1904 lines
88 KiB
Plaintext
1904 lines
88 KiB
Plaintext
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XTerm Control Sequences
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Edward Moy
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University of California, Berkeley
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Revised by
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Stephen Gildea
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X Consortium (1994)
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Thomas Dickey
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XFree86 Project (1996-2006)
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invisible-island.net (2006-2017)
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updated for XTerm Patch #329 (2017/06/11)
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Definitions
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c The literal character c.
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C A single (required) character.
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Ps A single (usually optional) numeric parameter, composed of one of
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more digits.
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Pm A multiple numeric parameter composed of any number of single
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numeric parameters, separated by ; character(s). Individual val-
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ues for the parameters are listed with Ps .
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Pt A text parameter composed of printable characters.
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Control Bytes, Characters, and Sequences
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ECMA-48 (aka "ISO 6429") documents C1 (8-bit) and C0 (7-bit) codes.
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Those are respectively codes 128 to 159 and 0 to 31. ECMA-48 avoids
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referring to these codes as characters, because that term is associated
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with graphic characters. Instead, it uses "bytes" and "codes", with
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occasional lapses to "characters" where the meaning cannot be mistaken.
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Controls (including the escape code 27) are processed once:
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o This means that a C1 control can be mistaken for badly-formed UTF-8
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when the terminal runs in UTF-8 mode because C1 controls are valid
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continuation bytes of a UTF-8 encoded (multibyte) value.
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o It is not possible to use a C1 control obtained from decoding the
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UTF-8 text, because that would require reprocessing the data. Conse-
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quently there is no ambiguity in the way this document uses the term
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"character" to refer to bytes in a control sequence.
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The order of processing is a necessary consequence of the way ECMA-48 is
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designed:
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o Each byte sent to the terminal can be unambiguously determined to fall
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into one of a few categories (C0, C1 and graphic characters).
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o ECMA-48 is modal; once it starts processing a control sequence, the
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terminal continues until the sequence is complete, or some byte is
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found which is not allowed in the sequence.
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o Intermediate, parameter and final bytes may use the same codes as
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graphic characters, but they are processed as part of a control
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sequence and are not actually graphic characters.
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o Eight-bit controls can have intermediate, etc., bytes in the range 160
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to 255. Those can be treated as their counterparts in the range 32 to
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127.
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o Single-byte controls can be handled separately from multi-byte control
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sequences because ECMA-48's rules are unambiguous.
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As a special case, ECMA-48 (section 9) mentions that the control func-
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tions shift-in and shift-out are allowed to occur within a 7-bit
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multibyte control sequence because those cannot alter the meaning of
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the control sequence.
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o Some controls (such as OSC ) introduce a string mode, which is ended
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on a ST (string terminator).
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Again, the terminal should accept single-byte controls within the
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string. However, xterm has a resource setting brokenLinuxOSC to allow
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recovery from applications which rely upon malformed palette sequences
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used by the Linux console.
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C1 (8-Bit) Control Characters
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The xterm program recognizes both 8-bit and 7-bit control characters.
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It generates 7-bit controls (by default) or 8-bit if S8C1T is enabled.
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The following pairs of 7-bit and 8-bit control characters are equiva-
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lent:
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ESC D
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Index (IND is 0x84).
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ESC E
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Next Line (NEL is 0x85).
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ESC H
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Tab Set (HTS is 0x88).
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ESC M
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Reverse Index (RI is 0x8d).
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ESC N
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Single Shift Select of G2 Character Set (SS2 is 0x8e). This
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affects next character only.
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ESC O
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Single Shift Select of G3 Character Set (SS3 is 0x8f). This
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affects next character only.
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ESC P
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Device Control String (DCS is 0x90).
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ESC V
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Start of Guarded Area (SPA is 0x96).
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ESC W
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End of Guarded Area (EPA is 0x97).
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ESC X
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Start of String (SOS is 0x98).
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ESC Z
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Return Terminal ID (DECID is 0x9a). Obsolete form of CSI c (DA).
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ESC [
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Control Sequence Introducer (CSI is 0x9b).
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ESC \
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String Terminator (ST is 0x9c).
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ESC ]
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Operating System Command (OSC is 0x9d).
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ESC ^
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Privacy Message (PM is 0x9e).
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ESC _
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Application Program Command (APC is 0x9f).
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These control characters are used in the vtXXX emulation.
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VT100 Mode
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Most of these control sequences are standard VT102 control sequences,
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but there is support for later DEC VT terminals (i.e., VT220, VT320,
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VT420, VT510), as well as ISO 6429 and aixterm color controls. The only
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VT102 feature not supported is auto-repeat, since the only way X pro-
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vides for this will affect all windows.
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There are additional control sequences to provide xterm-dependent func-
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tions, such as the scrollbar or window size. Where the function is
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specified by DEC or ISO 6429, the code assigned to it is given in paren-
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theses.
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The escape codes to designate and invoke character sets are specified by
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ISO 2022 (see that document for a discussion of character sets).
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Many of the features are optional; xterm can be configured and built
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without support for them.
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Single-character functions
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BEL Bell (Ctrl-G).
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BS Backspace (Ctrl-H).
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CR Carriage Return (Ctrl-M).
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ENQ Return Terminal Status (Ctrl-E). Default response is an empty
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string, but may be overridden by a resource answerbackString.
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FF Form Feed or New Page (NP). (FF is Ctrl-L). FF is treated
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the same as LF .
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LF Line Feed or New Line (NL). (LF is Ctrl-J).
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SI Shift In (Ctrl-O) -> Switch to Standard Character Set. This
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invokes the G0 character set (the default).
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SO Shift Out (Ctrl-N) -> Switch to Alternate Character Set. This
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invokes the G1 character set.
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SP Space.
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TAB Horizontal Tab (HT) (Ctrl-I).
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VT Vertical Tab (Ctrl-K). This is treated the same as LF.
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Controls beginning with ESC
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This excludes controls where ESC is part of a 7-bit equivalent to 8-bit
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C1 controls, ordered by the final character(s).
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ESC SP F 7-bit controls (S7C1T).
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ESC SP G 8-bit controls (S8C1T).
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ESC SP L Set ANSI conformance level 1 (dpANS X3.134.1).
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ESC SP M Set ANSI conformance level 2 (dpANS X3.134.1).
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ESC SP N Set ANSI conformance level 3 (dpANS X3.134.1).
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ESC # 3 DEC double-height line, top half (DECDHL).
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ESC # 4 DEC double-height line, bottom half (DECDHL).
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ESC # 5 DEC single-width line (DECSWL).
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ESC # 6 DEC double-width line (DECDWL).
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ESC # 8 DEC Screen Alignment Test (DECALN).
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ESC % @ Select default character set. That is ISO 8859-1 (ISO 2022).
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ESC % G Select UTF-8 character set (ISO 2022).
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ESC ( C Designate G0 Character Set (ISO 2022, VT100).
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Final character C for designating 94-character sets. In this
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list, 0 , A and B apply to VT100 and up, the remainder to
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VT220 and up. The VT220 character sets, together with the
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Portuguese character set are activated by the National
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Replacement Character controls. The A is a special case,
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since it is also activated by the VT300-control for British
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Latin-1 separately from the National Replacement Character
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controls.
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C = 0 -> DEC Special Character and Line Drawing Set.
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C = < -> DEC Supplementary (VT200).
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C = % 5 -> DEC Supplementary Graphics (VT300).
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C = > -> DEC Technical (VT300).
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C = A -> United Kingdom (UK).
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C = B -> United States (USASCII).
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C = 4 -> Dutch.
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C = C or 5 -> Finnish.
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C = R or f -> French.
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C = Q or 9 -> French Canadian (VT200, VT300).
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C = K -> German.
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C = Y -> Italian.
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C = ` , E or 6 -> Norwegian/Danish.
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C = % 6 -> Portuguese (VT300).
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C = Z -> Spanish.
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C = H or 7 -> Swedish.
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C = = -> Swiss.
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ESC ) C Designate G1 Character Set (ISO 2022, VT100).
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The same character sets apply as for ESC ( C.
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ESC * C Designate G2 Character Set (ISO 2022, VT220).
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The same character sets apply as for ESC ( C.
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ESC + C Designate G3 Character Set (ISO 2022, VT220).
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The same character sets apply as for ESC ( C.
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ESC - C Designate G1 Character Set (VT300).
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The same character sets apply as for ESC ( C.
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ESC . C Designate G2 Character Set (VT300).
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The same character sets apply as for ESC ( C.
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ESC / C Designate G3 Character Set (VT300).
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These work for 96-character sets only.
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C = A -> ISO Latin-1 Supplemental.
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ESC 6 Back Index (DECBI), VT420 and up.
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ESC 7 Save Cursor (DECSC).
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ESC 8 Restore Cursor (DECRC).
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ESC 9 Forward Index (DECFI), VT420 and up.
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ESC = Application Keypad (DECKPAM).
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ESC > Normal Keypad (DECKPNM).
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ESC F Cursor to lower left corner of screen. This is enabled by the
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hpLowerleftBugCompat resource.
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ESC c Full Reset (RIS).
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ESC l Memory Lock (per HP terminals). Locks memory above the cur-
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sor.
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ESC m Memory Unlock (per HP terminals).
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ESC n Invoke the G2 Character Set as GL (LS2).
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ESC o Invoke the G3 Character Set as GL (LS3).
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ESC | Invoke the G3 Character Set as GR (LS3R).
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ESC } Invoke the G2 Character Set as GR (LS2R).
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ESC ~ Invoke the G1 Character Set as GR (LS1R).
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Application Program-Command functions
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APC Pt ST None. xterm implements no APC functions; Pt is ignored. Pt
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need not be printable characters.
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Device-Control functions
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DCS Ps; Ps| Pt ST
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User-Defined Keys (DECUDK). The first parameter:
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Ps = 0 -> Clear all UDK definitions before starting
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(default).
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Ps = 1 -> Erase Below (default).
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The second parameter:
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Ps = 0 <- Lock the keys (default).
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Ps = 1 <- Do not lock.
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The third parameter is a ';'-separated list of strings denot-
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ing the key-code separated by a '/' from the hex-encoded key
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value. The key codes correspond to the DEC function-key codes
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(e.g., F6=17).
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DCS $ q Pt ST
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Request Status String (DECRQSS). The string following the "q"
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is one of the following:
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" q -> DECSCA
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" p -> DECSCL
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r -> DECSTBM
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s -> DECSLRM
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m -> SGR
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SP q -> DECSCUSR
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xterm responds with DCS 1 $ r Pt ST for valid requests,
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replacing the Pt with the corresponding CSI string, or DCS 0 $
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r Pt ST for invalid requests.
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DCS + p Pt ST
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Set Termcap/Terminfo Data (xterm, experimental). The string
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following the "p" is a name to use for retrieving data from
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the terminal database. The data will be used for the "tcap"
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keyboard configuration's function- and special-keys, as well
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as by the Request Termcap/Terminfo String control.
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DCS + q Pt ST
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Request Termcap/Terminfo String (xterm, experimental). The
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string following the "q" is a list of names encoded in hexa-
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decimal (2 digits per character) separated by ; which corre-
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spond to termcap or terminfo key names.
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Two special features are also recognized, which are not key
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names: Co for termcap colors (or colors for terminfo colors),
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and TN for termcap name (or name for terminfo name).
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xterm responds with DCS 1 + r Pt ST for valid requests, adding
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to Pt an = , and the value of the corresponding string that
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xterm would send, or DCS 0 + r Pt ST for invalid requests.
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The strings are encoded in hexadecimal (2 digits per charac-
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ter).
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Functions using CSI , ordered by the final character(s)
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CSI Ps @ Insert Ps (Blank) Character(s) (default = 1) (ICH).
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CSI Ps A Cursor Up Ps Times (default = 1) (CUU).
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CSI Ps B Cursor Down Ps Times (default = 1) (CUD).
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CSI Ps C Cursor Forward Ps Times (default = 1) (CUF).
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CSI Ps D Cursor Backward Ps Times (default = 1) (CUB).
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CSI Ps E Cursor Next Line Ps Times (default = 1) (CNL).
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CSI Ps F Cursor Preceding Line Ps Times (default = 1) (CPL).
