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\documentclass{article}
\usepackage{open-axiom}
\begin{document}
\title{\$SPAD/src/algebra array2.spad}
\author{The Axiom Team}
\maketitle
\begin{abstract}
\end{abstract}
\eject
\tableofcontents
\eject
\section{category ARR2CAT TwoDimensionalArrayCategory}
<<category ARR2CAT TwoDimensionalArrayCategory>>=
)abbrev category ARR2CAT TwoDimensionalArrayCategory
++ Two dimensional array categories and domains
++ Author:
++ Date Created: 27 October 1989
++ Date Last Updated: May 16, 2013
++ Keywords: array, data structure
++ Examples:
++ References:
TwoDimensionalArrayCategory(R,Row,Col): Category == Definition where
  ++ TwoDimensionalArrayCategory is a general array category which
  ++ allows different representations and indexing schemes.
  ++ Rows and columns may be extracted with rows returned as objects
  ++ of type Row and columns returned as objects of type Col.
  ++ The index of the 'first' row may be obtained by calling the
  ++ function 'minRowIndex'.  The index of the 'first' column may
  ++ be obtained by calling the function 'minColIndex'.  The index of
  ++ the first element of a 'Row' is the same as the index of the
  ++ first column in an array and vice versa.
  R   : Type
  Row : FiniteLinearAggregate R
  Col : FiniteLinearAggregate R
  Definition == Join(FiniteAggregate R,ShallowlyMutableAggregate R) with
--% Array creation
    new: (NonNegativeInteger,NonNegativeInteger,R) -> %
      ++ new(m,n,r) is an m-by-n array all of whose entries are r
    fill!: (%,R) -> %
      ++ fill!(m,r) fills m with r's
--% Size inquiries
    minRowIndex : % -> Integer
      ++ minRowIndex(m) returns the index of the 'first' row of the array m
    maxRowIndex : % -> Integer
      ++ maxRowIndex(m) returns the index of the 'last' row of the array m
    minColIndex : % -> Integer
      ++ minColIndex(m) returns the index of the 'first' column of the array m
    maxColIndex : % -> Integer
      ++ maxColIndex(m) returns the index of the 'last' column of the array m
    nrows : % -> NonNegativeInteger
      ++ nrows(m) returns the number of rows in the array m
    ncols : % -> NonNegativeInteger
      ++ ncols(m) returns the number of columns in the array m
--% Part extractions
    elt: (%,Integer,Integer) -> R
      ++ elt(m,i,j) returns the element in the ith row and jth
      ++ column of the array m
      ++ error check to determine if indices are in proper ranges
    qelt: (%,Integer,Integer) -> R
      ++ qelt(m,i,j) returns the element in the ith row and jth
      ++ column of the array m
      ++ NO error check to determine if indices are in proper ranges
    elt: (%,Integer,Integer,R) -> R
      ++ elt(m,i,j,r) returns the element in the ith row and jth
      ++ column of the array m, if m has an ith row and a jth column,
      ++ and returns r otherwise
    row: (%,Integer) -> Row
      ++ row(m,i) returns the ith row of m
      ++ error check to determine if index is in proper ranges
    column: (%,Integer) -> Col
      ++ column(m,j) returns the jth column of m
      ++ error check to determine if index is in proper ranges
--% Part assignments
    setelt: (%,Integer,Integer,R) -> R
      -- will become setelt!
      ++ setelt(m,i,j,r) sets the element in the ith row and jth
      ++ column of m to r
      ++ error check to determine if indices are in proper ranges
    qsetelt!: (%,Integer,Integer,R) -> R
      ++ qsetelt!(m,i,j,r) sets the element in the ith row and jth
      ++ column of m to r
      ++ NO error check to determine if indices are in proper ranges
    setRow!: (%,Integer,Row) -> %
      ++ setRow!(m,i,v) sets to ith row of m to v
    setColumn!: (%,Integer,Col) -> %
      ++ setColumn!(m,j,v) sets to jth column of m to v
--% Map and Zip
    map: (R -> R,%) -> %
      ++ map(f,a) returns \spad{b}, where \spad{b(i,j) = f(a(i,j))} for all \spad{i, j}
    map!: (R -> R,%) -> %
      ++ map!(f,a)  assign \spad{a(i,j)} to \spad{f(a(i,j))} for all \spad{i, j}
    map:((R,R) -> R,%,%) -> %
      ++ map(f,a,b) returns \spad{c}, where \spad{c(i,j) = f(a(i,j),b(i,j))}
      ++ for all \spad{i, j}
    map:((R,R) -> R,%,%,R) -> %
      ++ map(f,a,b,r) returns \spad{c}, where \spad{c(i,j) = f(a(i,j),b(i,j))} when both
      ++ \spad{a(i,j)} and \spad{b(i,j)} exist;
      ++ else \spad{c(i,j) = f(r, b(i,j))} when \spad{a(i,j)} does not exist;
      ++ else \spad{c(i,j) = f(a(i,j),r)} when \spad{b(i,j)} does not exist;
      ++ otherwise \spad{c(i,j) = f(r,r)}.
   add
--% Predicates
    any?(f,m) ==
      for i in minRowIndex(m)..maxRowIndex(m) repeat
        for j in minColIndex(m)..maxColIndex(m) repeat
          f(qelt(m,i,j)) => return true
      false

