/usr/share/gap/lib/profile.g is in gap-libs 4r7p9-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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##
#W profile.g GAP Library Frank Celler
##
##
#Y Copyright (C) 1996, Lehrstuhl D für Mathematik, RWTH Aachen, Germany
#Y (C) 1998 School Math and Comp. Sci., University of St Andrews, Scotland
#Y Copyright (C) 2002 The GAP Group
##
## This file contains the profiling functions.
##
#############################################################################
##
#V PROFILED_FUNCTIONS . . . . . . . . . . . . . . list of profiled function
#V PREV_PROFILED_FUNCTIONS . . . . . . list of previously profiled functions
##
PROFILED_FUNCTIONS := [];
PROFILED_FUNCTIONS_NAMES := [];
PREV_PROFILED_FUNCTIONS := [];
PREV_PROFILED_FUNCTIONS_NAMES := [];
#############################################################################
##
#F ClearProfile() . . . . . . . . . . . . . . clear all profile information
##
## <#GAPDoc Label="ClearProfile">
## <ManSection>
## <Func Name="ClearProfile" Arg=''/>
##
## <Description>
## clears all stored profile information.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
BIND_GLOBAL("ClearProfile",function()
local i;
for i in Concatenation(PROFILED_FUNCTIONS, PREV_PROFILED_FUNCTIONS) do
CLEAR_PROFILE_FUNC(i);
od;
end);
#############################################################################
##
#F ProfileInfo( <functions>, <mincount>, <mintime> )
##
## This function collects the information about the currently profiled
## functions in a table.
## It is assumed that profiling has been switched off before the function
## gets called, in order not to mess up the shown data by the function
## calls inside `ProfileInfo' or inside the function that called it.
##
## The differences between this function and the corresponding code used in
## the GAP 4.4 function `DisplayProfile' are that
## - negative values in the columns 3 and 5 are replaced by zero,
## - the footer line showing ``OTHER'' contains a value (total memory
## allocated) in column 4,
## - the table really contains the rows for those functions that satisfy the
## conditions defined for `GAPInfo.ProfileThreshold' (its definition
## says `<=' but the old implementation checked `<'),
## - the ``TOTAL'' and ``OTHER'' lines show the summation over all profiled
## functions, including the ones for which no line is shown due to the
## restrictions imposed by `GAPInfo.ProfileThreshold'.
##
## This function, in particular the component `funs' in the record it
## returns, is used also in the package `Browse'.
##
BindGlobal( "ProfileInfo", function( funcs, mincount, mintime )
local all, nam, pkgnames, pkgpaths, prof, sort, funs, ttim, tsto,
otim, osto, i, tmp, str, v3, v5, pkg, pi;
all:= Concatenation( PROFILED_FUNCTIONS,
PREV_PROFILED_FUNCTIONS );
nam:= Concatenation( PROFILED_FUNCTIONS_NAMES,
PREV_PROFILED_FUNCTIONS_NAMES );
if funcs = "all" then
funcs:= all;
fi;
# (Similar code is in `app/methods.g' of the `Browse' package.)
pkgnames:= ShallowCopy( RecNames( GAPInfo.PackagesLoaded ) );
pkgpaths:= List( pkgnames, nam -> GAPInfo.PackagesLoaded.( nam )[1] );
pkgnames:= List( pkgnames, nam -> GAPInfo.PackagesLoaded.( nam )[3] );
Append( pkgnames, List( GAPInfo.RootPaths, x -> "GAP" ) );
Append( pkgpaths, GAPInfo.RootPaths );
Add( pkgnames, "GAP" );
Add( pkgpaths, "GAPROOT/" ); # used for compiled functions in lib
prof:= [];
sort:= [];
funs:= [];
ttim:= 0;
tsto:= 0;
otim:= 0;
osto:= 0;
for i in [ 1 .. Length( all ) ] do
tmp:= PROF_FUNC( all[i] );
if ( mincount <= tmp[1] or mintime <= tmp[2] ) and all[i] in funcs then
if IsString( nam[i] ) then
str:= nam[i];
else
str:= Concatenation( nam[i] );
fi;
v3:= tmp[2] - tmp[3];
if v3 < 0 then
v3:= 0;
fi;
v5:= tmp[4] - tmp[5];
if v5 < 0 then
v5:= 0;
fi;
pkg:= FilenameFunc( all[i] );
if pkg <> fail then
pkg:= PositionProperty( pkgpaths,
path -> Length( path ) < Length( pkg )
and pkg{ [ 1 .. Length( path ) ] } = path );
fi;
if pkg <> fail then
pkg:= pkgnames[ pkg ];
elif IsOperation( all[i] ) then
pkg:= "(oprt.)";
else
pkg:= "";
fi;
Add( prof, [ tmp[1], tmp[3], v3, tmp[5], v5, pkg, str ] );
Add( funs, all[i] );
Add( sort, tmp[2] );
else
otim:= otim + tmp[3];
osto:= osto + tmp[5];
fi;
ttim:= ttim + tmp[3];
tsto:= tsto + tmp[5];
od;
# sort functions according to total time spent
pi:= Sortex( sort );
prof:= Permuted( prof, pi );
funs:= Permuted( funs, pi );
return rec( prof:= prof, ttim:= ttim, tsto:= tsto,
funs:= funs, otim:= otim, osto:= osto,
denom:= [ 1, 1, 1, 1024, 1024, 1, 1 ],
widths:= [ 7, 7, 7, 7, 7, -7, -1 ],
labelsCol:= [ " count", "self/ms", "chld/ms", "stor/kb",
"chld/kb", "package", "function" ],
sepCol:= " " );
end );
#############################################################################
##
#F DisplayProfile( [<functions>][,][<mincount>, <mintime>] )
