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path: root/src/algebra/tex.spad.pamphlet
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\documentclass{article}
\usepackage{open-axiom}
\begin{document}
\title{\$SPAD/src/algebra tex.spad}
\author{Robert S. Sutor}
\maketitle
\begin{abstract}
\end{abstract}
\eject
\tableofcontents
\eject
\section{domain TEX TexFormat}
\subsection{product(product(i*j,i=a..b),j=c..d) fix}
The expression prints properly in ascii text but the tex output
is incorrect. Originally the input
\begin{verbatim}
product(product(i*j,i=a..b),j=c..d) 
\end{verbatim}
prints as
$$
PI2 
\left(
{{j=c}, \: d, \: {PI2 
\left(
{{i=a}, \: b, \: {i \  j}} 
\right)}}
\right)
\leqno(1)
$$
but now says:
The problem is in [[src/algebra/tex.spad.pamphlet]] in the list of
constants.
The code used to read
\begin{verbatim}
    plexOps       : L S := ["SIGMA","SIGMA2","PI","INTSIGN","INDEFINTEGRAL"]$(L S)
    plexPrecs     : L I := [    700, 800,      700,            700]$(L I)
\end{verbatim}
it now reads:
<<product(product(i*j,i=a..b),j=c..d) fix>>=
    plexOps       : L S := ["SIGMA","SIGMA2","PI","PI2","INTSIGN","INDEFINTEGRAL"]$(L S)
    plexPrecs     : L I := [    700, 800,     700, 800 , 700,      700]$(L I)
@
in addition we need to add a line defining [[PI2]] in [[formatPlex]]:
<<define PI2>>=
        op = "PI2"     => "\prod"
@
\subsection{domain TEX TexFormat}
<<domain TEX TexFormat>>=
)abbrev domain TEX TexFormat
++ Author: Robert S. Sutor
++ Date Created: 1987 through 1992
++ Change History:
++   05/15/91 RSS Changed matrix formatting to use array environment.
++   06/27/91 RSS Fixed segments
++   08/12/91 RSS Removed some grouping for things, added newWithNum and
++                ungroup, improved line splitting
++   08/15/91 RSS Added mbox support for strings
++   10/15/91 RSS Handle \%\% at beginning of string
++   01/22/92 RSS Use \[ and \] instead of $$ and $$. Use
++                %AXIOM STEP NUMBER: instead of \leqno
++   02/27/92 RSS Escape dollar signs appearing in the input.
++   03/09/92 RSS Handle explicit blank appearing in the input.
++   11/28/93 JHD Added code for the VCONCAT and TAG operations.
++   06/27/95 RSS Change back to $$ and \leqno for Saturn
++ Basic Operations: coerce, convert, display, epilogue,
++   tex, new, prologue, setEpilogue!, setTex!, setPrologue!
++ Related Constructors: TexFormat1
++ Also See: ScriptFormulaFormat
++ AMS Classifications:
++ Keywords: TeX, LaTeX, output, format
++ References: \TeX{} is a trademark of the American Mathematical Society.
++ Description:
++   \spadtype{TexFormat} provides a coercion from \spadtype{OutputForm} to
++   \TeX{} format.  The particular dialect of \TeX{} used is \LaTeX{}.
++   The basic object consists of three parts: a prologue, a
++   tex part and an epilogue. The functions \spadfun{prologue},
++   \spadfun{tex} and \spadfun{epilogue} extract these parts,
++   respectively.  The main guts of the expression go into the tex part.
++   The other parts can be set (\spadfun{setPrologue!},
++   \spadfun{setEpilogue!}) so that contain the appropriate tags for
++   printing. For example, the prologue and epilogue might simply
++   contain ``\verb+\[+'' and ``\verb+\]+'', respectively, so that
++   the TeX section will be printed in LaTeX display math mode.

