/* Lisp object printing and output streams. Copyright (C) 1985-1986, 1988, 1993-1995, 1997-2013 Free Software Foundation, Inc. This file is part of GNU Emacs. GNU Emacs is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. GNU Emacs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Emacs. If not, see . */ #include #include "sysstdio.h" #include "lisp.h" #include "character.h" #include "buffer.h" #include "charset.h" #include "keyboard.h" #include "frame.h" #include "window.h" #include "process.h" #include "dispextern.h" #include "termchar.h" #include "intervals.h" #include "blockinput.h" #include "termhooks.h" /* For struct terminal. */ #include "font.h" Lisp_Object Qstandard_output; static Lisp_Object Qtemp_buffer_setup_hook; /* These are used to print like we read. */ static Lisp_Object Qfloat_output_format; #include #include /* Avoid actual stack overflow in print. */ static ptrdiff_t print_depth; /* Level of nesting inside outputting backquote in new style. */ static ptrdiff_t new_backquote_output; /* Detect most circularities to print finite output. */ #define PRINT_CIRCLE 200 static Lisp_Object being_printed[PRINT_CIRCLE]; /* When printing into a buffer, first we put the text in this block, then insert it all at once. */ static char *print_buffer; /* Size allocated in print_buffer. */ static ptrdiff_t print_buffer_size; /* Chars stored in print_buffer. */ static ptrdiff_t print_buffer_pos; /* Bytes stored in print_buffer. */ static ptrdiff_t print_buffer_pos_byte; Lisp_Object Qprint_escape_newlines; static Lisp_Object Qprint_escape_multibyte, Qprint_escape_nonascii; /* Vprint_number_table is a table, that keeps objects that are going to be printed, to allow use of #n= and #n# to express sharing. For any given object, the table can give the following values: t the object will be printed only once. -N the object will be printed several times and will take number N. N the object has been printed so we can refer to it as #N#. print_number_index holds the largest N already used. N has to be striclty larger than 0 since we need to distinguish -N. */ static ptrdiff_t print_number_index; static void print_interval (INTERVAL interval, Lisp_Object printcharfun); /* GDB resets this to zero on W32 to disable OutputDebugString calls. */ bool print_output_debug_flag EXTERNALLY_VISIBLE = 1; /* Low level output routines for characters and strings. */ /* Lisp functions to do output using a stream must have the stream in a variable called printcharfun and must start with PRINTPREPARE, end with PRINTFINISH, and use PRINTDECLARE to declare common variables. Use PRINTCHAR to output one character, or call strout to output a block of characters. */ #define PRINTDECLARE \ struct buffer *old = current_buffer; \ ptrdiff_t old_point = -1, start_point = -1; \ ptrdiff_t old_point_byte = -1, start_point_byte = -1; \ ptrdiff_t specpdl_count = SPECPDL_INDEX (); \ bool free_print_buffer = 0; \ bool multibyte \ = !NILP (BVAR (current_buffer, enable_multibyte_characters)); \ Lisp_Object original #define PRINTPREPARE \ original = printcharfun; \ if (NILP (printcharfun)) printcharfun = Qt; \ if (BUFFERP (printcharfun)) \ { \ if (XBUFFER (printcharfun) != current_buffer) \ Fset_buffer (printcharfun); \ printcharfun = Qnil; \ } \ if (MARKERP (printcharfun)) \ { \ ptrdiff_t marker_pos; \ if (! XMARKER (printcharfun)->buffer) \ error ("Marker does not point anywhere"); \ if (XMARKER (printcharfun)->buffer != current_buffer) \ set_buffer_internal (XMARKER (printcharfun)->buffer); \ marker_pos = marker_position (printcharfun); \ if (marker_pos < BEGV || marker_pos > ZV) \ signal_error ("Marker is outside the accessible " \ "part of the buffer", printcharfun); \ old_point = PT; \ old_point_byte = PT_BYTE; \ SET_PT_BOTH (marker_pos, \ marker_byte_position (printcharfun)); \ start_point = PT; \ start_point_byte = PT_BYTE; \ printcharfun = Qnil; \ } \ if (NILP (printcharfun)) \ { \ Lisp_Object string; \ if (NILP (BVAR (current_buffer, enable_multibyte_characters)) \ && ! print_escape_multibyte) \ specbind (Qprint_escape_multibyte, Qt); \ if (! NILP (BVAR (current_buffer, enable_multibyte_characters)) \ && ! print_escape_nonascii) \ specbind (Qprint_escape_nonascii, Qt); \ if (print_buffer != 0) \ { \ string = make_string_from_bytes (print_buffer, \ print_buffer_pos, \ print_buffer_pos_byte); \ record_unwind_protect (print_unwind, string); \ } \ else \ { \ int new_size = 1000; \ print_buffer = xmalloc (new_size); \ print_buffer_size = new_size; \ free_print_buffer = 1; \ } \ print_buffer_pos = 0; \ print_buffer_pos_byte = 0; \ } \ if (EQ (printcharfun, Qt) && ! noninteractive) \ setup_echo_area_for_printing (multibyte); #define PRINTFINISH \ if (NILP (printcharfun)) \ { \ if (print_buffer_pos != print_buffer_pos_byte \ && NILP (BVAR (current_buffer, enable_multibyte_characters)))\ { \ unsigned char *temp = alloca (print_buffer_pos + 1); \ copy_text ((unsigned char *) print_buffer, temp, \ print_buffer_pos_byte, 1, 0); \ insert_1_both ((char *) temp, print_buffer_pos, \ print_buffer_pos, 0, 1, 0); \ } \ else \ insert_1_both (print_buffer, print_buffer_pos, \ print_buffer_pos_byte, 0, 1, 0); \ signal_after_change (PT - print_buffer_pos, 0, print_buffer_pos);\ } \ if (free_print_buffer) \ { \ xfree (print_buffer); \ print_buffer = 0; \ } \ unbind_to (specpdl_count, Qnil); \ if (MARKERP (original)) \ set_marker_both (original, Qnil, PT, PT_BYTE); \ if (old_point >= 0) \ SET_PT_BOTH (old_point + (old_point >= start_point \ ? PT - start_point : 0), \ old_point_byte + (old_point_byte >= start_point_byte \ ? PT_BYTE - start_point_byte : 0)); \ set_buffer_internal (old); #define PRINTCHAR(ch) printchar (ch, printcharfun) /* This is used to restore the saved contents of print_buffer when there is a recursive call to print. */ static void print_unwind (Lisp_Object saved_text) { memcpy (print_buffer, SDATA (saved_text), SCHARS (saved_text)); } /* Print character CH using method FUN. FUN nil means print to print_buffer. FUN t means print to echo area or stdout if non-interactive. If FUN is neither nil nor t, call FUN with CH as argument. */ static void printchar (unsigned int ch, Lisp_Object fun) { if (!NILP (fun) && !EQ (fun, Qt)) call1 (fun, make_number (ch)); else { unsigned char str[MAX_MULTIBYTE_LENGTH]; int len = CHAR_STRING (ch, str); QUIT; if (NILP (fun)) { ptrdiff_t incr = len - (print_buffer_size - print_buffer_pos_byte); if (incr > 0) print_buffer = xpalloc (print_buffer, &print_buffer_size, incr, -1, 1); memcpy (print_buffer + print_buffer_pos_byte, str, len); print_buffer_pos += 1; print_buffer_pos_byte += len; } else if (noninteractive) { fwrite (str, 1, len, stdout); noninteractive_need_newline = 1; } else { bool multibyte_p = !NILP (BVAR (current_buffer, enable_multibyte_characters)); setup_echo_area_for_printing (multibyte_p); insert_char (ch); message_dolog ((char *) str, len, 0, multibyte_p); } } } /* Output SIZE characters, SIZE_BYTE bytes from string PTR using method PRINTCHARFUN. If SIZE < 0, use the string length of PTR for both SIZE and SIZE_BYTE. PRINTCHARFUN nil means output to print_buffer. PRINTCHARFUN t means output to the echo area or to stdout if non-interactive. If neither nil nor t, call Lisp function PRINTCHARFUN for each character printed. MULTIBYTE