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#!/usr/bin/perl
#
#(c) Copyright 2005-2010 VERSION 1.13 April 26, 2010
# Apostolos Syropoulos & R.W.D. Nickalls
# asyropoulos@yahoo.com dick@nickalls.org
#
# This program can be redistributed and/or modified under the terms
# of the LaTeX Project Public License Distributed from CTAN
# archives in directory macros/latex/base/lppl.txt; either
# version 1 of the License, or any later version.
#
package DummyFH;
my $index = 0;
sub TIEHANDLE {
my $class = shift;
my $self= shift;
bless $self, $class;
}
sub READLINE {
my $self = shift;
#shift @$self;
if ($index > $#$self) {
$index = 0;
return undef;
}
else {
return $self->[$index++];
}
}
package main;
use Math::Trig;
our $version_number = "1.13 Apr 26, 2010";
our $commandLineArgs = join(" ", @ARGV);
our $command = "";
our $curr_in_file = "";
our %PointTable = ();
our %VarTable = ();
our %ConstTable = ();
our $no_errors = 0;
our $xunits = "1pt";
our $yunits = "1pt";
our $units = "pt|pc|in|bp|cm|mm|dd|cc|sp";
our $defaultsymbol = "\$\\bullet\$";
our $defaultLFradius = 0;
use constant PI => atan2(1,1)*4;
use constant R2D => 180 / PI;
use constant D2R => PI / 180;
our $arrowLength = 2;
our $arrowLengthUnits = "mm";
our $arrowAngleB = 30;
our $arrowAngleC = 40;
our %DimOfPoint = ();
our $GlobalDimOfPoints = 0;
our @Macros = ();
our $LineThickness = 0.4;
sub mpp {
my $in_line;
chomp($in_line = shift);
my $LC = shift;
my $out_line = $in_line;
my $macro_name = "";
my @macro_param = ();
my $macro_code = "";
if ($in_line =~ s/^%def\s*//) {
if ($in_line =~ s/^(\w+)\s*//){
$macro_name = $1;
}
else {
PrintErrorMessage("No macro name has been found",$LC);
return ""
}
if ($in_line =~ s/^\(\s*//) {
# do nothing
}
else {
PrintErrorMessage("No left parenthesis after macro name has been found",$LC);
return "";
}
if ($in_line =~ s/^\)//) {
# Macro has no parameters!
}
else {
MACROS: while (1) {
if ($in_line =~ s/^(\w+)\s*//) {
push (@macro_param, $1);
}
else {
PrintErrorMessage("No macro parameter name has been found",$LC);
return "";
}
if ($in_line =~ s/^,\s*//) {
next MACROS;
}
else {
last MACROS;
}
}
if ($in_line =~ s/^\)//) {
# do nothing!
}
else {
PrintErrorMessage("No closing parenthesis after macro parameters",$LC);
return "";
}
}
$in_line =~ s/([^%]+)(%.*)/$1/;
$macro_code = $in_line;
push ( @Macros , { 'macro_name' => $macro_name,
'macro_code' => $macro_code,
'macro_param' => \@macro_param });
return $out_line;
}
elsif ($in_line =~ s/^%undef\s*//) {
if ($in_line =~ s/^(\w+)//) {
my $undef_macro = $1;
for(my $i = $#Macros; $i >= 0; $i--) {
if ($Macros[$i]->{'macro_name'} eq $undef_macro) {
splice(@Macros,$i,1);
}
}
}
return $out_line;
}
elsif ($in_line =~ s/^\s*%//) {
return $out_line;
}
else {
my $comment = $2 if $in_line =~ s/([^%]+)(%.+)/$1/;
EXPANSIONLOOP: while () {
my $org_in_line = $in_line;
for(my $i = $#Macros; $i >= 0; $i--) {
my $macro_name = $Macros[$i]->{'macro_name'};
if ($in_line =~ /&$macro_name\b/) { ############################
my $num_of_macro_args = @{$Macros[$i]->{'macro_param'}};
if ( $num_of_macro_args > 0 ) {
# Macro with parameters
my $pattern = "&$macro_name\\(";
foreach my $p ( 1..$num_of_macro_args ) {
my $comma = ($p == $num_of_macro_args) ? "\\s*" : "\\s*,\\s*";
$pattern .= "\\s*[^\\s\\)]+$comma";
}
$pattern .= "\\)";
while($in_line =~ /&$macro_name\b/) {
if ($in_line =~ /$pattern/) {
my $before = $`;
my $after = $';
my $match = $&;
my $new_code = $Macros[$i]->{'macro_code'};
$match =~ s/^&$macro_name\(\s*//;
$match =~ s/\)$//;
foreach my $arg ( 0..($num_of_macro_args - 1) ) {
my $old = $Macros[$i]->{'macro_param'}->[$arg];
my $comma = ($arg == ($num_of_macro_args - 1)) ? "" : ",";
$match =~ s/^\s*([^\s,]+)\s*$comma//;
my $new = $1;
# 'g': Parameter may occur several times
# in $new_code.
# '\b': Substitute only whole words
# not x in xA
$new_code =~ s/\b$old\b/$new/g;
}
$in_line = "$before$new_code$after";
}
else {
PrintErrorMessage("Usage of macro &$macro_name does not " .
"match its definition", $LC);
return "";
}
}
}
else {
# Macro without parameters
my $replacement = $Macros[$i]->{'macro_code'};
# '\b': Substitute only whole words
# not x in xA
$in_line =~ s/&$macro_name\b/$replacement/g;
}
}
}
last EXPANSIONLOOP if ( $org_in_line eq $in_line );
}
return "$in_line$comment";
}
}
sub PrintErrorMessage {
my $errormessage = shift;
my $error_line = shift;
my ($l,$A);
$l = 1+length($command)-length;
$A = substr($command,0,$l);
$l += 7 +length($error_line);
for my $fh (STDOUT, LOG) {
print $fh "$curr_in_file", "Line $error_line: $A\n";
print $fh " " x $l ,$_,"***Error: $errormessage\n";
}
if ($comments_on) { #print to output file file
print OUT "%% *** $curr_in_file", "Line $error_line: $A\n";
print OUT "%% *** "," " x $l ,$_,"%% ... Error: $errormessage\n";
}
$no_errors++;
}
sub PrintWarningMessage {
my $warningMessage = shift;
my $warning_line = shift;
my ($l,$A);
$l = 1+length($command)-length;
$A = substr($command,0,$l);
$l += 7 +length($warning_line);
for my $fh (STDOUT, LOG) {
print $fh "$curr_in_file", "Line $warning_line: $A\n";
print $fh " " x $l ,$_,"***Warning: $warningMessage\n";
}
if ($comments_on) { #print to output file file
print OUT "%% *** $curr_in_file", "Line $warning_line: $A\n";
print OUT "%% *** "," " x $l ,$_,"%% ... Warning: $warningMessage\n";
}
}
sub PrintFatalError {
my $FatalMessage = shift;
my $fatal_line = shift;
my ($l,$A);
$l = 1+length($command)-length;
$A = substr($command,0,$l);
$l += 7 +length($fatal_line);
die "$curr_in_file", "Line $fatal_line: $A\n" .
