn(f, char_to_illegal);
set_stream_write_other(f, write_action_illegal);
set_stream_read_fn(f, char_from_illegal);
set_stream_read_other(f, read_action_illegal);
set_stream_file(f, NULL);
return op;
case WRITE_FLUSH:
return fflush(stream_file(f));
case WRITE_SET_LINELENGTH_DEFAULT:
op = 80; /* drop through */
case WRITE_SET_LINELENGTH:
w = stream_line_length(f);
stream_line_length(f) = op & 0x07ffffff;
return w;
case WRITE_SET_COLUMN:
w = stream_char_pos(f);
stream_char_pos(f) = op & 0x07ffffff;
return w;
case WRITE_GET_INFO:
switch (op & 0xff)
{
case WRITE_GET_LINE_LENGTH: return stream_line_length(f);
case WRITE_GET_COLUMN: return stream_char_pos(f);
case WRITE_IS_CONSOLE: return 0;
default:return 0;
}
default:
return 0;
}
}
#if defined HAVE_POPEN || defined HAVE_FWIN
int32_t write_action_pipe(int32_t op, Lisp_Object f)
{
int32_t w;
if (op < 0) return -1;
else switch (op & 0xf0000000)
{
case WRITE_CLOSE:
my_pclose(stream_file(f));
set_stream_write_fn(f, char_to_illegal);
set_stream_write_other(f, write_action_illegal);
set_stream_file(f, NULL);
return 0;
case WRITE_FLUSH:
return my_pipe_flush(stream_file(f));
case WRITE_SET_LINELENGTH_DEFAULT:
op = 80; /* drop through */
case WRITE_SET_LINELENGTH:
w = stream_line_length(f);
stream_line_length(f) = op & 0x07ffffff;
return w;
case WRITE_SET_COLUMN:
w = stream_char_pos(f);
stream_char_pos(f) = op & 0x07ffffff;
return w;
case WRITE_GET_INFO:
switch (op & 0xff)
{
case WRITE_GET_LINE_LENGTH: return stream_line_length(f);
case WRITE_GET_COLUMN: return stream_char_pos(f);
case WRITE_IS_CONSOLE: return 0;
default:return 0;
}
default:
return 0;
}
}
#else
int32_t write_action_pipe(int32_t op, Lisp_Object f)
{
CSL_IGNORE(op); CSL_IGNORE(f);
return -1;
}
#endif
int32_t write_action_terminal(int32_t op, Lisp_Object dummy)
{
int32_t w;
CSL_IGNORE(dummy);
if (op < 0) return -1;
else switch (op & 0xf0000000)
{
case WRITE_CLOSE:
return 0; /* I will never close the terminal stream */
case WRITE_FLUSH:
ensure_screen();
return 0;
case WRITE_SET_LINELENGTH_DEFAULT:
w = terminal_line_length;
terminal_line_length = 0x80000000;
return w;
case WRITE_SET_LINELENGTH:
w = terminal_line_length;
terminal_line_length = op & 0x07ffffff;
return w;
case WRITE_SET_COLUMN:
w = terminal_column;
terminal_column = op & 0x07ffffff;
return w;
case WRITE_GET_INFO:
switch (op & 0xff)
{
case WRITE_GET_LINE_LENGTH: w = terminal_line_length;
if (w == 0x80000000)
w = default_terminal_line_length;
return w;
case WRITE_GET_COLUMN: return terminal_column;
case WRITE_IS_CONSOLE: return 1;
default:return 0;
}
default:
return 0;
}
}
#ifdef HAVE_LIBFOX
int32_t write_action_math(int32_t op, Lisp_Object dummy)
{
CSL_IGNORE(dummy);
if (op < 0) return -1;
else switch (op & 0xf0000000)
{
case WRITE_CLOSE:
return 0; /* I will never close the math stream */
case WRITE_FLUSH: /* not flushed using the normal protocol */
return 0;
case WRITE_SET_LINELENGTH_DEFAULT:
return 0x07ffffff; /* essentially unlimited linelength */
case WRITE_SET_LINELENGTH:
return 0x07ffffff;
case WRITE_SET_COLUMN: /* operation not really supported */
return 0;
case WRITE_GET_INFO:
switch (op & 0xff)
{
case WRITE_GET_LINE_LENGTH: return 0x07ffffff;
case WRITE_GET_COLUMN: return 0;
case WRITE_IS_CONSOLE: return 1;
default:return 0;
}
default:
return 0;
}
}
int32_t write_action_spool(int32_t op, Lisp_Object dummy)
{
int32_t w;
CSL_IGNORE(dummy);
if (op < 0) return -1;
else switch (op & 0xf0000000)
{
case WRITE_CLOSE:
return 0; /* I will never close the spool stream this way */
case WRITE_FLUSH:
if (spool_file != NULL) fflush(spool_file);
return 0;
/*
* In many respects this behaves just like terminal output.
*/
case WRITE_SET_LINELENGTH_DEFAULT:
w = terminal_line_length;
terminal_line_length = 0x80000000;
return w;
case WRITE_SET_LINELENGTH:
w = terminal_line_length;
terminal_line_length = op & 0x07ffffff;
return w;
case WRITE_SET_COLUMN:
w = terminal_column;
terminal_column = op & 0x07ffffff;
return w;
case WRITE_GET_INFO:
switch (op & 0xff)
{
case WRITE_GET_LINE_LENGTH: w = terminal_line_length;
if (w == 0x80000000)
w = default_terminal_line_length;
return w;
case WRITE_GET_COLUMN: return terminal_column;
case WRITE_IS_CONSOLE: return 1;
default:return 0;
}
default:
return 0;
}
}
#endif
int32_t write_action_list(int32_t op, Lisp_Object f)
{
int32_t w;
if (op < 0) return -1;
else switch (op & 0xf0000000)
{
case WRITE_CLOSE:
set_stream_write_fn(f, char_to_illegal);
set_stream_write_other(f, write_action_illegal);
set_stream_file(f, NULL);
return 0;
case WRITE_FLUSH:
return 0;
case WRITE_SET_LINELENGTH_DEFAULT:
case WRITE_SET_LINELENGTH:
return 0x03ffffff;
case WRITE_SET_COLUMN:
w = stream_char_pos(f);
stream_char_pos(f) = op & 0x07ffffff;
return w;
case WRITE_GET_INFO:
switch (op & 0xff)
{
case WRITE_GET_LINE_LENGTH: return 0x03ffffff;
case WRITE_GET_COLUMN: return stream_char_pos(f);
case WRITE_IS_CONSOLE: return 0;
default:return 0;
}
default:
return 0;
}
}
Lisp_Object Lstreamp(Lisp_Object nil, Lisp_Object a)
{
return onevalue(Lispify_predicate(is_stream(a)));
}
Lisp_Object Lis_console(Lisp_Object nil, Lisp_Object a)
{
int r1, r2;
if (!is_stream(a)) return onevalue(nil);
r1 = other_write_action(WRITE_GET_INFO+WRITE_IS_CONSOLE, a);
r2 = other_read_action(READ_IS_CONSOLE, a);
return onevalue(Lispify_predicate(r1 || r2));
}
Lisp_Object make_stream_handle(void)
{
Lisp_Object w = getvector(TAG_VECTOR, TYPE_STREAM, STREAM_SIZE), nil;
errexit();
stream_type(w) = nil;
stream_write_data(w) = nil;
stream_read_data(w) = nil;
set_stream_file(w, 0);
set_stream_write_fn(w, char_to_illegal);
set_stream_write_other(w, write_action_illegal);
stream_line_length(w) = 80;
stream_char_pos(w) = 0;
set_stream_read_fn(w, char_from_illegal);
set_stream_read_other(w, read_action_illegal);
stream_pushed_char(w) = NOT_CHAR;
return w;
}
#ifdef COMMON
Lisp_Object MS_CDECL Lmake_broadcast_stream_n(Lisp_Object nil, int nargs, ...)
{
Lisp_Object r = nil, w, w1;
va_list a;
va_start(a, nargs);
push_args(a, nargs);
while (nargs > 1)
{ pop2(w, w1);
nargs-=2;
r = list2star(w1, w, r);
errexitn(nargs);
}
while (nargs > 0)
{ pop(w);
nargs--;
r = cons(w, r);
errexitn(nargs);
}
push(r);
w = make_stream_handle();
pop(r);
errexit();
set_stream_write_fn(w, char_to_broadcast);
set_stream_write_other(w, write_action_broadcast);
stream_write_data(w) = r;
return onevalue(w);
}
Lisp_Object Lmake_broadcast_stream_1(Lisp_Object nil, Lisp_Object a)
{
return Lmake_broadcast_stream_n(nil, 1, a);
}
Lisp_Object Lmake_broadcast_stream_2(Lisp_Object nil, Lisp_Object a, Lisp_Object b)
{
return Lmake_broadcast_stream_n(nil, 2, a, b);
}
Lisp_Object MS_CDECL Lmake_concatenated_stream_n(Lisp_Object nil, int nargs, ...)
{
Lisp_Object r = nil, w, w1;
va_list a;
va_start(a, nargs);
push_args(a, nargs);
while (nargs > 1)
{ pop2(w, w1);
nargs-=2;
r = list2star(w1, w, r);
errexitn(nargs);
}
while (nargs > 0)
{ pop(w);
nargs--;
r = cons(w, r);
errexitn(nargs);
}
push(r);
w = make_stream_handle();
pop(r);
errexit();
set_stream_read_fn(w, char_from_concatenated);
set_stream_read_other(w, read_action_concatenated);
stream_read_data(w) = r;
return onevalue(w);
}
Lisp_Object Lmake_concatenated_stream_1(Lisp_Object nil, Lisp_Object a)
{
return Lmake_concatenated_stream_n(nil, 1, a);
}
Lisp_Object Lmake_concatenated_stream_2(Lisp_Object nil, Lisp_Object a, Lisp_Object b)
{
return Lmake_concatenated_stream_n(nil, 2, a, b);
}
Lisp_Object Lmake_synonym_stream(Lisp_Object nil, Lisp_Object a)
{
Lisp_Object w;
if (!is_symbol(a)) return aerror1("make-synonym-stream", a);
push(a);
w = make_stream_handle();
pop(a);
errexit();
set_stream_write_fn(w, char_to_synonym);
set_stream_write_other(w, write_action_synonym);
stream_write_data(w) = a;
set_stream_read_fn(w, char_from_synonym);
set_stream_read_other(w, read_action_synonym);
stream_read_data(w) = a;
return onevalue(w);
}
Lisp_Object Lmake_two_way_stream(Lisp_Object nil, Lisp_Object a, Lisp_Object b)
{
Lisp_Object w;
if (!is_symbol(a)) return aerror1("make-two-way-stream", a);
if (!is_symbol(b)) return aerror1("make-two-way-stream", b);
push2(a, b);
w = make_stream_handle();
pop2(b, a);
errexit();
set_stream_write_fn(w, char_to_synonym);
set_stream_write_other(w, write_action_synonym);
stream_write_data(w) = b;
set_stream_read_fn(w, char_from_synonym);
set_stream_read_other(w, read_action_synonym);
stream_read_data(w) = a;
return onevalue(w);
}
Lisp_Object Lmake_echo_stream(Lisp_Object nil, Lisp_Object a, Lisp_Object b)
{
Lisp_Object w;
if (!is_symbol(a)) return aerror1("make-echo-stream", a);
if (!is_symbol(b)) return aerror1("make-echo-stream", b);
push2(a, b);
w = make_stream_handle();
pop2(b, a);
errexit();
set_stream_write_fn(w, char_to_synonym);
set_stream_write_other(w, write_action_synonym);
stream_write_data(w) = b;
set_stream_read_fn(w, char_from_echo);
set_stream_read_other(w, read_action_synonym);
stream_read_data(w) = a;
return onevalue(w);
}
Lisp_Object MS_CDECL Lmake_string_input_stream_n(Lisp_Object nil, int nargs, ...)
{
CSL_IGNORE(nil); CSL_IGNORE(nargs);
return aerror("make-string-input-stream");
}
Lisp_Object Lmake_string_input_stream_1(Lisp_Object nil, Lisp_Object a)
{
return Lmake_string_input_stream_n(nil, 1, a);
}
Lisp_Object Lmake_string_input_stream_2(Lisp_Object nil, Lisp_Object a, Lisp_Object b)
{
return Lmake_string_input_stream_n(nil, 2, a, b);
}
Lisp_Object MS_CDECL Lmake_string_output_stream(Lisp_Object nil, int nargs, ...)
{
Lisp_Object w;
argcheck(nargs, 0, "make-string-output-stream");
w = make_stream_handle();
errexit();
set_stream_write_fn(w, code_to_list);
set_stream_write_other(w, write_action_list);
return onevalue(w);
}
Lisp_Object Lget_output_stream_string(Lisp_Object nil, Lisp_Object a)
{
Lisp_Object w;
int32_t n, k;
if (!is_stream(a)) return aerror1("get-output-stream-string", a);
w = stream_write_data(a);
n = stream_char_pos(a);
stream_write_data(a) = nil;
stream_char_pos(a) = 0;
push(w);
a = getvector(TAG_VECTOR, TYPE_STRING, CELL+n);
pop(w);
errexit();
k = (n + 3) & ~(int32_t)7;
*(int32_t *)((char *)a + k + 4 - TAG_VECTOR) = 0;
if (k != 0) *(int32_t *)((char *)a + k - TAG_VECTOR) = 0;
while (n > 0)
{ n--;
celt(a, n) = int_of_fixnum(qcar(w));
w = qcdr(w);
}
return a;
}
#endif /* COMMON */
/*
* (make-function-stream 'fn) makes a stream where output just passes
* characters to the given function.
*/
Lisp_Object Lmake_function_stream(Lisp_Object nil, Lisp_Object a)
{
Lisp_Object w;
if (!is_symbol(a)) return aerror1("make-function-stream", a);
push(a);
w = make_stream_handle();
pop(a);
errexit();
set_stream_write_fn(w, char_to_function);
set_stream_write_other(w, write_action_list);
stream_write_data(w) = a;
return onevalue(w);
}
int char_to_terminal(int c, Lisp_Object dummy)
{
CSL_IGNORE(dummy);
if (c == '\n' || c == '\f') terminal_column = 0;
else terminal_column++;
if (spool_file != NULL)
{ putc(c, spool_file);
#ifdef DEBUG
fflush(spool_file);
#endif
}
if (procedural_output != NULL) return (*procedural_output)(c);
#ifdef WINDOW_SYSTEM
if (alternative_stdout != NULL)
{ putc(c, alternative_stdout);
return 0;
}
#endif
#ifdef HAVE_FWIN
fwin_putchar(c);
#else
putchar(c);
#endif
return 0; /* indicate success */
}
#ifdef HAVE_LIBFOX
static int math_buffer_size, math_buffer_p;
static char *math_buffer = NULL;
int char_to_math(int c, Lisp_Object stream)
{
if (math_buffer == NULL)
{ math_buffer_size = 500;
math_buffer = (char *)malloc(math_buffer_size);
math_buffer_p = 0;
if (math_buffer == NULL) return 1; /* failed */
}
if (math_buffer_p == math_buffer_size-1)
{ math_buffer_size += 500; /* Grow the buffer */
math_buffer = (char *)realloc(math_buffer, math_buffer_size);
/*
* If I fail to extend the buffer then I will lose some initial part of
* my output. Ugh! But (provided the memory situation improves!) things will
* correct themselves when I next try to display a smaller expression.
*/
if (math_buffer == NULL) return 1;
}
math_buffer[math_buffer_p++] = c;
math_buffer[math_buffer_p] = 0;
return 0;
}
int char_to_spool(int c, Lisp_Object stream)
{
if (spool_file == NULL) return 1;
if (c == '\n' || c == '\f') terminal_column = 0;
else terminal_column++;
putc(c, spool_file);
return 0;
}
#endif
int char_to_file(int c, Lisp_Object stream)
{
if (c == '\n' || c == '\f') stream_char_pos(stream) = 0;
else stream_char_pos(stream)++;
putc(c, stream_file(stream));
return 0; /* indicate success */
}
int char_to_synonym(int c, Lisp_Object f)
{
f = qvalue(stream_write_data(f));
if (!is_stream(f)) return 1;
return putc_stream(c, f);
}
int char_to_function(int c, Lisp_Object f)
{
Lisp_Object nil = C_nil;
f = stream_write_data(f); /* name of the function to call */
(*qfn1(f))(qenv(f), pack_char(0, 0, c & 0xff));
errexit();
return 0; /* return 0 for success */
}
int char_to_broadcast(int c, Lisp_Object f)
{
Lisp_Object l = stream_write_data(f);
int r = 0;
Lisp_Object nil = C_nil;
while (consp(l))
{ f = qcar(l);
l = qcdr(l);
if (!is_symbol(f)) continue;
f = qvalue(f);
if (!is_stream(f)) continue;
push(l);
r = r | putc_stream(c, f);
pop(l);
errexit();
}
return r;
}
int32_t write_action_synonym(int32_t c, Lisp_Object f)
{
int r;
Lisp_Object f1 = qvalue(stream_write_data(f));
if (!is_stream(f1))
return aerror1("attempt to act on",
cons_no_gc(fixnum_of_int(c >> 8), f));
r = other_write_action(c, f1);
if (c == WRITE_CLOSE)
{ set_stream_write_fn(f, char_to_illegal);
set_stream_write_other(f, write_action_illegal);
set_stream_file(f, NULL);
}
return r;
}
int32_t write_action_broadcast(int32_t c, Lisp_Object f)
{
int r = 0, r1;
Lisp_Object l = stream_write_data(f), f1;
Lisp_Object nil = C_nil;
while (consp(l))
{ f1 = qcar(l);
l = qcdr(l);
if (!is_symbol(f1)) continue;
f1 = qvalue(f1);
if (!is_stream(f1)) continue;
push2(l, f);
r1 = other_write_action(c, f1);
pop2(f, l);
errexit();
if (r == 0) r = r1;
}
if (c == WRITE_CLOSE)
{ set_stream_write_fn(f, char_to_illegal);
set_stream_write_other(f, write_action_illegal);
set_stream_file(f, NULL);
}
return r;
}
#if defined HAVE_POPEN || defined HAVE_FWIN
int char_to_pipeout(int c, Lisp_Object stream)
{
if (c == '\n' || c == '\f') stream_char_pos(stream) = 0;
else stream_char_pos(stream)++;
my_pipe_putc(c, stream_file(stream));
return 0; /* indicate success */
}
#else
int char_to_pipeout(int c, Lisp_Object stream)
{
return char_to_illegal(c, stream);
}
#endif
char *get_string_data(Lisp_Object name, char *why, int32_t *len)
{
Lisp_Object nil = C_nil;
Header h;
#ifdef COMMON
if (complex_stringp(name))
{ name = simplify_string(name);
nil = C_nil;
if (exception_pending()) return NULL;
h = vechdr(name);
}
else
#endif
if (symbolp(name))
{ name = get_pname(name);
nil = C_nil;
if (exception_pending()) return NULL;
h = vechdr(name);
}
else if (!(is_vector(name)))
{ aerror1(why, name);
return NULL;
}
else if (type_of_header(h = vechdr(name)) != TYPE_STRING)
{ aerror1(why, name);
return NULL;
}
*len = length_of_header(h) - CELL;
return &celt(name, 0);
}
static Lisp_Object Lfiledate(Lisp_Object nil, Lisp_Object name)
{
char filename[LONGEST_LEGAL_FILENAME], tt[32];
int32_t len;
char *w = get_string_data(name, "filep", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
if (!file_exists(filename, w,
(size_t)len, tt)) return onevalue(nil);
tt[24] = 0;
name = make_string(tt);
errexit();
return onevalue(name);
}
static Lisp_Object Lfilep(Lisp_Object nil, Lisp_Object name)
{
name = Lfiledate(nil, name);
errexit();
if (name != nil) name = lisp_true;
return onevalue(name);
}
Lisp_Object MS_CDECL Ltmpnam(Lisp_Object nil, int nargs, ...)