#V GAPInfo.ProfileThreshold
##
## <#GAPDoc Label="DisplayProfile">
## <ManSection>
## <Func Name="DisplayProfile" Arg="[functions][,][mincount, mintime]"/>
## <Var Name="GAPInfo.ProfileThreshold"/>
##
## <Description>
## Called without arguments, <Ref Func="DisplayProfile"/> displays the
## profile information for profiled operations, methods and functions.
## If an argument <A>functions</A> is given, only profile information for
## the functions in the list <A>functions</A> is shown.
## If two integer values <A>mincount</A>, <A>mintime</A> are given as
## arguments then the output is restricted to those functions that were
## called at least <A>mincount</A> times or for which the total time spent
## (see below) was at least <A>mintime</A> milliseconds.
## The defaults for <A>mincount</A> and <A>mintime</A> are the entries of
## the list stored in the global variable
## <Ref Var="GAPInfo.ProfileThreshold"/>.
## <P/>
## The default value of <Ref Var="GAPInfo.ProfileThreshold"/> is
## <C>[ 10000, 30 ]</C>.
## <P/>
## Profile information is displayed in a list of lines for all functions
## (including operations and methods) which are profiled.
## For each function,
## <Q>count</Q> gives the number of times the function has been called.
## <Q>self/ms</Q> gives the time (in milliseconds) spent in the function
## itself,
## <Q>chld/ms</Q> the time (in milliseconds) spent in profiled functions
## called from within this function,
## <Q>stor/kb</Q> the amount of storage (in kilobytes) allocated by the
## function itself,
## <Q>chld/kb</Q> the amount of storage (in kilobytes) allocated by
## profiled functions called from within this function, and
## <Q>package</Q> the name of the &GAP; package to which the function
## belongs; the entry <Q>GAP</Q> in this column means that the function
## belongs to the &GAP; library, the entry <Q>(oprt.)</Q> means that the
## function is an operation (which may belong to several packages),
## and an empty entry means that <Ref Func="FilenameFunc"/> cannot
## determine in which file the function is defined.
## <P/>
## The list is sorted according to the total time spent in the functions,
## that is the sum of the values in the columns
## <Q>self/ms</Q> and <Q>chld/ms</Q>.
## <P/>
## At the end of the list, two lines are printed that show the total time
## used and the total memory allocated by the profiled functions not shown
## in the list (label <C>OTHER</C>)
## and by all profiled functions (label <C>TOTAL</C>), respectively.
## <P/>
## An interactive variant of <Ref Func="DisplayProfile"/> is the function
## <Ref Func="BrowseProfile" BookName="browse"/> that is provided by the
## &GAP; package <Package>Browse</Package>.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
GAPInfo.ProfileThreshold:=[10000,30]; # cnt, time
BIND_GLOBAL("DisplayProfile",function( arg )
local i, funcs, mincount, mintime, prof, w, n, s, j, k, line, str, denom,
qotim, qosto;
# stop profiling of functions needed below
for i in PROFILED_FUNCTIONS do
UNPROFILE_FUNC(i);
od;
# unravel the arguments
if 0 = Length(arg) then
funcs:= "all";
mincount:= GAPInfo.ProfileThreshold[1];
mintime:= GAPInfo.ProfileThreshold[2];
elif Length( arg ) = 1 and IsList( arg[1] ) then
funcs:= arg[1];
mincount:= GAPInfo.ProfileThreshold[1];
mintime:= GAPInfo.ProfileThreshold[2];
elif Length( arg ) = 2 and IsInt( arg[1] ) and IsInt( arg[2] ) then
funcs:= "all";
mincount:= arg[1];
mintime:= arg[2];
elif Length( arg ) = 3 and IsList( arg[1] ) and IsInt( arg[2] )
and IsInt( arg[3] ) then
funcs:= arg[1];
mincount:= arg[2];
mintime:= arg[3];
elif ForAll( arg, IsFunction ) then
funcs:= arg;
mincount:= GAPInfo.ProfileThreshold[1];
mintime:= GAPInfo.ProfileThreshold[2];