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CSI Ps G Cursor Character Absolute [column] (default = [row,1]) (CHA).
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CSI Ps ; Ps H
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Cursor Position [row;column] (default = [1,1]) (CUP).
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CSI Ps I Cursor Forward Tabulation Ps tab stops (default = 1) (CHT).
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CSI Ps J Erase in Display (ED).
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Ps = 0 -> Erase Below (default).
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Ps = 1 -> Erase Above.
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Ps = 2 -> Erase All.
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Ps = 3 -> Erase Saved Lines (xterm).
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CSI ? Ps J
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Erase in Display (DECSED).
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Ps = 0 -> Selective Erase Below (default).
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Ps = 1 -> Selective Erase Above.
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Ps = 2 -> Selective Erase All.
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Ps = 3 -> Selective Erase Saved Lines (xterm).
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CSI Ps K Erase in Line (EL).
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Ps = 0 -> Erase to Right (default).
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Ps = 1 -> Erase to Left.
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Ps = 2 -> Erase All.
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CSI ? Ps K
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Erase in Line (DECSEL).
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Ps = 0 -> Selective Erase to Right (default).
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Ps = 1 -> Selective Erase to Left.
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Ps = 2 -> Selective Erase All.
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CSI Ps L Insert Ps Line(s) (default = 1) (IL).
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CSI Ps M Delete Ps Line(s) (default = 1) (DL).
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CSI Ps P Delete Ps Character(s) (default = 1) (DCH).
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CSI Ps S Scroll up Ps lines (default = 1) (SU).
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CSI ? Pi; Pa; Pv S
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If configured to support either Sixel Graphics or ReGIS Graph-
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ics, xterm accepts a three-parameter control sequence, where
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Pi, Pa and Pv are the item, action and value:
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Pi = 1 -> item is number of color registers.
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Pi = 2 -> item is Sixel graphics geometry (in pixels).
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Pi = 3 -> item is ReGIS graphics geometry (in pixels).
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Pa = 1 -> read
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Pa = 2 -> reset to default
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Pa = 3 -> set to value in Pv
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Pa = 4 -> read the maximum allowed value
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Pv can be omitted except when setting (Pa == 3 ).
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Pv = n <- A single integer is used for color registers.
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Pv = width; height <- Two integers for graphics geometry.
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xterm replies with a control sequence of the same form:
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CSI ? Pi; Ps; Pv S
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where Ps is the status:
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Ps = 0 -> success.
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Ps = 1 -> error in Pi.
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Ps = 2 -> error in Pa.
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Ps = 3 -> failure.
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On success, Pv represents the value read or set.
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Notes:
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o The current implementation allows reading the graphics
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sizes, but disallows modifying those sizes because that is
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done once, using resource-values.
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o Graphics geometry is not necessarily the same as "window
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size" (see the dtterm window manipulation extensions). For
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example, xterm limits the maximum graphics geometry at com-
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pile time (1000x1000 as of version 328) although the window
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size can be larger.
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o While resizing a window will always change the current
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graphics geometry, the reverse is not true. Setting graph-
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ics geometry does not affect the window size.
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CSI Ps T Scroll down Ps lines (default = 1) (SD).
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CSI Ps ; Ps ; Ps ; Ps ; Ps T
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Initiate highlight mouse tracking. Parameters are
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[func;startx;starty;firstrow;lastrow]. See the section Mouse
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Tracking.
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CSI > Ps; Ps T
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Reset one or more features of the title modes to the default
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value. Normally, "reset" disables the feature. It is possi-
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ble to disable the ability to reset features by compiling a
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different default for the title modes into xterm.
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Ps = 0 -> Do not set window/icon labels using hexadecimal.
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Ps = 1 -> Do not query window/icon labels using hexadeci-
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mal.
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Ps = 2 -> Do not set window/icon labels using UTF-8.
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Ps = 3 -> Do not query window/icon labels using UTF-8.
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(See discussion of "Title Modes").
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CSI Ps X Erase Ps Character(s) (default = 1) (ECH).
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CSI Ps Z Cursor Backward Tabulation Ps tab stops (default = 1) (CBT).
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CSI Pm ` Character Position Absolute [column] (default = [row,1])
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(HPA).
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CSI Pm a Character Position Relative [columns] (default = [row,col+1])
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(HPR).
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CSI Ps b Repeat the preceding graphic character Ps times (REP).
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CSI Ps c Send Device Attributes (Primary DA).
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Ps = 0 or omitted -> request attributes from terminal. The
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response depends on the decTerminalID resource setting.
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-> CSI ? 1 ; 2 c ("VT100 with Advanced Video Option")
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-> CSI ? 1 ; 0 c ("VT101 with No Options")
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-> CSI ? 6 c ("VT102")
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-> CSI ? 6 2 ; Psc ("VT220")
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-> CSI ? 6 3 ; Psc ("VT320")
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-> CSI ? 6 4 ; Psc ("VT420")
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The VT100-style response parameters do not mean anything by
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themselves. VT220 (and higher) parameters do, telling the
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host what features the terminal supports:
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Ps = 1 -> 132-columns.
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Ps = 2 -> Printer.
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Ps = 3 -> ReGIS graphics.
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Ps = 4 -> Sixel graphics.
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Ps = 6 -> Selective erase.
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Ps = 8 -> User-defined keys.
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Ps = 9 -> National Replacement Character sets.
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Ps = 1 5 -> Technical characters.
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Ps = 1 8 -> User windows.
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Ps = 2 1 -> Horizontal scrolling.
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Ps = 2 2 -> ANSI color, e.g., VT525.
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Ps = 2 9 -> ANSI text locator (i.e., DEC Locator mode).
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CSI > Ps c
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Send Device Attributes (Secondary DA).
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Ps = 0 or omitted -> request the terminal's identification
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code. The response depends on the decTerminalID resource set-
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ting. It should apply only to VT220 and up, but xterm extends
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this to VT100.
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-> CSI > Pp ; Pv ; Pc c
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where Pp denotes the terminal type
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Pp = 0 -> "VT100".
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Pp = 1 -> "VT220".
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Pp = 2 -> "VT240".
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Pp = 1 8 -> "VT330".
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Pp = 1 9 -> "VT340".
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Pp = 2 4 -> "VT320".
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Pp = 4 1 -> "VT420".
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Pp = 6 1 -> "VT510".
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Pp = 6 4 -> "VT520".
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Pp = 6 5 -> "VT525".
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and Pv is the firmware version (for xterm, this was originally
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the XFree86 patch number, starting with 95). In a DEC termi-
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nal, Pc indicates the ROM cartridge registration number and is
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always zero.
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CSI Pm d Line Position Absolute [row] (default = [1,column]) (VPA).
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CSI Pm e Line Position Relative [rows] (default = [row+1,column])
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(VPR).
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CSI Ps ; Ps f
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Horizontal and Vertical Position [row;column] (default =
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[1,1]) (HVP).
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CSI Ps g Tab Clear (TBC).
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Ps = 0 -> Clear Current Column (default).
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Ps = 3 -> Clear All.
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CSI Pm h Set Mode (SM).
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Ps = 2 -> Keyboard Action Mode (AM).
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Ps = 4 -> Insert Mode (IRM).
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Ps = 1 2 -> Send/receive (SRM).
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Ps = 2 0 -> Automatic Newline (LNM).
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CSI ? Pm h
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DEC Private Mode Set (DECSET).
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Ps = 1 -> Application Cursor Keys (DECCKM).
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Ps = 2 -> Designate USASCII for character sets G0-G3
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(DECANM), and set VT100 mode.
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Ps = 3 -> 132 Column Mode (DECCOLM).
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Ps = 4 -> Smooth (Slow) Scroll (DECSCLM).
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|
Ps = 5 -> Reverse Video (DECSCNM).
|
|
Ps = 6 -> Origin Mode (DECOM).
|
|
Ps = 7 -> Wraparound Mode (DECAWM).
|
|
Ps = 8 -> Auto-repeat Keys (DECARM).
|
|
Ps = 9 -> Send Mouse X & Y on button press. See the sec-
|
|
tion Mouse Tracking. This is the X10 xterm mouse protocol.
|
|
Ps = 1 0 -> Show toolbar (rxvt).
|
|
Ps = 1 2 -> Start Blinking Cursor (att610).
|
|
Ps = 1 8 -> Print form feed (DECPFF).
|
|
Ps = 1 9 -> Set print extent to full screen (DECPEX).
|
|
Ps = 2 5 -> Show Cursor (DECTCEM).
|
|
Ps = 3 0 -> Show scrollbar (rxvt).
|
|
Ps = 3 5 -> Enable font-shifting functions (rxvt).
|
|
Ps = 3 8 -> Enter Tektronix Mode (DECTEK).
|
|
Ps = 4 0 -> Allow 80 -> 132 Mode.
|
|
Ps = 4 1 -> more(1) fix (see curses resource).
|
|
Ps = 4 2 -> Enable National Replacement Character sets
|
|
(DECNRCM).
|
|
Ps = 4 4 -> Turn On Margin Bell.
|
|
Ps = 4 5 -> Reverse-wraparound Mode.
|
|
Ps = 4 6 -> Start Logging. This is normally disabled by a
|
|
compile-time option.
|
|
Ps = 4 7 -> Use Alternate Screen Buffer. (This may be dis-
|
|
abled by the titeInhibit resource).
|
|
Ps = 6 6 -> Application keypad (DECNKM).
|
|
Ps = 6 7 -> Backarrow key sends backspace (DECBKM).
|
|
Ps = 6 9 -> Enable left and right margin mode (DECLRMM),
|
|
VT420 and up.
|
|
Ps = 9 5 -> Do not clear screen when DECCOLM is set/reset
|
|
(DECNCSM), VT510 and up.
|
|
Ps = 1 0 0 0 -> Send Mouse X & Y on button press and
|
|
release. See the section Mouse Tracking. This is the X11
|
|
xterm mouse protocol.
|
|
Ps = 1 0 0 1 -> Use Hilite Mouse Tracking.
|
|
Ps = 1 0 0 2 -> Use Cell Motion Mouse Tracking.
|
|
Ps = 1 0 0 3 -> Use All Motion Mouse Tracking.
|
|
Ps = 1 0 0 4 -> Send FocusIn/FocusOut events.
|
|
Ps = 1 0 0 5 -> Enable UTF-8 Mouse Mode.
|
|
Ps = 1 0 0 6 -> Enable SGR Mouse Mode.
|
|
Ps = 1 0 0 7 -> Enable Alternate Scroll Mode, i.e., the
|
|
alternateScroll resource.
|
|
Ps = 1 0 1 0 -> Scroll to bottom on tty output (rxvt).
|
|
Ps = 1 0 1 1 -> Scroll to bottom on key press (rxvt).
|
|
Ps = 1 0 1 5 -> Enable urxvt Mouse Mode.
|
|
Ps = 1 0 3 4 -> Interpret "meta" key, sets eighth bit.
|
|
(enables the eightBitInput resource).
|
|
Ps = 1 0 3 5 -> Enable special modifiers for Alt and Num-
|
|
Lock keys. (This enables the numLock resource).
|
|
Ps = 1 0 3 6 -> Send ESC when Meta modifies a key. (This
|
|
enables the metaSendsEscape resource).
|
|
Ps = 1 0 3 7 -> Send DEL from the editing-keypad Delete
|
|
key.
|
|
Ps = 1 0 3 9 -> Send ESC when Alt modifies a key. (This
|
|
enables the altSendsEscape resource).
|
|
Ps = 1 0 4 0 -> Keep selection even if not highlighted.
|
|
(This enables the keepSelection resource).
|
|
Ps = 1 0 4 1 -> Use the CLIPBOARD selection. (This enables
|
|
the selectToClipboard resource).
|
|
Ps = 1 0 4 2 -> Enable Urgency window manager hint when
|
|
Control-G is received. (This enables the bellIsUrgent
|
|
resource).
|
|
Ps = 1 0 4 3 -> Enable raising of the window when Control-G
|
|
is received. (enables the popOnBell resource).
|
|
Ps = 1 0 4 4 -> Reuse the most recent data copied to CLIP-
|
|
BOARD. (This enables the keepClipboard resource).
