@Section @Title { Summary } @Begin @PP This section is a complete list of the symbols provided by {@Code "@Eq"}. We divide them into auxiliary, parameterized, short names (further divided into relations, binary operators, and punctuation), and full names. The auxiliary symbols are: @ID @Tab vmargin { 0.5vx } @Fmta { @Col A ! @Col B } { @Rowa A { @Code "`" } B { Thin space } @Rowa A { @Code "``" } B { Medium space } @Rowa A { @Code "```" } B { Thick space } @Rowa A { @Code "bin x" } B { Treat @Code x as a binary operator } @Rowa A { @Code "rel x" } B { Treat @Code x as a relation } @Rowa A { @Code "punct x" } B { Treat @Code x as a punctuation symbol } @Rowa A { @Code "non x" } B { Remove spaces normally put into @Code x } @Rowa A { @Code "vctr x" } B { Centre @Code x vertically } @Rowa A { @Code "big x" } B { Make @Code x larger } @Rowa A { @Code "small x" } B { Make @Code x smaller } } Here are all the parameterized symbols, shown in groups of equal precedence, with the precedence itself at right: @ID @OneRow lines @Break { @Code "matrix pmatrix bmatrix brmatrix fmatrix cmatrix amatrix not" (100) @Code "dot dotdot hat tilde vec dyad overbar underbar" (62) @Code "sup sub tsub supp" (60) @Code "on ton" (61) @Code "from to widefrom wideto" (58) @Code "sqrt root" (56) @Code "over frac" (54) @Code "col lcol ccol rcol mcol" (52) @Code "row axisrow" (50) # @Code "above labove cabove rabove mabove" (52) # @Code "nextcol" (50) } See Section {@NumberOf symbols} for examples of matrices. Here are some examples of the other symbols: @IL @LI { @Code "x dot" |7ct @Eq { x dot } } @LI { @Code "x dotdot" |7ct @Eq { x dotdot } } @LI { @Code "x hat" |7ct @Eq { x hat } } @LI { @Code "x tilde" |7ct @Eq { x tilde } } @LI { @Code "x vec" |7ct @Eq { x vec } } @LI { @Code "x dyad" |7ct @Eq { x dyad } } @LI { @Code "x+y overbar" |7ct @Eq { x+y overbar } } @LI { @Code "x+y underbar" |7ct @Eq { x+y underbar } } @EL These marks are centred over the preceding object, except the last two which are extended to the width of the object. @IL @LI { @Code "a sup b" |7ct @Eq {a sup b} } @LI { @Code "a sub b" |7ct @Eq {a sub b} } @LI { @Code "W tsub b" |7ct @Eq {W tsub b} } @LI { @Code "a supp b on c" |7ct @Eq {a supp b on c} } @LI { @Code "W supp b ton c" |7ct @Eq {W supp b ton c} } @EL Note that @Code "supp" and @Code "on" (or {@Code "ton"}) must be used together as shown; @Code "tsub" and @Code "ton" are exactly like @Code "sub" and @Code "on" except that the subscript is tucked in. @IL @LI { @Code "big sum from i" |7ct @Eq {big sum from i} } @LI { @Code "big prod to j" |7ct @Eq {big prod to j} } @LI { @Code { "{a, ... , z} widefrom" "{90d @Rotate blbrace}" } |7ct @Eq { {a, ... , z} widefrom {90d @Rotate blbrace} } } @LI { @Code "{a, ... , z} wideto minus" |7ct @Eq { {a, ... , z} wideto minus } } @EL @Code "widefrom" and @Code "wideto" are like @Code "from" and @Code "to" except that they horizontally scale the right parameter to the width of the left. @IL @LI { @Code "sqrt {x over