Searched refs:LF (Results 1 – 25 of 58) sorted by relevance
123
16 ÷ 000D ÷ 000D ÷ # ÷ [1: sot ÷] <CARRIAGE RETURN (CR)> (CR) ÷ [4: ( Control | CR | LF ) ÷] <CARRIAG…17 ÷ 000D × 000A ÷ # ÷ [1: sot ÷] <CARRIAGE RETURN (CR)> (CR) × [3: CR × LF] <LINE FEED (LF)> (LF) ÷ …18 ÷ 000D ÷ 0001 ÷ # ÷ [1: sot ÷] <CARRIAGE RETURN (CR)> (CR) ÷ [4: ( Control | CR | LF ) ÷] <START O…19 ÷ 000D ÷ 0300 ÷ # ÷ [1: sot ÷] <CARRIAGE RETURN (CR)> (CR) ÷ [4: ( Control | CR | LF ) ÷] COMBININ…20 ÷ 000D ÷ 1100 ÷ # ÷ [1: sot ÷] <CARRIAGE RETURN (CR)> (CR) ÷ [4: ( Control | CR | LF ) ÷] HANGUL C…21 ÷ 000D ÷ 1160 ÷ # ÷ [1: sot ÷] <CARRIAGE RETURN (CR)> (CR) ÷ [4: ( Control | CR | LF ) ÷] HANGUL J…22 ÷ 000D ÷ 11A8 ÷ # ÷ [1: sot ÷] <CARRIAGE RETURN (CR)> (CR) ÷ [4: ( Control | CR | LF ) ÷] HANGUL J…23 ÷ 000D ÷ AC00 ÷ # ÷ [1: sot ÷] <CARRIAGE RETURN (CR)> (CR) ÷ [4: ( Control | CR | LF ) ÷] HANGUL S…24 ÷ 000D ÷ AC01 ÷ # ÷ [1: sot ÷] <CARRIAGE RETURN (CR)> (CR) ÷ [4: ( Control | CR | LF ) ÷] HANGUL S…25 ÷ 000D ÷ 0020 ÷ # ÷ [1: sot ÷] <CARRIAGE RETURN (CR)> (CR) ÷ [4: ( Control | CR | LF ) ÷] SPACE (O…[all …]
25 ÷ 0020 ÷ 000A ÷ # ÷ [0.2] SPACE (Other) ÷ [5.0] <LINE FEED (LF)> (LF) ÷ [0.3]35 ÷ 000D × 000A ÷ # ÷ [0.2] <CARRIAGE RETURN (CR)> (CR) × [3.0] <LINE FEED (LF)> (LF) ÷ [0.3]43 ÷ 000A ÷ 0020 ÷ # ÷ [0.2] <LINE FEED (LF)> (LF) ÷ [4.0] SPACE (Other) ÷ [0.3]44 ÷ 000A ÷ 000D ÷ # ÷ [0.2] <LINE FEED (LF)> (LF) ÷ [4.0] <CARRIAGE RETURN (CR)> (CR) ÷ [0.3]45 ÷ 000A ÷ 000A ÷ # ÷ [0.2] <LINE FEED (LF)> (LF) ÷ [4.0] <LINE FEED (LF)> (LF) ÷ [0.3]46 ÷ 000A ÷ 0001 ÷ # ÷ [0.2] <LINE FEED (LF)> (LF) ÷ [4.0] <START OF HEADING> (Control) ÷ [0.3]47 ÷ 000A ÷ 0300 ÷ # ÷ [0.2] <LINE FEED (LF)> (LF) ÷ [4.0] COMBINING GRAVE ACCENT (Extend) ÷ [0.3]48 ÷ 000A ÷ 1100 ÷ # ÷ [0.2] <LINE FEED (LF)> (LF) ÷ [4.0] HANGUL CHOSEONG KIYEOK (L) ÷ [0.3]49 ÷ 000A ÷ 1160 ÷ # ÷ [0.2] <LINE FEED (LF)> (LF) ÷ [4.0] HANGUL JUNGSEONG FILLER (V) ÷ [0.3]50 ÷ 000A ÷ 11A8 ÷ # ÷ [0.2] <LINE FEED (LF)> (LF) ÷ [4.0] HANGUL JONGSEONG KIYEOK (T) ÷ [0.3][all …]
27 ÷ 0023 × 000A ÷ # ÷ [0.2] NUMBER SIGN (Other) × [12.0] <LINE FEED (LF)> (GCLF_Sep) ÷ [0.3]43 ÷ 0001 × 000A ÷ # ÷ [0.2] <START OF HEADING> (GCControl) × [12.0] <LINE FEED (LF)> (GCLF_Sep) ÷ [0…59 ÷ 0300 × 000A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (GCExtend) × [12.0] <LINE FEED (LF)> (GCLF_Sep) ÷…75 ÷ 00AD × 000A ÷ # ÷ [0.2] SOFT HYPHEN (GCControl_Format) × [12.0] <LINE FEED (LF)> (GCLF_Sep) ÷ [0…87 ÷ 000A ÷ 0023 ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [4.0] NUMBER SIGN (Other) ÷ [0.3]88 ÷ 000A ÷ 0001 ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [4.0] <START OF HEADING> (GCControl) ÷ [0.