|
|
Ps = 1 0 4 7 -> Use Alternate Screen Buffer. (This may be
|
|
disabled by the titeInhibit resource).
|
|
Ps = 1 0 4 8 -> Save cursor as in DECSC. (This may be dis-
|
|
abled by the titeInhibit resource).
|
|
Ps = 1 0 4 9 -> Save cursor as in DECSC and use Alternate
|
|
Screen Buffer, clearing it first. (This may be disabled by
|
|
the titeInhibit resource). This combines the effects of the 1
|
|
0 4 7 and 1 0 4 8 modes. Use this with terminfo-based
|
|
applications rather than the 4 7 mode.
|
|
Ps = 1 0 5 0 -> Set terminfo/termcap function-key mode.
|
|
Ps = 1 0 5 1 -> Set Sun function-key mode.
|
|
Ps = 1 0 5 2 -> Set HP function-key mode.
|
|
Ps = 1 0 5 3 -> Set SCO function-key mode.
|
|
Ps = 1 0 6 0 -> Set legacy keyboard emulation (X11R6).
|
|
Ps = 1 0 6 1 -> Set VT220 keyboard emulation.
|
|
Ps = 2 0 0 4 -> Set bracketed paste mode.
|
|
CSI Pm i Media Copy (MC).
|
|
Ps = 0 -> Print screen (default).
|
|
Ps = 4 -> Turn off printer controller mode.
|
|
Ps = 5 -> Turn on printer controller mode.
|
|
Ps = 1 0 -> HTML screen dump.
|
|
Ps = 1 1 -> SVG screen dump.
|
|
CSI ? Pm i
|
|
Media Copy (MC, DEC-specific).
|
|
Ps = 1 -> Print line containing cursor.
|
|
Ps = 4 -> Turn off autoprint mode.
|
|
Ps = 5 -> Turn on autoprint mode.
|
|
Ps = 1 0 -> Print composed display, ignores DECPEX.
|
|
Ps = 1 1 -> Print all pages.
|
|
CSI Pm l Reset Mode (RM).
|
|
Ps = 2 -> Keyboard Action Mode (AM).
|
|
Ps = 4 -> Replace Mode (IRM).
|
|
Ps = 1 2 -> Send/receive (SRM).
|
|
Ps = 2 0 -> Normal Linefeed (LNM).
|
|
CSI ? Pm l
|
|
DEC Private Mode Reset (DECRST).
|
|
Ps = 1 -> Normal Cursor Keys (DECCKM).
|
|
Ps = 2 -> Designate VT52 mode (DECANM).
|
|
Ps = 3 -> 80 Column Mode (DECCOLM).
|
|
Ps = 4 -> Jump (Fast) Scroll (DECSCLM).
|
|
Ps = 5 -> Normal Video (DECSCNM).
|
|
Ps = 6 -> Normal Cursor Mode (DECOM).
|
|
Ps = 7 -> No Wraparound Mode (DECAWM).
|
|
Ps = 8 -> No Auto-repeat Keys (DECARM).
|
|
Ps = 9 -> Don't send Mouse X & Y on button press.
|
|
Ps = 1 0 -> Hide toolbar (rxvt).
|
|
Ps = 1 2 -> Stop Blinking Cursor (att610).
|
|
Ps = 1 8 -> Don't print form feed (DECPFF).
|
|
Ps = 1 9 -> Limit print to scrolling region (DECPEX).
|
|
Ps = 2 5 -> Hide Cursor (DECTCEM).
|
|
Ps = 3 0 -> Don't show scrollbar (rxvt).
|
|
Ps = 3 5 -> Disable font-shifting functions (rxvt).
|
|
Ps = 4 0 -> Disallow 80 -> 132 Mode.
|
|
Ps = 4 1 -> No more(1) fix (see curses resource).
|
|
Ps = 4 2 -> Disable National Replacement Character sets
|
|
(DECNRCM).
|
|
Ps = 4 4 -> Turn Off Margin Bell.
|
|
Ps = 4 5 -> No Reverse-wraparound Mode.
|
|
Ps = 4 6 -> Stop Logging. (This is normally disabled by a
|
|
compile-time option).
|
|
Ps = 4 7 -> Use Normal Screen Buffer.
|
|
Ps = 6 6 -> Numeric keypad (DECNKM).
|
|
Ps = 6 7 -> Backarrow key sends delete (DECBKM).
|
|
Ps = 6 9 -> Disable left and right margin mode (DECLRMM),
|
|
VT420 and up.
|
|
Ps = 9 5 -> Clear screen when DECCOLM is set/reset (DEC-
|
|
NCSM), VT510 and up.
|
|
Ps = 1 0 0 0 -> Don't send Mouse X & Y on button press and
|
|
release. See the section Mouse Tracking.
|
|
Ps = 1 0 0 1 -> Don't use Hilite Mouse Tracking.
|
|
Ps = 1 0 0 2 -> Don't use Cell Motion Mouse Tracking.
|
|
Ps = 1 0 0 3 -> Don't use All Motion Mouse Tracking.
|
|
Ps = 1 0 0 4 -> Don't send FocusIn/FocusOut events.
|
|
Ps = 1 0 0 5 -> Disable UTF-8 Mouse Mode.
|
|
Ps = 1 0 0 6 -> Disable SGR Mouse Mode.
|
|
Ps = 1 0 0 7 -> Disable Alternate Scroll Mode, i.e., the
|
|
alternateScroll resource.
|
|
Ps = 1 0 1 0 -> Don't scroll to bottom on tty output
|
|
(rxvt).
|
|
Ps = 1 0 1 1 -> Don't scroll to bottom on key press (rxvt).
|
|
Ps = 1 0 1 5 -> Disable urxvt Mouse Mode.
|
|
Ps = 1 0 3 4 -> Don't interpret "meta" key. (This disables
|
|
the eightBitInput resource).
|
|
Ps = 1 0 3 5 -> Disable special modifiers for Alt and Num-
|
|
Lock keys. (This disables the numLock resource).
|
|
Ps = 1 0 3 6 -> Don't send ESC when Meta modifies a key.
|
|
(This disables the metaSendsEscape resource).
|
|
Ps = 1 0 3 7 -> Send VT220 Remove from the editing-keypad
|
|
Delete key.
|
|
Ps = 1 0 3 9 -> Don't send ESC when Alt modifies a key.
|
|
(This disables the altSendsEscape resource).
|
|
Ps = 1 0 4 0 -> Do not keep selection when not highlighted.
|
|
(This disables the keepSelection resource).
|
|
Ps = 1 0 4 1 -> Use the PRIMARY selection. (This disables
|
|
the selectToClipboard resource).
|
|
Ps = 1 0 4 2 -> Disable Urgency window manager hint when
|
|
Control-G is received. (This disables the bellIsUrgent
|
|
resource).
|
|
Ps = 1 0 4 3 -> Disable raising of the window when Control-
|
|
G is received. (This disables the popOnBell resource).
|
|
Ps = 1 0 4 7 -> Use Normal Screen Buffer, clearing screen
|
|
first if in the Alternate Screen. (This may be disabled by
|
|
the titeInhibit resource).
|
|
Ps = 1 0 4 8 -> Restore cursor as in DECRC. (This may be
|
|
disabled by the titeInhibit resource).
|
|
Ps = 1 0 4 9 -> Use Normal Screen Buffer and restore cursor
|
|
as in DECRC. (This may be disabled by the titeInhibit
|
|
resource). This combines the effects of the 1 0 4 7 and 1 0
|
|
4 8 modes. Use this with terminfo-based applications rather
|
|
than the 4 7 mode.
|
|
Ps = 1 0 5 0 -> Reset terminfo/termcap function-key mode.
|
|
Ps = 1 0 5 1 -> Reset Sun function-key mode.
|
|
Ps = 1 0 5 2 -> Reset HP function-key mode.
|
|
Ps = 1 0 5 3 -> Reset SCO function-key mode.
|
|
Ps = 1 0 6 0 -> Reset legacy keyboard emulation (X11R6).
|
|
Ps = 1 0 6 1 -> Reset keyboard emulation to Sun/PC style.
|
|
Ps = 2 0 0 4 -> Reset bracketed paste mode.
|
|
CSI Pm m Character Attributes (SGR).
|
|
Ps = 0 -> Normal (default).
|
|
Ps = 1 -> Bold.
|
|
Ps = 2 -> Faint, decreased intensity (ISO 6429).
|
|
Ps = 3 -> Italicized (ISO 6429).
|
|
Ps = 4 -> Underlined.
|
|
Ps = 5 -> Blink (appears as Bold).
|
|
Ps = 7 -> Inverse.
|
|
Ps = 8 -> Invisible, i.e., hidden (VT300).
|
|
Ps = 9 -> Crossed-out characters (ISO 6429).
|
|
Ps = 2 1 -> Doubly-underlined (ISO 6429).
|
|
Ps = 2 2 -> Normal (neither bold nor faint).
|
|
Ps = 2 3 -> Not italicized (ISO 6429).
|
|
Ps = 2 4 -> Not underlined.
|
|
Ps = 2 5 -> Steady (not blinking).
|
|
Ps = 2 7 -> Positive (not inverse).
|
|
Ps = 2 8 -> Visible, i.e., not hidden (VT300).
|
|
Ps = 2 9 -> Not crossed-out (ISO 6429).
|
|
Ps = 3 0 -> Set foreground color to Black.
|
|
Ps = 3 1 -> Set foreground color to Red.
|
|
Ps = 3 2 -> Set foreground color to Green.
|
|
Ps = 3 3 -> Set foreground color to Yellow.
|
|
Ps = 3 4 -> Set foreground color to Blue.
|
|
Ps = 3 5 -> Set foreground color to Magenta.
|
|
Ps = 3 6 -> Set foreground color to Cyan.
|
|
Ps = 3 7 -> Set foreground color to White.
|
|
Ps = 3 9 -> Set foreground color to default (original).
|
|
Ps = 4 0 -> Set background color to Black.
|
|
Ps = 4 1 -> Set background color to Red.
|
|
Ps = 4 2 -> Set background color to Green.
|
|
Ps = 4 3 -> Set background color to Yellow.
|
|
Ps = 4 4 -> Set background color to Blue.
|
|
Ps = 4 5 -> Set background color to Magenta.
|
|
Ps = 4 6 -> Set background color to Cyan.
|
|
Ps = 4 7 -> Set background color to White.
|
|
Ps = 4 9 -> Set background color to default (original).
|
|
|
|
If 16-color support is compiled, the following apply. Assume
|
|
that xterm's resources are set so that the ISO color codes are
|
|
the first 8 of a set of 16. Then the aixterm colors are the
|
|
bright versions of the ISO colors:
|
|
Ps = 9 0 -> Set foreground color to Black.
|
|
Ps = 9 1 -> Set foreground color to Red.
|
|
Ps = 9 2 -> Set foreground color to Green.
|
|
Ps = 9 3 -> Set foreground color to Yellow.
|
|
Ps = 9 4 -> Set foreground color to Blue.
|
|
Ps = 9 5 -> Set foreground color to Magenta.
|
|
Ps = 9 6 -> Set foreground color to Cyan.
|
|
Ps = 9 7 -> Set foreground color to White.
|
|
Ps = 1 0 0 -> Set background color to Black.
|
|
Ps = 1 0 1 -> Set background color to Red.
|
|
Ps = 1 0 2 -> Set background color to Green.
|
|
Ps = 1 0 3 -> Set background color to Yellow.
|
|
Ps = 1 0 4 -> Set background color to Blue.
|
|
Ps = 1 0 5 -> Set background color to Magenta.
|
|
Ps = 1 0 6 -> Set background color to Cyan.
|
|
Ps = 1 0 7 -> Set background color to White.
|
|
|
|
If xterm is compiled with the 16-color support disabled, it
|
|
supports the following, from rxvt:
|
|
Ps = 1 0 0 -> Set foreground and background color to
|
|
default.
|
|
|
|
Xterm maintains a color palette whose entries are identified
|
|
by an index beginning with zero. If 88- or 256-color support
|
|
is compiled, the following apply:
|
|
o All parameters are decimal integers.
|
|
o RGB values range from zero (0) to 255.
|
|
o ISO-8613-3 can be interpreted in more than one way; xterm
|
|
allows the semicolons in this control to be replaced by
|
|
colons (but after the first colon, colons must be used).