    every?(f,m) ==
      for i in minRowIndex(m)..maxRowIndex(m) repeat
        for j in minColIndex(m)..maxColIndex(m) repeat
          not f(qelt(m,i,j)) => return false
      true

--% Size inquiries
    # m == nrows(m) * ncols(m)

--% Part extractions
    elt(m,i,j,r) ==
      i < minRowIndex(m) or i > maxRowIndex(m) => r
      j < minColIndex(m) or j > maxColIndex(m) => r
      qelt(m,i,j)

    count(f:R -> Boolean,m:%) ==
      num : NonNegativeInteger := 0
      for i in minRowIndex(m)..maxRowIndex(m) repeat
        for j in minColIndex(m)..maxColIndex(m) repeat
          if f(qelt(m,i,j)) then num := num + 1
      num

    members m ==
      entryList : List R := nil()
      for i in maxRowIndex(m)..minRowIndex(m) by -1 repeat
        for j in maxColIndex(m)..minColIndex(m) by -1 repeat
          entryList := concat(qelt(m,i,j),entryList)
      entryList

--% Creation

    setRow!(m,i,v) ==
      i < minRowIndex(m) or i > maxRowIndex(m) =>
        error "setRow!: index out of range"
      for j in minColIndex(m)..maxColIndex(m) _
        for k in minIndex(v)..maxIndex(v) repeat
          qsetelt!(m,i,j,v.k)
      m

    setColumn!(m,j,v) ==
      j < minColIndex(m) or j > maxColIndex(m) =>
        error "setColumn!: index out of range"
      for i in minRowIndex(m)..maxRowIndex(m) _
        for k in minIndex(v)..maxIndex(v) repeat
          qsetelt!(m,i,j,v.k)
      m

    if R has BasicType then

      m = n ==
        eq?(m,n) => true
        (nrows(m) ~= nrows(n)) or (ncols(m) ~= ncols(n)) => false
        for i in minRowIndex(m)..maxRowIndex(m) repeat
          for j in minColIndex(m)..maxColIndex(m) repeat
            not (qelt(m,i,j) = qelt(n,i,j)) => return false
        true

      member?(r,m) ==
        for i in minRowIndex(m)..maxRowIndex(m) repeat
          for j in minColIndex(m)..maxColIndex(m) repeat
            qelt(m,i,j) = r => return true
        false

      count(r:R,m:%) == count(#1 = r,m)

    if R has CoercibleTo(OutputForm) then

      coerce(m:%) ==
        l : List List OutputForm
        l := [[qelt(m,i,j) :: OutputForm _
                  for j in minColIndex(m)..maxColIndex(m)] _
                  for i in minRowIndex(m)..maxRowIndex(m)]
        matrix l

@
\section{domain IARRAY2 InnerTwoDimensionalArray}
<<domain IARRAY2 InnerTwoDimensionalArray>>=
)abbrev domain IARRAY2 InnerTwoDimensionalArray
InnerTwoDimensionalArray(R,Row,Col):_
       Exports == Implementation where
  ++ This is an internal type which provides an implementation of
  ++ 2-dimensional arrays as PrimitiveArray's of PrimitiveArray's.
  R : Type
  Row : FiniteLinearAggregate R
  Col : FiniteLinearAggregate R

  Exports == TwoDimensionalArrayCategory(R,Row,Col)
  Implementation == PrimitiveArray PrimitiveArray R add
--% Primitive array creation
    new(rows,cols,a) ==
      rows = 0 =>
        error "new: arrays with zero rows are not supported"
      arr : Rep := new(rows,empty())
      for i in 0..rows-1 repeat
        arr.i := new(cols,a)
      per arr

--% Size inquiries

    minRowIndex m == 1
    minColIndex m == 1
    maxRowIndex m == nrows m
    maxColIndex m == ncols m
    nrows m == # rep m
    ncols m ==
      empty? m => 0
      # rep(m).0