TexFormat(): public == private where
  E      ==> OutputForm
  I      ==> Integer
  L      ==> List
  S      ==> String
  US     ==> UniversalSegment(Integer)

  public == Join(SetCategory,CoercibleFrom E) with
    convert:  (E,I) -> $
      ++ convert(o,step) changes o in standard output format to
      ++ TeX format and also adds the given step number. This is useful
      ++ if you want to create equations with given numbers or have the
      ++ equation numbers correspond to the interpreter step numbers.
    convert:  (E,I,E) -> $
      ++ convert(o,step,type) changes o in standard output format to
      ++ TeX format and also adds the given step number and type. This
      ++ is useful if you want to create equations with given numbers
      ++ or have the equation numbers correspond to the interpreter step
      ++ numbers.
    display:  ($, I) -> Void
      ++ display(t,width) outputs the TeX formatted code t so that each
      ++ line has length less than or equal to \spadvar{width}.
    display:  $ -> Void
      ++ display(t) outputs the TeX formatted code t so that each
      ++ line has length less than or equal to the value set by
      ++ the system command \spadsyscom{set output length}.
    epilogue: $ -> L S
      ++ epilogue(t) extracts the epilogue section of a TeX form t.
    tex:      $ -> L S
      ++ tex(t) extracts the TeX section of a TeX form t.
    new:      () -> $
      ++ new() create a new, empty object. Use \spadfun{setPrologue!},
      ++ \spadfun{setTex!} and \spadfun{setEpilogue!} to set the various
      ++ components of this object.
    prologue: $ -> L S
      ++ prologue(t) extracts the prologue section of a TeX form t.
    setEpilogue!: ($, L S) -> L S
      ++ setEpilogue!(t,strings) sets the epilogue section of a TeX form t to strings.
    setTex!:  ($, L S) -> L S
      ++ setTex!(t,strings) sets the TeX section of a TeX form t to strings.
    setPrologue!: ($, L S) -> L S
      ++ setPrologue!(t,strings) sets the prologue section of a TeX form t to strings.

  private == add
    import OutputForm
    import Character
    import Integer
    import List OutputForm
    import List String

    Rep := Record(prolog : L S, TeX : L S, epilog : L S)

    -- local variables declarations and definitions

    expr: E
    prec,opPrec: I
    str:  S
    blank         : S := " \  "

    maxPrec       : I   := 1000000
    minPrec       : I   := 0

    unaryOps      : L S := ["-","^"]$(L S)
    unaryPrecs    : L I := [700,260]$(L I)

    -- the precedence of / in the following is relatively low because
    -- the bar obviates the need for parentheses.
    binaryOps     : L S := ["+->","|","**","/","<",">","=","OVER"]$(L S)
    binaryPrecs   : L I := [0,0,900, 700,400,400,400,   700]$(L I)

    naryOps       : L S := ["-","+","*",blank,",",";"," ","ROW","",
       " \cr ","&"," \\ "]$(L S)
    naryPrecs     : L I := [700,700,800,  800,110,110,  0,    0, 0,
             0,  0,   0]$(L I)
    naryNGOps     : L S := ["ROW","&"]$(L S)

<<product(product(i*j,i=a..b),j=c..d) fix>>

    specialOps    : L S := ["MATRIX","BRACKET","BRACE","CONCATB","VCONCAT",  _
                            "AGGLST","CONCAT","OVERBAR","ROOT","SUB","TAG", _
                            "SUPERSUB","ZAG","AGGSET","SC","PAREN", _
                            "SEGMENT","QUOTE","theMap" ]

    -- the next two lists provide translations for some strings for
    -- which TeX provides special macros.