|
|
|
|
These ISO-8613-3 controls are supported:
|
|
Pm = 3 8 ; 2 ; Pr; Pg; Pb -> Set foreground color to the
|
|
closest match in xterm's palette for the given RGB Pr/Pg/Pb.
|
|
Pm = 3 8 ; 5 ; Ps -> Set foreground color to Ps.
|
|
Pm = 4 8 ; 2 ; Pr; Pg; Pb -> Set background color to the
|
|
closest match in xterm's palette for the given RGB Pr/Pg/Pb.
|
|
Pm = 4 8 ; 5 ; Ps -> Set background color to Ps.
|
|
|
|
CSI > Ps; Ps m
|
|
Set or reset resource-values used by xterm to decide whether
|
|
to construct escape sequences holding information about the
|
|
modifiers pressed with a given key. The first parameter iden-
|
|
tifies the resource to set/reset. The second parameter is the
|
|
value to assign to the resource. If the second parameter is
|
|
omitted, the resource is reset to its initial value.
|
|
Ps = 0 -> modifyKeyboard.
|
|
Ps = 1 -> modifyCursorKeys.
|
|
Ps = 2 -> modifyFunctionKeys.
|
|
Ps = 4 -> modifyOtherKeys.
|
|
If no parameters are given, all resources are reset to their
|
|
initial values.
|
|
CSI Ps n Device Status Report (DSR).
|
|
Ps = 5 -> Status Report.
|
|
Result ("OK") is CSI 0 n
|
|
Ps = 6 -> Report Cursor Position (CPR) [row;column].
|
|
Result is CSI r ; c R
|
|
|
|
Note: it is possible for this sequence to be sent by a func-
|
|
tion key. For example, with the default keyboard configura-
|
|
tion the shifted F1 key may send (with shift-, control-, alt-
|
|
modifiers)
|
|
CSI 1 ; 2 R , or
|
|
CSI 1 ; 5 R , or
|
|
CSI 1 ; 6 R , etc.
|
|
The second parameter encodes the modifiers; values range from
|
|
2 to 16. See the section PC-Style Function Keys for the
|
|
codes. The modifyFunctionKeys and modifyKeyboard resources
|
|
can change the form of the string sent from the modified F1
|
|
key.
|
|
|
|
CSI > Ps n
|
|
Disable modifiers which may be enabled via the CSI > Ps; Ps m
|
|
sequence. This corresponds to a resource value of "-1", which
|
|
cannot be set with the other sequence. The parameter identi-
|
|
fies the resource to be disabled:
|
|
Ps = 0 -> modifyKeyboard.
|
|
Ps = 1 -> modifyCursorKeys.
|
|
Ps = 2 -> modifyFunctionKeys.
|
|
Ps = 4 -> modifyOtherKeys.
|
|
If the parameter is omitted, modifyFunctionKeys is disabled.
|
|
When modifyFunctionKeys is disabled, xterm uses the modifier
|
|
keys to make an extended sequence of functions rather than
|
|
adding a parameter to each function key to denote the modi-
|
|
fiers.
|
|
CSI ? Ps n
|
|
Device Status Report (DSR, DEC-specific).
|
|
Ps = 6 -> Report Cursor Position (DECXCPR) [row;column] as
|
|
CSI ? r ; c R (assumes the default page, i.e., "1").
|
|
Ps = 1 5 -> Report Printer status as CSI ? 1 0 n (ready).
|
|
or CSI ? 1 1 n (not ready).
|
|
Ps = 2 5 -> Report UDK status as CSI ? 2 0 n (unlocked) or
|
|
CSI ? 2 1 n (locked).
|
|
Ps = 2 6 -> Report Keyboard status as
|
|
CSI ? 2 7 ; 1 ; 0 ; 0 n (North American).
|
|
The last two parameters apply to VT400 & up, and denote key-
|
|
board ready and LK01 respectively.
|
|
Ps = 5 3 -> Report Locator status as CSI ? 5 3 n Locator
|
|
available, if compiled-in, or CSI ? 5 0 n No Locator, if not.
|
|
Ps = 5 5 -> Report Locator status as CSI ? 5 3 n Locator
|
|
available, if compiled-in, or CSI ? 5 0 n No Locator, if not.
|
|
Ps = 5 6 -> Report Locator type as CSI ? 5 7 ; 1 n Mouse,
|
|
if compiled-in, or CSI ? 5 7 ; 0 n Cannot identify, if not.
|
|
Ps = 6 2 -> Report macro space (DECMSR) as CSI Pn \* { .
|
|
Ps = 6 3 -> Report memory checksum (DECCKSR) as DCS Pt ! x
|
|
x x x ST .
|
|
Pt is the request id (from an optional parameter to the
|
|
request).
|
|
The x's are hexadecimal digits 0-9 and A-F.
|
|
Ps = 7 5 -> Report data integrity as CSI ? 7 0 n (ready,
|
|
no errors).
|
|
Ps = 8 5 -> Report multi-session configuration as CSI ? 8 3
|
|
n (not configured for multiple-session operation).
|
|
CSI > Ps p
|
|
Set resource value pointerMode. This is used by xterm to
|
|
decide whether to hide the pointer cursor as the user types.
|
|
Valid values for the parameter:
|
|
Ps = 0 -> never hide the pointer.
|
|
Ps = 1 -> hide if the mouse tracking mode is not enabled.
|
|
Ps = 2 -> always hide the pointer, except when leaving the
|
|
window.
|
|
Ps = 3 -> always hide the pointer, even if leaving/entering
|
|
the window. If no parameter is given, xterm uses the default,
|
|
which is 1 .
|
|
CSI ! p Soft terminal reset (DECSTR).
|
|
CSI Ps ; Ps " p
|
|
Set conformance level (DECSCL). Valid values for the first
|
|
parameter:
|
|
Ps = 6 1 -> VT100.
|
|
Ps = 6 2 -> VT200.
|
|
Ps = 6 3 -> VT300.
|
|
Valid values for the second parameter:
|
|
Ps = 0 -> 8-bit controls.
|
|
Ps = 1 -> 7-bit controls (always set for VT100).
|
|
Ps = 2 -> 8-bit controls.
|
|
CSI Ps $ p
|
|
Request ANSI mode (DECRQM). For VT300 and up, reply is
|
|
CSI Ps; Pm$ y
|
|
where Ps is the mode number as in RM, and Pm is the mode
|
|
value:
|
|
0 - not recognized
|
|
1 - set
|
|
2 - reset
|
|
3 - permanently set
|
|
4 - permanently reset
|
|
CSI ? Ps$ p
|
|
Request DEC private mode (DECRQM). For VT300 and up, reply is
|
|
CSI ? Ps; Pm$ y
|
|
where Ps is the mode number as in DECSET, Pm is the mode value
|
|
as in the ANSI DECRQM.
|
|
CSI Ps q Load LEDs (DECLL).
|
|
Ps = 0 -> Clear all LEDS (default).
|
|
Ps = 1 -> Light Num Lock.
|
|
Ps = 2 -> Light Caps Lock.
|
|
Ps = 3 -> Light Scroll Lock.
|
|
Ps = 2 1 -> Extinguish Num Lock.
|
|
Ps = 2 2 -> Extinguish Caps Lock.
|
|
Ps = 2 3 -> Extinguish Scroll Lock.
|
|
CSI Ps SP q
|
|
Set cursor style (DECSCUSR, VT520).
|
|
Ps = 0 -> blinking block.
|
|
Ps = 1 -> blinking block (default).
|
|
Ps = 2 -> steady block.
|
|
Ps = 3 -> blinking underline.
|
|
Ps = 4 -> steady underline.
|
|
Ps = 5 -> blinking bar (xterm).
|
|
Ps = 6 -> steady bar (xterm).
|
|
CSI Ps " q
|
|
Select character protection attribute (DECSCA). Valid values
|
|
for the parameter:
|
|
Ps = 0 -> DECSED and DECSEL can erase (default).
|
|
Ps = 1 -> DECSED and DECSEL cannot erase.
|
|
Ps = 2 -> DECSED and DECSEL can erase.
|
|
CSI Ps ; Ps r
|
|
Set Scrolling Region [top;bottom] (default = full size of win-
|
|
dow) (DECSTBM).
|
|
CSI ? Pm r
|
|
Restore DEC Private Mode Values. The value of Ps previously
|
|
saved is restored. Ps values are the same as for DECSET.
|
|
CSI Pt; Pl; Pb; Pr; Ps$ r
|
|
Change Attributes in Rectangular Area (DECCARA), VT400 and up.
|
|
Pt; Pl; Pb; Pr denotes the rectangle.
|
|
Ps denotes the SGR attributes to change: 0, 1, 4, 5, 7.
|
|
CSI s Save cursor (ANSI.SYS), available only when DECLRMM is dis-
|
|
abled.
|
|
CSI Pl; Pr s
|
|
Set left and right margins (DECSLRM), available only when
|
|
DECLRMM is enabled (VT420 and up).
|
|
CSI ? Pm s
|
|
Save DEC Private Mode Values. Ps values are the same as for
|
|
DECSET.
|
|
CSI Ps ; Ps ; Ps t
|
|
Window manipulation (from dtterm, as well as extensions).
|
|
These controls may be disabled using the allowWindowOps
|
|
resource. Valid values for the first (and any additional
|
|
parameters) are:
|
|
Ps = 1 -> De-iconify window.
|
|
Ps = 2 -> Iconify window.
|
|
Ps = 3 ; x ; y -> Move window to [x, y].
|
|
Ps = 4 ; height ; width -> Resize the xterm window to
|
|
given height and width in pixels. Omitted parameters reuse
|
|
the current height or width. Zero parameters use the dis-
|
|
play's height or width.
|
|
Ps = 5 -> Raise the xterm window to the front of the stack-
|
|
ing order.
|
|
Ps = 6 -> Lower the xterm window to the bottom of the
|
|
stacking order.
|
|
Ps = 7 -> Refresh the xterm window.
|
|
Ps = 8 ; height ; width -> Resize the text area to given
|
|
height and width in characters. Omitted parameters reuse the
|
|
current height or width. Zero parameters use the display's
|
|
height or width.
|
|
Ps = 9 ; 0 -> Restore maximized window.
|
|
Ps = 9 ; 1 -> Maximize window (i.e., resize to screen
|
|
size).
|
|
Ps = 9 ; 2 -> Maximize window vertically.
|
|
Ps = 9 ; 3 -> Maximize window horizontally.
|
|
Ps = 1 0 ; 0 -> Undo full-screen mode.
|
|
Ps = 1 0 ; 1 -> Change to full-screen.
|
|
Ps = 1 0 ; 2 -> Toggle full-screen.
|
|
Ps = 1 1 -> Report xterm window state. If the xterm window
|
|
is open (non-iconified), it returns CSI 1 t . If the xterm
|
|
window is iconified, it returns CSI 2 t .
|
|
Ps = 1 3 -> Report xterm window position.
|
|
Result is CSI 3 ; x ; y t
|
|
Ps = 1 4 -> Report xterm window in pixels.
|
|
Result is CSI 4 ; height ; width t
|
|
Ps = 1 8 -> Report the size of the text area in characters.
|
|
Result is CSI 8 ; height ; width t
|
|
Ps = 1 9 -> Report the size of the screen in characters.
|
|
Result is CSI 9 ; height ; width t
|
|
Ps = 2 0 -> Report xterm window's icon label.
|
|
Result is OSC L label ST
|
|
Ps = 2 1 -> Report xterm window's title.
|
|
Result is OSC l label ST
|
|
Ps = 2 2 ; 0 -> Save xterm icon and window title on
|
|
stack.
|
|
Ps = 2 2 ; 1 -> Save xterm icon title on stack.
|
|
Ps = 2 2 ; 2 -> Save xterm window title on stack.
|
|
Ps = 2 3 ; 0 -> Restore xterm icon and window title from
|
|
stack.
|
|
Ps = 2 3 ; 1 -> Restore xterm icon title from stack.
|
|
Ps = 2 3 ; 2 -> Restore xterm window title from stack.
|
|
Ps >= 2 4 -> Resize to Ps lines (DECSLPP).
