  
  [1X6 [33X[0;0YMain Loop and Break Loop[133X[101X
  
  [33X[0;0YThis  chapter  is  a  first  of  a  series  of  chapters  that  describe the
  interactive environment in which you use [5XGAP[105X.[133X
  
  
  [1X6.1 [33X[0;0YMain Loop[133X[101X
  
  [33X[0;0YThe  normal  interaction  with  [5XGAP[105X happens in the so-called [13Xread-eval-print[113X
  loop.  This  means that you type an input, [5XGAP[105X first reads it, evaluates it,
  and  then  shows the result. Note that the term [13Xprint[113X may be confusing since
  there  is a [5XGAP[105X function called [2XPrint[102X ([14X6.3-4[114X) (see [14X6.3[114X) which is in fact [13Xnot[113X
  used  in  the read-eval-print loop, but traditions are hard to break. In the
  following,  whenever  we  want to express that [5XGAP[105X places some characters on
  the standard output, we will say that [5XGAP[105X [13Xshows[113X something.[133X
  
  [33X[0;0YThe exact sequence in the read-eval-print loop is as follows.[133X
  
  [33X[0;0YTo  signal that it is ready to accept your input, [5XGAP[105X shows the [13Xprompt[113X [10Xgap>[110X.
  When you see this, you know that [5XGAP[105X is waiting for your input.[133X
  
  [33X[0;0YNote  that  every statement must be terminated by a semicolon. You must also
  enter  [12XReturn[112X  (i.e.,  strike  the [12XReturn[112X key) before [5XGAP[105X starts to read and
  evaluate  your  input.  (The [12XReturn[112X key may actually be marked with the word
  [12XEnter[112X  and  a  returning  arrow  on  your terminal.) Because [5XGAP[105X does not do
  anything  until  you  enter [12XReturn[112X, you can edit your input to fix typos and
  only  when everything is correct enter [12XReturn[112X and have [5XGAP[105X take a look at it
  (see [14X6.8[114X).  It  is  also  possible to enter several statements as input on a
  single line. Of course each statement must be terminated by a semicolon.[133X
  
  [33X[0;0YIt  is  absolutely  acceptable to enter a single statement on several lines.
  When you have entered the beginning of a statement, but the statement is not
  yet complete, and you enter [12XReturn[112X, [5XGAP[105X will show the [13Xpartial prompt[113X [10X>[110X. When
  you  see  this,  you know that [5XGAP[105X is waiting for the rest of the statement.
  This  happens also when you forget the semicolon [10X;[110X that terminates every [5XGAP[105X
  statement.  Note that when [12XReturn[112X has been entered and the current statement
  is not yet complete, [5XGAP[105X will already evaluate those parts of the input that
  are complete, for example function calls that appear as arguments in another
  function call which needs several input lines. So it may happen that one has
  to wait some time for the partial prompt.[133X
  
  [33X[0;0YWhen  you  enter  [12XReturn[112X,  [5XGAP[105X  first  checks  your  input  to  see if it is
  syntactically  correct  (see  Chapter [14X4[114X  for the definition of syntactically
  correct). If it is not, [5XGAP[105X prints an error message of the following form[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27X1 * ;[127X[104X
    [4X[28XSyntax error: expression expected[128X[104X
    [4X[28X1 * ;[128X[104X
    [4X[28X    ^[128X[104X
  [4X[32X[104X
  
  [33X[0;0YThe  first  line tells you what is wrong about the input, in this case the [10X*[110X
  operator  takes  two  expressions as operands, so obviously the right one is
  missing.  If  the  input came from a file (see [2XRead[102X ([14X9.7-1[114X)), this line will
  also  contain the filename and the line number. The second line is a copy of
  the  input. And the third line contains a caret pointing to the place in the
  previous  line  where [5XGAP[105X realized that something is wrong. This need not be
  the exact place where the error is, but it is usually quite close.[133X
  
  [33X[0;0YSometimes,  you  will  also  see  a partial prompt after you have entered an
  input that is syntactically incorrect. This is because [5XGAP[105X is so confused by
  your  input, that it thinks that there is still something to follow. In this
  case  you  should enter [10X;[110X[12XReturn[112X repeatedly, ignoring further error messages,
  until  you see the full prompt again. When you see the full prompt, you know
  that  [5XGAP[105X  forgave  you  and  is  now  ready  to accept your next –hopefully
  correct– input.[133X
  
  [33X[0;0YIf  your input is syntactically correct, [5XGAP[105X evaluates or executes it, i.e.,
  performs  the required computations (see Chapter [14X4[114X for the definition of the
  evaluation).[133X
  
  [33X[0;0YIf  you do not see a prompt, you know that [5XGAP[105X is still working on your last
  input.  Of  course,  you  can  [13Xtype  ahead[113X, i.e., already start entering new
  input,  but  it  will  not  be  accepted  by [5XGAP[105X until [5XGAP[105X has completed the
  ongoing computation.[133X
  
  [33X[0;0YWhen  [5XGAP[105X is ready it will usually show the result of the computation, i.e.,
  the  value  computed.  Note  that  not  all  statements produce a value, for
  example,  if  you enter a [9Xfor[109X loop, nothing will be printed, because the [9Xfor[109X
  loop does not produce a value that could be shown.[133X
  
  [33X[0;0YAlso  sometimes  you  do not want to see the result. For example if you have
  computed  a  value  and  now  want  to  assign the result to a variable, you
  probably do not want to see the value again. You can terminate statements by
  [13Xtwo semicolons[113X to suppress showing the result.[133X
  
  [33X[0;0YIf you have entered several statements on a single line [5XGAP[105X will first read,
  evaluate,  and  show the first one, then read, evaluate, and show the second
  one,  and  so  on.  This  means  that  the second statement will not even be
  checked  for  syntactical  correctness  until  [5XGAP[105X  has  completed the first
  computation.[133X
  
  [33X[0;0YAfter  the  result  has been shown [5XGAP[105X will display another prompt, and wait
  for  your next input. And the whole process starts all over again. Note that
  if  you  have entered several statements on a single line, a new prompt will
  only be printed after [5XGAP[105X has read, evaluated, and shown the last statement.[133X
  
  [33X[0;0YIn  each statement that you enter, the result of the previous statement that
  produced  a  value  is  available in the variable [10Xlast[110X. The next to previous
  result  is  available  in  [10Xlast2[110X  and  the  result  produced  before that is
  available in [10Xlast3[110X.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27X1;2;3;[127X[104X
    [4X[28X1[128X[104X
    [4X[28X2[128X[104X
    [4X[28X3[128X[104X
    [4X[25Xgap>[125X [27Xlast3 + last2 * last;[127X[104X
    [4X[28X7[128X[104X
  [4X[32X[104X
  
  [33X[0;0YAlso  in  each  statement  the  time spent by the last statement, whether it
  produced  a value or not, is available in the variable [2Xtime[102X ([14X7.6-3[114X). This is
  an integer that holds the number of milliseconds.[133X
  
  
  [1X6.2 [33X[0;0YSpecial Rules for Input Lines[133X[101X
  
  [33X[0;0YThe  input  for  some [5XGAP[105X objects may not fit on one line, in particular big
  integers,  long  strings  or  long identifiers. In these cases you can still
  type  or  paste  them  in  long single lines. For nicer display you can also
  specify  the  input on several lines. This is achieved by ending a line by a
  backslash  or  by a backslash and a carriage return character, then continue
  the  input  on  the  beginning  of the next line. When reading this [5XGAP[105X will
  ignore such continuation backslashes, carriage return characters and newline
  characters. [5XGAP[105X also prints long strings and integers this way.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27Xn := 1234\[127X[104X
    [4X[25X>[125X [27X567890;[127X[104X
    [4X[28X1234567890[128X[104X
    [4X[25Xgap>[125X [27X"This is a very long string that does not fit on a line \[127X[104X
    [4X[25X>[125X [27Xand is therefore continued on the next line.";[127X[104X
    [4X[28X"This is a very long string that does not fit on a line and is therefo\[128X[104X
    [4X[28Xre continued on the next line."[128X[104X
    [4X[25Xgap>[125X [27Xbla\[127X[104X
    [4X[25X>[125X [27Xbla := 5;; blabla;[127X[104X
    [4X[28X5[128X[104X
  [4X[32X[104X
  
  [33X[0;0YThere  is  a  special rule about [5XGAP[105X prompts in input lines: In line editing
  mode  (usual  user  input and [5XGAP[105X started without [10X-n[110X) in lines starting with
  whitespace following [10Xgap> [110X, [10X> [110X or [10Xbrk> [110X this beginning part is removed. This
  rule  is very convenient because it allows to cut and paste input from other
  [5XGAP[105X sessions or manual examples easily into your current session.[133X
  
  
  [1X6.3 [33X[0;0YView and Print[133X[101X
  
  [33X[0;0Y[5XGAP[105X  has  three  different  operations  to display or print objects: [2XDisplay[102X
  ([14X6.3-6[114X),  [2XViewObj[102X  ([14X6.3-5[114X)  and  [2XPrintObj[102X  ([14X6.3-5[114X),  and  these  three  have
  different  purposes as follows. The first, [2XDisplay[102X ([14X6.3-6[114X), should print the
  object  to  the  standard output in a human-readable relatively complete and
  verbose  form.  The  second, [2XViewObj[102X ([14X6.3-5[114X), should print the object to the
  standard  output  in  a  short  and  concise  form,  it  is used in the main
  read-eval-print  loop  to display the resulting object of a computation. The
  third, [2XPrintObj[102X ([14X6.3-5[114X), should print the object to the standard output in a
  complete  form  which  is [5XGAP[105X-readable if at all possible, such that reading
  the output into [5XGAP[105X produces an object which is equal to the original one.[133X
  
  [33X[0;0YAll  three  operations  have  corresponding  operations  which  do not print
  anything  to  standard  output  but return the output as a string. These are
  [2XDisplayString[102X   ([14X27.7-1[114X),   [2XViewString[102X  ([14X27.7-3[114X)  and  [2XPrintString[102X  ([14X27.7-5[114X)
  (corresponding  to [2XPrintObj[102X ([14X6.3-5[114X)). Additionally, there is [2XString[102X ([14X27.7-6[114X)
  which  is  very  similar to [2XPrintString[102X ([14X27.7-5[114X) but does not insert control
  characters for line breaks.[133X
  