(" " x $l) . $_ . "***Fatal Error: $FatalMessage\n";
}
sub chk_lparen {
my $token = $_[0];
my $lc = $_[1];
s/\s*//;
if (/^[^\(]/) {
PrintErrorMessage("Missing ( after $token",$lc);
}
else {
s/^\(\s*//;
}
}
sub chk_rparen {
my $token = $_[0];
my $lc = $_[1];
s/\s*//;
if (s/^\)//) {
s/\s*//;
}
else {
PrintErrorMessage("Missing ) after $token",$lc);
}
}
sub chk_lcb {
my $token = $_[0];
my $lc = $_[1];
s/\s*//;
if ($_ !~ /^\{/) {
PrintErrorMessage("Missing { after $token",$lc);
}
else {
s/^{\s*//;
}
}
sub chk_rcb {
my $token = $_[0];
my $lc = $_[1];
if ($_ !~ /^\s*\}/) {
PrintErrorMessage("Missing } after $token",$lc);
}
else {
s/^\s*}\s*//;
}
}
sub chk_lsb {
my $token = $_[0];
my $lc = $_[1];
s/\s*//;
if ($_ !~ /^\[/) {
PrintErrorMessage("Missing [ after $token",$lc);
}
else {
s/^\[\s*//;
}
}
sub chk_rsb {
my $token = $_[0];
my $lc = $_[1];
s/\s*//;
if ($_ !~ /^\]/) {
PrintErrorMessage("Missing ] after $token",$lc);
}
else {
s/^\]\s*//;
}
}
sub chk_comma {
my $lc = $_[0];
s/\s*//;
if (/^[^,]/) {
PrintErrorMessage("Did not find expected comma",$lc);
}
else {
s/^,\s*//;
}
}
sub chk_comment {
my $lc = $_[0];
s/\s*//;
if (/^%/) {
# do nothing!
}
elsif (/^[^%]/) {
PrintWarningMessage("Trailing text is ignored",$lc);
}
}
sub print_headers
{
my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst) = localtime;
$year+=1900;
$mon+=1;
$now_string = "$year/" . ($mon>9 ? "$mon/" : "0$mon/") .
($mday>9 ? "$mday " : "0$mday ") .
($hour>9 ? "$hour:" : "0$hour:") .
($min>9 ? "$min:" : "0$min:") .
($sec>9 ? "$sec" : "0$sec");
print OUT "%* -----------------------------------------------\n";
print OUT "%* mathspic (Perl version $version_number)\n";
print OUT "%* A filter program for use with PiCTeX\n";
print OUT "%* Copyright (c) 2005-2010 A Syropoulos & RWD Nickalls \n";
print OUT "%* Command line: $0 $commandLineArgs\n";
print OUT "%* Input filename : $source_file\n";
print OUT "%* Output filename: $out_file\n";
print OUT "%* Date & time: $now_string\n";
print OUT "%* -----------------------------------------------\n";
#
print LOG "----\n";
print LOG "$now_string\n";
print LOG "mathspic (Perl version $version_number)\n";
print LOG "Copyright (c) 2005-2010 A Syropoulos & RWD Nickalls \n";
print LOG "Input file = $source_file\n";
print LOG "Output file = $out_file\n";
print LOG "Log file = $log_file\n";
print LOG "----\n";
}
sub get_point {
my ($lc) = $_[0];
my ($PointName);
if (s/^([^\W\d_]\d{0,4})\s*//i) { #point name
$PointName = $1;
if (!exists($PointTable{lc($PointName)})) {
PrintErrorMessage("Undefined point $PointName",$lc);
return "_undef_";
}
else {
return lc($PointName);
}
}
else {
PrintErrorMessage("Point name expected",$lc);
return "_undef_";
}
}
sub perpendicular {
my ($xP, $yP, $xA, $yA, $xB, $yB) = @_;
my ($xF, $yF, $deltax, $deltay, $m1, $m2, $c1, $c2, $factor);
$deltax = $xA - $xB;
return ($xA, $yP) if abs($deltax) < 0.0000001;
$deltay = $yA - $yB;
return ($xP, $yA) if abs($deltay) < 0.0000001;
$m1 = $deltay / $deltax;
eval { $m2 = (-1) / $m1;};
PrintFatalError("Division by zero",$lc) if $@;
$c1 = $yA - $m1 * $xA;
$c2 = $yP - $m2 * $xP;
eval { $factor = 1 / ($m1 - $m2)};
PrintFatalError("Division by zero",$lc) if $@;
return (($c2 - $c1) * $factor, ($m1 * $c2 - $m2 * $c1) * $factor);
}
sub Length {
my ($xA, $yA, $xB, $yB)=@_;
return sqrt(($xB - $xA)**2 + ($yB - $yA)**2);
}
sub triangleArea {
my ($xA, $yA, $xB, $yB, $xC, $yC)=@_;
my ($lenAB, $lenBC, $lenCA, $s);
$lenAB = Length($xA,$yA,$xB,$yB);
$lenBC = Length($xB,$yB,$xC,$yC);
$lenCA = Length($xC,$yC,$xA,$yA);
$s = ($lenAB + $lenBC + $lenCA) / 2;
return sqrt($s * ($s - $lenAB)*($s - $lenBC)*($s - $lenCA));
}
sub pointOnLine {
my ($xA, $yA, $xB, $yB, $dist)=@_;
my ($deltax, $deltay, $xPol, $yPol);
$deltax = $xB - $xA;
$deltay = $yB - $yA;
$xPol = $xA + ($dist * $deltax / &Length($xA,$yA,$xB,$yB));
$yPol = $yA + ($dist * $deltay / &Length($xA,$yA,$xB,$yB));
return ($xPol, $yPol);
}
sub circumCircleCenter {
my ($xA, $yA, $xB, $yB, $xC, $yC, $lc)=@_;
my ($deltay12, $deltax12, $xs12, $ys12);
my ($deltay23, $deltax23, $xs23, $ys23);
my ($xcc, $ycc);
my ($m23, $mr23, $c23, $m12, $mr12, $c12);
my ($sideA, $sideB, $sideC, $a, $radius);
if (abs(triangleArea($xA, $yA, $xB, $yB, $xC, $yC)) < 0.0000001)
{
PrintErrorMessage("Area of triangle is zero!",$lc);
return (0,0,0);
}
$deltay12 = $yB - $yA;
$deltax12 = $xB - $xA;
$xs12 = $xA + $deltax12 / 2;
$ys12 = $yA + $deltay12 / 2;
#
$deltay23 = $yC - $yB;
$deltax23 = $xC - $xB;
$xs23 = $xB + $deltax23 / 2;
$ys23 = $yB + $deltay23 / 2;
#
CCXYLINE:{
if (abs($deltay12) < 0.0000001)
{
$xcc = $xs12;
if (abs($deltax23) < 0.0000001)
{
$ycc = $ys23;
last CCXYLINE;
}
else
{
$m23 = $deltay23 / $deltax23;
$mr23 = -1 / $m23;
$c23 = $ys23 - $mr23 * $xs23;
$ycc = $mr23 * $xs12 + $c23;
last CCXYLINE;
}
}
if (abs($deltax12) < 0.0000001)
{
$ycc = $ys12;