/*
* Returns a string that is suitable for use as the name of a temporary
* file. Note that this is generally NOT a comfortable thing to use,
* since after tmpnam() has generated the name but before you get around
* to doing anything with the file somebody else may do something that
* interferes. As a result some C compilers issue a warning when they
* see use of tmpnam() at all... Here the potential security issues are
* just left for the user to think about!
*/
{
char *s;
Lisp_Object r;
char tempdir[LONGEST_LEGAL_FILENAME];
#ifdef WIN32
DWORD len = GetTempPath(LONGEST_LEGAL_FILENAME, tempdir);
argcheck(nargs, 0, "tmpnam");
if (len <= 0) return onevalue(nil);
s = tempnam(tempdir, "CSL_t");
#else
argcheck(nargs, 0, "tmpnam");
s = tmpnam(NULL);
#endif
if (s == NULL) return onevalue(nil); /* Sorry - can't do it */
/*
* Ensure that file name only has Lisp-friendly characters in it!
* THIS COULD PROBABLY BREAK THE IDEA THAT THE FILE NAME SHOULD BE
* UNIQUE! But on the systems I have tried it seems OK!
*/
strcpy(tempdir, s);
s = tempdir;
while (*s != 0) s++;
while (s != tempdir)
{ int c = *--s;
if (c=='/' || c=='\\') break;
if (!is_constituent(c)) *s = '_';
}
r = make_string(tempdir);
errexit();
return onevalue(r);
}
static int tmpSerial = 0;
static char tempname[LONGEST_LEGAL_FILENAME];
char *CSLtmpnam(char *suffix, int32_t suffixlen)
{
time_t t0 = time(NULL);
clock_t c0 = clock();
unsigned long taskid;
char fname[LONGEST_LEGAL_FILENAME];
char tt[32];
char *s;
#ifdef WIN32
DWORD len = GetTempPath(LONGEST_LEGAL_FILENAME, tempname);
if (len <= 0) return NULL;
/*
* I want to avoid name clashes fairly often, so I will use the current
* time of day and information about the current process as a seed for the
* generated file-name so that (with luck) clashes are at least not
* incredibly probable. I will also use my source of random numbers, which
* adds variation that changes each time I call this function.
*/
taskid = (unsigned long)GetCurrentThreadId()*169 +
(unsigned long)GetCurrentProcessId();
#else
strcpy(tempname, "/tmp/");
taskid = (unsigned long)getpid()*169 + (unsigned long)getuid();
#endif
taskid = 169*taskid + (unsigned long)t0;
taskid = 169*taskid + (unsigned long)c0;
taskid = 169 * taskid + tmpSerial++;
/*
* The information I have gathered thus far may not change terribly rapidly,
* since the process id is static form any one instance of my code and the
* clock may tick very slowly compared with the CPU's activity.
*/
for (;;)
{ unsigned long n;
int i;
/*
* The next line reduces taskid modulo the largest prime under 2^32, which
* may be a sensible thing to do of "unsigned long" had been a 64-bit
* data type.
*/
n = taskid % 0xfffffffbUL;
/*
* At this stage I have at most 32-bits of information, derived from the
* clock and process identification. I will combine in info from the
* random number generator I have elsewhere in this code, and do that in
* such a way that I can generate 8 characters of file-name.
*/
s = tempname + strlen(tempname);
for (i=0; i<7; i++)
{ int d = (int)(n % 36);
n = n / 36;
if (i == 1) n ^= (unsigned long)Crand();
if (d < 10) d += '0';
else d += ('a' - 10); /* now 0-9 or 1-z */
*s++ = d;
}
n = n % 36;
if (n < 10) *s++ = '0' + (int)n;
else *s++ = 'a' + (int)(n - 10);
if (suffix != NULL)
{ sprintf(s, ".%.*s", (int)suffixlen, suffix);
}
else *s = 0;
/*
* If the file whose name I have just invented already exists I need to
* try again. I will count of the "random" sequence from Crand to propose
* an alternative name for me.
*/
if (file_exists(fname, tempname, strlen(tempname), tt))
{ taskid ^= n;
continue;
}
break;
}
return tempname;
}
Lisp_Object MS_CDECL Ltmpnam1(Lisp_Object nil, Lisp_Object extn)
/*
* Returns a string that is suitable for use as the name of a temporary
* file and that has the given extension. Note that this is generally NOT
* a fully secure thing to use, since after tmpnam() has generated the
* name but before you get around to doing anything with the file
* somebody else may do something that interferes.
*/
{
char *suffix;
int32_t suffixlen;
Lisp_Object r;
suffix = get_string_data(extn, "tmpnam", &suffixlen);
errexit();
suffix = CSLtmpnam(suffix, suffixlen);
if (suffix == NULL) return onevalue(nil);
r = make_string(suffix);
errexit();
return onevalue(r);
}
#ifdef DEBUG
FILE *myopen(char *f, char *m)
{
FILE *s = fopen(f, m);
trace_printf("fopen(%s, %s) = %p\n", f, m, s);
return s;
}
#define fopen(a, b) myopen(a, b)
#endif
/*
* The Common Lisp keywords for OPEN are a horrid mess. I arrange to decode
* the syntax of the keywords in a Lisp-coded wrapper function, and in that
* code I will also fill in default values for any that needs same. I then
* pack all the information into a single integer, which has several
* sub-fields
*
* x x xx xxx 00 direction PROBE
* x x xx xxx 01 INPUT
* x x xx xxx 10 OUTPUT
* x x xx xxx 11 IO
*
* x x xx 000 xx if-exists NIL
* x x xx 001 xx overwrite
* x x xx 010 xx append
* x x xx 011 xx rename
* x x xx 100 xx error
* x x xx 101 xx (new-version)
* x x xx 110 xx (supersede)
* x x xx 111 xx (rename-and-delete)
*
* x x 00 xxx xx if-does-not-exist NIL
* x x 01 xxx xx create
* x x 10 xxx xx error
*
* x 0 xx xxx xx regular text file
* x 1 xx xxx xx open for binary access
*
* 0 x xx xxx xx regular file
* 1 x xx xxx xx open as a pipe
*/
#define DIRECTION_MASK 0x3
#define DIRECTION_PROBE 0x0
#define DIRECTION_INPUT 0x1
#define DIRECTION_OUTPUT 0x2
#define DIRECTION_IO 0x3
#define IF_EXISTS_MASK 0x1c
#define IF_EXISTS_NIL 0x00
#define IF_EXISTS_OVERWRITE 0x04
#define IF_EXISTS_APPEND 0x08
#define IF_EXISTS_RENAME 0x0c
#define IF_EXISTS_ERROR 0x10
#define IF_EXISTS_NEW_VERSION 0x14
#define IF_EXISTS_SUPERSEDE 0x18
#define IF_EXISTS_RENAME_AND_DELETE 0x1c
#define IF_MISSING_MASK 0x60
#define IF_MISSING_NIL 0x00
#define IF_MISSING_CREATE 0x20
#define IF_MISSING_ERROR 0x40
#define OPEN_BINARY 0x80
#define OPEN_PIPE 0x100
Lisp_Object Lopen(Lisp_Object nil, Lisp_Object name, Lisp_Object dir)
{
FILE *file;
Lisp_Object r;
char filename[LONGEST_LEGAL_FILENAME], fn1[LONGEST_LEGAL_FILENAME];
int32_t len;
char *w;
int d;
#if defined HAVE_POPEN || defined HAVE_FWIN
CSLbool pipep = NO;
#endif
if (!is_fixnum(dir)) return aerror1("open", dir);
d = (int)int_of_fixnum(dir);
#ifdef SOCKETS
/*
* If I am working as a socket server I will prohibit operations that
* could (easily) corrupt the local machine. Here I prevent anybody from
* opening files for output. I also prevent use of pipes.
*/
if (socket_server != 0 &&
((d & DIRECTION_MASK) == DIRECTION_OUTPUT ||
(d & DIRECTION_MASK) == DIRECTION_IO ||
(d & OPEN_PIPE) != 0))
return aerror1("open invalid in server mode", dir);
#endif
#ifdef DEBUG_OPENING_FILES
trace_printf("Open file:");
switch (d & DIRECTION_MASK)
{
case DIRECTION_PROBE: trace_printf(" probe"); break;
case DIRECTION_INPUT: trace_printf(" input"); break;
case DIRECTION_OUTPUT:trace_printf(" output"); break;
case DIRECTION_IO: trace_printf(" io"); break;
}
switch (d & IF_EXISTS_MASK)
{
case IF_EXISTS_NIL: trace_printf(" if-exists-nil"); break;
case IF_EXISTS_OVERWRITE: trace_printf(" if-exists-overwrite"); break;
case IF_EXISTS_APPEND: trace_printf(" if-exists-append"); break;
case IF_EXISTS_RENAME: trace_printf(" if-exists-rename"); break;
case IF_EXISTS_ERROR: trace_printf(" if-exists-error"); break;
case IF_EXISTS_NEW_VERSION: trace_printf(" if-exists-new-version"); break;
case IF_EXISTS_SUPERSEDE: trace_printf(" if-exists-supersede"); break;
case IF_EXISTS_RENAME_AND_DELETE: trace_printf(" if-exists-r-and-d"); break;
}
switch (d & IF_MISSING_MASK)
{
case IF_MISSING_NIL: trace_printf(" if-missing-nil"); break;
case IF_MISSING_CREATE: trace_printf(" if-missing-create"); break;
case IF_MISSING_ERROR: trace_printf(" if-missing-error"); break;
}
if (d & OPEN_BINARY) trace_printf(" binary");
if (d & OPEN_PIPE) trace_printf(" pipe");
trace_printf("\n");
#endif
w = get_string_data(name, "open", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
file = NULL;
switch (d & (DIRECTION_MASK | OPEN_PIPE))
{
case DIRECTION_PROBE: /* probe file - can not be used with pipes */
file = open_file(filename, w, (size_t)len, "r", NULL);
if (file == NULL)
{ switch (d & IF_MISSING_MASK)
{
case IF_MISSING_NIL:
return onevalue(nil);
case IF_MISSING_ERROR:
return error(1, err_open_failed, name);
case IF_MISSING_CREATE:
/*
* I thing that people who go (open xxx :direction :probe
* :if-does-not-exist :create)
* are to be considered unduly enthusiastic, but I will still try to do what
* they tell me to!
*/
file = open_file(filename, w, (size_t)len, "w", NULL);
if (file == NULL) return error(1, err_open_failed, name);
fclose(file);
file = NULL;
}
}
else
{ fclose(file);
file = NULL;
}
break; /* Must then create a no-direction stream */
case DIRECTION_INPUT:
file = open_file(filename, w, (size_t)len,
(d & OPEN_BINARY ? "rb" : "r"),
NULL);
if (file == NULL)
{ switch (d & IF_MISSING_MASK)
{
case IF_MISSING_NIL:
return onevalue(nil);
case IF_MISSING_ERROR:
return error(1, err_open_failed, name);
case IF_MISSING_CREATE:
file = open_file(filename, w,
(size_t)len, "w", NULL);
if (file == NULL) return error(1, err_open_failed, name);
fclose(file);
/*
* I use fopen(xx,"w") to create the file, then close it again and re-open
* for input, so that concurrent tasks can see the file now existing but
* only open for reading. If opening the file I just created fails I will
* give up.
*/
file = open_file(filename, w, (size_t)len,
(d & OPEN_BINARY ? "rb" : "r"),
NULL);
if (file == NULL) return error(1, err_open_failed, name);
break;
}
}
break; /* if-exists ignored when opening for input */
case DIRECTION_OUTPUT:
case DIRECTION_IO:
/*
* I will start by trying to open the file to see if it exists. By using
* mode "r+" I will only open it if I am able to obtain write-access, and
* in some cases I will then be able to make use of the file. The fact that
* it will have been opened for IO not just output will not harm me.
*/
file = open_file(filename, w, (size_t)len,
(d & OPEN_BINARY ? "r+b" : "r+"),
NULL);
if (file == NULL) switch (d & IF_MISSING_MASK)
{
case IF_MISSING_NIL:
return onevalue(nil);
case IF_MISSING_ERROR:
return error(1, err_open_failed, name);
case IF_MISSING_CREATE:
break; /* usual case for output and IO files */
}
else switch (d & IF_EXISTS_MASK)
{
case IF_EXISTS_NIL:
fclose(file);
return onevalue(nil);
case IF_EXISTS_RENAME:
/*
* When I open a file with :if-exists :rename I will always rename to
* a fixed target, "oldfile.bak". If the rename fails I will not worry too
* much. I imagine some people would rather that the name I renamed to was
* based on the original file-name, but that seems excessive to me. And I
* would have little sympathy for users who relied on it!
*/
fclose(file);
file = NULL;
rename_file(filename, w, (size_t)len,
fn1, "oldfile.bak", 11);
break;
case IF_EXISTS_ERROR:
fclose(file);
return error(1, err_open_failed, name);
/*
* Working through the standard C library the ideas of :new-version,
* :supersede and :rename-and-delete seem rather odd, so I will just treat
* them all as :new-version.
*/
case IF_EXISTS_SUPERSEDE:
case IF_EXISTS_RENAME_AND_DELETE:
case IF_EXISTS_NEW_VERSION:
fclose(file);
delete_file(filename, w, (size_t)len);
file = NULL;
break;
case IF_EXISTS_OVERWRITE:
break;
case IF_EXISTS_APPEND:
fseek(file, 0L, SEEK_END);
break;
}
if (file == NULL)
{ file = open_file(filename, w,
(size_t)len,
(d & OPEN_BINARY ? "w+b" : "w+"),
NULL);
if (file == NULL) return error(1, err_open_failed, name);
}
break;
case DIRECTION_OUTPUT | OPEN_PIPE:
#if defined HAVE_POPEN || defined HAVE_FWIN
pipep = YES;
memcpy(filename, w, (size_t)len);
filename[len] = 0;
file = my_popen(filename, "w");
if (file == NULL) return error(1, err_pipe_failed, name);
break;
#else
return aerror("pipes not available with this version of CSL");
#endif
case DIRECTION_INPUT | OPEN_PIPE:
case DIRECTION_IO | OPEN_PIPE:
return aerror("reading from pipes is not supported in CCL\n");
}
push(name);
r = make_stream_handle();
pop(name);
errexit();
stream_type(r) = name;
set_stream_file(r, file);
switch (d & (DIRECTION_MASK | OPEN_PIPE))
{
case DIRECTION_INPUT:
set_stream_read_fn(r, char_from_file);
set_stream_read_other(r, read_action_file);
break;
#if defined HAVE_POPEN || defined HAVE_FWIN
case DIRECTION_OUTPUT | OPEN_PIPE:
set_stream_write_fn(r, char_to_pipeout);
set_stream_write_other(r, write_action_pipe);
break;
#endif
case DIRECTION_OUTPUT:
set_stream_write_fn(r, char_to_file);
set_stream_write_other(r, write_action_file);
set_stream_read_other(r, read_action_output_file);
break;
case DIRECTION_IO:
set_stream_read_fn(r, char_from_file);
set_stream_read_other(r, read_action_output_file);
set_stream_write_fn(r, char_to_file);
set_stream_write_other(r, write_action_file);
break;
}
return onevalue(r);
}
Lisp_Object Lwrs(Lisp_Object nil, Lisp_Object a)
{
Lisp_Object old = qvalue(standard_output);
if (a == nil) a = qvalue(terminal_io);
if (a == old) return onevalue(old);
else if (!is_stream(a)) return aerror1("wrs", a);
else if (stream_write_fn(a) == char_to_illegal)
#ifdef COMMON
a = qvalue(terminal_io);
#else
return aerror("wrs (closed or input file)"); /* closed file or input file */
#endif
qvalue(standard_output) = a;
return onevalue(old);
}
Lisp_Object Lclose(Lisp_Object nil, Lisp_Object a)
{
/*
* I will not allow anybody to close the terminal streams
*/
if (a == nil ||
a == lisp_terminal_io) return onevalue(nil);
else if (!is_stream(a)) return aerror1("close", a);
if (a == qvalue(standard_input))
qvalue(standard_input) = lisp_terminal_io;
else if (a == qvalue(standard_output))
qvalue(standard_output) = lisp_terminal_io;
other_read_action(READ_CLOSE, a);
other_write_action(WRITE_CLOSE, a);
#ifdef COMMON
return onevalue(lisp_true);
#else
return onevalue(nil);
#endif
}
#ifdef HAVE_LIBFOX
extern void *text;
#endif
Lisp_Object Lmath_display(Lisp_Object nil, Lisp_Object a)
{
/*
* In all cases where maths display is not supported (ie if output is
* not directly to a FOX window that has been built with SHOWMATH
* option) this returns nil and does not do anything at all exciting. If there
* is the possibility of maths output the cases supported here are:
*
* nil ) Enquire if maths display is available, return T if so;
* or 0 )
* 1 Enquire if a spool file is present;
* 2 Clear out maths display buffer ready to start a new line;
* 3 Indicate that local maths buffer is now complete and pass
* its contents (which may be several lines) to the front end
* display engine.