  [33X[0;0YFor  implementation  convenience it is allowed that some of these operations
  have  methods which delegate to some other of these operations. However, the
  rules  for  this  are  that  a method may only delegate to another operation
  which appears further down in the following table:[133X
  
      ┌────────────────────────┐
      │    [2XDisplay[102X ([14X6.3-6[114X)     │ 
      ├────────────────────────┤
      │    [2XViewObj[102X ([14X6.3-5[114X)     │ 
      ├────────────────────────┤
      │    [2XPrintObj[102X ([14X6.3-5[114X)    │ 
      ├────────────────────────┤
      │ [2XDisplayString[102X ([14X27.7-1[114X) │ 
      ├────────────────────────┤
      │  [2XViewString[102X ([14X27.7-3[114X)   │ 
      ├────────────────────────┤
      │  [2XPrintString[102X ([14X27.7-5[114X)  │ 
      ├────────────────────────┤
      │    [2XString[102X ([14X27.7-6[114X)     │ 
      └────────────────────────┘
  
  [33X[0;0YThis is to avoid circular delegations.[133X
  
  [33X[0;0YNote  in  particular  that  none  of  the  methods  of  the string producing
  operations  may delegate to the corresponding printing operations. Note also
  that  the  above mentioned purposes of the different operations suggest that
  delegations  between  different  operations  will  be  sub-optimal  in  most
  scenarios.[133X
  
  
  [1X6.3-1 [33X[0;0YDefault delegations in the library[133X[101X
  
  [33X[0;0YThe library contains the following low ranked default methods:[133X
  
  [30X    [33X[0;6YA  method  for [2XDisplayString[102X ([14X27.7-1[114X) which returns the constant value
        of the global variable [2XDEFAULTDISPLAYSTRING[102X ([14X27.7-2[114X).[133X
  
  [30X    [33X[0;6YA  method  for [2XViewString[102X ([14X27.7-3[114X) which returns the constant value of
        the global variable [2XDEFAULTVIEWSTRING[102X ([14X27.7-4[114X).[133X
  
  [30X    [33X[0;6YA  method for [2XDisplay[102X ([14X6.3-6[114X) which first calls [2XDisplayString[102X ([14X27.7-1[114X)
        and   prints   the   result,   if   it  is  a  different  object  than
        [2XDEFAULTDISPLAYSTRING[102X  ([14X27.7-2[114X).  Otherwise  the  method  delegates  to
        [2XPrintObj[102X ([14X6.3-5[114X).[133X
  
  [30X    [33X[0;6YA method for [2XViewObj[102X ([14X6.3-5[114X) which first calls [2XViewString[102X ([14X27.7-3[114X) and
        prints  the result, if it is a different object than [2XDEFAULTVIEWSTRING[102X
        ([14X27.7-4[114X). Otherwise the method delegates to [2XPrintObj[102X ([14X6.3-5[114X).[133X
  
  [30X    [33X[0;6YA  method  for [2XPrintObj[102X ([14X6.3-5[114X) which prints the result of [2XPrintString[102X
        ([14X27.7-5[114X).[133X
  
  [30X    [33X[0;6YA  method  for [2XPrintString[102X ([14X27.7-5[114X) which returns the result of [2XString[102X
        ([14X27.7-6[114X)[133X
  
  
  [1X6.3-2 [33X[0;0YRecommendations for the implementation[133X[101X
  
  [33X[0;0YThis  subsection  describes what methods for printing and viewing one should
  implement for new [5XGAP[105X objects.[133X
  
  [33X[0;0YOne  should  at  the  very  least  install a [2XString[102X ([14X27.7-6[114X) method to allow
  printing.  Using  the  standard  delegations  this enables a limited form of
  viewing, displaying and printing.[133X
  
  [33X[0;0YIf,  for  larger objects, nicer line breaks are needed, one should install a
  separate  [2XPrintString[102X  ([14X27.7-5[114X) method which puts in positions for good line
  breaks using the control characters [10X\<[110X (ASCII 1) and [10X\>[110X (ASCII 2).[133X
  
  [33X[0;0YIf,  for  even  larger objects, output performance and memory usage matters,
  one should install a separate [2XPrintObj[102X ([14X6.3-5[114X) method.[133X
  
  [33X[0;0YOne  should  usually  install a [2XViewString[102X ([14X27.7-3[114X) method, unless the above
  [2XString[102X  ([14X27.7-6[114X)  method  is  good  enough  for  [2XViewObj[102X  ([14X6.3-5[114X)  purposes.
  Performance   and  memory  should  never  matter  here,  so  it  is  usually
  unnecessary to install a separate [2XViewObj[102X ([14X6.3-5[114X) method.[133X
  
  [33X[0;0YIf  the  type  of  object  calls  for  it one should install a [2XDisplayString[102X
  ([14X27.7-1[114X)  method.  This  is  the  case  if  a human readable verbose form is
  required.[133X
  
  [33X[0;0YIf  the performance and memory usage for [2XDisplay[102X ([14X6.3-6[114X) matters, one should
  install a separate [2XDisplay[102X ([14X6.3-6[114X) method.[133X
  
  [33X[0;0YNote  that  if  only  a  [2XString[102X  ([14X27.7-6[114X)  method is installed, then [2XViewObj[102X
  ([14X6.3-5[114X)  works  and  [2XViewString[102X ([14X27.7-3[114X) returns [2XDEFAULTVIEWSTRING[102X ([14X27.7-4[114X).
  Likewise,   [2XDisplay[102X   ([14X6.3-6[114X)   works  and  [2XDisplayString[102X  ([14X27.7-1[114X)  returns
  [2XDEFAULTDISPLAYSTRING[102X  ([14X27.7-2[114X).  If  you  want  to  avoid  this then install
  methods for these operations as well.[133X
  
  [1X6.3-3 View[101X
  
  [29X[2XView[102X( [3Xobj1[103X, [3Xobj2...[103X ) [32X function
  
  [33X[0;0Y[2XView[102X  shows  the  objects [3Xobj1[103X, [3Xobj2[103X... etc. [13Xin a short form[113X on the standard
  output  by  calling  the  [2XViewObj[102X ([14X6.3-5[114X) operation on each of them. [2XView[102X is
  called  in  the read-eval-print loop, thus the output looks exactly like the
  representation  of the objects shown by the main loop. Note that no space or
  newline is printed between the objects.[133X
  
  [1X6.3-4 Print[101X
  
  [29X[2XPrint[102X( [3Xobj1[103X, [3Xobj2[103X, [3X...[103X ) [32X function
  
  [33X[0;0YAlso  [2XPrint[102X shows the objects [3Xobj1[103X, [3Xobj2[103X... etc. on the standard output. The
  difference compared to [2XView[102X ([14X6.3-3[114X) is in general that the shown form is not
  required  to be short, and that in many cases the form shown by [2XPrint[102X is [5XGAP[105X
  readable.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27Xz:= Z(2);[127X[104X
    [4X[28XZ(2)^0[128X[104X
    [4X[25Xgap>[125X [27Xv:= [ z, z, z, z, z, z, z ];[127X[104X
    [4X[28X[ Z(2)^0, Z(2)^0, Z(2)^0, Z(2)^0, Z(2)^0, Z(2)^0, Z(2)^0 ][128X[104X
    [4X[25Xgap>[125X [27XConvertToVectorRep(v);; v;[127X[104X
    [4X[28X<a GF2 vector of length 7>[128X[104X
    [4X[25Xgap>[125X [27XPrint( v, "\n" );[127X[104X
    [4X[28X[ Z(2)^0, Z(2)^0, Z(2)^0, Z(2)^0, Z(2)^0, Z(2)^0, Z(2)^0 ][128X[104X
  [4X[32X[104X
  
  [33X[0;0YAnother difference is that [2XPrint[102X shows strings without the enclosing quotes,
  so  [2XPrint[102X  can be used to produce formatted text on the standard output (see
  also  chapter [14X27[114X).  Some characters preceded by a backslash, such as [10X\n[110X, are
  processed specially (see chapter [14X27.2[114X). [2XPrintTo[102X ([14X9.7-3[114X) can be used to print
  to a file.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27Xfor i in [1..5] do[127X[104X
    [4X[25X>[125X [27X     Print( i, " ", i^2, " ", i^3, "\n" );[127X[104X
    [4X[25X>[125X [27X   od;[127X[104X
    [4X[28X1 1 1[128X[104X
    [4X[28X2 4 8[128X[104X
    [4X[28X3 9 27[128X[104X
    [4X[28X4 16 64[128X[104X
    [4X[28X5 25 125[128X[104X
    [4X[25Xgap>[125X [27Xg:= SmallGroup(12,5);[127X[104X
    [4X[28X<pc group of size 12 with 3 generators>[128X[104X
    [4X[25Xgap>[125X [27XPrint( g, "\n" );[127X[104X
    [4X[28XGroup( [ f1, f2, f3 ] )[128X[104X
    [4X[25Xgap>[125X [27XView( g );  Print( "\n" );[127X[104X
    [4X[28X<pc group of size 12 with 3 generators>[128X[104X
  [4X[32X[104X
  
  [1X6.3-5 ViewObj[101X
  
  [29X[2XViewObj[102X( [3Xobj[103X ) [32X operation
  [29X[2XPrintObj[102X( [3Xobj[103X ) [32X operation
  
  [33X[0;0YThe  functions  [2XView[102X  ([14X6.3-3[114X) and [2XPrint[102X ([14X6.3-4[114X) actually call the operations
  [2XViewObj[102X and [2XPrintObj[102X, respectively, for each argument. By installing special
  methods  for  these  operations,  it is possible to achieve special printing
  behavior  for  certain  objects  (see  chapter [14X78[114X).  The only exceptions are
  strings (see Chapter [14X27[114X), for which the default [2XPrintObj[102X and [2XViewObj[102X methods
  as  well as the function [2XView[102X ([14X6.3-3[114X) print also the enclosing doublequotes,
  whereas [2XPrint[102X ([14X6.3-4[114X) strips the doublequotes.[133X
  
