/* Unix emulation routines for GNU Emacs on the Mac OS. Copyright (C) 2000, 2001 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 2, 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; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* Contributed by Andrew Choi (akochoi@mac.com). */ #include #include #include #include #include "lisp.h" #include "process.h" #include "sysselect.h" #include "systime.h" #include "blockinput.h" #include "charset.h" #include "coding.h" #include "macterm.h" #ifndef HAVE_CARBON #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #endif /* not HAVE_CARBON */ #include #include #include #include #include #include #include #include #include #include #if __MWERKS__ #include #endif Lisp_Object QCLIPBOARD; /* The system script code. */ static int mac_system_script_code; /* The system locale identifier string. */ static Lisp_Object Vmac_system_locale; /* An instance of the AppleScript component. */ static ComponentInstance as_scripting_component; /* The single script context used for all script executions. */ static OSAID as_script_context; /* When converting from Mac to Unix pathnames, /'s in folder names are converted to :'s. This function, used in copying folder names, performs a strncat and converts all character a to b in the copy of the string s2 appended to the end of s1. */ void string_cat_and_replace (char *s1, const char *s2, int n, char a, char b) { int l1 = strlen (s1); int l2 = strlen (s2); char *p = s1 + l1; int i; strncat (s1, s2, n); for (i = 0; i < l2; i++) { if (*p == a) *p = b; p++; } } /* Convert a Mac pathname to Posix form. A Mac full pathname is one that does not begin with a ':' and contains at least one ':'. A Mac full pathname causes a '/' to be prepended to the Posix pathname. The algorithm for the rest of the pathname is as follows: For each segment between two ':', if it is non-null, copy as is and then add a '/' at the end, otherwise, insert a "../" into the Posix pathname. Returns 1 if successful; 0 if fails. */ int mac_to_posix_pathname (const char *mfn, char *ufn, int ufnbuflen) { const char *p, *q, *pe; strcpy (ufn, ""); if (*mfn == '\0') return 1; p = strchr (mfn, ':'); if (p != 0 && p != mfn) /* full pathname */ strcat (ufn, "/"); p = mfn; if (*p == ':') p++; pe = mfn + strlen (mfn); while (p < pe) { q = strchr (p, ':'); if (q) { if (q == p) { /* two consecutive ':' */ if (strlen (ufn) + 3 >= ufnbuflen) return 0; strcat (ufn, "../"); } else { if (strlen (ufn) + (q - p) + 1 >= ufnbuflen) return 0; string_cat_and_replace (ufn, p, q - p, '/', ':'); strcat (ufn, "/"); } p = q + 1; } else { if (strlen (ufn) + (pe - p) >= ufnbuflen) return 0; string_cat_and_replace (ufn, p, pe - p, '/', ':'); /* no separator for last one */ p = pe; } } return 1; } extern char *get_temp_dir_name (); /* Convert a Posix pathname to Mac form. Approximately reverse of the above in algorithm. */ int posix_to_mac_pathname (const char *ufn, char *mfn, int mfnbuflen) { const char *p, *q, *pe; char expanded_pathname[MAXPATHLEN+1]; strcpy (mfn, ""); if (*ufn == '\0') return 1; p = ufn; /* Check for and handle volume names. Last comparison: strangely somewhere "/.emacs" is passed. A temporary fix for now. */ if (*p == '/' && strchr (p+1, '/') == NULL && strcmp (p, "/.emacs") != 0) { if (strlen (p) + 1 > mfnbuflen) return 0; strcpy (mfn, p+1); strcat (mfn, ":"); return 1; } /* expand to emacs dir found by init_emacs_passwd_dir */ if (strncmp (p, "~emacs/", 7) == 0) { struct passwd *pw = getpwnam ("emacs"); p += 7; if (strlen (pw->pw_dir) + strlen (p) > MAXPATHLEN) return 0; strcpy (expanded_pathname, pw->pw_dir); strcat (expanded_pathname, p); p = expanded_pathname; /* now p points to the pathname with emacs dir prefix */ } else if (strncmp (p, "/tmp/", 5) == 0) { char *t = get_temp_dir_name (); p += 5; if (strlen (t) + strlen (p) > MAXPATHLEN) return 0; strcpy (expanded_pathname, t); strcat (expanded_pathname, p); p = expanded_pathname; /* now p points to the pathname with emacs dir prefix */ } else if (*p != '/') /* relative pathname */ strcat (mfn, ":"); if (*p == '/') p++; pe = p + strlen (p); while (p < pe) { q = strchr (p, '/'); if (q) { if (q - p == 2 && *p == '.' && *(p+1) == '.') { if (strlen (mfn) + 1 >= mfnbuflen) return 0; strcat (mfn, ":"); } else { if (strlen (mfn) + (q - p) + 1 >= mfnbuflen) return 0; string_cat_and_replace (mfn, p, q - p, ':', '/'); strcat (mfn, ":"); } p = q + 1; } else { if (strlen (mfn) + (pe - p) >= mfnbuflen) return 0; string_cat_and_replace (mfn, p, pe - p, ':', '/'); p = pe; } } return 1; } /*********************************************************************** Conversion between Lisp and Core Foundation objects ***********************************************************************/ #if TARGET_API_MAC_CARBON static Lisp_Object Qstring, Qnumber, Qboolean, Qdate, Qdata; static Lisp_Object Qarray, Qdictionary; #define DECODE_UTF_8(str) code_convert_string_norecord (str, Qutf_8, 0) struct cfdict_context { Lisp_Object *result; int with_tag, hash_bound; }; /* C string to CFString. */ CFStringRef cfstring_create_with_utf8_cstring (c_str) const char *c_str; { CFStringRef str; str = CFStringCreateWithCString (NULL, c_str, kCFStringEncodingUTF8); if (str == NULL) /* Failed to interpret as UTF 8. Fall back on Mac Roman. */ str = CFStringCreateWithCString (NULL, c_str, kCFStringEncodingMacRoman); return str; } /* Lisp string to CFString. */ CFStringRef cfstring_create_with_string (s) Lisp_Object s; { CFStringRef string = NULL; if (STRING_MULTIBYTE (s)) { char *p, *end = SDATA (s) + SBYTES (s); for (p = SDATA (s); p < end; p++) if (!isascii (*p)) { s = ENCODE_UTF_8 (s); break; } string = CFStringCreateWithBytes (NULL, SDATA (s), SBYTES (s), kCFStringEncodingUTF8, false); } if (string == NULL) /* Failed to interpret as UTF 8. Fall back on Mac Roman. */ string = CFStringCreateWithBytes (NULL, SDATA (s), SBYTES (s), kCFStringEncodingMacRoman, false); return string; } /* From CFData to a lisp string. Always returns a unibyte string. */ Lisp_Object cfdata_to_lisp (data) CFDataRef data; { CFIndex len = CFDataGetLength (data); Lisp_Object result = make_uninit_string (len); CFDataGetBytes (data, CFRangeMake (0, len), SDATA (result)); return result; } /* From CFString to a lisp string. Never returns a unibyte string (even if it only contains ASCII characters). This may cause GC during code conversion. */ Lisp_Object cfstring_to_lisp (string) CFStringRef string; { Lisp_Object result = Qnil; const char *s = CFStringGetCStringPtr (string, kCFStringEncodingUTF8); if (s) result = make_unibyte_string (s, strlen (s)); else { CFDataRef data = CFStringCreateExternalRepresentation (NULL, string, kCFStringEncodingUTF8, '?'); if (data) { result = cfdata_to_lisp (data); CFRelease (data); } } if (!NILP (result)) { result = DECODE_UTF_8 (result); /* This may be superfluous. Just to make sure that the result is a multibyte string. */ result = string_to_multibyte (result); } return result; } /* CFNumber to a lisp integer or a lisp float. */ Lisp_Object cfnumber_to_lisp (number) CFNumberRef number; { Lisp_Object result = Qnil; #if BITS_PER_EMACS_INT > 32 SInt64 int_val; CFNumberType emacs_int_type = kCFNumberSInt64Type; #else SInt32 int_val; CFNumberType emacs_int_type = kCFNumberSInt32Type; #endif double float_val; if (CFNumberGetValue (number, emacs_int_type, &int_val) && !FIXNUM_OVERFLOW_P (int_val)) result = make_number (int_val); else if (CFNumberGetValue (number, kCFNumberDoubleType, &float_val)) result = make_float (float_val); return result; } /* CFDate to a list of three integers as in a return value of `current-time'. */ Lisp_Object cfdate_to_lisp (date) CFDateRef date; { static const CFGregorianDate epoch_gdate = {1970, 1, 1, 0, 0, 0.0}; static CFAbsoluteTime epoch = 0.0, sec; int high, low; if (epoch == 0.0) epoch = CFGregorianDateGetAbsoluteTime (epoch_gdate, NULL); sec = CFDateGetAbsoluteTime (date) - epoch; high = sec / 65536.0; low = sec - high * 65536.0; return list3 (make_number (high), make_number (low), make_number (0)); } /* CFBoolean to a lisp symbol, `t' or `nil'. */ Lisp_Object cfboolean_to_lisp (boolean) CFBooleanRef boolean; { return CFBooleanGetValue (boolean) ? Qt : Qnil; } /* Any Core Foundation object to a (lengthy) lisp string. */ Lisp_Object cfobject_desc_to_lisp (object) CFTypeRef object; { Lisp_Object result = Qnil; CFStringRef desc = CFCopyDescription (object); if (desc) { result = cfstring_to_lisp (desc); CFRelease (desc); } return result; } /* Callback functions for cfproperty_list_to_lisp. */ static void cfdictionary_add_to_list (key, value, context) const void *key; const void *value; void *context; { struct cfdict_context *cxt = (struct cfdict_context *)context; *cxt->result = Fcons (Fcons (cfstring_to_lisp (key), cfproperty_list_to_lisp (value, cxt->with_tag, cxt->hash_bound)), *cxt->result); } static void cfdictionary_puthash (key, value, context) const void *key; const void *value; void *context; { Lisp_Object lisp_key = cfstring_to_lisp (key); struct cfdict_context *cxt = (struct cfdict_context *)context; struct Lisp_Hash_Table *h = XHASH_TABLE (*(cxt->result)); unsigned hash_code; hash_lookup (h, lisp_key, &hash_code); hash_put (h, lisp_key, cfproperty_list_to_lisp (value, cxt->with_tag, cxt->hash_bound), hash_code); } /* Convert CFPropertyList PLIST to a lisp object. If WITH_TAG is non-zero, a symbol that represents the type of the original Core Foundation object is prepended. HASH_BOUND specifies which kinds of the lisp objects, alists or hash tables, are used as the targets of the conversion from CFDictionary. If HASH_BOUND is negative, always generate alists. If HASH_BOUND >= 0, generate an alist if the number of keys in the dictionary is smaller than HASH_BOUND, and a hash table otherwise. */ Lisp_Object cfproperty_list_to_lisp (plist, with_tag, hash_bound) CFPropertyListRef plist; int with_tag, hash_bound; { CFTypeID type_id = CFGetTypeID (plist); Lisp_Object tag = Qnil, result = Qnil; struct gcpro gcpro1, gcpro2; GCPRO2 (tag, result); if (type_id == CFStringGetTypeID ()) { tag = Qstring; result = cfstring_to_lisp (plist); } else if (type_id == CFNumberGetTypeID ()) { tag = Qnumber; result = cfnumber_to_lisp (plist); } else if (type_id == CFBooleanGetTypeID ()) { tag = Qboolean; result = cfboolean_to_lisp (plist); } else if (type_id == CFDateGetTypeID ()) { tag = Qdate; result = cfdate_to_lisp (plist); } else if (type_id == CFDataGetTypeID ()) { tag = Qdata; result = cfdata_to_lisp (plist); } else if (type_id == CFArrayGetTypeID ()) { CFIndex index, count = CFArrayGetCount (plist); tag = Qarray; result = Fmake_vector (make_number (count), Qnil); for (index = 0; index < count; index++) XVECTOR (result)->contents[index] = cfproperty_list_to_lisp (CFArrayGetValueAtIndex (plist, index), with_tag, hash_bound); } else if (type_id == CFDictionaryGetTypeID ()) { struct cfdict_context context; CFIndex count = CFDictionaryGetCount (plist); tag = Qdictionary; context.result = &result; context.with_tag = with_tag; context.hash_bound = hash_bound; if (hash_bound < 0 || count < hash_bound) { result = Qnil; CFDictionaryApplyFunction (plist, cfdictionary_add_to_list, &context); } else { result = make_hash_table (Qequal, make_number (count), make_float (DEFAULT_REHASH_SIZE), make_float (DEFAULT_REHASH_THRESHOLD), Qnil, Qnil, Qnil); CFDictionaryApplyFunction (plist, cfdictionary_puthash, &context); } } else abort (); UNGCPRO; if (with_tag) result = Fcons (tag, result); return result; } #endif /*********************************************************************** Emulation of the X Resource Manager ***********************************************************************/ /* Parser functions for resource lines. Each function takes an address of a variable whose value points to the head of a string. The value will be advanced so that it points to the next character of the parsed part when the function returns. A resource name such as "Emacs*font" is parsed into a non-empty list called `quarks'. Each element is either a Lisp string that represents a concrete component, a Lisp symbol LOOSE_BINDING (actually Qlambda) that represents any number (>=0) of intervening components, or a Lisp symbol SINGLE_COMPONENT (actually Qquote) that represents as any single component. */ #define P (*p) #define LOOSE_BINDING Qlambda /* '*' ("L"oose) */ #define SINGLE_COMPONENT Qquote /* '?' ("Q"uestion) */ static void skip_white_space (p) char **p; { /* WhiteSpace = { | } */ while (*P == ' ' || *P == '\t') P++; } static int parse_comment (p) char **p; { /* Comment = "!" {} */ if (*P == '!') { P++; while (*P) if (*P++ == '\n') break; return 1; } else return 0; } /* Don't interpret filename. Just skip until the newline. */ static int parse_include_file (p) char **p; { /* IncludeFile = "#" WhiteSpace "include" WhiteSpace FileName WhiteSpace */ if (*P == '#') { P++; while (*P) if (*P++ == '\n') break; return 1; } else return 0; } static char parse_binding (p) char **p; { /* Binding = "." | "*" */ if (*P == '.' || *P == '*') { char binding = *P++; while (*P == '.' || *P == '*') if (*P++ == '*') binding = '*'; return binding; } else return '\0'; } static Lisp_Object parse_component (p) char **p; { /* Component = "?" | ComponentName ComponentName = NameChar {NameChar} NameChar = "a"-"z" | "A"-"Z" | "0"-"9" | "_" | "-" */ if (*P == '?') { P++; return SINGLE_COMPONENT; } else if (isalnum (*P) || *P == '_' || *P == '-') { char *start = P++; while (isalnum (*P) || *P == '_' || *P == '-') P++; return make_unibyte_string (start, P - start); } else return Qnil; } static Lisp_Object parse_resource_name (p) char **p; { Lisp_Object result = Qnil, component; char binding; /* ResourceName = [Binding] {Component Binding} ComponentName */ if (parse_binding (p) == '*') result = Fcons (LOOSE_BINDING, result); component = parse_component (p); if (NILP (component)) return Qnil; result = Fcons (component, result); while ((binding = parse_binding (p)) != '\0') { if (binding == '*') result = Fcons (LOOSE_BINDING, result); component = parse_component (p); if (NILP (component)) return Qnil; else result = Fcons (component, result); } /* The final component should not be '?'. */ if (EQ (component, SINGLE_COMPONENT)) return Qnil; return Fnreverse (result); } static Lisp_Object parse_value (p) char **p; { char *q, *buf; Lisp_Object seq = Qnil, result; int buf_len, total_len = 0, len, continue_p; q = strchr (P, '\n'); buf_len = q ? q - P : strlen (P); buf = xmalloc (buf_len); while (1) { q = buf; continue_p = 0; while (*P) { if (*P == '\n') { P++; break; } else if (*P == '\\') { P++; if (*P == '\0') break; else if (*P == '\n') { P++; continue_p = 1; break; } else if (*P == 'n') { *q++ = '\n'; P++; } else if ('0' <= P[0] && P[0] <= '7' && '0' <= P[1] && P[1] <= '7' && '0' <= P[2] && P[2] <= '7') { *q++ = (P[0] - '0' << 6) + (P[1] - '0' << 3) + (P[2] - '0'); P += 3; } else *q++ = *P++; } else *q++ = *P++; } len = q - buf; seq = Fcons (make_unibyte_string (buf, len), seq); total_len += len; if (continue_p) { q = strchr (P, '\n'); len = q ? q - P : strlen (P); if (len > buf_len) { xfree (buf); buf_len = len; buf = xmalloc (buf_len); } } else break; } xfree (buf); if (SBYTES (XCAR (seq)) == total_len) return make_string (SDATA (XCAR (seq)), total_len); else { buf = xmalloc (total_len); q = buf + total_len; for (; CONSP (seq); seq = XCDR (seq)) { len = SBYTES (XCAR (seq)); q -= len; memcpy (q, SDATA (XCAR (seq)), len); } result = make_string (buf, total_len); xfree (buf); return result; } } static Lisp_Object parse_resource_line (p) char **p; { Lisp_Object quarks, value; /* ResourceLine = Comment | IncludeFile | ResourceSpec | */ if (parse_comment (p) || parse_include_file (p)) return Qnil; /* ResourceSpec = WhiteSpace ResourceName WhiteSpace ":" WhiteSpace Value */ skip_white_space (p); quarks = parse_resource_name (p); if (NILP (quarks)) goto cleanup; skip_white_space (p); if (*P != ':') goto cleanup; P++; skip_white_space (p); value = parse_value (p); return Fcons (quarks, value); cleanup: /* Skip the remaining data as a dummy value. */ parse_value (p); return Qnil; } #undef P /* Equivalents of X Resource Manager functions. An X Resource Database acts as a collection of resource names and associated values. It is implemented as a trie on quarks. Namely, each edge is labeled by either a string, LOOSE_BINDING, or SINGLE_COMPONENT. Each node has a node id, which is a unique nonnegative integer, and the root node id is 0. A database is implemented as a hash table that maps a pair (SRC-NODE-ID . EDGE-LABEL) to DEST-NODE-ID. It also holds a maximum node id used in the table as a value for HASHKEY_MAX_NID. A value associated to a node is recorded as a value for the node id. */ #define HASHKEY_MAX_NID (make_number (0)) static XrmDatabase xrm_create_database () { XrmDatabase database; database = make_hash_table (Qequal, make_number (DEFAULT_HASH_SIZE), make_float (DEFAULT_REHASH_SIZE), make_float (DEFAULT_REHASH_THRESHOLD), Qnil, Qnil, Qnil); Fputhash (HASHKEY_MAX_NID, make_number (0), database); return database; } static void xrm_q_put_resource (database, quarks, value) XrmDatabase database; Lisp_Object quarks, value; { struct Lisp_Hash_Table *h = XHASH_TABLE (database); unsigned hash_code; int max_nid, i; Lisp_Object node_id, key; max_nid = XINT (Fgethash (HASHKEY_MAX_NID, database, Qnil)); XSETINT (node_id, 0); for (; CONSP (quarks); quarks = XCDR (quarks)) { key = Fcons (node_id, XCAR (quarks)); i = hash_lookup (h, key, &hash_code); if (i < 0) { max_nid++; XSETINT (node_id, max_nid); hash_put (h, key, node_id, hash_code); } else node_id = HASH_VALUE (h, i); } Fputhash (node_id, value, database); Fputhash (HASHKEY_MAX_NID, make_number (max_nid), database); } /* Merge multiple resource entries specified by DATA into a resource database DATABASE. DATA points to the head of a null-terminated string consisting of multiple resource lines. It's like a combination of XrmGetStringDatabase and XrmMergeDatabases. */ void xrm_merge_string_database (database, data) XrmDatabase database; char *data; { Lisp_Object quarks_value; while (*data) { quarks_value = parse_resource_line (&data); if (!NILP (quarks_value)) xrm_q_put_resource (database, XCAR (quarks_value), XCDR (quarks_value)); } } static Lisp_Object xrm_q_get_resource_1 (database, node_id, quark_name, quark_class) XrmDatabase database; Lisp_Object node_id, quark_name, quark_class; { struct Lisp_Hash_Table *h = XHASH_TABLE (database); Lisp_Object key, labels[3], value; int i, k; if (!CONSP (quark_name)) return Fgethash (node_id, database, Qnil); /* First, try tight bindings */ labels[0] = XCAR (quark_name); labels[1] = XCAR (quark_class); labels[2] = SINGLE_COMPONENT; key = Fcons (node_id, Qnil); for (k = 0; k < sizeof (labels) / sizeof (*labels); k++) { XSETCDR (key, labels[k]); i = hash_lookup (h, key, NULL); if (i >= 0) { value = xrm_q_get_resource_1 (database, HASH_VALUE (h, i), XCDR (quark_name), XCDR (quark_class)); if (!NILP (value)) return value; } } /* Then, try loose bindings */ XSETCDR (key, LOOSE_BINDING); i = hash_lookup (h, key, NULL); if (i >= 0) { value = xrm_q_get_resource_1 (database, HASH_VALUE (h, i), quark_name, quark_class); if (!NILP (value)) return value; else return xrm_q_get_resource_1 (database, node_id, XCDR (quark_name), XCDR (quark_class)); } else return Qnil; } static Lisp_Object xrm_q_get_resource (database, quark_name, quark_class) XrmDatabase database; Lisp_Object quark_name, quark_class; { return xrm_q_get_resource_1 (database, make_number (0), quark_name, quark_class); } /* Retrieve a resource value for the specified NAME and CLASS from the resource database DATABASE. It corresponds to XrmGetResource. */ Lisp_Object xrm_get_resource (database, name, class) XrmDatabase database; char *name, *class; { Lisp_Object quark_name, quark_class, tmp; int nn, nc; quark_name = parse_resource_name (&name); if (*name != '\0') return Qnil; for (tmp = quark_name, nn = 0; CONSP (tmp); tmp = XCDR (tmp), nn++) if (!STRINGP (XCAR (tmp))) return Qnil; quark_class = parse_resource_name (&class); if (*class != '\0') return Qnil; for (tmp = quark_class, nc = 0; CONSP (tmp); tmp = XCDR (tmp), nc++) if (!STRINGP (XCAR (tmp))) return Qnil; if (nn != nc) return Qnil; else return xrm_q_get_resource (database, quark_name, quark_class); } #if TARGET_API_MAC_CARBON static Lisp_Object xrm_cfproperty_list_to_value (plist) CFPropertyListRef plist; { CFTypeID type_id = CFGetTypeID (plist); if (type_id == CFStringGetTypeID ()) return cfstring_to_lisp (plist); else if (type_id == CFNumberGetTypeID ()) { CFStringRef string; Lisp_Object result = Qnil; string = CFStringCreateWithFormat (NULL, NULL, CFSTR ("%@"), plist); if (string) { result = cfstring_to_lisp (string); CFRelease (string); } return result; } else if (type_id == CFBooleanGetTypeID ()) return build_string (CFBooleanGetValue (plist) ? "true" : "false"); else if (type_id == CFDataGetTypeID ()) return cfdata_to_lisp (plist); else return Qnil; } #endif /* Create a new resource database from the preferences for the application APPLICATION. APPLICATION is either a string that specifies an application ID, or NULL that represents the current application. */ XrmDatabase xrm_get_preference_database (application) char *application; { #if TARGET_API_MAC_CARBON CFStringRef app_id, *keys, user_doms[2], host_doms[2]; CFMutableSetRef key_set = NULL; CFArrayRef key_array; CFIndex index, count; char *res_name; XrmDatabase database; Lisp_Object quarks = Qnil, value = Qnil; CFPropertyListRef plist; int iu, ih; struct gcpro gcpro1, gcpro2, gcpro3; user_doms[0] = kCFPreferencesCurrentUser; user_doms[1] = kCFPreferencesAnyUser; host_doms[0] = kCFPreferencesCurrentHost; host_doms[1] = kCFPreferencesAnyHost; database = xrm_create_database (); GCPRO3 (database, quarks, value); BLOCK_INPUT; app_id = kCFPreferencesCurrentApplication; if (application) { app_id = cfstring_create_with_utf8_cstring (application); if (app_id == NULL) goto out; } key_set = CFSetCreateMutable (NULL, 0, &kCFCopyStringSetCallBacks); if (key_set == NULL) goto out; for (iu = 0; iu < sizeof (user_doms) / sizeof (*user_doms) ; iu++) for (ih = 0; ih < sizeof (host_doms) / sizeof (*host_doms); ih++) { key_array = CFPreferencesCopyKeyList (app_id, user_doms[iu], host_doms[ih]); if (key_array) { count = CFArrayGetCount (key_array); for (index = 0; index < count; index++) CFSetAddValue (key_set, CFArrayGetValueAtIndex (key_array, index)); CFRelease (key_array); } } count = CFSetGetCount (key_set); keys = xmalloc (sizeof (CFStringRef) * count); if (keys == NULL) goto out; CFSetGetValues (key_set, (const void **)keys); for (index = 0; index < count; index++) { res_name = SDATA (cfstring_to_lisp (keys[index])); quarks = parse_resource_name (&res_name); if (!