*/
#ifdef HAVE_LIBFOX
if (a == nil || a == fixnum_of_int(0)) /* test if showmath available */
{
/*
* Disable maths specials if output is NOT to the terminal. Observe that often
* standard_output will be a synonym for direct terminal access.
*/
Lisp_Object std = qvalue(standard_output);
/*
* text is the FXTerminal object. If it is NULL that means that I had
* selected non-windowed mode....
*/
if (text == NULL) return onevalue(nil);
/*
* With CSL I have all these curious ways of ending up with standard output
* redirected to elsewhere! In any such case I want this code to report "not
* directly to a maths-aware window".
*/
if (alternative_stdout != NULL ||
procedural_output != NULL) return onevalue(nil);
/*
* I allow for synonym streams (which are probably only used in Common Lisp
* mode). I do NOT allow for broadcast streams. I then check if the current
* output stream would end up executing char_to_terminal to write a character.
*/
while (stream_write_fn(std) == char_to_synonym)
std = stream_write_data(std);
if (stream_write_fn(std) != char_to_terminal) return onevalue(nil);
/*
* Now I believe I am attached to a FOX screen that can display maths.
*/
return onevalue(lisp_true);
}
else if (a == fixnum_of_int(1)) /* test if spool file in use */
{
/*
* Note that I let this say TRUE if a spool file is in use regardless
* of whether maths display is to be used...
*/
if (spool_file == NULL) return onevalue(nil);
else return onevalue(lisp_true);
}
else if (a == fixnum_of_int(2)) /* clear out local buffer */
{ math_buffer_p = 0;
if (math_buffer != NULL) math_buffer[0] = 0;
return onevalue(lisp_true);
}
else if (a == fixnum_of_int(3)) /* display local buffer */
{ if (math_buffer == NULL || math_buffer[0]==0) return onevalue(nil);
fwin_showmath(math_buffer);
math_buffer_p = 0;
math_buffer[0] = 0;
return onevalue(lisp_true);
}
else
#endif
return onevalue(nil); /* bad arg, but just return nil */
}
Lisp_Object Ltruename(Lisp_Object nil, Lisp_Object name)
{
char filename[LONGEST_LEGAL_FILENAME];
Lisp_Object truename;
int32_t len;
char *w = get_string_data(name, "truename", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
w = get_truename(filename,w,len);
if (w == NULL) return aerror0(filename);
truename = make_string(w);
free(w);
errexit();
return onevalue(truename);
}
Lisp_Object Lcreate_directory(Lisp_Object nil, Lisp_Object name)
{
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
char *w;
if (name == unset_var) return onevalue(nil);
w = get_string_data(name, "create-directory", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
#ifdef SOCKETS
if (socket_server != 0) return aerror("create-directory");
#endif
len = create_directory(filename, w, (size_t)len);
return onevalue(Lispify_predicate(len == 0));
}
Lisp_Object Lfile_readable(Lisp_Object nil, Lisp_Object name)
{
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
char *w = get_string_data(name, "file-readable", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
len = file_readable(filename, w, (size_t)len);
return onevalue(Lispify_predicate(len));
}
Lisp_Object Lchange_directory(Lisp_Object nil, Lisp_Object name)
{
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
char *err;
char *w;
if (name == unset_var) return onevalue(nil);
w = get_string_data(name, "change-directory", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
/*
* At present I will permit change-directory in server mode.
*/
err = change_directory(filename, w, (size_t)len);
if (err != NULL) aerror0(err);
return onevalue(Lispify_predicate(err == NULL));
}
Lisp_Object Lfile_writeable(Lisp_Object nil, Lisp_Object name)
{
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
char *w;
/* First check whether file exists */
if (Lfilep(nil,name) == nil) return nil;
w = get_string_data(name, "file-writable", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
len = file_writeable(filename, w, (size_t)len);
return onevalue(Lispify_predicate(len));
}
Lisp_Object Ldelete_file(Lisp_Object nil, Lisp_Object name)
{
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
char *w;
if (name == unset_var) return onevalue(nil);
w = get_string_data(name, "delete-file", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
#ifdef SOCKETS
if (socket_server != 0) return aerror("delete-file");
#endif
len = delete_file(filename, w, (size_t)len);
return onevalue(Lispify_predicate(len == 0));
}
/* Returns the length of a file in bytes */
Lisp_Object Lfile_length(Lisp_Object nil, Lisp_Object name)
{
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
long size;
char *w = get_string_data(name, "file-length", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
size = file_length(filename, w, (size_t)len);
if (size < 0)
return nil;
else if (size < 268435456)
return fixnum_of_int(size);
else
return make_one_word_bignum(size);
}
Lisp_Object Ldirectoryp(Lisp_Object nil, Lisp_Object name)
{
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
char *w = get_string_data(name, "directoryp", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
len = directoryp(filename, w, (size_t)len);
return onevalue(Lispify_predicate(len));
}
Lisp_Object MS_CDECL Lget_current_directory(Lisp_Object nil, int nargs, ...)
{
char filename[LONGEST_LEGAL_FILENAME];
int len;
Lisp_Object w;
argcheck(nargs, 0, "get-current-directory");
len = get_current_directory(filename, LONGEST_LEGAL_FILENAME);
if (len == 0) return onevalue(nil);
w = make_string(filename);
errexit();
return onevalue(w);
}
Lisp_Object MS_CDECL Luser_homedir_pathname(Lisp_Object nil, int nargs, ...)
{
char home[LONGEST_LEGAL_FILENAME];
int len;
Lisp_Object w;
argcheck(nargs, 0, "user-homedir-pathname")
len = get_home_directory(home, LONGEST_LEGAL_FILENAME);
if (len == 0) return onevalue(nil);
w = make_string(home);
errexit();
return onevalue(w);
}
Lisp_Object MS_CDECL Lget_lisp_directory(Lisp_Object nil, int nargs, ...)
{
char filename[LONGEST_LEGAL_FILENAME];
int len;
Lisp_Object w;
argcheck(nargs, 0, "get-lisp-directory");
strcpy(filename, standard_directory);
len = strlen(filename);
while (len-- > 0 &&
filename[len] != '/' &&
filename[len] != '\\');
if (len == 0) return onevalue(nil);
filename[len] = 0;
w = make_string(filename);
errexit();
return onevalue(w);
}
Lisp_Object Lrename_file(Lisp_Object nil, Lisp_Object from, Lisp_Object to)
{
char from_name[LONGEST_LEGAL_FILENAME], to_name[LONGEST_LEGAL_FILENAME];
int32_t from_len, to_len;
char *from_w, *to_w;
if (from == unset_var) return onevalue(nil);
if (to == unset_var) return onevalue(nil);
#ifdef SOCKETS
if (socket_server != 0) return aerror("rename-file");
#endif
push(to);
from_w = get_string_data(from, "rename-file", &from_len);
pop(to);
errexit();
if (from_len >= sizeof(from_name)) from_len = sizeof(from_name);
from = (Lisp_Object)(from_w + TAG_VECTOR - CELL);
push(from);
to_w = get_string_data(to, "rename-file", &to_len);
pop(from);
from_w = &celt(from, 0);
errexit();
if (to_len >= sizeof(to_name)) to_len = sizeof(to_name);
to_len = rename_file(from_name, from_w, (size_t)from_len,
to_name, to_w, (size_t)to_len);
return onevalue(Lispify_predicate(to_len == 0));
}
/*
* This function is a call-back from the file-scanning routine.
*/
static void make_dir_list(char *name, int why, long int size)
{
Lisp_Object nil = C_nil, w;
CSL_IGNORE(why);
CSL_IGNORE(size);
errexitv();
if (scan_leafstart >= (int)strlen(name)) return;
w = make_string(name+scan_leafstart);
errexitv();
w = cons(w, stack[0]);
errexitv();
stack[0] = w;
}
Lisp_Object Llist_directory(Lisp_Object nil, Lisp_Object name)
{
Lisp_Object result;
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
char *w = get_string_data(name, "list-directory", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename);
push(nil);
list_directory_members(filename, w,
(size_t)len, make_dir_list);
pop(result);
errexit();
result = nreverse(result);
errexit();
return onevalue(result);
}
/*****************************************************************************/
/* Printing. */
/*****************************************************************************/
int escaped_printing;
/*
* I should make WRS save tmprint_flag so that it always refers to
* a setting of the stream currently in use, ie active_stream. That should
* not be hard but I will do it later. @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
*/
int tmprint_flag = 0;
#define escape_yes 0x0001 /* make output re-readable */
#define escape_fold_down 0x0002 /* force lower case output */
#define escape_fold_up 0x0004 /* FORCE UPPER CASE OUTPUT */
#define escape_capitalize 0x0008 /* Force Capitalisation (!) */
#define escape_binary 0x0010 /* print format for numbers */
#define escape_octal 0x0020 /* (including bignums) */
#define escape_hex 0x0040
#define escape_nolinebreak 0x0080 /* use infinite line-length */
#define escape_hexwidth 0x3f00 /* 6 bits to specify width of hex/bin */
#define escape_width(n) (((n) & escape_hexwidth) >> 8)
#define escape_checksum 0x4000 /* doing a checksum operation */
static void outprefix(CSLbool blankp, int32_t len)
/*
* This function takes most of the responsibility for splitting lines.
* when called we are about to print an item with (len) characters.
* If blankp is true we need to display a blank or newline before
* the item.
*/
{
nil_as_base
int32_t line_length =
other_write_action(WRITE_GET_INFO+WRITE_GET_LINE_LENGTH,
active_stream);
int32_t column =
other_write_action(WRITE_GET_INFO+WRITE_GET_COLUMN,
active_stream);
if (blankp) len++;
if (column+len > line_length &&
(escaped_printing & escape_nolinebreak) == 0 &&
!tmprint_flag)
putc_stream('\n', active_stream);
else if (blankp) putc_stream(' ', active_stream);
}
static Lisp_Object Lprint_precision(Lisp_Object nil, Lisp_Object a)
{
int32_t old = print_precision;
if (a == nil) return onevalue(fixnum_of_int(old));
if (!is_fixnum(a)) return aerror1("print-precision", a);
print_precision = int_of_fixnum(a);
if (print_precision > 16)
print_precision = 15;
return onevalue(fixnum_of_int(old));
}
static void prin_buf(char *buf, int blankp)
{
Lisp_Object nil = C_nil;
int len = strlen(buf), i;
outprefix(blankp, len);
for (i=0; i<len; i++)
{ putc_stream(*buf++, active_stream);
errexitv();
}
}
static int32_t local_gensym_count;
void internal_prin(Lisp_Object u, int blankp)
{
Lisp_Object w, nil = C_nil;
int32_t len, k;
char my_buff[68];
#ifdef COMMON
int bl = blankp & 2;
/*
* There is a fairly shameless FUDGE here. When I come to need to print
* the package part of a symbol as in ppp:xxx (or even |)p(|::|.| if I
* have names with silly characters in them) I will have a STRING that is the
* name of the relevant package, but I want it displayed as if it was an
* identifier. I achieve this by setting the "2" bit in blankp (which is
* otherwise a simple boolean), and when this is detected I go and join the
* code for printing symbols. But in that case I MUST have been passed
* a (simple) string, or else things can collapse utterly.
*/
blankp &= 1;
if (bl != 0)
{ w = u;
push(u);
goto tag_symbol;
}
restart:
#endif
if (--countdown < 0) deal_with_tick();
errexitv();
if (stack >= stacklimit)
{ u = reclaim(u, "stack", GC_STACK, 0);
errexitv();
}
switch ((int)u & TAG_BITS)
{
case TAG_CONS:
#ifdef COMMON
if (u == nil) /* BEWARE - nil is tagged as a cons cell */
{ outprefix(blankp, 3);
putc_stream('N', active_stream);
putc_stream('I', active_stream);
putc_stream('L', active_stream);
return;
}
#endif
if (u == 0) u = nil; /* Bug security here */
push(u);
outprefix(blankp, 1);
putc_stream('(', active_stream);
errexitvn(1);
internal_prin(qcar(stack[0]), 0);
errexitvn(1);
w = stack[0];
while (is_cons(w = qcdr(w)))
{
#ifdef COMMON
if (w == nil) break; /* Again BEWARE the tag code of NIL */
#endif
stack[0] = w;
internal_prin(qcar(stack[0]), 1);
errexitvn(1);
w = stack[0];
}
if (w != nil)
{ stack[0] = w;
outprefix(YES, 1);
putc_stream('.', active_stream);
errexitvn(1);
internal_prin(stack[0], 1);
}
popv(1);
outprefix(NO, 1);
putc_stream(')', active_stream);
return;
#ifdef COMMON
case TAG_SFLOAT:
{ Float_union uu;
uu.i = u - TAG_SFLOAT;
sprintf(my_buff, "%#.6g", (double)uu.f);
}
goto float_print_tidyup;
#endif
case TAG_FIXNUM:
if (escaped_printing & escape_hex)
{ int32_t v = int_of_fixnum(u);
int width = escape_width(escaped_printing);
int32_t mask;
/*
* The printing style adopted here for negative numbers follows that used in
* the big number printing code. A prefix "~" stands for an infinite initial
* string of 'f' digits, and what follows will be exactly one 'f' (just to
* remind you) and then the remaining hex digits. E.g. -2 should display
* as ~fe. Note that any fixnum will start off with 0xf in the top 4 of
* 32 bits. If an explicit width had been specified then I want that many
* charcters to be displayed, with full leading zeros etc. A width is taken as
* minimum number of chars to be displayed, so a width of zero (or in fact 1)
* would have the effect of no constraint. The width-specification field
* only allows for the range 0 to 63, and that is just as well since I put
* characters in a buffer (my_buff) which would almost fill up at the
* widest...
*/
len = 0;
if (v < 0)
{ mask = 0x0f000000;
my_buff[len++] = '~';
width--;
while ((v & mask) == mask && mask != 0)
{ v = v ^ (mask << 4);
mask = mask >> 4;
}
k = 'f';
}
else k = '0';
mask = 0xf;
while ((v & mask) != v)
{ width--;
mask = (mask<<4) | 0xf;
}
while (--width > 0) my_buff[len++] = (char)k;
sprintf(&my_buff[len], "%lx", (long)v);
}
else if (escaped_printing & escape_octal)
{ int32_t v = int_of_fixnum(u);
int width = escape_width(escaped_printing);
int32_t mask;
len = 0;
if (v < 0)
{ mask = 0x38000000;
my_buff[len++] = '~';
width--;
while ((v & mask) == mask && mask != 0)
{ v = v ^ (mask << 3);
mask = mask >> 3;
}
k = '7';
}
else k = '0';
mask = 0x7;
while ((v & mask) != v)
{ width--;
mask = (mask<<3) | 0x7;
}
while (--width > 0) my_buff[len++] = (char)k;
sprintf(&my_buff[len], "%lo", (long)v);
}
else if (escaped_printing & escape_binary)
{ int32_t v = int_of_fixnum(u);
/* int width = escape_width(escaped_printing); */
uint32_t mask = 0x40000000;
len = 0;
if (v < 0)
{ while ((v & mask) == mask && mask != 0)
{ v = v ^ (mask << 1);
mask = mask >> 1;
}
my_buff[len++] = '~';
k = '1';
}
else k = '0';
/*
* /* Width specifier not processed here (yet), sorry.
*/
mask = 0x80000000;
while ((v & mask) == 0 && mask != 1) mask = mask >> 1;
while (mask != 0)
{ my_buff[len++] = (v & mask) ? '1' : '0';
mask = mask >> 1;
}
my_buff[len] = 0;
}
else
sprintf(my_buff, "%ld", (long)int_of_fixnum(u));
break;
case TAG_ODDS:
if (is_bps(u))
{ Header h = *(Header *)(data_of_bps(u) - CELL);
len = length_of_header(h) - CELL;
push(u);
outprefix(blankp, 3+2*len);
putc_stream('#', active_stream); putc_stream('[', active_stream);
for (k = 0; k < len; k++)
{ int ch = ((char *)data_of_bps(stack[0]))[k];
static char *hexdig = "0123456789abcdef";
/*
* Code vectors are not ever going to be re-readable (huh - I suppose there
* is no big reason why they should not be!) so I split them across multiple
* lines if that seems useful. Anyway a reader for them could understand to
* expect that.
*/
outprefix(NO, 2);
#if defined DEMO_MODE || defined DEMO_BUILD
putc_stream('?', active_stream);
putc_stream('?', active_stream);
#else
putc_stream(hexdig[(ch >> 4) & 0xf], active_stream);
putc_stream(hexdig[ch & 0xf], active_stream);
#endif
}
popv(1);
putc_stream(']', active_stream);
return;
}
/*
* A SPID is an object used internally by CSL in various places, and the
* rules of the system are that it ought never to be visible to the user.
* I print it here in case it arises because of a bug, or while I am testing.
*/
else if (is_spid(u))
{ switch (u & 0xffff)
{
/*
* The decoding of readable names for SPIDs here is somewhat over the top
* except while somebdy is hard at work debugging....
*/
case SPID_NIL: strcpy(my_buff, "SPID_NIL"); break;
case SPID_FBIND: strcpy(my_buff, "SPID_FBIND"); break;
case SPID_CATCH: strcpy(my_buff, "SPID_CATCH"); break;
case SPID_PROTECT: strcpy(my_buff, "SPID_PROTECT"); break;
case SPID_NOARG: strcpy(my_buff, "SPID_NOARG"); break;
case SPID_HASH0: strcpy(my_buff, "SPID_HASH0"); break;
case SPID_HASH1: strcpy(my_buff, "SPID_HASH1"); break;
case SPID_GCMARK: strcpy(my_buff, "SPID_GCMARK"); break;
case SPID_NOINPUT: strcpy(my_buff, "SPID_NOINPUT"); break;
case SPID_ERROR: strcpy(my_buff, "SPID_ERROR"); break;
case SPID_PVBIND: strcpy(my_buff, "SPID_PVBIND"); break;
case SPID_NOPROP: strcpy(my_buff, "SPID_NOPROP"); break;
case SPID_LIBRARY: u = (u >> 20) & 0xfff;
/*
* When I print the name of a library I will truncate the displayed name
* to 30 characters. This is somewhat arbitrary (but MUST relate to the
* size of my_buff), but will tend to keep output more compact.