if (abs($deltay23) < 0.0000001)
{
$xcc = $xs23;
last CCXYLINE;
}
else
{
$m23 = $deltay23 / $deltax23;
$mr23 = -1 / $m23;
$c23 = $ys23 - $mr23 * $xs23;
$xcc = ($ys12 - $c23) / $mr23;
last CCXYLINE;
}
}
if (abs($deltay23) < 0.0000001)
{
$xcc = $xs23;
if (abs($deltax12) < 0.0000001)
{
$ycc = $ys12;
last CCXYLINE;
}
else
{
$m12 = $deltay12 / $deltax12;
$mr12 = -1 / $m12;
$c12 = $ys12 - $mr12 * $xs12;
$ycc = $mr12 * $xcc + $c12;
last CCXYLINE;
}
}
if (abs($deltax23) < 0.0000001)
{
$ycc = $ys23;
if (abs($deltay12) < 0.0000001)
{
$xcc = $xs12;
last CCXYLINE;
}
else
{
$m12 = $deltay12 / $deltax12;
$mr12 = -1 / $m12;
$c12 = $ys12 - $mr12 * $xs12;
$xcc = ($ycc - $c12) / $mr12;
last CCXYLINE;
}
}
$m12 = $deltay12 / $deltax12;
$mr12 = -1 / $m12;
$c12 = $ys12 - $mr12 * $xs12;
#-----
$m23 = $deltay23 / $deltax23;
$mr23 = -1 / $m23;
$c23 = $ys23 - $mr23 * $xs23;
$xcc = ($c23 - $c12) / ($mr12 - $mr23);
$ycc = ($c23 * $mr12 - $c12 * $mr23) / ($mr12 - $mr23);
}
#
$sideA = &Length($xA,$yA,$xB,$yB);
$sideB = &Length($xB,$yB,$xC,$yC);
$sideC = &Length($xC,$yC,$xA,$yA);
$a = triangleArea($xA, $yA, $xB, $yB, $xC, $yC);
$radius = ($sideA * $sideB * $sideC) / (4 * $a);
#
return ($xcc, $ycc, $radius);
}
sub ComputeDist {
my ($lc) = $_[0];
my ($v1, $v2);
if (s/^((\+|-)?\d+(\.\d+)?([eE](\+|-)?\d+)?)//) #is it a number?
{
return ($1, 1);
}
elsif (/^[^\W\d_]\d{0,4}[^\W\d_]\d{0,4}/) #it is a pair of IDs?
{
s/^([^\W\d_]\d{0,4})//i;
$v1 = $1;
if (!exists($PointTable{lc($v1)})) {
if (exists($VarTable{lc($v1)})) {
return ($VarTable{lc($v1)}, 1);
}
PrintErrorMessage("Point $v1 has not been defined", $lc);
s/^\s*[^\W\d_]\d{0,4}//i;
return (0,0);
}
$v1 = lc($v1);
s/^\s*([^\W\d_]\d{0,4})//i;
$v2 = $1;
if (!exists($PointTable{lc($v2)}))
{
PrintErrorMessage("Point $v2 has not been defined", $lc);
return (0,0);
}
$v2 = lc($v2);
my ($x1,$y1,$pSV1,$pS1) = unpack("d3A*",$PointTable{$v1});
my ($x2,$y2,$pSV2,$pS2) = unpack("d3A*",$PointTable{$v2});
return (Length($x1,$y1,$x2,$y2), 1);
}
elsif (s/^([^\W\d_]\d{0,4})//i) # it is a single id
{
$v1 = $1;
if (!exists($VarTable{lc($v1)})) #it isn't a variable
{
PrintErrorMessage("Variable $v1 has not been defined", $lc);
return (0,0);
}
return ($VarTable{lc($v1)}, 1);
}
else
{
PrintErrorMessage("Unexpected token", $lc);
return (0,0);
}
}
sub intersection4points {
my ($x1, $y1, $x2, $y2, $x3, $y3, $x4, $y4) = @_;
my ($deltay12, $deltax12, $deltay34, $deltax34);
my ($xcc, $ycc, $m34, $c34, $m12, $c12);
$deltay12 = $y2 - $y1;
$deltax12 = $x2 - $x1;
#
$deltay34 = $y4 - $y3;
$deltax34 = $x4 - $x3;
I4PXYLINE:{
if (abs($deltay12) < 0.0000001)
{
$ycc = $y1;
if (abs($deltax34) < 0.0000001)
{
$xcc = $x3;
last I4PXYLINE;
}
else
{
$m34 = $deltay34 / $deltax34;
$c34 = $y3 - $m34 * $x3;
$xcc = ($ycc - $c34) / $m34;
last I4PXYLINE;
}
}
if (abs($deltax12) < 0.0000001)
{
$xcc = $x1;
if (abs($deltay34) < 0.0000001)
{
$ycc = $y3;
last I4PXYLINE;
}
else
{
$m34 = $deltay34 / $deltax34;
$c34 = $y3 - $m34 * $x3;
$ycc = $m34 * $xcc + $c34;
last I4PXYLINE;
}
}
if (abs($deltay34) < 0.0000001)
{
$ycc = $y3;
if (abs($deltax12) < 0.0000001)
{
$xcc = $x1;
last I4PXYLINE;
}
else
{
$m12 = $deltay12 / $deltax12;
$c12 = $y1 - $m12 * $x1;
$xcc = ($ycc - $c12) / $m12;
last I4PXYLINE;
}
}
if (abs($deltax34) < 0.0000001)
{
$xcc = $x3;
if (abs($deltay12) < 0.0000001)
{
$ycc = $y1;
last I4PXYLINE;
}
else
{
$m12 = $deltay12 / $deltax12;
$c12 = $y1 - $m12 * $x1;
$ycc = $m12 * $xcc + $c12;
last I4PXYLINE;
}
}
$m12 = $deltay12 / $deltax12;
$c12 = $y1 - $m12 * $x1;
$m34 = $deltay34 / $deltax34;
$c34 = $y3 - $m34 * $x3;
$xcc = ($c34 - $c12) / ($m12 - $m34);
$ycc = ($c34 * $m12 - $c12 * $m34) / ($m12 - $m34);
}
return ($xcc, $ycc);
}
sub IncircleCenter {
my ($Ax, $Ay, $Bx, $By, $Cx, $Cy) = @_;
my ($sideA, $sideB, $sideC);
my ($ba1, $xA1, $yA1, $cb1, $ac1, $xB1, $yB1, $xC1, $yC1, $a, $s, $r);
#determine the lengths of the sides
$sideA = Length($Bx, $By, $Cx, $Cy);
$sideB = Length($Cx, $Cy, $Ax, $Ay);
$sideC = Length($Ax, $Ay, $Bx, $By);
#
$ba1 = ($sideC * $sideA) / ($sideB + $sideC);
($xA1, $yA1) = pointOnLine($Bx, $By, $Cx, $Cy, $ba1);
$cb1 = ($sideA * $sideB) / ($sideC + $sideA);
($xB1, $yB1) = pointOnLine($Cx, $Cy, $Ax, $Ay, $cb1);
$ac1 = ($sideB * $sideC) / ($sideA + $sideB);
($xC1, $yC1) = pointOnLine($Ax, $Ay, $Bx, $By, $ac1);
($xcenter, $ycenter) = &intersection4points($Ax, $Ay, $xA1, $yA1,
$Bx, $By, $xB1, $yB1);
# get radius
$a = &triangleArea($Ax, $Ay, $Bx, $By, $Cx, $Cy);
$s = ($sideA + $sideB +$sideC) / 2;
$r = $a / $s;
return ($xcenter, $ycenter, $r);
}
sub Angle {
my ($Ax, $Ay, $Bx, $By, $Cx, $Cy) = @_;
my ($RAx, $RAy, $RBx, $RBy, $RCx, $RCy, $deltax, $deltay);
my ($lineBA, $lineBC, $lineAC, $k, $kk, $angle);
my ($T, $cosT, $sinT) = (0.3, cos(0.3), sin(0.3));
$RAx = $Ax * $cosT + $Ay * $sinT;
$RAy = -$Ax * $sinT + $Ay * $cosT;
$RBx = $Bx * $cosT + $By * $sinT;