(NILP (quarks) || *res_name)) { plist = CFPreferencesCopyAppValue (keys[index], app_id); value = xrm_cfproperty_list_to_value (plist); CFRelease (plist); if (!NILP (value)) xrm_q_put_resource (database, quarks, value); } } xfree (keys); out: if (key_set) CFRelease (key_set); CFRelease (app_id); UNBLOCK_INPUT; UNGCPRO; return database; #else return xrm_create_database (); #endif } #ifndef MAC_OSX /* The following functions with "sys_" prefix are stubs to Unix functions that have already been implemented by CW or MPW. The calls to them in Emacs source course are #define'd to call the sys_ versions by the header files s-mac.h. In these stubs pathnames are converted between their Unix and Mac forms. */ /* Unix epoch is Jan 1, 1970 while Mac epoch is Jan 1, 1904: 66 years + 17 leap days. These are for adjusting time values returned by MacOS Toolbox functions. */ #define MAC_UNIX_EPOCH_DIFF ((365L * 66 + 17) * 24 * 60 * 60) #ifdef __MWERKS__ #if __MSL__ < 0x6000 /* CW Pro 5 epoch is Jan 1, 1900 (aaarghhhhh!); remember, 1900 is not a leap year! This is for adjusting time_t values returned by MSL functions. */ #define CW_OR_MPW_UNIX_EPOCH_DIFF ((365L * 70 + 17) * 24 * 60 * 60) #else /* __MSL__ >= 0x6000 */ /* CW changes Pro 6 to follow Unix! */ #define CW_OR_MPW_UNIX_EPOCH_DIFF ((365L * 66 + 17) * 24 * 60 * 60) #endif /* __MSL__ >= 0x6000 */ #elif __MRC__ /* MPW library functions follow Unix (confused?). */ #define CW_OR_MPW_UNIX_EPOCH_DIFF ((365L * 66 + 17) * 24 * 60 * 60) #else /* not __MRC__ */ You lose!!! #endif /* not __MRC__ */ /* Define our own stat function for both MrC and CW. The reason for doing this: "stat" is both the name of a struct and function name: can't use the same trick like that for sys_open, sys_close, etc. to redirect Emacs's calls to our own version that converts Unix style filenames to Mac style filename because all sorts of compilation errors will be generated if stat is #define'd to be sys_stat. */ int stat_noalias (const char *path, struct stat *buf) { char mac_pathname[MAXPATHLEN+1]; CInfoPBRec cipb; if (posix_to_mac_pathname (path, mac_pathname, MAXPATHLEN+1) == 0) return -1; c2pstr (mac_pathname); cipb.hFileInfo.ioNamePtr = mac_pathname; cipb.hFileInfo.ioVRefNum = 0; cipb.hFileInfo.ioDirID = 0; cipb.hFileInfo.ioFDirIndex = 0; /* set to 0 to get information about specific dir or file */ errno = PBGetCatInfo (&cipb, false); if (errno == -43) /* -43: fnfErr defined in Errors.h */ errno = ENOENT; if (errno != noErr) return -1; if (cipb.hFileInfo.ioFlAttrib & 0x10) /* bit 4 = 1 for directories */ { buf->st_mode = S_IFDIR | S_IREAD | S_IEXEC; if (!(cipb.hFileInfo.ioFlAttrib & 0x1)) buf->st_mode |= S_IWRITE; /* bit 1 = 1 for locked files/directories */ buf->st_ino = cipb.dirInfo.ioDrDirID; buf->st_dev = cipb.dirInfo.ioVRefNum; buf->st_size = cipb.dirInfo.ioDrNmFls; /* size of dir = number of files and dirs */ buf->st_atime = buf->st_mtime = cipb.dirInfo.ioDrMdDat - MAC_UNIX_EPOCH_DIFF; buf->st_ctime = cipb.dirInfo.ioDrCrDat - MAC_UNIX_EPOCH_DIFF; } else { buf->st_mode = S_IFREG | S_IREAD; if (!(cipb.hFileInfo.ioFlAttrib & 0x1)) buf->st_mode |= S_IWRITE; /* bit 1 = 1 for locked files/directories */ if (cipb.hFileInfo.ioFlFndrInfo.fdType == 'APPL') buf->st_mode |= S_IEXEC; buf->st_ino = cipb.hFileInfo.ioDirID; buf->st_dev = cipb.hFileInfo.ioVRefNum; buf->st_size = cipb.hFileInfo.ioFlLgLen; buf->st_atime = buf->st_mtime = cipb.hFileInfo.ioFlMdDat - MAC_UNIX_EPOCH_DIFF; buf->st_ctime = cipb.hFileInfo.ioFlCrDat - MAC_UNIX_EPOCH_DIFF; } if (cipb.hFileInfo.ioFlFndrInfo.fdFlags & 0x8000) { /* identify alias files as symlinks */ buf->st_mode &= ~S_IFREG; buf->st_mode |= S_IFLNK; } buf->st_nlink = 1; buf->st_uid = getuid (); buf->st_gid = getgid (); buf->st_rdev = 0; return 0; } int lstat (const char *path, struct stat *buf) { int result; char true_pathname[MAXPATHLEN+1]; /* Try looking for the file without resolving aliases first. */ if ((result = stat_noalias (path, buf)) >= 0) return result; if (find_true_pathname (path, true_pathname, MAXPATHLEN+1) == -1) return -1; return stat_noalias (true_pathname, buf); } int stat (const char *path, struct stat *sb) { int result; char true_pathname[MAXPATHLEN+1], fully_resolved_name[MAXPATHLEN+1]; int len; if ((result = stat_noalias (path, sb)) >= 0 && ! (sb->st_mode & S_IFLNK)) return result; if (find_true_pathname (path, true_pathname, MAXPATHLEN+1) == -1) return -1; len = readlink (true_pathname, fully_resolved_name, MAXPATHLEN); if (len > -1) { fully_resolved_name[len] = '\0'; /* in fact our readlink terminates strings */ return lstat (fully_resolved_name, sb); } else return lstat (true_pathname, sb); } #if __MRC__ /* CW defines fstat in stat.mac.c while MPW does not provide this function. Without the information of how to get from a file descriptor in MPW StdCLib to a Mac OS file spec, it should be hard to implement this function. Fortunately, there is only one place where this function is called in our configuration: in fileio.c, where only the st_dev and st_ino fields are used to determine whether two fildes point to different i-nodes to prevent copying a file onto itself equal. What we have here probably needs improvement. */ int fstat (int fildes, struct stat *buf) { buf->st_dev = 0; buf->st_ino = fildes; buf->st_mode = S_IFREG; /* added by T.I. for the copy-file */ return 0; /* success */ } #endif /* __MRC__ */ int mkdir (const char *dirname, int mode) { #pragma unused(mode) HFileParam hfpb; char true_pathname[MAXPATHLEN+1], mac_pathname[MAXPATHLEN+1]; if (find_true_pathname (dirname, true_pathname, MAXPATHLEN+1) == -1) return -1; if (posix_to_mac_pathname (true_pathname, mac_pathname, MAXPATHLEN+1) == 0) return -1; c2pstr (mac_pathname); hfpb.ioNamePtr = mac_pathname; hfpb.ioVRefNum = 0; /* ignored unless name is invalid */ hfpb.ioDirID = 0; /* parent is the root */ errno = PBDirCreate ((HParmBlkPtr) &hfpb, false); /* just return the Mac OSErr code for now */ return errno == noErr ? 0 : -1; } #undef rmdir sys_rmdir (const char *dirname) { HFileParam hfpb; char mac_pathname[MAXPATHLEN+1]; if (posix_to_mac_pathname (dirname, mac_pathname, MAXPATHLEN+1) == 0) return -1; c2pstr (mac_pathname); hfpb.ioNamePtr = mac_pathname; hfpb.ioVRefNum = 0; /* ignored unless name is invalid */ hfpb.ioDirID = 0; /* parent is the root */ errno = PBHDelete ((HParmBlkPtr) &hfpb, false); return errno == noErr ? 0 : -1; } #ifdef __MRC__ /* No implementation yet. */ int execvp (const char *path, ...) { return -1; } #endif /* __MRC__ */ int utime (const char *path, const struct utimbuf *times) { char true_pathname[MAXPATHLEN+1], fully_resolved_name[MAXPATHLEN+1]; int len; char mac_pathname[MAXPATHLEN+1]; CInfoPBRec cipb; if (find_true_pathname (path, true_pathname, MAXPATHLEN+1) == -1) return -1; len = readlink (true_pathname, fully_resolved_name, MAXPATHLEN); if (len > -1) fully_resolved_name[len] = '\0'; else strcpy (fully_resolved_name, true_pathname); if (!posix_to_mac_pathname (fully_resolved_name, mac_pathname, MAXPATHLEN+1)) return -1; c2pstr (mac_pathname); cipb.hFileInfo.ioNamePtr = mac_pathname; cipb.hFileInfo.ioVRefNum = 0; cipb.hFileInfo.ioDirID = 0; cipb.hFileInfo.ioFDirIndex = 0; /* set to 0 to get information about specific dir or file */ errno = PBGetCatInfo (&cipb, false); if (errno != noErr) return -1; if (cipb.hFileInfo.ioFlAttrib & 0x10) /* bit 4 = 1 for directories */ { if (times) cipb.dirInfo.ioDrMdDat = times->modtime + MAC_UNIX_EPOCH_DIFF; else GetDateTime (&cipb.dirInfo.ioDrMdDat); } else { if (times) cipb.hFileInfo.ioFlMdDat = times->modtime + MAC_UNIX_EPOCH_DIFF; else GetDateTime (&cipb.hFileInfo.ioFlMdDat); } errno = PBSetCatInfo (&cipb, false); return errno == noErr ? 0 : -1; } #ifndef F_OK #define F_OK 0 #endif #ifndef X_OK #define X_OK 1 #endif #ifndef W_OK #define W_OK 2 #endif /* Like stat, but test for access mode in hfpb.ioFlAttrib */ int access (const char *path, int mode) { char true_pathname[MAXPATHLEN+1], fully_resolved_name[MAXPATHLEN+1]; int len; char mac_pathname[MAXPATHLEN+1]; CInfoPBRec cipb; if (find_true_pathname (path, true_pathname, MAXPATHLEN+1) == -1) return -1; len = readlink (true_pathname, fully_resolved_name, MAXPATHLEN); if (len > -1) fully_resolved_name[len] = '\0'; else strcpy (fully_resolved_name, true_pathname); if (!posix_to_mac_pathname (fully_resolved_name, mac_pathname, MAXPATHLEN+1)) return -1; c2pstr (mac_pathname); cipb.hFileInfo.ioNamePtr = mac_pathname; cipb.hFileInfo.ioVRefNum = 0; cipb.hFileInfo.ioDirID = 0; cipb.hFileInfo.ioFDirIndex = 0; /* set to 0 to get information about specific dir or file */ errno = PBGetCatInfo (&cipb, false); if (errno != noErr) return -1; if (mode == F_OK) /* got this far, file exists */ return 0; if (mode & X_OK) if (cipb.hFileInfo.ioFlAttrib & 0x10) /* path refers to a directory */ return 0; else { if (cipb.hFileInfo.ioFlFndrInfo.fdType == 'APPL') return 0; else return -1; } if (mode & W_OK) return (cipb.hFileInfo.ioFlAttrib & 0x1) ? -1 : 0; /* don't allow if lock bit is on */ return -1; } #define DEV_NULL_FD 0x10000 #undef open int sys_open (const char *path, int oflag) { char true_pathname[MAXPATHLEN+1], fully_resolved_name[MAXPATHLEN+1]; int len; char mac_pathname[MAXPATHLEN+1]; if (strcmp (path, "/dev/null") == 0) return DEV_NULL_FD; /* some bogus fd to be ignored in write */ if (find_true_pathname (path, true_pathname, MAXPATHLEN+1) == -1) return -1; len = readlink (true_pathname, fully_resolved_name, MAXPATHLEN); if (len > -1) fully_resolved_name[len] = '\0'; else strcpy (fully_resolved_name, true_pathname); if (!posix_to_mac_pathname (fully_resolved_name, mac_pathname, MAXPATHLEN+1)) return -1; else { #ifdef __MRC__ int res = open (mac_pathname, oflag); /* if (oflag == O_WRONLY || oflag == O_RDWR) */ if (oflag & O_CREAT) fsetfileinfo (mac_pathname, 'EMAx', 'TEXT'); return res; #else /* not __MRC__ */ return open (mac_pathname, oflag); #endif /* not __MRC__ */ } } #undef creat int sys_creat (const char *path, mode_t mode) { char true_pathname[MAXPATHLEN+1]; int len; char mac_pathname[MAXPATHLEN+1]; if (find_true_pathname (path, true_pathname, MAXPATHLEN+1) == -1) return -1; if (!posix_to_mac_pathname (true_pathname, mac_pathname, MAXPATHLEN+1)) return -1; else { #ifdef __MRC__ int result = creat (mac_pathname); fsetfileinfo (mac_pathname, 'EMAx', 'TEXT'); return result; #else /* not __MRC__ */ return creat (mac_pathname, mode); #endif /* not __MRC__ */ } } #undef unlink int sys_unlink (const char *path) { char true_pathname[MAXPATHLEN+1], fully_resolved_name[MAXPATHLEN+1]; int len; char mac_pathname[MAXPATHLEN+1]; if (find_true_pathname (path, true_pathname, MAXPATHLEN+1) == -1) return -1; len = readlink (true_pathname, fully_resolved_name, MAXPATHLEN); if (len > -1) fully_resolved_name[len] = '\0'; else strcpy (fully_resolved_name, true_pathname); if (!posix_to_mac_pathname (fully_resolved_name, mac_pathname, MAXPATHLEN+1)) return -1; else return unlink (mac_pathname); } #undef read int sys_read (int fildes, char *buf, int count) { if (fildes == 0) /* this should not be used for console input */ return -1; else #if __MSL__ >= 0x6000 return _read (fildes, buf, count); #else return read (fildes, buf, count); #endif } #undef write int sys_write (int fildes, const char *buf, int count) { if (fildes == DEV_NULL_FD) return count; else #if __MSL__ >= 0x6000 return _write (fildes, buf, count); #else return write (fildes, buf, count); #endif } #undef rename int sys_rename (const char * old_name, const char * new_name) { char true_old_pathname[MAXPATHLEN+1], true_new_pathname[MAXPATHLEN+1]; char fully_resolved_old_name[MAXPATHLEN+1]; int len; char mac_old_name[MAXPATHLEN+1], mac_new_name[MAXPATHLEN+1]; if (find_true_pathname (old_name, true_old_pathname, MAXPATHLEN+1) == -1) return -1; len = readlink (true_old_pathname, fully_resolved_old_name, MAXPATHLEN); if (len > -1) fully_resolved_old_name[len] = '\0'; else strcpy (fully_resolved_old_name, true_old_pathname); if (find_true_pathname (new_name, true_new_pathname, MAXPATHLEN+1) == -1) return -1; if (strcmp (fully_resolved_old_name, true_new_pathname) == 0) return 0; if (!posix_to_mac_pathname (fully_resolved_old_name, mac_old_name, MAXPATHLEN+1)) return -1; if (!posix_to_mac_pathname(true_new_pathname, mac_new_name, MAXPATHLEN+1)) return -1; /* If a file with new_name already exists, rename deletes the old file in Unix. CW version fails in these situation. So we add a call to unlink here. */ (void) unlink (mac_new_name); return rename (mac_old_name, mac_new_name); } #undef fopen extern FILE *fopen (const char *name, const char *mode); FILE * sys_fopen (const char *name, const char *mode) { char true_pathname[MAXPATHLEN+1], fully_resolved_name[MAXPATHLEN+1]; int len; char mac_pathname[MAXPATHLEN+1]; if (find_true_pathname (name, true_pathname, MAXPATHLEN+1) == -1) return 0; len = readlink (true_pathname, fully_resolved_name, MAXPATHLEN); if (len > -1) fully_resolved_name[len] = '\0'; else strcpy (fully_resolved_name, true_pathname); if (!posix_to_mac_pathname (fully_resolved_name, mac_pathname, MAXPATHLEN+1)) return 0; else { #ifdef __MRC__ if (mode[0] == 'w' || mode[0] == 'a') fsetfileinfo (mac_pathname, 'EMAx', 'TEXT'); #endif /* not __MRC__ */ return fopen (mac_pathname, mode); } } long target_ticks = 0; #ifdef __MRC__ __sigfun alarm_signal_func = (__sigfun) 0; #elif __MWERKS__ __signal_func_ptr alarm_signal_func = (__signal_func_ptr) 0; #else /* not __MRC__ and not __MWERKS__ */ You lose!!! #endif /* not __MRC__ and not __MWERKS__ */ /* These functions simulate SIG_ALRM. The stub for function signal stores the signal handler function in alarm_signal_func if a SIG_ALRM is encountered. check_alarm is called in XTread_socket, which emacs calls periodically. A pending alarm is represented by a non-zero target_ticks value. check_alarm calls the handler function pointed to by alarm_signal_func if one has been set up and an alarm is pending. */ void check_alarm () { if (target_ticks && TickCount () > target_ticks) { target_ticks = 0; if (alarm_signal_func) (*alarm_signal_func)(SIGALRM); } } extern Boolean mac_wait_next_event (EventRecord *, UInt32, Boolean); int select (n, rfds, wfds, efds, timeout) int n; SELECT_TYPE *rfds; SELECT_TYPE *wfds; SELECT_TYPE *efds; struct timeval *timeout; { #if TARGET_API_MAC_CARBON OSErr err; EventTimeout timeout_sec = (timeout ? (EMACS_SECS (*timeout) * kEventDurationSecond + EMACS_USECS (*timeout) * kEventDurationMicrosecond) : kEventDurationForever); if (FD_ISSET (0, rfds)) { BLOCK_INPUT; err = ReceiveNextEvent (0, NULL, timeout_sec, kEventLeaveInQueue, NULL); UNBLOCK_INPUT; if (err == noErr) return 1; else FD_ZERO (rfds); } return 0; #else /* not TARGET_API_MAC_CARBON */ EventRecord e; UInt32 sleep_time = EMACS_SECS (*timeout) * 60 + ((EMACS_USECS (*timeout) * 60) / 1000000); /* Can only handle wait for keyboard input. */ if (n > 1 || wfds || efds) return -1; /* Also return true if an event other than a keyDown has occurred. This causes kbd_buffer_get_event in keyboard.c to call read_avail_input which in turn calls XTread_socket to poll for these events. Otherwise these never get processed except but a very slow poll timer. */ if (FD_ISSET (0, rfds) && mac_wait_next_event (&e, sleep_time, false)) return 1; return 0; #endif /* not TARGET_API_MAC_CARBON */ } /* Called in sys_select to wait for an alarm signal to arrive. */ int pause () { EventRecord e; unsigned long tick; if (!target_ticks) /* no alarm pending */ return -1; if ((tick = TickCount ()) < target_ticks) WaitNextEvent (0, &e, target_ticks - tick, NULL); /* Accept no event; just wait. by T.I. */ target_ticks = 0; if (alarm_signal_func) (*alarm_signal_func)(SIGALRM); return 0; } int alarm (int seconds) { long remaining = target_ticks ? (TickCount () - target_ticks) / 60 : 0; target_ticks = seconds ? TickCount () + 60 * seconds : 0; return (remaining < 0) ? 0 : (unsigned int) remaining; } #undef signal #ifdef __MRC__ extern __sigfun signal (int signal, __sigfun signal_func); __sigfun sys_signal (int signal_num, __sigfun signal_func) #elif __MWERKS__ extern __signal_func_ptr signal (int signal, __signal_func_ptr signal_func); __signal_func_ptr sys_signal (int signal_num, __signal_func_ptr signal_func) #else /* not __MRC__ and not __MWERKS__ */ You lose!!! #endif /* not __MRC__ and not __MWERKS__ */ { if (signal_num != SIGALRM) return signal (signal_num, signal_func); else { #ifdef __MRC__ __sigfun old_signal_func; #elif __MWERKS__ __signal_func_ptr old_signal_func; #else You lose!!! #endif old_signal_func = alarm_signal_func; alarm_signal_func = signal_func; return old_signal_func; } } /* gettimeofday should return the amount of time (in a timeval structure) since midnight today. The toolbox function Microseconds returns the number of microseconds (in a UnsignedWide value) since the machine was booted. Also making this complicated is WideAdd, WideSubtract, etc. take wide values. */ int gettimeofday (tp) struct timeval *tp; { static inited = 0; static wide wall_clock_at_epoch, clicks_at_epoch; UnsignedWide uw_microseconds; wide w_microseconds; time_t sys_time (time_t *); /* If this function is called for the first time, record the number of seconds since midnight and the number of microseconds since boot at the time of this first call. */ if (!inited) { time_t systime; inited = 1; systime = sys_time (NULL); /* Store microseconds since midnight in wall_clock_at_epoch. */ WideMultiply (systime, 1000000L, &wall_clock_at_epoch); Microseconds (&uw_microseconds); /* Store microseconds since boot in clicks_at_epoch. */ clicks_at_epoch.hi = uw_microseconds.hi; clicks_at_epoch.lo = uw_microseconds.lo; } /* Get time since boot */ Microseconds (&uw_microseconds); /* Convert to time since midnight*/ w_microseconds.hi = uw_microseconds.hi; w_microseconds.lo = uw_microseconds.lo; WideSubtract (&w_microseconds, &clicks_at_epoch); WideAdd (&w_microseconds, &wall_clock_at_epoch); tp->tv_sec = WideDivide (&w_microseconds, 1000000L, &tp->tv_usec); return 0; } #ifdef __MRC__ unsigned int sleep (unsigned int seconds) { unsigned long time_up; EventRecord e; time_up = TickCount () + seconds * 60; while (TickCount () < time_up) { /* Accept no event; just wait. by T.I. */ WaitNextEvent (0, &e, 30, NULL); } return (0); } #endif /* __MRC__ */ /* The time functions adjust time values according to the difference between the Unix and CW epoches. */ #undef gmtime extern struct tm *gmtime (const time_t *); struct tm * sys_gmtime (const time_t *timer) { time_t unix_time = *timer + CW_OR_MPW_UNIX_EPOCH_DIFF; return gmtime (&unix_time); } #undef localtime extern struct tm *localtime (const time_t *); struct tm * sys_localtime (const time_t *timer) { #if __MSL__ >= 0x6000 time_t unix_time = *timer; #else time_t unix_time = *timer + CW_OR_MPW_UNIX_EPOCH_DIFF; #endif return localtime (&unix_time); } #undef ctime extern char *ctime (const time_t *); char * sys_ctime (const time_t *timer) { #if __MSL__ >= 0x6000 time_t unix_time = *timer; #else time_t unix_time = *timer + CW_OR_MPW_UNIX_EPOCH_DIFF; #endif return ctime (&unix_time); } #undef time extern time_t time (time_t *); time_t sys_time (time_t *timer) { #if __MSL__ >= 0x6000 time_t mac_time = time (NULL); #else time_t mac_time = time (NULL) - CW_OR_MPW_UNIX_EPOCH_DIFF; #endif if (timer) *timer = mac_time; return mac_time; } /* MPW strftime broken for "%p" format */ #ifdef __MRC__ #undef strftime #include size_t sys_strftime (char * s, size_t maxsize, const char * format, const struct tm * timeptr) { if (strcmp (format, "%p") == 0) { if (maxsize < 3) return 0; if (timeptr->tm_hour < 12) { strcpy (s, "AM"); return 2; } else { strcpy (s, "PM"); return 2; } } else return strftime (s, maxsize, format, timeptr); } #endif /* __MRC__ */ /* no subprocesses, empty wait */ int wait (int pid) { return 0; } void croak (char *badfunc) { printf ("%s not yet implemented\r\n", badfunc); exit (1); } char * index (const char * str, int chr) { return strchr (str, chr); } char * mktemp (char *template) { int len, k; static seqnum = 0; len = strlen (template); k = len - 1; while (k >= 0 && template[k] == 'X') k--; k++; /* make k index of first 'X' */ if (k < len) { /* Zero filled, number of digits equal to the number of X's. */ sprintf (&template[k], "%0*d", len-k, seqnum++); return template; } else return 0; } /* Emulate getpwuid, getpwnam and others. */ #define PASSWD_FIELD_SIZE 256 static char my_passwd_name[PASSWD_FIELD_SIZE]; static char my_passwd_dir[MAXPATHLEN+1]; static struct passwd my_passwd = { my_passwd_name, my_passwd_dir, }; static struct group my_group = { /* There are no groups on the mac, so we just return "root" as the group name. */ "root", }; /* Initialized by main () in macterm.c to pathname of emacs directory. */ char emacs_passwd_dir[MAXPATHLEN+1]; char * getwd (char *); void init_emacs_passwd_dir () { int found = false; if (getwd (emacs_passwd_dir) && getwd (my_passwd_dir)) { /* Need pathname of first ancestor that begins with "emacs" since Mac emacs application is somewhere in the emacs-* tree. */ int len = strlen (emacs_passwd_dir); int j = len - 1; /* j points to the "/" following the directory name being compared. */ int i = j - 1; while (i >= 0 && !found) { while (i >= 0 && emacs_passwd_dir[i] != '/') i--; if (emacs_passwd_dir[i] == '/' && i+5 < len) found = (strncmp (&(emacs_passwd_dir[i+1]), "emacs", 5) == 0); if (found) emacs_passwd_dir[j+1] = '\0'; else { j = i; i = j - 1; } } } if (!found) { /* Setting to "/" probably won't work but set it to something anyway. */ strcpy (emacs_passwd_dir, "/"); strcpy (my_passwd_dir, "/"); } } static struct passwd emacs_passwd = { "emacs", emacs_passwd_dir, }; static int my_passwd_inited = 0; static void init_my_passwd () { char **owner_name; /* Note: my_passwd_dir initialized in int_emacs_passwd_dir to directory where Emacs was started. */ owner_name = (char **) GetResource ('STR ',-16096); if (owner_name) { HLock (owner_name); BlockMove ((unsigned char *) *owner_name, (unsigned char *) my_passwd_name, *owner_name[0]+1); HUnlock (owner_name); p2cstr ((unsigned char *) my_passwd_name); } else my_passwd_name[0] = 0; } struct passwd * getpwuid (uid_t uid) { if (!my_passwd_inited) { init_my_passwd (); my_passwd_inited = 1; } return &my_passwd; } struct group * getgrgid (gid_t gid) { return &my_group; } struct passwd * getpwnam (const char *name) { if (strcmp (name, "emacs") == 0) return &emacs_passwd; if (!my_passwd_inited) { init_my_passwd (); my_passwd_inited = 1; } return &my_passwd; } /* The functions