…89 ÷ 000A ÷ 0300 ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [4.0] COMBINING GRAVE ACCENT (GCExtend) ÷ …90 ÷ 000A ÷ 00AD ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [4.0] SOFT HYPHEN (GCControl_Format) ÷ [0.…91 ÷ 000A ÷ 000A ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [4.0] <LINE FEED (LF)> (GCLF_Sep) ÷ [0.3]92 ÷ 000A ÷ 000D ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [4.0] <CARRIAGE RETURN (CR)> (GCCR_Sep) ÷ …[all …]
28 ÷ 0020 ÷ 000A ÷ # ÷ [0.2] SPACE (Other) ÷ [999.0] <LINE FEED (LF)> (GCLF_Sep) ÷ [0.3]50 ÷ 0001 ÷ 000A ÷ # ÷ [0.2] <START OF HEADING> (GCControl) ÷ [999.0] <LINE FEED (LF)> (GCLF_Sep) ÷ […72 ÷ 0300 ÷ 000A ÷ # ÷ [0.2] COMBINING GRAVE ACCENT (GCExtend) ÷ [999.0] <LINE FEED (LF)> (GCLF_Sep) …91 ÷ 000A ÷ 0020 ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [999.0] SPACE (Other) ÷ [0.3]92 ÷ 000A ÷ 0001 ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [999.0] <START OF HEADING> (GCControl) ÷ […93 #÷ 000A ÷ 0300 ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [999.0] COMBINING GRAVE ACCENT (GCExtend)…94 ÷ 000A ÷ 000A ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [999.0] <LINE FEED (LF)> (GCLF_Sep) ÷ [0.3]95 ÷ 000A ÷ 000D ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [999.0] <CARRIAGE RETURN (CR)> (GCCR_Sep) …96 ÷ 000A ÷ 0085 ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [999.0] <NEXT LINE (NEL)> (GCControl_Sep) …97 #÷ 000A ÷ 00AD ÷ # ÷ [0.2] <LINE FEED (LF)> (GCLF_Sep) ÷ [999.0] SOFT HYPHEN (GCControl_Format) ÷ …[all …]
18 $LF = [\p{Grapheme_Cluster_Break = LF}];41 $CR $LF;42 ([^$Control $CR $LF] | $HangulSyllable) $Extend*;49 $BackOneCluster = ($LF $CR) | ($Extend* ([^$Control $CR $LF] | $BackHangulSyllable));
38 $LF = \u000a;56 # Rule 3 - break after separators. Keep CR/LF together.58 $CR $LF;86 …e $Sp $Sep $Format $Extend]{bof}] ($Extend | $Format | $Close | $Sp)* ([$Sep{eof}] | $CR $LF){100};106 [{bof}] (.? | $LF $CR) [^$Sep]* [$Sep {eof}] ($SpEx_R* $CloseEx_R* ($STermEx_R | $ATermEx_R))*;121 # (.? | $LF $CR) Match one $Sep instance. Use .? rather than $Sep because position might be
32 # LF ID CM AL AL35 # LF CM AL AL77 $LF = [:LineBreak = Line_Feed:];177 $CAN_CM = [^$SP $BK $CR $LF $NL $ZW $CM]; # Bases that can take CMs178 $CANT_CM = [ $SP $BK $CR $LF $NL $ZW $CM]; # Bases that can't take CMs186 $AL_FOLLOW_NOCM = [$BK $CR $LF $NL $ZW $SP];194 $LB4Breaks = [$BK $CR $LF $NL];195 $LB4NonBreaks = [^$BK $CR $LF $NL];196 $CR $LF {100};218 # LB 9 Combining marks. X $CM needs to behave like X, where X is not $SP, $BK $CR $LF $N…[all …]