|
|
CSI > Ps; Ps t
|
|
Set one or more features of the title modes. Each parameter
|
|
enables a single feature.
|
|
Ps = 0 -> Set window/icon labels using hexadecimal.
|
|
Ps = 1 -> Query window/icon labels using hexadecimal.
|
|
Ps = 2 -> Set window/icon labels using UTF-8.
|
|
Ps = 3 -> Query window/icon labels using UTF-8. (See dis-
|
|
cussion of "Title Modes")
|
|
CSI Ps SP t
|
|
Set warning-bell volume (DECSWBV, VT520).
|
|
Ps = 0 or 1 -> off.
|
|
Ps = 2 , 3 or 4 -> low.
|
|
Ps = 5 , 6 , 7 , or 8 -> high.
|
|
CSI Pt; Pl; Pb; Pr; Ps$ t
|
|
Reverse Attributes in Rectangular Area (DECRARA), VT400 and
|
|
up.
|
|
Pt; Pl; Pb; Pr denotes the rectangle.
|
|
Ps denotes the attributes to reverse, i.e., 1, 4, 5, 7.
|
|
CSI u Restore cursor (ANSI.SYS).
|
|
CSI Ps SP u
|
|
Set margin-bell volume (DECSMBV, VT520).
|
|
Ps = 1 -> off.
|
|
Ps = 2 , 3 or 4 -> low.
|
|
Ps = 0 , 5 , 6 , 7 , or 8 -> high.
|
|
CSI Pt; Pl; Pb; Pr; Pp; Pt; Pl; Pp$ v
|
|
Copy Rectangular Area (DECCRA, VT400 and up).
|
|
Pt; Pl; Pb; Pr denotes the rectangle.
|
|
Pp denotes the source page.
|
|
Pt; Pl denotes the target location.
|
|
Pp denotes the target page.
|
|
CSI Pt ; Pl ; Pb ; Pr ' w
|
|
Enable Filter Rectangle (DECEFR), VT420 and up.
|
|
Parameters are [top;left;bottom;right].
|
|
Defines the coordinates of a filter rectangle and activates
|
|
it. Anytime the locator is detected outside of the filter
|
|
rectangle, an outside rectangle event is generated and the
|
|
rectangle is disabled. Filter rectangles are always treated
|
|
as "one-shot" events. Any parameters that are omitted default
|
|
to the current locator position. If all parameters are omit-
|
|
ted, any locator motion will be reported. DECELR always can-
|
|
cels any prevous rectangle definition.
|
|
CSI Ps x Request Terminal Parameters (DECREQTPARM).
|
|
if Ps is a "0" (default) or "1", and xterm is emulating VT100,
|
|
the control sequence elicits a response of the same form whose
|
|
parameters describe the terminal:
|
|
Ps -> the given Ps incremented by 2.
|
|
Pn = 1 <- no parity.
|
|
Pn = 1 <- eight bits.
|
|
Pn = 1 <- 2 8 transmit 38.4k baud.
|
|
Pn = 1 <- 2 8 receive 38.4k baud.
|
|
Pn = 1 <- clock multiplier.
|
|
Pn = 0 <- STP flags.
|
|
CSI Ps * x
|
|
Select Attribute Change Extent (DECSACE).
|
|
Ps = 0 -> from start to end position, wrapped.
|
|
Ps = 1 -> from start to end position, wrapped.
|
|
Ps = 2 -> rectangle (exact).
|
|
CSI Pc ; Pt ; Pl ; Pb ; Pr $ x
|
|
Fill Rectangular Area (DECFRA), VT420 and up.
|
|
Pc is the character to use.
|
|
Pt; Pl; Pb; Pr denotes the rectangle.
|
|
CSI Pi ; Pg ; Pt; Pl; Pb; Pr * y
|
|
Request Checksum of Rectangular Area (DECRQCRA), VT420 and up.
|
|
Response is
|
|
DCS Pi ! x x x x ST
|
|
Pi is the request id.
|
|
Pg is the page number.
|
|
Pt; Pl; Pb; Pr denotes the rectangle.
|
|
The x's are hexadecimal digits 0-9 and A-F.
|
|
CSI Ps ; Pu ' z
|
|
Enable Locator Reporting (DECELR).
|
|
Valid values for the first parameter:
|
|
Ps = 0 -> Locator disabled (default).
|
|
Ps = 1 -> Locator enabled.
|
|
Ps = 2 -> Locator enabled for one report, then disabled.
|
|
The second parameter specifies the coordinate unit for locator
|
|
reports.
|
|
Valid values for the second parameter:
|
|
Pu = 0 <- or omitted -> default to character cells.
|
|
Pu = 1 <- device physical pixels.
|
|
Pu = 2 <- character cells.
|
|
CSI Pt; Pl; Pb; Pr$ z
|
|
Erase Rectangular Area (DECERA), VT400 and up.
|
|
Pt; Pl; Pb; Pr denotes the rectangle.
|
|
CSI Pm ' {
|
|
Select Locator Events (DECSLE).
|
|
Valid values for the first (and any additional parameters)
|
|
are:
|
|
Ps = 0 -> only respond to explicit host requests (DECRQLP).
|
|
(This is default). It also cancels any filter
|
|
rectangle.
|
|
Ps = 1 -> report button down transitions.
|
|
Ps = 2 -> do not report button down transitions.
|
|
Ps = 3 -> report button up transitions.
|
|
Ps = 4 -> do not report button up transitions.
|
|
CSI Pt; Pl; Pb; Pr $ {
|
|
Selective Erase Rectangular Area (DECSERA), VT400 and up.
|
|
Pt; Pl; Pb; Pr denotes the rectangle.
|
|
CSI Ps ' |
|
|
Request Locator Position (DECRQLP).
|
|
Valid values for the parameter are:
|
|
Ps = 0 , 1 or omitted -> transmit a single DECLRP locator
|
|
report.
|
|
|
|
If Locator Reporting has been enabled by a DECELR, xterm will
|
|
respond with a DECLRP Locator Report. This report is also
|
|
generated on button up and down events if they have been
|
|
enabled with a DECSLE, or when the locator is detected outside
|
|
of a filter rectangle, if filter rectangles have been enabled
|
|
with a DECEFR.
|
|
|
|
-> CSI Pe ; Pb ; Pr ; Pc ; Pp & w
|
|
|
|
Parameters are [event;button;row;column;page].
|
|
Valid values for the event:
|
|
Pe = 0 -> locator unavailable - no other parameters sent.
|
|
Pe = 1 -> request - xterm received a DECRQLP.
|
|
Pe = 2 -> left button down.
|
|
Pe = 3 -> left button up.
|
|
Pe = 4 -> middle button down.
|
|
Pe = 5 -> middle button up.
|
|
Pe = 6 -> right button down.
|
|
Pe = 7 -> right button up.
|
|
Pe = 8 -> M4 button down.
|
|
Pe = 9 -> M4 button up.
|
|
Pe = 1 0 -> locator outside filter rectangle.
|
|
The "button" parameter is a bitmask indicating which buttons
|
|
are pressed:
|
|
Pb = 0 <- no buttons down.
|
|
Pb & 1 <- right button down.
|
|
Pb & 2 <- middle button down.
|
|
Pb & 4 <- left button down.
|
|
Pb & 8 <- M4 button down.
|
|
The "row" and "column" parameters are the coordinates of the
|
|
locator position in the xterm window, encoded as ASCII deci-
|
|
mal.
|
|
The "page" parameter is not used by xterm.
|
|
CSI Pm ' }
|
|
Insert Ps Column(s) (default = 1) (DECIC), VT420 and up.
|
|
CSI Pm ' ~
|
|
Delete Ps Column(s) (default = 1) (DECDC), VT420 and up.
|
|
|
|
Operating System Commands
|
|
OSC Ps ; Pt BEL
|
|
OSC Ps ; Pt ST
|
|
Set Text Parameters. For colors and font, if Pt is a "?", the
|
|
control sequence elicits a response which consists of the con-
|
|
trol sequence which would set the corresponding value. The
|
|
dtterm control sequences allow you to determine the icon name
|
|
and window title.
|
|
Ps = 0 -> Change Icon Name and Window Title to Pt.
|
|
Ps = 1 -> Change Icon Name to Pt.
|
|
Ps = 2 -> Change Window Title to Pt.
|
|
Ps = 3 -> Set X property on top-level window. Pt should be
|
|
in the form "prop=value", or just "prop" to delete the prop-
|
|
erty
|
|
Ps = 4 ; c; spec -> Change Color Number c to the color spec-
|
|
ified by spec. This can be a name or RGB specification as per
|
|
XParseColor. Any number of c/spec pairs may be given. The
|
|
color numbers correspond to the ANSI colors 0-7, their bright
|
|
versions 8-15, and if supported, the remainder of the 88-color
|
|
or 256-color table.
|
|
|
|
If a "?" is given rather than a name or RGB specification,
|
|
xterm replies with a control sequence of the same form which
|
|
can be used to set the corresponding color. Because more than
|
|
one pair of color number and specification can be given in one
|
|
control sequence, xterm can make more than one reply.
|
|
|
|
Ps = 5 ; c; spec -> Change Special Color Number c to the
|
|
color specified by spec. This can be a name or RGB specifica-
|
|
tion as per XParseColor. Any number of c/spec pairs may be
|
|
given. The special colors can also be set by adding the maxi-
|
|
mum number of colors to these codes in an OSC 4 control:
|
|
|
|
Pc = 0 <- resource colorBD (BOLD).
|
|
Pc = 1 <- resource colorUL (UNDERLINE).
|
|
Pc = 2 <- resource colorBL (BLINK).
|
|
Pc = 3 <- resource colorRV (REVERSE).
|
|
Pc = 4 <- resource colorIT (ITALIC).
|
|
|
|
Ps = 6 ; c; f -> Enable/disable Special Color Number c. OSC
|
|
6 is the same as OSC 1 0 6 .
|
|
|
|
The 10 colors (below) which may be set or queried using 1 0
|
|
through 1 9 are denoted dynamic colors, since the correspond-
|
|
ing control sequences were the first means for setting xterm's
|
|
colors dynamically, i.e., after it was started. They are not
|
|
the same as the ANSI colors. These controls may be disabled
|
|
using the allowColorOps resource. At least one parameter is
|
|
expected for Pt. Each successive parameter changes the next
|
|
color in the list. The value of Ps tells the starting point
|
|
in the list. The colors are specified by name or RGB specifi-
|
|
cation as per XParseColor.
|
|
|
|
If a "?" is given rather than a name or RGB specification,
|
|
xterm replies with a control sequence of the same form which
|
|
can be used to set the corresponding dynamic color. Because
|
|
more than one pair of color number and specification can be
|
|
given in one control sequence, xterm can make more than one
|
|
reply.
|
|
|
|
Ps = 1 0 -> Change VT100 text foreground color to Pt.
|
|
Ps = 1 1 -> Change VT100 text background color to Pt.
|
|
Ps = 1 2 -> Change text cursor color to Pt.
|
|
Ps = 1 3 -> Change mouse foreground color to Pt.
|
|
Ps = 1 4 -> Change mouse background color to Pt.
|
|
Ps = 1 5 -> Change Tektronix foreground color to Pt.
|
|
Ps = 1 6 -> Change Tektronix background color to Pt.
|
|
Ps = 1 7 -> Change highlight background color to Pt.
|
|
Ps = 1 8 -> Change Tektronix cursor color to Pt.
|
|
Ps = 1 9 -> Change highlight foreground color to Pt.
|
|
|
|
Ps = 4 6 -> Change Log File to Pt. (This is normally dis-
|
|
abled by a compile-time option).
|
|
|
|
Ps = 5 0 -> Set Font to Pt. These controls may be disabled
|
|
using the allowFontOps resource. If Pt begins with a "#",
|
|
index in the font menu, relative (if the next character is a
|
|
plus or minus sign) or absolute. A number is expected but not
|
|
required after the sign (the default is the current entry for
|
|
relative, zero for absolute indexing).
|
|
The same rule (plus or minus sign, optional number) is used
|
|
when querying the font. The remainder of Pt is ignored.
|
|
A font can be specified after a "#" index expression, by
|
|
adding a space and then the font specifier.