fork, kill, sigsetmask, sigblock, request_sigio, setpgrp, setpriority, and unrequest_sigio are defined to be empty as in msdos.c. */ int fork () { return -1; } int kill (int x, int y) { return -1; } void sys_subshell () { error ("Can't spawn subshell"); } int sigsetmask (int x) { return 0; } int sigblock (int mask) { return 0; } void request_sigio (void) { } void unrequest_sigio (void) { } int setpgrp () { return 0; } /* No pipes yet. */ int pipe (int _fildes[2]) { errno = EACCES; return -1; } /* Hard and symbolic links. */ int symlink (const char *name1, const char *name2) { errno = ENOENT; return -1; } int link (const char *name1, const char *name2) { errno = ENOENT; return -1; } #endif /* ! MAC_OSX */ /* Determine the path name of the file specified by VREFNUM, DIRID, and NAME and place that in the buffer PATH of length MAXPATHLEN. */ int path_from_vol_dir_name (char *path, int man_path_len, short vol_ref_num, long dir_id, ConstStr255Param name) { Str255 dir_name; CInfoPBRec cipb; OSErr err; if (strlen (name) > man_path_len) return 0; memcpy (dir_name, name, name[0]+1); memcpy (path, name, name[0]+1); p2cstr (path); cipb.dirInfo.ioDrParID = dir_id; cipb.dirInfo.ioNamePtr = dir_name; do { cipb.dirInfo.ioVRefNum = vol_ref_num; cipb.dirInfo.ioFDirIndex = -1; cipb.dirInfo.ioDrDirID = cipb.dirInfo.ioDrParID; /* go up to parent each time */ err = PBGetCatInfo (&cipb, false); if (err != noErr) return 0; p2cstr (dir_name); if (strlen (dir_name) + strlen (path) + 1 >= man_path_len) return 0; strcat (dir_name, ":"); strcat (dir_name, path); /* attach to front since we're going up directory tree */ strcpy (path, dir_name); } while (cipb.dirInfo.ioDrDirID != fsRtDirID); /* stop when we see the volume's root directory */ return 1; /* success */ } OSErr posix_pathname_to_fsspec (ufn, fs) const char *ufn; FSSpec *fs; { Str255 mac_pathname; if (posix_to_mac_pathname (ufn, mac_pathname, sizeof (mac_pathname)) == 0) return fnfErr; else { c2pstr (mac_pathname); return FSMakeFSSpec (0, 0, mac_pathname, fs); } } OSErr fsspec_to_posix_pathname (fs, ufn, ufnbuflen) const FSSpec *fs; char *ufn; int ufnbuflen; { char mac_pathname[MAXPATHLEN]; if (path_from_vol_dir_name (mac_pathname, sizeof (mac_pathname) - 1, fs->vRefNum, fs->parID, fs->name) && mac_to_posix_pathname (mac_pathname, ufn, ufnbuflen)) return noErr; else return fnfErr; } #ifndef MAC_OSX int readlink (const char *path, char *buf, int bufsiz) { char mac_sym_link_name[MAXPATHLEN+1]; OSErr err; FSSpec fsspec; Boolean target_is_folder, was_aliased; Str255 directory_name, mac_pathname; CInfoPBRec cipb; if (posix_to_mac_pathname (path, mac_sym_link_name, MAXPATHLEN+1) == 0) return -1; c2pstr (mac_sym_link_name); err = FSMakeFSSpec (0, 0, mac_sym_link_name, &fsspec); if (err != noErr) { errno = ENOENT; return -1; } err = ResolveAliasFile (&fsspec, true, &target_is_folder, &was_aliased); if (err != noErr || !was_aliased) { errno = ENOENT; return -1; } if (path_from_vol_dir_name (mac_pathname, 255, fsspec.vRefNum, fsspec.parID, fsspec.name) == 0) { errno = ENOENT; return -1; } if (mac_to_posix_pathname (mac_pathname, buf, bufsiz) == 0) { errno = ENOENT; return -1; } return strlen (buf); } /* Convert a path to one with aliases fully expanded. */ static int find_true_pathname (const char *path, char *buf, int bufsiz) { char *q, temp[MAXPATHLEN+1]; const char *p; int len; if (bufsiz <= 0 || path == 0 || path[0] == '\0') return -1; buf[0] = '\0'; p = path; if (*p == '/') q = strchr (p + 1, '/'); else q = strchr (p, '/'); len = 0; /* loop may not be entered, e.g., for "/" */ while (q) { strcpy (temp, buf); strncat (temp, p, q - p); len = readlink (temp, buf, bufsiz); if (len <= -1) { if (strlen (temp) + 1 > bufsiz) return -1; strcpy (buf, temp); } strcat (buf, "/"); len++; p = q + 1; q = strchr(p, '/'); } if (len + strlen (p) + 1 >= bufsiz) return -1; strcat (buf, p); return len + strlen (p); } mode_t umask (mode_t numask) { static mode_t mask = 022; mode_t oldmask = mask; mask = numask; return oldmask; } int chmod (const char *path, mode_t mode) { /* say it always succeed for now */ return 0; } int dup (int oldd) { #ifdef __MRC__ return fcntl (oldd, F_DUPFD, 0); #elif __MWERKS__ /* current implementation of fcntl in fcntl.mac.c simply returns old descriptor */ return fcntl (oldd, F_DUPFD); #else You lose!!! #endif } /* This is from the original sysdep.c. Emulate BSD dup2. First close newd if it already exists. Then, attempt to dup oldd. If not successful, call dup2 recursively until we are, then close the unsuccessful ones. */ int dup2 (int oldd, int newd) { int fd, ret; close (newd); fd = dup (oldd); if (fd == -1) return -1; if (fd == newd) return newd; ret = dup2 (oldd, newd); close (fd); return ret; } /* let it fail for now */ char * sbrk (int incr) { return (char *) -1; } int fsync (int fd) { return 0; } int ioctl (int d, int request, void *argp) { return -1; } #ifdef __MRC__ int isatty (int fildes) { if (fildes >=0 && fildes <= 2) return 1; else return 0; } int getgid () { return 100; } int getegid () { return 100; } int getuid () { return 200; } int geteuid () { return 200; } #endif /* __MRC__ */ #ifdef __MWERKS__ #if __MSL__ < 0x6000 #undef getpid int getpid () { return 9999; } #endif #endif /* __MWERKS__ */ #endif /* ! MAC_OSX */ /* Return the path to the directory in which Emacs can create temporary files. The MacOS "temporary items" directory cannot be used because it removes the file written by a process when it exits. In that sense it's more like "/dev/null" than "/tmp" (but again not exactly). And of course Emacs needs to read back the files written by its subprocesses. So here we write the files to a directory "Emacs" in the Preferences Folder. This directory is created if it does not exist. */ char * get_temp_dir_name () { static char *temp_dir_name = NULL; short vol_ref_num; long dir_id; OSErr err; Str255 dir_name, full_path; CInfoPBRec cpb; char unix_dir_name[MAXPATHLEN+1]; DIR *dir; /* Cache directory name with pointer temp_dir_name. Look for it only the first time. */ if (!temp_dir_name) { err = FindFolder (kOnSystemDisk, kPreferencesFolderType, kCreateFolder, &vol_ref_num, &dir_id); if (err != noErr) return NULL; if (!path_from_vol_dir_name (full_path, 255, vol_ref_num, dir_id, "\p")) return NULL; if (strlen (full_path) + 6 <= MAXPATHLEN) strcat (full_path, "Emacs:"); else return NULL; if (!mac_to_posix_pathname (full_path, unix_dir_name, MAXPATHLEN+1)) return NULL; dir = opendir (unix_dir_name); /* check whether temp directory exists */ if (dir) closedir (dir); else if (mkdir (unix_dir_name, 0700) != 0) /* create it if not */ return NULL; temp_dir_name = (char *) malloc (strlen (unix_dir_name) + 1); strcpy (temp_dir_name, unix_dir_name); } return temp_dir_name; } #ifndef MAC_OSX /* Allocate and construct an array of pointers to strings from a list of strings stored in a 'STR#' resource. The returned pointer array is stored in the style of argv and environ: if the 'STR#' resource contains numString strings, a pointer array with numString+1 elements is returned in which the last entry contains a null pointer. The pointer to the pointer array is passed by pointer in parameter t. The resource ID of the 'STR#' resource is passed in parameter StringListID. */ void get_string_list (char ***t, short string_list_id) { Handle h; Ptr p; int i, num_strings; h = GetResource ('STR#', string_list_id); if (h) { HLock (h); p = *h; num_strings = * (short *) p; p += sizeof(short); *t = (char **) malloc (sizeof (char *) * (num_strings + 1)); for (i = 0; i < num_strings; i++) { short length = *p++; (*t)[i] = (char *) malloc (length + 1); strncpy ((*t)[i], p, length); (*t)[i][length] = '\0'; p += length; } (*t)[num_strings] = 0; HUnlock (h); } else { /* Return no string in case GetResource fails. Bug fixed by Ikegami Tsutomu. Caused MPW build to crash without sym -on option (no sym -on implies -opt local). */ *t = (char **) malloc (sizeof (char *)); (*t)[0] = 0; } } static char * get_path_to_system_folder () { short vol_ref_num; long dir_id; OSErr err; Str255 dir_name, full_path; CInfoPBRec cpb; static char system_folder_unix_name[MAXPATHLEN+1]; DIR *dir; err = FindFolder (kOnSystemDisk, kSystemFolderType, kDontCreateFolder, &vol_ref_num, &dir_id); if (err != noErr) return NULL; if (!path_from_vol_dir_name (full_path, 255, vol_ref_num, dir_id, "\p")) return NULL; if (!mac_to_posix_pathname (full_path, system_folder_unix_name, MAXPATHLEN+1)) return NULL; return system_folder_unix_name; } char **environ; #define ENVIRON_STRING_LIST_ID 128 /* Get environment variable definitions from STR# resource. */ void init_environ () { int i; get_string_list (&environ, ENVIRON_STRING_LIST_ID); i = 0; while (environ[i]) i++; /* Make HOME directory the one Emacs starts up in if not specified by resource. */ if (getenv ("HOME") == NULL) { environ = (char **) realloc (environ, sizeof (char *) * (i + 2)); if (environ) { environ[i] = (char *) malloc (strlen (my_passwd_dir) + 6); if (environ[i]) { strcpy (environ[i], "HOME="); strcat (environ[i], my_passwd_dir); } environ[i+1] = 0; i++; } } /* Make HOME directory the one Emacs starts up in if not specified by resource. */ if (getenv ("MAIL") == NULL) { environ = (char **) realloc (environ, sizeof (char *) * (i + 2)); if (environ) { char * path_to_system_folder = get_path_to_system_folder (); environ[i] = (char *) malloc (strlen (path_to_system_folder) + 22); if (environ[i]) { strcpy (environ[i], "MAIL="); strcat (environ[i], path_to_system_folder); strcat (environ[i], "Eudora Folder/In"); } environ[i+1] = 0; } } } /* Return the value of the environment variable NAME. */ char * getenv (const char *name) { int length = strlen(name); char **e; for (e = environ; *e != 0; e++) if (strncmp(*e, name, length) == 0 && (*e)[length] == '=') return &(*e)[length + 1]; if (strcmp (name, "TMPDIR") == 0) return get_temp_dir_name (); return 0; } #ifdef __MRC__ /* see Interfaces&Libraries:Interfaces:CIncludes:signal.h */ char *sys_siglist[] = { "Zero is not a signal!!!", "Abort", /* 1 */ "Interactive user interrupt", /* 2 */ "?", "Floating point exception", /* 4 */ "?", "?", "?", "Illegal instruction", /* 8 */ "?", "?", "?", "?", "?", "?", "?", "Segment violation", /* 16 */ "?", "?", "?", "?", "?", "?", "?", "?", "?", "?", "?", "?", "?", "?", "?", "Terminal" /* 32 */ }; #elif __MWERKS__ char *sys_siglist[] = { "Zero is not a signal!!!", "Abort", "Floating point exception", "Illegal instruction", "Interactive user interrupt", "Segment violation", "Terminal" }; #else /* not __MRC__ and not __MWERKS__ */ You lose!!! #endif /* not __MRC__ and not __MWERKS__ */ #include int uname (struct utsname *name) { char **system_name; system_name = GetString (-16413); /* IM - Resource Manager Reference */ if (system_name) { BlockMove (*system_name, name->nodename, (*system_name)[0]+1); p2cstr (name->nodename); return 0; } else return -1; } /* Event class of HLE sent to subprocess. */ const OSType kEmacsSubprocessSend = 'ESND'; /* Event class of HLE sent back from subprocess. */ const OSType kEmacsSubprocessReply = 'ERPY'; char * mystrchr (char *s, char c) { while (*s && *s != c) { if (*s == '\\') s++; s++; } if (*s) { *s = '\0'; return s; } else return NULL; } char * mystrtok (char *s) { while (*s) s++; return s + 1; } void mystrcpy (char *to, char *from) { while (*from) { if (*from == '\\') from++; *to++ = *from++; } *to = '\0'; } /* Start a Mac subprocess. Arguments for it is passed in argv (null terminated). The process should run with the default directory "workdir", read input from "infn", and write output and error to "outfn" and "errfn", resp. The Process Manager call LaunchApplication is used to start the subprocess. We use high level events as the mechanism to pass arguments to the subprocess and to make Emacs wait for the subprocess to terminate and pass back a result code. The bulk of the code here packs the arguments into one message to be passed together with the high level event. Emacs also sometimes starts a subprocess using a shell to perform wildcard filename expansion. Since we don't really have a shell on the Mac, this case is detected and the starting of the shell is by-passed. We really need to add code here to do filename expansion to support such functionality. */ int run_mac_command (argv, workdir, infn, outfn, errfn) unsigned char **argv; const char *workdir; const char *infn, *outfn, *errfn; { #if TARGET_API_MAC_CARBON return -1; #else /* not TARGET_API_MAC_CARBON */ char macappname[MAXPATHLEN+1], macworkdir[MAXPATHLEN+1]; char macinfn[MAXPATHLEN+1], macoutfn[MAXPATHLEN+1], macerrfn[MAXPATHLEN+1]; int paramlen, argc, newargc, j, retries; char **newargv, *param, *p; OSErr iErr; FSSpec spec; LaunchParamBlockRec lpbr; EventRecord send_event, reply_event; RgnHandle cursor_region_handle; TargetID targ; unsigned long ref_con, len; if (posix_to_mac_pathname (workdir, macworkdir, MAXPATHLEN+1) == 0) return -1; if (posix_to_mac_pathname (infn, macinfn, MAXPATHLEN+1) == 0) return -1; if (posix_to_mac_pathname (outfn, macoutfn, MAXPATHLEN+1) == 0) return -1; if (posix_to_mac_pathname (errfn, macerrfn, MAXPATHLEN+1) == 0) return -1; paramlen = strlen (macworkdir) + strlen (macinfn) + strlen (macoutfn) + strlen (macerrfn) + 4; /* count nulls at end of strings */ argc = 0; while (argv[argc]) argc++; if (argc == 0) return -1; /* If a subprocess is invoked with a shell, we receive 3 arguments of the form: "/sh" "-c" "/ " */ j = strlen (argv[0]); if (j >= 3 && strcmp (argv[0]+j-3, "/sh") == 0 && argc == 3 && strcmp (argv[1], "-c") == 0) { char *command, *t, tempmacpathname[MAXPATHLEN+1]; /* The arguments for the command in argv[2] are separated by spaces. Count them and put the count in newargc. */ command = (char *) alloca (strlen (argv[2])+2); strcpy (command, argv[2]); if (command[strlen (command) - 1] != ' ') strcat (command, " "); t = command; newargc = 0; t = mystrchr (t, ' '); while (t) { newargc++; t = mystrchr (t+1, ' '); } newargv = (char **) alloca (sizeof (char *) * newargc); t = command; for (j = 0; j < newargc; j++) { newargv[j] = (char *) alloca (strlen (t) + 1); mystrcpy (newargv[j], t); t = mystrtok (t); paramlen += strlen (newargv[j]) + 1; } if (strncmp (newargv[0], "~emacs/", 7) == 0) { if (posix_to_mac_pathname (newargv[0], tempmacpathname, MAXPATHLEN+1) == 0) return -1; } else { /* sometimes Emacs call "sh" without a path for the command */ #if 0 char *t = (char *) alloca (strlen (newargv[0]) + 7 + 1); strcpy (t, "~emacs/"); strcat (t, newargv[0]); #endif /* 0 */ Lisp_Object path; openp (Vexec_path, build_string (newargv[0]), Vexec_suffixes, &path, make_number (X_OK)); if (NILP (path)) return -1; if (posix_to_mac_pathname (SDATA (path), tempmacpathname, MAXPATHLEN+1) == 0) return -1; } strcpy (macappname, tempmacpathname); } else { if (posix_to_mac_pathname (argv[0], macappname, MAXPATHLEN+1) == 0) return -1; newargv = (char **) alloca (sizeof (char *) * argc); newargc = argc; for (j = 1; j < argc; j++) { if (strncmp (argv[j], "~emacs/", 7) == 0) { char *t = strchr (argv[j], ' '); if (t) { char tempcmdname[MAXPATHLEN+1], tempmaccmdname[MAXPATHLEN+1]; strncpy (tempcmdname, argv[j], t-argv[j]); tempcmdname[t-argv[j]] = '\0'; if (posix_to_mac_pathname (tempcmdname, tempmaccmdname, MAXPATHLEN+1) == 0) return -1; newargv[j] = (char *) alloca (strlen (tempmaccmdname) + strlen (t) + 1); strcpy (newargv[j], tempmaccmdname); strcat (newargv[j], t); } else { char tempmaccmdname[MAXPATHLEN+1]; if (posix_to_mac_pathname (argv[j], tempmaccmdname, MAXPATHLEN+1) == 0) return -1; newargv[j] = (char *) alloca (strlen (tempmaccmdname)+1); strcpy (newargv[j], tempmaccmdname); } } else newargv[j] = argv[j]; paramlen += strlen (newargv[j]) + 1; } } /* After expanding all the arguments, we now know the length of the parameter block to be sent to the subprocess as a message attached to the HLE. */ param = (char *) malloc (paramlen + 1); if (!param) return -1; p = param; *p++ = newargc; /* first byte of message contains number of arguments for command */ strcpy (p, macworkdir); p += strlen (macworkdir); *p++ = '\0'; /* null terminate strings sent so it's possible to use strcpy over there */ strcpy (p, macinfn); p += strlen (macinfn); *p++ = '\0'; strcpy (p, macoutfn); p += strlen (macoutfn); *p++ = '\0'; strcpy (p, macerrfn); p += strlen (macerrfn); *p++ = '\0'; for (j = 1; j < newargc; j++) { strcpy (p, newargv[j]); p += strlen (newargv[j]); *p++ = '\0'; } c2pstr (macappname); iErr = FSMakeFSSpec (0, 0, macappname, &spec); if (iErr != noErr) { free (param); return -1; } lpbr.launchBlockID = extendedBlock; lpbr.launchEPBLength = extendedBlockLen; lpbr.launchControlFlags = launchContinue + launchNoFileFlags; lpbr.launchAppSpec = &spec; lpbr.launchAppParameters = NULL; iErr = LaunchApplication (&lpbr); /* call the subprocess */ if (iErr != noErr) { free (param); return -1; } send_event.what = kHighLevelEvent; send_event.message = kEmacsSubprocessSend; /* Event ID stored in "where" unused */ retries = 3; /* OS may think current subprocess has terminated if previous one terminated recently. */ do { iErr = PostHighLevelEvent (&send_event, &lpbr.launchProcessSN, 0, param, paramlen + 1, receiverIDisPSN); } while (iErr == sessClosedErr && retries-- > 0); if (iErr != noErr) { free (param); return -1; } cursor_region_handle = NewRgn (); /* Wait for the subprocess to finish, when it will send us a ERPY high level event. */ while (1) if (WaitNextEvent (highLevelEventMask, &reply_event, 180, cursor_region_handle) && reply_event.message == kEmacsSubprocessReply) break; /* The return code is sent through the refCon */ iErr = AcceptHighLevelEvent (&targ, &ref_con, NULL, &len); if (iErr != noErr) { DisposeHandle ((Handle) cursor_region_handle); free (param); return -1; } DisposeHandle ((Handle) cursor_region_handle); free (param); return ref_con; #endif /* not TARGET_API_MAC_CARBON */ } DIR * opendir (const char *dirname) { char true_pathname[MAXPATHLEN+1], fully_resolved_name[MAXPATHLEN+1]; char mac_pathname[MAXPATHLEN+1], vol_name[MAXPATHLEN+1]; DIR *dirp; CInfoPBRec cipb; HVolumeParam vpb; int len, vol_name_len; if (find_true_pathname (dirname, true_pathname, MAXPATHLEN+1) == -1) return 0; len = readlink (true_pathname, fully_resolved_name, MAXPATHLEN); if (len > -1) fully_resolved_name[len] = '\0'; else strcpy (fully_resolved_name, true_pathname); dirp = (DIR *) malloc (sizeof(DIR)); if (!dirp) return 0; /* Handle special case when dirname is "/": sets up for readir to get all mount volumes. */ if (strcmp (fully_resolved_name, "/") == 0) { dirp->getting_volumes = 1; /* special all mounted volumes DIR struct */ dirp->current_index = 1; /* index for first volume */ return dirp; } /* Handle typical cases: not accessing all mounted volumes. */ if (!posix_to_mac_pathname (fully_resolved_name, mac_pathname, MAXPATHLEN+1)) return 0; /* Emacs calls opendir without the trailing '/', Mac needs trailing ':' */ len = strlen (mac_pathname); if (mac_pathname[len - 1] != ':' && len < MAXPATHLEN) strcat (mac_pathname, ":"); /* Extract volume name */ vol_name_len = strchr (mac_pathname, ':') - mac_pathname; strncpy (vol_name, mac_pathname, vol_name_len); vol_name[vol_name_len] = '\0'; strcat (vol_name, ":"); c2pstr (mac_pathname); cipb.hFileInfo.ioNamePtr = mac_pathname; /* using full pathname so vRefNum and DirID ignored */ cipb.hFileInfo.ioVRefNum = 0; cipb.hFileInfo.ioDirID = 0; cipb.hFileInfo.ioFDirIndex = 0; /* set to 0 to get information about specific dir or file */ errno = PBGetCatInfo (&cipb, false); if (errno != noErr) { errno = ENOENT; return 0; } if (!(cipb.hFileInfo.ioFlAttrib & 0x10)) /* bit 4 = 1 for directories */ return 0; /* not a directory */ dirp->dir_id = cipb.dirInfo.ioDrDirID; /* used later in readdir */ dirp->getting_volumes = 0; dirp->current_index = 1; /* index for first file/directory */ c2pstr (vol_name); vpb.ioNamePtr = vol_name; /* using full pathname so vRefNum and DirID ignored */ vpb.ioVRefNum = 0; vpb.ioVolIndex = -1; errno = PBHGetVInfo ((union HParamBlockRec *) &vpb, false); if (errno != noErr) { errno = ENOENT; return 0; } dirp->vol_ref_num = vpb.ioVRefNum; return dirp; } int closedir (DIR *dp) { free (dp); return 0; } struct dirent * readdir (DIR *dp) { HParamBlockRec hpblock; CInfoPBRec cipb; static struct dirent s_dirent; static Str255 s_name; int done; char *p; /* Handle the root directory containing the mounted volumes. Call PBHGetVInfo specifying an index to obtain the info for a volume. PBHGetVInfo returns an error when it receives an index beyond the last volume, at which time we should return a nil dirent struct pointer. */ if (dp->getting_volumes) { hpblock.volumeParam.ioNamePtr = s_name; hpblock.volumeParam.ioVRefNum = 0; hpblock.volumeParam.ioVolIndex = dp->current_index; errno = PBHGetVInfo (&hpblock, false); if (errno != noErr) { errno = ENOENT; return 0; } p2cstr (s_name); strcat (s_name, "/"); /* need "/" for stat to work correctly */ dp->current_index++; s_dirent.d_ino = hpblock.volumeParam.ioVRefNum; s_dirent.d_name = s_name; return &s_dirent; } else { cipb.hFileInfo.ioVRefNum = dp->vol_ref_num; cipb.hFileInfo.ioNamePtr = s_name; /* location to receive filename returned */ /* return only visible files */ done = false; while (!done) { cipb.hFileInfo.ioDirID = dp->dir_id; /* directory ID found by opendir */ cipb.hFileInfo.ioFDirIndex = dp->current_index; errno = PBGetCatInfo (&cipb, false); if (errno != noErr) { errno = ENOENT; return 0; } /* insist on a visible entry */ if (cipb.hFileInfo.ioFlAttrib & 0x10) /* directory? */ done = !(cipb.dirInfo.ioDrUsrWds.frFlags & fInvisible); else done = !