$RBy = -$Bx * $sinT + $By * $cosT;
$RCx = $Cx * $cosT + $Cy * $sinT;
$RCy = -$Cx * $sinT + $Cy * $cosT;
$deltax = $RBx - $RAx;
$deltay = $RBy - $RAy;
$lineBA = sqrt($deltax*$deltax + $deltay*$deltay);
if ($lineBA < 0.0000001)
{
return -500;
}
$deltax = $RBx - $RCx;
$deltay = $RBy - $RCy;
$lineBC = sqrt($deltax*$deltax + $deltay*$deltay);
if ($lineBC < 0.0000001)
{
return -500;
}
$deltax = $RAx - $RCx;
$deltay = $RAy - $RCy;
$lineAC = sqrt($deltax*$deltax + $deltay*$deltay);
if ($lineAC < 0.0000001)
{
return -500;
}
$k = ($lineBA*$lineBA + $lineBC*$lineBC - $lineAC*$lineAC ) /
(2 * $lineBA * $lineBC);
$k = -1 if $k < -0.99999;
$k = 1 if $k > 0.99999;
$kk = $k * $k;
if (($kk * $kk) == 1)
{
$angle = PI if $k == -1;
$angle = 0 if $k == 1;
}
else
{
$angle = (PI / 2) - atan2($k / sqrt(1 - $kk),1);
}
return $angle * 180 / PI;
}
sub excircle {
my ($A, $B, $C, $D, $E) = @_;
my ($Ax,$Ay,$Bx,$By,$Dx,$Dy,$Ex,$Ey,$ASVA,$ASA);
($Ax,$Ay,$ASVA,$ASA)=unpack("d3A*",$PointTable{$A});
($Bx,$By,$ASVA,$ASA)=unpack("d3A*",$PointTable{$B});
($Cx,$Cy,$ASVA,$ASA)=unpack("d3A*",$PointTable{$C});
($Dx,$Dy,$ASVA,$ASA)=unpack("d3A*",$PointTable{$D});
($Ex,$Ey,$ASVA,$ASA)=unpack("d3A*",$PointTable{$E});
my ($sideA, $sideB, $sideC, $s, $R, $theAdeg, $d);
my ($Xmypoint, $Ymypoint, $deltax, $deltay, $mylength, $xc, $yc);
$sideA = &Length($Bx, $By, $Cx, $Cy);
$sideB = &Length($Cx, $Cy, $Ax, $Ay);
$sideC = &Length($Ax, $Ay, $Bx, $By);
$s = ($sideA + $sideB + $sideC) / 2;
$R = triangleArea($Ax, $Ay, $Bx, $By, $Cx, $Cy) /
($s - &Length($Dx, $Dy, $Ex, $Ey));
if (($D eq $A && $E eq $B) || ($D eq $B && $E eq $A))
{
$theAdeg = &Angle($Bx, $By, $Cx, $Cy, $Ax, $Ay);
$Xmypoint = $Cx;
$Ymypoint = $Cy;
}
elsif (($D eq $B && $E eq $C) || ($D eq $C && $E eq $B))
{
$theAdeg = &Angle($Cx, $Cy, $Ax, $Ay, $Bx, $By);
$Xmypoint = $Ax;
$Ymypoint = $Ay;
}
elsif (($D eq $C && $E eq $A) || ($D eq $A && $E eq $C))
{
$theAdeg = &Angle($Ax, $Ay, $Bx, $By, $Cx, $Cy);
$Xmypoint = $Bx;
$Ymypoint = $By;
}
else
{
return (0,0,0);
}
$d = $R / sin($theAdeg * PI / 180 / 2);
my ($xIn, $yIn, $rin) = &IncircleCenter($Ax, $Ay, $Bx, $By, $Cx, $Cy);
$deltax = $xIn - $Xmypoint;
$deltay = $yIn - $Ymypoint;
$mylength = sqrt($deltax*$deltax + $deltay*$deltay);
$xc = $Xmypoint + $d * $deltax / $mylength;
$yc = $Ymypoint + $d * $deltay / $mylength;
return ($xc, $yc, $R);
}
sub DrawLineOrArrow {
my $draw_Line = shift;
my $lc = shift;
my $lineLength = -1;
my $stacklen = 0;
my @PP = ();
# if ($draw_Line != 2) {
# s/\s*//;
# if (s/^\[\s*//) { # optional length specifier
# $lineLength = expr($lc);
# if ($lineLength <= 0) {
# PrintErrorMessage("length must greater than zero",$lc);
# $lineLength = -1;
# }
# chk_rsb("optional part",$lc);
# }
# }
chk_lparen("$cmd",$lc);
DRAWLINES:while(1) {
@PP = () ;
while(1) {
if (s/^([^\W\d_]\d{0,4})\s*//i) { #point name
$P = $1;
if (!exists($PointTable{lc($P)})) {
PrintErrorMessage("Undefined point $P",$lc);
}
else {
push (@PP,$P);
}
}
else {
$stacklen = @PP;
if ($draw_Line != 2) {
if ($stacklen <= 1) {
PrintErrorMessage("Wrong number of points",$lc);
}
else {
push(@PP,$lc);
if ($draw_Line == 0) {
drawarrows(@PP);
}
elsif ($draw_Line == 1) {
drawlines(@PP);
}
}
}
if (s/^,\s*// and $draw_Line != 2) {
next DRAWLINES;
}
else {
last DRAWLINES;
}
}
}
}
if ($draw_Line == 2) {
$stacklen = @PP;
if ($stacklen < 2) {
PrintErrorMessage("Wrong number of points",$lc);
}
elsif ($stacklen % 2 == 0) {
PrintErrorMessage("Number of points must be odd",$lc);
}
else {
drawCurve(@PP);
}
}
chk_rparen("arguments of $cmd",$lc);
chk_comment($lc);
}
sub drawarrows {
my ($NoArgs);
$NoArgs = @_;
my ($lc) = $_[$NoArgs-1]; #line number is the last argument
my ($NumberOfPoints, $p, $q, $r12, $d12);
my ($px,$py,$pSV,$pS, $qx,$qy,$qSV,$qS);
$NumberOfPoints = $NoArgs - 1;
LOOP: for(my $i=0; $i < $NumberOfPoints - 1; $i++)
{
$p = $_[$i];
$q = $_[$i+1];
($px,$py,$pSV,$pS) = unpack("d3A*",$PointTable{lc($p)});
($qx,$qy,$qSV,$qS) = unpack("d3A*",$PointTable{lc($q)});
$pSV = $defaultLFradius if $pSV == 0;
$qSV = $defaultLFradius if $qSV == 0;
$r12 = $pSV + $qSV;
$d12 = Length($px,$py,$qx,$qy);
if ($d12 <= $r12)
{
if($d12 == 0)
{
PrintErrorMessage("points $p and $q are the same", $lc);
next LOOP;
}
PrintWarningMessage("arrow $p$q not drawn: points too close or ".
"radii too big", $lc);
next LOOP;
}
($px, $py) = pointOnLine($px, $py, $qx, $qy, $pSV) if $pSV > 0;
($qx, $qy) = pointOnLine($qx, $qy, $px, $py, $qSV) if $qSV > 0;
my ($beta, $gamma);
$beta = tan($arrowAngleB * D2R / 2);
$gamma = 2 * tan($arrowAngleC * D2R / 2);
printf OUT "\\arrow <%.5f%s> [%.5f,%.5f] from %.5f %.5f to %.5f %.5f\n",
$arrowLength, $arrowLengthUnits, $beta, $gamma, $px, $py, $qx, $qy;
}
}
sub drawlines {
my ($NoArgs);
$NoArgs = @_;
my ($lc) = $_[$NoArgs-1]; #line number is the last argument
my ($NumberOfPoints, $p, $q, $r12, $d12);
my ($px,$py,$pSV,$pS, $qx,$qy,$qSV,$qS);