  [33X[0;0YThe  default  method for [2XViewObj[102X is to call [2XPrintObj[102X. So it is sufficient to
  have  a  [2XPrintObj[102X  method  for an object in order to [2XView[102X ([14X6.3-3[114X) it. If one
  wants  to supply a [21Xshort form[121X for [2XView[102X ([14X6.3-3[114X), one can install additionally
  a method for [2XViewObj[102X.[133X
  
  [1X6.3-6 Display[101X
  
  [29X[2XDisplay[102X( [3Xobj[103X ) [32X operation
  
  [33X[0;0YDisplays  the object [3Xobj[103X in a nice, formatted way which is easy to read (but
  might  be  difficult for machines to understand). The actual format used for
  this  depends  on  the  type  of  [3Xobj[103X.  Each  method  should print a newline
  character as last character.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XDisplay( [ [ 1, 2, 3 ], [ 4, 5, 6 ] ] * Z(5) );[127X[104X
    [4X[28X 2 4 1[128X[104X
    [4X[28X 3 . 2[128X[104X
  [4X[32X[104X
  
  [33X[0;0YOne  can assign a string to an object that [2XPrint[102X ([14X6.3-4[114X) will use instead of
  the default used by [2XPrint[102X ([14X6.3-4[114X), via [2XSetName[102X ([14X12.8-1[114X). Also, [2XName[102X ([14X12.8-2[114X)
  returns  the  string  previously  assigned  to  the object for printing, via
  [2XSetName[102X ([14X12.8-1[114X). The following is an example in the context of domains.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27Xg:= Group( (1,2,3,4) );[127X[104X
    [4X[28XGroup([ (1,2,3,4) ])[128X[104X
    [4X[25Xgap>[125X [27XSetName( g, "C4" ); g;[127X[104X
    [4X[28XC4[128X[104X
    [4X[25Xgap>[125X [27XName( g );[127X[104X
    [4X[28X"C4"[128X[104X
  [4X[32X[104X
  
  [33X[0;0YWhen setting up examples, in particular if for beginning users, it sometimes
  can  be  convenient  to  hide the structure behind a printing name. For many
  objects,  such  as  groups,  this can be done using [2XSetName[102X ([14X12.8-1[114X). If the
  objects   however   is  represented  internally,  for  example  permutations
  representing  group  elements,  this function is not applicable. Instead the
  function  [2XSetNameObject[102X  ([14X6.3-7[114X)  can  be used to interface with the display
  routines on a lower level.[133X
  
  [1X6.3-7 SetNameObject[101X
  
  [29X[2XSetNameObject[102X( [3Xo[103X, [3Xs[103X ) [32X function
  
  [33X[0;0Y[2XSetNameObject[102X  sets  the  string  [3Xs[103X  as  display  name  for  object  [3Xo[103X in an
  interactive  session. When applying [2XView[102X ([14X6.3-3[114X) to object [3Xo[103X, for example in
  the  system's  main loop, [5XGAP[105X will print the string [3Xs[103X. Calling [2XSetNameObject[102X
  for  the same object [3Xo[103X with [3Xs[103X set to [10Xfail[110X deletes the special viewing setup.
  since  use  of this features potentially slows down the whole print process,
  this function should be used sparingly.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XSetNameObject(3,"three"); [127X[104X
    [4X[25Xgap>[125X [27XFiltered([1..10],IsPrimeInt);[127X[104X
    [4X[28X[ 2, three, 5, 7 ][128X[104X
    [4X[25Xgap>[125X [27XSetNameObject(3,fail);   [127X[104X
    [4X[25Xgap>[125X [27XFiltered([1..10],IsPrimeInt);[127X[104X
    [4X[28X[ 2, 3, 5, 7 ][128X[104X
  [4X[32X[104X
  
  
  [1X6.4 [33X[0;0YBreak Loops[133X[101X
  
  [33X[0;0YWhen  an  error  has  occurred or when you interrupt [5XGAP[105X (usually by hitting
  [12XCtrl-C[112X) [5XGAP[105X enters a break loop, that is in most respects like the main read
  eval  print  loop  (see [14X6.1[114X).  That  is, you can enter statements, [5XGAP[105X reads
  them, evaluates them, and shows the result if any. However those evaluations
  happen  within  the  context in which the error occurred. So you can look at
  the arguments and local variables of the functions that were active when the
  error happened and even change them. The prompt is changed from [10Xgap>[110X to [10Xbrk>[110X
  to indicate that you are in a break loop.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27X1/0;[127X[104X
    [4X[28XRational operations: <divisor> must not be zero[128X[104X
    [4X[28Xnot in any function[128X[104X
    [4X[28XEntering break read-eval-print loop ...[128X[104X
    [4X[28Xyou can 'quit;' to quit to outer loop, or[128X[104X
    [4X[28Xyou can replace <divisor> via 'return <divisor>;' to continue[128X[104X
  [4X[32X[104X
  
  [33X[0;0YIf  errors  occur  within  a  break  loop [5XGAP[105X enters another break loop at a
  [13Xdeeper level[113X. This is indicated by a number appended to [10Xbrk[110X:[133X
  
  [4X[32X  Example  [32X[104X
    [4X[26Xbrk>[126X [27X1/0;[127X[104X
    [4X[28XRational operations: <divisor> must not be zero[128X[104X
    [4X[28Xnot in any function[128X[104X
    [4X[28XEntering break read-eval-print loop ...[128X[104X
    [4X[28Xyou can 'quit;' to quit to outer loop, or[128X[104X
    [4X[28Xyou can replace <divisor> via 'return <divisor>;' to continue[128X[104X
    [4X[26Xbrk_02>[126X[104X
  [4X[32X[104X
  
  [33X[0;0YThere are two ways to leave a break loop, see [14X6.4-1[114X and [14X6.4-2[114X.[133X
  
  
  [1X6.4-1 [33X[0;0Yquit from a break loop[133X[101X
  
  [33X[0;0YThe  first  way  to leave a break loop is to [13Xquit[113X the break loop. To do this
  you  enter  [10Xquit;[110X  or type the [13Xeof[113X ([13Xe[113Xnd [13Xo[113Xf [13Xf[113Xile) character, which is usually
  [12XCtrl-D[112X except when using the [10X-e[110X option (see Section [14X3.1[114X). Note that [5XGAP[105X code
  between [10Xquit;[110X and the end of the input line is ignored.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[26Xbrk_02>[126X [27Xquit;[127X[104X
    [4X[26Xbrk>[126X[104X
  [4X[32X[104X
  
  [33X[0;0YIn  this  case  control  returns to the break loop one level above or to the
  main  loop,  respectively. So iterated break loops must be left iteratively.
  Note  also  that  if  you  type  [10Xquit;[110X  from  a  [10Xgap>[110X  prompt, [5XGAP[105X will exit
  (see [14X6.7[114X).[133X
  
  [33X[0;0Y[13XNote:[113X If you leave a break loop with [9Xquit[109X without completing a command it is
  possible  (though not very likely) that data structures will be corrupted or
  incomplete  data  have been stored in objects. Therefore no guarantee can be
  given  that calculations afterwards will return correct results! If you have
  been  using options [9Xquit[109Xting a break loop generally leaves the options stack
  with  options  you  no  longer  want. The function [2XResetOptionsStack[102X ([14X8.1-3[114X)
  removes  all  options  on  the  options stack, and this is the sole intended
  purpose of this function.[133X
  
  
  [1X6.4-2 [33X[0;0Yreturn from a break loop[133X[101X
  
  [33X[0;0YThe  other  way  to leave a break loop is to [13Xreturn[113X from a break loop. To do
  this  you type [10Xreturn;[110X or [10Xreturn [3Xobj[103X[10X;[110X. If the break loop was entered because
  you  interrupted  [5XGAP[105X, then you can continue by typing [10Xreturn;[110X. If the break
  loop  was  entered  due  to  an error, you may have to modify the value of a
  variable before typing [10Xreturn;[110X (see the example for [2XIsDenseList[102X ([14X21.1-2[114X)) or
  you  may  have  to return an object [3Xobj[103X (by typing: [10Xreturn [3Xobj[103X[10X;[110X) to continue
  the computation; in any case, the message printed on entering the break loop
  will  tell  you which of these alternatives is possible. For example, if the
  break  loop  was entered because a variable had no assigned value, the value
  to  be  returned is often a value that this variable should have to continue
  the computation.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[26Xbrk>[126X [27Xreturn 9;  # we had tried to enter the divisor 9 but typed 0 ...[127X[104X
    [4X[28X1/9[128X[104X
    [4X[25Xgap>[125X [27X[127X[104X
  [4X[32X[104X
  
  [1X6.4-3 OnBreak[101X
  
  [29X[2XOnBreak[102X(  ) [32X function
  
  [33X[0;0YBy  default,  when  a  break  loop  is  entered,  [5XGAP[105X  prints a trace of the
  innermost  5  commands  currently  being  executed.  This  behaviour  can be
  configured  by  changing  the  value  of the global variable [2XOnBreak[102X. When a
  break loop is entered, the value of [2XOnBreak[102X is checked. If it is a function,
  then  it  is  called  with no arguments. By default, the value of [2XOnBreak[102X is
  [2XWhere[102X ([14X6.4-5[114X).[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XOnBreak := function() Print("Hello\n"); end;[127X[104X
    [4X[28Xfunction(  ) ... end[128X[104X
  [4X[32X[104X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XError("!\n");[127X[104X
    [4X[28XError, ![128X[104X
    [4X[28XHello[128X[104X
    [4X[28XEntering break read-eval-print loop ...[128X[104X
    [4X[28Xyou can 'quit;' to quit to outer loop, or[128X[104X
    [4X[28Xyou can 'return;' to continue[128X[104X
    [4X[26Xbrk>[126X [27Xquit;[127X[104X
  [4X[32X[104X
  
