diff options
Diffstat (limited to 'doc')
| -rw-r--r-- | doc/Encoding.3 | 16 | ||||
| -rw-r--r-- | doc/binary.n | 40 | ||||
| -rw-r--r-- | doc/chan.n | 2 |
3 files changed, 29 insertions, 29 deletions
diff --git a/doc/Encoding.3 b/doc/Encoding.3 index 7453549..80bab73 100644 --- a/doc/Encoding.3 +++ b/doc/Encoding.3 @@ -580,13 +580,13 @@ encoding: E init {} final {} -iso8859-1 \ex1b(B -jis0201 \ex1b(J -jis0208 \ex1b$@ -jis0208 \ex1b$B -jis0212 \ex1b$(D -gb2312 \ex1b$A -ksc5601 \ex1b$(C +iso8859-1 \ex1B(B +jis0201 \ex1B(J +jis0208 \ex1B$@ +jis0208 \ex1B$B +jis0212 \ex1B$(D +gb2312 \ex1B$A +ksc5601 \ex1B$(C .CE .PP In the file, the first column represents an option and the second column @@ -598,7 +598,7 @@ marks that encoding. Tcl syntax is used for the values; in the above example, for instance, .QW \fB{}\fR represents the empty string and -.QW \fB\ex1b\fR +.QW \fB\ex1B\fR represents character 27. .PP When \fBTcl_GetEncoding\fR encounters an encoding \fIname\fR that has not diff --git a/doc/binary.n b/doc/binary.n index 70f569b..7968d77 100644 --- a/doc/binary.n +++ b/doc/binary.n @@ -240,7 +240,7 @@ which returns a binary string equivalent to: \fB\e254\fR .CE .PP -(i.e. \fB\exac\fR) by +(i.e. \fB\exAC\fR) by truncating the high-bits of the character, and which is probably not what is desired. .RE @@ -298,7 +298,7 @@ high-to-low order within each byte. For example, will return a binary string equivalent to: .PP .CS -\fB\exe0\exe1\exa0\fR +\fB\exE0\exE1\exA0\fR .CE .RE .IP \fBH\fR 5 @@ -325,7 +325,7 @@ remaining bits of the last byte will be zeros. For example, will return a binary string equivalent to: .PP .CS -\fB\exab\ex00\exde\exf0\ex98\fR +\fB\exAB\ex00\exDE\exF0\ex98\fR .CE .RE .IP \fBh\fR 5 @@ -340,7 +340,7 @@ low-to-high order within each byte. This is seldom required. For example, will return a binary string equivalent to: .PP .CS -\fB\exba\ex00\exed\ex0f\ex89\fR +\fB\exBA\ex00\exED\ex0F\ex89\fR .CE .RE .IP \fBc\fR 5 @@ -362,7 +362,7 @@ than \fIcount\fR, then the extra elements are ignored. For example, will return a binary string equivalent to: .PP .CS -\fB\ex03\exfd\ex80\ex04\ex02\ex05\fR +\fB\ex03\exFD\ex80\ex04\ex02\ex05\fR .CE .PP whereas: @@ -388,7 +388,7 @@ example, will return a binary string equivalent to: .PP .CS -\fB\ex03\ex00\exfd\exff\ex02\ex01\fR +\fB\ex03\ex00\exFD\exFF\ex02\ex01\fR .CE .RE .IP \fBS\fR 5 @@ -404,7 +404,7 @@ example, will return a binary string equivalent to: .PP .CS -\fB\ex00\ex03\exff\exfd\ex01\ex02\fR +\fB\ex00\ex03\exFF\exFD\ex01\ex02\fR .CE .RE .IP \fBt\fR 5 @@ -428,7 +428,7 @@ example, will return a binary string equivalent to: .PP .CS -\fB\ex03\ex00\ex00\ex00\exfd\exff\exff\exff\ex00\ex00\ex01\ex00\fR +\fB\ex03\ex00\ex00\ex00\exFD\exFF\exFF\exFF\ex00\ex00\ex01\ex00\fR .CE .RE .IP \fBI\fR 5 @@ -444,7 +444,7 @@ For example, will return a binary string equivalent to: .PP .CS -\fB\ex00\ex00\ex00\ex03\exff\exff\exff\exfd\ex00\ex01\ex00\ex00\fR +\fB\ex00\ex00\ex00\ex03\exFF\exFF\exFF\exFD\ex00\ex01\ex00\ex00\fR .CE .RE .IP \fBn\fR 5 @@ -509,7 +509,7 @@ on a Windows system running on an Intel Pentium processor, will return a binary string equivalent to: .PP .CS -\fB\excd\excc\excc\ex3f\ex9a\ex99\ex59\ex40\fR +\fB\exCD\exCC\exCC\ex3F\ex9A\ex99\ex59\ex40\fR .CE .RE .IP \fBr\fR 5 @@ -535,7 +535,7 @@ Windows system running on an Intel Pentium processor, will return a binary string equivalent to: .PP .CS -\fB\ex9a\ex99\ex99\ex99\ex99\ex99\exf9\ex3f\fR +\fB\ex9A\ex99\ex99\ex99\ex99\ex99\exF9\ex3F\fR .CE .RE .IP \fBq\fR 5 @@ -787,7 +787,7 @@ scanned. For example, .RS .PP .CS -\fBbinary scan\fR \ex07\exC6\ex05\ex1f\ex34 H3H* var1 var2 +\fBbinary scan\fR \ex07\exC6\ex05\ex1F\ex34 H3H* var1 var2 .CE .PP will return \fB2\fR with \fB07c\fR stored in \fIvar1\fR and @@ -838,7 +838,7 @@ example, .RS .PP .CS -\fBbinary scan\fR \ex05\ex00\ex07\ex00\exf0\exff s2s* var1 var2 +\fBbinary scan\fR \ex05\ex00\ex07\ex00\exF0\exFF s2s* var1 var2 .CE .PP will return \fB2\fR with \fB5 7\fR stored in \fIvar1\fR and \fB\-16\fR @@ -852,7 +852,7 @@ order. For example, .RS .PP .CS -\fBbinary scan\fR \ex00\ex05\ex00\ex07\exff\exf0 S2S* var1 var2 +\fBbinary scan\fR \ex00\ex05\ex00\ex07\exFF\exF0 S2S* var1 var2 .CE .PP will return \fB2\fR with \fB5 7\fR stored in \fIvar1\fR and \fB\-16\fR @@ -877,7 +877,7 @@ example, .RS .PP .CS -set str \ex05\ex00\ex00\ex00\ex07\ex00\ex00\ex00\exf0\exff\exff\exff +set str \ex05\ex00\ex00\ex00\ex07\ex00\ex00\ex00\exF0\exFF\exFF\exFF \fBbinary scan\fR $str i2i* var1 var2 .CE .PP @@ -893,7 +893,7 @@ immediately after the \fBI\fR. For example, .RS .PP .CS -set str \ex00\ex00\ex00\ex05\ex00\ex00\ex00\ex07\exff\exff\exff\exf0 +set str \ex00\ex00\ex00\ex05\ex00\ex00\ex00\ex07\exFF\exFF\exFF\exF0 \fBbinary scan\fR $str I2I* var1 var2 .CE .PP @@ -919,7 +919,7 @@ example, .RS .PP .CS -set str \ex05\ex00\ex00\ex00\ex07\ex00\ex00\ex00\exf0\exff\exff\exff +set str \ex05\ex00\ex00\ex00\ex07\ex00\ex00\ex00\exF0\exFF\exFF\exFF \fBbinary scan\fR $str wi* var1 var2 .CE .PP @@ -934,7 +934,7 @@ immediately after the \fBW\fR. For example, .RS .PP .CS -set str \ex00\ex00\ex00\ex05\ex00\ex00\ex00\ex07\exff\exff\exff\exf0 +set str \ex00\ex00\ex00\ex05\ex00\ex00\ex00\ex07\exFF\exFF\exFF\exF0 \fBbinary scan\fR $str WI* var1 var2 .CE .PP @@ -965,7 +965,7 @@ Intel Pentium processor, .RS .PP .CS -\fBbinary scan\fR \ex3f\excc\excc\excd f var1 +\fBbinary scan\fR \ex3F\exCC\exCC\exCD f var1 .CE .PP will return \fB1\fR with \fB1.6000000238418579\fR stored in @@ -989,7 +989,7 @@ running on an Intel Pentium processor, .RS .PP .CS -\fBbinary scan\fR \ex9a\ex99\ex99\ex99\ex99\ex99\exf9\ex3f d var1 +\fBbinary scan\fR \ex9A\ex99\ex99\ex99\ex99\ex99\exF9\ex3F d var1 .CE .PP will return \fB1\fR with \fB1.6000000000000001\fR @@ -168,7 +168,7 @@ applied to input only. The default value is the empty string, except that under Windows the default value for reading is Control-z (\ex1A). The acceptable range is \ex01 - -\ex7f. A value outside this range results in an error. +\ex7F. A value outside this range results in an error. .VS "TCL8.7 TIP656" .TP \fB\-profile\fR \fIprofile\fR |