$NumberOfPoints = $NoArgs - 1;
LOOP: for(my $i=0; $i < $NumberOfPoints - 1; $i++)
{
$p = $_[$i];
$q = $_[$i+1];
($px,$py,$pSV,$pS) = unpack("d3A*",$PointTable{lc($p)});
($qx,$qy,$qSV,$qS) = unpack("d3A*",$PointTable{lc($q)});
$pSV = $defaultLFradius if $pSV == 0;
$qSV = $defaultLFradius if $qSV == 0;
$r12 = $pSV + $qSV;
$d12 = Length($px,$py,$qx,$qy);
if ($d12 <= $r12)
{
if($d12 == 0)
{
PrintErrorMessage("points $p and $q are the same", $lc);
next LOOP;
}
PrintWarningMessage("line $p$q not drawn: points too close or ".
"radii too big", $lc);
next LOOP;
}
($px, $py) = pointOnLine($px, $py, $qx, $qy, $pSV) if $pSV > 0;
($qx, $qy) = pointOnLine($qx, $qy, $px, $py, $qSV) if $qSV > 0;
if ($px == $qx || $py == $qy)
{
printf OUT "\\putrule from %.5f %.5f to %.5f %.5f %%%% %s%s\n",
$px,$py,$qx,$qy,$p,$q;
}
else
{
printf OUT "\\plot %.5f %.5f\t%.5f %.5f / %%%% %s%s\n",
$px, $py,$qx,$qy,$p,$q;
}
}
}
sub drawCurve {
my ($NoArgs);
$NoArgs = @_;
my ($lc) = $_[$NoArgs-1]; #line number is the last argument
my ($NumberOfPoints, $p);
$NumberOfPoints = $NoArgs - 1;
print OUT "\\setquadratic\n\\plot\n";
for(my $i=0; $i <= $NumberOfPoints; $i++)
{
$p = $_[$i];
my ($px,$py,$pSV,$pS) = unpack("d3A*",$PointTable{lc($p)});
printf OUT "\t%0.5f %0.5f", $px, $py;
print OUT (($i == $NumberOfPoints) ? " / %$p\n" : " %$p\n");
}
print OUT "\\setlinear\n";
}
sub drawpoints {
my ($NumberOfPoints,$p);
$NumberOfPoints = @_;
my ($px,$py,$pSV,$pS);
for($i=0; $i < $NumberOfPoints; $i++)
{
$p = $_[$i];
($px,$py,$pSV,$pS) = unpack("d3A*",$PointTable{lc($p)});
if ($pS eq "" and $defaultsymbol =~ /circle|square/) {
$pS = $defaultsymbol;
}
POINTSWITCH: {
if ($pS eq "") # no plot symbol specified
{
printf OUT "\\put {%s} at %.5f %.5f %%%% %s\n",
$defaultsymbol, $px, $py, $p;
last POINTSWITCH;
}
if ($pS eq "circle") # plot symbol is a circle
{
my $radius = (defined($DimOfPoint{lc($p)})) ? $DimOfPoint{lc($p)} :
$GlobalDimOfPoints;
if ($radius > 0) # draw a circle using the current units
{
if ($radius == 1.5) # use \bigcirc
{
printf OUT "\\put {\$\\bigcirc\$} at %.5f %.5f %%%% %s\n",
$px, $py, $p;
}
else
{
printf OUT "\\circulararc 360 degrees from %.5f %.5f center at %.5f %.5f %%%% %s\n",
$px+$radius, $py, $px, $py, $p;
}
}
else #use \circ symbol
{
printf OUT "\\put {\$\\circ\$} at %.5f %.5f %%%% %s\n",
$px,$py,$p;
}
last POINTSWITCH;
}
if ($pS eq "square")
{
my $side = (defined($DimOfPoint{lc($p)})) ? $DimOfPoint{lc($p)} :
$GlobalDimOfPoints;
printf OUT "\\put {%s} at %.5f %.5f %%%% %s\n",
drawsquare($side), $px, $py, $p;
last POINTSWITCH;
}
printf OUT "\\put {%s} at %.5f %.5f %%%% %s\n", $pS,$px,$py,$p;
}
}
}
sub drawAngleArc {
my ($P1, $P2, $P3, $radius, $inout, $direction) = @_;
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$P1});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$P2});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$P3});
my $internalAngle = Angle($x1, $y1, $x2, $y2, $x3, $y3);
my $externalAngle = 360 - $internalAngle;
my ($x, $y) = pointOnLine($x2, $y2, $x1, $y1, $radius);
my $code = "";
if ($inout eq "internal" and $direction eq "clockwise" ) {
$code = sprintf "\\circulararc %.5f degrees from %.5f %.5f center at %.5f %.5f\n",
-1 * $internalAngle, $x, $y, $x2, $y2;
}
elsif ($inout eq "internal" and $direction eq "anticlockwise" ) {
$code = sprintf "\\circulararc %.5f degrees from %.5f %.5f center at %.5f %.5f\n",
$internalAngle, $x, $y, $x2, $y2;
}
elsif ($inout eq "external" and $direction eq "clockwise" ) {
$code = sprintf "\\circulararc %.5f degrees from %.5f %.5f center at %.5f %.5f\n",
-1 * $externalAngle, $x, $y, $x2, $y2;
}
elsif ($inout eq "external" and $direction eq "anticlockwise" ) {
$code = sprintf "\\circulararc %.5f degrees from %.5f %.5f center at %.5f %.5f\n",
$externalAngle, $x, $y, $x2, $y2;
}
return $code;
}
sub drawAngleArrow {
my ($P1, $P2, $P3, $radius, $inout, $direction) = @_;
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$P1});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$P2});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$P3});
my $code = drawAngleArc($P1, $P2, $P3, $radius, $inout, $direction);
my ($xqp, $yqp) = pointOnLine($x2, $y2, $x1, $y1, $radius);
my ($deltax, $deltay) = ($x1 - $x2, $y1 - $y2);
my $AL;
if ($xunits =~ /mm/) {
$AL = 1;
}
elsif ($xunits =~ /cm/) {
$AL = 0.1;
}
elsif ($xunits =~ /pt/) {
$AL = 2.845;
}
elsif ($xunits =~ /bp/) {
$AL = 2.835;
}
elsif ($xunits =~ /pc/) {
$AL = 0.2371;
}
elsif ($xunits =~ /in/) {
$AL = 0.03937;
}
elsif ($xunits =~ /dd/) {
$AL = 2.659;
}
elsif ($xunits =~ /cc/) {
$AL = 0.2216;
}
elsif ($xunits =~ /sp/) {
$AL = 186467.98;
}
my $halfAL = $AL / 2;
my $d = sqrt($radius * $radius - $halfAL * $halfAL);
my $alpha = atan2($d / $halfAL, 1) * R2D;
my $beta = 2 * (90 - $alpha);
my $thetaqr;
if (abs($deltay) < 0.00001) {