non-zero means PTR contains multibyte characters. In the case where PRINTCHARFUN is nil, it is safe for PTR to point to data in a Lisp string. Otherwise that is not safe. */ static void strout (const char *ptr, ptrdiff_t size, ptrdiff_t size_byte, Lisp_Object printcharfun) { if (size < 0) size_byte = size = strlen (ptr); if (NILP (printcharfun)) { ptrdiff_t incr = size_byte - (print_buffer_size - print_buffer_pos_byte); if (incr > 0) print_buffer = xpalloc (print_buffer, &print_buffer_size, incr, -1, 1); memcpy (print_buffer + print_buffer_pos_byte, ptr, size_byte); print_buffer_pos += size; print_buffer_pos_byte += size_byte; } else if (noninteractive && EQ (printcharfun, Qt)) { fwrite (ptr, 1, size_byte, stdout); noninteractive_need_newline = 1; } else if (EQ (printcharfun, Qt)) { /* Output to echo area. We're trying to avoid a little overhead here, that's the reason we don't call printchar to do the job. */ int i; bool multibyte_p = !NILP (BVAR (current_buffer, enable_multibyte_characters)); setup_echo_area_for_printing (multibyte_p); message_dolog (ptr, size_byte, 0, multibyte_p); if (size == size_byte) { for (i = 0; i < size; ++i) insert_char ((unsigned char) *ptr++); } else { int len; for (i = 0; i < size_byte; i += len) { int ch = STRING_CHAR_AND_LENGTH ((const unsigned char *) ptr + i, len); insert_char (ch); } } } else { /* PRINTCHARFUN is a Lisp function. */ ptrdiff_t i = 0; if (size == size_byte) { while (i < size_byte) { int ch = ptr[i++]; PRINTCHAR (ch); } } else { while (i < size_byte) { /* Here, we must convert each multi-byte form to the corresponding character code before handing it to PRINTCHAR. */ int len; int ch = STRING_CHAR_AND_LENGTH ((const unsigned char *) ptr + i, len); PRINTCHAR (ch); i += len; } } } } /* Print the contents of a string STRING using PRINTCHARFUN. It isn't safe to use strout in many cases, because printing one char can relocate. */ static void print_string (Lisp_Object string, Lisp_Object printcharfun) { if (EQ (printcharfun, Qt) || NILP (printcharfun)) { ptrdiff_t chars; if (print_escape_nonascii) string = string_escape_byte8 (string); if (STRING_MULTIBYTE (string)) chars = SCHARS (string); else if (! print_escape_nonascii && (EQ (printcharfun, Qt) ? ! NILP (BVAR (&buffer_defaults, enable_multibyte_characters)) : ! NILP (BVAR (current_buffer, enable_multibyte_characters)))) { /* If unibyte string STRING contains 8-bit codes, we must convert STRING to a multibyte string containing the same character codes. */ Lisp_Object newstr; ptrdiff_t bytes; chars = SBYTES (string); bytes = count_size_as_multibyte (SDATA (string), chars); if (chars < bytes) { newstr = make_uninit_multibyte_string (chars, bytes); memcpy (SDATA (newstr), SDATA (string), chars); str_to_multibyte (SDATA (newstr), bytes, chars); string = newstr; } } else chars = SBYTES (string); if (EQ (printcharfun, Qt)) { /* Output to echo area. */ ptrdiff_t nbytes = SBYTES (string); /* Copy the string contents so that relocation of STRING by GC does not cause trouble. */ USE_SAFE_ALLOCA; char *buffer = SAFE_ALLOCA (nbytes); memcpy (buffer, SDATA (string), nbytes); strout (buffer, chars, nbytes, printcharfun); SAFE_FREE (); } else /* No need to copy, since output to print_buffer can't GC. */ strout (SSDATA (string), chars, SBYTES (string), printcharfun); } else { /* Otherwise, string may be relocated by printing one char. So re-fetch the string address for each character. */ ptrdiff_t i; ptrdiff_t size = SCHARS (string); ptrdiff_t size_byte = SBYTES (string); struct gcpro gcpro1; GCPRO1 (string); if (size == size_byte) for (i = 0; i < size; i++) PRINTCHAR (SREF (string, i)); else for (i = 0; i < size_byte; ) { /* Here, we must convert each multi-byte form to the corresponding character code before handing it to PRINTCHAR. */ int len; int ch = STRING_CHAR_AND_LENGTH (SDATA (string) + i, len); PRINTCHAR (ch); i += len; } UNGCPRO; } } DEFUN ("write-char", Fwrite_char, Swrite_char, 1, 2, 0, doc: /* Output character CHARACTER to stream PRINTCHARFUN. PRINTCHARFUN defaults to the value of `standard-output' (which see). */) (Lisp_Object character, Lisp_Object printcharfun) { PRINTDECLARE; if (NILP (printcharfun)) printcharfun = Vstandard_output; CHECK_NUMBER (character); PRINTPREPARE; PRINTCHAR (XINT (character)); PRINTFINISH; return character; } /* Used from outside of print.c to print a block of SIZE single-byte chars at DATA on the default output stream. Do not use this on the contents of a Lisp string. */ void write_string (const char *data, int size) { PRINTDECLARE; Lisp_Object printcharfun; printcharfun = Vstandard_output; PRINTPREPARE; strout (data, size, size, printcharfun); PRINTFINISH; } /* Used to print a block of SIZE single-byte chars at DATA on a specified stream PRINTCHARFUN. Do not use this on the contents of a Lisp string. */ static void write_string_1 (const char *data, int size, Lisp_Object printcharfun) { PRINTDECLARE; PRINTPREPARE; strout (data, size, size, printcharfun); PRINTFINISH; } void temp_output_buffer_setup (const char *bufname) { ptrdiff_t count = SPECPDL_INDEX (); register struct buffer *old = current_buffer; register Lisp_Object buf; record_unwind_current_buffer (); Fset_buffer (Fget_buffer_create (build_string (bufname))); Fkill_all_local_variables (); delete_all_overlays (current_buffer); bset_directory (current_buffer, BVAR (old, directory)); bset_read_only (current_buffer, Qnil); bset_filename (current_buffer, Qnil); bset_undo_list (current_buffer, Qt); eassert (current_buffer->overlays_before == NULL); eassert (current_buffer->overlays_after == NULL); bset_enable_multibyte_characters (current_buffer, BVAR (&buffer_defaults, enable_multibyte_characters)); specbind (Qinhibit_read_only, Qt); specbind (Qinhibit_modification_hooks, Qt); Ferase_buffer (); XSETBUFFER (buf, current_buffer); Frun_hooks (1, &Qtemp_buffer_setup_hook); unbind_to (count, Qnil); specbind (Qstandard_output, buf); } static void print (Lisp_Object, Lisp_Object, bool); static void print_preprocess (Lisp_Object); static void print_preprocess_string (INTERVAL, Lisp_Object); static void print_object (Lisp_Object, Lisp_Object, bool); DEFUN ("terpri", Fterpri, Sterpri, 0, 1, 0, doc: /* Output a newline to stream PRINTCHARFUN. If PRINTCHARFUN is omitted or nil, the value of `standard-output' is used. */) (Lisp_Object printcharfun) { PRINTDECLARE; if (NILP (printcharfun)) printcharfun = Vstandard_output; PRINTPREPARE; PRINTCHAR ('\n'); PRINTFINISH; return Qt; } DEFUN ("prin1", Fprin1, Sprin1, 1, 2, 0, doc: /* Output the printed representation of OBJECT, any Lisp object. Quoting characters are printed when needed to make output that `read' can handle, whenever this is possible. For complex objects, the behavior is controlled by `print-level' and `print-length', which see. OBJECT is any of the Lisp data types: a number, a string, a symbol, a list, a buffer, a window, a frame, etc. A printed representation of an object is text which describes that object. Optional argument PRINTCHARFUN is the output stream, which can be one of these: - a buffer, in which case output is inserted into that buffer at point; - a marker, in which case output is inserted at marker's position; - a function, in which case that function is called once for each character of