  [33X[0;0YIn  cases  where  a  break loop is entered during a function that was called
  with  options  (see Chapter [14X8[114X), a [10Xquit;[110X will also cause the options stack to
  be  reset  and  an  [10XInfo[110X-ed  warning  stating this is emitted at [2XInfoWarning[102X
  ([14X7.4-7[114X) level 1 (see Chapter [14X7.4[114X).[133X
  
  [33X[0;0YNote  that  for  break  loops  entered by a call to [2XError[102X ([14X6.6-1[114X), the lines
  after [21X[10XEntering break read-eval-print loop ...[110X[121X and before the [10Xbrk>[110X prompt can
  also be customised, namely by redefining [2XOnBreakMessage[102X ([14X6.4-4[114X).[133X
  
  [33X[0;0YAlso,  note  that one can achieve the effect of changing [2XOnBreak[102X [13Xlocally[113X. As
  mentioned above, the default value of [2XOnBreak[102X is [2XWhere[102X ([14X6.4-5[114X). Thus, a call
  to  [2XError[102X  ([14X6.6-1[114X) generally gives a trace back up to five levels of calling
  functions.  Conceivably, we might like to have a function like [2XError[102X ([14X6.6-1[114X)
  that  does not trace back without globally changing [2XOnBreak[102X. Such a function
  we  might  call  [10XErrorNoTraceBack[110X  and here is how we might define it. (Note
  [10XErrorNoTraceBack[110X is [13Xnot[113X a [5XGAP[105X function.)[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XErrorNoTraceBack := function(arg) # arg is special variable that GAP[127X[104X
    [4X[25X>[125X [27X                                     # knows to treat as list of arg's[127X[104X
    [4X[25X>[125X [27X     local SavedOnBreak, ENTBOnBreak;[127X[104X
    [4X[25X>[125X [27X     SavedOnBreak := OnBreak;        # save current value of OnBreak[127X[104X
    [4X[25X>[125X [27X[127X[104X
    [4X[25X>[125X [27X     ENTBOnBreak := function()       # our `local' OnBreak[127X[104X
    [4X[25X>[125X [27X     local s;[127X[104X
    [4X[25X>[125X [27X       for s in arg do[127X[104X
    [4X[25X>[125X [27X         Print(s);[127X[104X
    [4X[25X>[125X [27X       od;[127X[104X
    [4X[25X>[125X [27X       OnBreak := SavedOnBreak;      # restore OnBreak afterwards[127X[104X
    [4X[25X>[125X [27X     end;[127X[104X
    [4X[25X>[125X [27X[127X[104X
    [4X[25X>[125X [27X     OnBreak := ENTBOnBreak;[127X[104X
    [4X[25X>[125X [27X     Error();[127X[104X
    [4X[25X>[125X [27X   end;[127X[104X
    [4X[28Xfunction( arg... ) ... end[128X[104X
  [4X[32X[104X
  
  [33X[0;0YHere is a somewhat trivial demonstration of the use of [10XErrorNoTraceBack[110X.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XErrorNoTraceBack("Gidday!", " How's", " it", " going?\n");[127X[104X
    [4X[28XError, Gidday! How's it going?[128X[104X
    [4X[28XEntering break read-eval-print loop ...[128X[104X
    [4X[28Xyou can 'quit;' to quit to outer loop, or[128X[104X
    [4X[28Xyou can 'return;' to continue[128X[104X
    [4X[26Xbrk>[126X [27Xquit;[127X[104X
  [4X[32X[104X
  
  [33X[0;0YNow we call [2XError[102X ([14X6.6-1[114X) with the same arguments to show the difference.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XError("Gidday!", " How's", " it", " going?\n");[127X[104X
    [4X[28XError, Gidday! How's it going?[128X[104X
    [4X[28XHello[128X[104X
    [4X[28XEntering break read-eval-print loop ...[128X[104X
    [4X[28Xyou can 'quit;' to quit to outer loop, or[128X[104X
    [4X[28Xyou can 'return;' to continue[128X[104X
    [4X[26Xbrk>[126X [27Xquit;[127X[104X
  [4X[32X[104X
  
  [33X[0;0YObserve  that  the  value  of  [2XOnBreak[102X  before the [10XErrorNoTraceBack[110X call was
  restored. However, we had changed [2XOnBreak[102X from its default value; to restore
  [2XOnBreak[102X to its default value, we should do the following.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XOnBreak := Where;;[127X[104X
  [4X[32X[104X
  
  [1X6.4-4 OnBreakMessage[101X
  
  [29X[2XOnBreakMessage[102X(  ) [32X function
  
  [33X[0;0YWhen  a  break  loop is entered by a call to [2XError[102X ([14X6.6-1[114X) the message after
  the [21X[10XEntering break read-eval-print loop ...[110X[121X line is produced by the function
  [10XOnBreakMessage[110X,  which  just  like  [2XOnBreak[102X  ([14X6.4-3[114X)  is a user-configurable
  global variable that is a [13Xfunction[113X with [13Xno arguments[113X.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XOnBreakMessage(); # By default, OnBreakMessage prints the following[127X[104X
    [4X[28Xyou can 'quit;' to quit to outer loop, or[128X[104X
    [4X[28Xyou can 'return;' to continue[128X[104X
  [4X[32X[104X
  
  [33X[0;0YPerhaps  you are familiar with what's possible in a break loop, and so don't
  need  to  be reminded. In this case, you might wish to do the following (the
  first line just makes it easy to restore the default value later).[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XNormalOnBreakMessage := OnBreakMessage;; # save the default value [127X[104X
    [4X[25Xgap>[125X [27XOnBreakMessage := function() end;        # do-nothing function[127X[104X
    [4X[28Xfunction(  ) ... end[128X[104X
    [4X[25Xgap>[125X [27XOnBreakMessage();[127X[104X
    [4X[25Xgap>[125X [27XOnBreakMessage := NormalOnBreakMessage;; # reset[127X[104X
  [4X[32X[104X
  
  [33X[0;0YWith  [2XOnBreak[102X  ([14X6.4-3[114X)  still set away from its default value, calling [2XError[102X
  ([14X6.6-1[114X) as we did above, now produces:[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XError("!\n");[127X[104X
    [4X[28XError, ![128X[104X
    [4X[28XHello[128X[104X
    [4X[28XEntering break read-eval-print loop ...[128X[104X
    [4X[26Xbrk>[126X [27Xquit; # to get back to outer loop[127X[104X
  [4X[32X[104X
  
  [33X[0;0YHowever, suppose you are writing a function which detects an error condition
  and  [10XOnBreakMessage[110X needs to be changed only [13Xlocally[113X, i.e., the instructions
  on  how to recover from the break loop need to be specific to that function.
  The  same  idea used to define [10XErrorNoTraceBack[110X (see [2XOnBreak[102X ([14X6.4-3[114X)) can be
  adapted  to achieve this. The function [2XCosetTableFromGensAndRels[102X ([14X47.6-5[114X) is
  an example in the [5XGAP[105X code where the idea is actually used.[133X
  
  [1X6.4-5 Where[101X
  
  [29X[2XWhere[102X( [3Xnr[103X ) [32X function
  
  [33X[0;0Yshows the last [3Xnr[103X commands on the execution stack during whose execution the
  error  occurred.  If not given, [3Xnr[103X defaults to 5. (Assume, for the following
  example,  that  after  the last example [2XOnBreak[102X ([14X6.4-3[114X) has been set back to
  its default value.)[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XStabChain(SymmetricGroup(100)); # After this we typed ^C  [127X[104X
    [4X[28Xuser interrupt at[128X[104X
    [4X[28Xbpt := S.orbit[1];[128X[104X
    [4X[28X called from[128X[104X
    [4X[28XSiftedPermutation( S, (g * rep) ^ -1 ) called from[128X[104X
    [4X[28XStabChainStrong( S.stabilizer, [ sch ], options ); called from[128X[104X
    [4X[28XStabChainStrong( S.stabilizer, [ sch ], options ); called from[128X[104X
    [4X[28XStabChainStrong( S, GeneratorsOfGroup( G ), options ); called from[128X[104X
    [4X[28XStabChainOp( G, rec([128X[104X
    [4X[28X     ) ) called from[128X[104X
    [4X[28X...[128X[104X
    [4X[28XEntering break read-eval-print loop ...[128X[104X
    [4X[28Xyou can 'quit;' to quit to outer loop, or[128X[104X
    [4X[28Xyou can 'return;' to continue[128X[104X
    [4X[26Xbrk>[126X [27XWhere(2);[127X[104X
    [4X[28X called from[128X[104X
    [4X[28XSiftedPermutation( S, (g * rep) ^ -1 ) called from[128X[104X
    [4X[28XStabChainStrong( S.stabilizer, [ sch ], options ); called from[128X[104X
    [4X[28X...[128X[104X
  [4X[32X[104X
  
  [33X[0;0YNote  that  the variables displayed even in the first line of the [2XWhere[102X list
  (after the [10Xcalled from[110X line) may be already one environment level higher and
  [2XDownEnv[102X ([14X6.5-1[114X) may be necessary to access them.[133X
  
  [33X[0;0YAt  the  moment this backtrace does not work from within compiled code (this
  includes the method selection which by default is compiled into the kernel).
  If  this  creates  problems  for  debugging,  call  [5XGAP[105X  with  the [10X-M[110X option
  (see [14X3.1[114X) to avoid loading compiled code.[133X
  
  [33X[0;0Y(Function  calls to [2XInfo[102X ([14X7.4-5[114X) and methods installed for binary operations
  are handled in a special way. In rare circumstances it is possible therefore
  that  they  do  not  show  up  in a [2XWhere[102X log but the log refers to the [13Xlast[113X
  proper function call that happened before.)[133X
  
  [33X[0;0YThe  command  line  option [10X-T[110X to [5XGAP[105X disables the break loop. This is mainly
  intended  for  testing purposes and for special applications. If this option
  is given then errors simply cause [5XGAP[105X to return to the main loop.[133X
  