    specialStrings : L S :=
      ["cos", "cot", "csc", "log", "sec", "sin", "tan",
        "cosh", "coth", "csch", "sech", "sinh", "tanh",
          "acos","asin","atan","erf","...","$","infinity",
            "alpha", "beta", "gamma", "delta", "epsilon", 
              "zeta", "eta", "theta", "iota", "kappa", "lambda", 
                "mu", "nu", "xi", "omikron", "pi", "rho", "sigma", 
                  "tau", "upsilon", "phi", "chi", "psi", "omega" 
                    "Alpha", "Beta", "Gamma", "Delta", "Epsilon", 
                      "Zeta", "Eta", "Theta", "Iota", "Kappa", "Lambda", 
                        "Mu", "Nu", "Xi", "Omikron", "Pi", "Rho", "Sigma", 
                          "Tau", "Upsilon", "Phi", "Chi", "Psi", "Omega"]


    specialStringsInTeX : L S :=
      ["\cos","\cot","\csc","\log","\sec","\sin","\tan",
        "\cosh","\coth","\csch","\sech","\sinh","\tanh",
          "\arccos","\arcsin","\arctan","\erf","\ldots","\$","\infty", 
            "\alpha", "\beta", "\gamma", "\delta", "\epsilon", 
              "\zeta", "\eta", "\theta", "\iota", "\kappa", "\lambda", 
                "\mu", "\nu", "\xi", "\omikron", "\pi", "\rho", "\sigma", 
                  "\tau", "\upsilon", "\phi", "\chi", "\psi", "\omega" 
                    "\Alpha", "\Beta", "\Gamma", "\Delta", "\Epsilon", 
                      "\Zeta", "\Eta", "\Theta", "\Iota", "\Kappa", "\Lambda", 
                        "\Mu", "\Nu", "\Xi", "\Omikron", "\Pi", "\Rho", "\Sigma", 
                          "\Tau", "\Upsilon", "\Phi", "\Chi", "\Psi", "\Omega"]


    -- local function signatures

    addBraces:      S -> S
    addBrackets:    S -> S
    group:          S -> S
    formatBinary:   (S,L E, I) -> S
    formatFunction: (S,L E, I) -> S
    formatMatrix:   L E -> S
    formatNary:     (S,L E, I) -> S
    formatNaryNoGroup: (S,L E, I) -> S
    formatNullary:  S -> S
    formatPlex:     (S,L E, I) -> S
    formatSpecial:  (S,L E, I) -> S
    formatUnary:    (S,  E, I) -> S
    formatTex:      (E,I) -> S
    newWithNum:     I -> $
    parenthesize:   S -> S
    precondition:   E -> E
    postcondition:  S -> S
    splitLong:      (S,I) -> L S
    splitLong1:     (S,I) -> L S
    stringify:      E -> S
    ungroup:        S -> S

    -- public function definitions

    new() : $ ==
--    [["\["]$(L S), [""]$(L S), ["\]"]$(L S)]$Rep
      [["$$"]$(L S), [""]$(L S), ["$$"]$(L S)]$Rep

    newWithNum(stepNum: I) : $ ==
--    num : S := concat("%AXIOM STEP NUMBER: ",string(stepNum)$S)
--    [["\["]$(L S), [""]$(L S), ["\]",num]$(L S)]$Rep
      num : S := concat(concat("\leqno(",string(stepNum)$S),")")$S
      [["$$"]$(L S), [""]$(L S), [num,"$$"]$(L S)]$Rep

    coerce(expr : E): $ ==
      f : $ := new()$$
      f.TeX := [postcondition
        formatTex(precondition expr, minPrec)]$(L S)
      f

    convert(expr : E, stepNum : I): $ ==
      f : $ := newWithNum(stepNum)
      f.TeX := [postcondition
        formatTex(precondition expr, minPrec)]$(L S)
      f

    display(f : $, len : I) ==
      s,t : S
      for s in f.prolog repeat sayTeX$Lisp s
      for s in f.TeX repeat
        for t in splitLong(s, len) repeat sayTeX$Lisp t
      for s in f.epilog repeat sayTeX$Lisp s

    display(f : $) ==
      display(f, _$LINELENGTH$Lisp pretend I)

    prologue(f : $) == f.prolog
    tex(f : $)  == f.TeX
    epilogue(f : $) == f.epilog

    setPrologue!(f : $, l : L S) == f.prolog := l
    setTex!(f : $, l : L S)  == f.TeX := l
    setEpilogue!(f : $, l : L S) == f.epilog := l

    coerce(f : $): E ==
      s,t : S
      l : L S := nil
      for s in f.prolog repeat l := concat(s,l)
      for s in f.TeX repeat
        for t in splitLong(s, (_$LINELENGTH$Lisp pretend Integer) - 4) repeat
          l := concat(t,l)
      for s in f.epilog repeat l := concat(s,l)
      (reverse l) :: E