OBJECT's printed representation; - a symbol, in which case that symbol's function definition is called; or - t, in which case the output is displayed in the echo area. If PRINTCHARFUN is omitted, the value of `standard-output' (which see) is used instead. */) (Lisp_Object object, Lisp_Object printcharfun) { PRINTDECLARE; if (NILP (printcharfun)) printcharfun = Vstandard_output; PRINTPREPARE; print (object, printcharfun, 1); PRINTFINISH; return object; } /* a buffer which is used to hold output being built by prin1-to-string */ Lisp_Object Vprin1_to_string_buffer; DEFUN ("prin1-to-string", Fprin1_to_string, Sprin1_to_string, 1, 2, 0, doc: /* Return a string containing the printed representation of OBJECT. OBJECT can be any Lisp object. This function outputs quoting characters when necessary to make output that `read' can handle, whenever possible, unless the optional second argument NOESCAPE is non-nil. For complex objects, the behavior is controlled by `print-level' and `print-length', which see. OBJECT is any of the Lisp data types: a number, a string, a symbol, a list, a buffer, a window, a frame, etc. A printed representation of an object is text which describes that object. */) (Lisp_Object object, Lisp_Object noescape) { Lisp_Object printcharfun; bool prev_abort_on_gc; /* struct gcpro gcpro1, gcpro2; */ Lisp_Object save_deactivate_mark; ptrdiff_t count = SPECPDL_INDEX (); struct buffer *previous; specbind (Qinhibit_modification_hooks, Qt); { PRINTDECLARE; /* Save and restore this--we are altering a buffer but we don't want to deactivate the mark just for that. No need for specbind, since errors deactivate the mark. */ save_deactivate_mark = Vdeactivate_mark; /* GCPRO2 (object, save_deactivate_mark); */ prev_abort_on_gc = abort_on_gc; abort_on_gc = 1; printcharfun = Vprin1_to_string_buffer; PRINTPREPARE; print (object, printcharfun, NILP (noescape)); /* Make Vprin1_to_string_buffer be the default buffer after PRINTFINISH */ PRINTFINISH; } previous = current_buffer; set_buffer_internal (XBUFFER (Vprin1_to_string_buffer)); object = Fbuffer_string (); if (SBYTES (object) == SCHARS (object)) STRING_SET_UNIBYTE (object); /* Note that this won't make prepare_to_modify_buffer call ask-user-about-supersession-threat because this buffer does not visit a file. */ Ferase_buffer (); set_buffer_internal (previous); Vdeactivate_mark = save_deactivate_mark; /* UNGCPRO; */ abort_on_gc = prev_abort_on_gc; return unbind_to (count, object); } DEFUN ("princ", Fprinc, Sprinc, 1, 2, 0, doc: /* Output the printed representation of OBJECT, any Lisp object. No quoting characters are used; no delimiters are printed around the contents of strings. OBJECT is any of the Lisp data types: a number, a string, a symbol, a list, a buffer, a window, a frame, etc. A printed representation of an object is text which describes that object. Optional argument PRINTCHARFUN is the output stream, which can be one of these: - a buffer, in which case output is inserted into that buffer at point; - a marker, in which case output is inserted at marker's position; - a function, in which case that function is called once for each character of OBJECT's printed representation; - a symbol, in which case that symbol's function definition is called; or - t, in which case the output is displayed in the echo area. If PRINTCHARFUN is omitted, the value of `standard-output' (which see) is used instead. */) (Lisp_Object object, Lisp_Object printcharfun) { PRINTDECLARE; if (NILP (printcharfun)) printcharfun = Vstandard_output; PRINTPREPARE; print (object, printcharfun, 0); PRINTFINISH; return object; } DEFUN ("print", Fprint, Sprint, 1, 2, 0, doc: /* Output the printed representation of OBJECT, with newlines around it. Quoting characters are printed when needed to make output that `read' can handle, whenever this is possible. For complex objects, the behavior is controlled by `print-level' and `print-length', which see. OBJECT is any of the Lisp data types: a number, a string, a symbol, a list, a buffer, a window, a frame, etc. A printed representation of an object is text which describes that object. Optional argument PRINTCHARFUN is the output stream, which can be one of these: - a buffer, in which case output is inserted into that buffer at point; - a marker, in which case output is inserted at marker's position; - a function, in which case that function is called once for each character of OBJECT's printed representation; - a symbol, in which case that symbol's function definition is called; or - t, in which case the output is displayed in the echo area. If PRINTCHARFUN is omitted, the value of `standard-output' (which see) is used instead. */) (Lisp_Object object, Lisp_Object printcharfun) { PRINTDECLARE; struct gcpro gcpro1; if (NILP (printcharfun)) printcharfun = Vstandard_output; GCPRO1 (object); PRINTPREPARE; PRINTCHAR ('\n'); print (object, printcharfun, 1); PRINTCHAR ('\n'); PRINTFINISH; UNGCPRO; return object; } /* The subroutine object for external-debugging-output is kept here for the convenience of the debugger. */ Lisp_Object Qexternal_debugging_output; DEFUN ("external-debugging-output", Fexternal_debugging_output, Sexternal_debugging_output, 1, 1, 0, doc: /* Write CHARACTER to stderr. You can call print while debugging emacs, and pass it this function to make it write to the debugging output. */) (Lisp_Object character) { CHECK_NUMBER (character); putc (XINT (character) & 0xFF, stderr); #ifdef WINDOWSNT /* Send the output to a debugger (nothing happens if there isn't one). */ if (print_output_debug_flag) { char buf[2] = {(char) XINT (character), '\0'}; OutputDebugString (buf); } #endif return character; } /* This function is never called. Its purpose is to prevent print_output_debug_flag from being optimized away. */ extern void debug_output_compilation_hack (bool) EXTERNALLY_VISIBLE; void debug_output_compilation_hack (bool x) { print_output_debug_flag = x; } #if defined (GNU_LINUX) /* This functionality is not vitally important in general, so we rely on non-portable ability to use stderr as lvalue. */ #define WITH_REDIRECT_DEBUGGING_OUTPUT 1 static FILE *initial_stderr_stream = NULL; DEFUN ("redirect-debugging-output", Fredirect_debugging_output, Sredirect_debugging_output, 1, 2, "FDebug output file: \nP", doc: /* Redirect debugging output (stderr stream) to file FILE. If FILE is nil, reset target to the initial stderr stream. Optional arg APPEND non-nil (interactively, with prefix arg) means append to existing target file. */) (Lisp_Object file, Lisp_Object append) { if (initial_stderr_stream != NULL) { block_input (); fclose (stderr); unblock_input (); } stderr = initial_stderr_stream; initial_stderr_stream = NULL; if (STRINGP (file)) { file = Fexpand_file_name (file, Qnil); initial_stderr_stream = stderr; stderr = emacs_fopen (SSDATA (file), NILP (append) ? "w" : "a"); if (stderr == NULL) { stderr = initial_stderr_stream; initial_stderr_stream = NULL; report_file_error ("Cannot open debugging output stream", file); } } return Qnil; } #endif /* GNU_LINUX */ /* This is the interface for debugging printing. */ void debug_print (Lisp_Object arg) { Fprin1 (arg, Qexternal_debugging_output); fprintf (stderr, "\r\n"); } void safe_debug_print (Lisp_Object) EXTERNALLY_VISIBLE; void