|
|
If the "TrueType Fonts" menu entry is set (the renderFont
|
|
resource), then this control sets/queries the faceName
|
|
resource.
|
|
|
|
Ps = 5 1 -> reserved for Emacs shell.
|
|
|
|
Ps = 5 2 -> Manipulate Selection Data. These controls may
|
|
be disabled using the allowWindowOps resource. The parameter
|
|
Pt is parsed as
|
|
Pc; Pd
|
|
The first, Pc, may contain zero or more characters from the
|
|
set c p s 0 1 2 3 4 5 6 7 . It is used to construct
|
|
a list of selection parameters for clipboard, primary, select,
|
|
or cut buffers 0 through 7 respectively, in the order given.
|
|
If the parameter is empty, xterm uses s 0 , to specify the
|
|
configurable primary/clipboard selection and cut buffer 0.
|
|
The second parameter, Pd, gives the selection data. Normally
|
|
this is a string encoded in base64. The data becomes the new
|
|
selection, which is then available for pasting by other appli-
|
|
cations.
|
|
If the second parameter is a ? , xterm replies to the host
|
|
with the selection data encoded using the same protocol.
|
|
If the second parameter is neither a base64 string nor ? ,
|
|
then the selection is cleared.
|
|
|
|
Ps = 1 0 4 ; c -> Reset Color Number c. It is reset to the
|
|
color specified by the corresponding X resource. Any number
|
|
of c parameters may be given. These parameters correspond to
|
|
the ANSI colors 0-7, their bright versions 8-15, and if sup-
|
|
ported, the remainder of the 88-color or 256-color table. If
|
|
no parameters are given, the entire table will be reset.
|
|
|
|
Ps = 1 0 5 ; c -> Reset Special Color Number c. It is reset
|
|
to the color specified by the corresponding X resource. Any
|
|
number of c parameters may be given. These parameters corre-
|
|
spond to the special colors which can be set using an OSC 5
|
|
control (or by adding the maximum number of colors using an
|
|
OSC 4 control).
|
|
|
|
Ps = 1 0 6 ; c; f -> Enable/disable Special Color Number c.
|
|
The second parameter tells xterm to enable the corresponding
|
|
color mode if nonzero, disable it if zero.
|
|
|
|
Pc = 0 <- resource colorBDMode (BOLD).
|
|
Pc = 1 <- resource colorULMode (UNDERLINE).
|
|
Pc = 2 <- resource colorBLMode (BLINK).
|
|
Pc = 3 <- resource colorRVMode (REVERSE).
|
|
Pc = 4 <- resource colorITMode (ITALIC).
|
|
Pc = 5 <- resource colorAttrMode (Override ANSI).
|
|
|
|
The dynamic colors can also be reset to their default
|
|
(resource) values:
|
|
Ps = 1 1 0 -> Reset VT100 text foreground color.
|
|
Ps = 1 1 1 -> Reset VT100 text background color.
|
|
Ps = 1 1 2 -> Reset text cursor color.
|
|
Ps = 1 1 3 -> Reset mouse foreground color.
|
|
Ps = 1 1 4 -> Reset mouse background color.
|
|
Ps = 1 1 5 -> Reset Tektronix foreground color.
|
|
Ps = 1 1 6 -> Reset Tektronix background color.
|
|
Ps = 1 1 7 -> Reset highlight color.
|
|
Ps = 1 1 8 -> Reset Tektronix cursor color.
|
|
Ps = 1 1 9 -> Reset highlight foreground color.
|
|
|
|
Privacy Message
|
|
PM Pt ST xterm implements no PM functions; Pt is ignored. Pt need not
|
|
be printable characters.
|
|
|
|
Alt and Meta Keys
|
|
Many keyboards have keys labeled "Alt". Few have keys labeled "Meta".
|
|
However, xterm's default translations use the Meta modifier. Common
|
|
keyboard configurations assign the Meta modifier to an "Alt" key. By
|
|
using xmodmap one may have the modifier assigned to a different key, and
|
|
have "real" alt and meta keys. Here is an example:
|
|
|
|
! put meta on mod3 to distinguish it from alt
|
|
keycode 64 = Alt_L
|
|
clear mod1
|
|
add mod1 = Alt_L
|
|
keycode 115 = Meta_L
|
|
clear mod3
|
|
add mod3 = Meta_L
|
|
|
|
|
|
The metaSendsEscape resource (and altSendsEscape if altIsNotMeta is set)
|
|
can be used to control the way the Meta modifier applies to ordinary
|
|
keys unless the modifyOtherKeys resource is set:
|
|
- prefix a key with the ESC character.
|
|
- shift the key from codes 0-127 to 128-255 by adding 128.
|
|
|
|
The table shows the result for a given character "x" with modifiers
|
|
according to the default translations with the resources set on or off.
|
|
This assumes altIsNotMeta is set:
|
|
|
|
-----------------------------------------------------------
|
|
key altSendsEscape metaSendsEscape result
|
|
-----------+----------------+-----------------+------------
|
|
x | off | off | x
|
|
Meta-x | off | off | shift
|
|
Alt-x | off | off | shift
|
|
Alt+Meta-x | off | off | shift
|
|
x | ON | off | x
|
|
Meta-x | ON | off | shift
|
|
Alt-x | ON | off | ESC x
|
|
Alt+Meta-x | ON | off | ESC shift
|
|
x | off | ON | x
|
|
Meta-x | off | ON | ESC x
|
|
Alt-x | off | ON | shift
|
|
Alt+Meta-x | off | ON | ESC shift
|
|
x | ON | ON | x
|
|
Meta-x | ON | ON | ESC x
|
|
Alt-x | ON | ON | ESC x
|
|
Alt+Meta-x | ON | ON | ESC x
|
|
-----------+----------------+-----------------+------------
|
|
|
|
|
|
PC-Style Function Keys
|
|
If xterm does minimal translation of the function keys, it usually does
|
|
this with a PC-style keyboard, so PC-style function keys result. Sun
|
|
keyboards are similar to PC keyboards. Both have cursor and scrolling
|
|
operations printed on the keypad, which duplicate the smaller cursor and
|
|
scrolling keypads.
|
|
|
|
X does not predefine NumLock (used for VT220 keyboards) or Alt (used as
|
|
an extension for the Sun/PC keyboards) as modifiers. These keys are
|
|
recognized as modifiers when enabled by the numLock resource, or by the
|
|
"DECSET 1 0 3 5 " control sequence.
|
|
|
|
The cursor keys transmit the following escape sequences depending on the
|
|
mode specified via the DECCKM escape sequence.
|
|
|
|
Key Normal Application
|
|
-------------+----------+-------------
|
|
Cursor Up | CSI A | SS3 A
|
|
Cursor Down | CSI B | SS3 B
|
|
Cursor Right | CSI C | SS3 C
|
|
Cursor Left | CSI D | SS3 D
|
|
-------------+----------+-------------
|
|
|
|
The home- and end-keys (unlike PageUp and other keys also on the 6-key
|
|
editing keypad) are considered "cursor keys" by xterm. Their mode is
|
|
also controlled by the DECCKM escape sequence:
|
|
|
|
Key Normal Application
|
|
---------+----------+-------------
|
|
Home | CSI H | SS3 H
|
|
End | CSI F | SS3 F
|
|
---------+----------+-------------
|
|
|
|
|
|
The application keypad transmits the following escape sequences depend-
|
|
ing on the mode specified via the DECKPNM and DECKPAM escape sequences.
|
|
Use the NumLock key to override the application mode.
|
|
|
|
Not all keys are present on the Sun/PC keypad (e.g., PF1, Tab), but are
|
|
supported by the program.
|
|
|
|
Key Numeric Application Terminfo Termcap
|
|
---------------+----------+-------------+----------+----------
|
|
Space | SP | SS3 SP | - | -
|
|
Tab | TAB | SS3 I | - | -
|
|
Enter | CR | SS3 M | kent | @8
|
|
PF1 | SS3 P | SS3 P | kf1 | k1
|
|
PF2 | SS3 Q | SS3 Q | kf2 | k2
|
|
PF3 | SS3 R | SS3 R | kf3 | k3
|
|
PF4 | SS3 S | SS3 S | kf4 | k4
|
|
* (multiply) | * | SS3 j | - | -
|
|
+ (add) | + | SS3 k | - | -
|
|
, (comma) | , | SS3 l | - | -
|
|
- (minus) | - | SS3 m | - | -
|
|
. (Delete) | . | CSI 3 ~ | - | -
|
|
/ (divide) | / | SS3 o | - | -
|
|
0 (Insert) | 0 | CSI 2 ~ | - | -
|
|
1 (End) | 1 | SS3 F | kc1 | K4
|
|
2 (DownArrow) | 2 | CSI B | - | -
|
|
3 (PageDown) | 3 | CSI 6 ~ | kc3 | K5
|
|
4 (LeftArrow) | 4 | CSI D | - | -
|
|
5 (Begin) | 5 | CSI E | kb2 | K2
|
|
6 (RightArrow) | 6 | CSI C | - | -
|
|
7 (Home) | 7 | SS3 H | ka1 | K1
|
|
8 (UpArrow) | 8 | CSI A | - | -
|
|
9 (PageUp) | 9 | CSI 5 ~ | ka3 | K3
|
|
= (equal) | = | SS3 X | - | -
|
|
---------------+----------+-------------+----------+----------
|
|
|
|
They also provide 12 function keys, as well as a few other special-pur-
|
|
pose keys:
|
|
|
|
Key Escape Sequence
|
|
---------+-----------------
|
|
F1 | SS3 P
|
|
F2 | SS3 Q
|
|
F3 | SS3 R
|
|
F4 | SS3 S
|
|
F5 | CSI 1 5 ~
|
|
F6 | CSI 1 7 ~
|
|
F7 | CSI 1 8 ~
|
|
F8 | CSI 1 9 ~
|
|
F9 | CSI 2 0 ~
|
|
F10 | CSI 2 1 ~
|
|
F11 | CSI 2 3 ~
|
|
F12 | CSI 2 4 ~
|
|
---------+-----------------
|
|
|
|
|
|
Note that F1 through F4 are prefixed with SS3 , while the other keys are
|
|
prefixed with CSI . Older versions of xterm implement different escape
|
|
sequences for F1 through F4, with a CSI prefix. These can be activated
|
|
by setting the oldXtermFKeys resource. However, since they do not cor-
|
|
respond to any hardware terminal, they have been deprecated. (The DEC
|
|
VT220 reserves F1 through F5 for local functions such as Setup).
|
|
|
|
Key Escape Sequence
|
|
---------+-----------------
|
|
F1 | CSI 1 1 ~
|
|
F2 | CSI 1 2 ~
|
|
F3 | CSI 1 3 ~
|
|
F4 | CSI 1 4 ~
|
|
---------+-----------------
|
|
|
|
In normal mode, i.e., a Sun/PC keyboard when the sunKeyboard resource is
|
|
false (and none of the other keyboard resources such as oldXtermFKeys
|
|
resource is set), xterm encodes function key modifiers as parameters
|
|
appended before the final character of the control sequence. As a spe-
|
|
cial case, the SS3 sent before F1 through F4 is altered to CSI when
|
|
sending a function key modifier as a parameter.
|
|
|
|
Code Modifiers
|
|
---------+---------------------------
|
|
2 | Shift
|
|
3 | Alt
|
|
4 | Shift + Alt
|
|
5 | Control
|
|
6 | Shift + Control
|
|
7 | Alt + Control
|
|
8 | Shift + Alt + Control
|
|
9 | Meta
|
|
10 | Meta + Shift
|
|
11 | Meta + Alt
|
|
12 | Meta + Alt + Shift
|
|
13 | Meta + Ctrl
|
|
14 | Meta + Ctrl + Shift
|
|
15 | Meta + Ctrl + Alt
|
|
16 | Meta + Ctrl + Alt + Shift
|
|
---------+---------------------------
|
|
|
|
For example, shift-F5 would be sent as CSI 1 5 ; 2 ~
|
|
|
|
If the alwaysUseMods resource is set, the Meta modifier also is recog-
|
|
nized, making parameters 9 through 16.
|
|
|
|
VT220-Style Function Keys
|
|
However, xterm is most useful as a DEC VT102 or VT220 emulator. Set the
|
|
sunKeyboard resource to true to force a Sun/PC keyboard to act like a
|
|
VT220 keyboard.