    -- local function definitions

    ungroup(str: S): S ==
      len : I := #str
      len < 2 => str
      lbrace : Character := char "{"
      rbrace : Character := char "}"
      -- drop leading and trailing braces
      if (str.1 =$Character lbrace) and (str.len =$Character rbrace) then
        u : US := segment(2,len-1)$US
        str := str.u
      str

    postcondition(str: S): S ==
      str := ungroup str
      len : I := #str
      plus : Character := char "+"
      minus: Character := char "-"
      len < 4 => str
      for i in 1..(len-1) repeat
        if (str.i =$Character plus) and (str.(i+1) =$Character minus)
          then setelt(str,i,char " ")$S
      str

    stringify expr == (object2String$Lisp expr) pretend S

    lineConcat( line : S, lines: L S ) : L S ==
      length := #line

      if positive? length then
        -- If the last character is a backslash then split at "\ ".
        -- Reinstate the blank.

        if (line.length = char "\" ) then line := concat(line, " ")

        -- Remark: for some reason, "\%" at the beginning
        -- of a line has the "\" erased when printed

        if ( line.1 = char "%" ) then line := concat(" \", line)
        else if ( line.1 = char "\" ) and length > 1 and ( line.2 = char "%" ) then
          line := concat(" ", line)

        lines := concat(line,lines)$List(S)
      lines

    splitLong(str : S, len : I): L S ==
      -- this blocks into lines
      if len < 20 then len := _$LINELENGTH$Lisp
      splitLong1(str, len)

    splitLong1(str : S, len : I) ==
      -- We first build the list of lines backwards and then we
      -- reverse it.

      l : List S := nil
      s : S := ""
      ls : I := 0
      ss : S
      lss : I
      for ss in split(str,char " ") repeat
        -- have the newline macro end a line (even if it means the line
        -- is slightly too long)

        ss = "\\" =>
          l := lineConcat( concat(s,ss), l )
          s := ""
          ls := 0

        lss := #ss

        -- place certain tokens on their own lines for clarity

        ownLine : Boolean :=
          u : US := segment(1,4)$US
          (lss > 3) and ("\end" = ss.u) => true
          u      := segment(1,5)$US
          (lss > 4) and ("\left" = ss.u) => true
          u      := segment(1,6)$US
          (lss > 5) and (("\right" = ss.u) or ("\begin" = ss.u)) => true
          false

        if ownLine or (ls + lss > len) then
          if not empty? s then l := lineConcat( s, l )
          s := ""
          ls := 0

        ownLine or lss > len => l := lineConcat( ss, l )

        (lss = 1) and (ss.1 = char "\") =>
          ls := ls + lss + 2
          s := concat(s,concat(ss,"  ")$S)$S

        ls := ls + lss + 1
        s := concat(s,concat(ss," ")$S)$S

      if positive? ls then l := lineConcat( s, l )

      reverse l

    group str ==
      concat ["{",str,"}"]

    addBraces str ==
      concat ["\left\{ ",str," \right\}"]

    addBrackets str ==
      concat ["\left[ ",str," \right]"]

    parenthesize str ==
      concat ["\left( ",str," \right)"]