safe_debug_print (Lisp_Object arg) { int valid = valid_lisp_object_p (arg); if (valid > 0) debug_print (arg); else fprintf (stderr, "#<%s_LISP_OBJECT 0x%08"pI"x>\r\n", !valid ? "INVALID" : "SOME", XLI (arg)); } DEFUN ("error-message-string", Ferror_message_string, Serror_message_string, 1, 1, 0, doc: /* Convert an error value (ERROR-SYMBOL . DATA) to an error message. See Info anchor `(elisp)Definition of signal' for some details on how this error message is constructed. */) (Lisp_Object obj) { struct buffer *old = current_buffer; Lisp_Object value; struct gcpro gcpro1; /* If OBJ is (error STRING), just return STRING. That is not only faster, it also avoids the need to allocate space here when the error is due to memory full. */ if (CONSP (obj) && EQ (XCAR (obj), Qerror) && CONSP (XCDR (obj)) && STRINGP (XCAR (XCDR (obj))) && NILP (XCDR (XCDR (obj)))) return XCAR (XCDR (obj)); print_error_message (obj, Vprin1_to_string_buffer, 0, Qnil); set_buffer_internal (XBUFFER (Vprin1_to_string_buffer)); value = Fbuffer_string (); GCPRO1 (value); Ferase_buffer (); set_buffer_internal (old); UNGCPRO; return value; } /* Print an error message for the error DATA onto Lisp output stream STREAM (suitable for the print functions). CONTEXT is a C string describing the context of the error. CALLER is the Lisp function inside which the error was signaled. */ void print_error_message (Lisp_Object data, Lisp_Object stream, const char *context, Lisp_Object caller) { Lisp_Object errname, errmsg, file_error, tail; struct gcpro gcpro1; if (context != 0) write_string_1 (context, -1, stream); /* If we know from where the error was signaled, show it in *Messages*. */ if (!NILP (caller) && SYMBOLP (caller)) { Lisp_Object cname = SYMBOL_NAME (caller); ptrdiff_t cnamelen = SBYTES (cname); USE_SAFE_ALLOCA; char *name = SAFE_ALLOCA (cnamelen); memcpy (name, SDATA (cname), cnamelen); message_dolog (name, cnamelen, 0, 0); message_dolog (": ", 2, 0, 0); SAFE_FREE (); } errname = Fcar (data); if (EQ (errname, Qerror)) { data = Fcdr (data); if (!CONSP (data)) data = Qnil; errmsg = Fcar (data); file_error = Qnil; } else { Lisp_Object error_conditions = Fget (errname, Qerror_conditions); errmsg = Fget (errname, Qerror_message); file_error = Fmemq (Qfile_error, error_conditions); } /* Print an error message including the data items. */ tail = Fcdr_safe (data); GCPRO1 (tail); /* For file-error, make error message by concatenating all the data items. They are all strings. */ if (!NILP (file_error) && CONSP (tail)) errmsg = XCAR (tail), tail = XCDR (tail); { const char *sep = ": "; if (!STRINGP (errmsg)) write_string_1 ("peculiar error", -1, stream); else if (SCHARS (errmsg)) Fprinc (errmsg, stream); else sep = NULL; for (; CONSP (tail); tail = XCDR (tail), sep = ", ") { Lisp_Object obj; if (sep) write_string_1 (sep, 2, stream); obj = XCAR (tail); if (!NILP (file_error) || EQ (errname, Qend_of_file) || EQ (errname, Quser_error)) Fprinc (obj, stream); else Fprin1 (obj, stream); } } UNGCPRO; } /* * The buffer should be at least as large as the max string size of the * largest float, printed in the biggest notation. This is undoubtedly * 20d float_output_format, with the negative of the C-constant "HUGE" * from . * * On the vax the worst case is -1e38 in 20d format which takes 61 bytes. * * I assume that IEEE-754 format numbers can take 329 bytes for the worst * case of -1e307 in 20d float_output_format. What is one to do (short of * re-writing _doprnt to be more sane)? * -wsr * Given the above, the buffer must be least FLOAT_TO_STRING_BUFSIZE bytes. */ int float_to_string (char *buf, double data) { char *cp; int width; int len; /* Check for plus infinity in a way that won't lose if there is no plus infinity. */ if (data == data / 2 && data > 1.0) { static char const infinity_string[] = "1.0e+INF"; strcpy (buf, infinity_string); return sizeof infinity_string - 1; } /* Likewise for minus infinity. */ if (data == data / 2 && data < -1.0) { static char const minus_infinity_string[] = "-1.0e+INF"; strcpy (buf, minus_infinity_string); return sizeof minus_infinity_string - 1; } /* Check for NaN in a way that won't fail if there are no NaNs. */ if (! (data * 0.0 >= 0.0)) { /* Prepend "-" if the NaN's sign bit is negative. The sign bit of a double is the bit that is 1 in -0.0. */ static char const NaN_string[] = "0.0e+NaN"; int i; union { double d; char c[sizeof (double)]; } u_data, u_minus_zero; bool negative = 0; u_data.d = data; u_minus_zero.d = - 0.0; for (i = 0; i < sizeof (double); i++) if (u_data.c[i] & u_minus_zero.c[i]) { *buf = '-'; negative = 1; break; } strcpy (buf + negative, NaN_string); return negative + sizeof NaN_string - 1; } if (NILP (Vfloat_output_format) || !STRINGP (Vfloat_output_format)) lose: { /* Generate the fewest number of digits that represent the floating point value without losing information. */ len = dtoastr (buf, FLOAT_TO_STRING_BUFSIZE - 2, 0, 0, data); /* The decimal point must be printed, or the byte compiler can get confused (Bug#8033). */ width = 1; } else /* oink oink */ { /* Check that the spec we have is fully valid. This means not only valid for printf, but meant for floats, and reasonable. */ cp = SSDATA (Vfloat_output_format); if (cp[0] != '%') goto lose; if (cp[1] != '.') goto lose; cp += 2; /* Check the width specification. */ width = -1; if ('0' <= *cp && *cp <= '9') { width = 0; do { width = (width * 10) + (*cp++ - '0'); if (DBL_DIG < width) goto lose; } while (*cp >= '0' && *cp <= '9'); /* A precision of zero is valid only for %f. */ if (width == 0 && *cp != 'f') goto lose; } if (*cp != 'e' && *cp != 'f' && *cp != 'g') goto lose; if (cp[1] != 0) goto lose; len = sprintf (buf, SSDATA (Vfloat_output_format), data); } /* Make sure there is a decimal point with digit after, or an exponent, so that the value is readable as a float. But don't do this with "%.0f"; it's valid for that not to produce a decimal point. Note that width can be 0 only for %.0f. */ if (width != 0) { for (cp = buf; *cp; cp++) if ((*cp < '0' || *cp > '9') && *cp != '-') break; if (*cp == '.' && cp[1] == 0) { cp[1] = '0'; cp[2] = 0; len++; } else if (*cp == 0) { *cp++ = '.'; *cp++ = '0'; *cp++ = 0; len += 2; } } return len; } static void print (Lisp_Object obj, Lisp_Object printcharfun, bool escapeflag) { new_backquote_output = 0; /* Reset print_number_index and Vprint_number_table only when the variable Vprint_continuous_numbering is nil. Otherwise, the values of these variables will be kept between several print functions. */ if (NILP (Vprint_continuous_numbering) || NILP (Vprint_number_table)) { print_number_index = 0; Vprint_number_table = Qnil; } /* Construct Vprint_number_table for print-gensym and print-circle. */ if (!NILP (Vprint_gensym) || !NILP (Vprint_circle)) { /* Construct Vprint_number_table. This increments print_number_index for the objects added. */ print_depth = 0; print_preprocess (obj); if (HASH_TABLE_P (Vprint_number_table)) { /* Remove unnecessary objects, which appear only once in OBJ; that is, whose status is Qt. */ struct Lisp_Hash_Table *h = XHASH_TABLE (Vprint_number_table); ptrdiff_t i; for (i = 0; i < HASH_TABLE_SIZE (h); ++i) if (!NILP (HASH_HASH (h, i)) && EQ (HASH_VALUE (h, i), Qt)) Fremhash (HASH_KEY (h, i), Vprint_number_table); } } print_depth = 0; print_object (obj, printcharfun, escapeflag); } #define PRINT_CIRCLE_CANDIDATE_P(obj) \ (STRINGP (obj) || CONSP (obj) \ || (VECTORLIKEP (obj) \ && (VECTORP (obj) || COMPILEDP (obj) \ || CHAR_TABLE_P (obj) || SUB_CHAR_TABLE_P (obj) \ || HASH_TABLE_P (obj) || FONTP (obj))) \ || (! NILP (Vprint_gensym) \ && SYMBOLP (obj) \ && !SYMBOL_INTERNED_P (obj))) /* Construct Vprint_number_table according to the structure of OBJ. OBJ itself and all its elements will be added to Vprint_number_table recursively if it is a list, vector, compiled function, char-table, string (its text properties will be traced), or a symbol that has no obarray (this is for the print-gensym feature). The status fields of Vprint_number_table mean whether each object appears more than once in OBJ: Qnil at the first time, and Qt after that . */ static void print_preprocess (Lisp_Object obj) { int i; ptrdiff_t size; int loop_count = 0; Lisp_Object halftail; /* Avoid infinite recursion for circular nested structure in the case where Vprint_circle is nil. */ if (NILP (Vprint_circle)) { /* Give up if we go so deep that print_object will get an error. */ /* See similar code in print_object. */ if (print_depth >= PRINT_CIRCLE) error ("Apparently circular structure being printed"); for (i = 0; i < print_depth; i++) if (EQ (obj, being_printed[i])) return; being_printed[print_depth] = obj; } print_depth++; halftail = obj; loop: if (PRINT_CIRCLE_CANDIDATE_P (obj)) { if (!HASH_TABLE_P (Vprint_number_table)) { Lisp_Object args[2]; args[0] = QCtest; args[1] = Qeq; Vprint_number_table = Fmake_hash_table (2, args); } /* In case print-circle is nil and print-gensym is t, add OBJ to Vprint_number_table only when OBJ is a symbol. */ if (! NILP (Vprint_circle) || SYMBOLP (obj)) { Lisp_Object num = Fgethash (obj, Vprint_number_table, Qnil); if (!NILP (num) /* If Vprint_continuous_numbering is non-nil and OBJ is a gensym, always print the gensym with a number. This is a special for the lisp function byte-compile-output-docform. */ || (!NILP (Vprint_continuous_numbering) && SYMBOLP (obj) && !SYMBOL_INTERNED_P (obj))) { /* OBJ appears more than once. Let's remember that. */ if (!INTEGERP (num)) { print_number_index++; /* Negative number indicates it hasn't been printed yet. */ Fputhash (obj, make_number (- print_number_index), Vprint_number_table); } print_depth--; return; } else /* OBJ is not yet recorded. Let's add to the table. */ Fputhash (obj, Qt, Vprint_number_table); } switch (XTYPE (obj)) { case Lisp_String: /* A string may have text properties, which can be circular. */ traverse_intervals_noorder (string_intervals (obj), print_preprocess_string, Qnil); break; case Lisp_Cons: /* Use HALFTAIL and LOOP_COUNT to detect circular lists, just as in print_object. */ if (loop_count && EQ (obj, halftail)) break; print_preprocess (XCAR (obj)); obj = XCDR (obj); loop_count++; if (!(loop_count & 1)) halftail = XCDR (halftail); goto loop; case Lisp_Vectorlike: size = ASIZE (obj); if (size & PSEUDOVECTOR_FLAG) size &= PSEUDOVECTOR_SIZE_MASK; for (i = 0; i < size; i++) print_preprocess (AREF (obj, i)); if (HASH_TABLE_P (obj)) { /* For hash tables, the key_and_value slot is past `size' because it needs to be marked specially in case the table is weak. */ struct Lisp_Hash_Table *h = XHASH_TABLE (obj); print_preprocess (h->key_and_value); } break; default: break; } } print_depth--; } static void print_preprocess_string (INTERVAL interval, Lisp_Object arg) { print_preprocess (interval->plist); } static void print_check_string_charset_prop (INTERVAL interval, Lisp_Object string); #define PRINT_STRING_NON_CHARSET_FOUND 1 #define PRINT_STRING_UNSAFE_CHARSET_FOUND 2 /* Bitwise or of the above macros. */ static int print_check_string_result; static void print_check_string_charset_prop (INTERVAL interval, Lisp_Object string) { Lisp_Object val; if (NILP (interval->plist) || (print_check_string_result == (PRINT_STRING_NON_CHARSET_FOUND | PRINT_STRING_UNSAFE_CHARSET_FOUND))) return; for (val = interval->plist; CONSP (val) && ! EQ (XCAR (val), Qcharset); val = XCDR (XCDR (val))); if (! CONSP (val)) { print_check_string_result |= PRINT_STRING_NON_CHARSET_FOUND; return; } if (! (print_check_string_result & PRINT_STRING_NON_CHARSET_FOUND)) { if (! EQ (val, interval->plist) || CONSP (XCDR (XCDR (val)))) print_check_string_result |= PRINT_STRING_NON_CHARSET_FOUND; } if (NILP (Vprint_charset_text_property) || ! (print_check_string_result & PRINT_STRING_UNSAFE_CHARSET_FOUND)) { int i, c; ptrdiff_t charpos = interval->position; ptrdiff_t bytepos = string_char_to_byte (string, charpos); Lisp_Object charset; charset = XCAR (XCDR (val)); for (i = 0; i < LENGTH (interval); i++) { FETCH_STRING_CHAR_ADVANCE (c, string, charpos, bytepos); if (! ASCII_CHAR_P (c) && ! EQ (CHARSET_NAME (CHAR_CHARSET (c)), charset)) { print_check_string_result |= PRINT_STRING_UNSAFE_CHARSET_FOUND; break; } } } } /* The value is (charset . nil). */ static Lisp_Object print_prune_charset_plist; static Lisp_Object print_prune_string_charset (Lisp_Object string) { print_check_string_result = 0; traverse_intervals (string_intervals (string), 0, print_check_string_charset_prop, string); if (! (print_check_string_result & PRINT_STRING_UNSAFE_CHARSET_FOUND)) { string = Fcopy_sequence (string); if (print_check_string_result & PRINT_STRING_NON_CHARSET_FOUND) { if (NILP (print_prune_charset_plist)) print_prune_charset_plist = list1 (Qcharset); Fremove_text_properties (make_number (0), make_number (SCHARS (string)), print_prune_charset_plist, string); } else Fset_text_properties (make_number (0), make_number (SCHARS (string)), Qnil, string); } return string; } static void print_object (Lisp_Object obj, Lisp_Object printcharfun, bool escapeflag) { char buf[max (sizeof "from..to..in " + 2 * INT_STRLEN_BOUND (EMACS_INT), max (sizeof " . #" + INT_STRLEN_BOUND (printmax_t), 40))]; QUIT; /* Detect circularities and truncate them. */ if (NILP (Vprint_circle)) { /* Simple but incomplete way. */ int i; /* See similar code in print_preprocess. */ if (print_depth >= PRINT_CIRCLE) error ("Apparently circular structure being printed"); for (i = 0; i < print_depth; i++) if (EQ (obj, being_printed[i])) { int len = sprintf (buf, "#%d", i); strout (buf, len, len, printcharfun); return; } being_printed[print_depth] = obj; } else if (PRINT_CIRCLE_CANDIDATE_P (obj)) { /* With the print-circle feature. */ Lisp_Object num = Fgethash (obj, Vprint_number_table, Qnil); if (INTEGERP (num)) { EMACS_INT n = XINT (num); if (n < 0) { /* Add a prefix #n= if OBJ has not yet been printed; that is, its status field is nil. */ int len = sprintf (buf, "#%"pI"d=", -n); strout (buf, len, len, printcharfun); /* OBJ is going to be printed. Remember that fact. */ Fputhash (obj, make_number (- n), Vprint_number_table); } else { /* Just print #n# if OBJ has already been printed. */ int len = sprintf (buf, "#%"pI"d#", n); strout (buf, len, len, printcharfun); return; } } } print_depth++; switch (XTYPE (obj)) { case_Lisp_Int: { int len = sprintf (buf, "%"pI"d", XINT (obj)); strout (buf, len, len, printcharfun); } break; case Lisp_Float: { char pigbuf[FLOAT_TO_STRING_BUFSIZE]; int len = float_to_string (pigbuf, XFLOAT_DATA (obj)); strout (pigbuf, len, len, printcharfun); } break; case