--% Part selection/assignment

    qelt(m,i,j) ==
      qelt(qelt(rep m,i - minRowIndex m),j - minColIndex m)

    elt(m:%,i:Integer,j:Integer) ==
      i < minRowIndex(m) or i > maxRowIndex(m) =>
        error "elt: index out of range"
      j < minColIndex(m) or j > maxColIndex(m) =>
        error "elt: index out of range"
      qelt(m,i,j)

    qsetelt!(m,i,j,r) ==
      setelt(qelt(rep m,i - minRowIndex m),j - minColIndex m,r)

    setelt(m:%,i:Integer,j:Integer,r:R) ==
      i < minRowIndex(m) or i > maxRowIndex(m) =>
        error "setelt: index out of range"
      j < minColIndex(m) or j > maxColIndex(m) =>
        error "setelt: index out of range"
      qsetelt!(m,i,j,r)

    if R has SetCategory then
        latex(m : %) : String ==
          s : String := "\left[ \begin{array}{"
          for j in minColIndex(m)..maxColIndex(m) repeat
            s := concat(s,"c")$String
          s := concat(s,"} ")$String
          for i in minRowIndex(m)..maxRowIndex(m) repeat
            for j in minColIndex(m)..maxColIndex(m) repeat
              s := concat(s, latex(qelt(m,i,j))$R)$String
              if j < maxColIndex(m) then s := concat(s, " & ")$String
            if i < maxRowIndex(m) then s := concat(s, " \\ ")$String
          concat(s, "\end{array} \right]")$String

    row(m,i) ==
      i < 1 or i > nrows m => error "row: index out of range"
      i := dec i
      [[rep(m).i.j for j in 0..ncols m - 1]]$Row

    column(m,j) ==
      j < 1  or j > ncols m => error "column: index out of range"
      j := dec j
      [[rep(m).i.j for i in 0..nrows m - 1]]$Col

    copy m ==
      t: Rep := new(nrows m,sample$PrimitiveArray(R))
      for i in 0..maxIndex rep m repeat
        t.i := copy rep(m).i
      per t

    fill!(m,r) ==
      for i in 0..maxIndex rep m repeat
        fill!(rep(m).i,r)
      m

    map(f,m) ==
      t: Rep := new(nrows m,sample$PrimitiveArray(R))
      for i in 0..maxIndex rep m repeat
        t.i := map(f,rep(m).i)
      per t

    map!(f,m) ==
      for i in 0..maxIndex rep m repeat
        map!(f,rep(m).i)
      m

    map(f,m,n) ==
      nrows(m) ~= nrows(n) or ncols(m) ~= ncols(n) =>
        error "map: arguments must have same dimensions"
      t: Rep := new(nrows m,sample$PrimitiveArray(R))
      for i in 0..maxIndex rep m repeat
        t.i := map(f,rep(m).i,rep(n).i)
      per t

    map(f,m,n,r) ==
      nrows m = nrows n and ncols m = ncols n => map(f,m,n)
      nr := max(nrows m,nrows n)
      nc := max(ncols m,ncols n)
      t: Rep := new(nr,sample$PrimitiveArray(R))
      for i in 1..nr repeat
        t.i := [[f(elt(m,i,j,r),elt(n,i,j,r))
                  for j in 1..nc]]$PrimitiveArray(R)
      per t

@

\section{domain ARRAY2 TwoDimensionalArray}
<<domain ARRAY2 TwoDimensionalArray>>=
)abbrev domain ARRAY2 TwoDimensionalArray
TwoDimensionalArray(R):Exports == Implementation where
  ++ A TwoDimensionalArray is a two dimensional array with
  ++ 1-based indexing for both rows and columns.
  R : Type
  macro V == OneDimensionalArray R
  Exports == TwoDimensionalArrayCategory(R,V,V)
  Implementation == InnerTwoDimensionalArray(R,V,V)

@
\section{License}
<<license>>=
--Copyright (c) 1991-2002, The Numerical ALgorithms Group Ltd.
--All rights reserved.
--Copyright (C) 2007-2013, Gabriel Dos Reis.
--All rights reversed.
--
--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>>

<<category ARR2CAT TwoDimensionalArrayCategory>>
<<domain IARRAY2 InnerTwoDimensionalArray>>
<<domain ARRAY2 TwoDimensionalArray>>
@
\eject
\begin{thebibliography}{99}
\bibitem{1} nothing
\end{thebibliography}
\end{document}