/************************************************ tkutil.c - $Author$ $Date$ created at: Fri Nov 3 00:47:54 JST 1995 ************************************************/ #define TKUTIL_RELEASE_DATE "2004-12-23" #include "ruby.h" #include "rubysig.h" #include "st.h" static VALUE cMethod; static VALUE cTclTkLib; static VALUE cTkObject; static VALUE cTkCallbackEntry; static VALUE TK_None; static VALUE cCB_SUBST; static VALUE cSUBST_INFO; static ID ID_split_tklist; static ID ID_toUTF8; static ID ID_fromUTF8; static ID ID_path; static ID ID_at_path; static ID ID_to_eval; static ID ID_to_s; static ID ID_source; static ID ID_downcase; static ID ID_install_cmd; static ID ID_merge_tklist; static ID ID_call; static ID ID_SUBST_INFO; static VALUE CALLBACK_TABLE; static unsigned long CALLBACK_ID_NUM = 0; /*************************************/ static VALUE tk_s_new(argc, argv, klass) int argc; VALUE *argv; VALUE klass; { VALUE obj = rb_class_new_instance(argc, argv, klass); if (rb_block_given_p()) rb_obj_instance_eval(0, 0, obj); return obj; } /*************************************/ static VALUE tkNone_to_s(self) VALUE self; { return rb_str_new2("None"); } /*************************************/ static VALUE tk_eval_cmd(argc, argv, self) int argc; VALUE argv[]; VALUE self; { volatile VALUE cmd, rest, arg; volatile VALUE ret; int status; rb_scan_args(argc, argv, "1*", &cmd, &rest); return rb_eval_cmd(cmd, rest, 0); } static VALUE tk_do_callback(argc, argv, self) int argc; VALUE *argv; VALUE self; { #if 0 volatile VALUE id; volatile VALUE rest; rb_scan_args(argc, argv, "1*", &id, &rest); return rb_apply(rb_hash_aref(CALLBACK_TABLE, id), ID_call, rest); #endif return rb_funcall2(rb_hash_aref(CALLBACK_TABLE, argv[0]), ID_call, argc - 1, argv + 1); } static char *cmd_id_head = "ruby_cmd TkUtil callback "; static char *cmd_id_prefix = "cmd"; static VALUE tk_install_cmd_core(cmd) VALUE cmd; { volatile VALUE id_num; id_num = ULONG2NUM(CALLBACK_ID_NUM++); id_num = rb_funcall(id_num, ID_to_s, 0, 0); id_num = rb_str_append(rb_str_new2(cmd_id_prefix), id_num); rb_hash_aset(CALLBACK_TABLE, id_num, cmd); return rb_str_append(rb_str_new2(cmd_id_head), id_num); } static VALUE tk_install_cmd(argc, argv, self) int argc; VALUE *argv; VALUE self; { volatile VALUE cmd; #if 0 if (rb_scan_args(argc, argv, "01", &cmd) == 0) { cmd = rb_block_proc(); } return tk_install_cmd_core(cmd); #endif if (argc == 0) { cmd = rb_block_proc(); } else { cmd = argv[0]; } return tk_install_cmd_core(cmd); } static VALUE tk_uninstall_cmd(self, cmd_id) VALUE self; VALUE cmd_id; { int head_len = strlen(cmd_id_head); int prefix_len = strlen(cmd_id_prefix); StringValue(cmd_id); if (strncmp(cmd_id_head, RSTRING(cmd_id)->ptr, head_len) != 0) { return Qnil; } if (strncmp(cmd_id_prefix, RSTRING(cmd_id)->ptr + head_len, prefix_len) != 0) { return Qnil; } return rb_hash_delete(CALLBACK_TABLE, rb_str_new2(RSTRING(cmd_id)->ptr + head_len)); } static VALUE tk_toUTF8(argc, argv, self) int argc; VALUE *argv; VALUE self; { return rb_funcall2(cTclTkLib, ID_toUTF8, argc, argv); } static VALUE tk_fromUTF8(argc, argv, self) int argc; VALUE *argv; VALUE self; { return rb_funcall2(cTclTkLib, ID_fromUTF8, argc, argv); } static VALUE fromDefaultEnc_toUTF8(str, self) VALUE str; VALUE self; { VALUE