    precondition expr ==
      outputTran$Lisp expr

    formatSpecial(op : S, args : L E, prec : I) : S ==
      arg : E
      prescript : Boolean := false
      op = "theMap" => "\mbox{theMap(...)}"
      op = "AGGLST" =>
        formatNary(",",args,prec)
      op = "AGGSET" =>
        formatNary(";",args,prec)
      op = "TAG" =>
        group concat [formatTex(first args,prec),
                      "\rightarrow",
                       formatTex(second args,prec)]
      op = "VCONCAT" =>
        group concat("\begin{array}{c}",
                     concat(concat([concat(formatTex(u, minPrec),"\\")
                                    for u in args]::L S),
                            "\end{array}"))
      op = "CONCATB" =>
        formatNary(" ",args,prec)
      op = "CONCAT" =>
        formatNary("",args,minPrec)
      op = "QUOTE" =>
        group concat("{\tt '}",formatTex(first args, minPrec))
      op = "BRACKET" =>
        group addBrackets ungroup formatTex(first args, minPrec)
      op = "BRACE" =>
        group addBraces ungroup formatTex(first args, minPrec)
      op = "PAREN" =>
        group parenthesize ungroup formatTex(first args, minPrec)
      op = "OVERBAR" =>
        null args => ""
        group concat ["\overline ",formatTex(first args, minPrec)]
      op = "ROOT" =>
        null args => ""
        tmp : S := group formatTex(first args, minPrec)
        null rest args => group concat ["\sqrt ",tmp]
        group concat
          ["\root ",group formatTex(first rest args, minPrec)," \of ",tmp]
      op = "SEGMENT" =>
        tmp : S := concat [formatTex(first args, minPrec),".."]
        group
          null rest args =>  tmp
          concat [tmp,formatTex(first rest args, minPrec)]
      op = "SUB" =>
        group concat [formatTex(first args, minPrec)," \sb ",
          formatSpecial("AGGLST",rest args,minPrec)]
      op = "SUPERSUB" =>
        -- variable name
        form : List S := [formatTex(first args, minPrec)]
        -- subscripts
        args := rest args
        null args => concat(form)$S
        tmp : S := formatTex(first args, minPrec)
        if (tmp ~= "") and (tmp ~= "{}") and (tmp ~= " ") then
          form := append(form,[" \sb ",group tmp])$(List S)
        -- superscripts
        args := rest args
        null args => group concat(form)$S
        tmp : S := formatTex(first args, minPrec)
        if (tmp ~= "") and (tmp ~= "{}") and (tmp ~= " ") then
          form := append(form,[" \sp ",group tmp])$(List S)
        -- presuperscripts
        args := rest args
        null args => group concat(form)$S
        tmp : S := formatTex(first args, minPrec)
        if (tmp ~= "") and (tmp ~= "{}") and (tmp ~= " ") then
          form := append([" \sp ",group tmp],form)$(List S)
          prescript := true
        -- presubscripts
        args := rest args
        null args =>
          group concat
            prescript => cons("{}",form)
            form
        tmp : S := formatTex(first args, minPrec)
        if (tmp ~= "") and (tmp ~= "{}") and (tmp ~= " ") then
          form := append([" \sb ",group tmp],form)$(List S)
          prescript := true
        group concat
          prescript => cons("{}",form)
          form
      op = "SC" =>
        -- need to handle indentation someday
        null args => ""
        tmp := formatNaryNoGroup(" \\ ", args, minPrec)
        group concat ["\begin{array}{l} ",tmp," \end{array} "]
      op = "MATRIX" => formatMatrix rest args
      op = "ZAG" =>
        concat [" \zag{",formatTex(first args, minPrec),"}{",
          formatTex(first rest args,minPrec),"}"]
      concat ["not done yet for ",op]