Lisp_String: if (!escapeflag) print_string (obj, printcharfun); else { register ptrdiff_t i_byte; struct gcpro gcpro1; unsigned char *str; ptrdiff_t size_byte; /* 1 means we must ensure that the next character we output cannot be taken as part of a hex character escape. */ bool need_nonhex = 0; bool multibyte = STRING_MULTIBYTE (obj); GCPRO1 (obj); if (! EQ (Vprint_charset_text_property, Qt)) obj = print_prune_string_charset (obj); if (string_intervals (obj)) { PRINTCHAR ('#'); PRINTCHAR ('('); } PRINTCHAR ('\"'); str = SDATA (obj); size_byte = SBYTES (obj); for (i_byte = 0; i_byte < size_byte;) { /* Here, we must convert each multi-byte form to the corresponding character code before handing it to PRINTCHAR. */ int len; int c; if (multibyte) { c = STRING_CHAR_AND_LENGTH (str + i_byte, len); i_byte += len; } else c = str[i_byte++]; QUIT; if (c == '\n' && print_escape_newlines) { PRINTCHAR ('\\'); PRINTCHAR ('n'); } else if (c == '\f' && print_escape_newlines) { PRINTCHAR ('\\'); PRINTCHAR ('f'); } else if (multibyte && (CHAR_BYTE8_P (c) || (! ASCII_CHAR_P (c) && print_escape_multibyte))) { /* When multibyte is disabled, print multibyte string chars using hex escapes. For a char code that could be in a unibyte string, when found in a multibyte string, always use a hex escape so it reads back as multibyte. */ char outbuf[50]; int len; if (CHAR_BYTE8_P (c)) len = sprintf (outbuf, "\\%03o", CHAR_TO_BYTE8 (c)); else { len = sprintf (outbuf, "\\x%04x", c); need_nonhex = 1; } strout (outbuf, len, len, printcharfun); } else if (! multibyte && SINGLE_BYTE_CHAR_P (c) && ! ASCII_BYTE_P (c) && print_escape_nonascii) { /* When printing in a multibyte buffer or when explicitly requested, print single-byte non-ASCII string chars using octal escapes. */ char outbuf[5]; int len = sprintf (outbuf, "\\%03o", c); strout (outbuf, len, len, printcharfun); } else { /* If we just had a hex escape, and this character could be taken as part of it, output `\ ' to prevent that. */ if (need_nonhex) { need_nonhex = 0; if ((c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F') || (c >= '0' && c <= '9')) strout ("\\ ", -1, -1, printcharfun); } if (c == '\"' || c == '\\') PRINTCHAR ('\\'); PRINTCHAR (c); } } PRINTCHAR ('\"'); if (string_intervals (obj)) { traverse_intervals (string_intervals (obj), 0, print_interval, printcharfun); PRINTCHAR (')'); } UNGCPRO; } break; case Lisp_Symbol: { bool confusing; unsigned char *p = SDATA (SYMBOL_NAME (obj)); unsigned char *end = p + SBYTES (SYMBOL_NAME (obj)); int c; ptrdiff_t i, i_byte; ptrdiff_t size_byte; Lisp_Object name; name = SYMBOL_NAME (obj); if (p != end && (*p == '-' || *p == '+')) p++; if (p == end) confusing = 0; /* If symbol name begins with a digit, and ends with a digit, and contains nothing but digits and `e', it could be treated as a number. So set CONFUSING. Symbols that contain periods could also be taken as numbers, but periods are always escaped, so we don't have to worry about them here. */ else if (*p >= '0' && *p <= '9' && end[-1] >= '0' && end[-1] <= '9') { while (p != end && ((*p >= '0' && *p <= '9') /* Needed for \2e10. */ || *p == 'e' || *p == 'E')) p++; confusing = (end == p); } else confusing = 0; size_byte = SBYTES (name); if (! NILP (Vprint_gensym) && !SYMBOL_INTERNED_P (obj)) { PRINTCHAR ('#'); PRINTCHAR (':'); } else if (size_byte == 0) { PRINTCHAR ('#'); PRINTCHAR ('#'); break; } for (i = 0, i_byte = 0; i_byte < size_byte;) { /* Here, we must convert each multi-byte form to the corresponding character code before handing it to PRINTCHAR. */ FETCH_STRING_CHAR_ADVANCE (c, name, i, i_byte); QUIT; if (escapeflag) { if (c == '\"' || c == '\\' || c == '\'' || c == ';' || c == '#' || c == '(' || c == ')' || c == ',' || c == '.' || c == '`' || c == '[' || c == ']' || c == '?' || c <= 040 || confusing) PRINTCHAR ('\\'), confusing = 0; } PRINTCHAR (c); } } break; case Lisp_Cons: /* If deeper than spec'd depth, print placeholder. */ if (INTEGERP (Vprint_level) && print_depth > XINT (Vprint_level)) strout ("...", -1, -1, printcharfun); else if (print_quoted && CONSP (XCDR (obj)) && NILP (XCDR (XCDR (obj))) && (EQ (XCAR (obj), Qquote))) { PRINTCHAR ('\''); print_object (XCAR (XCDR (obj)), printcharfun, escapeflag); } else if (print_quoted && CONSP (XCDR (obj)) && NILP (XCDR (XCDR (obj))) && (EQ (XCAR (obj), Qfunction))) { PRINTCHAR ('#'); PRINTCHAR ('\''); print_object (XCAR (XCDR (obj)), printcharfun, escapeflag); } else if (print_quoted && CONSP (XCDR (obj)) && NILP (XCDR (XCDR (obj))) && ((EQ (XCAR (obj), Qbackquote)))) { print_object (XCAR (obj), printcharfun, 0); new_backquote_output++; print_object (XCAR (XCDR (obj)), printcharfun, escapeflag); new_backquote_output--; } else if (print_quoted && CONSP (XCDR (obj)) && NILP (XCDR (XCDR (obj))) && new_backquote_output && ((EQ (XCAR (obj), Qbackquote) || EQ (XCAR (obj), Qcomma) || EQ (XCAR (obj), Qcomma_at) || EQ (XCAR (obj), Qcomma_dot)))) { print_object (XCAR (obj), printcharfun, 0); new_backquote_output--; print_object (XCAR (XCDR (obj)), printcharfun, escapeflag); new_backquote_output++; } else { PRINTCHAR ('('); { printmax_t i, print_length; Lisp_Object halftail = obj; /* Negative values of print-length are invalid in CL. Treat them like nil, as CMUCL does. */ if (NATNUMP (Vprint_length)) print_length = XFASTINT (Vprint_length); else print_length = TYPE_MAXIMUM (printmax_t); i = 0; while (CONSP (obj)) { /* Detect circular list. */ if (NILP (Vprint_circle)) { /* Simple but incomplete way. */ if (i != 0 && EQ (obj, halftail)) { int len = sprintf (buf, " . #%"pMd, i / 2); strout (buf, len, len, printcharfun); goto end_of_list; } } else { /* With the print-circle feature. */ if (i != 0) { Lisp_Object num = Fgethash (obj, Vprint_number_table, Qnil); if (INTEGERP (num)) { strout (" . ", 3, 3, printcharfun); print_object (obj, printcharfun, escapeflag); goto end_of_list; } } } if (i) PRINTCHAR (' '); if (print_length <= i) { strout ("...", 3, 3, printcharfun); goto end_of_list; } i++; print_object (XCAR (obj), printcharfun, escapeflag); obj = XCDR (obj); if (!(i & 1)) halftail = XCDR (halftail); } } /* OBJ non-nil here means it's the end of a dotted list. */ if (!NILP (obj)) { strout (" . ", 3, 3, printcharfun); print_object (obj, printcharfun, escapeflag); } end_of_list: PRINTCHAR (')'); } break; case Lisp_Vectorlike: if (PROCESSP (obj)) { if (escapeflag) { strout ("#name, printcharfun); PRINTCHAR ('>'); } else print_string (XPROCESS (obj)->name, printcharfun); } else if (BOOL_VECTOR_P (obj)) { ptrdiff_t i; int len; unsigned char c; struct gcpro gcpro1; EMACS_INT size = bool_vector_size (obj); ptrdiff_t size_in_chars = bool_vector_bytes (size); ptrdiff_t real_size_in_chars = size_in_chars; GCPRO1 (obj); PRINTCHAR ('#'); PRINTCHAR ('&'); len = sprintf (buf, "%"pI"d", size); strout (buf, len, len, printcharfun); PRINTCHAR ('\"'); /* Don't print more characters than the specified maximum. Negative values of print-length are invalid. Treat them like a print-length of nil. */ if (NATNUMP (Vprint_length) && XFASTINT (Vprint_length) < size_in_chars) size_in_chars = XFASTINT (Vprint_length); for (i = 0; i < size_in_chars; i++) { QUIT; c = bool_vector_uchar_data (obj)[i]; if (c == '\n' && print_escape_newlines) { PRINTCHAR ('\\'); PRINTCHAR ('n'); } else if (c == '\f' && print_escape_newlines) { PRINTCHAR ('\\'); PRINTCHAR ('f'); } else if (c > '\177') { /* Use octal escapes to avoid encoding issues. */ PRINTCHAR ('\\'); PRINTCHAR ('0' + ((c >> 6) & 3)); PRINTCHAR ('0' + ((c >> 3) & 7)); PRINTCHAR ('0' + (c & 7)); } else { if (c == '\"' || c == '\\') PRINTCHAR ('\\'); PRINTCHAR (c); } } if (size_in_chars < real_size_in_chars) strout (" ...", 4, 4, printcharfun); PRINTCHAR ('\"'); UNGCPRO; } else if (SUBRP (obj)) { strout ("#symbol_name, -1, -1, printcharfun); PRINTCHAR ('>'); } else if (WINDOWP (obj)) { int len; strout ("#sequence_number); strout (buf, len, len, printcharfun); if (BUFFERP (XWINDOW (obj)->contents)) { strout (" on ", -1, -1, printcharfun); print_string (BVAR (XBUFFER (XWINDOW (obj)->contents), name), printcharfun); } PRINTCHAR ('>'); } else if (TERMINALP (obj)) { int len; struct terminal *t = XTERMINAL (obj); strout ("#id); strout (buf, len, len, printcharfun); if (t->name) { strout (" on ", -1, -1, printcharfun); strout (t->name, -1, -1, printcharfun); } PRINTCHAR ('>'); } else if (HASH_TABLE_P (obj)) { struct Lisp_Hash_Table *h = XHASH_TABLE (obj); ptrdiff_t i; ptrdiff_t real_size, size; int len; #if 0 void *ptr = h; strout ("#test)) { PRINTCHAR (' '); PRINTCHAR ('\''); strout (SDATA (SYMBOL_NAME (h->test)), -1, -1, printcharfun); PRINTCHAR (' '); strout (SDATA (SYMBOL_NAME (h->weak)), -1, -1, printcharfun); PRINTCHAR (' '); len = sprintf (buf, "%"pD"d/%"pD"d", h->count, ASIZE (h->next)); strout (buf, len, len, printcharfun); } len = sprintf (buf, " %p>", ptr); strout (buf, len, len, printcharfun); #endif /* Implement a readable output, e.g.: #s(hash-table size 2 test equal data (k1 v1 k2 v2)) */ /* Always print the size. */ len = sprintf (buf, "#s(hash-table size %"pD"d", ASIZE (h->next)); strout (buf, len, len, printcharfun); if (!NILP (h->test.name)) { strout (" test ", -1, -1, printcharfun); print_object (h->test.name, printcharfun, escapeflag); } if (!NILP (h->weak)) { strout (" weakness ", -1, -1, printcharfun); print_object (h->weak, printcharfun, escapeflag); } if (!NILP (h->rehash_size)) { strout (" rehash-size ", -1, -1, printcharfun); print_object (h->rehash_size, printcharfun, escapeflag); } if (!NILP (h->rehash_threshold)) { strout (" rehash-threshold ", -1, -1, printcharfun); print_object (h->rehash_threshold, printcharfun, escapeflag); } strout (" data ", -1, -1, printcharfun); /* Print the data here as a plist. */ real_size = HASH_TABLE_SIZE (h); size = real_size; /* Don't print more elements than the specified maximum. */ if (NATNUMP (Vprint_length) && XFASTINT (Vprint_length) < size) size = XFASTINT (Vprint_length); PRINTCHAR ('('); for (i = 0; i < size; i++) if (!NILP (HASH_HASH (h, i))) { if (i) PRINTCHAR (' '); print_object (HASH_KEY (h, i), printcharfun, escapeflag); PRINTCHAR (' '); print_object (HASH_VALUE (h, i), printcharfun, escapeflag); } if (size < real_size) strout (" ...", 4, 4, printcharfun); PRINTCHAR (')'); PRINTCHAR (')'); } else if (BUFFERP (obj)) { if (!BUFFER_LIVE_P (XBUFFER (obj))) strout ("#", -1, -1, printcharfun); else if (escapeflag) { strout ("#'); } else print_string (BVAR (XBUFFER (obj), name), printcharfun); } else if (WINDOW_CONFIGURATIONP (obj)) { strout ("#", -1, -1, printcharfun); } else if (FRAMEP (obj)) { int len; void *ptr = XFRAME (obj); Lisp_Object frame_name = XFRAME (obj)->name; strout ((FRAME_LIVE_P (XFRAME (obj)) ? "#", ptr); strout (buf, len, len, printcharfun); } else if (FONTP (obj)) { int i; if (! FONT_OBJECT_P (obj)) { if (FONT_SPEC_P (obj)) strout ("# FONT_WIDTH_INDEX) print_object (AREF (obj, i), printcharfun, escapeflag); else print_object (font_style_symbolic (obj, i, 0), printcharfun, escapeflag); } } else { strout ("#'); } else { ptrdiff_t size = ASIZE (obj); if (COMPILEDP (obj)) { PRINTCHAR ('#'); size &= PSEUDOVECTOR_SIZE_MASK; } if (CHAR_TABLE_P (obj) || SUB_CHAR_TABLE_P (obj)) { /* We print a char-table as if it were a vector, lumping the parent and default slots in with the character slots. But we add #^ as a prefix. */ /* Make each lowest sub_char_table start a new line. Otherwise we'll make a line extremely long, which results in slow redisplay. */ if (SUB_CHAR_TABLE_P (obj) && XINT (XSUB_CHAR_TABLE (obj)->depth) == 3) PRINTCHAR ('\n'); PRINTCHAR ('#'); PRINTCHAR ('^'); if (SUB_CHAR_TABLE_P (obj)) PRINTCHAR ('^'); size &= PSEUDOVECTOR_SIZE_MASK; } if (size & PSEUDOVECTOR_FLAG) goto badtype; PRINTCHAR ('['); { register int i; register Lisp_Object tem; ptrdiff_t real_size = size; /* Don't print more elements than the specified maximum. */ if (NATNUMP (Vprint_length) && XFASTINT (Vprint_length) < size) size = XFASTINT (Vprint_length); for (i = 0; i < size; i++) { if (i) PRINTCHAR (' '); tem = AREF (obj, i); print_object (tem, printcharfun, escapeflag); } if (size < real_size) strout (" ...", 4, 4, printcharfun); } PRINTCHAR (']'); } break; case Lisp_Misc: switch (XMISCTYPE (obj)) { case Lisp_Misc_Marker: strout ("#insertion_type != 0) strout ("(moves after insertion) ", -1, -1, printcharfun); if (! XMARKER (obj)->buffer) strout ("in no buffer", -1, -1, printcharfun); else { int len = sprintf (buf, "at %"pD"d", marker_position (obj)); strout (buf, len, len, printcharfun); strout (" in ", -1, -1, printcharfun); print_string (BVAR (XMARKER (obj)->buffer, name), printcharfun); } PRINTCHAR ('>'); break; case Lisp_Misc_Overlay: strout ("#buffer) strout ("in no buffer", -1, -1, printcharfun); else { int len = sprintf (buf, "from %"pD"d to %"pD"d in ", marker_position (OVERLAY_START (obj)), marker_position (OVERLAY_END (obj))); strout (buf, len, len, printcharfun); print_string (BVAR (XMARKER (OVERLAY_START (obj))->buffer, name), printcharfun); } PRINTCHAR ('>'); break; /* Remaining cases shouldn't happen in normal usage, but let's print them anyway for the benefit of the debugger. */ case Lisp_Misc_Free: strout ("#", -1, -1, printcharfun); break; case Lisp_Misc_Save_Value: { int i; struct Lisp_Save_Value *v = XSAVE_VALUE (obj); strout ("#save_type == SAVE_TYPE_MEMORY) { ptrdiff_t amount = v->data[1].integer; #if GC_MARK_STACK /* valid_lisp_object_p is reliable, so try to print up to 8 saved objects. This code is rarely used, so it's OK that valid_lisp_object_p is slow. */ int limit = min (amount, 8); Lisp_Object *area = v->data[0].pointer; i = sprintf (buf, "with %"pD"d objects", amount); strout (buf, i, i, printcharfun); for (i = 0; i < limit; i++) { Lisp_Object maybe = area[i]; if (valid_lisp_object_p (maybe) > 0) { PRINTCHAR (' '); print_object (maybe, printcharfun, escapeflag); } else strout (" ", -1, -1, printcharfun); } if (i == limit && i < amount) strout (" ...", 4, 4, printcharfun); #else /* not GC_MARK_STACK */ /* There is no reliable way to determine whether the objects are initialized, so do not try to print them. */ i = sprintf (buf, "with %"pD"d objects", amount); strout (buf, i, i, printcharfun); #endif /* GC_MARK_STACK */ } else { /* Print each slot according to its type. */ int index; for (index = 0; index < SAVE_VALUE_SLOTS; index++) { if (index) PRINTCHAR (' '); switch (save_type (v, index)) { case SAVE_UNUSED: i = sprintf (buf, ""); break; case SAVE_POINTER: i = sprintf (buf, "", v->data[index].pointer); break; case SAVE_FUNCPOINTER: i = sprintf (buf, "", ((void *) (intptr_t) v->data[index].funcpointer)); break; case SAVE_INTEGER: i = sprintf (buf, "", v->data[index].integer); break; case SAVE_OBJECT: print_object (v->data[index].object, printcharfun, escapeflag); continue; default: emacs_abort (); } strout (buf, i, i, printcharfun); } } PRINTCHAR ('>'); } break; default: goto badtype; } break; default: badtype: { int len; /* We're in trouble if this happens! Probably should just emacs_abort (). */ strout ("#", -1, -1, printcharfun); } } print_depth--; } /* Print a description of INTERVAL using PRINTCHARFUN. This is part of printing a string that has text properties. */ static void print_interval (INTERVAL interval, Lisp_Object printcharfun) { if (NILP (interval->plist)) return; PRINTCHAR (' '); print_object (make_number (interval->position), printcharfun, 1); PRINTCHAR (' '); print_object (make_number (interval->position + LENGTH (interval)), printcharfun, 1); PRINTCHAR (' '); print_object (interval->plist, printcharfun, 1); } /* Initialize debug_print stuff early to have it working from the very beginning. */ void init_print_once (void) { DEFSYM (Qexternal_debugging_output, "external-debugging-output"); defsubr (&Sexternal_debugging_output); } void syms_of_print (void) { DEFSYM (Qtemp_buffer_setup_hook, "temp-buffer-setup-hook"); DEFVAR_LISP ("standard-output", Vstandard_output, doc: /* Output stream `print' uses by default for outputting a character. This may be any function of one argument. It may also be a buffer (output is inserted before point) or a marker (output is inserted and the marker is advanced) or the symbol t (output appears in the echo area). */); Vstandard_output = Qt; DEFSYM (Qstandard_output, "standard-output"); DEFVAR_LISP ("float-output-format", Vfloat_output_format, doc: /* The format descriptor string used to print floats. This is a %-spec like those accepted by `printf' in C, but with some restrictions. It must start with the two characters `%.'. After that comes an integer precision specification, and then a letter which controls the format. The letters allowed are `e', `f' and `g'. Use `e' for exponential notation \"DIG.DIGITSeEXPT\" Use `f' for decimal point notation \"DIGITS.DIGITS\". Use `g' to choose the shorter of those two formats for the number at hand. The precision in any of these cases is the number of digits following the decimal point. With `f', a precision of 0 means to omit the decimal point. 0 is not allowed with `e' or `g'. A value of nil means to use the shortest notation that represents the number without losing information. */); Vfloat_output_format = Qnil; DEFSYM (Qfloat_output_format, "float-output-format"); DEFVAR_LISP ("print-length", Vprint_length, doc: /* Maximum length of list to print before abbreviating. A value of nil means no limit. See also `eval-expression-print-length'. */); Vprint_length = Qnil; DEFVAR_LISP ("print-level", Vprint_level, doc: /* Maximum depth of list nesting to print before abbreviating. A value of nil means no limit. See also `eval-expression-print-level'. */); Vprint_level = Qnil; DEFVAR_BOOL ("print-escape-newlines", print_escape_newlines, doc: /* Non-nil means print newlines in strings as `\\n'. Also print formfeeds as `\\f'. */); print_escape_newlines = 0; DEFVAR_BOOL ("print-escape-nonascii", print_escape_nonascii, doc: /* Non-nil means print unibyte non-ASCII chars in strings as \\OOO. \(OOO is the octal representation of the character code.) Only single-byte characters are affected, and only in `prin1'. When the output goes in a multibyte buffer, this feature is enabled regardless of the value of the variable. */); print_escape_nonascii = 0; DEFVAR_BOOL ("print-escape-multibyte", print_escape_multibyte, doc: /* Non-nil means print multibyte characters in strings as \\xXXXX. \(XXXX is the hex representation of the character code.) This affects only `prin1'. */); print_escape_multibyte = 0; DEFVAR_BOOL ("print-quoted", print_quoted, doc: /* Non-nil means print quoted forms with reader syntax. I.e., (quote foo) prints as 'foo, (function foo) as #'foo. */); print_quoted = 0; DEFVAR_LISP ("print-gensym", Vprint_gensym, doc: /* Non-nil means print uninterned symbols so they will read as uninterned. I.e., the value of (make-symbol \"foobar\") prints as #:foobar. When the uninterned symbol appears within a recursive data structure, and the symbol appears more than once, in addition use the #N# and #N= constructs as needed, so that multiple references to the same symbol are shared once again when the text is read back. */); Vprint_gensym = Qnil; DEFVAR_LISP ("print-circle", Vprint_circle, doc: /* Non-nil means print recursive structures using #N= and #N# syntax. If nil, printing proceeds recursively and may lead to `max-lisp-eval-depth' being exceeded or an error may occur: \"Apparently circular structure being printed.\" Also see `print-length' and `print-level'. If non-nil, shared substructures anywhere in the structure are printed with `#N=' before the first occurrence (in the order of the print representation) and `#N#' in place of each subsequent occurrence, where N is a positive decimal integer. */); Vprint_circle = Qnil; DEFVAR_LISP ("print-continuous-numbering", Vprint_continuous_numbering, doc: /* Non-nil means number continuously across print calls. This affects the numbers printed for #N= labels and #M# references. See also `print-circle', `print-gensym', and `print-number-table'. This variable should not be set with `setq'; bind it with a `let' instead. */); Vprint_continuous_numbering = Qnil; DEFVAR_LISP ("print-number-table", Vprint_number_table, doc: /* A vector used internally to produce `#N=' labels and `#N#' references. The Lisp printer uses this vector to detect Lisp objects referenced more than once. When you bind `print-continuous-numbering' to t, you should probably also bind `print-number-table' to nil. This ensures that the value of `print-number-table' can be garbage-collected once the printing is done. If all elements of `print-number-table' are nil, it means that the printing done so far has not found any shared structure or objects that need to be recorded in the table. */); Vprint_number_table = Qnil; DEFVAR_LISP ("print-charset-text-property", Vprint_charset_text_property, doc: /* A flag to control printing of `charset' text property on printing a string. The value must be nil, t, or `default'. If the value is nil, don't print the text property `charset'. If the value is t, always print the text property `charset'. If the value is `default', print the text property `charset' only when the value is different from what is guessed in the current charset priorities. */); Vprint_charset_text_property = Qdefault; /* prin1_to_string_buffer initialized in init_buffer_once in buffer.c */ staticpro (&Vprin1_to_string_buffer); defsubr (&Sprin1); defsubr (&Sprin1_to_string); defsubr (&Serror_message_string); defsubr (&Sprinc); defsubr (&Sprint); defsubr (&Sterpri); defsubr (&Swrite_char); #ifdef WITH_REDIRECT_DEBUGGING_OUTPUT defsubr (&Sredirect_debugging_output); #endif DEFSYM (Qprint_escape_newlines, "print-escape-newlines"); DEFSYM (Qprint_escape_multibyte, "print-escape-multibyte"); DEFSYM (Qprint_escape_nonascii, "print-escape-nonascii"); print_prune_charset_plist = Qnil; staticpro (&print_prune_charset_plist); }