if ($deltax > 0 ) {$thetaqr = 0 }
elsif ($deltax < 0) {$thetaqr = -180}
}
else {
if (abs($deltax) < 0.00001) {
$thetaqr = 90;
}
else {
$thetaqr = atan2($deltay / $deltax, 1) * R2D;
}
}
my ($xqr, $yqr) = pointOnLine($x2, $y2, $x3, $y3, $radius);
$deltax = $x3 - $x2;
$deltay = $y3 - $y2;
$alpha = atan2(sqrt($radius * $radius - $halfAL * $halfAL) / $halfAL, 1) /
D2R;
$beta = 2 * (90 - $alpha);
LINE2 : {
if (abs($deltax) < 0.00001) {
if ($deltay > 0) { $thetaqr = 90 }
elsif ($deltay < 0) { $thetaqr = - 90 }
last LINE2;
}
else {
$thetaqr = atan2($deltay / $deltax, 1) * R2D;
}
if (abs($deltay) < 0.00001) {
if ($deltax > 0) { $thetaqr = 0 }
elsif ($deltax < 0) { $thetaqr = -180 }
last LINE2;
}
else {
$thetaqr = atan2($deltay / $deltax, 1) * R2D;
}
if ($deltax < 0 and $deltay > 0) { $thetaqr += 180 }
elsif ($deltax < 0 and $deltay < 0) { $thetaqr += 180 }
elsif ($deltax > 0 and $deltay < 0) { $thetaqr += 360 }
}
my $xqrleft = $x2 + $radius * cos(($thetaqr + $beta) * D2R);
my $yqrleft = $y2 + $radius * sin(($thetaqr + $beta) * D2R);
my $xqrright = $x2 + $radius * cos(($thetaqr - $beta) * D2R);
my $yqrright = $y2 + $radius * sin(($thetaqr - $beta) * D2R);
if ($inout eq "internal" and $direction eq "clockwise") {
$code .= sprintf "\\arrow <1.5mm> [0.5, 1] from %.5f %.5f to %.5f %.5f\n",
$xqrleft, $yqrleft, $xqr, $yqr;
}
elsif ($inout eq "internal" and $direction eq "anticlockwise") {
$code .= sprintf "\\arrow <1.5mm> [0.5, 1] from %.5f %.5f to %.5f %.5f\n",
$xqrright, $yqrright, $xqr, $yqr;
}
elsif ($inout eq "external" and $direction eq "clockwise") {
$code .= sprintf "\\arrow <1.5mm> [0.5, 1] from %.5f %.5f to %.5f %.5f\n",
$xqrleft, $yqrleft, $xqr, $yqr;
}
elsif ($inout eq "external" and $direction eq "anticlockwise") {
$code .= sprintf "\\arrow <1.5mm> [0.5, 1] from %.5f %.5f to %.5f %.5f\n",
$xqrright, $yqrright, $xqr, $yqr;
}
return $code;
}
sub expr {
my $lc = $_[0];
my($left,$op,$right);
$left = term($lc);
while ($op = addop()) {
$right = term($lc);
if ($op eq '+')
{ $left += $right }
else
{ $left -= $right }
}
return $left;
}
sub addop {
s/^([+-])// && $1;
}
sub term {
my $lc = $_[0];
my ($left, $op, $right);
$left = factor($lc);
while ($op = mulop()) {
$right = factor($lc);
if ($op eq '*')
{ $left *= $right }
elsif ($op =~ /rem/i) {
eval {$left %= $right};
PrintFatalError("Division by zero", $lc) if $@;
}
else {
eval {$left /= $right};
PrintFatalError("Division by zero", $lc) if $@;
}
}
return $left;
}
sub mulop {
(s#^([*/])## || s/^(rem)//i) && lc($1);
}
sub factor {
my $lc = $_[0];
my ($left);
$left = primitive($lc);
if (s/^\*\*//) {
$left **= factor($lc);
}
return $left;
}
sub primitive {
my $lc = $_[0];
my $val;
s/\s*//;
if (s/^\(//) { #is it an expr in parentheses
$val = expr($lc);
s/^\)// || PrintErrorMessage("Missing right parenthesis", $lc);
}
elsif (s/^-//) { # is it a negated primitive
$val = - primitive();
}
elsif (s/^\+//) { # is it a positive primitive
$val = primitive();
}
elsif (s/^angledeg//i) {
chk_lparen("angledeg",$lc);
my $point_1 = get_point($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point_1});
my $point_2 = get_point($lc);
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point_2});
my $point_3 = get_point($lc);
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$point_3});
my $d12 = Length($x1, $y1, $x2, $y2);
my $d23 = Length($x2, $y2, $x3, $y3);
my $d31 = Length($x3, $y3, $x1, $y1);
if ( $d12 == 0 ) {
PrintErrorMessage("points `$point_1' and `$point_2' are the same", $lc);
$val = 0;
}
elsif ( $d23 == 0 ) {
PrintErrorMessage("points `$point_2' and `$point_3' are the same", $lc);
$val = 0;
}
elsif ( $d31 == 0 ) {
PrintErrorMessage("points `$point_1' and `$point_3' are the same", $lc);
$val = 0;
}
else {
$val = Angle($x1, $y1, $x2, $y2, $x3, $y3);
$val = 0 if $val == -500;
}
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^angle//i) {
chk_lparen("angle",$lc);
my $point_1 = get_point($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point_1});
my $point_2 = get_point($lc);
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point_2});
my $point_3 = get_point($lc);
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$point_3});
my $d12 = Length($x1, $y1, $x2, $y2);
my $d23 = Length($x2, $y2, $x3, $y3);
my $d31 = Length($x3, $y3, $x1, $y1);
if ( $d12 == 0 ) {
PrintErrorMessage("points `$point_1' and `$point_2' are the same", $lc);
$val = 0;
}
elsif ( $d23 == 0 ) {
PrintErrorMessage("points `$point_2' and `$point_3' are the same", $lc);
$val = 0;
}
elsif ( $d31 == 0 ) {
PrintErrorMessage("points `$point_1' and `$point_3' are the same", $lc);
$val = 0;
}
else {
$val = Angle($x1, $y1, $x2, $y2, $x3, $y3);
if ($val == -500) {
$val = 0;
}
else {
$val = D2R * $val;
}
}
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^area//i) {
chk_lparen("angledeg",$lc);
my $point_1 = get_point($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point_1});