y}" |7ct @Eq { sqrt {x over y} } } @LI { @Code "3 root {x over y}" |7ct @Eq { 3 root {x over y} } } @EL The left parameter of @Code "root" may be any object. Here are four ways to denote division: @IL @LI { @Code "2 over 3" |7ct @Eq { 2 over 3 } } @LI { @Code "2 frac 3" |7ct @Eq { 2 frac 3 } } @LI { @Code "2 div 3" |7ct @Eq { 2 div 3 } } @LI { @Code "2 slash 3" |7ct @Eq { 2 slash 3 } } @EL The @Code "div" symbol is a binary operator (see below), and @Code "slash" is the full name for the @Code "/" character from the Adobe Symbol font. You can't use @Code "/" itself, because it is one of Lout's special symbols. @PP The following short names define relations (that is, they have a thick space on each side): @DP ragged @Break { "<" @Dbl @Eq { < } ">" @Dbl @Eq { > } "=" @Dbl @Eq { = } "<=" @Dbl @Eq { <= } "prec" @Dbl @Eq { prec } "preceq" @Dbl @Eq { preceq } "<<" @Dbl @Eq { << } "subset" @Dbl @Eq { subset } "subseteq" @Dbl @Eq { subseteq } "sqsubseteq" @Dbl @Eq { sqsubseteq } "in" @Dbl @Eq { in } "vdash" @Dbl @Eq { vdash } "smile" @Dbl @Eq { smile } "frown" @Dbl @Eq { frown } ">=" @Dbl @Eq { >= } "succ" @Dbl @Eq { succ } "succeq" @Dbl @Eq { succeq } ">>" @Dbl @Eq { >> } "supset" @Dbl @Eq { supset } "supseteq" @Dbl @Eq { supseteq } "sqsupseteq" @Dbl @Eq { sqsupseteq } "ni" @Dbl @Eq { ni } "dashv" @Dbl @Eq { dashv } "mid" @Dbl @Eq { mid } "parallel" @Dbl @Eq { parallel } "==" @Dbl @Eq { == } "~" @Dbl @Eq { ~ } "-~" @Dbl @Eq { -~ } "asymp" @Dbl @Eq { asymp } "~~" @Dbl @Eq { ~~ } "=~" @Dbl @Eq { =~ } "bowtie" @Dbl @Eq { bowtie } "propto" @Dbl @Eq { propto } "models" @Dbl @Eq { models } "doteq" @Dbl @Eq { doteq } "trieq" @Dbl @Eq { trieq } "perp" @Dbl @Eq { perp } "notsub" @Dbl @Eq { notsub } "notin" @Dbl @Eq { notin } "!=" @Dbl @Eq { != } "<->" @Dbl @Eq { <-> } "<--" @Dbl @Eq { <-- } "-->" @Dbl @Eq { --> } "up" @Dbl @Eq { up } "down" @Dbl @Eq { down } "<=>" @Dbl @Eq { <=> } "<==" @Dbl @Eq { <== } "==>" @Dbl @Eq { ==> } "dblup" @Dbl @Eq { dblup } "dbldown" @Dbl @Eq { dbldown } ":" @Dbl @Eq { : } "::" @Dbl @Eq { :: } ":=" @Dbl @Eq { := } } @DP These can be negated by preceding them with {@Code "not"}, as in negation. @Index { negation of equation symbols } {@Code "not =="}, for example, which yields {@Eq { not == }}. The following short names define binary operators (medium space on each side): @DP ragged @Break { "+" @Dbl @Eq { + } "-" @Dbl @Eq { - } "+-" @Dbl @Eq { +- } "-+" @Dbl @Eq { -+ } "setminus" @Dbl @Eq { setminus } "cdot" @Dbl @Eq { cdot } "times" @Dbl @Eq { times } "*" @Dbl @Eq { * } "circ" @Dbl @Eq { circ } "div" @Dbl @Eq { div } "cap" @Dbl @Eq { cap } "cup" @Dbl @Eq { cup } "uplus" @Dbl @Eq { uplus } "sqcap" @Dbl @Eq { sqcap } "sqcup" @Dbl @Eq { sqcup } "triangleleft" @Dbl @Eq { triangleleft } "triangleright" @Dbl @Eq { triangleright } "wr" @Dbl @Eq { wr } "bigcirc" @Dbl @Eq { bigcirc } "bigtriangleup" @Dbl @Eq { bigtriangleup } "bigtriangledown"@Dbl @Eq { bigtriangledown } "vee" @Dbl @Eq { vee } "wedge" @Dbl @Eq { wedge } "oplus" @Dbl @Eq { oplus } "ominus" @Dbl @Eq { ominus } "otimes" @Dbl @Eq { otimes } "oslash" @Dbl @Eq { oslash } "odot" @Dbl @Eq { odot } "dagger" @Dbl @Eq { dagger } "daggerdbl" @Dbl @Eq { daggerdbl } "amalg" @Dbl @Eq { amalg } } @DP The following names define arrow symbols (no extra space): @DP ragged @Break { "leftarrow" @Dbl @Eq { leftarrow } "longleftarrow" @Dbl @Eq { longleftarrow } "dblleftarrow" @Dbl @Eq { dblleftarrow } "dbllongleftarrow" @Dbl @Eq { dbllongleftarrow } "rightarrow" @Dbl @Eq { rightarrow } "longrightarrow" @Dbl @Eq { longrightarrow } "dblrightarrow" @Dbl @Eq { dblrightarrow } "dbllongrightarrow" @Dbl @Eq { dbllongrightarrow } "leftrightarrow" @Dbl @Eq { leftrightarrow } "longleftrightarrow" @Dbl @Eq { longleftrightarrow } "dblleftrightarrow" @Dbl @Eq { dblleftrightarrow } { 1.15i @Wide @HScale "dbllongleftrightarrow" } @Dbl @Eq { dbllongleftrightarrow } "mapsto" @Dbl @Eq { mapsto } "longmapsto" @Dbl @Eq { longmapsto } "hookleftarrow" @Dbl @Eq { hookleftarrow } "hookrightarrow" @Dbl @Eq { hookrightarrow } "leadsto" @Dbl @Eq { leadsto } "leftharpoonup" @Dbl @Eq { leftharpoonup } "rightharpoonup" @Dbl @Eq { rightharpoonup } "leftharpoondown" @Dbl @Eq { leftharpoondown } "rightharpoondown" @Dbl @Eq { rightharpoondown } "rightleftharpoons" @Dbl @Eq { rightleftharpoons } "uparrow" @Dbl @Eq { uparrow } "dbluparrow" @Dbl @Eq { dbluparrow } "downarrow" @Dbl @Eq { downarrow } "dbldownarrow" @Dbl @Eq { dbldownarrow } "updownarrow" @Dbl @Eq { updownarrow } "dblupdownarrow" @Dbl @Eq { dblupdownarrow } "nearrow" @Dbl @Eq { nearrow } "searrow" @Dbl @Eq { searrow } "swarrow" @Dbl @Eq { swarrow } "nwarrow" @Dbl @Eq { nwarrow } } @DP The following names define punctuation symbols (thin space on the right-hand side): @DP ragged @Break { ";" @Dbl @Eq { ; } "," @Dbl @Eq { , } "col" @Dbl @Eq { col } } @DP The following symbols are used in ways typified by the large sum and product symbols. In display equations they should be preceded by the @Code "big" symbol: @DP ragged @Break { "sum" @Dbl @Eq { sum } "prod" @Dbl @Eq { prod } "coprod" @Dbl @Eq { coprod } @LP "int" @Dbl @Eq { int } "oint" @Dbl @Eq { oint } "bcap" @Dbl @Eq { bcap } @LP "bcup" @Dbl @Eq { bcup } "bvee" @Dbl @Eq { bvee } "bwedge" @Dbl @Eq { bwedge } @LP "bodot" @Dbl @Eq { bodot } "botimes" @Dbl @Eq { botimes } "boplus" @Dbl @Eq { boplus } @LP "buplus" @Dbl @Eq { buplus } } @DP The following symbols are defined so that they will appear in Roman, as is conventional for them in equations: @DP ragged @Break { "arccos" @Dbl @Eq { arccos } "arcsin" @Dbl @Eq { arcsin } "arctan" @Dbl @Eq { arctan } "arg" @Dbl @Eq { arg } "cos" @Dbl @Eq { cos } "cosh" @Dbl @Eq { cosh } "cot" @Dbl @Eq { cot } "coth" @Dbl @Eq { coth } "csc" @Dbl @Eq { csc } "deg" @Dbl @Eq { deg } "det" @Dbl @Eq { det } "dim" @Dbl @Eq { dim } "exp" @Dbl @Eq { exp } "gcd" @Dbl @Eq { gcd } "hom" @Dbl @Eq { hom } "inf" @Dbl @Eq { inf } "ker" @Dbl @Eq { ker } "lg" @Dbl @Eq { lg } "lim" @Dbl @Eq { lim } "liminf" @Dbl @Eq { liminf } "limsup" @Dbl @Eq { limsup } "ln" @Dbl @Eq { ln } "log" @Dbl @Eq { log } "max" @Dbl @Eq { max } "min" @Dbl @Eq { min } "Pr" @Dbl @Eq { Pr } "sec" @Dbl @Eq { sec } "sin" @Dbl @Eq { sin } "sinh" @Dbl @Eq { sinh } "supr" @Dbl @Eq { supr } "tan" @Dbl @Eq { tan } "tanh" @Dbl @Eq { tanh } "mod" @Dbl @Eq { mod } } @DP The following symbols are also defined to ensure that they will appear in Roman: @DP ragged @Break { "0" @Dbl @Eq { 0 } "1" @Dbl @Eq { 1 } "2" @Dbl @Eq { 2 } "3" @Dbl @Eq { 3 } "4" @Dbl @Eq { 4 } "5" @Dbl @Eq { 5 } "6" @Dbl @Eq { 6 } "7" @Dbl @Eq { 7 } "8" @Dbl @Eq { 8 } "9" @Dbl @Eq { 9 } "!" @Dbl @Eq { ! } "?" @Dbl @Eq { ? } "%" @Dbl @Eq { % } "(" @Dbl @Eq { ( } ")" @Dbl @Eq { ) } "[" @Dbl @Eq { [ } "]" @Dbl @Eq { ] } } @DP The following symbols make good @Code atleft and @Code atright parameters of the @Code matrix symbol: @LP @LP ragged @Break { "lpar" @Dbl @Eq { lpar } "blpar" @Dbl @Eq { blpar } "rpar" @Dbl @Eq { rpar } "brpar" @Dbl @Eq { brpar } "lbrack" @Dbl @Eq { lbrack } "blbrack" @Dbl @Eq { blbrack } "rbrack" @Dbl @Eq { rbrack } "brbrack" @Dbl @Eq { brbrack } "lbrace" @Dbl @Eq { lbrace } "blbrace" @Dbl @Eq { blbrace } "rbrace" @Dbl @Eq { rbrace } "brbrace" @Dbl @Eq { brbrace } "lfloor" @Dbl @Eq { lfloor } "blfloor" @Dbl @Eq { blfloor } "rfloor" @Dbl @Eq { rfloor } "brfloor" @Dbl @Eq { brfloor } "lceil" @Dbl @Eq { lceil } "blceil" @Dbl @Eq { blceil } "rceil" @Dbl @Eq { rceil } "brceil" @Dbl @Eq { brceil } "langle" @Dbl @Eq { langle } "blangle" @Dbl @Eq { blangle } "rangle" @Dbl @Eq { rangle } "brangle" @Dbl @Eq { brangle } } @LP @LP Here are some miscellaneous symbols: @DP ragged @Break { "hbar" @Dbl @Eq { hbar } "Re" @Dbl @Eq { Re } "Im" @Dbl @Eq { Im } "partial" @Dbl @Eq { partial } "infty" @Dbl @Eq { infty } "prime" @Dbl @Eq { prime } "nabla" @Dbl @Eq { nabla } "surd" @Dbl @Eq { surd } "top" @Dbl @Eq { top } "bot" @Dbl @Eq { bot } "dbar" @Dbl @Eq { dbar } "triangle" @Dbl @Eq { triangle } "backslash" @Dbl @Eq { backslash } "forall" @Dbl @Eq { forall } "exists" @Dbl @Eq { exists } "neg" @Dbl @Eq { neg } "circle" @Dbl @Eq { circle } "filledcircle" @Dbl @Eq { filledcircle } "square" @Dbl @Eq { square } "ldots" @Dbl @Eq { ldots } "cdots" @Dbl @Eq { cdots } "vdots" @Dbl @Eq { vdots } "ddots" @Dbl @Eq { ddots } "del" @Dbl @Eq { del } "grad" @Dbl @Eq { grad } "..." @Dbl @Eq { ... } ",...," @Dbl @Eq { ,..., } "half" @Dbl @Eq { half } "third" @Dbl @Eq { third } "'" @Dbl @Eq { ' } "empty" @Dbl @Eq { empty } } @DP Finally, here is the long list of full names from the Adobe Symbol font; these are the same characters as you get with the @Code "@Sym" symbol of Section {@NumberOf characters}, but within equations you don't need to type {@Code "@Sym"}: @DP ragged @Break { "space" @Dbl @Eq { space } "exclam" @Dbl @Eq { exclam } "universal" @Dbl @Eq { universal } "numbersign" @Dbl @Eq { numbersign } "existential" @Dbl @Eq { existential } "percent" @Dbl @Eq { percent } "ampersand" @Dbl @Eq { ampersand } "suchthat" @Dbl @Eq { suchthat } "parenleft" @Dbl @Eq { parenleft } "parenright" @Dbl @Eq { parenright } "asteriskmath" @Dbl @Eq { asteriskmath } "plus" @Dbl @Eq { plus } "comma" @Dbl @Eq { comma } "minus" @Dbl @Eq { minus } "period" @Dbl @Eq { period } "slash" @Dbl @Eq { slash } "zero" @Dbl @Eq { zero } "one" @Dbl @Eq { one } "two" @Dbl @Eq { two } "three" @Dbl @Eq { three } "four" @Dbl @Eq { four } "five" @Dbl @Eq { five } "six" @Dbl @Eq { six } "seven" @Dbl @Eq { seven } "eight" @Dbl @Eq { eight } "nine" @Dbl @Eq { nine } "colon" @Dbl @Eq { colon } "semicolon" @Dbl @Eq { semicolon } "less" @Dbl @Eq { less } "equal" @Dbl @Eq { equal } "greater" @Dbl @Eq { greater } "question" @Dbl @Eq { question } "congruent" @Dbl @Eq { congruent } "Alpha" @Dbl @Eq { Alpha } "Beta" @Dbl @Eq { Beta } "Chi" @Dbl @Eq { Chi } "Delta" @Dbl @Eq { Delta } "Epsilon" @Dbl @Eq { Epsilon } "Phi" @Dbl @Eq { Phi } "Gamma" @Dbl @Eq { Gamma } "Eta" @Dbl @Eq { Eta } "Iota" @Dbl @Eq { Iota } "thetaone" @Dbl @Eq { thetaone } "Kappa" @Dbl @Eq { Kappa } "Lambda" @Dbl @Eq { Lambda } "Mu" @Dbl @Eq { Mu } "Nu" @Dbl @Eq { Nu } "Omicron" @Dbl @Eq { Omicron } "Pi" @Dbl @Eq { Pi } "Theta" @Dbl @Eq { Theta } "Rho" @Dbl @Eq { Rho } "Sigma" @Dbl @Eq { Sigma } "Tau" @Dbl @Eq { Tau } "Upsilon" @Dbl @Eq { Upsilon } "sigmaone" @Dbl @Eq { sigmaone } "Omega" @Dbl @Eq { Omega } "Xi" @Dbl @Eq { Xi } "Psi" @Dbl @Eq { Psi } "Zeta" @Dbl @Eq { Zeta } "bracketleft" @Dbl @Eq { bracketleft } "therefore" @Dbl @Eq { therefore } "bracketright" @Dbl @Eq { bracketright } "perpendicular" @Dbl @Eq { perpendicular } "underscore" @Dbl @Eq { underscore } "radicalex" @Dbl @Eq { radicalex } "alpha" @Dbl @Eq { alpha } "beta" @Dbl @Eq { beta } "chi" @Dbl @Eq { chi } "delta" @Dbl @Eq { delta } "epsilon" @Dbl @Eq { epsilon } "phi" @Dbl @Eq { phi } "gamma" @Dbl @Eq { gamma } "eta" @Dbl @Eq { eta } "iota" @Dbl @Eq { iota } "phione" @Dbl @Eq { phione } "kappa" @Dbl @Eq { kappa } "lambda" @Dbl @Eq { lambda } "mu" @Dbl @Eq { mu } "nu" @Dbl @Eq { nu } "omicron" @Dbl @Eq { omicron } "pi" @Dbl @Eq { pi } "theta" @Dbl @Eq { theta } "rho" @Dbl @Eq { rho } "sigma" @Dbl @Eq { sigma } "tau" @Dbl @Eq { tau } "upsilon" @Dbl @Eq { upsilon } "omegaone" @Dbl @Eq { omegaone } "omega" @Dbl @Eq { omega } "xi" @Dbl @Eq { xi } "psi" @Dbl @Eq { psi } "zeta" @Dbl @Eq { zeta } "braceleft" @Dbl @Eq { braceleft } "bar" @Dbl @Eq { bar } "braceright" @Dbl @Eq { braceright } "similar" @Dbl @Eq { similar } "Upsilonone" @Dbl @Eq { Upsilonone } "minute" @Dbl @Eq { minute } "lessequal" @Dbl @Eq { lessequal } "fraction" @Dbl @Eq { fraction } "infinity" @Dbl @Eq { infinity } "florin" @Dbl @Eq { florin } "club" @Dbl @Eq { club } "diamond" @Dbl @Eq { diamond } "heart" @Dbl @Eq { heart } "spade" @Dbl @Eq { spade } "arrowboth" @Dbl @Eq { arrowboth } "arrowleft" @Dbl @Eq { arrowleft } "arrowup" @Dbl @Eq { arrowup } "arrowright" @Dbl @Eq { arrowright } "arrowdown" @Dbl @Eq { arrowdown } "degree" @Dbl @Eq { degree } "plusminus" @Dbl @Eq { plusminus } "second" @Dbl @Eq { second } "greaterequal" @Dbl @Eq { greaterequal } "multiply" @Dbl @Eq { multiply } "proportional" @Dbl @Eq { proportional } "partialdiff" @Dbl @Eq { partialdiff } "bullet" @Dbl @Eq { bullet } "divide" @Dbl @Eq { divide } "notequal" @Dbl @Eq { notequal } "equivalence" @Dbl @Eq { equivalence } "approxequal" @Dbl @Eq { approxequal } "ellipsis" @Dbl @Eq { ellipsis } "arrowvertex" @Dbl @Eq { arrowvertex } "arrowhorizex" @Dbl @Eq { arrowhorizex } "carriagereturn"@Dbl @Eq { carriagereturn } "aleph" @Dbl @Eq { aleph } "Ifraktur" @Dbl @Eq { Ifraktur } "Rfraktur" @Dbl @Eq { Rfraktur } "weierstrass" @Dbl @Eq { weierstrass } "circlemultiply"@Dbl @Eq { circlemultiply } "circleplus" @Dbl @Eq { circleplus } "emptyset" @Dbl @Eq { emptyset } "intersection" @Dbl @Eq { intersection } "union" @Dbl @Eq { union } "propersuperset"@Dbl @Eq { propersuperset } "reflexsuperset"@Dbl @Eq { reflexsuperset } "notsubset" @Dbl @Eq { notsubset } "propersubset" @Dbl @Eq { propersubset } "reflexsubset" @Dbl @Eq { reflexsubset } "element" @Dbl @Eq { element } "notelement" @Dbl @Eq { notelement } "angle" @Dbl @Eq { angle } "gradient" @Dbl @Eq { gradient } "registerserif" @Dbl @Eq { registerserif } "copyrightserif"@Dbl @Eq { copyrightserif } "trademarkserif"@Dbl @Eq { trademarkserif } "product" @Dbl @Eq { product } "radical" @Dbl @Eq { radical } "dotmath" @Dbl @Eq { dotmath } "logicalnot" @Dbl @Eq { logicalnot } "logicaland" @Dbl @Eq { logicaland } "logicalor" @Dbl @Eq { logicalor } "arrowdblboth" @Dbl @Eq { arrowdblboth } "arrowdblleft" @Dbl @Eq { arrowdblleft } "arrowdblup" @Dbl @Eq { arrowdblup } "arrowdblright" @Dbl @Eq { arrowdblright } "arrowdbldown" @Dbl @Eq { arrowdbldown } "lozenge" @Dbl @Eq { lozenge } "angleleft" @Dbl @Eq { angleleft } "registersans" @Dbl @Eq { registersans } "copyrightsans" @Dbl @Eq { copyrightsans } "trademarksans" @Dbl @Eq { trademarksans } "summation" @Dbl @Eq { summation } "parenlefttp" @Dbl @Eq { parenlefttp } "parenleftex" @Dbl @Eq { parenleftex } "parenleftbt" @Dbl @Eq { parenleftbt } "bracketlefttp" @Dbl @Eq { bracketlefttp } "bracketleftex" @Dbl @Eq { bracketleftex } "bracketleftbt" @Dbl @Eq { bracketleftbt } "bracelefttp" @Dbl @Eq { bracelefttp } "braceleftmid" @Dbl @Eq { braceleftmid } "braceleftbt" @Dbl @Eq { braceleftbt } "braceex" @Dbl @Eq { braceex } "angleright" @Dbl @Eq { angleright } "integral" @Dbl @Eq { integral } "integraltp" @Dbl @Eq { integraltp } "integralex" @Dbl @Eq { integralex } "integralbt" @Dbl @Eq { integralbt } "parenrighttp" @Dbl @Eq { parenrighttp } "parenrightex" @Dbl @Eq { parenrightex } "parenrightbt" @Dbl @Eq { parenrightbt } "bracketrighttp"@Dbl @Eq { bracketrighttp } "bracketrightex"@Dbl @Eq { bracketrightex } "bracketrightbt"@Dbl @Eq { bracketrightbt } "bracerighttp" @Dbl @Eq { bracerighttp } "bracerightmid" @Dbl @Eq { bracerightmid } "bracerightbt" @Dbl @Eq { bracerightbt } } @DP The names given are the same as Adobe's, as used by the @Code "@Sym" symbol, except in a few places where the Adobe name contains a digit, which is not possible for a symbol name in Lout. @End @Section