    formatPlex(op : S, args : L E, prec : I) : S ==
      hold : S
      p : I := position(op,plexOps)
      p < 1 => error "unknown Tex unary op"
      opPrec := plexPrecs.p
      n : I := #args
      (n ~= 2) and (n ~= 3) => error "wrong number of arguments for plex"
      s : S :=
        op = "SIGMA"   => "\sum"
        op = "SIGMA2"   => "\sum"
        op = "PI"      => "\prod"
<<define PI2>>
        op = "INTSIGN" => "\int"
        op = "INDEFINTEGRAL" => "\int"
        "????"
      hold := formatTex(first args,minPrec)
      args := rest args
      if op ~= "INDEFINTEGRAL" then
        if hold ~= "" then
          s := concat [s," \sb",group concat ["\displaystyle ",hold]]
        if not null rest args then
          hold := formatTex(first args,minPrec)
          if hold ~= "" then
            s := concat [s," \sp",group concat ["\displaystyle ",hold]]
          args := rest args
        s := concat [s," ",formatTex(first args,minPrec)]
      else
        hold := group concat [hold," ",formatTex(first args,minPrec)]
        s := concat [s," ",hold]
      if opPrec < prec then s := parenthesize s
      group s

    formatMatrix(args : L E) : S ==
      -- format for args is [[ROW ...],[ROW ...],[ROW ...]]
      -- generate string for formatting columns (centered)
      cols : S := "{"
      for i in 2..#(first(args) pretend L E) repeat
        cols := concat(cols,"c")
      cols := concat(cols,"} ")
      group addBrackets concat
        ["\begin{array}",cols,formatNaryNoGroup(" \\ ",args,minPrec),
          " \end{array} "]

    formatFunction(op : S, args : L E, prec : I) : S ==
      group concat [op, " ", parenthesize formatNary(",",args,minPrec)]

    formatNullary(op : S) ==
      op = "NOTHING" => ""
      group concat [op,"()"]

    formatUnary(op : S, arg : E, prec : I) ==
      p : I := position(op,unaryOps)
      p < 1 => error "unknown Tex unary op"
      opPrec := unaryPrecs.p
      s : S := concat [op,formatTex(arg,opPrec)]
      opPrec < prec => group parenthesize s
      op = "-" => s
      group s

    formatBinary(op : S, args : L E, prec : I) : S ==
      p : I := position(op,binaryOps)
      p < 1 => error "unknown Tex binary op"
      op :=
        op = "|"     => " \mid "
        op = "**"    => " \sp "
        op = "/"     => " \over "
        op = "OVER"  => " \over "
        op = "+->"   => " \mapsto "
        op
      opPrec := binaryPrecs.p
      s : S := formatTex(first args, opPrec)
      s := concat [s,op,formatTex(first rest args, opPrec)]
      group
        op = " \over " => s
        opPrec < prec => parenthesize s
        s

    formatNary(op : S, args : L E, prec : I) : S ==
      group formatNaryNoGroup(op, args, prec)

    formatNaryNoGroup(op : S, args : L E, prec : I) : S ==
      null args => ""
      p : I := position(op,naryOps)
      p < 1 => error "unknown Tex nary op"
      op :=
        op = ","     => ", \: "
        op = ";"     => "; \: "
        op = "*"     => blank
        op = " "     => " \ "
        op = "ROW"   => " & "
        op
      l : L S := nil
      opPrec := naryPrecs.p
      for a in args repeat
        l := concat(op,concat(formatTex(a,opPrec),l)$L(S))$L(S)
      s : S := concat reverse rest l
      opPrec < prec => parenthesize s
      s