  
  [1X6.5 [33X[0;0YVariable Access in a Break Loop[133X[101X
  
  [33X[0;0YIn  a  break  loop access to variables of the current break level and higher
  levels  is  possible,  but  if  the same variable name is used for different
  objects  or  if  a  function  calls  itself  recursively, of course only the
  variable at the lowest level can be accessed.[133X
  
  
  [1X6.5-1 [33X[0;0YDownEnv and UpEnv[133X[101X
  
  [29X[2XDownEnv[102X( [3Xnr[103X ) [32X function
  [29X[2XUpEnv[102X( [3Xnr[103X ) [32X function
  
  [33X[0;0Y[2XDownEnv[102X  moves  down  [3Xnr[103X  steps in the environment and allows one to inspect
  variables  on  this  level; if [3Xnr[103X is negative it steps up in the environment
  again; [3Xnr[103X defaults to 1 if not given. [2XUpEnv[102X acts similarly to [2XDownEnv[102X but in
  the  reverse direction (the mnemonic rule to remember the difference between
  [2XDownEnv[102X  and [2XUpEnv[102X is the order in which commands on the execution stack are
  displayed by [2XWhere[102X ([14X6.4-5[114X)).[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XOnBreak := function() Where(0); end;; # eliminate back-tracing on[127X[104X
    [4X[25Xgap>[125X [27X                                      # entry to break loop[127X[104X
    [4X[25Xgap>[125X [27Xtest:= function( n )[127X[104X
    [4X[25X>[125X [27X   if n > 3 then Error( "!\n" ); fi; test( n+1 ); end;;[127X[104X
    [4X[25Xgap>[125X [27Xtest( 1 );[127X[104X
    [4X[28XError, ![128X[104X
    [4X[28XEntering break read-eval-print loop ...[128X[104X
    [4X[28Xyou can 'quit;' to quit to outer loop, or[128X[104X
    [4X[28Xyou can 'return;' to continue[128X[104X
    [4X[26Xbrk>[126X [27XWhere();[127X[104X
    [4X[28X called from[128X[104X
    [4X[28Xtest( n + 1 ); called from[128X[104X
    [4X[28Xtest( n + 1 ); called from[128X[104X
    [4X[28Xtest( n + 1 ); called from[128X[104X
    [4X[28X<function>( <arguments> ) called from read-eval-loop[128X[104X
    [4X[26Xbrk>[126X [27Xn;[127X[104X
    [4X[28X4[128X[104X
    [4X[26Xbrk>[126X [27XDownEnv();[127X[104X
    [4X[26Xbrk>[126X [27Xn;[127X[104X
    [4X[28X3[128X[104X
    [4X[26Xbrk>[126X [27XWhere();[127X[104X
    [4X[28X called from[128X[104X
    [4X[28Xtest( n + 1 ); called from[128X[104X
    [4X[28Xtest( n + 1 ); called from[128X[104X
    [4X[28X<function>( <arguments> ) called from read-eval-loop[128X[104X
    [4X[26Xbrk>[126X [27XDownEnv( 2 );[127X[104X
    [4X[26Xbrk>[126X [27Xn;[127X[104X
    [4X[28X1[128X[104X
    [4X[26Xbrk>[126X [27XWhere();[127X[104X
    [4X[28X called from[128X[104X
    [4X[28X<function>( <arguments> ) called from read-eval-loop[128X[104X
    [4X[26Xbrk>[126X [27XDownEnv( -2 );[127X[104X
    [4X[26Xbrk>[126X [27Xn;[127X[104X
    [4X[28X3[128X[104X
    [4X[26Xbrk>[126X [27Xquit;[127X[104X
    [4X[25Xgap>[125X [27XOnBreak := Where;; # restore OnBreak to its default value[127X[104X
  [4X[32X[104X
  
  [33X[0;0YNote  that  the  change  of  the  environment caused by [2XDownEnv[102X only affects
  variable  access  in  the  break  loop.  If  you  use  [9Xreturn[109X  to continue a
  calculation [5XGAP[105X automatically jumps to the right environment level again.[133X
  
  [33X[0;0YNote  also  that  search  for  variables  looks  first in the chain of outer
  functions  which  enclosed the definition of a currently executing function,
  before  it  looks at the chain of calling functions which led to the current
  invocation of the function.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27Xfoo := function()[127X[104X
    [4X[25X>[125X [27Xlocal x; x := 1;[127X[104X
    [4X[25X>[125X [27Xreturn function() local y; y := x*x; Error("!!\n"); end;[127X[104X
    [4X[25X>[125X [27Xend;[127X[104X
    [4X[28Xfunction(  ) ... end[128X[104X
    [4X[25Xgap>[125X [27Xbar := foo();[127X[104X
    [4X[28Xfunction(  ) ... end[128X[104X
    [4X[25Xgap>[125X [27Xfun := function() local x; x := 3; bar(); end;[127X[104X
    [4X[28Xfunction(  ) ... end[128X[104X
    [4X[25Xgap>[125X [27Xfun();[127X[104X
    [4X[28XError, !![128X[104X
    [4X[28X called from[128X[104X
    [4X[28Xbar(  ); called from[128X[104X
    [4X[28X<function>( <arguments> ) called from read-eval-loop[128X[104X
    [4X[28XEntering break read-eval-print loop ...[128X[104X
    [4X[28Xyou can 'quit;' to quit to outer loop, or[128X[104X
    [4X[28Xyou can 'return;' to continue[128X[104X
    [4X[26Xbrk>[126X [27Xx;[127X[104X
    [4X[28X1[128X[104X
    [4X[26Xbrk>[126X [27XDownEnv(1);[127X[104X
    [4X[26Xbrk>[126X [27Xx;[127X[104X
    [4X[28X3[128X[104X
  [4X[32X[104X
  
  [33X[0;0YHere the [10Xx[110X of [10Xfoo[110X which contained the definition of [10Xbar[110X is found before that
  of  [10Xfun[110X  which  caused its execution. Using [2XDownEnv[102X we can access the [10Xx[110X from
  [10Xfun[110X.[133X
  
  
  [1X6.6 [33X[0;0YError and ErrorCount[133X[101X
  
  [1X6.6-1 Error[101X
  
  [29X[2XError[102X( [3Xmessages[103X, [3X...[103X ) [32X function
  
  [33X[0;0Y[2XError[102X  signals  an error from within a function. First the messages [3Xmessages[103X
  are  printed, this is done exactly as if [2XPrint[102X ([14X6.3-4[114X) (see [14X6.3[114X) were called
  with  these  arguments.  Then  a break loop (see [14X6.4[114X) is entered, unless the
  standard  error  output  is  not connected to a terminal. You can leave this
  break  loop  with [10Xreturn;[110X to continue execution with the statement following
  the  call  to  [2XError[102X.  [2XErrorNoReturn[102X  ([14X6.6-2[114X) operates identically to [2XError[102X,
  except it does not allow using [10Xreturn;[110X to continue execution.[133X
  
  [1X6.6-2 ErrorNoReturn[101X
  
  [29X[2XErrorNoReturn[102X( [3Xmessages[103X, [3X...[103X ) [32X function
  
  [33X[0;0Y[2XErrorNoReturn[102X  signals  an  error from within a function. First the messages
  [3Xmessages[103X  are  printed,  this  is done exactly as if [2XPrint[102X ([14X6.3-4[114X) (see [14X6.3[114X)
  were  called  with  these arguments. Then a break loop (see [14X6.4[114X) is entered,
  unless  the standard error output is not connected to a terminal. This break
  loop  can only be exited with [10Xquit;[110X. The function differs from [2XError[102X ([14X6.6-1[114X)
  by not allowing execution to continue.[133X
  
  [1X6.6-3 ErrorCount[101X
  
  [29X[2XErrorCount[102X(  ) [32X function
  
  [33X[0;0Y[2XErrorCount[102X  returns  a  count  of  the  number  of  errors  (including  user
  interruptions)  which have occurred in the [5XGAP[105X session so far. This count is
  reduced  modulo [22X2^28[122X on [22X32[122X bit systems, [22X2^60[122X on [22X64[122X bit systems. The count is
  incremented  by  each  error,  even if [5XGAP[105X was started with the [10X-T[110X option to
  disable the break loop.[133X
  
  
  [1X6.7 [33X[0;0YLeaving GAP[133X[101X
  
  [33X[0;0YThe normal way to terminate a [5XGAP[105X session is to enter either [10Xquit;[110X (note the
  semicolon)  or an end-of-file character (usually [12XCtrl-D[112X) at the [10Xgap> [110X prompt
  in the main read eval print loop.[133X
  
  [1X6.7-1 QUIT[101X
  
  [29X[2XQUIT[102X[32X global variable
  
  [33X[0;0YAn  emergency  way  to  leave  [5XGAP[105X  is  to enter [9XQUIT[109X at any [10Xgap>[110X or [10Xbrk>[110X or
  [10Xbrk_[3Xnn[103X[10X>[110X prompt.[133X
  
  [1X6.7-2 GAP_EXIT_CODE[101X
  
  [29X[2XGAP_EXIT_CODE[102X( [3Xret[103X ) [32X function
  
  [33X[0;0YA  [10XGAP_EXIT_CODE[110X  sets  the  return value which will be used when [5XGAP[105X exits.
  This  may  be  an integer, or a boolean (where [9Xtrue[109X is interpreted as 0, and
  [9Xfalse[109X is interpreted as 1.[133X
  
  [1X6.7-3 QUIT_GAP[101X
  
  [29X[2XQUIT_GAP[102X( [[3Xret[103X] ) [32X function
  
  [33X[0;0YA [10XQUIT_GAP[110X acts similarly to the keyword [10Xquit[110X. It exits [5XGAP[105X cleanly, calling
  any  function  installed  using [10XInstallAtExit[110X. The optional argument will be
  passed to [10XGAP_EXIT_CODE[110X.[133X
  