else
# Start profiling again.
for i in PROFILED_FUNCTIONS do
PROFILE_FUNC( i );
od;
Error(
"usage: DisplayProfile( [<functions>][,][<mincount>, <mintime>] )" );
fi;
prof:= ProfileInfo( funcs, mincount, mintime );
# set width and names
w:= prof.widths;
n:= prof.labelsCol;
s:= prof.sepCol;
# use screen size for the name
j := 0;
k:= Length( w );
for i in [ 1 .. k ] do
if i <> k then
j := j + AbsInt(w[i]) + Length(s);
fi;
od;
if w[k] < 0 then
w[k] := - AbsInt( SizeScreen()[1] - j - Length(s) -2);
else
w[k] := AbsInt( SizeScreen()[1] - j - Length(s)-2 );
fi;
# print a nice header
line := "";
for j in [ 1 .. k ] do
if j <> 1 then
Append( line, s );
fi;
str := String( n[j], w[j] );
if Length(str) > AbsInt(w[j]) then
str := str{[1..AbsInt(w[j])-1]};
Add( str, '*' );
fi;
Append( line, str );
od;
Print( line, "\n" );
# print profile
denom:= prof.denom;
for i in prof.prof do
line := "";
for j in [ 1 .. k ] do
if j <> 1 then
Append( line, s );
fi;
if denom[j] <> 1 then
str:= String( QuoInt( i[j], denom[j] ), w[j] );
else
str:= String( i[j], w[j] );
fi;
if Length(str) > AbsInt(w[j]) then
str := str{[1..AbsInt(w[j])-1]};
Add( str, '*' );
fi;
Append( line, str );
od;
Print( line, "\n" );
od;
# print other
qotim:= QuoInt( prof.otim, denom[2] );
qosto:= QuoInt( prof.osto, denom[4] );
if 0 < qotim or 0 < qosto then
line := "";
for j in [ 1 .. k ] do
if j <> 1 then
Append( line, s );
fi;
if j = 2 then
str := String( qotim, w[j] );
elif j = 4 then
str := String( qosto, w[j] );
elif j = k then
str := String( "OTHER", w[j] );
else
str := String( " ", w[j] );
fi;
if Length(str) > AbsInt(w[j]) then
str := str{[1..AbsInt(w[j])-1]};
Add( str, '*' );
fi;
Append( line, str );
od;
Print( line, "\n" );
fi;
# print total
line := "";
for j in [ 1 .. k ] do
if j <> 1 then
Append( line, s );
fi;
if j = 2 then
str := String( prof.ttim, w[j] );
elif j = 4 then
str := String( QuoInt( prof.tsto, 1024 ), w[j] );
elif j = k then
str := String( "TOTAL", w[j] );
else
str := String( " ", w[j] );
fi;
if Length(str) > AbsInt(w[j]) then
str := str{[1..AbsInt(w[j])-1]};
Add( str, '*' );
fi;
Append( line, str );
od;
Print( line, "\n" );
# start profiling of functions needed above
for i in PROFILED_FUNCTIONS do
PROFILE_FUNC(i);
od;
end);
#############################################################################
##
#F DisplayProfileSummaryForPackages( [<functions>][,]
#F [<mincount>, <mintime>][,][<mode>] )
##
BIND_GLOBAL( "DisplayProfileSummaryForPackages", function( arg )
local i, modes, funcs, mincount, mintime, mode, prof, n, pkgpos, timepos,
storpos, pkgnames, sumtime, sumstor, denom, pkg, pos, range, sep,
widths;
# Stop profiling of functions needed below.
for i in PROFILED_FUNCTIONS do
UNPROFILE_FUNC( i );
od;
modes:= [ "time", "stor", "name", "Name" ];
# Unravel the arguments.
funcs:= "all";
mincount:= GAPInfo.ProfileThreshold[1];
mintime:= GAPInfo.ProfileThreshold[2];
mode:= "time";