*/
sprintf(my_buff, "#{%.30s}", fasl_paths[u]);
break;
default: sprintf(my_buff, "SPID_%lx",
(long)((u >> 8) & 0x00ffffff));
break;
}
len = strlen(my_buff);
outprefix(blankp, len);
for (k=0; k<len; k++) putc_stream(my_buff[k], active_stream);
return;
}
/*
* Assume if is a CHAR here
*/
outprefix(blankp, escaped_printing & escape_yes ? 3 : 1);
if (u != CHAR_EOF)
/* I know that a char is immediate data and so does not need GC protection */
{ if (escaped_printing & escape_yes)
putc_stream('#', active_stream), putc_stream('\\', active_stream);
putc_stream((int)code_of_char(u), active_stream);
}
return;
case TAG_VECTOR:
{ Header h = vechdr(u);
len = length_of_header(h) - CELL; /* counts in bytes */
push(u);
#ifdef COMMON
print_non_simple_string:
#endif
switch (type_of_header(h))
{
case TYPE_STRING:
{ int32_t slen = 0;
if (escaped_printing & escape_yes)
{ for (k = 0; k < len; k++)
{ int ch = celt(stack[0], k);
if (ch == '"') slen += 2;
#ifdef COMMON
else if (ch == '\\') slen += 2;
#endif
else if (iscntrl(ch)) slen += 3;
else slen += 1;
}
slen += 2;
}
else slen = len;
outprefix(blankp, slen);
/*
* I will write out the fast, easy, common case here
*/
if (!(escaped_printing &
(escape_yes | escape_fold_down |
escape_fold_up | escape_capitalize)))
{ for (k = 0; k < len; k++)
{ int ch = celt(stack[0], k);
putc_stream(ch, active_stream);
}
}
else
{ if (escaped_printing & escape_yes) putc_stream('"', active_stream);
for (k = 0; k < len; k++)
{ int ch = celt(stack[0], k);
static char *hexdig = "0123456789abcdef";
#ifdef COMMON
if ((escaped_printing & escape_yes) &&
(ch == '"' || ch == '\\'))
{ putc_stream('\\', active_stream);
putc_stream(ch, active_stream);
}
#else
if ((escaped_printing & escape_yes) && ch == '"')
{ putc_stream('"', active_stream);
putc_stream('"', active_stream);
}
#endif
else if (iscntrl(ch))
{ putc_stream('\\', active_stream);
putc_stream(hexdig[(ch >> 4) & 0xf], active_stream);
putc_stream(hexdig[ch & 0xf], active_stream);
}
else
{
if (escaped_printing & escape_fold_down)
ch = tolower(ch);
else if (escaped_printing & escape_fold_up)
ch = toupper(ch);
/* Just For Now I Will Not Implement The Option To Capitalize Things */
putc_stream(ch, active_stream);
}
}
}
popv(1);
if (escaped_printing & escape_yes) putc_stream('"', active_stream);
}
return;
case TYPE_SP:
pop(u);
sprintf(my_buff, "#<closure: %p>",
(void *)elt(u, 0));
goto print_my_buff;
case TYPE_SPARE:
pop(u);
sprintf(my_buff, "#<encapsulated pointer: %p>",
(void *)elt(u, 0));
goto print_my_buff;
#ifdef COMMON
case TYPE_BITVEC1: bl = 1; break;
case TYPE_BITVEC2: bl = 2; break;
case TYPE_BITVEC3: bl = 3; break;
case TYPE_BITVEC4: bl = 4; break;
case TYPE_BITVEC5: bl = 5; break;
case TYPE_BITVEC6: bl = 6; break;
case TYPE_BITVEC7: bl = 7; break;
case TYPE_BITVEC8: bl = 8; break;
#endif
#ifndef COMMON
case TYPE_STRUCTURE:
pop(u);
sprintf(my_buff, "[e-vector:%.8lx]", (long)(uint32_t)u);
goto print_my_buff;
#else
case TYPE_STRUCTURE:
if (elt(stack[0], 0) == package_symbol)
{ outprefix(blankp, 3);
putc_stream('#', active_stream); putc_stream('P', active_stream); putc_stream(':', active_stream);
pop(u);
u = elt(u, 8); /* The name of the package */
blankp = 0;
goto restart;
}
/* Drop through */
#endif
case TYPE_ARRAY:
#ifdef COMMON
{ Lisp_Object dims = elt(stack[0], 1);
/*
* I suppose that really I need to deal with non-simple bitvectors too.
* And generally get Common Lisp style array printing "right".
*/
if (consp(dims) && !consp(qcdr(dims)) &&
elt(stack[0], 0) == string_char_sym)
{ len = int_of_fixnum(qcar(dims));
dims = elt(stack[0], 5); /* Fill pointer */
if (is_fixnum(dims)) len = int_of_fixnum(dims);
stack[0] = elt(stack[0], 2);
/*
* The demand here is that the object within the non-simple-string was
* a simple string, so I can restart printing to deal with it. This will
* not support strings that were over-large so got represented in
* chunks. Tough luck about that for now!
*/
h = TYPE_STRING;
goto print_non_simple_string;
}
}
/* Drop through */
#endif
case TYPE_SIMPLE_VEC:
case TYPE_HASH:
{
#ifndef COMMON
if (type_of_header(h) == TYPE_SIMPLE_VEC)
{ outprefix(blankp, 1);
putc_stream('[', active_stream);
}
else
#endif
if (type_of_header(h) == TYPE_STRUCTURE)
{ outprefix(blankp, 3);
putc_stream('#', active_stream); putc_stream('S', active_stream); putc_stream('(', active_stream);
}
else if (type_of_header(h) == TYPE_HASH)
{ outprefix(blankp, 3);
putc_stream('#', active_stream); putc_stream('H', active_stream); putc_stream('(', active_stream);
}
else
{ outprefix(blankp, 2);
putc_stream('#', active_stream); putc_stream('(', active_stream);
}
#ifdef COMMON
if (qvalue(print_array_sym) == nil)
{ putc_stream('.', active_stream);
putc_stream('.', active_stream);
putc_stream('.', active_stream);
}
else
#endif
for (k=0; k<len; k+=CELL)
{ Lisp_Object vv = *(Lisp_Object *)
((char *)stack[0] + (CELL - TAG_VECTOR) + k);
internal_prin(vv, (k != 0) ? 1 : 0);
errexitvn(1);
}
popv(1);
outprefix(NO, 1);
#ifndef COMMON
if (type_of_header(h) == TYPE_SIMPLE_VEC) putc_stream(']', active_stream);
else
#endif
putc_stream(')', active_stream);
return;
}
case TYPE_MIXED1: /* An experimental addition to CSL */
case TYPE_MIXED2:
case TYPE_MIXED3:
case TYPE_STREAM:
{ outprefix(blankp, 3);
putc_stream('#', active_stream);
if (type_of_header(h) == TYPE_STREAM)
putc_stream('F', active_stream);
else if (type_of_header(h) == TYPE_MIXED1)
putc_stream('1', active_stream);
else if (type_of_header(h) == TYPE_MIXED2)
putc_stream('2', active_stream);
else putc_stream('3', active_stream);
putc_stream('[', active_stream);
#ifdef COMMON
if (qvalue(print_array_sym) == nil)
{ putc_stream('.', active_stream);
putc_stream('.', active_stream);
putc_stream('.', active_stream);
}
else
#endif
{ internal_prin(elt(stack[0], 0), 0);
errexitvn(1);
outprefix(NO, 1);
internal_prin(elt(stack[0], 1), 1);
errexitvn(1);
outprefix(NO, 1);
internal_prin(elt(stack[0], 2), 1);
errexitvn(1);
}
for (k=3*CELL; k<len; k+=CELL)
{ sprintf(my_buff, "%.8lx", (long)*(Lisp_Object *)
((char *)stack[0] + (CELL - TAG_VECTOR) + k));
prin_buf(my_buff, YES);
}
popv(1);
outprefix(NO, 1);
putc_stream(']', active_stream);
return;
}
case TYPE_VEC8:
outprefix(blankp, 4);
putc_stream('#', active_stream); putc_stream('V', active_stream);
putc_stream('8', active_stream); putc_stream('(', active_stream);
for (k=0; k<len; k++)
{ sprintf(my_buff, "%d", scelt(stack[0], k));
prin_buf(my_buff, k != 0);
}
outprefix(NO, 1);
putc_stream(')', active_stream);
popv(1);
return;
case TYPE_VEC16:
outprefix(blankp, 5);
putc_stream('#', active_stream); putc_stream('V', active_stream);
putc_stream('1', active_stream); putc_stream('6', active_stream); putc_stream('(', active_stream);
len = len >> 1;
for (k=0; k<len; k++)
{ sprintf(my_buff, "%d", helt(stack[0], k));
prin_buf(my_buff, k != 0);
}
outprefix(NO, 1);
putc_stream(')', active_stream);
popv(1);
return;
case TYPE_VEC32:
outprefix(blankp, 5);
putc_stream('#', active_stream); putc_stream('V', active_stream);
putc_stream('3', active_stream); putc_stream('2', active_stream); putc_stream('(', active_stream);
len = len >> 2;
/* /* I think that this is broken on 64-bit machines since then ielt
fetches a 64-bit value.... Oh misery! But maybe it is not a VERY
important part of Lisp so I can think about it later! */
for (k=0; k<len; k++)
{ sprintf(my_buff, "%ld", (long)ielt(stack[0], k));
prin_buf(my_buff, k != 0);
}
outprefix(NO, 1);
putc_stream(')', active_stream);
popv(1);
return;
case TYPE_FLOAT32:
outprefix(blankp, 4);
putc_stream('#', active_stream); putc_stream('F', active_stream);
putc_stream('S', active_stream); putc_stream('(', active_stream);
len = len >> 2;
for (k=0; k<len; k++)
{ sprintf(my_buff, "%#.7g", (double)felt(stack[0], k));
prin_buf(my_buff, k != 0);
}
outprefix(NO, 1);
putc_stream(')', active_stream);
popv(1);
return;
case TYPE_FLOAT64:
outprefix(blankp, 4);
putc_stream('#', active_stream); putc_stream('F', active_stream);
putc_stream('D', active_stream); putc_stream('(', active_stream);
len = (len-CELL)/8;
/* I will not worry about print-precision bugs here... */
for (k=0; k<len; k++)
{ sprintf(my_buff, "%#.*g",
(int)print_precision, delt(stack[0], k));
prin_buf(my_buff, k != 0);
}
outprefix(NO, 1);
putc_stream(')', active_stream);
popv(1);
return;
default: goto error_case;
}
#ifdef COMMON
/* Here for bit-vectors */
outprefix(blankp, 2+8*(len-1)+bl);
putc_stream('#', active_stream), putc_stream('*', active_stream);
{ int z, q;
for (k = 0; k < len-1; k++)
{ z = ucelt(stack[0], k);
for (q=0; q<8; q++)
{ if (z & 1) putc_stream('1', active_stream);
else putc_stream('0', active_stream);
z >>= 1;
}
}
if (len != 0) /* Empty bitvec */
{ z = ucelt(stack[0], len-1);
for (q=0; q<bl; q++)
{ if (z & 1) putc_stream('1', active_stream);
else putc_stream('0', active_stream);
z >>= 1;
}
}
}
popv(1);
return;
#endif
}
/*
* It seems probable that I could never get here, but this "return" is
* just in case, as a safety measure.
*/
popv(1);
return;
case TAG_SYMBOL:
push(u);
/*
* When computing checksums with the "md5" function I count gensyms as being
* purely local to the current expression. The strange effect is that
* (md5 (gensym))
* always gives the same result, even though the gensyms involved are
* different. But it is REASONABLE compatible with a view that I am forming
* a digest of a printed representation and is needed if digests are to
* be acceptably consistent across lisp images.
*/
if (escaped_printing & escape_checksum)
{ if ((qheader(u) & (SYM_CODEPTR+SYM_ANY_GENSYM)) == SYM_ANY_GENSYM)
{ Lisp_Object al = stream_write_data(active_stream);
while (al != nil &&
qcar(qcar(al)) != u) al = qcdr(al);
pop(u);
if (al == nil)
{ al = acons(u, fixnum_of_int(local_gensym_count),
stream_write_data(active_stream));
local_gensym_count++;
if (exception_pending()) return;
stream_write_data(active_stream) = al;
}
al = qcdr(qcar(al));
sprintf(my_buff, "#G%lx", (long)int_of_fixnum(al));
break;
}
}
w = get_pname(u); /* allocates name for gensym if needbe */
u = stack[0];
#ifdef COMMON
tag_symbol:
#endif
nil = C_nil;
if (!exception_pending())
{ Header h = vechdr(w);
int32_t slen = 0;
int raised = 0;
#ifdef COMMON
int pkgid = 0; /* No package marker needed */
/*
* 0 no package marker needed
* 1 display as #:xxx (ie as a gensym)
* 2 display as :xxx (ie in keyword package)
* 3 display as ppp:xxx (external in its home package)
* 4 display as ppp::xxx (internal in its home package)
*/
if (escaped_printing & escape_yes)
{ if (!is_symbol(u)) pkgid = 0; /* Support for a HACK */
else if (qpackage(u) == nil) pkgid = 1; /* gensym */
else if (qpackage(u) == qvalue(keyword_package)) pkgid = 2;
else if (qpackage(u) == CP) pkgid = 0; /* home is current */
else
{ pkgid = 3;
k = packflags_(CP);
if (k != 0 && k <= SYM_IN_PKG_COUNT)
{ k = ((int32_t)1) << (k+SYM_IN_PKG_SHIFT-1);
if (k & qheader(u)) pkgid = 0;
}
else k = 0;
if (pkgid != 0)
{ push(w);
w = Lfind_symbol_1(nil, w);
nil = C_nil;
if (exception_pending())
{ popv(2);
return;
}
u = stack[-1];
if (mv_2 != nil && w == u)
{ pkgid = 0;
/*
* Here I update the cache it that keeps telling me that the symbol is
* is "available" in the package that is current at present. I guess that
* I need to clear this bit if I unintern or otherwise mess around with
* package structures.
*/
qheader(u) |= k;
}
else if (qheader(u) & SYM_EXTERN_IN_HOME) pkgid = 3;
else pkgid = 4;
pop(w);
}
}
}
#endif
len = length_of_header(h); /* counts in bytes */
/*
* When I come to print things I will assume that I want them re-readable
* with values of !*raise and !*lower as in effect when the printing took
* place, and insert escape characters accordingly. I optimise the case
* of printing without any effects...
*/
if (!(escaped_printing &
(escape_yes | escape_fold_down |
escape_fold_up | escape_capitalize)))
{ stack[0] = w;
len -= CELL;
#ifdef COMMON
switch (pkgid)
{
case 1: outprefix(blankp, len+2);
putc_stream('#', active_stream);
putc_stream(':', active_stream);
break;
case 2: outprefix(blankp, len+1);
putc_stream(':', active_stream);
break;
case 3:
case 4: internal_prin(packname_(qpackage(u)), blankp | 2);
putc_stream(':', active_stream);
if (pkgid == 4) putc_stream(':', active_stream);
break;
default:outprefix(blankp, len);
break;
}
#else
outprefix(blankp, len);
#endif
for (k = 0; k < len; k++)
{ int ch = celt(stack[0], k);
/*
* Specially for the benefit of "tmprint.red" I arrange to switch off
* line-wrapping if I have a "\x02" character but switch it back on after
* "\x05". I should probably also restore things to a normal state on any
* exception/backtrace.
*/
if (ch == 2) tmprint_flag = 1;
putc_stream(ch, active_stream);
if (ch == 5) tmprint_flag = 0;
}
}
else
{ int extralen = 0;
if (qvalue(lower_symbol) != nil) raised = -1;
else if (qvalue(raise_symbol) != nil) raised = 1;
stack[0] = w;
len -= CELL;
/* A really horrid case here - digits are special at the start of names! */
if (len > 0)
{ int ch = celt(stack[0], 0);
if (escaped_printing & escape_yes &&
(isdigit(ch)
#ifdef COMMON
|| (ch=='.')
#else
|| (ch=='_')
#endif
)) extralen++;
}
for (k = 0; k < len; k++)
{ int ch = celt(stack[0], k);
if (escaped_printing & escape_yes &&
!(escaped_printing &
(escape_fold_down |
escape_fold_up |
escape_capitalize)) &&
#ifdef COMMON
(ch=='.' || ch=='\\' || ch=='|') ||
#endif
(!is_constituent(ch) ||
#ifdef COMMON
(ch=='.' || ch=='\\' || ch=='|' || ch==':') ||
#endif
(raised < 0 && isupper(ch)) ||
(raised > 0 && islower(ch)))) extralen++;
slen++;
}
#ifdef COMMON
/*
* The |xxx| notation is where the "2" here comes from, but that does not
* make full allowance for names with '\\' in them. Tough!
*/
if (extralen != 0) extralen = 2;
switch (pkgid)
{
case 1: outprefix(blankp, slen+extralen+2);
putc_stream('#', active_stream);
putc_stream(':', active_stream);
break;
case 2: outprefix(blankp, slen+extralen+1);
putc_stream(':', active_stream);
break;
case 3:
case 4: internal_prin(packname_(qpackage(u)), blankp | 2);
putc_stream(':', active_stream);
if (pkgid == 4) putc_stream(':', active_stream);
break;
default:outprefix(blankp, len);
break;
}
#else
outprefix(blankp, slen+extralen);
#endif
#ifdef COMMON
if (extralen != 0) putc_stream('|', active_stream);
#endif
if (len > 0)
{ int ch = celt(stack[0], 0);
#ifdef COMMON
if (ch == '\\' || ch=='|')
putc_stream(ESCAPE_CHAR, active_stream);
#else
if (!is_constituent(ch) ||
isdigit(ch) ||
(ch == '_') ||
(!(escaped_printing &
(escape_fold_down | escape_fold_up |
escape_capitalize)) &&
((raised < 0 && isupper(ch)) ||
(raised > 0 && islower(ch)))))
putc_stream(ESCAPE_CHAR, active_stream);
#endif
if (escaped_printing & escape_fold_down)
ch = tolower(ch);
else if (escaped_printing & escape_fold_up)
ch = toupper(ch);
putc_stream(ch, active_stream);
}
for (k = 1; k < len; k++)
{ int ch = celt(stack[0], k);
#ifdef COMMON
if (ch == '\\' || ch=='|')
putc_stream(ESCAPE_CHAR, active_stream);
#else
if (!(escaped_printing &
(escape_fold_down | escape_fold_up |
escape_capitalize)) &&
(!is_constituent(ch) ||
(raised < 0 && isupper(ch)) ||
(raised > 0 && islower(ch))))
putc_stream(ESCAPE_CHAR, active_stream);
#endif
if (escaped_printing & escape_fold_down)
ch = tolower(ch);
else if (escaped_printing & escape_fold_up)
ch = toupper(ch);
putc_stream(ch, active_stream);
}
#ifdef COMMON
if (extralen != 0) putc_stream('|', active_stream);
#endif
}
}
popv(1);
return;
case TAG_BOXFLOAT:
switch (type_of_header(flthdr(u)))
{
#ifdef COMMON
case TYPE_SINGLE_FLOAT:
sprintf(my_buff, "%#.7g", (double)single_float_val(u));
break;
#endif
case TYPE_DOUBLE_FLOAT:
/*
* Hexadecimal printing of floating point numbers is only provided for
* here to help with nasty low-level debugging. The output will not be
* directly re-readable. It is only provided for the (default) double-
* precision numbers. Use (prinhex ..) to activate it.