  [1X6.7-4 FORCE_QUIT_GAP[101X
  
  [29X[2XFORCE_QUIT_GAP[102X( [[3Xret[103X] ) [32X function
  
  [33X[0;0YA  [10XFORCE_QUIT_GAP[110X  is  similar  to [10XQUIT_GAP[110X, except it ignores any functions
  installed  with  [10XInstallAtExit[110X,  or  any other functions normally run at GAP
  exit,  and  exits  GAP  immediately. The optional argument will be passed to
  [10XGAP_EXIT_CODE[110X.[133X
  
  [1X6.7-5 InstallAtExit[101X
  
  [29X[2XInstallAtExit[102X( [3Xfunc[103X ) [32X function
  [29X[2XQUITTING[102X[32X global variable
  
  [33X[0;0YBefore  actually  terminating,  [5XGAP[105X will call (with no arguments) all of the
  functions  that  have  been  installed  using [10XInstallAtExit[110X. These typically
  perform  tasks  such  as  cleaning  up  temporary  files  created during the
  session,  and closing open files. If an error occurs during the execution of
  one  of these functions, that function is simply abandoned, no break loop is
  entered.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XInstallAtExit(function() Print("bye\n"); end);[127X[104X
    [4X[25Xgap>[125X [27Xquit;[127X[104X
    [4X[28Xbye[128X[104X
  [4X[32X[104X
  
  [33X[0;0YDuring  execution  of  these functions, the global variable [10XQUITTING[110X will be
  set  to  [9Xtrue[109X  if  [5XGAP[105X  is  exiting  because  the  user typed [9XQUIT[109X and [9Xfalse[109X
  otherwise.  Since  [9XQUIT[109X  is  considered  as  an emergency measure, different
  action may be appropriate.[133X
  
  [1X6.7-6 SaveOnExitFile[101X
  
  [29X[2XSaveOnExitFile[102X[32X global variable
  
  [33X[0;0YIf,  when  [5XGAP[105X  is  exiting  due to a [9Xquit[109X or end-of-file (i.e. not due to a
  [9XQUIT[109X)  the  variable  [2XSaveOnExitFile[102X  is  bound  to a string value, then the
  system will try to save the workspace to that file.[133X
  
  
  [1X6.8 [33X[0;0YLine Editing[133X[101X
  
  [33X[0;0YIn  most  installations [5XGAP[105X will be compiled to use the Gnu readline library
  (see  the  line  [10XLibs  used:[110X  on [5XGAP[105X startup). In that case skip to the next
  section  [14X6.9[114X.  (The  line  editing  commands  described  in the rest of this
  section  were  available  in previous versions of [5XGAP[105X, they will work almost
  the same in the standard configuration of the Gnu readline library.)[133X
  
  [33X[0;0Y[5XGAP[105X  allows  one you to edit the current input line with a number of editing
  commands.  Those commands are accessible either as [13Xcontrol keys[113X or as [13Xescape
  keys[113X.  You  enter  a  control key by pressing the [12XCtrl[112X key, and, while still
  holding  the [12XCtrl[112X key down, hitting another key [10Xkey[110X. You enter an escape key
  by  hitting  [12XEsc[112X  and  then hitting another key [10Xkey[110X. Below we denote control
  keys  by  [12XCtrl-[112X[10Xkey[110X  and  escape  keys  by  [12XEsc-[112X[10Xkey[110X. The case of [10Xkey[110X does not
  matter, i.e., [12XCtrl-A[112X and [12XCtrl-a[112X are equivalent.[133X
  
  [33X[0;0YNormally,  line  editing  will  be  enabled  if  the input is connected to a
  terminal.  Line  editing  can  be enabled or disabled using the command line
  options  [10X-f[110X  and  [10X-n[110X  respectively  (see [14X3.1[114X),  however  this  is  a machine
  dependent feature of [5XGAP[105X.[133X
  
  [33X[0;0YTyping [12XCtrl-key[112X or [12XEsc-key[112X for characters not mentioned below always inserts
  [12XCtrl-[112X[10Xkey[110X resp. [12XEsc-[112X[10Xkey[110X at the current cursor position.[133X
  
  [33X[0;0YThe first few commands allow you to move the cursor on the current line.[133X
  
  [8X[12XCtrl-A[112X[108X
        [33X[0;6Ymove the cursor to the beginning of the line.[133X
  
  [8X[12XEsc-B[112X[108X
        [33X[0;6Ymove the cursor to the beginning of the previous word.[133X
  
  [8X[12XCtrl-B[112X[108X
        [33X[0;6Ymove the cursor backward one character.[133X
  
  [8X[12XCtrl-F[112X[108X
        [33X[0;6Ymove the cursor forward one character.[133X
  
  [8X[12XEsc-F[112X[108X
        [33X[0;6Ymove the cursor to the end of the next word.[133X
  
  [8X[12XCtrl-E[112X[108X
        [33X[0;6Ymove the cursor to the end of the line.[133X
  
  [33X[0;0YThe  next  commands  delete  or  kill  text.  The  last  killed  text can be
  reinserted, possibly at a different position, with the [21Xyank[121X command [12XCtrl-Y[112X.[133X
  
  [8X[12XCtrl-H[112X or [3Xdel[103X[108X
        [33X[0;6Ydelete the character left of the cursor.[133X
  
  [8X[12XCtrl-D[112X[108X
        [33X[0;6Ydelete the character under the cursor.[133X
  
  [8X[12XCtrl-K[112X[108X
        [33X[0;6Ykill up to the end of the line.[133X
  
  [8X[12XEsc-D[112X[108X
        [33X[0;6Ykill forward to the end of the next word.[133X
  
  [8X[12XEsc-del[112X[108X
        [33X[0;6Ykill backward to the beginning of the last word.[133X
  
  [8X[12XCtrl-X[112X[108X
        [33X[0;6Ykill entire input line, and discard all pending input.[133X
  
  [8X[12XCtrl-Y[112X[108X
        [33X[0;6Yinsert (yank) a just killed text.[133X
  
  [33X[0;0YThe next commands allow you to change the input.[133X
  
  [8X[12XCtrl-T[112X[108X
        [33X[0;6Yexchange (twiddle) current and previous character.[133X
  
  [8X[12XEsc-U[112X[108X
        [33X[0;6Yuppercase next word.[133X
  
  [8X[12XEsc-L[112X[108X
        [33X[0;6Ylowercase next word.[133X
  
  [8X[12XEsc-C[112X[108X
        [33X[0;6Ycapitalize next word.[133X
  
  [33X[0;0YThe  [12XTab[112X  character,  which  is in fact the control key [12XCtrl-I[112X, looks at the
  characters  before  the  cursor,  interprets  them  as  the  beginning of an
  identifier  and tries to complete this identifier. If there is more than one
  possible  completion, it completes to the longest common prefix of all those
  completions.  If  the  characters  to the left of the cursor are already the
  longest  common  prefix  of  all  completions hitting [12XTab[112X a second time will
  display all possible completions.[133X
  
  [8X[12Xtab[112X[108X
        [33X[0;6Ycomplete the identifier before the cursor.[133X
  
  [33X[0;0YThe next commands allow you to fetch previous lines, e.g., to correct typos,
  etc.[133X
  
  [8X[12XCtrl-L[112X[108X
        [33X[0;6Yinsert last input line before current character.[133X
  
  [8X[12XCtrl-P[112X[108X
        [33X[0;6Yredisplay  the last input line, another [12XCtrl-P[112X will redisplay the line
        before  that,  etc.  If the cursor is not in the first column only the
        lines starting with the string to the left of the cursor are taken.[133X
  
  [8X[12XCtrl-N[112X[108X
        [33X[0;6YLike [12XCtrl-P[112X but goes the other way round through the history.[133X
  
  [8X[12XEsc-<[112X[108X
        [33X[0;6Ygoes to the beginning of the history.[133X
  
  [8X[12XEsc->[112X[108X
        [33X[0;6Ygoes to the end of the history.[133X
  
  [8X[12XCtrl-O[112X[108X
        [33X[0;6Yaccepts this line and perform a [12XCtrl-N[112X.[133X
  
  [33X[0;0YFinally there are a few miscellaneous commands.[133X
  
  [8X[12XCtrl-V[112X[108X
        [33X[0;6Yenter  next  character  literally, i.e., enter it even if it is one of
        the control keys.[133X
  
  [8X[12XCtrl-U[112X[108X
        [33X[0;6Yexecute the next line editing command 4 times.[133X
  
  [8X[12XEsc-[112X[10Xnum[110X[108X
        [33X[0;6Yexecute the next line editing command [10Xnum[110X times.[133X
  
  [8X[12XEsc-Ctrl-L[112X[108X
        [33X[0;6Yredisplay input line.[133X
  
  [33X[0;0YThe  four  arrow  keys  (cursor keys) can be used instead of [12XCtrl-B[112X, [12XCtrl-F[112X,
  [12XCtrl-P[112X, and [12XCtrl-N[112X, respectively.[133X
  
  
  [1X6.9 [33X[0;0YEditing using the [10Xreadline[110X[101X[1X library[133X[101X
  
  [33X[0;0YThe  descriptions  in  this  section are valid only if your [5XGAP[105X installation
  uses  the  [10Xreadline[110X  library  for  command  line  editing.  You can check by
  [10XIsBound(GAPInfo.UseReadline);[110X if this is the case.[133X
  
  [33X[0;0YYou  can  use  all  the  features  of  [10Xreadline[110X, as for example explained in
  [7Xhttp://tiswww.case.edu/php/chet/readline/rluserman.html[107X.    Therefore    the
  command  line  editing  in  [5XGAP[105X  is similar to the [10Xbash[110X shell and many other
  programs.  On  a  Unix/Linux  system  you  may  also have a manpage, try [10Xman
  readline[110X.[133X
  
  [33X[0;0YCompared to the command line editing which was used in [5XGAP[105X up to version 4.4
  (or  compared  to not using the [10Xreadline[110X library) using [10Xreadline[110X has several
  advantages:[133X
  
  [30X    [33X[0;6YMost  keys  still  do  the  same  as  explained in [14X6.8[114X (in the default
        configuration).[133X
  