if 0 = Length(arg) then
# Keep these defaults.
elif Length( arg ) = 1 and arg[1] in modes then
mode:= arg[1];
elif Length( arg ) = 1 and IsList( arg[1] )
and ForAll( arg[1], IsFunction ) then
funcs:= arg[1];
elif Length( arg ) = 2 and IsInt( arg[1] ) and IsInt( arg[2] ) then
mincount:= arg[1];
mintime:= arg[2];
elif Length( arg ) = 2 and IsList( arg[1] )
and ForAll( arg[1], IsFunction )
and arg[2] in modes then
funcs:= arg[1];
mode:= arg[2];
elif Length( arg ) = 3 and IsList( arg[1] )
and ForAll( arg[1], IsFunction )
and IsInt( arg[2] ) and IsInt( arg[3] ) then
funcs:= arg[1];
mincount:= arg[2];
mintime:= arg[3];
elif Length( arg ) = 3 and IsInt( arg[1] ) and IsInt( arg[2] )
and arg[3] in modes then
mincount:= arg[1];
mintime:= arg[2];
mode:= arg[3];
elif Length( arg ) = 4 and IsList( arg[1] )
and ForAll( arg[1], IsFunction )
and IsInt( arg[2] ) and IsInt( arg[3] )
and arg[4] in modes then
funcs:= arg[1];
mincount:= arg[2];
mintime:= arg[3];
mode:= arg[4];
elif ForAll( arg, IsFunction ) then
funcs:= arg;
else
# Start profiling again.
for i in PROFILED_FUNCTIONS do
PROFILE_FUNC( i );
od;
Error( "usage: DisplayProfileSummaryForPackages( ",
"[<functions>][,][<mincount>, <mintime>][,][<mode>] )" );
fi;
# Collect the data.
prof:= ProfileInfo( funcs, mincount, mintime );
# Initialize values.
n:= prof.labelsCol;
pkgpos:= Position( n, "package" );
timepos:= Position( n, "self/ms" );
storpos:= Position( n, "stor/kb" );
pkgnames:= [ "GAP" ];
sumtime:= [ 0 ];
sumstor:= [ 0 ];
# Distribute values.
denom:= prof.denom;
for i in prof.prof do
pkg:= i[ pkgpos ];
if pkg = "GAP" or pkg = "" then
pos:= 1;
else
pos:= Position( pkgnames, pkg );
if pos = fail then
Add( pkgnames, pkg );
pos:= Length( pkgnames );
sumtime[ pos ]:= 0;
sumstor[ pos ]:= 0;
fi;
fi;
sumtime[ pos ]:= sumtime[ pos ] + i[ timepos ];
sumstor[ pos ]:= sumstor[ pos ] + i[ storpos ];
od;
sumtime:= List( sumtime, x -> QuoInt( x, denom[ timepos ] ) );
sumstor:= List( sumstor, x -> QuoInt( x, denom[ storpos ] ) );
# Sort data.
range:= [ 1 .. Length( pkgnames ) ];
if mode = "time" then
SortParallel( - sumtime, range );
elif mode = "stor" then
SortParallel( - sumstor, range );
elif mode = "name" then
SortParallel( List( pkgnames, LowercaseString ), range );
else # "Name"
SortParallel( ShallowCopy( pkgnames ), range );
fi;
# Print profile information.
sep:= " ";
widths:= [ - Maximum( Length( "package" ),
Maximum( List( pkgnames, Length ) ) ),
Maximum( Length( "self/ms" ),
Length( String( Maximum( sumtime ) ) ) ),
Maximum( Length( "stor/kb" ),
Length( String( Maximum( sumstor ) ) ) ) ];
Print( "Profile information by packages:\n",
sep, String( "package", widths[1] ),
sep, String( "self/ms", widths[2] ),
sep, String( "stor/kb", widths[3] ), "\n" );
for i in range do
Print( sep, String( pkgnames[i], widths[1] ),
sep, String( sumtime[i], widths[2] ),
sep, String( sumstor[i], widths[3] ), "\n" );
od;
# Start profiling of functions needed above.
for i in PROFILED_FUNCTIONS do
PROFILE_FUNC( i );
od;
end );
#############################################################################
##
#F ProfileFunctions( <funcs> )