*/
if (escaped_printing & escape_hex)
{ uint32_t *p = (uint32_t *)((char *)u + 1);
int q = current_fp_rep & FP_WORD_ORDER;
sprintf(my_buff, "{%.8lx/%.8lx:%#.8g}",
(long)(uint32_t)p[1-q],
(long)(uint32_t)p[q],
double_float_val(u));
}
else if (escaped_printing & escape_octal)
{ uint32_t *p = (uint32_t *)((char *)u + 1);
int q = current_fp_rep & FP_WORD_ORDER;
sprintf(my_buff, "{%.11lo/%.11lo:%#.8g}",
(long)p[1-q], (long)p[q],
double_float_val(u));
}
else
sprintf(my_buff, "%#.*g", (int)print_precision,
double_float_val(u));
break;
#ifdef COMMON
case TYPE_LONG_FLOAT:
sprintf(my_buff, "%#.17g", (double)long_float_val(u));
break;
#endif
default:
sprintf(my_buff, "?%.8lx?", (long)(uint32_t)u);
break;
}
/*
* I want to trim off trailing zeros, but ensure I leave a digit after the
* decimal point. Things are made more complicated by the presence of an
* exponent. Note that the '#' in the format conversions should mean that
* I ALWAYS have a '.' in the number that has been printed. However on some
* systems this proves not to be the case - in particular IEEE infinities
* (and maybe NaNs?) get displayed without a '.' in some environments where
* they are supported. I also see that some C libraries in some of the cases
* I generate above dump out nonsense like 0.0e+000 with unreasonably wide
* exponents, so I will try to rationalise that sort of mess too.
*/
#ifdef COMMON
float_print_tidyup:
#endif
{ int i = 0, j, c;
while ((c = my_buff[i]) != 0 && c != '.') i++;
if (c == 0) break; /* No '.' found, so leave unaltered */
j = i+1;
/* Find the end of the fraction (= end of number or start of exponent) */
while ((c = my_buff[j]) != 'e' && c != 0) j++;
if (c == 'e')
{ /* check for leading zeros in an exponent component */
while (my_buff[j+1] == '+' || my_buff[j+1] == '0')
{ int m = j+1;
for (;;)
{ if ((my_buff[m] = my_buff[m+1]) == 0) break;
m++;
}
}
if (my_buff[j+1] == '-') /* kill leading zeros after '-' */
{ while (my_buff[j+2] == '0')
{ int m = j+2;
for (;;)
{ if ((my_buff[m] = my_buff[m+1]) == 0) break;
m++;
}
}
if (my_buff[j+2] == 0) my_buff[j+1] = 0;
}
if (my_buff[j+1] == 0) my_buff[j] = 0; /* "e" now at end? */
}
k = j - 1;
if (k == i) /* no digits after the '.' - push in a '0' */
{ int l = j;
while (my_buff[l] != 0) l++;
while (l >= j)
{ my_buff[l+1] = my_buff[l];
l--;
}
my_buff[j++] = '0';
}
else
/* Scan back past any trailing zeroes */
{ i++;
while (k > i && my_buff[k] == '0') k--;
/* Copy data down to strip out the unnecessary '0' characters */
if (k != j-1)
{ k++;
while ((my_buff[k++] = my_buff[j++]) != 0) /* nothing */ ;
}
}
}
/*
* For my purposes I do not want to see "-0.0" - it causes muddle and loses
* portability. I know that losing the information here removes a facility
* from people but it also removes pain from naive users!
*/
if (strcmp(my_buff, "-0.0") == 0) strcpy(my_buff, "0.0");
break;
case TAG_NUMBERS:
if (is_bignum(u))
{
if (escaped_printing & escape_hex)
print_bighexoctbin(u, 16, escape_width(escaped_printing),
blankp,
(escaped_printing & escape_nolinebreak) || tmprint_flag);
else if (escaped_printing & escape_octal)
print_bighexoctbin(u, 8, escape_width(escaped_printing),
blankp,
(escaped_printing & escape_nolinebreak) || tmprint_flag);
else if (escaped_printing & escape_binary)
print_bighexoctbin(u, 2, escape_width(escaped_printing),
blankp,
(escaped_printing & escape_nolinebreak) || tmprint_flag);
else
print_bignum(u, blankp,
(escaped_printing & escape_nolinebreak) || tmprint_flag);
return;
}
#ifdef COMMON
else if (is_ratio(u))
{ push(u);
/*
* Here I have a line-break problem --- I do not measure the size of the
* denominator, and hence may well split a line between numerator and
* denominator. This would be HORRID. I guess that the correct recipe will
* involve measuring the size of the denominator first... Let's not bother
* just at the moment.
*/
internal_prin(numerator(stack[0]), blankp);
outprefix(NO, 1);
putc_stream('/', active_stream);
pop(u);
internal_prin(denominator(u), 0);
return;
}
else if (is_complex(u))
{ push(u);
outprefix(blankp, 3);
putc_stream('#', active_stream), putc_stream('C', active_stream); putc_stream('(', active_stream);
nil = C_nil;
if (exception_pending()) { popv(1); return; }
internal_prin(real_part(stack[0]), 0);
pop(u);
internal_prin(imag_part(u), 1);
outprefix(NO, 1);
putc_stream(')', active_stream);
return;
}
#endif
/* Else drop through to treat as an error */
default:
error_case:
sprintf(my_buff, "?%.8lx?", (long)(uint32_t)u);
break;
}
print_my_buff:
{ char *p = my_buff;
int ch;
outprefix(blankp, strlen(my_buff));
while ((ch = *p++) != 0) putc_stream(ch, active_stream);
}
return;
}
Lisp_Object prin(Lisp_Object u)
{
nil_as_base
escaped_printing = escape_yes;
push(u);
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(u, 0);
pop(u);
return u;
}
void prin_to_terminal(Lisp_Object u)
{
Lisp_Object nil = C_nil;
escaped_printing = escape_yes;
active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(u, 0);
ignore_exception();
ensure_screen();
/*
* The various "prin_to_xxx()" functions here are generally used (only) for
* diagnostic printing. So to try to keep interaction as smooth as possible
* in such cases I arrange that the operating system (eg window manager) will
* be polled rather soon...
*/
if (countdown > 5) countdown = 5;
}
void prin_to_stdout(Lisp_Object u)
{
Lisp_Object nil = C_nil;
escaped_printing = escape_yes;
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = lisp_standard_output;
internal_prin(u, 0);
ignore_exception();
ensure_screen();
if (countdown > 5) countdown = 5;
}
void prin_to_error(Lisp_Object u)
{
Lisp_Object nil = C_nil;
escaped_printing = escape_yes;
active_stream = qvalue(error_output);
if (!is_stream(active_stream)) active_stream = lisp_error_output;
internal_prin(u, 0);
ignore_exception();
ensure_screen();
if (countdown > 5) countdown = 5;
}
void prin_to_trace(Lisp_Object u)
{
Lisp_Object nil = C_nil;
escaped_printing = escape_yes;
active_stream = qvalue(trace_output);
if (!is_stream(active_stream)) active_stream = lisp_trace_output;
internal_prin(u, 0);
ignore_exception();
ensure_screen();
if (countdown > 5) countdown = 5;
}
void prin_to_debug(Lisp_Object u)
{
Lisp_Object nil = C_nil;
escaped_printing = escape_yes;
active_stream = qvalue(debug_io);
if (!is_stream(active_stream)) active_stream = lisp_debug_io;
internal_prin(u, 0);
ignore_exception();
ensure_screen();
if (countdown > 5) countdown = 5;
}
void prin_to_query(Lisp_Object u)
{
Lisp_Object nil = C_nil;
escaped_printing = escape_yes;
active_stream = qvalue(query_io);
if (!is_stream(active_stream)) active_stream = lisp_query_io;
internal_prin(u, 0);
ignore_exception();
ensure_screen();
if (countdown > 5) countdown = 5;
}
void loop_print_stdout(Lisp_Object o)
{
Lisp_Object nil = C_nil;
int32_t sx = exit_reason;
one_args *f;
Lisp_Object lp = qvalue(traceprint_symbol);
if (lp == nil || lp == unset_var) lp = prinl_symbol;
if (!is_symbol(lp) ||
(f = qfn1(lp)) == undefined1) prin_to_stdout(o);
else
{ CSLbool bad = NO;
Lisp_Object env = qenv(lp);
push2(lp, env);
ifn1(lp) = (intptr_t)undefined1; /* To avoid recursion if it fails */
qenv(lp) = lp; /* make it an undefined function */
(*f)(env, o);
nil = C_nil;
if (exception_pending()) flip_exception(), bad = YES;
pop2(env, lp);
if (!bad) ifn1(lp) = (intptr_t)f, qenv(lp) = env; /* Restore if OK */
}
exit_reason = sx;
}
void loop_print_error(Lisp_Object o)
{
nil_as_base
Lisp_Object w = qvalue(standard_output);
push(w);
if (is_stream(qvalue(error_output)))
qvalue(standard_output) = qvalue(error_output);
loop_print_stdout(o);
pop(w);
qvalue(standard_output) = w;
#ifdef COMMON
/*
* This is to help me debug in the face of low level system crashes
*/
if (spool_file) fflush(spool_file);
#endif
}
void loop_print_trace(Lisp_Object o)
{
nil_as_base
Lisp_Object w = qvalue(standard_output);
push(w);
if (is_stream(qvalue(trace_output)))
qvalue(standard_output) = qvalue(trace_output);
loop_print_stdout(o);
pop(w);
qvalue(standard_output) = w;
#ifdef COMMON
/*
* This is to help me debug in the face of low level system crashes
*/
if (spool_file) fflush(spool_file);
#endif
}
void loop_print_debug(Lisp_Object o)
{
nil_as_base
Lisp_Object w = qvalue(standard_output);
push(w);
if (is_stream(qvalue(debug_io)))
qvalue(standard_output) = qvalue(debug_io);
loop_print_stdout(o);
pop(w);
qvalue(standard_output) = w;
}
void loop_print_query(Lisp_Object o)
{
nil_as_base
Lisp_Object w = qvalue(standard_output);
push(w);
if (is_stream(qvalue(query_io)))
qvalue(standard_output) = qvalue(query_io);
loop_print_stdout(o);
pop(w);
qvalue(standard_output) = w;
}
void loop_print_terminal(Lisp_Object o)
{
nil_as_base
Lisp_Object w = qvalue(standard_output);
push(w);
if (is_stream(qvalue(terminal_io)))
qvalue(standard_output) = qvalue(terminal_io);
loop_print_stdout(o);
pop(w);
qvalue(standard_output) = w;
}
Lisp_Object prinraw(Lisp_Object u)
{
Header h;
int32_t len, i;
char b[40], *p;
nil_as_base
push(u);
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
if (is_fixnum(u))
{
/*
* The following line wants to print a long-long 64-bit value but the
* format specifier %.16llx is not universally available, so I use two 32-bit
* chunks.
*/
unsigned long long w = (unsigned long long)u;
unsigned long long hi = w >> 32, lo = w;
sprintf(b, "%.8x%.8x", (int)hi, (int)lo);
for (p=b; *p!=0; p++) putc_stream(*p, active_stream);
}
else if (!is_numbers(u) || type_of_header(h = numhdr(u)) != TYPE_BIGNUM)
{ for (i=0; i<11; i++)
putc_stream("<NotNumber>"[i], active_stream);
}
else
{ len = length_of_header(h);
for (i=CELL; i<len; i+=4)
{ sprintf(b, "%.8x ", bignum_digits(u)[(i-CELL)/4]);
for (p=b; *p!=0; p++) putc_stream(*p, active_stream);
}
}
pop(u);
return u;
}
static Lisp_Object prinhex(Lisp_Object u, int n)
{
nil_as_base
escaped_printing = escape_yes+escape_hex+((n & 0x3f)<<8);
push(u);
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(u, 0);
pop(u);
return u;
}
static Lisp_Object prinoctal(Lisp_Object u, int n)
{
nil_as_base
escaped_printing = escape_yes+escape_octal+((n & 0x3f)<<8);
push(u);
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(u, 0);
pop(u);
return u;
}
static Lisp_Object prinbinary(Lisp_Object u, int n)
{
nil_as_base
escaped_printing = escape_yes+escape_binary+((n & 0x3f)<<8);
push(u);
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(u, 0);
pop(u);
return u;
}
Lisp_Object princ(Lisp_Object u)
{
nil_as_base
escaped_printing = 0;
push(u);
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(u, 0);
pop(u);
return u;
}
Lisp_Object print(Lisp_Object u)
{
nil_as_base
Lisp_Object stream = qvalue(standard_output);
push(u);
escaped_printing = escape_yes;
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
active_stream = stream;
putc_stream('\n', stream);
internal_prin(u, 0);
pop(u);
return u;
}
Lisp_Object printc(Lisp_Object u)
{
nil_as_base
Lisp_Object stream = qvalue(standard_output);
push(u);
escaped_printing = 0;
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
active_stream = stream;
putc_stream('\n', stream);
internal_prin(u, 0);
pop(u);
return u;
}
void freshline_trace(void)
{
nil_as_base
if (other_write_action(WRITE_GET_INFO+WRITE_GET_COLUMN,
qvalue(trace_output)) != 0)
putc_stream('\n', qvalue(trace_output));
}
void freshline_debug(void)
{
nil_as_base
if (other_write_action(WRITE_GET_INFO+WRITE_GET_COLUMN,
qvalue(debug_io)) != 0)
putc_stream('\n', qvalue(debug_io));
}
int char_to_list(int c, Lisp_Object f)
{
Lisp_Object k, nil = C_nil;
/*
* return at once if a previous call raised an exception
*/
if (exception_pending()) return 1;
k = elt(charvec, c & 0xff);
if (k == nil)
{ celt(boffo, 0) = (char)c;
push(f);
/*
* It could very well be that in Common Lisp I ought to generate a list of
* character objects here. As it is I hand back symbols, but I do take care
* that they are in the LISP package.
*/
k = iintern(boffo, 1, lisp_package, 0);
pop(f);
nil = C_nil;
if (exception_pending()) return 1;
elt(charvec, c & 0xff) = k;
}
push(f);
k = cons(k, stream_write_data(f));
pop(f);
nil = C_nil;
if (!exception_pending())
{ stream_write_data(f) = k;
return 0;
}
else return 1;
}
static Lisp_Object explode(Lisp_Object u)
{
Lisp_Object nil = C_nil;
stream_write_data(lisp_work_stream) = nil;
set_stream_write_fn(lisp_work_stream, char_to_list);
set_stream_write_other(lisp_work_stream, write_action_list);
active_stream = lisp_work_stream;
internal_prin(u, 0);
errexit();
u = stream_write_data(lisp_work_stream);
stream_write_data(lisp_work_stream) = nil;
return nreverse(u);
}
static unsigned char checksum_buffer[64];
static int checksum_count;
int char_to_checksum(int c, Lisp_Object f)
{
Lisp_Object nil = C_nil;
/*
* return at once if a previous call raised an exception
*/
CSL_IGNORE(f);
if (exception_pending()) return 1;
checksum_buffer[checksum_count++] = (char)c;
if (checksum_count == sizeof(checksum_buffer))
{ CSL_MD5_Update(checksum_buffer, sizeof(checksum_buffer));
checksum_count = 0;
}
return 0;
}
void checksum(Lisp_Object u)
{
Lisp_Object nil = C_nil;
escaped_printing = escape_yes+escape_nolinebreak+escape_checksum;
set_stream_write_fn(lisp_work_stream, char_to_checksum);
set_stream_write_other(lisp_work_stream, write_action_list); /* sic */
active_stream = lisp_work_stream;
CSL_MD5_Init();
local_gensym_count = checksum_count = 0;
internal_prin(u, 0);
if (exception_pending()) return;
stream_write_data(lisp_work_stream) = nil;
if (checksum_count != 0)
CSL_MD5_Update(checksum_buffer, checksum_count);
}
int code_to_list(int c, Lisp_Object f)
{
Lisp_Object k, nil = C_nil;
/*
* return at once if a previous call raised an exception
*/
if (exception_pending()) return 1;
k = fixnum_of_int((int32_t)c);
push(f);
k = cons(k, stream_write_data(f));
pop(f);
nil = C_nil;
if (!exception_pending())
{ stream_write_data(f) = k;
stream_char_pos(f)++;
return 0;
}
else return 1;
}
static Lisp_Object exploden(Lisp_Object u)
{
Lisp_Object nil = C_nil;
stream_write_data(lisp_work_stream) = nil;
set_stream_write_fn(lisp_work_stream, code_to_list);
set_stream_write_other(lisp_work_stream, write_action_list);
active_stream = lisp_work_stream;
internal_prin(u, 0);
errexit();
u = stream_write_data(lisp_work_stream);
stream_write_data(lisp_work_stream) = nil;
return nreverse(u);
}
/*
* To cope with the needs of windowed implementations I am (unilaterally)
* altering the specification of the LINELENGTH function that I implement.
* The new rules are:
* (linelength nil) returns current width, always an integer
* (linelength n) sets new with to n, returns old
* (linelength T) sets new width to default for current stream,
* and returns old.
* the "old" value returned in the last two cases will often be the current
* linelength as returnd by (linelength nil), but it CAN be the value T.
* On some windowed systems after (linelength T) the value of (linelength nil)
* will track changes that the user makes by re-sizing the main output
* window on their screen. The linelength function inspects and sets
* information for the current standard output stream, and separate
* record is kept of the linelength associated with each stream.