  [30X    [33X[0;6YThere  are  many  additional  commands, e.g. undoing ([12XCtrl-_[112X, keyboard
        macros  ([12XCtrl-x([112X,  [12XCtrl-x)[112X and [12XCtrl-xe[112X), file name completion (hit [12XEsc[112X
        two  or  four  times),  showing  matching  parentheses,  [10Xvi[110X-style  key
        bindings, deleting and yanking text, ...[133X
  
  [30X    [33X[0;6YLines which are longer than a physical terminal row can be edited more
        conveniently.[133X
  
  [30X    [33X[0;6YArbitrary unicode characters can be typed into string literals.[133X
  
  [30X    [33X[0;6YThe key bindings can be configured, either via your [11X~/.inputrc[111X file or
        by [5XGAP[105X commands, see [14X6.9-1[114X.[133X
  
  [30X    [33X[0;6YThe  command  line  history  can be saved to and read from a file, see
        [14X6.9-2[114X.[133X
  
  [30X    [33X[0;6YAdventurous  users  can  even  implement  completely  new command line
        editing functions on [5XGAP[105X level, see [14X6.9-4[114X.[133X
  
  
  [1X6.9-1 [33X[0;0YReadline customization[133X[101X
  
  [33X[0;0YYou can use your readline init file (by default [11X~/.inputrc[111X on Unix/Linux) to
  customize key bindings. If you want settings be used only within [5XGAP[105X you can
  write  them  between  lines  containing  [10X$if  GAP[110X and [10X$endif[110X. For a detailed
  documentation   of   the   available   settings   and   functions  see  here
  ([7Xhttp://tiswww.case.edu/php/chet/readline/rluserman.html[107X).[133X
  
  [4X[32X  From readline init file  [32X[104X
    [4X$if GAP[104X
    [4X  set blink-matching-paren on[104X
    [4X  "\C-n": dump-functions[104X
    [4X  "\ep": kill-region[104X
    [4X$endif[104X
  [4X[32X[104X
  
  [33X[0;0YAlternatively,  from  within  [5XGAP[105X the command [10XReadlineInitLine([3Xline[103X[10X);[110X can be
  used, where [3Xline[103X is a string containing a line as in the init file.[133X
  
  [33X[0;0YNote  that  after  pressing  [12XCtrl-v[112X  the  next  special  character  is input
  verbatim.  This  is  very useful to bind keys or key sequences. For example,
  binding  the  function  key  [12XF3[112X  to the command [10Xkill-whole-line[110X by using the
  sequence    [12XCtrl-v[112X    [12XF3[112X    looks    on    many    terminals    like   this:
  [10XReadlineInitLine("\"^[OR\":kill-whole-line");[110X.  (You  can  get the line back
  later with [12XCtrl-y[112X.)[133X
  
  [33X[0;0YThe  [12XCtrl-g[112X key can be used to type any unicode character by its code point.
  The  number of the character can either be given as a count, or if the count
  is  one  the input characters before the cursor are taken (as decimal number
  or  as  hex  number  which  starts  with  [10X0x[110X. For example, the double stroke
  character  ℤ can be input by any of the three key sequences [12XEsc 8484 Ctrl-g[112X,
  [12X8484 Ctrl-g[112X or [12X0x2124 Ctrl-g[112X.[133X
  
  [33X[0;0YSome  terminals bind the [12XCtrl-s[112X and [12XCtrl-q[112X keys to stop and restart terminal
  output.  Furthermore,  sometimes  [12XCtrl-\[112X  quits  a  program. To disable this
  behaviour  (and  maybe  use these keys for command line editing) you can use
  [10XExec("stty  stop  undef;  stty  start  undef; stty quit undef");[110X in your [5XGAP[105X
  session or your [11Xgaprc[111X file (see [14X3.2[114X).[133X
  
  
  [1X6.9-2 [33X[0;0YThe command line history[133X[101X
  
  [33X[0;0Y[5XGAP[105X  can  save  your  input  lines for later reuse. The keys [12XCtrl-p[112X (or [12XUp[112X),
  [12XCtrl-n[112X  (or  [12XDown[112X),  [12XESC<[112X  and  [12XESC>[112X work as documented in [14X6.8[114X, that is they
  scroll  backward  and  forward in the history or go to its beginning or end.
  Also,  [12XCtrl-o[112X  works as documented, it is useful for repeating a sequence of
  previous lines. (But [12XCtrl-l[112X clears the screen as in other programs.)[133X
  
  [33X[0;0YThe command line history can be used across several instances of [5XGAP[105X via the
  following two commands.[133X
  
  [1X6.9-3 SaveCommandLineHistory[101X
  
  [29X[2XSaveCommandLineHistory[102X( [[3Xfname[103X, ][[3Xapp[103X] ) [32X function
  [6XReturns:[106X  [33X[0;10Y[9Xfail[109X or number of saved lines[133X
  
  [29X[2XReadCommandLineHistory[102X( [[3Xfname[103X] ) [32X function
  [6XReturns:[106X  [33X[0;10Y[9Xfail[109X or number of added lines[133X
  
  [33X[0;0YThe  first  command  saves the lines in the command line history to the file
  given  by  the  string [3Xfname[103X. The default for [3Xfname[103X is [11Xhistory[111X in the user's
  [5XGAP[105X  root  path  [10XGAPInfo.UserGapRoot[110X or [11X"~/.gap_hist"[111X if this directory does
  not  exist. If the optional argument [3Xapp[103X is [9Xtrue[109X then the lines are appended
  to that file otherwise the file is overwritten.[133X
  
  [33X[0;0YThe  second  command is the converse, it reads the lines from file [3Xfname[103X and
  [13Xprepends[113X them to the current command line history.[133X
  
  [33X[0;0YBy  default an arbitrary number of input lines is stored in the command line
  history.  For  very  long  [5XGAP[105X  sessions  or  if  [2XSaveCommandLineHistory[102X and
  [2XReadCommandLineHistory[102X  are  used  repeatedly it can be sensible to restrict
  the  number of saved lines via [10XSetUserPreference("HistoryMaxLines", num);[110X to
  a  non  negative  number [10Xnum[110X (the default is [9Xinfinity[109X). An automatic storing
  and   restoring   of   the  command  line  history  can  be  configured  via
  [10XSetUserPreference("SaveAndRestoreHistory", true);[110X.[133X
  
  [33X[0;0YNote  that  these  functions are only available if your [5XGAP[105X is configured to
  use the [10Xreadline[110X library.[133X
  
  
  [1X6.9-4 [33X[0;0YWriting your own command line editing functions[133X[101X
  
  [33X[0;0YIt  is  possible  to  write  new  command  line  editing functions in [5XGAP[105X as
  follows.[133X
  
  [33X[0;0YThe  functions  have one argument [3Xl[103X which is a list with five entries of the
  form [10X[count, key, line, cursorpos, markpos][110X where [10Xcount[110X and [10Xkey[110X are the last
  pressed  key  and  its  count  (these  are  not so useful here because users
  probably do not want to overwrite the binding of a single key), then [10Xline[110X is
  a string containing the line typed so far, [10Xcursorpos[110X is the current position
  of the cursor (point), and [10Xmarkpos[110X the current position of the mark.[133X
  
  [33X[0;0YThe result of such a function must be a list which can have various forms:[133X
  
  [8X[10X[str][110X[108X
        [33X[0;6Ywith a string [10Xstr[110X. In this case the text [10Xstr[110X is inserted at the cursor
        position.[133X
  
  [8X[10X[kill, begin, end][110X[108X
        [33X[0;6Ywhere  [10Xkill[110X  is  [9Xtrue[109X  or [9Xfalse[109X and [10Xbegin[110X and [10Xend[110X are positions on the
        input  line.  This  removes the text from the lower position to before
        the  higher  position. If [10Xkill[110X is [9Xtrue[109X the text is killed, i.e. put in
        the kill ring for later yanking.[133X
  
  [8X[10X[begin, end, str][110X[108X
        [33X[0;6Ywhere  [10Xbegin[110X  and  [10Xend[110X  are  positions  on the input line and [10Xstr[110X is a
        string. Then the text from position [10Xbegin[110X to before [10Xend[110X is substituted
        by [10Xstr[110X.[133X
  
  [8X[10X[1, lstr][110X[108X
        [33X[0;6Ywhere [10Xlstr[110X is a list of strings. Then these strings are displayed like
        a list of possible completions. The input line is not changed.[133X
  
  [8X[10X[2, chars][110X[108X
        [33X[0;6Ywhere  [10Xchars[110X  is  a  string. The characters from [10Xchars[110X are used as the
        next characters from the input. (At most 512 characters are possible.)[133X
  
  [8X[10X[100][110X[108X
        [33X[0;6YThis rings the bell as configured in the terminal.[133X
  
  [33X[0;0YIn the first three cases the result list can contain a position as a further
  entry, this becomes the new cursor position. Or it can contain two positions
  as  further  entries,  these  become  the  new  cursor  position and the new
  position of the mark.[133X
  
  [33X[0;0YSuch   a   function   can   be   installed  as  a  macro  for  [10Xreadline[110X  via
  [10XInstallReadlineMacro(name,  fun);[110X where [10Xname[110X is a string used as name of the
  macro  and  [10Xfun[110X  is  a  function as above. This macro can be called by a key
  sequence which is returned by [10XInvocationReadlineMacro(name);[110X.[133X
  