##
## <#GAPDoc Label="ProfileFunctions">
## <ManSection>
## <Func Name="ProfileFunctions" Arg='funcs'/>
##
## <Description>
## starts profiling for all function in the list <A>funcs</A>.
## You can use <Ref Func="ProfileGlobalFunctions"/>
## to turn profiling on for all globally declared functions simultaneously.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
BIND_GLOBAL("ProfileFunctions",function( arg )
local funcs, names, hands, pi, OLD_PROFILED_FUNCTIONS,
OLD_PROFILED_FUNCTIONS_NAMES,
i, phands, pi2, j, x, y,
f;
if Length(arg)=2 and IsList(arg[1]) and IsList(arg[2]) then
funcs:=arg[1];
names:=arg[2];
else
if IsFunction(arg[1]) then
funcs:=arg;
else
funcs:=arg[1];
fi;
names:=List(funcs,NameFunction);
fi;
Append(PROFILED_FUNCTIONS, funcs);
Append(PROFILED_FUNCTIONS_NAMES, names);
hands := List(PROFILED_FUNCTIONS, HANDLE_OBJ);
pi := Sortex(hands);
OLD_PROFILED_FUNCTIONS := Permuted(PROFILED_FUNCTIONS, pi);
OLD_PROFILED_FUNCTIONS_NAMES := Permuted(PROFILED_FUNCTIONS_NAMES, pi);
PROFILED_FUNCTIONS := [OLD_PROFILED_FUNCTIONS[1]];
PROFILED_FUNCTIONS_NAMES := [OLD_PROFILED_FUNCTIONS_NAMES[1]];
for i in [2..Length(OLD_PROFILED_FUNCTIONS)] do
if hands[i-1] <> hands[i] then
Add(PROFILED_FUNCTIONS, OLD_PROFILED_FUNCTIONS[i]);
Add(PROFILED_FUNCTIONS_NAMES, OLD_PROFILED_FUNCTIONS_NAMES[i]);
fi;
od;
hands := List(funcs, HANDLE_OBJ);
Sort(hands);
phands := List(PREV_PROFILED_FUNCTIONS, HANDLE_OBJ);
pi2 := Sortex(phands)^-1;
i := 1;
j := 1;
while i <= Length(hands) and j <= Length(phands) do
x := hands[i];
y := phands[j];
if x < y then
i := i+1;
elif y < x then
j := j+1;
else
Unbind(PREV_PROFILED_FUNCTIONS[j^pi2]);
Unbind(PREV_PROFILED_FUNCTIONS_NAMES[j^pi2]);
j := j+1;
fi;
od;
PREV_PROFILED_FUNCTIONS :=Compacted(PREV_PROFILED_FUNCTIONS);
PREV_PROFILED_FUNCTIONS_NAMES:=Compacted(PREV_PROFILED_FUNCTIONS_NAMES);
for f in funcs do
PROFILE_FUNC(f);
CLEAR_PROFILE_FUNC(f);
od;
end);
#############################################################################
##
#F UnprofileFunctions( <funcs> ) . . . . . . . . . . . . unprofile functions
##
## <#GAPDoc Label="UnprofileFunctions">
## <ManSection>
## <Func Name="UnprofileFunctions" Arg='funcs'/>
##
## <Description>
## stops profiling for all function in the list <A>funcs</A>.
## Recorded information is still kept, so you can display it even after
## turning the profiling off.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
BIND_GLOBAL("UnprofileFunctions",function( arg )
local list, f, pos;
if Length(arg)=1 and not IsFunction(arg[1]) then
list:=arg[1];
else
list:=arg;
fi;
for f in list do
pos := Position( PROFILED_FUNCTIONS, f );
if pos <> fail then
Add(PREV_PROFILED_FUNCTIONS,PROFILED_FUNCTIONS[pos]);
Add(PREV_PROFILED_FUNCTIONS_NAMES,PROFILED_FUNCTIONS_NAMES[pos]);
Unbind( PROFILED_FUNCTIONS[pos] );
Unbind( PROFILED_FUNCTIONS_NAMES[pos] );
UNPROFILE_FUNC(f);
fi;
od;
PROFILED_FUNCTIONS := Compacted(PROFILED_FUNCTIONS);
PROFILED_FUNCTIONS_NAMES := Compacted(PROFILED_FUNCTIONS_NAMES);
end);
#############################################################################
##
#V PROFILED_METHODS . . . . . . . . . . . . . . . list of profiled methods
##
## <ManSection>
## <Var Name="PROFILED_METHODS"/>
##
## <Description>
## </Description>
## </ManSection>
##
PROFILED_METHODS := [];
#############################################################################
##
#F ProfileMethods( <ops> ) . . . . . . . . . . . . . start profiling methods
##
## <#GAPDoc Label="ProfileMethods">
## <ManSection>
## <Func Name="ProfileMethods" Arg='ops'/>
##
## <Description>
## starts profiling of the methods for all operations in the list
## <A>ops</A>.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
BIND_GLOBAL("ProfileMethods",function( arg )
local funcs, names, op, name, i, meth, j, hands,
NEW_PROFILED_METHODS;
arg := Flat(arg);
funcs := [];
names := [];
for op in arg do
name := NameFunction(op);
for i in [ 0 .. 6 ] do
meth := METHODS_OPERATION( op, i );
if meth <> fail then
for j in [ 0, (4+i) .. Length(meth)-(4+i) ] do
Add( funcs, meth[j+(2+i)] );
if name = meth[j+(4+i)] then
Add( names, [ "Meth(", name, ")" ] );
else
Add( names, meth[j+(4+i)] );
fi;
od;
fi;
od;
od;
ProfileFunctions( funcs,names );
Append(PROFILED_METHODS, funcs);
hands := List(PROFILED_METHODS, HANDLE_OBJ);
SortParallel(hands, PROFILED_METHODS);
NEW_PROFILED_METHODS := [PROFILED_METHODS[1]];
for i in [2..Length(hands)] do
if hands[i] <> hands[i-1] then
Add(NEW_PROFILED_METHODS, PROFILED_METHODS[i]);
fi;
od;
PROFILED_METHODS := NEW_PROFILED_METHODS;
end);