(cipb.hFileInfo.ioFlFndrInfo.fdFlags & fInvisible); dp->current_index++; } p2cstr (s_name); p = s_name; while (*p) { if (*p == '/') *p = ':'; p++; } s_dirent.d_ino = cipb.dirInfo.ioDrDirID; /* value unimportant: non-zero for valid file */ s_dirent.d_name = s_name; return &s_dirent; } } char * getwd (char *path) { char mac_pathname[MAXPATHLEN+1]; Str255 directory_name; OSErr errno; CInfoPBRec cipb; if (path_from_vol_dir_name (mac_pathname, 255, 0, 0, "\p") == 0) return NULL; if (mac_to_posix_pathname (mac_pathname, path, MAXPATHLEN+1) == 0) return 0; else return path; } #endif /* ! MAC_OSX */ void initialize_applescript () { AEDesc null_desc; OSAError osaerror; /* if open fails, as_scripting_component is set to NULL. Its subsequent use in OSA calls will fail with badComponentInstance error. */ as_scripting_component = OpenDefaultComponent (kOSAComponentType, kAppleScriptSubtype); null_desc.descriptorType = typeNull; null_desc.dataHandle = 0; osaerror = OSAMakeContext (as_scripting_component, &null_desc, kOSANullScript, &as_script_context); if (osaerror) as_script_context = kOSANullScript; /* use default context if create fails */ } void terminate_applescript() { OSADispose (as_scripting_component, as_script_context); CloseComponent (as_scripting_component); } /* Compile and execute the AppleScript SCRIPT and return the error status as function value. A zero is returned if compilation and execution is successful, in which case RESULT returns a pointer to a string containing the resulting script value. Otherwise, the Mac error code is returned and RESULT returns a pointer to an error string. In both cases the caller should deallocate the storage used by the string pointed to by RESULT if it is non-NULL. For documentation on the MacOS scripting architecture, see Inside Macintosh - Interapplication Communications: Scripting Components. */ static long do_applescript (char *script, char **result) { AEDesc script_desc, result_desc, error_desc; OSErr error; OSAError osaerror; long length; *result = 0; if (!as_scripting_component) initialize_applescript(); error = AECreateDesc (typeChar, script, strlen(script), &script_desc); if (error) return error; osaerror = OSADoScript (as_scripting_component, &script_desc, kOSANullScript, typeChar, kOSAModeNull, &result_desc); if (osaerror == errOSAScriptError) { /* error executing AppleScript: retrieve error message */ if (!OSAScriptError (as_scripting_component, kOSAErrorMessage, typeChar, &error_desc)) { #if TARGET_API_MAC_CARBON length = AEGetDescDataSize (&error_desc); *result = (char *) xmalloc (length + 1); if (*result) { AEGetDescData (&error_desc, *result, length); *(*result + length) = '\0'; } #else /* not TARGET_API_MAC_CARBON */ HLock (error_desc.dataHandle); length = GetHandleSize(error_desc.dataHandle); *result = (char *) xmalloc (length + 1); if (*result) { memcpy (*result, *(error_desc.dataHandle), length); *(*result + length) = '\0'; } HUnlock (error_desc.dataHandle); #endif /* not TARGET_API_MAC_CARBON */ AEDisposeDesc (&error_desc); } } else if (osaerror == noErr) /* success: retrieve resulting script value */ { #if TARGET_API_MAC_CARBON length = AEGetDescDataSize (&result_desc); *result = (char *) xmalloc (length + 1); if (*result) { AEGetDescData (&result_desc, *result, length); *(*result + length) = '\0'; } #else /* not TARGET_API_MAC_CARBON */ HLock (result_desc.dataHandle); length = GetHandleSize(result_desc.dataHandle); *result = (char *) xmalloc (length + 1); if (*result) { memcpy (*result, *(result_desc.dataHandle), length); *(*result + length) = '\0'; } HUnlock (result_desc.dataHandle); #endif /* not TARGET_API_MAC_CARBON */ AEDisposeDesc (&result_desc); } AEDisposeDesc (&script_desc); return osaerror; } DEFUN ("do-applescript", Fdo_applescript, Sdo_applescript, 1, 1, 0, doc: /* Compile and execute AppleScript SCRIPT and retrieve and return the result. If compilation and execution are successful, the resulting script value is returned as a string. Otherwise the function aborts and displays the error message returned by the AppleScript scripting component. */) (script) Lisp_Object script; { char *result, *temp; Lisp_Object lisp_result; long status; CHECK_STRING (script); BLOCK_INPUT; status = do_applescript (SDATA (script), &result); UNBLOCK_INPUT; if (status) { if (!result) error ("AppleScript error %d", status); else { /* Unfortunately only OSADoScript in do_applescript knows how how large the resulting script value or error message is going to be and therefore as caller memory must be deallocated here. It is necessary to free the error message before calling error to avoid a memory leak. */ temp = (char *) alloca (strlen (result) + 1); strcpy (temp, result); xfree (result); error (temp); } } else { lisp_result = build_string (result); xfree (result); return lisp_result; } } DEFUN ("mac-file-name-to-posix", Fmac_file_name_to_posix, Smac_file_name_to_posix, 1, 1, 0, doc: /* Convert Macintosh filename to Posix form. */) (mac_filename) Lisp_Object mac_filename; { char posix_filename[MAXPATHLEN+1]; CHECK_STRING (mac_filename); if (mac_to_posix_pathname (SDATA (mac_filename), posix_filename, MAXPATHLEN)) return build_string (posix_filename); else return Qnil; } DEFUN ("posix-file-name-to-mac", Fposix_file_name_to_mac, Sposix_file_name_to_mac, 1, 1, 0, doc: /* Convert Posix filename to Mac form. */) (posix_filename) Lisp_Object posix_filename; { char mac_filename[MAXPATHLEN+1]; CHECK_STRING (posix_filename); if (posix_to_mac_pathname (SDATA (posix_filename), mac_filename, MAXPATHLEN)) return build_string (mac_filename); else return Qnil; } /* set interprogram-paste-function to mac-paste-function in mac-win.el to enable Emacs to obtain the contents of the Mac clipboard. */ DEFUN ("mac-paste-function", Fmac_paste_function, Smac_paste_function, 0, 0, 0, doc: /* Return the contents of the Mac clipboard as a string. */) () { #if TARGET_API_MAC_CARBON OSStatus err; ScrapRef scrap; ScrapFlavorFlags sff; Size s; int i; char *data; BLOCK_INPUT; err = GetCurrentScrap (&scrap); if (err == noErr) err = GetScrapFlavorFlags (scrap, kScrapFlavorTypeText, &sff); if (err == noErr) err = GetScrapFlavorSize (scrap, kScrapFlavorTypeText, &s); if (err == noErr && (data = (char*) alloca (s))) err = GetScrapFlavorData (scrap, kScrapFlavorTypeText, &s, data); UNBLOCK_INPUT; if (err != noErr || s == 0) return Qnil; /* Emacs expects clipboard contents have Unix-style eol's */ for (i = 0; i < s; i++) if (data[i] == '\r') data[i] = '\n'; return make_string (data, s); #else /* not TARGET_API_MAC_CARBON */ Lisp_Object value; Handle my_handle; long scrap_offset, rc, i; my_handle = NewHandle (0); /* allocate 0-length data area */ rc = GetScrap (my_handle, 'TEXT', &scrap_offset); if (rc < 0) return Qnil; HLock (my_handle); /* Emacs expects clipboard contents have Unix-style eol's */ for (i = 0; i < rc; i++) if ((*my_handle)[i] == '\r') (*my_handle)[i] = '\n'; value = make_string (*my_handle, rc); HUnlock (my_handle); DisposeHandle (my_handle); return value; #endif /* not TARGET_API_MAC_CARBON */ } /* set interprogram-cut-function to mac-cut-function in mac-win.el to enable Emacs to write the top of the kill-ring to the Mac clipboard. */ DEFUN ("mac-cut-function", Fmac_cut_function, Smac_cut_function, 1, 2, 0, doc: /* Put the value of the string parameter to the Mac clipboard. */) (value, push) Lisp_Object value, push; { char *buf; int len, i; /* fixme: ignore the push flag for now */ CHECK_STRING (value); len = SCHARS (value); buf = (char *) alloca (len+1); bcopy (SDATA (value), buf, len); buf[len] = '\0'; /* convert to Mac-style eol's before sending to clipboard */ for (i = 0; i < len; i++) if (buf[i] == '\n') buf[i] = '\r'; #if TARGET_API_MAC_CARBON { ScrapRef scrap; BLOCK_INPUT; ClearCurrentScrap (); if (GetCurrentScrap (&scrap) != noErr) { UNBLOCK_INPUT; error ("cannot get current scrap"); } if (PutScrapFlavor (scrap, kScrapFlavorTypeText, kScrapFlavorMaskNone, len, buf) != noErr) { UNBLOCK_INPUT; error ("cannot put to scrap"); } UNBLOCK_INPUT; } #else /* not TARGET_API_MAC_CARBON */ ZeroScrap (); PutScrap (len, 'TEXT', buf); #endif /* not TARGET_API_MAC_CARBON */ return Qnil; } DEFUN ("x-selection-exists-p", Fx_selection_exists_p, Sx_selection_exists_p, 0, 1, 0, doc: /* Whether there is an owner for the given X Selection. The arg should be the name of the selection in question, typically one of the symbols `PRIMARY', `SECONDARY', or `CLIPBOARD'. \(Those are literal upper-case symbol names, since that's what X expects.) For convenience, the symbol nil is the same as `PRIMARY', and t is the same as `SECONDARY'. */) (selection) Lisp_Object selection; { CHECK_SYMBOL (selection); /* Return nil for PRIMARY and SECONDARY selections; for CLIPBOARD, check if the clipboard currently has valid text format contents. */ if (EQ (selection, QCLIPBOARD)) { Lisp_Object val = Qnil; #if TARGET_API_MAC_CARBON ScrapRef scrap; ScrapFlavorFlags sff; BLOCK_INPUT; if (GetCurrentScrap (&scrap) == noErr) if (GetScrapFlavorFlags (scrap, kScrapFlavorTypeText, &sff) == noErr) val = Qt; UNBLOCK_INPUT; #else /* not TARGET_API_MAC_CARBON */ Handle my_handle; long rc, scrap_offset; my_handle = NewHandle (0); rc = GetScrap (my_handle, 'TEXT', &scrap_offset); if (rc >= 0) val = Qt; DisposeHandle (my_handle); #endif /* not TARGET_API_MAC_CARBON */ return val; } return Qnil; } #if TARGET_API_MAC_CARBON static Lisp_Object Qxml; DEFUN ("mac-get-preference", Fmac_get_preference, Smac_get_preference, 1, 4, 0, doc: /* Return the application preference value for KEY. KEY is either a string specifying a preference key, or a list of key strings. If it is a list, the (i+1)-th element is used as a key for the CFDictionary value obtained by the i-th element. If lookup is failed at some stage, nil is returned. Optional arg APPLICATION is an application ID string. If omitted or nil, that stands for the current application. Optional arg FORMAT specifies the data format of the return value. If omitted or nil, each Core Foundation object is converted into a corresponding Lisp object as follows: Core Foundation Lisp Tag ------------------------------------------------------------ CFString Multibyte string string CFNumber Integer or float number CFBoolean Symbol (t or nil) boolean CFDate List of three integers date (cf. `current-time') CFData Unibyte string data CFArray Vector array CFDictionary Alist or hash table dictionary (depending on HASH-BOUND) If it is t, a symbol that represents the type of the original Core Foundation object is prepended. If it is `xml', the value is returned as an XML representation. Optional arg HASH-BOUND specifies which kinds of the list objects, alists or hash tables, are used as the targets of the conversion from CFDictionary. If HASH-BOUND is a negative integer or nil, always generate alists. If HASH-BOUND >= 0, generate an alist if the number of keys in the dictionary is smaller than HASH-BOUND, and a hash table otherwise. */) (key, application, format, hash_bound) Lisp_Object key, application, format, hash_bound; { CFStringRef app_id, key_str; CFPropertyListRef app_plist = NULL, plist; Lisp_Object result = Qnil, tmp; if (STRINGP (key)) key = Fcons (key, Qnil); else { CHECK_CONS (key); for (tmp = key; CONSP (tmp); tmp = XCDR (tmp)) CHECK_STRING_CAR (tmp); if (!NILP (tmp)) wrong_type_argument (Qlistp, key); } if (!NILP (application)) CHECK_STRING (application); CHECK_SYMBOL (format); if (!NILP (hash_bound)) CHECK_NUMBER (hash_bound); BLOCK_INPUT; app_id = kCFPreferencesCurrentApplication; if (!NILP (application)) { app_id = cfstring_create_with_string (application); if (app_id == NULL) goto out; } key_str = cfstring_create_with_string (XCAR (key)); if (key_str == NULL) goto out; app_plist = CFPreferencesCopyAppValue (key_str, app_id); CFRelease (key_str); if (app_plist == NULL) goto out; plist = app_plist; for (key = XCDR (key); CONSP (key); key = XCDR (key)) { if (CFGetTypeID (plist) != CFDictionaryGetTypeID ()) break; key_str = cfstring_create_with_string (XCAR (key)); if (key_str == NULL) goto out; plist = CFDictionaryGetValue (plist, key_str); CFRelease (key_str); if (plist == NULL) goto out; } if (NILP (key)) if (EQ (format, Qxml)) { CFDataRef data = CFPropertyListCreateXMLData (NULL, plist); if (data == NULL) goto out; result = cfdata_to_lisp (data); CFRelease (data); } else result = cfproperty_list_to_lisp (plist, EQ (format, Qt), NILP (hash_bound) ? -1 : XINT (hash_bound)); out: if (app_plist) CFRelease (app_plist); CFRelease (app_id); UNBLOCK_INPUT; return result; } #endif /* TARGET_API_MAC_CARBON */ DEFUN ("mac-clear-font-name-table", Fmac_clear_font_name_table, Smac_clear_font_name_table, 0, 0, 0, doc: /* Clear the font name table. */) () { check_mac (); mac_clear_font_name_table (); return Qnil; } #ifdef MAC_OSX #undef select extern int inhibit_window_system; extern int noninteractive; /* Unlike in X11, window events in Carbon do not come from sockets. So we cannot simply use `select' to monitor two kinds of inputs: window events and process outputs. We emulate such functionality by regarding fd 0 as the window event channel and simultaneously monitoring both kinds of input channels. It is implemented by dividing into some cases: 1. The window event channel is not involved. -> Use `select'. 