argv[1]; argv[0] = str; return tk_toUTF8(1, argv, self); } static VALUE fromUTF8_toDefaultEnc(str, self) VALUE str; VALUE self; { VALUE argv[1]; argv[0] = str; return tk_fromUTF8(1, argv, self); } static void hash_check(err) int err; { if (err) { rb_raise(rb_eRuntimeError, "hash modified"); } } static int to_strkey(key, value, hash, err) VALUE key; VALUE value; VALUE hash; int err; { hash_check(err); if (key == Qundef) return ST_CONTINUE; rb_hash_aset(hash, rb_funcall(key, ID_to_s, 0, 0), value); return ST_CHECK; } static VALUE tk_symbolkey2str(self, keys) VALUE self; VALUE keys; { volatile VALUE new_keys = rb_hash_new(); if NIL_P(keys) return new_keys; keys = rb_convert_type(keys, T_HASH, "Hash", "to_hash"); st_foreach(RHASH(keys)->tbl, to_strkey, new_keys); return new_keys; } static VALUE get_eval_string_core _((VALUE, VALUE, VALUE)); static VALUE ary2list _((VALUE, VALUE)); static VALUE ary2list2 _((VALUE, VALUE)); static VALUE hash2list _((VALUE, VALUE)); static VALUE hash2kv _((VALUE, VALUE, VALUE)); static VALUE ary2list(ary, self) VALUE ary; VALUE self; { int idx, idx2, size, size2; volatile VALUE val, val2; volatile VALUE dst; /* size = RARRAY(ary)->len; */ size = 0; for(idx = 0; idx < RARRAY(ary)->len; idx++) { if (TYPE(RARRAY(ary)->ptr[idx]) == T_HASH) { size += 2 * RHASH(RARRAY(ary)->ptr[idx])->tbl->num_entries; } else { size++; } } dst = rb_ary_new2(size); RARRAY(dst)->len = 0; for(idx = 0; idx < RARRAY(ary)->len; idx++) { val = RARRAY(ary)->ptr[idx]; switch(TYPE(val)) { case T_ARRAY: RARRAY(dst)->ptr[RARRAY(dst)->len++] = ary2list(val, self); break; case T_HASH: /* RARRAY(dst)->ptr[RARRAY(dst)->len++] = hash2list(val, self); */ val = hash2kv(val, Qnil, self); size2 = RARRAY(val)->len; for(idx2 = 0; idx2 < size2; idx2++) { val2 = RARRAY(val)->ptr[idx2]; switch(TYPE(val2)) { case T_ARRAY: RARRAY(dst)->ptr[RARRAY(dst)->len++] = ary2list(val2, self); break; case T_HASH: RARRAY(dst)->ptr[RARRAY(dst)->len++] = hash2list(val2, self); default: if (val2 != TK_None) { RARRAY(dst)->ptr[RARRAY(dst)->len++] = get_eval_string_core(val2, Qnil, self); } } } break; default: if (val != TK_None) { RARRAY(dst)->ptr[RARRAY(dst)->len++] = get_eval_string_core(val, Qnil, self); } } } return rb_apply(cTclTkLib, ID_merge_tklist, dst); } static VALUE ary2list2(ary, self) VALUE ary; VALUE self; { int idx, size; volatile VALUE val; volatile VALUE dst; size = RARRAY(ary)->len; dst = rb_ary_new2(size); RARRAY(dst)->len = 0; for(idx = 0; idx < RARRAY(ary)->len; idx++) { val = RARRAY(ary)->ptr[idx]; switch(TYPE(val)) { case T_ARRAY: RARRAY(dst)->ptr[RARRAY(dst)->len++] = ary2list(val, self); break; case T_HASH: RARRAY(dst)->ptr[RARRAY(dst)->len++] = hash2list(val, self); break; default: if (val != TK_None) { RARRAY(dst)->ptr[RARRAY(dst)->len++] = get_eval_string_core(val, Qnil, self); } } } return rb_apply(cTclTkLib, ID_merge_tklist, dst); } static VALUE key2keyname(key) VALUE key; { return rb_str_append(rb_str_new2("-"), rb_funcall(key, ID_to_s, 0, 0)); } static VALUE assoc2kv(assoc, ary, self) VALUE assoc; VALUE ary; VALUE self; { int i, j, len; volatile VALUE pair; volatile VALUE val; volatile VALUE dst = rb_ary_new2(2 * RARRAY(assoc)->len); len = RARRAY(assoc)->len; for(i = 0; i < len; i++) { pair = RARRAY(assoc)->ptr[i]; if (TYPE(pair) != T_ARRAY) { RARRAY(dst)->ptr[RARRAY(dst)->len++] = key2keyname(pair); continue; } switch(RARRAY(assoc)->len) { case 2: RARRAY(dst)->ptr[RARRAY(dst)->len++] = RARRAY(pair)->ptr[2]; case 1: RARRAY(dst)->ptr[RARRAY(dst)->len++] = key2keyname(RARRAY(pair)->ptr[0]); case 0: continue; default: RARRAY(dst)->ptr[RARRAY(dst)->len++] = key2keyname(RARRAY(pair)->ptr[0]); val = rb_ary_new2(RARRAY(pair)->len - 1); RARRAY(val)->len = 0; for(j = 1; j < RARRAY(pair)->len; j++) { RARRAY(val)->ptr[RARRAY(val)->len++] = RARRAY(pair)->ptr[j]; } RARRAY(dst)->ptr[RARRAY(dst)->len++] = val; } } if (NIL_P(ary)) { return dst; } else { return rb_ary_plus(ary, dst); } } static VALUE assoc2kv_enc(assoc, ary, self) VALUE assoc; VALUE ary; VALUE self; { int i, j, len; volatile VALUE pair; volatile VALUE val; volatile VALUE dst = rb_ary_new2(2 * RARRAY(assoc)->len); len = RARRAY(assoc)->len; for(i = 0; i < len; i++) { pair = RARRAY(assoc)->ptr[i]; if (TYPE(pair) != T_ARRAY) { RARRAY(dst)->ptr[RARRAY(dst)->len++] = key2keyname(pair); continue; } switch(RARRAY(assoc)->len) { case 2: RARRAY(dst)->ptr[RARRAY(dst)->len++] = get_eval_string_core(RARRAY(pair)->ptr[2], Qtrue, self); case 1: RARRAY(dst)->ptr[RARRAY(dst)->len++] = key2keyname(RARRAY(pair)->ptr[0]); case 0: continue; default: RARRAY(dst)->ptr[RARRAY(dst)->len++] = key2keyname(RARRAY(pair)->ptr[0]); val = rb_ary_new2(RARRAY(pair)->len - 1); RARRAY(val)->len = 0; for(j = 1; j < RARRAY(pair)->len; j++) { RARRAY(val)->ptr[RARRAY(val)->len++] = RARRAY(pair)->ptr[j]; } RARRAY(dst)->ptr[RARRAY(dst)->len++] = get_eval_string_core(val, Qtrue, self); } } if (NIL_P(ary)) { return dst; } else { return rb_ary_plus(ary, dst); } } static int push_kv(key, val, args, err) VALUE key; VALUE val; VALUE args; int err; { volatile VALUE ary; hash_check(err); ary = RARRAY(args)->ptr[0]; if (key == Qundef) return ST_CONTINUE; #if 0 rb_ary_push(ary, key2keyname(key)); if (val != TK_None) rb_ary_push(ary, val); #endif RARRAY(ary)->ptr[RARRAY(ary)->len++] = key2keyname(key); if (val == TK_None) return ST_CHECK; RARRAY(ary)->ptr[RARRAY(ary)->len++] = get_eval_string_core(val, Qnil, RARRAY(args)->ptr[1]); return ST_CHECK; } static VALUE hash2kv(hash, ary, self) VALUE hash; VALUE ary; VALUE self; { volatile VALUE args = rb_ary_new2(2); volatile VALUE dst = rb_ary_new2(2 * RHASH(hash)->tbl->num_entries); RARRAY(dst)->len = 0; RARRAY(args)->ptr[0] = dst; RARRAY(args)->ptr[1] = self; RARRAY(args)->len = 2; st_foreach(RHASH(hash)->tbl, push_kv, args); if (NIL_P(ary)) { return dst; } else { return rb_ary_concat(ary, dst); } } static int push_kv_enc(key, val, args, err) VALUE key; VALUE val; VALUE args; int err; { volatile VALUE ary; hash_check(err); ary = RARRAY(args)->ptr[0]; if (key == Qundef) return ST_CONTINUE; #if 0 rb_ary_push(ary, key2keyname(key)); if (val != TK_None) { rb_ary_push(ary, get_eval_string_core(val, Qtrue, RARRAY(args)->ptr[1])); } #endif RARRAY(ary)->ptr[RARRAY(ary)->len++] = key2keyname(key); if (val == TK_None) return ST_CHECK; RARRAY(ary)->ptr[RARRAY(ary)->len++] = get_eval_string_core(val, Qtrue, RARRAY(args)->ptr[1]); return ST_CHECK; } static VALUE hash2kv_enc(hash, ary, self) VALUE hash; VALUE ary; VALUE self; { volatile VALUE args = rb_ary_new2(2); volatile VALUE dst = rb_ary_new2(2 * RHASH(hash)->tbl->num_entries); RARRAY(dst)->len = 0; RARRAY(args)->ptr[0] = dst; RARRAY(args)->ptr[1] = self; RARRAY(args)->len = 2; st_foreach(RHASH(hash)->tbl, push_kv_enc, args); if (NIL_P(ary)) { return dst; } else { return rb_ary_concat(ary, dst); } } static VALUE hash2list(hash, self) VALUE hash; VALUE self; { return ary2list2(hash2kv(hash, Qnil, self), self); } static VALUE hash2list_enc(hash, self) VALUE hash; VALUE self; { return ary2list2(hash2kv_enc(hash, Qnil, self), self); } static VALUE tk_hash_kv(argc, argv, self) int argc; VALUE *argv; VALUE self; { volatile VALUE hash, enc_flag, ary; ary = Qnil; enc_flag = Qnil; switch(argc) { case 3: ary = argv[2]; case 2: enc_flag = argv[1]; case 1: hash = argv[0]; break; case 0: rb_raise(rb_eArgError, "too few arguments"); default: /* >= 3 */ rb_raise(rb_eArgError, "too many arguments"); } switch(TYPE(hash)) { case T_ARRAY: if (RTEST(enc_flag)) { return assoc2kv_enc(hash, ary, self); } else { return assoc2kv(hash, ary, self); } case T_HASH: if (RTEST(enc_flag)) { return hash2kv_enc(hash, ary, self); } else { return hash2kv(hash, ary, self); } case T_NIL: if (NIL_P(ary)) { return rb_ary_new(); } else { return ary; } default: if (hash == TK_None) { if (NIL_P(ary)) { return rb_ary_new(); } else { return ary; } } rb_raise(rb_eArgError, "Hash is expected for 1st argument"); } } static VALUE get_eval_string_core(obj, enc_flag, self) VALUE obj; VALUE enc_flag; VALUE self; { switch(TYPE(obj)) { case T_FLOAT: case T_FIXNUM: case T_BIGNUM: return rb_funcall(obj, ID_to_s, 0, 0); case T_STRING: if (RTEST(enc_flag)) { if (rb_respond_to(self, ID_toUTF8)) { return rb_funcall(self, ID_toUTF8, 1, obj); } else { return fromDefaultEnc_toUTF8(obj, self); } } else { return obj; } case T_SYMBOL: if (RTEST(enc_flag)) { if (rb_respond_to(self, ID_toUTF8)) { return rb_funcall(self, ID_toUTF8, 1, rb_str_new2(rb_id2name(SYM2ID(obj)))); } else { return fromDefaultEnc_toUTF8(rb_str_new2(rb_id2name(SYM2ID(obj))), self); } } else { return rb_str_new2(rb_id2name(SYM2ID(obj))); } case T_HASH: if (RTEST(enc_flag)) { return hash2list_enc(obj, self); } else { return hash2list(obj, self); } case T_ARRAY: if (RTEST(enc_flag)) { return fromDefaultEnc_toUTF8(ary2list(obj, self), self); } else { return ary2list(obj, self); } case T_FALSE: return rb_str_new2("0"); case T_TRUE: return rb_str_new2("1"); case T_NIL: return rb_str_new2(""); case T_REGEXP: return rb_funcall(obj, ID_source, 0, 0); default: if (rb_obj_is_kind_of(obj, cTkObject)) { /* return rb_str_new3(rb_funcall(obj, ID_path, 0, 0)); */ return get_eval_string_core(rb_funcall(obj, ID_path, 0, 0), enc_flag, self); } if (rb_obj_is_kind_of(obj, rb_cProc) || rb_obj_is_kind_of(obj, cMethod) || rb_obj_is_kind_of(obj, cTkCallbackEntry)) { if (rb_respond_to(self, ID_install_cmd)) { return rb_funcall(self, ID_install_cmd, 1, obj); } else { return tk_install_cmd_core(obj); } } if (obj == TK_None) return Qnil; if (rb_respond_to(obj, ID_to_eval)) { /* return rb_funcall(obj, ID_to_eval, 0, 0); */ return get_eval_string_core(rb_funcall(obj, ID_to_eval, 0, 0), enc_flag, self); } else if (rb_respond_to(obj, ID_path)) { /* return rb_funcall(obj, ID_path, 0, 0); */ return get_eval_string_core(rb_funcall(obj, ID_path, 0, 0), enc_flag, self); } else if (rb_respond_to(obj, ID_to_s)) { return rb_funcall(obj, ID_to_s, 0, 