#############################################################################
##
#F UnprofileMethods( <ops> ) . . . . . . . . . . . . stop profiling methods
##
## <#GAPDoc Label="UnprofileMethods">
## <ManSection>
## <Func Name="UnprofileMethods" Arg='ops'/>
##
## <Description>
## stops profiling of the methods for all operations in the list <A>ops</A>.
## Recorded information is still kept, so you can display it even after
## turning the profiling off.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
BIND_GLOBAL("UnprofileMethods",function( arg )
local funcs, op, i, meth, j;
arg := Flat(arg);
funcs := [];
for op in arg do
for i in [ 0 .. 6 ] do
meth := METHODS_OPERATION( op, i );
if meth <> fail then
for j in [ 0, (4+i) .. Length(meth)-(4+i) ] do
Add( funcs, meth[j+(2+i)] );
od;
fi;
od;
od;
UnprofileFunctions(funcs);
end);
#############################################################################
##
#F ProfileOperations( [<true/false>] ) . . . . . . . . . start/stop/display
##
## <#GAPDoc Label="ProfileOperations">
## <ManSection>
## <Func Name="ProfileOperations" Arg='[bool]'/>
##
## <Description>
## Called with argument <K>true</K>,
## <Ref Func="ProfileOperations"/>
## starts profiling of all operations.
## Old profile information for all operations is cleared.
## A function call with the argument <K>false</K>
## stops profiling of all operations.
## Recorded information is still kept,
## so you can display it even after turning the profiling off.
## <P/>
## When <Ref Func="ProfileOperations"/> is called without argument,
## profile information for all operations is displayed
## (see <Ref Func="DisplayProfile"/>).
## </Description>
## </ManSection>
## <#/GAPDoc>
##
PROFILED_OPERATIONS := [];
BIND_GLOBAL("ProfileOperationsOn",function()
local prof;
# Note that the list of operations may have grown since the last call.
prof := OPERATIONS{[ 1, 3 .. Length(OPERATIONS)-1 ]};
PROFILED_OPERATIONS := prof;
UnprofileMethods(prof);
ProfileFunctions( prof );
end);
BIND_GLOBAL("ProfileOperationsOff",function()
UnprofileFunctions(PROFILED_OPERATIONS);
UnprofileMethods(PROFILED_OPERATIONS);
# methods for the kernel functions
UnprofileMethods(\+,\-,\*,\/,\^,\mod,\<,\=,\in,
\.,\.\:\=,IsBound\.,Unbind\.,
\[\],\[\]\:\=,IsBound\[\],Unbind\[\]);
#T Why? These operations are listed in PFOFILED_OPERATIONS!
end);
BIND_GLOBAL("ProfileOperations",function( arg )
if 0 = Length(arg) then
DisplayProfile(PROFILED_OPERATIONS);
elif arg[1] = true then
ProfileOperationsOn();
elif arg[1] = false then
ProfileOperationsOff();
else
Print( "usage: ProfileOperations( [<true/false>] )" );
fi;
end);
#############################################################################
##
#F ProfileOperationsAndMethods( [<true/false>] ) . . . . start/stop/display
##
## <#GAPDoc Label="ProfileOperationsAndMethods">
## <ManSection>
## <Func Name="ProfileOperationsAndMethods" Arg='[bool]'/>
##
## <Description>
## Called with argument <K>true</K>,
## <Ref Func="ProfileOperationsAndMethods"/>
## starts profiling of all operations and their methods.
## Old profile information for these functions is cleared.
## A function call with the argument <K>false</K>
## stops profiling of all operations and their methods.
## Recorded information is still kept,
## so you can display it even after turning the profiling off.
## <P/>
## When <Ref Func="ProfileOperationsAndMethods"/> is called without
## argument,
## profile information for all operations and their methods is displayed,
## see <Ref Func="DisplayProfile"/>.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
BIND_GLOBAL("ProfileOperationsAndMethodsOn",function()
local prof;
prof := OPERATIONS{[ 1, 3 .. Length(OPERATIONS)-1 ]};
PROFILED_OPERATIONS := prof;
ProfileFunctions( prof );
ProfileMethods(prof);
# methods for the kernel functions
ProfileMethods(\+,\-,\*,\/,\^,\mod,\<,\=,\in,
\.,\.\:\=,IsBound\.,Unbind\.,
\[\],\[\]\:\=,IsBound\[\],Unbind\[\]);
#T Why? These operations are listed in PFOFILED_OPERATIONS!