|
|
|
|
The VT102/VT220 application keypad transmits unique escape sequences in
|
|
application mode, which are distinct from the cursor and scrolling key-
|
|
pad:
|
|
|
|
Key Numeric Application
|
|
-------------+----------+-------------
|
|
Space | SP | SS3 SP
|
|
Tab | TAB | SS3 I
|
|
Enter | CR | SS3 M
|
|
PF1 | SS3 P | SS3 P
|
|
PF2 | SS3 Q | SS3 Q
|
|
PF3 | SS3 R | SS3 R
|
|
PF4 | SS3 S | SS3 S
|
|
* (multiply) | * | SS3 j
|
|
+ (add) | + | SS3 k
|
|
, (comma) | , | SS3 l
|
|
- (minus) | - | SS3 m
|
|
. (period) | . | SS3 n
|
|
/ (divide) | / | SS3 o
|
|
0 | 0 | SS3 p
|
|
1 | 1 | SS3 q
|
|
2 | 2 | SS3 r
|
|
3 | 3 | SS3 s
|
|
4 | 4 | SS3 t
|
|
5 | 5 | SS3 u
|
|
6 | 6 | SS3 v
|
|
7 | 7 | SS3 w
|
|
8 | 8 | SS3 x
|
|
9 | 9 | SS3 y
|
|
= (equal) | = | SS3 X
|
|
-------------+----------+-------------
|
|
|
|
The VT220 provides a 6-key editing keypad, which is analogous to that on
|
|
the PC keyboard. It is not affected by DECCKM or DECKPNM/DECKPAM:
|
|
|
|
Key Normal Application
|
|
---------+----------+-------------
|
|
Insert | CSI 2 ~ | CSI 2 ~
|
|
Delete | CSI 3 ~ | CSI 3 ~
|
|
Home | CSI 1 ~ | CSI 1 ~
|
|
End | CSI 4 ~ | CSI 4 ~
|
|
PageUp | CSI 5 ~ | CSI 5 ~
|
|
PageDown | CSI 6 ~ | CSI 6 ~
|
|
---------+----------+-------------
|
|
|
|
The VT220 provides 8 additional function keys. With a Sun/PC keyboard,
|
|
access these keys by Control/F1 for F13, etc.
|
|
|
|
Key Escape Sequence
|
|
---------+-----------------
|
|
F13 | CSI 2 5 ~
|
|
F14 | CSI 2 6 ~
|
|
F15 | CSI 2 8 ~
|
|
F16 | CSI 2 9 ~
|
|
F17 | CSI 3 1 ~
|
|
F18 | CSI 3 2 ~
|
|
F19 | CSI 3 3 ~
|
|
F20 | CSI 3 4 ~
|
|
---------+-----------------
|
|
|
|
|
|
VT52-Style Function Keys
|
|
A VT52 does not have function keys, but it does have a numeric keypad
|
|
and cursor keys. They differ from the other emulations by the prefix.
|
|
Also, the cursor keys do not change:
|
|
|
|
Key Normal/Application
|
|
-------------+--------------------
|
|
Cursor Up | ESC A
|
|
Cursor Down | ESC B
|
|
Cursor Right | ESC C
|
|
Cursor Left | ESC D
|
|
-------------+--------------------
|
|
|
|
The keypad is similar:
|
|
|
|
Key Numeric Application
|
|
-------------+----------+-------------
|
|
Space | SP | ESC ? SP
|
|
Tab | TAB | ESC ? I
|
|
Enter | CR | ESC ? M
|
|
PF1 | ESC P | ESC P
|
|
PF2 | ESC Q | ESC Q
|
|
PF3 | ESC R | ESC R
|
|
PF4 | ESC S | ESC S
|
|
* (multiply) | * | ESC ? j
|
|
+ (add) | + | ESC ? k
|
|
, (comma) | , | ESC ? l
|
|
- (minus) | - | ESC ? m
|
|
. (period) | . | ESC ? n
|
|
/ (divide) | / | ESC ? o
|
|
0 | 0 | ESC ? p
|
|
1 | 1 | ESC ? q
|
|
2 | 2 | ESC ? r
|
|
3 | 3 | ESC ? s
|
|
4 | 4 | ESC ? t
|
|
5 | 5 | ESC ? u
|
|
6 | 6 | ESC ? v
|
|
7 | 7 | ESC ? w
|
|
8 | 8 | ESC ? x
|
|
9 | 9 | ESC ? y
|
|
= (equal) | = | ESC ? X
|
|
-------------+----------+-------------
|
|
|
|
|
|
Sun-Style Function Keys
|
|
The xterm program provides support for Sun keyboards more directly, by a
|
|
menu toggle that causes it to send Sun-style function key codes rather
|
|
than VT220. Note, however, that the sun and VT100 emulations are not
|
|
really compatible. For example, their wrap-margin behavior differs.
|
|
|
|
Only function keys are altered; keypad and cursor keys are the same.
|
|
The emulation responds identically. See the xterm-sun terminfo entry
|
|
for details.
|
|
|
|
HP-Style Function Keys
|
|
Similarly, xterm can be compiled to support HP keyboards. See the
|
|
xterm-hp terminfo entry for details.
|
|
|
|
The Alternate Screen Buffer
|
|
Xterm maintains two screen buffers. The normal screen buffer allows you
|
|
to scroll back to view saved lines of output up to the maximum set by
|
|
the saveLines resource. The alternate screen buffer is exactly as large
|
|
as the display, contains no additional saved lines. When the alternate
|
|
screen buffer is active, you cannot scroll back to view saved lines.
|
|
Xterm provides control sequences and menu entries for switching between
|
|
the two.
|
|
|
|
Most full-screen applications use terminfo or termcap to obtain strings
|
|
used to start/stop full-screen mode, i.e., smcup and rmcup for terminfo,
|
|
or the corresponding ti and te for termcap. The titeInhibit resource
|
|
removes the ti and te strings from the TERMCAP string which is set in
|
|
the environment for some platforms. That is not done when xterm is
|
|
built with terminfo libraries because terminfo does not provide the
|
|
whole text of the termcap data in one piece. It would not work for ter-
|
|
minfo anyway, since terminfo data is not passed in environment vari-
|
|
ables; setting an environment variable in this manner would have no
|
|
effect on the application's ability to switch between normal and alter-
|
|
nate screen buffers. Instead, the newer private mode controls (such as
|
|
1 0 4 9 ) for switching between normal and alternate screen buffers sim-
|
|
ply disable the switching. They add other features such as clearing the
|
|
display for the same reason: to make the details of switching indepen-
|
|
dent of the application that requests the switch.
|
|
|
|
Bracketed Paste Mode
|
|
When bracketed paste mode is set, pasted text is bracketed with control
|
|
sequences so that the program can differentiate pasted text from typed-
|
|
in text. When bracketed paste mode is set, the program will receive:
|
|
ESC [ 2 0 0 ~ ,
|
|
followed by the pasted text, followed by
|
|
ESC [ 2 0 1 ~ .
|
|
|
|
Title Modes
|
|
The window- and icon-labels can be set or queried using control
|
|
sequences. As a VT220-emulator, xterm "should" limit the character
|
|
encoding for the corresponding strings to ISO-8859-1. Indeed, it used
|
|
to be the case (and was documented) that window titles had to be
|
|
ISO-8859-1. This is no longer the case. However, there are many appli-
|
|
cations which still assume that titles are set using ISO-8859-1. So
|
|
that is the default behavior.
|
|
|
|
If xterm is running with UTF-8 encoding, it is possible to use window-
|
|
and icon-labels encoded using UTF-8. That is because the underlying X
|
|
libraries (and many, but not all) window managers support this feature.
|
|
|
|
The utf8Title X resource setting tells xterm to disable a reconversion
|
|
of the title string back to ISO-8859-1, allowing the title strings to be
|
|
interpreted as UTF-8. The same feature can be enabled using the title
|
|
mode control sequence described in this summary.
|
|
|
|
Separate from the ability to set the titles, xterm provides the ability
|
|
to query the titles, returning them either in ISO-8859-1 or UTF-8. This
|
|
choice is available only while xterm is using UTF-8 encoding.
|
|
|
|
Finally, the characters sent to, or returned by a title control are less
|
|
constrained than the rest of the control sequences. To make them more
|
|
manageable (and constrained), for use in shell scripts, xterm has an
|
|
optional feature which decodes the string from hexadecimal (for setting
|
|
titles) or for encoding the title into hexadecimal when querying the
|
|
value.
|
|
|
|
Mouse Tracking
|
|
The VT widget can be set to send the mouse position and other informa-
|
|
tion on button presses. These modes are typically used by editors and
|
|
other full-screen applications that want to make use of the mouse.
|
|
|
|
There are two sets of mutually exclusive modes:
|
|
o mouse protocol
|
|
o protocol encoding
|
|
|
|
The mouse protocols include DEC Locator mode, enabled by the DECELR CSI
|
|
Ps ; Ps ' z control sequence, and is not described here (control
|
|
sequences are summarized above). The remaining five modes of the mouse
|
|
protocols are each enabled (or disabled) by a different parameter in the
|
|
"DECSET CSI ? Pm h " or "DECRST CSI ? Pm l " control sequence.
|
|
|
|
Manifest constants for the parameter values are defined in xcharmouse.h
|
|
as follows:
|
|
|
|
#define SET_X10_MOUSE 9
|
|
#define SET_VT200_MOUSE 1000
|
|
#define SET_VT200_HIGHLIGHT_MOUSE 1001
|
|
#define SET_BTN_EVENT_MOUSE 1002
|
|
#define SET_ANY_EVENT_MOUSE 1003
|
|
|
|
#define SET_FOCUS_EVENT_MOUSE 1004
|
|
|
|
#define SET_EXT_MODE_MOUSE 1005
|
|
#define SET_SGR_EXT_MODE_MOUSE 1006
|
|
#define SET_URXVT_EXT_MODE_MOUSE 1015
|
|
|
|
#define SET_ALTERNATE_SCROLL 1007
|
|
|
|
The motion reporting modes are strictly xterm extensions, and are not
|
|
part of any standard, though they are analogous to the DEC VT200 DECELR
|
|
locator reports.
|
|
|
|
Normally, parameters (such as pointer position and button number) for
|
|
all mouse tracking escape sequences generated by xterm encode numeric
|
|
parameters in a single character as value+32. For example, ! specifies
|
|
the value 1. The upper left character position on the terminal is
|
|
denoted as 1,1. This scheme dates back to X10, though the normal mouse-
|
|
tracking (from X11) is more elaborate.
|
|
X10 compatbility mode
|
|
|
|
X10 compatibility mode sends an escape sequence only on button press,
|
|
encoding the location and the mouse button pressed. It is enabled by
|
|
specifying parameter 9 to DECSET. On button press, xterm sends CSI M
|
|
CbCxCy (6 characters).
|
|
o Cb is button-1.
|
|
o Cx and Cy are the x and y coordinates of the mouse when the button was
|
|
pressed.
|
|
Normal tracking mode
|
|
|
|
Normal tracking mode sends an escape sequence on both button press and
|
|
release. Modifier key (shift, ctrl, meta) information is also sent. It
|
|
is enabled by specifying parameter 1000 to DECSET. On button press or
|
|
release, xterm sends CSI M CbCxCy.
|
|
o The low two bits of Cb encode button information: 0=MB1 pressed, 1=MB2
|
|
pressed, 2=MB3 pressed, 3=release.
|
|
o The next three bits encode the modifiers which were down when the but-
|
|
ton was pressed and are added together: 4=Shift, 8=Meta, 16=Control.
|
|
Note however that the shift and control bits are normally unavailable
|
|
because xterm uses the control modifier with mouse for popup menus,
|
|
and the shift modifier is used in the default translations for button
|
|
events. The Meta modifier recognized by xterm is the mod1 mask, and
|
|
is not necessarily the "Meta" key (see xmodmap).
|
|
o Cx and Cy are the x and y coordinates of the mouse event, encoded as
|
|
in X10 mode.