0); } } rb_warning("fail to convert '%s' to string for Tk", RSTRING(rb_funcall(obj, rb_intern("inspect"), 0, 0))->ptr); return obj; } static VALUE tk_get_eval_string(argc, argv, self) int argc; VALUE *argv; VALUE self; { volatile VALUE obj, enc_flag; if (rb_scan_args(argc, argv, "11", &obj, &enc_flag) == 1) { enc_flag = Qnil; } return get_eval_string_core(obj, enc_flag, self); } static VALUE tk_get_eval_enc_str(self, obj) VALUE self; VALUE obj; { if (obj == TK_None) { return obj; } else { return get_eval_string_core(obj, Qtrue, self); } } static VALUE tk_conv_args(argc, argv, self) int argc; VALUE *argv; VALUE self; { int idx, size; volatile VALUE dst; int thr_crit_bup; VALUE old_gc; thr_crit_bup = rb_thread_critical; rb_thread_critical = Qtrue; old_gc = rb_gc_disable(); if (argc < 2) { rb_raise(rb_eArgError, "too few arguments"); } for(size = 0, idx = 2; idx < argc; idx++) { if (TYPE(argv[idx]) == T_HASH) { size += 2 * RHASH(argv[idx])->tbl->num_entries; } else { size++; } } /* dst = rb_ary_new2(argc - 2); */ dst = rb_ary_new2(size); RARRAY(dst)->len = 0; for(idx = 2; idx < argc; idx++) { if (TYPE(argv[idx]) == T_HASH) { if (RTEST(argv[1])) { hash2kv_enc(argv[idx], dst, self); } else { hash2kv(argv[idx], dst, self); } } else if (argv[idx] != TK_None) { RARRAY(dst)->ptr[RARRAY(dst)->len++] = get_eval_string_core(argv[idx], argv[1], self); } } if (old_gc == Qfalse) rb_gc_enable(); rb_thread_critical = thr_crit_bup; return rb_ary_plus(argv[0], dst); } /*************************************/ static VALUE tcl2rb_bool(self, value) VALUE self; VALUE value; { if (TYPE(value) == T_FIXNUM) { if (NUM2INT(value) == 0) { return Qfalse; } else { return Qtrue; } } if (TYPE(value) == T_TRUE || TYPE(value) == T_FALSE) { return value; } rb_check_type(value, T_STRING); value = rb_funcall(value, ID_downcase, 0); if (RSTRING(value)->ptr[0] == '\0' || strcmp(RSTRING(value)->ptr, "0") == 0 || strcmp(RSTRING(value)->ptr, "no") == 0 || strcmp(RSTRING(value)->ptr, "off") == 0 || strcmp(RSTRING(value)->ptr, "false") == 0) { return Qfalse; } else { return Qtrue; } } static VALUE tkstr_to_dec(value) VALUE value; { return rb_cstr_to_inum(RSTRING(value)->ptr, 10, 1); } static VALUE tkstr_to_int(value) VALUE value; { return rb_cstr_to_inum(RSTRING(value)->ptr, 0, 1); } static VALUE tkstr_to_float(value) VALUE value; { return rb_float_new(rb_cstr_to_dbl(RSTRING(value)->ptr, 1)); } static VALUE tkstr_invalid_numstr(value) VALUE value; { rb_raise(rb_eArgError, "invalid value for Number: '%s'", RSTRING(value)->ptr); return Qnil; /*dummy*/ } static VALUE tkstr_rescue_float(value) VALUE value; { return rb_rescue2(tkstr_to_float, value, tkstr_invalid_numstr, value, rb_eArgError, 0); } static VALUE tkstr_to_number(value) VALUE value; { rb_check_type(value, T_STRING); return rb_rescue2(tkstr_to_int, value, tkstr_rescue_float, value, rb_eArgError, 0); } static VALUE tcl2rb_number(self, value) VALUE self; VALUE value; { return tkstr_to_number(value); } static VALUE tkstr_to_str(value) VALUE value; { char * ptr; int len; ptr = RSTRING(value)->ptr; len = RSTRING(value)->len; if (len > 1 && *ptr == '{' && *(ptr + len - 1) == '}') { return rb_str_new(ptr + 1, len - 2); } return value; } static VALUE tcl2rb_string(self, value) VALUE self; VALUE value; { rb_check_type(value, T_STRING); return