my $point_2 = get_point($lc);
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point_2});
my $point_3 = get_point($lc);
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$point_3});
$val = triangleArea($x1, $y1, $x2, $y2, $x3, $y3);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^asin//i) {
chk_lparen("asin");
$val = expr();
PrintFatalError("Can't take asin of $val", $lc) if $val < -1 || $val > 1;
$val = asin($val);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^acos//i) {
chk_lparen("acos");
$val = expr();
PrintFatalError("Can't take acos of $val", $lc) if $val < -1 || $val > 1 ;
$val = acos($val);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^atan//i) {
chk_lparen("atan");
$val = expr();
$val = atan($val);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^cos//i) {
chk_lparen("cos");
$val = expr();
$val = cos($val);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^directiondeg//i) {
chk_lparen("directiondeg",$lc);
my $point_1 = get_point($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point_1});
my $point_2 = get_point($lc);
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point_2});
my $x3 = $x1+1;
if ( ($y2 - $y1) >= 0) {
$val = Angle($x3, $y1, $x1, $y1, $x2, $y2);
$val = 0 if $val == -500;
}
else {
$val = 360 - Angle($x3, $y1, $x1, $y1, $x2, $y2);
$val = 0 if $val == -500;
}
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^direction//i) {
chk_lparen("direction",$lc);
my $point_1 = get_point($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point_1});
my $point_2 = get_point($lc);
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point_2});
my $x3 = $x1+1;
if ( ($y2 - $y1) >= 0) {
$val = Angle($x3, $y1, $x1, $y1, $x2, $y2);
$val = 0 if $val == -500;
$val = D2R * $val;
}
else {
$val = 360 - Angle($x3, $y1, $x1, $y1, $x2, $y2);
$val = 0 if $val == -500;
$val = D2R * $val;
}
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^exp//i) {
chk_lparen("exp");
$val = expr();
$val = exp($val);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^int//i) {
chk_lparen("int");
$val = expr();
$val = int($val);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^log//i) {
chk_lparen("log");
$val = expr();
PrintFatalError("Can't take log of $val", $lc) if $val <= 0;
$val = log($val);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^sin//i) {
chk_lparen("sin");
$val = expr();
$val = sin($val);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^sgn//i) {
chk_lparen("sgn");
$val = expr();
if ($val > 0) {
$val = 1;
}
elsif ($val == 0) {
$val = 0;
}
else {
$val = -1;
}
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^sqrt//i) {
chk_lparen("sqrt");
$val = expr();
$val = sqrt($val);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^tan//i) {
chk_lparen("tan");
$val = expr();
$val = sin($val)/cos($val);
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^xcoord//i) {
chk_lparen("xcoord");
my $point_name = get_point;
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point_name});
$val = $x1;
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^ycoord//i) {
chk_lparen("ycoord");
my $point_name = get_point;
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point_name});
$val = $y1;
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^_pi_//i) {
$val = PI;
}
elsif (s/^_e_//i) {
$val = 2.71828182845905;
}
elsif (s/^_linethickness_//i) {
$val = $LineThickness / $xunits;
}
else {
my $err_code;
($val,$err_code) = ComputeDist($lc);
}
s/\s*//;
return $val;
}
sub memberOf {
my $elem = shift(@_);
my $found = 0;
foreach $item (@_){
if ($item eq $elem){
$found = 1;
last;
}
}
return $found;
}
sub midpoint {
my ($x1, $y1, $x2, $y2)=@_;
return ($x1 + ($x2 - $x1)/2,
$y1 + ($y2 - $y1)/2);
}
sub tand {
my $d = $_[0];
$d = $d * PI / 180;
return sin($d)/cos($d);
}
sub get_string {
my $string = shift;
my $lc = shift;
$string =~ s/^\s+//;
if ($string !~ s/^\"//) {
PrintErrorMessage("No starting \" found",$lc);
return (1,$string,$string);
}
my @ch = split //,$string;
my @cmd;
while (@ch and $ch[0] ne "\"") {
if ($ch[0] eq "\\" and (defined $ch[1]) and $ch[1] eq "\"") {
shift @ch;
push @cmd, $ch[0];
shift @ch;
}
else {
push @cmd, $ch[0];
shift @ch;
}
}
if (! defined $ch[0]) {
PrintErrorMessage("No closing \" found",$lc);
return (1,join("",@cmd), join("",@ch))
}
else {
shift @ch;
return (0, join("",@cmd), join("",@ch))
}
}
sub is_tainted {
my $arg = shift;
my $nada = substr($arg,0,0);
local $@;
eval { eval "# $nada"};
return length($@) != 0;
}
sub noOfDigits {
my $num = $_[0];
if ($num =~ /^[\+-]?\d+(?!\.)/) {
return 0;
}
elsif ($num =~ /^[\+-]\d+\.(\d+)?/) {
return length($1);
}
}
sub drawsquare {
my $s = $_[0];
#$s *= sqrt(2);
$s = sprintf "%.5f", $s;
my $code = "\\setlength{\\unitlength}{$xunits}%\n";
$code .= "\\begin{picture}($s,$s)\\put(0,0)" .