*/
Lisp_Object Llinelength(Lisp_Object nil, Lisp_Object a)
{
int32_t oll;
Lisp_Object stream = qvalue(standard_output);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
if (a == nil)
oll = other_write_action(WRITE_GET_INFO+WRITE_GET_LINE_LENGTH, stream);
else if (a == lisp_true)
oll = other_write_action(WRITE_SET_LINELENGTH_DEFAULT, stream);
else if (!is_fixnum(a)) return aerror1("linelength", a);
else
{ oll = int_of_fixnum(a);
if (oll < 10) oll = 10;
oll = other_write_action(WRITE_SET_LINELENGTH | oll, stream);
}
if (oll == 0x80000000) return onevalue(lisp_true);
else return onevalue(fixnum_of_int(oll));
}
static Lisp_Object MS_CDECL Llinelength0(Lisp_Object nil, int nargs, ...)
{
argcheck(nargs, 0, "linelength");
return Llinelength(nil, nil);
}
Lisp_Object MS_CDECL Lprint_imports(Lisp_Object nil, int nargs, ...)
{
char *p;
const char *s;
int i, ch;
Lisp_Object stream;
argcheck(nargs, 0, "print-imports");
stream = qvalue(standard_output);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
s = fwin_full_program_name;
i = strlen(s)-1;
while (i>=0 && s[i]!='/' && s[i]!='\\') i--;
s = s + (i + 1);
for (i=0; (p=import_data[i])!=NULL; i++)
{ const char *w = s;
putc_stream(' ', stream);
while (*w != 0) putc_stream(*w++, stream);
putc_stream('.', stream);
while ((ch = *p++) != 0) putc_stream(ch, stream);
putc_stream('\n', stream);
}
return onevalue(nil);
}
Lisp_Object MS_CDECL Lprint_csl_headers(Lisp_Object nil, int nargs, ...)
{
char *p;
int i, ch;
Lisp_Object stream;
argcheck(nargs, 0, "print-csl-headers");
stream = qvalue(standard_output);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
for (i=0; (p=csl_headers[i])!=NULL; i++)
{ while ((ch = *p++) != 0) putc_stream(ch, stream);
putc_stream('\n', stream);
}
return onevalue(nil);
}
Lisp_Object MS_CDECL Lprint_config_header(Lisp_Object nil, int nargs, ...)
{
char *p;
int i, ch;
Lisp_Object stream;
argcheck(nargs, 0, "print-config-header");
stream = qvalue(standard_output);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
for (i=0; (p=config_header[i])!=NULL; i++)
{ while ((ch = *p++) != 0) putc_stream(ch, stream);
putc_stream('\n', stream);
}
return onevalue(nil);
}
Lisp_Object Lprin(Lisp_Object nil, Lisp_Object a)
{
push(a);
escaped_printing = escape_yes;
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(a, 0);
pop(a);
errexit();
return onevalue(a);
}
static Lisp_Object Lprinraw(Lisp_Object nil, Lisp_Object a)
{
push(a);
prinraw(a);
pop(a);
errexit();
return onevalue(a);
}
static Lisp_Object Lprinhex(Lisp_Object nil, Lisp_Object a)
{
push(a);
prinhex(a, 0);
pop(a);
errexit();
return onevalue(a);
}
static Lisp_Object Lprinoctal(Lisp_Object nil, Lisp_Object a)
{
push(a);
prinoctal(a, 0);
pop(a);
errexit();
return onevalue(a);
}
static Lisp_Object Lprinbinary(Lisp_Object nil, Lisp_Object a)
{
push(a);
prinbinary(a, 0);
pop(a);
errexit();
return onevalue(a);
}
static Lisp_Object Lprinhex2(Lisp_Object nil, Lisp_Object a, Lisp_Object b)
{
if (!is_fixnum(b)) return aerror1("prinhex", b);
push(a);
prinhex(a, int_of_fixnum(b));
pop(a);
errexit();
return onevalue(a);
}
static Lisp_Object Lprinoctal2(Lisp_Object nil, Lisp_Object a, Lisp_Object b)
{
if (!is_fixnum(b)) return aerror1("prinoctal", b);
push(a);
prinoctal(a, int_of_fixnum(b));
pop(a);
errexit();
return onevalue(a);
}
static Lisp_Object Lprinbinary2(Lisp_Object nil, Lisp_Object a, Lisp_Object b)
{
if (!is_fixnum(b)) return aerror1("prinbinary", b);
push(a);
prinbinary(a, int_of_fixnum(b));
pop(a);
errexit();
return onevalue(a);
}
Lisp_Object MS_CDECL Lposn(Lisp_Object nil, int nargs, ...)
{
CSL_IGNORE(nil);
argcheck(nargs, 0, "posn");
return onevalue(fixnum_of_int((int32_t)
other_write_action(WRITE_GET_INFO+WRITE_GET_COLUMN,
qvalue(standard_output))));
}
Lisp_Object Lposn_1(Lisp_Object nil, Lisp_Object stream)
{
CSL_IGNORE(nil);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
return onevalue(fixnum_of_int((int32_t)
other_write_action(WRITE_GET_INFO+WRITE_GET_COLUMN, stream)));
}
Lisp_Object MS_CDECL Llposn(Lisp_Object nil, int nargs, ...)
{
CSL_IGNORE(nil);
argcheck(nargs, 0, "lposn");
return onevalue(fixnum_of_int(0));
}
Lisp_Object Lpagelength(Lisp_Object nil, Lisp_Object a)
{
CSL_IGNORE(nil);
return onevalue(a);
}
Lisp_Object Lprinc_upcase(Lisp_Object nil, Lisp_Object a)
{
CSL_IGNORE(nil);
push(a);
escaped_printing = escape_fold_up;
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(a, 0);
pop(a);
errexit();
return onevalue(a);
}
Lisp_Object Lprinc_downcase(Lisp_Object nil, Lisp_Object a)
{
CSL_IGNORE(nil);
push(a);
escaped_printing = escape_fold_down;
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(a, 0);
pop(a);
errexit();
return onevalue(a);
}
Lisp_Object Lprinc(Lisp_Object nil, Lisp_Object a)
{
CSL_IGNORE(nil);
push(a);
escaped_printing = 0;
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(a, 0);
pop(a);
errexit();
return onevalue(a);
}
Lisp_Object Lprin2a(Lisp_Object nil, Lisp_Object a)
{
CSL_IGNORE(nil);
push(a);
escaped_printing = escape_nolinebreak;
active_stream = qvalue(standard_output);
if (!is_stream(active_stream)) active_stream = qvalue(terminal_io);
if (!is_stream(active_stream)) active_stream = lisp_terminal_io;
internal_prin(a, 0);
pop(a);
errexit();
return onevalue(a);
}
char memory_print_buffer[MAX_PROMPT_LENGTH];
int count_character(int c, Lisp_Object f)
{
int n = stream_char_pos(f);
if (n < MAX_PROMPT_LENGTH-1)
{ memory_print_buffer[n] = (char)c;
memory_print_buffer[n+1] = 0;
}
stream_char_pos(f) = n+1;
return 0; /* indicate success */
}
Lisp_Object Llengthc(Lisp_Object nil, Lisp_Object a)
{
CSL_IGNORE(nil);
escaped_printing = escape_nolinebreak;
set_stream_write_fn(lisp_work_stream, count_character);
memory_print_buffer[0] = 0;
set_stream_write_other(lisp_work_stream, write_action_list);
stream_char_pos(lisp_work_stream) = 0;
active_stream = lisp_work_stream;
internal_prin(a, 0);
errexit();
return onevalue(fixnum_of_int(stream_char_pos(lisp_work_stream)));
}
Lisp_Object Lprint(Lisp_Object nil, Lisp_Object a)
{
Lisp_Object stream = qvalue(standard_output);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
push(a);
#ifdef COMMON
escaped_printing = escape_yes;
active_stream = stream;
putc_stream('\n', stream);
internal_prin(a, 0);
#else
escaped_printing = escape_yes;
active_stream = stream;
internal_prin(a, 0);
putc_stream('\n', active_stream);
#endif
pop(a);
errexit();
return onevalue(a);
}
Lisp_Object Lprintc(Lisp_Object nil, Lisp_Object a)
{
Lisp_Object stream = qvalue(standard_output);
CSL_IGNORE(nil);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
push(a);
#ifdef COMMON
escaped_printing = 0;
active_stream = stream;
putc_stream('\n', stream);
internal_prin(a, 0);
#else
escaped_printing = 0;
active_stream = stream;
internal_prin(a, 0);
putc_stream('\n', active_stream);
#endif
pop(a);
errexit();
return onevalue(a);
}
Lisp_Object MS_CDECL Lterpri(Lisp_Object nil, int nargs, ...)
{
Lisp_Object stream = qvalue(standard_output);
argcheck(nargs, 0, "terpri");
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
putc_stream('\n', stream);
return onevalue(nil);
}
Lisp_Object MS_CDECL Lflush(Lisp_Object nil, int nargs, ...)
{
Lisp_Object stream = qvalue(standard_output);
#ifdef COMMON
argcheck(nargs, 0, "finish-output");
#else
argcheck(nargs, 0, "flush");
#endif
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
other_write_action(WRITE_FLUSH, stream);
return onevalue(nil);
}
Lisp_Object Lflush1(Lisp_Object nil, Lisp_Object stream)
{
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
other_write_action(WRITE_FLUSH, stream);
return onevalue(nil);
}
Lisp_Object Lttab(Lisp_Object nil, Lisp_Object a)
{
int32_t n;
Lisp_Object stream = qvalue(standard_output);
if (!is_fixnum(a)) return aerror1("ttab", a);
n = int_of_fixnum(a);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
active_stream = stream;
while (other_write_action(WRITE_GET_INFO+WRITE_GET_COLUMN, stream) < n)
putc_stream(' ', active_stream);
return onevalue(nil);
}
Lisp_Object Lxtab(Lisp_Object nil, Lisp_Object a)
{
int32_t n;
Lisp_Object stream = qvalue(standard_output);
if (!is_fixnum(a)) return aerror1("xtab", a);
n = int_of_fixnum(a);
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
active_stream = stream;
while (n-- > 0) putc_stream(' ', active_stream);
return onevalue(nil);
}
Lisp_Object MS_CDECL Leject(Lisp_Object nil, int nargs, ...)
{
Lisp_Object stream = qvalue(standard_output);
argcheck(nargs, 0, "eject");
if (!is_stream(stream)) stream = qvalue(terminal_io);
if (!is_stream(stream)) stream = lisp_terminal_io;
putc_stream('\f', stream);
return onevalue(nil);
}
Lisp_Object Lexplode(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_yes+escape_nolinebreak;
a = explode(a);
errexit();
return onevalue(a);
}
Lisp_Object Lexplodehex(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_yes+escape_hex+escape_nolinebreak;
a = explode(a);
errexit();
return onevalue(a);
}
Lisp_Object Lexplodeoctal(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_yes+escape_octal+escape_nolinebreak;
a = explode(a);
errexit();
return onevalue(a);
}
Lisp_Object Lexplodebinary(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_yes+escape_binary+escape_nolinebreak;
a = explode(a);
errexit();
return onevalue(a);
}
Lisp_Object Lexplodec(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_nolinebreak;
a = explode(a);
errexit();
return onevalue(a);
}
Lisp_Object Lexplode2lc(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_fold_down+escape_nolinebreak;
a = explode(a);
errexit();
return onevalue(a);
}
Lisp_Object Lexplode2uc(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_fold_up+escape_nolinebreak;
a = explode(a);
errexit();
return onevalue(a);
}
Lisp_Object Lexploden(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_yes+escape_nolinebreak;
a = exploden(a);
errexit();
return onevalue(a);
}
Lisp_Object Lexplodecn(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_nolinebreak;
a = exploden(a);
errexit();
return onevalue(a);
}
Lisp_Object Lexplode2lcn(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_fold_down+escape_nolinebreak;
a = exploden(a);
errexit();
return onevalue(a);
}
Lisp_Object Lexplode2ucn(Lisp_Object nil, Lisp_Object a)
{
escaped_printing = escape_fold_up+escape_nolinebreak;
a = exploden(a);
errexit();
return onevalue(a);
}
/*
* Now a bunch of binary file access code, as required for the RAND simulation
* package. Note that these are NOT smoothly integrated with the use of
* variables like *standard-output* to hold file handles, but I will leave them
* pending until other things are more stable... or until they are needed!
*/
static FILE *binary_outfile, *binary_infile;
static FILE *binary_open(Lisp_Object nil, Lisp_Object name, char *dir, char *e)
{
FILE *file;
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
char *w = get_string_data(name, e, &len);
nil = C_nil;
if (exception_pending()) return NULL;
if (len >= sizeof(filename)) len = sizeof(filename);
file = open_file(filename, w,
(size_t)len, dir, NULL);
if (file == NULL)
{ error(1, err_open_failed, name);
return NULL;
}
return file;
}
static Lisp_Object Lbinary_open_output(Lisp_Object nil, Lisp_Object name)
{
#ifdef SOCKETS
if (socket_server != 0) return aerror("binary-open-output");
#endif
binary_outfile = binary_open(nil, name, "wb", "binary_open_output");
errexit();
return onevalue(nil);
}
int binary_outchar(int c, Lisp_Object dummy)
{
CSL_IGNORE(dummy);
if (binary_outfile == NULL) return 1;
putc(c, binary_outfile);
return 0; /* indicate success */
}
static Lisp_Object Lbinary_prin1(Lisp_Object nil, Lisp_Object a)
{
push(a);
escaped_printing = escape_yes;
set_stream_write_fn(lisp_work_stream, binary_outchar);
set_stream_write_other(lisp_work_stream, write_action_file);
set_stream_file(lisp_work_stream, binary_outfile);
active_stream = lisp_work_stream;
internal_prin(a, 0);
pop(a);
errexit();
return onevalue(a);
}
static Lisp_Object Lbinary_princ(Lisp_Object nil, Lisp_Object a)
{
CSL_IGNORE(nil);
escaped_printing = 0;
push(a);
set_stream_write_fn(lisp_work_stream, binary_outchar);
set_stream_write_other(lisp_work_stream, write_action_file);
set_stream_file(lisp_work_stream, binary_outfile);
active_stream = lisp_work_stream;
internal_prin(a, 0);
pop(a);
return a;
}
static Lisp_Object Lbinary_prinbyte(Lisp_Object nil, Lisp_Object a)
{
int x;
if (binary_outfile == NULL) return onevalue(nil);
if (!is_fixnum(a)) return aerror1("binary_prinbyte", a);
x = (int)int_of_fixnum(a);
putc(x, binary_outfile);
return onevalue(nil);
}
static Lisp_Object Lbinary_prin2(Lisp_Object nil, Lisp_Object a)
{
uint32_t x;
if (binary_outfile == NULL) return onevalue(nil);
if (!is_fixnum(a)) return aerror1("binary_prin2", a);
x = int_of_fixnum(a);
putc((int)(x >> 8), binary_outfile);
putc((int)x, binary_outfile);
return onevalue(nil);
}
static Lisp_Object Lbinary_prin3(Lisp_Object nil, Lisp_Object a)
{
uint32_t x;
if (binary_outfile == NULL) return onevalue(nil);
if (!is_fixnum(a)) return aerror1("binary_prin3", a);
x = int_of_fixnum(a);
putc((int)(x >> 16), binary_outfile);
putc((int)(x >> 8), binary_outfile);
putc((int)x, binary_outfile);
return onevalue(nil);
}
static Lisp_Object Lbinary_prinfloat(Lisp_Object nil, Lisp_Object a)
{
uint32_t *w, x;
if (binary_outfile == NULL) return onevalue(nil);
if (!is_float(a)) return aerror1("binary_prinfloat", a);
w = (uint32_t *)&double_float_val(a);
x = w[0];
putc((int)(x >> 24), binary_outfile);
putc((int)(x >> 16), binary_outfile);
putc((int)(x >> 8), binary_outfile);
putc((int)x, binary_outfile);
x = w[1];
putc((int)(x >> 24), binary_outfile);
putc((int)(x >> 16), binary_outfile);
putc((int)(x >> 8), binary_outfile);
putc((int)x, binary_outfile);
return onevalue(nil);
}
static Lisp_Object MS_CDECL Lbinary_terpri(Lisp_Object nil, int nargs, ...)
{
argcheck(nargs, 0, "binary_terpri");
if (binary_outfile != NULL) putc('\n', binary_outfile);
return onevalue(nil);
}
static Lisp_Object MS_CDECL Lbinary_close_output(Lisp_Object nil, int nargs, ...)
{
argcheck(nargs, 0, "binary-close-output");
if (binary_outfile != NULL)
{ fclose(binary_outfile);
binary_outfile = NULL;
}
return onevalue(nil);
}
static Lisp_Object Lbinary_open_input(Lisp_Object nil, Lisp_Object name)
{
Lisp_Object r;
FILE *fh = binary_open(nil, name, "rb", "binary_open_input");
errexit();
r = make_stream_handle();
errexit();
set_stream_read_fn(r, char_from_file);
set_stream_read_other(r, read_action_file);
set_stream_file(r, fh);
return onevalue(r);
}
static Lisp_Object Lbinary_select_input(Lisp_Object nil, Lisp_Object a)
{
if (!is_stream(a) ||
stream_file(a) == NULL ||
stream_write_fn(a) != 0)
return aerror1("binary-select-input", a); /* closed file or output file */
binary_infile = stream_file(a);
return onevalue(nil);
}
static Lisp_Object MS_CDECL Lbinary_readbyte(Lisp_Object nil, int nargs, ...)
{
CSL_IGNORE(nil);
argcheck(nargs, 0, "binary-readbyte");
if (binary_infile == NULL) return onevalue(fixnum_of_int(-1));
return onevalue(fixnum_of_int((int32_t)getc(binary_infile) & 0xff));
}
static Lisp_Object MS_CDECL Lbinary_read2(Lisp_Object nil, int nargs, ...)
{
CSL_IGNORE(nil);
argcheck(nargs, 0, "binary-read2");
if (binary_infile == NULL) return onevalue(fixnum_of_int(-1));
{ int32_t c1 = (int32_t)getc(binary_infile) & 0xff;
int32_t c2 = (int32_t)getc(binary_infile) & 0xff;
return onevalue(fixnum_of_int((c1<<8) | c2));
}
}
static Lisp_Object MS_CDECL Lbinary_read3(Lisp_Object nil, int nargs, ...)
{
CSL_IGNORE(nil);
argcheck(nargs, 0, "binary-read3");
if (binary_infile == NULL) return onevalue(fixnum_of_int(-1));
{ int32_t c1 = (int32_t)getc(binary_infile) & 0xff;
int32_t c2 = (int32_t)getc(binary_infile) & 0xff;
int32_t c3 = (int32_t)getc(binary_infile) & 0xff;
return onevalue(fixnum_of_int((c1<<16) | (c2<<8) | c3));
}
}
static Lisp_Object MS_CDECL Lbinary_read4(Lisp_Object nil, int nargs, ...)