tkstr_to_str(value); } static VALUE tcl2rb_num_or_str(self, value) VALUE self; VALUE value; { rb_check_type(value, T_STRING); return rb_rescue2(tkstr_to_number, value, tkstr_to_str, value, rb_eArgError, 0); } /*************************************/ struct cbsubst_info { int size; char *key; char *type; ID *ivar; VALUE proc; }; static void subst_mark(ptr) struct cbsubst_info *ptr; { rb_gc_mark(ptr->proc); } static void subst_free(ptr) struct cbsubst_info *ptr; { if (ptr) { if (ptr->key != (char*)NULL) free(ptr->key); if (ptr->type != (char*)NULL) free(ptr->type); if (ptr->ivar != (ID*)NULL) free(ptr->ivar); free(ptr); } } static void cbsubst_init() { struct cbsubst_info *inf; ID *ivar; volatile VALUE proc; inf = ALLOC(struct cbsubst_info); inf->size = 0; inf->key = ALLOC_N(char, 1); inf->key[0] = '\0'; inf->type = ALLOC_N(char, 1); inf->type[0] = '\0'; ivar = ALLOC_N(ID, 1); inf->ivar = ivar; proc = rb_hash_new(); inf->proc = proc; rb_const_set(cCB_SUBST, ID_SUBST_INFO, Data_Wrap_Struct(cSUBST_INFO, subst_mark, subst_free, inf)); } static VALUE cbsubst_initialize(argc, argv, self) int argc; VALUE *argv; VALUE self; { struct cbsubst_info *inf; volatile VALUE proc; int idx; Data_Get_Struct(rb_const_get(rb_obj_class(self), ID_SUBST_INFO), struct cbsubst_info, inf); for(idx = 0; idx < argc; idx++) { rb_ivar_set(self, inf->ivar[idx], argv[idx]); } return self; } static VALUE cbsubst_ret_val(self, val) VALUE self; VALUE val; { return val; } static VALUE cbsubst_get_subst_key(self, str) VALUE self; VALUE str; { volatile VALUE list; volatile VALUE ret; int i, len; char *buf, *ptr; list = rb_funcall(cTclTkLib, ID_split_tklist, 1, str); len = RARRAY(list)->len; buf = ALLOC_N(char, len + 1); for(i = 0; i < len; i++) { ptr = RSTRING(RARRAY(list)->ptr[i])->ptr; if (*ptr == '%' && *(ptr + 2) == '\0') { *(buf + i) = *(ptr + 1); } else { *(buf + i) = ' '; } } *(buf + len) = '\0'; ret = rb_str_new2(buf); free(buf); return ret; } static VALUE cbsubst_get_all_subst_keys(self) VALUE self; { struct cbsubst_info *inf; char *buf, *ptr; int i, len; volatile VALUE ret; Data_Get_Struct(rb_const_get(self, ID_SUBST_INFO), struct cbsubst_info, inf); len = strlen(inf->key); buf = ALLOC_N(char, 3*len + 1); ptr = buf; for(i = 0; i < len; i++) { *(ptr++) = '%'; *(ptr++) = *(inf->key + i); *(ptr++) = ' '; } *(buf + 3*len) = '\0'; ret = rb_ary_new3(2, rb_str_new2(inf->key), rb_str_new2(buf)); free(buf); return ret; } static VALUE cbsubst_table_setup(self, key_inf, proc_inf) VALUE self; VALUE key_inf; VALUE proc_inf; { struct cbsubst_info *subst_inf; int idx; int len = RARRAY(key_inf)->len; int real_len = 0; char *key = ALLOC_N(char, len + 1); char *type = ALLOC_N(char, len + 1); ID *ivar = ALLOC_N(ID, len + 1); volatile VALUE proc = rb_hash_new(); volatile VALUE inf; /* init */ subst_inf = ALLOC(struct cbsubst_info); /* subst_inf->size = len; */ subst_inf->key = key; subst_inf->type = type; subst_inf->ivar = ivar; subst_inf->proc = proc; /* * keys : array of [subst, type, ivar] * subst ==> char code * type ==> char code * ivar ==> symbol */ for(idx = 0; idx < len; idx++) { inf = RARRAY(key_inf)->ptr[idx]; if (TYPE(inf) != T_ARRAY) continue; *(key + real_len) = (char)NUM2INT(RARRAY(inf)->ptr[0]); *(type + real_len) = (char)NUM2INT(RARRAY(inf)->ptr[1]); *(ivar + real_len) = rb_intern( RSTRING( rb_str_cat2(rb_str_new2("@"), rb_id2name(SYM2ID(RARRAY(inf)->ptr[2]))) )->ptr ); rb_attr(self, SYM2ID(RARRAY(inf)->ptr[2]), 1, 0, Qtrue); real_len++; } *(key + real_len) = '\0'; *(type + real_len) = '\0'; subst_inf->size = real_len; /* * procs : array of [type, proc] * type ==> char code * proc ==> proc/method/obj (must respond to 'call') */ len = RARRAY(proc_inf)->len; for(idx = 0; idx < len; idx++) { inf = RARRAY(proc_inf)->ptr[idx]; if (TYPE(inf) != T_ARRAY) continue; rb_hash_aset(proc, RARRAY(inf)->ptr[0], RARRAY(inf)->ptr[1]); } rb_const_set(self, ID_SUBST_INFO, Data_Wrap_Struct(cSUBST_INFO, subst_mark, subst_free, subst_inf)); return self; } static VALUE cbsubst_get_extra_args_tbl(self) VALUE self; { return rb_ary_new(); } static VALUE cbsubst_scan_args(self, arg_key, val_ary) VALUE self; VALUE arg_key; VALUE val_ary; { struct cbsubst_info *inf; int idx; int len = RARRAY(val_ary)->len; char c; char *ptr; volatile VALUE dst = rb_ary_new2(len); volatile VALUE proc; int thr_crit_bup; VALUE old_gc; thr_crit_bup = rb_thread_critical; rb_thread_critical = Qtrue; old_gc = rb_gc_disable(); Data_Get_Struct(rb_const_get(self, ID_SUBST_INFO), struct cbsubst_info, inf); RARRAY(dst)->len = 0; for(idx = 0; idx < len; idx++) { if (idx >= RSTRING(arg_key)->len) { proc = Qnil; } else if (*(RSTRING(arg_key)->ptr + idx) == ' ') { proc = Qnil; } else { ptr = strchr(inf->key, *(RSTRING(arg_key)->ptr + idx)); if (ptr == (char*)NULL) { proc = Qnil; } else { c = *(inf->type + (ptr - inf->key)); proc = rb_hash_aref(inf->proc, INT2FIX(c)); } } if (NIL_P(proc)) { RARRAY(dst)->ptr[RARRAY(dst)->len++] = RARRAY(val_ary)->ptr[idx]; } else { RARRAY(dst)->ptr[RARRAY(dst)->len++] = rb_funcall(proc, ID_call, 1, RARRAY(val_ary)->ptr[idx]); } } if (old_gc == Qfalse) rb_gc_enable(); rb_thread_critical = thr_crit_bup; return dst; } static VALUE cbsubst_inspect(self) VALUE self; { return rb_str_new2("CallbackSubst"); } static VALUE substinfo_inspect(self) VALUE self; { return rb_str_new2("SubstInfo"); } /*************************************/ static VALUE tk_cbe_inspect(self) VALUE self; { return rb_str_new2("TkCallbackEntry"); } /*************************************/ static VALUE tkobj_path(self) VALUE self; { return rb_ivar_get(self, ID_at_path); } /*************************************/ /* release date */ const char tkutil_release_date[] = TKUTIL_RELEASE_DATE; void Init_tkutil() { volatile VALUE tmp; VALUE cTK = rb_define_class("TkKernel", rb_cObject); VALUE mTK = rb_define_module("TkUtil"); /* --------------------- */ rb_define_const(mTK, "RELEASE_DATE", rb_obj_freeze(rb_str_new2(tkutil_release_date))); /* --------------------- */ rb_global_variable(&cMethod); cMethod = rb_const_get(rb_cObject, rb_intern("Method")); ID_path = rb_intern("path"); ID_at_path = rb_intern("@path"); ID_to_eval = rb_intern("to_eval"); ID_to_s = rb_intern("to_s"); ID_source = rb_intern("source"); ID_downcase = rb_intern("downcase"); ID_install_cmd = rb_intern("install_cmd"); ID_merge_tklist = rb_intern("_merge_tklist"); ID_call = rb_intern("call"); /* --------------------- */ cCB_SUBST = rb_define_class_under(mTK, "CallbackSubst", rb_cObject); rb_define_singleton_method(cCB_SUBST, "inspect", cbsubst_inspect, 0); cSUBST_INFO = rb_define_class_under(cCB_SUBST, "Info", rb_cObject); rb_define_singleton_method(cSUBST_INFO, "inspect", substinfo_inspect, 0); ID_SUBST_INFO = rb_intern("SUBST_INFO"); rb_define_singleton_method(cCB_SUBST, "ret_val", cbsubst_ret_val, 1); rb_define_singleton_method(cCB_SUBST, "scan_args", cbsubst_scan_args, 2); rb_define_singleton_method(cCB_SUBST, "_get_subst_key", cbsubst_get_subst_key, 1); rb_define_singleton_method(cCB_SUBST, "_get_all_subst_keys", cbsubst_get_all_subst_keys, 0); rb_define_singleton_method(cCB_SUBST, "_setup_subst_table", cbsubst_table_setup, 2); rb_define_singleton_method(cCB_SUBST, "_get_extra_args_tbl", cbsubst_get_extra_args_tbl, 0); rb_define_method(cCB_SUBST, "initialize", cbsubst_initialize, -1); cbsubst_init(); /* --------------------- */ rb_global_variable(&cTkCallbackEntry); cTkCallbackEntry = rb_define_class("TkCallbackEntry", cTK); rb_define_singleton_method(cTkCallbackEntry, "inspect", tk_cbe_inspect, 0); /* --------------------- */ rb_global_variable(&cTkObject); cTkObject = rb_define_class("TkObject", cTK); rb_define_method(cTkObject, "path", tkobj_path, 0); /* --------------------- */ rb_require("tcltklib"); rb_global_variable(&cTclTkLib); cTclTkLib = rb_const_get(rb_cObject, rb_intern("TclTkLib")); ID_split_tklist = rb_intern("_split_tklist"); ID_toUTF8 = rb_intern("_toUTF8"); ID_fromUTF8 = rb_intern("_fromUTF8"); /* --------------------- */ rb_define_singleton_method(cTK, "new", tk_s_new, -1); /* --------------------- */ rb_global_variable(&TK_None); TK_None = rb_obj_alloc(rb_cObject); rb_define_const(mTK, "None", TK_None); rb_define_singleton_method(TK_None, "to_s", tkNone_to_s, 0); rb_define_singleton_method(TK_None, "inspect", tkNone_to_s, 0); OBJ_FREEZE(TK_None); /* --------------------- */ rb_global_variable(&CALLBACK_TABLE); CALLBACK_TABLE = rb_hash_new(); /* --------------------- */ rb_define_singleton_method(mTK, "eval_cmd", tk_eval_cmd, -1); rb_define_singleton_method(mTK, "callback", tk_do_callback, -1); rb_define_singleton_method(mTK, "install_cmd", tk_install_cmd, -1); rb_define_singleton_method(mTK, "uninstall_cmd", tk_uninstall_cmd, 1); rb_define_singleton_method(mTK, "_symbolkey2str", tk_symbolkey2str, 1); rb_define_singleton_method(mTK, "hash_kv", tk_hash_kv, -1); rb_define_singleton_method(mTK, "_get_eval_string", tk_get_eval_string, -1); rb_define_singleton_method(mTK, "_get_eval_enc_str", tk_get_eval_enc_str, 1); rb_define_singleton_method(mTK, "bool", tcl2rb_bool, 1); rb_define_singleton_method(mTK, "number", tcl2rb_number, 1); rb_define_singleton_method(mTK, "string", tcl2rb_string, 1); rb_define_singleton_method(mTK, "num_or_str", tcl2rb_num_or_str, 1); rb_define_method(mTK, "_toUTF8", tk_toUTF8, -1); rb_define_method(mTK, "_fromUTF8", tk_fromUTF8, -1); rb_define_method(mTK, "_symbolkey2str", tk_symbolkey2str, 1); rb_define_method(mTK, "hash_kv", tk_hash_kv, -1); rb_define_method(mTK, "_get_eval_string", tk_get_eval_string, -1); rb_define_method(mTK, "_get_eval_enc_str", tk_get_eval_enc_str, 1); rb_define_method(mTK, "_conv_args", tk_conv_args, -1); rb_define_method(mTK, "bool", tcl2rb_bool, 1); rb_define_method(mTK, "number", tcl2rb_number, 1); rb_define_method(mTK, "string", tcl2rb_string, 1); rb_define_method(mTK, "num_or_str", tcl2rb_num_or_str, 1); /* --------------------- */ }