    formatTex(expr,prec) ==
      i,len : Integer
      intSplitLen : Integer := 20
      not %pair?(expr)$Foreign(Builtin) pretend Boolean =>
        str := stringify expr
        len := #str
        %integer?(expr)$Foreign(Builtin) =>
          i := expr pretend Integer
          if negative? i or (i > 9)
            then
              group
                 nstr : String := ""
                 -- insert some blanks into the string, if too long
                 while ((len := #str) > intSplitLen) repeat
                   nstr := concat [nstr," ",
                     elt(str,segment(1,intSplitLen)$US)]
                   str := elt(str,segment(intSplitLen+1)$US)
                 empty? nstr => str
                 nstr :=
                   empty? str => nstr
                   concat [nstr," ",str]
                 elt(nstr,segment(2)$US)
            else str
        str = "%pi" => "\pi"
        str = "%e"  => "e"
        str = "%i"  => "i"
        len > 1 and str.1 = char "%" and str.2 = char "%" =>
          u : US := segment(3,len)$US
          concat(" \%\%",str.u)
        positive? len and str.1 = char "%" => concat(" \",str)
        len > 1 and digit? str.1 => group str -- should handle floats
        positive? len and str.1 = char "_"" =>
          concat(concat(" \mbox{\tt ",str),"} ")
        len = 1 and str.1 = char " " => "{\ }"
        positive?(i := position(str,specialStrings)) =>
          specialStringsInTeX.i
        positive?(i := position(char " ",str)) =>
          -- We want to preserve spacing, so use a roman font.
          concat(concat(" \mbox{\rm ",str),"} ")
        str
      l : L E := (expr pretend L E)
      null l => blank
      op : S := stringify first l
      args : L E := rest l
      nargs : I := #args

      -- special cases
      member?(op, specialOps) => formatSpecial(op,args,prec)
      member?(op, plexOps)    => formatPlex(op,args,prec)

      -- nullary case
      0 = nargs => formatNullary op

      -- unary case
      (1 = nargs) and member?(op, unaryOps) =>
        formatUnary(op, first args, prec)

      -- binary case
      (2 = nargs) and member?(op, binaryOps) =>
        formatBinary(op, args, prec)

      -- nary case
      member?(op,naryNGOps) => formatNaryNoGroup(op,args, prec)
      member?(op,naryOps) => formatNary(op,args, prec)
      op := formatTex(first l,minPrec)
      formatFunction(op,args,prec)

@
\section{package TEX1 TexFormat1}
<<package TEX1 TexFormat1>>=
)abbrev package TEX1 TexFormat1
++ Author: Robert S. Sutor
++ Date Created: 1987 through 1990
++ Change History:
++ Basic Operations: coerce
++ Related Constructors: TexFormat
++ Also See: ScriptFormulaFormat, ScriptFormulaFormat1
++ AMS Classifications:
++ Keywords: TeX, output, format
++ References: \TeX{} is a trademark of the American Mathematical
++   Society.
++ Description:
++   \spadtype{TexFormat1} provides a utility coercion for changing
++   to TeX format anything that has a coercion to the standard output
++   format.

TexFormat1(S : SetCategory): public == private where
  public  ==  with
    coerce: S -> TexFormat()
      ++ coerce(s) provides a direct coercion from a domain S to
      ++ TeX format. This allows the user to skip the step of first
      ++ manually coercing the object to standard output format before
      ++ it is coerced to TeX format.

  private == add
    import TexFormat()

    coerce(s : S): TexFormat ==
      coerce(s :: OutputForm)$TexFormat

@
\section{License}
<<license>>=
--Copyright (c) 1991-2002, The Numerical ALgorithms Group Ltd.
--All rights reserved.
--
--Redistribution and use in source and binary forms, with or without
--modification, are permitted provided that the following conditions are
--met:
--
--    - Redistributions of source code must retain the above copyright
--      notice, this list of conditions and the following disclaimer.
--
--    - Redistributions in binary form must reproduce the above copyright
--      notice, this list of conditions and the following disclaimer in
--      the documentation and/or other materials provided with the
--      distribution.
--
--    - Neither the name of The Numerical ALgorithms Group Ltd. nor the
--      names of its contributors may be used to endorse or promote products
--      derived from this software without specific prior written permission.
--
--THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
--IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
--TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
--PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER
--OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
--EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
--PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
--PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
--LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
--NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
--SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
@
<<*>>=
<<license>>

<<domain TEX TexFormat>>
<<package TEX1 TexFormat1>>
@
\eject
\begin{thebibliography}{99}
\bibitem{1} nothing
\end{thebibliography}
\end{document}