end);
ProfileOperationsAndMethodsOff := ProfileOperationsOff;
BIND_GLOBAL("ProfileOperationsAndMethods",function( arg )
if 0 = Length(arg) then
DisplayProfile(Concatenation(PROFILED_OPERATIONS,PROFILED_METHODS));
elif arg[1] = true then
ProfileOperationsAndMethodsOn();
elif arg[1] = false then
ProfileOperationsAndMethodsOff();
else
Print( "usage: ProfileOperationsAndMethods( [<true/false>] )" );
fi;
end );
#############################################################################
##
#F ProfileGlobalFunctions( [<true/false>] )
##
## <#GAPDoc Label="ProfileGlobalFunctions">
## <ManSection>
## <Func Name="ProfileGlobalFunctions" Arg='[bool]'/>
##
## <Description>
## Called with argument <K>true</K>,
## <Ref Func="ProfileGlobalFunctions"/>
## starts profiling of all functions that have been declared via
## <Ref Func="DeclareGlobalFunction"/>.
## Old profile information for all these functions is cleared.
## A function call with the argument <K>false</K>
## stops profiling of all these functions.
## Recorded information is still kept,
## so you can display it even after turning the profiling off.
## <P/>
## When <Ref Func="ProfileGlobalFunctions"/> is called without argument,
## profile information for all global functions is displayed,
## see <Ref Func="DisplayProfile"/>.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
PROFILED_GLOBAL_FUNCTIONS := [];
BIND_GLOBAL( "ProfileGlobalFunctions", function( arg )
local name, func, funcs;
if 0 = Length(arg) then
DisplayProfile( PROFILED_GLOBAL_FUNCTIONS );
elif arg[1] = true then
PROFILED_GLOBAL_FUNCTIONS := [];
for name in GLOBAL_FUNCTION_NAMES do
if IsBoundGlobal(name) then
func := ValueGlobal(name);
if IsFunction(func) then
Add(PROFILED_GLOBAL_FUNCTIONS, func);
fi;
fi;
od;
ProfileFunctions(PROFILED_GLOBAL_FUNCTIONS);
elif arg[1] = false then
UnprofileFunctions(PROFILED_GLOBAL_FUNCTIONS);
else
Print( "usage: ProfileGlobalFunctions( [<true/false>] )" );
fi;
end);
#############################################################################
##
#F ProfileFunctionsInGlobalVariables()
##
## <ManSection>
## <Func Name="ProfileFunctionsInGlobalVariables" Arg=''/>
##
## <Description>
## </Description>
## </ManSection>
##
PROFILED_GLOBAL_VARIABLE_FUNCTIONS := [];
BIND_GLOBAL( "ProfileFunctionsInGlobalVariables", function( arg )
local name, func, funcs;
if 0 = Length(arg) then
DisplayProfile( PROFILED_GLOBAL_VARIABLE_FUNCTIONS );
elif arg[1] then
PROFILED_GLOBAL_VARIABLE_FUNCTIONS := [];
for name in NamesGVars() do
if IsBoundGlobal(name) then
func := ValueGlobal(name);
if IsFunction(func) then
Add(PROFILED_GLOBAL_VARIABLE_FUNCTIONS, func);
fi;
fi;
od;
ProfileFunctions(PROFILED_GLOBAL_VARIABLE_FUNCTIONS);
else
UnprofileFunctions(PROFILED_GLOBAL_VARIABLE_FUNCTIONS);
PROFILED_GLOBAL_VARIABLE_FUNCTIONS := [];
fi;
end);
#############################################################################
##
#F DisplayCacheStats() . . . . . . . . . . . . . . display cache statistics
##
## <#GAPDoc Label="DisplayCacheStats">
## <ManSection>
## <Func Name="DisplayCacheStats" Arg=''/>
##
## <Description>
## displays statistics about the different caches used by the method
## selection.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
BIND_GLOBAL("DisplayCacheStats",function()
local cache, names, pos, i;
cache := ShallowCopy(OPERS_CACHE_INFO());
Append( cache, [
WITH_HIDDEN_IMPS_FLAGS_CACHE_HIT,
WITH_HIDDEN_IMPS_FLAGS_CACHE_MISS,
WITH_IMPS_FLAGS_CACHE_HIT,
WITH_IMPS_FLAGS_CACHE_MISS,
NEW_TYPE_CACHE_HIT,
NEW_TYPE_CACHE_MISS,
] );
names := [
"AND_FLAGS cache hits",
"AND_FLAGS cache miss",
"AND_FLAGS cache losses",
"Operation L1 cache hits",
"Operation cache misses",
"IS_SUBSET_FLAGS calls",
"IS_SUBSET_FLAGS less trues",
"IS_SUBSET_FLAGS few trues",
"Operation TryNextMethod",
"WITH_HIDDEN_IMPS hits",
"WITH_HIDDEN_IMPS misses",
"WITH_IMPS hits",
"WITH_IMPS misses",
"NEW_TYPE hits",
"NEW_TYPE misses",
];