  [33X[0;0YAs  an example we define a function which puts double quotes around the word
  under  or before the cursor position. The space character, the characters in
  [10X"(,)"[110X,  and  the  beginning  and  end  of  the  line  are considered as word
  boundaries.  The  function is then installed as a macro and bound to the key
  sequence [12XEsc[112X [12XQ[112X.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27XEditAddQuotes := function(l)[127X[104X
    [4X[25X>[125X [27X  local str, pos, i, j, new;[127X[104X
    [4X[25X>[125X [27X  str := l[3];[127X[104X
    [4X[25X>[125X [27X  pos := l[4];[127X[104X
    [4X[25X>[125X [27X  i := pos; [127X[104X
    [4X[25X>[125X [27X  while i > 1 and (not str[i-1] in ",( ") do[127X[104X
    [4X[25X>[125X [27X    i := i-1;[127X[104X
    [4X[25X>[125X [27X  od;[127X[104X
    [4X[25X>[125X [27X  j := pos;[127X[104X
    [4X[25X>[125X [27X  while IsBound(str[j]) and not str[j] in ",) " do[127X[104X
    [4X[25X>[125X [27X    j := j+1;[127X[104X
    [4X[25X>[125X [27X  od;[127X[104X
    [4X[25X>[125X [27X  new := "\"";[127X[104X
    [4X[25X>[125X [27X  Append(new, str{[i..j-1]});[127X[104X
    [4X[25X>[125X [27X  Append(new, "\"");[127X[104X
    [4X[25X>[125X [27X  return [i, j, new];[127X[104X
    [4X[25X>[125X [27Xend;;[127X[104X
    [4X[25Xgap>[125X [27XInstallReadlineMacro("addquotes", EditAddQuotes);[127X[104X
    [4X[25Xgap>[125X [27Xinvl := InvocationReadlineMacro("addquotes");;[127X[104X
    [4X[25Xgap>[125X [27XReadlineInitLine(Concatenation("\"\\eQ\":\"",invl,"\""));;[127X[104X
  [4X[32X[104X
  
  
  [1X6.10 [33X[0;0YEditing Files[133X[101X
  
  [33X[0;0YIn  most  cases,  it is preferable to create longer input (in particular [5XGAP[105X
  programs)  separately  in  an  editor,  and  to  read in the result via [2XRead[102X
  ([14X9.7-1[114X). Note that [2XRead[102X ([14X9.7-1[114X) by default reads from the directory in which
  [5XGAP[105X was started (respectively under Windows the directory containing the [5XGAP[105X
  binary), so you might have to give an absolute path to the file.[133X
  
  [33X[0;0YIf  you cannot create several windows, the [2XEdit[102X ([14X6.10-1[114X) command may be used
  to leave [5XGAP[105X, start an editor, and read in the edited file automatically.[133X
  
  [1X6.10-1 Edit[101X
  
  [29X[2XEdit[102X( [3Xfilename[103X ) [32X function
  
  [33X[0;0Y[2XEdit[102X  starts  an  editor with the file whose filename is given by the string
  [3Xfilename[103X, and reads the file back into [5XGAP[105X when you exit the editor again.[133X
  
  [33X[0;0Y[5XGAP[105X  will call your preferred editor if you call [10XSetUserPreference("Editor",
  [3Xpath[103X[10X);[110X where [3Xpath[103X is the path to your editor, e.g., [11X/usr/bin/vim[111X. On Windows
  you can use [10Xedit.com[110X.[133X
  
  [33X[0;0YUnder  Mac  OS  X, you should use [10XSetUserPreference("Editor", "open");[110X, this
  will    open    the    file   in   the   default   editor.   If   you   call
  [10XSetUserPreference("EditorOptions", ["-t"]);[110X, the file will open in [11XTextEdit[111X,
  and [10XSetUserPreference("EditorOptions", ["-a", "<appl>"]);[110X will open the file
  using the application [10X<appl>[110X.[133X
  
  [33X[0;0YThis can for example be done in your [11Xgap.ini[111X file, see Section [14X3.2-1[114X.[133X
  
  
  [1X6.11 [33X[0;0YEditor Support[133X[101X
  
  [33X[0;0YIn  the [11Xetc[111X subdirectory of the [5XGAP[105X installation we provide some setup files
  for the editors [10Xvim[110X and [10Xemacs[110X/[10Xxemacs[110X.[133X
  
  [33X[0;0Y[10Xvim[110X is a powerful editor that understands the basic [10Xvi[110X commands but provides
  much  more  functionality.  You  can  find  more  information  about it (and
  download it) from [7Xhttp://www.vim.org[107X.[133X
  
  [33X[0;0YTo  get  support  for  [5XGAP[105X  syntax  in  vim, create in your home directory a
  directory  [11X.vim[111X  with subdirectories [11X.vim/syntax[111X and [11X.vim/indent[111X (If you are
  not  using  Unix,  refer  to  the [10Xvim[110X documentation on where to place syntax
  files).  Then  copy the file [11Xetc/gap.vim[111X to [11X.vim/syntax/gap.vim[111X and the file
  [11Xetc/gap_indent.vim[111X to [11X.vim/indent/gap.vim[111X.[133X
  
  [33X[0;0YThen  edit  the  [11X.vimrc[111X  file  in  your  home directory. Add lines as in the
  following example:[133X
  
  [4X[32X  Example  [32X[104X
    [4X[28Xif has("syntax")[128X[104X
    [4X[28X  syntax on             " Default to no syntax highlightning [128X[104X
    [4X[28Xendif[128X[104X
    [4X[28X[128X[104X
    [4X[28X" For GAP files[128X[104X
    [4X[28Xaugroup gap[128X[104X
    [4X[28X  " Remove all gap autocommands[128X[104X
    [4X[28X  au![128X[104X
    [4X[28Xautocmd BufRead,BufNewFile *.g,*.gi,*.gd set filetype=gap comments=s:##\ \ ,m:##\ \ ,e:##\ \ b:#[128X[104X
    [4X[28X[128X[104X
    [4X[28X" I'm using the external program `par' for formating comment lines starting[128X[104X
    [4X[28X" with `##  '. Include these lines only when you have par installed.[128X[104X
    [4X[28X  autocmd BufRead,BufNewFile *.g,*.gi,*.gd set formatprg="par w76p4s0j"[128X[104X
    [4X[28X  autocmd BufWritePost,FileWritePost *.g,*.gi,*.gd set formatprg="par w76p0s0j"[128X[104X
    [4X[28Xaugroup END[128X[104X
  [4X[32X[104X
  
  [33X[0;0YSee  the  headers  of  the  two  mentioned files for additional comments and
  adjust   details  according  to  your  personal  taste.  Send  comments  and
  suggestions  to  [7Xmailto:support@gap-system.org[107X. Setup files for [10Xemacs[110X/[10Xxemacs[110X
  are contained in the [11Xetc/emacs[111X subdirectory.[133X
  
  
  [1X6.12 [33X[0;0YChanging the Screen Size[133X[101X
  
  [1X6.12-1 SizeScreen[101X
  
  [29X[2XSizeScreen[102X( [[3Xsz[103X] ) [32X function
  
  [33X[0;0YCalled  with  no  arguments,  [2XSizeScreen[102X returns the size of the screen as a
  list  with  two entries. The first is the length of each line, the second is
  the number of lines.[133X
  
  [33X[0;0YCalled  with one argument that is a list [3Xsz[103X, [2XSizeScreen[102X sets the size of the
  screen; The first entry of [3Xsz[103X, if bound, is the length of each line, and the
  second entry of [3Xsz[103X, if bound, is the number of lines. The values for unbound
  entries of [3Xsz[103X are left unaffected. The function returns the new values.[133X
  
  [33X[0;0YNote  that those parameters can also be set with the command line options [10X-x[110X
  for the line length and [10X-y[110X for the number of lines (see Section [14X3.1[114X).[133X
  
  [33X[0;0YTo   check/change  whether  line  breaking  occurs  for  files  and  streams
  see [2XPrintFormattingStatus[102X ([14X10.4-8[114X) and [2XSetPrintFormattingStatus[102X ([14X10.4-8[114X).[133X
  
  [33X[0;0YThe  line  length must be between [22X20[122X and [22X4096[122X characters (inclusive) and the
  number  of  lines  must  be  at  least [22X10[122X. Values outside this range will be
  adjusted to the nearest endpoint of the range.[133X
  
  
  [1X6.13 [33X[0;0YTeaching Mode[133X[101X
  
  [33X[0;0YWhen  using  [5XGAP[105X  in  the  context  of  (undergraduate) teaching it is often
  desirable  to  simplify some of the system output and functionality defaults
  (potentially  at the cost of making the printing of objects more expensive).
  This can be achieved by turning on a teaching mode:[133X
  
  [1X6.13-1 TeachingMode[101X
  
  [29X[2XTeachingMode[102X( [[3Xswitch[103X] ) [32X function
  
  [33X[0;0YWhen called with a boolean argument [3Xswitch[103X, this function will turn teaching
  mode respectively on or off.[133X
  
  [4X[32X  Example  [32X[104X
    [4X[25Xgap>[125X [27Xa:=Z(11)^3;[127X[104X
    [4X[28XZ(11)^3[128X[104X
    [4X[25Xgap>[125X [27XTeachingMode(true);[127X[104X
    [4X[28X#I  Teaching mode is turned ON[128X[104X
    [4X[25Xgap>[125X [27Xa;[127X[104X
    [4X[28XZmodnZObj(8,11)[128X[104X
    [4X[25Xgap>[125X [27XTeachingMode(false);[127X[104X
    [4X[28X#I  Teaching mode is turned OFF[128X[104X
    [4X[25Xgap>[125X [27Xa;[127X[104X
    [4X[28XZ(11)^3[128X[104X
  [4X[32X[104X
  
  [33X[0;0YAt the moment, teaching mode changes the following things[133X
  
  [8XPrime Field Elements[108X
        [33X[0;6YElements  of  fields  of prime order are printed as [2XZmodnZObj[102X ([14X14.5-3[114X)
        instead as power of a primitive root.[133X
  
  [8XQuadratic Irrationalities[108X
        [33X[0;6YElements  of  a quadratic extension of the rationals are printed using
        the square root [2XER[102X ([14X18.4-2[114X) instead of using roots of unity.[133X
  
  [8XCreation of some small groups[108X
        [33X[0;6YThe   group   creator  functions  [2XCyclicGroup[102X  ([14X50.1-2[114X),  [2XAbelianGroup[102X
        ([14X50.1-3[114X),  [2XElementaryAbelianGroup[102X ([14X50.1-4[114X), and [2XDihedralGroup[102X ([14X50.1-6[114X)
        create  by  default (if no other representation is specified) not a pc
        group,  but  a  finitely  presented  group, which makes the generators
        easier to interpret.[133X
  