{
CSL_IGNORE(nil);
argcheck(nargs, 0, "binary-read4");
if (binary_infile == NULL) return onevalue(fixnum_of_int(-1));
{ int32_t c1 = (int32_t)getc(binary_infile) & 0xff;
int32_t c2 = (int32_t)getc(binary_infile) & 0xff;
int32_t c3 = (int32_t)getc(binary_infile) & 0xff;
int32_t c4 = (int32_t)getc(binary_infile) & 0xff;
int32_t r = (c1 << 24) | (c2 << 16) | (c3 << 8) | c4;
return onevalue(fixnum_of_int(r));
}
}
static Lisp_Object MS_CDECL Lbinary_readfloat(Lisp_Object nil, int nargs, ...)
{
Lisp_Object r = make_boxfloat(0.0, TYPE_DOUBLE_FLOAT);
uint32_t w;
errexit();
argcheck(nargs, 0, "binary-readfloat");
if (binary_infile == NULL) return onevalue(r);
w = (int32_t)getc(binary_infile) & 0xff;
w = (w<<8) | ((int32_t)getc(binary_infile) & 0xff);
w = (w<<8) | ((int32_t)getc(binary_infile) & 0xff);
w = (w<<8) | ((int32_t)getc(binary_infile) & 0xff);
((uint32_t *)&double_float_val(r))[0] = w;
w = (int32_t)getc(binary_infile) & 0xff;
w = (w<<8) | ((int32_t)getc(binary_infile) & 0xff);
w = (w<<8) | ((int32_t)getc(binary_infile) & 0xff);
w = (w<<8) | ((int32_t)getc(binary_infile) & 0xff);
((uint32_t *)&double_float_val(r))[1] = w;
return onevalue(r);
}
static Lisp_Object MS_CDECL Lbinary_close_input(Lisp_Object nil, int nargs, ...)
{
argcheck(nargs, 0, "binary-close-input");
if (binary_infile != NULL)
{ fclose(binary_infile);
binary_infile = NULL;
}
return onevalue(nil);
}
/*
* (open-library "file" dirn) opens a new library (for use with the
* fasl mechanism etc). If dirn=nil (or not specified) the library is
* opened for input only. If dirn is non-nil an attempt is made to open
* the library so that it can be updated, and if it does not exist to start
* with it is created. The resulting handle can be passed to close-library
* or used in the variables input-libraries or output-library.
*/
static Lisp_Object Lopen_library(Lisp_Object nil, Lisp_Object file,
Lisp_Object dirn)
{
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
CSLbool forinput = (dirn==nil);
int i;
char *w = get_string_data(file, "open-library", &len);
errexit();
if (len >= sizeof(filename)) len = sizeof(filename)-1;
memcpy(filename, w, len);
filename[len] = 0;
for (i=0; i<number_of_fasl_paths; i++)
{ if (fasl_files[i] == NULL) goto found;
}
if (number_of_fasl_paths>=MAX_FASL_PATHS-1)
return aerror("open-library (too many open libraries)");
number_of_fasl_paths++;
found:
fasl_files[i] = open_pds(filename, forinput);
/*
* allocating space using malloc() here is dodgy, because the matching
* place in close-library does not do a corresponding free() operation.
*/
w = (char *)malloc(strlen(filename)+1);
if (w == NULL) w = "Unknown file";
else strcpy(w, filename);
fasl_paths[i] = w;
return onevalue(SPID_LIBRARY + (((int32_t)i)<<20));
}
static Lisp_Object Lopen_library_1(Lisp_Object nil, Lisp_Object file)
{
return Lopen_library(nil, file, nil);
}
static Lisp_Object Lclose_library(Lisp_Object nil, Lisp_Object lib)
{
if (!is_library(lib)) return aerror1("close-library", lib);
finished_with(library_number(lib));
return onevalue(nil);
}
static Lisp_Object Llibrary_name(Lisp_Object nil, Lisp_Object lib)
{
Lisp_Object a;
if (!is_library(lib)) return aerror1("library-name", lib);
a = make_string(fasl_paths[library_number(lib)]);
errexit();
return onevalue(a);
}
#ifdef CJAVA
extern void process_java_file(FILE *file);
static Lisp_Object Ljava(Lisp_Object nil, Lisp_Object name)
{
char filename[LONGEST_LEGAL_FILENAME];
int32_t len;
FILE *file;
char *w = get_string_data(name, "java", &len);
nil = C_nil;
if (exception_pending()) return nil;
if (len >= sizeof(filename)) len = sizeof(filename);
file = open_file(filename, w, (size_t)len, "rb", NULL);
if (file == NULL)
{ error(1, err_open_failed, name);
return NULL;
}
process_java_file(file);
fclose(file);
return onevalue(nil);
}
#endif
#ifdef SOCKETS
/*
* If a Winsock function fails it leaves an error code that
* WSAGetLastError() can retrieve. This function converts the numeric
* codes to some printable text. Still cryptic, but maybe better than
* the raw numbers!
*/
static char error_name[32];
char *WSAErrName(int i)
{
switch (i)
{
default: sprintf(error_name, "Socket error %d", i);
return error_name;
#ifdef WIN32
case WSAEINTR: return "WSAEINTR";
case WSAEBADF: return "WSAEBADF";
case WSAEACCES: return "WSAEACCES";
#ifdef WSAEDISCON
case WSAEDISCON: return "WSAEDISCON";
#endif
case WSAEFAULT: return "WSAEFAULT";
case WSAEINVAL: return "WSAEINVAL";
case WSAEMFILE: return "WSAEMFILE";
case WSAEWOULDBLOCK: return "WSAEWOULDBLOCK";
case WSAEINPROGRESS: return "WSAEINPROGRESS";
case WSAEALREADY: return "WSAEALREADY";
case WSAENOTSOCK: return "WSAENOTSOCK";
case WSAEDESTADDRREQ: return "WSAEDESTADDRREQ";
case WSAEMSGSIZE: return "WSAEMSGSIZE";
case WSAEPROTOTYPE: return "WSAEPROTOTYPE";
case WSAENOPROTOOPT: return "WSAENOPROTOOPT";
case WSAEPROTONOSUPPORT: return "WSAEPROTONOSUPPORT";
case WSAESOCKTNOSUPPORT: return "WSAESOCKTNOSUPPORT";
case WSAEOPNOTSUPP: return "WSAEOPNOTSUPP";
case WSAEPFNOSUPPORT: return "WSAEPFNOSUPPORT";
case WSAEAFNOSUPPORT: return "WSAEAFNOSUPPORT";
case WSAEADDRINUSE: return "WSAEADDRINUSE";
case WSAEADDRNOTAVAIL: return "WSAEADDRNOTAVAIL";
case WSAENETDOWN: return "WSAENETDOWN";
case WSAENETUNREACH: return "WSAENETUNREACH";
case WSAENETRESET: return "WSAENETRESET";
case WSAECONNABORTED: return "WSAECONNABORTED";
case WSAECONNRESET: return "WSAECONNRESET";
case WSAENOBUFS: return "WSAENOBUFS";
case WSAEISCONN: return "WSAEISCONN";
case WSAENOTCONN: return "WSAENOTCONN";
case WSAESHUTDOWN: return "WSAESHUTDOWN";
case WSAETOOMANYREFS: return "WSAETOOMANYREFS";
case WSAETIMEDOUT: return "WSAETIMEDOUT";
case WSAECONNREFUSED: return "WSAECONNREFUSED";
case WSAELOOP: return "WSAELOOP";
case WSAENAMETOOLONG: return "WSAENAMETOOLONG";
case WSAEHOSTDOWN: return "WSAEHOSTDOWN";
case WSAEHOSTUNREACH: return "WSAEHOSTUNREACH";
case WSASYSNOTREADY: return "WSASYSNOTREADY";
case WSAVERNOTSUPPORTED: return "WSAVERNOTSUPPORTED";
case WSANOTINITIALISED: return "WSANOTINITIALISED";
case WSAHOST_NOT_FOUND: return "WSAHOST_NOT_FOUND";
case WSATRY_AGAIN: return "WSATRY_AGAIN";
case WSANO_RECOVERY: return "WSANO_RECOVERY";
case WSANO_DATA: return "WSANO_DATA";
#else
/*
* When I run under Unix I display both the Unix and Windows form of the
* error code. I guess that shows you which of those platforms is the one
* I am doing initial development on!
*/
case EINTR: return "WSAEINTR/EINTR";
case EBADF: return "WSAEBADF/EBADF";
case EACCES: return "WSAEACCES/EACCES";
case EFAULT: return "WSAEFAULT/EFAULT";
case EINVAL: return "WSAEINVAL/EINVAL";
case EMFILE: return "WSAEMFILE/EMFILE";
case EWOULDBLOCK: return "WSAEWOULDBLOCK/EWOULDBLOCK";
case EINPROGRESS: return "WSAEINPROGRESS/EINPROGRESS";
case EALREADY: return "WSAEALREADY/EALREADY";
case ENOTSOCK: return "WSAENOTSOCK/ENOTSOCK";
case EDESTADDRREQ: return "WSAEDESTADDRREQ/EDESTADDRREQ";
case EMSGSIZE: return "WSAEMSGSIZE/EMSGSIZE";
case EPROTOTYPE: return "WSAEPROTOTYPE/EPROTOTYPE";
case ENOPROTOOPT: return "WSAENOPROTOOPT/ENOPROTOOPT";
case EPROTONOSUPPORT: return "WSAEPROTONOSUPPORT/EPROTONOSUPPORT";
case ESOCKTNOSUPPORT: return "WSAESOCKTNOSUPPORT/ESOCKTNOSUPPORT";
case EOPNOTSUPP: return "WSAEOPNOTSUPP/EOPNOTSUPP";
case EPFNOSUPPORT: return "WSAEPFNOSUPPORT/EPFNOSUPPORT";
case EAFNOSUPPORT: return "WSAEAFNOSUPPORT/EAFNOSUPPORT";
case EADDRINUSE: return "WSAEADDRINUSE/EADDRINUSE";
case EADDRNOTAVAIL: return "WSAEADDRNOTAVAIL/EADDRNOTAVAIL";
case ENETDOWN: return "WSAENETDOWN/ENETDOWN";
case ENETUNREACH: return "WSAENETUNREACH/ENETUNREACH";
case ENETRESET: return "WSAENETRESET/ENETRESET";
case ECONNABORTED: return "WSAECONNABORTED/ECONNABORTED";
case ECONNRESET: return "WSAECONNRESET/ECONNRESET";
case ENOBUFS: return "WSAENOBUFS/ENOBUFS";
case EISCONN: return "WSAEISCONN/EISCONN";
case ENOTCONN: return "WSAENOTCONN/ENOTCONN";
case ESHUTDOWN: return "WSAESHUTDOWN/ESHUTDOWN";
case ETOOMANYREFS: return "WSAETOOMANYREFS/ETOOMANYREFS";
case ETIMEDOUT: return "WSAETIMEDOUT/ETIMEDOUT";
case ECONNREFUSED: return "WSAECONNREFUSED/ECONNREFUSED";
case ELOOP: return "WSAELOOP/ELOOP";
case ENAMETOOLONG: return "WSAENAMETOOLONG/ENAMETOOLONG";
case EHOSTDOWN: return "WSAEHOSTDOWN/EHOSTDOWN";
case EHOSTUNREACH: return "WSAEHOSTUNREACH/EHOSTUNREACH";
case HOST_NOT_FOUND: return "WSAHOST_NOT_FOUND/HOST_NOT_FOUND";
case TRY_AGAIN: return "WSATRY_AGAIN/TRY_AGAIN";
case NO_RECOVERY: return "WSANO_RECOVERY/NO_RECOVERY";
#ifdef never
/*
* Duplicated EINTR, at least on Linux.
*/
case NO_DATA: return "WSANO_DATA/NO_DATA";
#endif
#endif /* WIN32 */
}
}
int ensure_sockets_ready(void)
{
if (!sockets_ready)
{
#ifdef WIN32
/*
* Under Windows the socket stuff is not automatically active, so some
* system calls have to be made at the start of a run. I demand a
* Winsock 1.1, and fail if that is not available.
*/
WSADATA wsadata;
int i = WSAStartup(MAKEWORD(1,1), &wsadata);
if (i) return i; /* Failed to start winsock for some reason */;
if (LOBYTE(wsadata.wVersion) != 1 ||
HIBYTE(wsadata.wVersion) != 1)
{ WSACleanup();
return 1; /* Version 1.1 of winsock needed */
}
#endif
sockets_ready = 1;
}
return 0;
}
#define SOCKET_BUFFER_SIZE 256
/*
* A stream attached to a socket is represented by putting the socket handle
* into the field that would otherwise hold a FILE. The stream_read_data
* field then holds a string. The first 4 characters of this contain
* two packed integers saying how much buffered data is available,
* and then there is just a chunk of buffered text.
*/
int char_from_socket(Lisp_Object stream)
{
int ch = stream_pushed_char(stream);
if (ch == NOT_CHAR)
{ Lisp_Object w = stream_read_data(stream);
int32_t sb_data = ielt32(w, 0);
int sb_start = sb_data & 0xffff, sb_end = (sb_data >> 16) & 0xffff;
/*
* Note use of ucelt in the next line even if char is a signed type. This
* is because getc() etc are expected to return an UNSIGNED char cast to
* an int.
*/
if (sb_start != sb_end) ch = ucelt(w, sb_start++);
else
{ ch = recv((SOCKET)(intptr_t)stream_file(stream),
&celt(w, 4), SOCKET_BUFFER_SIZE, 0);
if (ch == 0) return EOF;
if (ch == SOCKET_ERROR)
{ err_printf("socket read error (%s)\n",
WSAErrName(WSAGetLastError()));
return EOF;
}
sb_start = 5;
sb_end = ch + 4;
ch = ucelt(w, 4);
}
sb_data = sb_start | (sb_end << 16);
ielt32(w, 0) = sb_data;
return ch;
}
else stream_pushed_char(stream) = NOT_CHAR;
return ch;
}
/*
* Seek and tell will be just quiet no-ops on socket streams.
*/
int32_t read_action_socket(int32_t op, Lisp_Object f)
{
if (op < -1) return 0;
else if (op <= 0xff) return (stream_pushed_char(f) = op);
else switch (op)
{
case READ_CLOSE:
if (stream_file(f) == NULL) op = 0;
else op = closesocket((SOCKET)(intptr_t)stream_file(f));
set_stream_read_fn(f, char_from_illegal);
set_stream_read_other(f, read_action_illegal);
set_stream_file(f, NULL);
stream_read_data(f) = C_nil;
return op;
case READ_FLUSH:
stream_pushed_char(f) = NOT_CHAR;
return 0;
default:
return 0;
}
}
int fetch_response(char *buffer, Lisp_Object r)
{
int i;
for (i = 0; i < LONGEST_LEGAL_FILENAME; i++)
{ int ch = char_from_socket(r);
if (ch == EOF) return 1;
buffer[i] = (char)ch;
if (ch == 0x0a)
{ buffer[i] = 0;
/*
* The keys returned at the start of a response line are supposed to be
* case insensitive, so I fold things to lower case right here.
*/
for (i=0; buffer[i]!=0 && buffer[i]!=' '; i++)
buffer[i] = (char)tolower(buffer[i]);
return 0;
}
}
return 1; /* fail if response was over-long */
}
static Lisp_Object Lopen_url(Lisp_Object nil, Lisp_Object url)
{
char filename[LONGEST_LEGAL_FILENAME],
filename1[LONGEST_LEGAL_FILENAME], *p;
char *user, *pass, *proto, *hostaddr, *port, *path;
int nuser, npass, nproto, nhostaddr, nport, npath;
int32_t len;
struct hostent *host;
long int hostnum;
SOCKET s;
int i, retcode, retry_count=0;
Lisp_Object r;
char *w = get_string_data(url, "open-url", &len);
errexit();
start_again:
if (len >= sizeof(filename)) len = sizeof(filename)-1;
memcpy(filename, w, len);
filename[len] = 0;
/*
* I want to parse the URL. I leave the result as a collection of
* pointers (usually to the start of text within the URL itself, but
* sometimes elsewhere, together with lengths of the substrings as found.
*/
user = pass = proto = hostaddr = port = path = " ";
nuser = npass = nproto = nhostaddr = nport = npath = 0;
p = filename;
/*
* If the start of the URL is of the form "xyz:" with xyz alphanumeric
* then that is a protocol name, and I will force it into lower case.
*/
for (i=0; i<len; i++)
if (!isalnum(p[i])) break;
if (p[i] == ':')
{ proto = p;
nproto = i; /* Could still be zero! */
p += i+1;
len -= i+1;
for (i=0; i<nproto; i++) proto[i] = (char)tolower(proto[i]);
}
/*
* After any protocol specification I may have a host name, introduced
* by "//".
*/
if (p[0] == '/' && p[1] == '/')
{ p += 2;
len -= 2;
/*
* If the URL (sans protocol) contains a "@" then I will take it to be
* in the form
* user:password@hostaddr/...
* and will split the user bit off. This will be particularly used in the
* case of FTP requests. The password will be allowed to contain ":" and
* "@" characters. Furthermore I will also allow the password to be
* enclosed in quote marks ("), although since I scan for the "@" from
* the right and for the ":" from the left these are not needed at all,
* so if I notice them here all I have to do is to discard them!
*/
for (i=len-1; i>=0; i--)
if (p[i] == '@') break;
if (i >= 0)
{ user = p;
p += i+1;
len -= i+1;
while (user[nuser] != ':' && user[nuser] != '@') nuser++;
if (user[nuser] == ':')
{ pass = user+nuser+1;
npass = i - nuser - 1;
if (pass[0] == '"' && pass[npass-1] == '"')
pass++, npass -= 2;
}
}
/*
* Now what is left is a host, port number and path, written as
* hostaddr:port/... but note that the "/" should be treated as
* part of the path-name.
*/
hostaddr = p;
for (;;)
{ switch (hostaddr[nhostaddr])
{
default:
nhostaddr++;
continue;
case '/':
p += nhostaddr;
len -= nhostaddr;
break;
case 0: len = 0;
break;
case ':': /* port number given */
port = hostaddr+nhostaddr+1;
for (;;)
{ switch (port[nport])
{
default:
nport++;
continue;
case '/':
p += nhostaddr + nport + 1;
len -= nhostaddr + nport + 1;
break;
case 0: len = 0;
break;
}
break;
}
break;
}
break;
}
}
path = p;
npath = len;
if (npath == 0) path = "/", npath = 1; /* Default path */
/*
* If a protocol was not explicitly given I will try to deduce one from the
* start of the name of the hostaddr. Failing that I will just use a default.