pos := [ 1, 2, 3, 4, 9, 5, 6, 7, 8, 10, 11, 12, 13, 14, 15 ];
if Length(pos) <> Length(names) then
Error( "<pos> and <names> have different lengths" );
fi;
if Length(pos) <> Length(cache) then
Error( "<pos> and <cache> have different lengths" );
fi;
for i in pos do
Print( String( Concatenation(names[i],":"), -30 ),
String( String(cache[i]), 12 ), "\n" );
od;
end);
#############################################################################
##
#F ClearCacheStats() . . . . . . . . . . . . . . . . clear cache statistics
##
## <#GAPDoc Label="ClearCacheStats">
## <ManSection>
## <Func Name="ClearCacheStats" Arg=''/>
##
## <Description>
## clears all statistics about the different caches used by the method
## selection.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
BIND_GLOBAL("ClearCacheStats",function()
CLEAR_CACHE_INFO();
WITH_HIDDEN_IMPS_FLAGS_CACHE_HIT := 0;
WITH_HIDDEN_IMPS_FLAGS_CACHE_MISS := 0;
WITH_IMPS_FLAGS_CACHE_HIT := 0;
WITH_IMPS_FLAGS_CACHE_MISS := 0;
NEW_TYPE_CACHE_HIT := 0;
NEW_TYPE_CACHE_MISS := 0;
end);
#############################################################################
##
#F START_TEST( <id> ) . . . . . . . . . . . . . . . . . . . start test file
#F STOP_TEST( <file>, <fac> ) . . . . . . . . . . . . . . . stop test file
##
## <#GAPDoc Label="StartStopTest">
## <ManSection>
## <Heading>Starting and stopping test</Heading>
## <Func Name="START_TEST" Arg='id'/>
## <Func Name="STOP_TEST" Arg='file, fac'/>
##
## <Description>
## <Ref Func="START_TEST"/> and <Ref Func="STOP_TEST"/> may be optionally
## used in files that are read via <Ref Func="ReadTest"/>. If used,
## <Ref Func="START_TEST"/> reinitialize the caches and the global
## random number generator, in order to be independent of the reading
## order of several test files. Furthermore, the assertion level
## (see <Ref Func="Assert"/>) is set to <M>2</M> by
## <Ref Func="START_TEST"/> and set back to the previous value in the
## subsequent <Ref Func="STOP_TEST"/> call.
## <P/>
## To use these options, a test file should be started with a line
## <P/>
## <Log><![CDATA[
## gap> START_TEST( "arbitrary identifier string" );
## ]]></Log>
## <P/>
## (Note that the <C>gap> </C> prompt is part of the line!)
## <P/>
## and should be finished with a line
## <P/>
## <Log><![CDATA[
## gap> STOP_TEST( "filename", 10000 );
## ]]></Log>
## <P/>
## Here the string <C>"filename"</C> should give the name of the test file.
## The number is a proportionality factor that is used to output a
## <Q>&GAP;stone</Q> speed ranking after the file has been completely
## processed.
## For the files provided with the distribution this scaling is roughly
## equalized to yield the same numbers as produced by the test file
## <F>tst/combinat.tst</F>.
## <P/>
## Note that the functions in <F>tst/testutil.g</F> temporarily replace
## <Ref Func="STOP_TEST"/> before they call <Ref Func="ReadTest"/>.
## </Description>
## </ManSection>
## <#/GAPDoc>
##
START_TEST := function( name )
FlushCaches();
RANDOM_SEED(1);
Reset(GlobalMersenneTwister, 1);
GASMAN( "collect" );
GAPInfo.TestData.START_TIME := Runtime();
GAPInfo.TestData.START_NAME := name;
GAPInfo.TestData.AssertionLevel:= AssertionLevel();
SetAssertionLevel( 2 );
end;
STOP_TEST := function( file, fac )
local time;
if not IsBound( GAPInfo.TestData.START_TIME ) then
Error( "`STOP_TEST' command without `START_TEST' command for `",
file, "'" );
fi;
time:= Runtime() - GAPInfo.TestData.START_TIME;
Print( GAPInfo.TestData.START_NAME, "\n" );
if time <> 0 and IsInt( fac ) then
Print( "GAP4stones: ", QuoInt( fac, time ), "\n" );
else
Print( "GAP4stones: infinity\n" );
fi;
SetAssertionLevel( GAPInfo.TestData.AssertionLevel );
Unbind( GAPInfo.TestData.AssertionLevel );
Unbind( GAPInfo.TestData.START_TIME );
Unbind( GAPInfo.TestData.START_NAME );
end;
#############################################################################
##
#E
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