2. Sockets are not involved. -> Use ReceiveNextEvent. 3. [If SELECT_USE_CFSOCKET is defined] Only the window event channel and socket read channels are involved, and timeout is not too short (greater than SELECT_TIMEOUT_THRESHHOLD_RUNLOOP seconds). -> Create CFSocket for each socket and add it into the current event RunLoop so that an `ready-to-read' event can be posted to the event queue that is also used for window events. Then ReceiveNextEvent can wait for both kinds of inputs. 4. Otherwise. -> Periodically poll the window input channel while repeatedly executing `select' with a short timeout (SELECT_POLLING_PERIOD_USEC microseconds). */ #define SELECT_POLLING_PERIOD_USEC 20000 #ifdef SELECT_USE_CFSOCKET #define SELECT_TIMEOUT_THRESHOLD_RUNLOOP 0.2 #define EVENT_CLASS_SOCK 'Sock' static void socket_callback (s, type, address, data, info) CFSocketRef s; CFSocketCallBackType type; CFDataRef address; const void *data; void *info; { EventRef event; CreateEvent (NULL, EVENT_CLASS_SOCK, 0, 0, kEventAttributeNone, &event); PostEventToQueue (GetCurrentEventQueue (), event, kEventPriorityStandard); ReleaseEvent (event); } #endif /* SELECT_USE_CFSOCKET */ static int select_and_poll_event (n, rfds, wfds, efds, timeout) int n; SELECT_TYPE *rfds; SELECT_TYPE *wfds; SELECT_TYPE *efds; struct timeval *timeout; { int r; OSErr err; r = select (n, rfds, wfds, efds, timeout); if (r != -1) { BLOCK_INPUT; err = ReceiveNextEvent (0, NULL, kEventDurationNoWait, kEventLeaveInQueue, NULL); UNBLOCK_INPUT; if (err == noErr) { FD_SET (0, rfds); r++; } } return r; } #if MAC_OS_X_VERSION_MAX_ALLOWED < 1020 #undef SELECT_INVALIDATE_CFSOCKET #endif int sys_select (n, rfds, wfds, efds, timeout) int n; SELECT_TYPE *rfds; SELECT_TYPE *wfds; SELECT_TYPE *efds; struct timeval *timeout; { OSErr err; int i, r; EMACS_TIME select_timeout; if (inhibit_window_system || noninteractive || rfds == NULL || !FD_ISSET (0, rfds)) return select (n, rfds, wfds, efds, timeout); FD_CLR (0, rfds); if (wfds == NULL && efds == NULL) { int nsocks = 0; SELECT_TYPE orfds = *rfds; EventTimeout timeout_sec = (timeout ? (EMACS_SECS (*timeout) * kEventDurationSecond + EMACS_USECS (*timeout) * kEventDurationMicrosecond) : kEventDurationForever); for (i = 1; i < n; i++) if (FD_ISSET (i, rfds)) nsocks++; if (nsocks == 0) { BLOCK_INPUT; err = ReceiveNextEvent (0, NULL, timeout_sec, kEventLeaveInQueue, NULL); UNBLOCK_INPUT; if (err == noErr) { FD_SET (0, rfds); return 1; } else return 0; } /* Avoid initial overhead of RunLoop setup for the case that some input is already available. */ EMACS_SET_SECS_USECS (select_timeout, 0, 0); r = select_and_poll_event (n, rfds, wfds, efds, &select_timeout); if (r != 0 || timeout_sec == 0.0) return r; *rfds = orfds; #ifdef SELECT_USE_CFSOCKET if (timeout_sec > 0 && timeout_sec <= SELECT_TIMEOUT_THRESHOLD_RUNLOOP) goto poll_periodically; { CFRunLoopRef runloop = (CFRunLoopRef) GetCFRunLoopFromEventLoop (GetCurrentEventLoop ()); EventTypeSpec specs[] = {{EVENT_CLASS_SOCK, 0}}; #ifdef SELECT_INVALIDATE_CFSOCKET CFSocketRef *shead, *s; #else CFRunLoopSourceRef *shead, *s; #endif BLOCK_INPUT; #ifdef SELECT_INVALIDATE_CFSOCKET shead = xmalloc (sizeof (CFSocketRef) * nsocks); #else shead = xmalloc (sizeof (CFRunLoopSourceRef) * nsocks); #endif s = shead; for (i = 1; i < n; i++) if (FD_ISSET (i, rfds)) { CFSocketRef socket = CFSocketCreateWithNative (NULL, i, kCFSocketReadCallBack, socket_callback, NULL); CFRunLoopSourceRef source = CFSocketCreateRunLoopSource (NULL, socket, 0); #ifdef SELECT_INVALIDATE_CFSOCKET CFSocketSetSocketFlags (socket, 0); #endif CFRunLoopAddSource (runloop, source, kCFRunLoopDefaultMode); #ifdef SELECT_INVALIDATE_CFSOCKET CFRelease (source); *s = socket; #else CFRelease (socket); *s = source; #endif s++; } err = ReceiveNextEvent (0, NULL, timeout_sec, kEventLeaveInQueue, NULL); do { --s; #ifdef SELECT_INVALIDATE_CFSOCKET CFSocketInvalidate (*s); #else CFRunLoopRemoveSource (runloop, *s, kCFRunLoopDefaultMode); #endif CFRelease (*s); } while (s != shead); xfree (shead); if (err) { FD_ZERO (rfds); r = 0; } else { FlushEventsMatchingListFromQueue (GetCurrentEventQueue (), GetEventTypeCount (specs), specs); EMACS_SET_SECS_USECS (select_timeout, 0, 0); r = select_and_poll_event (n, rfds, wfds, efds, &select_timeout); } UNBLOCK_INPUT; return r; } #endif /* SELECT_USE_CFSOCKET */ } poll_periodically: { EMACS_TIME end_time, now, remaining_time; SELECT_TYPE orfds = *rfds, owfds, oefds; if (wfds) owfds = *wfds; if (efds) oefds = *efds; if (timeout) { remaining_time = *timeout; EMACS_GET_TIME (now); EMACS_ADD_TIME (end_time, now, remaining_time); } do { EMACS_SET_SECS_USECS (select_timeout, 0, SELECT_POLLING_PERIOD_USEC); if (timeout && EMACS_TIME_LT (remaining_time, select_timeout)) select_timeout = remaining_time; r = select_and_poll_event (n, rfds, wfds, efds, &select_timeout); if (r != 0) return r; *rfds = orfds; if (wfds) *wfds = owfds; if (efds) *efds = oefds; if (timeout) { EMACS_GET_TIME (now); EMACS_SUB_TIME (remaining_time, end_time, now); } } while (!timeout || EMACS_TIME_LT (now, end_time)); FD_ZERO (rfds); if (wfds) FD_ZERO (wfds); if (efds) FD_ZERO (efds); return 0; } } /* Set up environment variables so that Emacs can correctly find its support files when packaged as an application bundle. Directories placed in /usr/local/share/emacs//, /usr/local/bin, and /usr/local/libexec/emacs// by `make install' by default can instead be placed in .../Emacs.app/Contents/Resources/ and .../Emacs.app/Contents/MacOS/. Each of these environment variables is changed only if it is not already set. Presumably if the user sets an environment variable, he will want to use files in his path instead of ones in the application bundle. */ void init_mac_osx_environment () { CFBundleRef bundle; CFURLRef bundleURL; CFStringRef cf_app_bundle_pathname; int app_bundle_pathname_len; char *app_bundle_pathname; char *p, *q; struct stat st; /* Fetch the pathname of the application bundle as a C string into app_bundle_pathname. */ bundle = CFBundleGetMainBundle (); if (!bundle) return; bundleURL = CFBundleCopyBundleURL (bundle); if (!bundleURL) return; cf_app_bundle_pathname = CFURLCopyFileSystemPath (bundleURL, kCFURLPOSIXPathStyle); app_bundle_pathname_len = CFStringGetLength (cf_app_bundle_pathname); app_bundle_pathname = (char *) alloca (app_bundle_pathname_len + 1); if (!CFStringGetCString (cf_app_bundle_pathname, app_bundle_pathname, app_bundle_pathname_len + 1, kCFStringEncodingISOLatin1)) { CFRelease (cf_app_bundle_pathname); return; } CFRelease (cf_app_bundle_pathname); /* P should have sufficient room for the pathname of the bundle plus the subpath in it leading to the respective directories. Q should have three times that much room because EMACSLOADPATH can have the value "::". */ p = (char *) alloca (app_bundle_pathname_len + 50); q = (char *) alloca (3 * app_bundle_pathname_len + 150); if (!getenv ("EMACSLOADPATH")) { q[0] = '\0'; strcpy (p, app_bundle_pathname); strcat (p, "/Contents/Resources/lisp"); if (stat (p, &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR) strcat (q, p); strcpy (p, app_bundle_pathname); strcat (p, "/Contents/Resources/leim"); if (stat (p, &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR) { if (q[0] != '\0') strcat (q, ":"); strcat (q, p); } strcpy (p, app_bundle_pathname); strcat (p, "/Contents/Resources/site-lisp"); if (stat (p, &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR) { if (q[0] != '\0') strcat (q, ":"); strcat (q, p); } if (q[0] != '\0') setenv ("EMACSLOADPATH", q, 1); } if (!getenv ("EMACSPATH")) { q[0] = '\0'; strcpy (p, app_bundle_pathname); strcat (p, "/Contents/MacOS/libexec"); if (stat (p, &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR) strcat (q, p); strcpy (p, app_bundle_pathname); strcat (p, "/Contents/MacOS/bin"); if (stat (p, &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR) { if (q[0] != '\0') strcat (q, ":"); strcat (q, p); } if (q[0] != '\0') setenv ("EMACSPATH", q, 1); } if (!getenv ("EMACSDATA")) { strcpy (p, app_bundle_pathname); strcat (p, "/Contents/Resources/etc"); if (stat (p, &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR) setenv ("EMACSDATA", p, 1); } if (!getenv ("EMACSDOC")) { strcpy (p, app_bundle_pathname); strcat (p, "/Contents/Resources/etc"); if (stat (p, &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR) setenv ("EMACSDOC", p, 1); } if (!getenv ("INFOPATH")) { strcpy (p, app_bundle_pathname); strcat (p, "/Contents/Resources/info"); if (stat (p, &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR) setenv ("INFOPATH", p, 1); } } #endif /* MAC_OSX */ static Lisp_Object mac_get_system_locale () { OSErr err; LangCode lang; RegionCode region; LocaleRef locale; Str255 str; lang = GetScriptVariable (smSystemScript, smScriptLang); region = GetScriptManagerVariable (smRegionCode); err = LocaleRefFromLangOrRegionCode (lang, region, &locale); if (err == noErr) err = LocaleRefGetPartString (locale, kLocaleAllPartsMask, sizeof (str), str); if (err == noErr) return build_string (str); else return Qnil; } void syms_of_mac () { QCLIPBOARD = intern ("CLIPBOARD"); staticpro (&QCLIPBOARD); #if TARGET_API_MAC_CARBON Qstring = intern ("string"); staticpro (&Qstring); Qnumber = intern ("number"); staticpro (&Qnumber); Qboolean = intern ("boolean"); staticpro (&Qboolean); Qdate = intern ("date"); staticpro (&Qdate); Qdata = intern ("data"); staticpro (&Qdata); Qarray = intern ("array"); staticpro (&Qarray); Qdictionary = intern ("dictionary"); staticpro (&Qdictionary); Qxml = intern ("xml"); staticpro (&Qxml); #endif defsubr (&Smac_paste_function); defsubr (&Smac_cut_function); defsubr (&Sx_selection_exists_p); #if TARGET_API_MAC_CARBON defsubr (&Smac_get_preference); #endif defsubr (&Smac_clear_font_name_table); defsubr (&Sdo_applescript); defsubr (&Smac_file_name_to_posix); defsubr (&Sposix_file_name_to_mac); DEFVAR_INT ("mac-system-script-code", &mac_system_script_code, doc: /* The system script code. */); mac_system_script_code = (ScriptCode) GetScriptManagerVariable (smSysScript); DEFVAR_LISP ("mac-system-locale", &Vmac_system_locale, doc: /* The system locale identifier string. This is not a POSIX locale ID, but an ICU locale ID. So encoding information is not included. */); Vmac_system_locale = mac_get_system_locale (); } /* arch-tag: 29d30c1f-0c6b-4f88-8a6d-0558d7f9dbff (do not change this comment) */