*/
if (nproto == 0)
{ if (strncmp(hostaddr, "www.", 4) == 0 ||
strncmp(hostaddr, "wwwcgi.", 7) == 0)
{ proto = "http";
nproto = 4;
}
else
{ proto = "ftp";
nproto = 3;
}
}
/*
* If the user gave an explicit port number I will try to use it. If the
* port was not numeric I ignore it and drop down to trying to use
* a default port based on the selected protocol.
*/
if (nport != 0)
{ int w;
memcpy(filename1, port, nport);
filename1[nport] = 0;
if (sscanf(filename1, "%d", &w) == 1) nport = w;
else nport = 0;
}
if (nport == 0)
{ if (nproto == 3 && memcmp(proto, "ftp", 3) == 0) nport = 21;
else if (nproto == 4 && memcmp(proto, "http", 4) == 0) nport = 80;
/*
* Elsewhere I have code that can call on an external "scp" program to support
* a secure-fetch scheme, but I will NOT include that here.
*/
else return aerror("Unknown protocol");
}
/*
* If no host-name was given then the object concerned is on the
* local machine. This is a funny case maybe, but I will just chain
* through and open it as an ordinary file (without regard to
* protocol etc).
*/
if (nhostaddr == 0)
{ FILE *file = open_file(filename1, path, (size_t)npath, "r", NULL);
if (file == NULL) return onevalue(nil);
push(url);
r = make_stream_handle();
pop(url);
errexit();
stream_type(r) = url;
set_stream_file(r, file);
set_stream_read_fn(r, char_from_file);
set_stream_read_other(r, read_action_file);
return onevalue(r);
}
if (nproto == 3 && strcmp(proto, "ftp") == 0 && nuser == 0)
{ user = "anonymous";
nuser = strlen(user);
if (npass == 0)
{ pass = "acn1@cam.ac.uk";
npass = strlen(pass);
}
}
#ifdef DEBUG
/*
* The trace print here is not needed in the long term but certainly
* helps while I am doing initial tests.
*/
trace_printf(
"User <%.*s> Pass <%.*s> Proto <%.*s>\n"
"Host <%.*s> Port <%d> Path <%.*s>\n",
nuser, user, npass, pass, nproto, proto,
nhostaddr, hostaddr, nport, npath, path);
#endif
if (ensure_sockets_ready() != 0) return nil;
memcpy(filename1, hostaddr, nhostaddr);
filename1[nhostaddr] = 0;
/* I try to accept either "." form or named host specifications */
hostnum = inet_addr(filename1);
if (hostnum == INADDR_NONE)
{
host = gethostbyname(filename1);
if (host != NULL)
hostnum = ((struct in_addr *)host->h_addr)->s_addr;
}
if (hostnum == INADDR_NONE)
{ err_printf("Host not found (%s)\n", WSAErrName(WSAGetLastError()));
return onevalue(nil);
}
s = socket(PF_INET, SOCK_STREAM, 0); /* Make a new socket */
{ struct sockaddr_in sin;
memset(&sin, 0, sizeof(sin));
sin.sin_family = AF_INET;
sin.sin_port = htons(nport);
sin.sin_addr.s_addr = hostnum;
/*
* Because there can be quite tedious delays in network fetches I will
* log that I am trying to make contact.
*/
trace_printf("Contacting %.*s...\n", nhostaddr, hostaddr);
ensure_screen();
if (connect(s, (struct sockaddr *)&sin, sizeof(sin)) == SOCKET_ERROR)
{ err_printf("connect failed %s\n", WSAErrName(WSAGetLastError()));
closesocket(s);
return onevalue(nil);
}
trace_printf("Connection created\n");
}
sprintf(filename1, "GET %.*s HTTP/1.0\x0d\x0a\x0d\x0a", npath, path);
/* MD addition from webcore.c*/
i = strlen(filename1);
/*
* Certainly if the Web server I am accessing is the one that comes as
* standard with Windows NT I need to reassure it that I want the document
* returned to me WHATEVER its media type is. If I do not add in the
* line "Accept: *|*" the GET request will only allow me to fetch simple
* text (?)
* Note that above I write "*|*" where I only really mean a "/" in the
* middle but where C comment conventions intrude!
*/
sprintf(&filename1[i], "Accept: */*\x0d\x0a\x0d\x0a");
if (send(s, filename1, strlen(filename1), 0) == SOCKET_ERROR)
{ err_printf("Send error (%s)\n", WSAErrName(WSAGetLastError()));
closesocket(s);
return onevalue(nil);
}
push(url);
r = make_stream_handle();
pop(url);
errexit();
stream_type(r) = url;
push(r);
url = getvector(TAG_VECTOR, TYPE_STRING, CELL+4+SOCKET_BUFFER_SIZE);
pop(r);
errexit();
ielt32(url, 0) = 0;
stream_read_data(r) = url;
set_stream_file(r, (FILE *)(intptr_t)s);
set_stream_read_fn(r, char_from_socket);
set_stream_read_other(r, read_action_socket);
/*
Now fetch the status line.
*/
if (fetch_response(filename1, r))
{ err_printf("Error fetching status line from the server\n");
Lclose(nil,r);
return onevalue(nil);
}
/*
* I check if the first line returned is in the form "HTTP/n.n nnn " and if
* it is not I assume that I have reached an HTTP/0.9 server and all the
* text that comes back will be the body.
*/
{ int major, minor;
/*
* I will not worry much about just which version of HTTP the system reports
* that it is using, provided it says something! I expect to see the return
* code as a three digit number. I verify that it is in the range 0 to 999 but
* do not check for (and thus reject) illegal responses such as 0000200.
*/
if (sscanf(filename1,
"http/%d.%d %d", &major, &minor, &retcode) != 3 ||
retcode < 0 || retcode > 999)
{ err_printf("Bad protocol specification returned\n");
err_printf(filename1); /* So I can see what did come back */
Lclose(nil,r);
return onevalue(nil);
}
}
/*
* In this code I treat all unexpected responses as errors and I do not
* attempt to continue. This is sometimes going to be overly pessimistic
* and RFC1945 tells me that I should treat unidentified codes as the
* n00 variant thereupon.
*/
switch (retcode)
{
default:retcode = 0;
break;
case 200:
break; /* A success code for GET requests */
case 301: /* Redirection request */
case 302:
do
{ if (fetch_response(filename1, r))
{ err_printf("Unexpected response from the server\n");
retcode = 0;
break;
}
if (filename1[0] == 0)
{ err_printf("Document has moved, but I can not trace it\n");
retcode = 0;
break;
}
}
while (memcmp(filename1, "location: ", 10) != 0);
if (retcode == 0) break;
/*
* At present I take a somewhat simplistic view of redirection, and just
* look for the first alternative URL and start my entire unpicking
* process afresh from there.
*/
for (i = 10; filename1[i] == ' '; i++);
w = &filename1[i];
while (filename1[i]!=' ' && filename1[i]!=0) i++;
filename1[i] = 0;
len = strlen(w);
closesocket(s);
if (++retry_count > 5)
{ err_printf("Apparent loop in redirection information\n");
retcode = 0;
break;
}
goto start_again;
break;
case 401:
err_printf("Authorisation required for this access\n");
retcode = 0;
break;
case 404:
err_printf("Object not found\n");
retcode = 0;
break;
}
if (retcode == 0)
{ Lclose(nil,r);
return onevalue(nil);
}
/*
* Skip further information returned by the server until a line containing
* just the end-of-line marker is fetched
*/
do
{ for (i = 0; i < LONGEST_LEGAL_FILENAME; i++)
{ int ch = char_from_socket(r);
if (ch == EOF)
{ err_printf("Error fetching additional info from the server\n");
Lclose(nil,r);
return onevalue(nil);
}
if (ch == 0x0a) break;
}
} while (i > 1);
return onevalue(r);
}
#endif /* SOCKETS */
int window_heading = 0;
Lisp_Object Lwindow_heading2(Lisp_Object nil, Lisp_Object a, Lisp_Object b)
{
#ifdef HAVE_FWIN
int32_t n, bit;
char *s, txt[32];
if (is_fixnum(b)) n = int_of_fixnum(b);
else n = 2; /* default to setting the right section */
if (is_vector(a) && type_of_header(vechdr(a)) == TYPE_STRING)
{ int32_t l = length_of_header(vechdr(a));
if (l > 30) l = 30;
memcpy(txt, &celt(a, 0), l);
txt[l] = 0;
s = txt;
}
else if (b == 2) s = "";
else s = NULL;
switch (n)
{
case 0: fwin_report_left(s); bit = 1; break;
case 1: fwin_report_mid(s); bit = 2; break;
default:fwin_report_right(s); bit = 4; break;
}
if (s == NULL || *s == 0) window_heading &= ~bit;
else window_heading |= bit;
#endif
return onevalue(nil);
}
Lisp_Object Lwindow_heading1(Lisp_Object nil, Lisp_Object a)
{
return Lwindow_heading2(nil, a, nil);
}
setup_type const print_setup[] =
{
#ifdef CJAVA
{"java", Ljava, too_many_1, wrong_no_1},
#endif
#ifdef SOCKETS
{"open-url", Lopen_url, too_many_1, wrong_no_1},
#endif
{"window-heading", Lwindow_heading1, Lwindow_heading2, wrong_no_1},
{"eject", wrong_no_na, wrong_no_nb, Leject},
{"filep", Lfilep, too_many_1, wrong_no_1},
{"filedate", Lfiledate, too_many_1, wrong_no_1},
{"flush", Lflush1, wrong_no_nb, Lflush},
{"streamp", Lstreamp, too_many_1, wrong_no_1},
{"is-console", Lis_console, too_many_1, wrong_no_1},
{"lengthc", Llengthc, too_many_1, wrong_no_1},
{"linelength", Llinelength, too_many_1, Llinelength0},
{"lposn", wrong_no_na, wrong_no_nb, Llposn},
{"internal-open", too_few_2, Lopen, wrong_no_2},
{"open-library", Lopen_library_1, Lopen_library, wrong_no_2},
{"close-library", Lclose_library, too_many_1, wrong_no_1},
{"library-name", Llibrary_name, too_many_1, wrong_no_1},
{"create-directory", Lcreate_directory, too_many_1, wrong_no_1},
{"delete-file", Ldelete_file, too_many_1, wrong_no_1},
{"rename-file", too_few_2, Lrename_file, wrong_no_2},
{"file-readablep", Lfile_readable, too_many_1, wrong_no_1},
{"file-writeablep", Lfile_writeable, too_many_1, wrong_no_1},
{"directoryp", Ldirectoryp, too_many_1, wrong_no_1},
{"file-length", Lfile_length, too_many_1, wrong_no_1},
{"truename", Ltruename, too_many_1, wrong_no_1},
{"list-directory", Llist_directory, too_many_1, wrong_no_1},
{"chdir", Lchange_directory, too_many_1, wrong_no_1},
{"make-function-stream", Lmake_function_stream, too_many_1, wrong_no_1},
{"get-current-directory", wrong_no_na, wrong_no_nb, Lget_current_directory},
{"user-homedir-pathname", wrong_no_na, wrong_no_nb, Luser_homedir_pathname},
{"get-lisp-directory", wrong_no_na, wrong_no_nb, Lget_lisp_directory},
{"pagelength", Lpagelength, too_many_1, wrong_no_1},
{"posn", Lposn_1, wrong_no_nb, Lposn},
{"spaces", Lxtab, too_many_1, wrong_no_1},
{"terpri", wrong_no_na, wrong_no_nb, Lterpri},
{"tmpnam", Ltmpnam1, wrong_no_nb, Ltmpnam},
{"ttab", Lttab, too_many_1, wrong_no_1},
{"wrs", Lwrs, too_many_1, wrong_no_1},
{"xtab", Lxtab, too_many_1, wrong_no_1},
{"princ-upcase", Lprinc_upcase, too_many_1, wrong_no_1},
{"princ-downcase", Lprinc_downcase, too_many_1, wrong_no_1},
{"binary_open_output", Lbinary_open_output, too_many_1, wrong_no_1},
{"binary_prin1", Lbinary_prin1, too_many_1, wrong_no_1},
{"binary_princ", Lbinary_princ, too_many_1, wrong_no_1},
{"binary_prinbyte", Lbinary_prinbyte, too_many_1, wrong_no_1},
{"binary_prin2", Lbinary_prin2, too_many_1, wrong_no_1},
{"binary_prin3", Lbinary_prin3, too_many_1, wrong_no_1},
{"binary_prinfloat", Lbinary_prinfloat, too_many_1, wrong_no_1},
{"binary_terpri", wrong_no_na, wrong_no_nb, Lbinary_terpri},
{"binary_close_output", wrong_no_na, wrong_no_nb, Lbinary_close_output},
{"binary_open_input", Lbinary_open_input, too_many_1, wrong_no_1},
{"binary_select_input", Lbinary_select_input, too_many_1, wrong_no_1},
{"binary_readbyte", wrong_no_na, wrong_no_nb, Lbinary_readbyte},
{"binary_read2", wrong_no_na, wrong_no_nb, Lbinary_read2},
{"binary_read3", wrong_no_na, wrong_no_nb, Lbinary_read3},
{"binary_read4", wrong_no_na, wrong_no_nb, Lbinary_read4},
{"binary_readfloat", wrong_no_na, wrong_no_nb, Lbinary_readfloat},
{"binary_close_input", wrong_no_na, wrong_no_nb, Lbinary_close_input},
{"prinraw", Lprinraw, too_many_1, wrong_no_1},
{"prinhex", Lprinhex, Lprinhex2, wrong_no_1},
{"prinoctal", Lprinoctal, Lprinoctal2, wrong_no_1},
{"prinbinary", Lprinbinary, Lprinbinary2, wrong_no_1},
{"print-config-header", wrong_no_na, wrong_no_nb, Lprint_config_header},
{"print-csl-headers", wrong_no_na, wrong_no_nb, Lprint_csl_headers},
{"print-imports", wrong_no_na, wrong_no_nb, Lprint_imports},
{"math-display", Lmath_display, too_many_1, wrong_no_1},
#ifdef COMMON
{"charpos", Lposn_1, wrong_no_nb, Lposn},
{"finish-output", Lflush1, wrong_no_nb, Lflush},
{"make-synonym-stream", Lmake_synonym_stream, too_many_1, wrong_no_1},
{"make-broadcast-stream", Lmake_broadcast_stream_1, Lmake_broadcast_stream_2, Lmake_broadcast_stream_n},
{"make-concatenated-stream",Lmake_concatenated_stream_1, Lmake_concatenated_stream_2, Lmake_concatenated_stream_n},
{"make-two-way-stream", too_few_2, Lmake_two_way_stream, wrong_no_2},
{"make-echo-stream", too_few_2, Lmake_echo_stream, wrong_no_2},
{"make-string-input-stream",Lmake_string_input_stream_1, Lmake_string_input_stream_2, Lmake_string_input_stream_n},
{"make-string-output-stream",wrong_no_na, wrong_no_nb, Lmake_string_output_stream},
{"get-output-stream-string",Lget_output_stream_string, too_many_1, wrong_no_1},
{"close", Lclose, too_many_1, wrong_no_1},
{"~tyo", Ltyo, too_many_1, wrong_no_1},
/* At least as a temporary measure I provide these in COMMON mode too */
{"explode", Lexplode, too_many_1, wrong_no_1},
{"explodec", Lexplodec, too_many_1, wrong_no_1},
{"explode2", Lexplodec, too_many_1, wrong_no_1},
{"explode2lc", Lexplode2lc, too_many_1, wrong_no_1},
{"exploden", Lexploden, too_many_1, wrong_no_1},
{"explodecn", Lexplodecn, too_many_1, wrong_no_1},
{"explode2n", Lexplodecn, too_many_1, wrong_no_1},
{"explode2lcn", Lexplode2lcn, too_many_1, wrong_no_1},
{"explodehex", Lexplodehex, too_many_1, wrong_no_1},
{"explodeoctal", Lexplodeoctal, too_many_1, wrong_no_1},
{"explodebinary", Lexplodebinary, too_many_1, wrong_no_1},
{"prin", Lprin, too_many_1, wrong_no_1},
{"prin1", Lprin, too_many_1, wrong_no_1},
{"princ", Lprinc, too_many_1, wrong_no_1},
{"prin2", Lprinc, too_many_1, wrong_no_1},
{"prin2a", Lprin2a, too_many_1, wrong_no_1},
{"print", Lprint, too_many_1, wrong_no_1},
{"printc", Lprintc, too_many_1, wrong_no_1},
{"set-print-precision", Lprint_precision, too_many_1, wrong_no_1},
#else
{"close", Lclose, too_many_1, wrong_no_1},
{"explode", Lexplode, too_many_1, wrong_no_1},
{"explodec", Lexplodec, too_many_1, wrong_no_1},
{"explode2", Lexplodec, too_many_1, wrong_no_1},
{"explode2lc", Lexplode2lc, too_many_1, wrong_no_1},
{"explode2uc", Lexplode2uc, too_many_1, wrong_no_1},
{"exploden", Lexploden, too_many_1, wrong_no_1},
{"explodecn", Lexplodecn, too_many_1, wrong_no_1},
{"explode2n", Lexplodecn, too_many_1, wrong_no_1},
{"explode2lcn", Lexplode2lcn, too_many_1, wrong_no_1},
{"explode2ucn", Lexplode2ucn, too_many_1, wrong_no_1},
{"explodehex", Lexplodehex, too_many_1, wrong_no_1},
{"explodeoctal", Lexplodeoctal, too_many_1, wrong_no_1},
{"explodebinary", Lexplodebinary, too_many_1, wrong_no_1},
{"prin", Lprin, too_many_1, wrong_no_1},
{"prin1", Lprin, too_many_1, wrong_no_1},
{"princ", Lprinc, too_many_1, wrong_no_1},
{"prin2", Lprinc, too_many_1, wrong_no_1},
{"prin2a", Lprin2a, too_many_1, wrong_no_1},
{"print", Lprint, too_many_1, wrong_no_1},
{"printc", Lprintc, too_many_1, wrong_no_1},
{"set-print-precision", Lprint_precision, too_many_1, wrong_no_1},
{"tyo", Ltyo, too_many_1, wrong_no_1},
#endif
{NULL, 0, 0, 0}
};
/* end of print.c */