40 $LF = \u000a;74 # Rule 3 - CR x LF77 $CR $LF ($Extend | $Format)*;145 ($Format | $Extend)* $LF $CR;
40 $LF = \u000a;74 # Rule 3 - CR x LF77 $CR $LF ($Extend | $Format)*;149 ($Format | $Extend)* $LF $CR;
46 public static final int LF = 10; // <US-ASCII LF, linefeed (10)> field in HTTP93 return ch == SP || ch == HT || ch == CR || ch == LF; in isWhitespace()
134 static const UChar LF = 0x0a; in isNewlineMark() local138 if ( c == CR && curOffset + 1 < len && base[curOffset + 1] == LF){ in isNewlineMark()143 if ( c == CR || c == LF) { in isNewlineMark()
34 #define LF 0x000A macro183 if(c == CR || c == LF){ in getStringToken()196 if(c == CR || c == LF){ in getStringToken()
8 Source files with LF line endings (for Unix/Linux) and with a16 Source files with LF line endings (for Unix/Linux) without the
157 if (this.buffer[i] == HTTP.LF) { in locateLF()212 if (this.linebuffer.byteAt(l - 1) == HTTP.LF) { in lineFromLineBuffer()
213 if ((cr != HTTP.CR) || (lf != HTTP.LF)) { in getChunkSize()
54 private static final byte[] CRLF = new byte[] {HTTP.CR, HTTP.LF};
22 # This file is a modified version of ibm-1140.ucm that maps both the EBCDIC LF23 # and NL codes to U+000A LF. U+000A<->cp+25 is the roundtrip. The fallbacks are25 # This allows to use a file with either LF/NL definition (CDRA vs. S/390 USS)
290 LF =0x000a, enumerator
127 #define LF 0x000A macro
82 #define LF 0x0A macro1857 if(sourceChar == CR || sourceChar == LF) { in UConverter_fromUnicode_ISO_2022_JP_OFFSETS_LOGIC()2035 case LF: in UConverter_toUnicode_ISO_2022_JP_OFFSETS_LOGIC()2799 if(sourceChar == CR || sourceChar == LF) { in UConverter_fromUnicode_ISO_2022_CN_OFFSETS_LOGIC()3121 case LF: in UConverter_toUnicode_ISO_2022_CN_OFFSETS_LOGIC()
1608 while (c != CR && c != LF); in utrans_stripRules()1612 if (c2 == CR || c2 == LF) { in utrans_stripRules()1640 if (c == CR || c == LF) in utrans_stripRules()1648 if (c != CR && c != LF && c != 0x0020) { in utrans_stripRules()
350 GCB; LF ; LF455 lb ; LF ; Line_Feed
282 // a CRLF pair. Unfortunately, some servers will use LF285 // to be more forgiving. It will now accept CRLF, LF, or
56 - General: TOS uses CR,LF as end of line char., Flex wants only a single57 LF as EOL char. Therefore all I/O must be translated using f* calls.127 to MSDOS (Both use CR,LF as end of line character). Therefore I have804 X - General: TOS uses CR,LF as end of line char., Flex wants only a single805 X LF as EOL char. Therefore all I/O must be translated using f* calls.