|
|
Wheel mice
|
|
|
|
Wheel mice may return buttons 4 and 5. Those buttons are represented by
|
|
the same event codes as buttons 1 and 2 respectively, except that 64 is
|
|
added to the event code. Release events for the wheel buttons are not
|
|
reported. By default, the wheel mouse events are translated to scroll-
|
|
back and scroll-forw actions. Those actions normally scroll the whole
|
|
window, as if the scrollbar was used. However if Alternate Scroll mode
|
|
is set, then cursor up/down controls are sent when the terminal is dis-
|
|
playing the alternate screen. The initial state of Alternate Scroll
|
|
mode is set using the alternateScroll resource.
|
|
Highlight tracking
|
|
|
|
Mouse highlight tracking notifies a program of a button press, receives
|
|
a range of lines from the program, highlights the region covered by the
|
|
mouse within that range until button release, and then sends the program
|
|
the release coordinates. It is enabled by specifying parameter 1001 to
|
|
DECSET. Highlighting is performed only for button 1, though other but-
|
|
ton events can be received.
|
|
|
|
Warning: use of this mode requires a cooperating program or it will hang
|
|
xterm.
|
|
|
|
On button press, the same information as for normal tracking is gener-
|
|
ated; xterm then waits for the program to send mouse tracking informa-
|
|
tion. All X events are ignored until the proper escape sequence is
|
|
received from the pty: CSI Ps ; Ps ; Ps ; Ps ; Ps T . The parameters
|
|
are func, startx, starty, firstrow, and lastrow. func is non-zero to
|
|
initiate highlight tracking and zero to abort. startx and starty give
|
|
the starting x and y location for the highlighted region. The ending
|
|
location tracks the mouse, but will never be above row firstrow and will
|
|
always be above row lastrow. (The top of the screen is row 1.) When
|
|
the button is released, xterm reports the ending position one of two
|
|
ways:
|
|
o if the start and end coordinates are the same locations:
|
|
CSI t CxCy.
|
|
o otherwise:
|
|
CSI T CxCyCxCyCxCy.
|
|
The parameters are startx, starty, endx, endy, mousex, and mousey.
|
|
- startx, starty, endx, and endy give the starting and ending charac-
|
|
ter positions of the region.
|
|
- mousex and mousey give the location of the mouse at button up, which
|
|
may not be over a character.
|
|
Button-event tracking
|
|
|
|
Button-event tracking is essentially the same as normal tracking, but
|
|
xterm also reports button-motion events. Motion events are reported
|
|
only if the mouse pointer has moved to a different character cell. It
|
|
is enabled by specifying parameter 1002 to DECSET. On button press or
|
|
release, xterm sends the same codes used by normal tracking mode.
|
|
o On button-motion events, xterm adds 32 to the event code (the third
|
|
character, Cb).
|
|
o The other bits of the event code specify button and modifier keys as
|
|
in normal mode. For example, motion into cell x,y with button 1 down
|
|
is reported as CSI M @ CxCy. ( @ = 32 + 0 (button 1) + 32 (motion
|
|
indicator) ). Similarly, motion with button 3 down is reported as CSI
|
|
M B CxCy. ( B = 32 + 2 (button 3) + 32 (motion indicator) ).
|
|
Any-event tracking
|
|
|
|
Any-event mode is the same as button-event mode, except that all motion
|
|
events are reported, even if no mouse button is down. It is enabled by
|
|
specifying 1003 to DECSET.
|
|
FocusIn/FocusOut
|
|
|
|
FocusIn/FocusOut can be combined with any of the mouse events since it
|
|
uses a different protocol. When set, it causes xterm to send CSI I
|
|
when the terminal gains focus, and CSI O when it loses focus.
|
|
Extended coordinates
|
|
|
|
The original X10 mouse protocol limits the Cx and Cy ordinates to 223
|
|
(=255 - 32). Xterm supports more than one scheme for extending this
|
|
range, by changing the protocol encoding:
|
|
UTF-8 (1005)
|
|
This enables UTF-8 encoding for Cx and Cy under all tracking
|
|
modes, expanding the maximum encodable position from 223 to
|
|
2015. For positions less than 95, the resulting output is
|
|
identical under both modes. Under extended mouse mode, posi-
|
|
tions greater than 95 generate "extra" bytes which will con-
|
|
fuse applications which do not treat their input as a UTF-8
|
|
stream. Likewise, Cb will be UTF-8 encoded, to reduce confu-
|
|
sion with wheel mouse events.
|
|
Under normal mouse mode, positions outside (160,94) result in
|
|
byte pairs which can be interpreted as a single UTF-8 charac-
|
|
ter; applications which do treat their input as UTF-8 will
|
|
almost certainly be confused unless extended mouse mode is
|
|
active.
|
|
This scheme has the drawback that the encoded coordinates will
|
|
not pass through luit unchanged, e.g., for locales using non-
|
|
UTF-8 encoding.
|
|
SGR (1006)
|
|
The normal mouse response is altered to use CSI < followed by
|
|
semicolon-separated encoded button value, the Cx and Cy ordi-
|
|
nates and a final character which is M for button press and m
|
|
for button release.
|
|
o The encoded button value in this case does not add 32 since
|
|
that was useful only in the X10 scheme for ensuring that the
|
|
byte containing the button value is a printable code.
|
|
o The modifiers are encoded in the same way.
|
|
o A different final character is used for button release to
|
|
resolve the X10 ambiguity regarding which button was
|
|
released.
|
|
The highlight tracking responses are also modified to an SGR-
|
|
like format, using the same SGR-style scheme and button-encod-
|
|
ings.
|
|
URXVT (1015)
|
|
The normal mouse response is altered to use CSI followed by
|
|
semicolon-separated encoded button value, the Cx and Cy ordi-
|
|
nates and final character M .
|
|
This uses the same button encoding as X10, but printing it as
|
|
a decimal integer rather than as a single byte.
|
|
However, CSI M can be mistaken for DL (delete lines), while
|
|
the highlight tracking CSI T can be mistaken for SD (scroll
|
|
down), and the Window manipulation controls. For these rea-
|
|
sons, the 1015 control is not recommended; it is not an
|
|
improvement over 1005.
|
|
|
|
Sixel Graphics
|
|
If xterm is configured as VT240, VT241, VT330, VT340 or VT382 using the
|
|
decTerminalID resource, it supports Sixel Graphics controls, a palleted
|
|
bitmap graphics system using sets of six vertical pixels as the basic
|
|
element.
|
|
|
|
CSI Ps c xterm responds to Send Device Attributes (Primary DA) with
|
|
these additional codes:
|
|
Ps = 4 -> Sixel graphics.
|
|
CSI ? Pm h
|
|
xterm has these additional private Set Mode values:
|
|
Ps = 8 0 -> Sixel scrolling.
|
|
Ps = 1 0 7 0 -> use private color registers for each
|
|
graphic.
|
|
Ps = 8 4 5 2 -> Sixel scrolling leaves cursor to right of
|
|
graphic.
|
|
DCS Pa; Pb; Ph q Ps..Ps ST
|
|
See:
|
|
|
|
http://vt100.net/docs/vt3xx-gp/chapter14.html
|
|
|
|
The sixel data device control string has three positional
|
|
parameters, following the q with sixel data.
|
|
Pa -> pixel aspect ratio
|
|
Pb -> background color option
|
|
Ph -> horizontal grid size (ignored).
|
|
Ps -> sixel data
|
|
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ReGIS Graphics
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If xterm is configured as VT125, VT240, VT241, VT330 or VT340 using the
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decTerminalID resource, it supports Remote Graphic Instruction Set, a
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graphics description language.
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CSI Ps c xterm responds to Send Device Attributes (Primary DA) with
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these additional codes:
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Ps = 3 -> ReGIS graphics.
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CSI ? Pm h
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xterm has these additional private Set Mode values:
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Ps = 1 0 7 0 -> use private color registers for each
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graphic.
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DCS Pm p Pr..Pr ST
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See:
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http://vt100.net/docs/vt3xx-gp/chapter1.html
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The ReGIS data device control string has one positional param-
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eter with four possible values:
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Pm = 0 -> resume command, use fullscreen mode.
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Pm = 1 -> start new command, use fullscreen mode.
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Pm = 2 -> resume command, use command display mode.
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Pm = 3 -> start new command, use command display mode.
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Tektronix 4014 Mode
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Most of these sequences are standard Tektronix 4014 control sequences.
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Graph mode supports the 12-bit addressing of the Tektronix 4014. The
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major features missing are the write-through and defocused modes. This
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document does not describe the commands used in the various Tektronix
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plotting modes but does describe the commands to switch modes.
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BEL Bell (Ctrl-G).
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BS Backspace (Ctrl-H).
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TAB Horizontal Tab (Ctrl-I).
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LF Line Feed or New Line (Ctrl-J).
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VT Cursor up (Ctrl-K).
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FF Form Feed or New Page (Ctrl-L).
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CR Carriage Return (Ctrl-M).
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ESC ETX Switch to VT100 Mode (ESC Ctrl-C).
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ESC ENQ Return Terminal Status (ESC Ctrl-E).
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ESC FF PAGE (Clear Screen) (ESC Ctrl-L).
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ESC SO Begin 4015 APL mode (ESC Ctrl-N). (This is ignored by
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xterm).
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ESC SI End 4015 APL mode (ESC Ctrl-O). (This is ignored by xterm).
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ESC ETB COPY (Save Tektronix Codes to file COPYyyyy-mm-dd.hh:mm:ss).
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ETB (end transmission block) is the same as Ctrl-W.
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ESC CAN Bypass Condition (ESC Ctrl-X).
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ESC SUB GIN mode (ESC Ctrl-Z).
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ESC FS Special Point Plot Mode (ESC Ctrl-\).
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ESC 8 Select Large Character Set.
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ESC 9 Select #2 Character Set.
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ESC : Select #3 Character Set.
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ESC ; Select Small Character Set.
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OSC Ps ; Pt BEL
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Set Text Parameters of VT window.
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Ps = 0 -> Change Icon Name and Window Title to Pt.
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Ps = 1 -> Change Icon Name to Pt.
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Ps = 2 -> Change Window Title to Pt.
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Ps = 4 6 -> Change Log File to Pt. (This is normally dis-
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abled by a compile-time option).
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ESC ` Normal Z Axis and Normal (solid) Vectors.
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ESC a Normal Z Axis and Dotted Line Vectors.
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ESC b Normal Z Axis and Dot-Dashed Vectors.
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ESC c Normal Z Axis and Short-Dashed Vectors.
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ESC d Normal Z Axis and Long-Dashed Vectors.
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ESC h Defocused Z Axis and Normal (solid) Vectors.
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ESC i Defocused Z Axis and Dotted Line Vectors.
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ESC j Defocused Z Axis and Dot-Dashed Vectors.
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ESC k Defocused Z Axis and Short-Dashed Vectors.
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ESC l Defocused Z Axis and Long-Dashed Vectors.
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ESC p Write-Thru Mode and Normal (solid) Vectors.
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ESC q Write-Thru Mode and Dotted Line Vectors.
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ESC r Write-Thru Mode and Dot-Dashed Vectors.
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ESC s Write-Thru Mode and Short-Dashed Vectors.
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ESC t Write-Thru Mode and Long-Dashed Vectors.
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FS Point Plot Mode (Ctrl-\).
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GS Graph Mode (Ctrl-]).
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RS Incremental Plot Mode (Ctrl-^).
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US Alpha Mode (Ctrl-_).
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VT52 Mode
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Parameters for cursor movement are at the end of the ESC Y escape
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sequence. Each ordinate is encoded in a single character as value+32.
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For example, ! is 1. The screen coordinate system is 0-based.
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ESC < Exit VT52 mode (Enter VT100 mode).
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ESC = Enter alternate keypad mode.
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ESC > Exit alternate keypad mode.
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ESC A Cursor up.
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ESC B Cursor down.
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ESC C Cursor right.
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ESC D Cursor left.
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ESC F Enter graphics mode.
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ESC G Exit graphics mode.
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ESC H Move the cursor to the home position.
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ESC I Reverse line feed.
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ESC J Erase from the cursor to the end of the screen.
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ESC K Erase from the cursor to the end of the line.
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ESC Y Ps Ps
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Move the cursor to given row and column.
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ESC Z Identify.
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-> ESC / Z ("I am a VT52.").
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