@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
equations. @RawIndex { equations }
equations.vctr @SubIndex { @Code "vctr" symbol }
vctr.equations @Index { @Code "vctr" symbol (equations) }
}
@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 }
equations. @RawIndex { equations }
equations.dot @SubIndex { @Code "dot" symbol }
dot.equations @Index { @Code "dot" symbol (equations) }
}

@LI {
@Code "x dotdot"
|7ct
@Eq { x dotdot }
equations. @RawIndex { equations }
equations.dotdot @SubIndex { @Code "dotdot" symbol }
dotdot.equations @Index { @Code "dotdot" symbol (equations) }
}

@LI {
@Code "x hat"
|7ct
@Eq { x hat }
equations. @RawIndex { equations }
equations.hat @SubIndex { @Code "hat" symbol }
hat.equations @Index { @Code "hat" symbol (equations) }
}

@LI {
@Code "x tilde"
|7ct
@Eq { x tilde }
equations. @RawIndex { equations }
equations.tilde @SubIndex { @Code "tilde" symbol }
tilde.equations @Index { @Code "tilde" symbol (equations) }
}

@LI {
@Code "x vec"
|7ct
@Eq { x vec }
equations. @RawIndex { equations }
equations.vec @SubIndex { @Code "vec" symbol }
vec.equations @Index { @Code "vec" symbol (equations) }
}

@LI {
@Code "x dyad"
|7ct
@Eq { x dyad }
equations. @RawIndex { equations }
equations.dyad @SubIndex { @Code "dyad" symbol }
dyad.equations @Index { @Code "dyad" symbol (equations) }
}

@LI {
@Code "x+y overbar"
|7ct
@Eq { x+y overbar }
equations. @RawIndex { equations }
equations.overbar @SubIndex { @Code "overbar" symbol }
overbar.equations @Index { @Code "overbar" symbol (equations) }
}

@LI {
@Code "x+y underbar"
|7ct
@Eq { x+y underbar }
equations. @RawIndex { equations }
equations.underbar @SubIndex { @Code "underbar" symbol }
underbar.equations @Index { @Code "underbar" symbol (equations) }
}

@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} }
equations. @RawIndex { equations }
equations.widefrom @SubIndex { @Code "widefrom" symbol }
widezzzfrom.equations @Index { @Code "widefrom" symbol (equations) }
}

@LI {
@Code "{a, ... , z} wideto minus"
|7ct
@Eq { {a, ... , z} wideto minus }
equations. @RawIndex { equations }
equations.wideto @SubIndex { @Code "wideto" symbol }
widezzzto.equations @Index { @Code "wideto" symbol (equations) }
}

@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} }
equations. @RawIndex { equations }
equations.sqrt @SubIndex { @Code "sqrt" symbol }
sqrt.equations @Index { @Code "sqrt" symbol (equations) }
}

@LI {
@Code "3 root {x over y}"
|7ct
@Eq { 3 root {x over y} }
equations. @RawIndex { equations }
equations.root @SubIndex { @Code "root" symbol }
root.equations @Index { @Code "root" symbol (equations) }
}

@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 }
equations. @RawIndex { equations }
equations.over @SubIndex { @Code "over" symbol }
over.equations @Index { @Code "over" symbol (equations) }
}

@LI {
@Code "2 frac 3"
|7ct
@Eq { 2 frac 3 }
equations. @RawIndex { equations }
equations.frac @SubIndex { @Code "frac" symbol }
frac.equations @Index { @Code "frac" symbol (equations) }
}

@LI {
@Code "2 div 3"
|7ct
@Eq { 2 div 3 }
equations. @RawIndex { equations }
equations.div @SubIndex { @Code "div" symbol }
div.equations @Index { @Code "div" symbol (equations) }
}

@LI {
@Code "2 slash 3"
|7ct
@Eq { 2 slash 3 }
equations. @RawIndex { equations }
equations.slash @SubIndex { @Code "slash" symbol }
slash.equations @Index { @Code "slash" symbol (equations) }
}

@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
equations. @RawIndex { equations }
equations.not @SubIndex { @Code "not" symbol }
not.equations @Index { @Code "not" symbol (equations) }
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		}
"triangleup"	@Dbl @Eq {  triangleup		}
"triangledown"	@Dbl @Eq {  triangledown	}
"..."		@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 as for the @Code "@Sym" symbol of Section {@NumberOf characters},
but within equations you don't 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