"{\\framebox($s,$s){}}\\end{picture}";
return $code;
}
sub X2sp {
my $LT = shift;
my $units = shift;
if ($units eq "pc") {
return $LT * 786432;
}
elsif ($units eq "pt") {
return $LT * 65536;
}
elsif ($units eq "in") {
return $LT * 4736286.72;
}
elsif ($units eq "bp") {
return $LT * 65781.76;
}
elsif ($units eq "cm") {
return $LT * 1864679.811023622;
}
elsif ($units eq "mm") {
return $LT * 186467.981102362;
}
elsif ($units eq "dd") {
return $LT * 70124.086430424;
}
elsif ($units eq "cc") {
return $LT * 841489.037165082;
}
elsif ($units eq "sp") {
return $LT;
}
}
sub sp2X {
my $LT = shift;
my $units = shift;
if ($units eq "pc") {
return $LT / 786432;
}
elsif ($units eq "pt") {
return $LT / 65536;
}
elsif ($units eq "in") {
return $LT / 4736286.72;
}
elsif ($units eq "bp") {
return $LT / 65781.76;
}
elsif ($units eq "cm") {
return $LT / 1864679.811023622;
}
elsif ($units eq "mm") {
return $LT / 186467.981102362;
}
elsif ($units eq "dd") {
return $LT / 70124.086430424;
}
elsif ($units eq "cc") {
return $LT / 841489.037165082;
}
elsif ($units eq "sp") {
return $LT;
}
}
sub setLineThickness {
my $Xunits = shift;
my $LT = shift;
$Xunits =~ s/^((\+|-)?\d+(\.\d+)?([eE](\+|-)?\d+)?)//;
my $xlength = "$1";
$Xunits =~ s/^\s*($units)//;
my $x_in_units = $1;
$LT =~ s/^((\+|-)?\d+(\.\d+)?([eE](\+|-)?\d+)?)//;
my $LTlength = "$1";
$LT =~ s/^\s*($units)//;
my $LT_in_units = $1;
$LTlength = X2sp($LTlength,$LT_in_units);
$LTlength = sp2X($LTlength,$x_in_units);
return $LTlength;
}
sub process_input {
my ($INFILE,$currInFile) = @_;
my $lc = 0;
my $no_output = 0;
$curr_in_file = $currInFile;
LINE: while(<$INFILE>) {
$lc++;
chomp($command = $_);
s/^\s+//;
if (/^beginSkip\s*/i) {
$no_output = 1;
print OUT "%%$_" if $comments_on;
next LINE;
}
elsif (/^endSkip\s*/i) {
if ($no_output == 0) {
PrintErrorMessage("endSkip without beginSkip",$lc);
}
else {
$no_output = 0;
}
print OUT "%%$_" if $comments_on and !$no_output;
next LINE;
}
elsif ($no_output == 1) {
next LINE;
}
else {
if (/^[^\\]/) {
my $out_line = mpp($command,$lc) unless /^\\/; #call macro pre-processor
$_ = "$out_line\n";
}
if (/^\s*%/)
{
print OUT "$_" if $comments_on;
}
elsif (s/^\s*(beginloop(?=\W))//i) {
s/\s+//;
my $times = expr($lc);
print OUT "%% BEGINLOOP $times\n" if $comments_on;
my @C = ();
REPEATCOMMS: while (<$INFILE>) {
if (/^\s*endloop/i) {
last REPEATCOMMS;
}
else {
push @C, $_;
}
}
if (! /^\s*endloop/i) {
PrintFatalError("unexpected end of file",$lc);
}
else {
s/^\s*endloop//i;
for(my $i=1; $i<=$times; $i++) {
tie *DUMMY, 'DummyFH', \@C;
process_input(DUMMY, $currInFile);
untie *DUMMY;
}
print OUT "%% ENDLOOP\n" if $comments_on;
}
}
elsif (s/^\s*(ArrowShape(?=\W))//i)
{
my $cmd = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen("$cmd",$lc);
if (s/^default//i) {
$arrowLength = 2;
$arrowLengthUnits = "mm";
$arrowAngleB = 30;
$arrowAngleC = 40;
}
else {
my ($LocalArrowLength, $LocalArrowAngleB ,$LocalArrowAngleC) = (0,0,0);
$LocalArrowLength = expr($lc);
if (s/^\s*($units)//i) {
$arrowLengthUnits = "$1";
}
else {
$xunits =~ /(\d+(\.\d+)?)\s*($units)/;
$LocalArrowLength *= $1;
$arrowLengthUnits = "$3";
}
chk_comma($lc);
$LocalArrowAngleB = expr($lc);
chk_comma($lc);
$LocalArrowAngleC = expr($lc);
$arrowLength = ($LocalArrowLength == 0 ? 2 : $LocalArrowLength);
$arrowLengthUnits = ($LocalArrowLength == 0 ? "mm" : $arrowLengthUnits);
$arrowAngleB = ($LocalArrowAngleB == 0 ? 30 : $LocalArrowAngleB);
$arrowAngleC = ($LocalArrowAngleC == 0 ? 40 : $LocalArrowAngleC);
}
chk_rparen("after $cmd arguments",$lc);
chk_comment("after $cmd command",$lc);
print OUT "%% arrowLength = $arrowLength$arrowLengthUnits, ",
"arrowAngleB = $arrowAngleB ",
"and arrowAngleC = $arrowAngleC\n" if $comments_on;
}
elsif (s/^\s*(const(?=\W))//i)
{
print OUT "%% $1$_" if $comments_on;
do{
s/\s*//;
PrintErrorMessage("no identifier found after token const",$lc)
if $_ !~ s/^([^\W\d_]\d{0,4})//i;
my $Constname = $1;
my $constname = lc($Constname);
if (exists $ConstTable{$constname}) {
PrintErrorMessage("Redefinition of constant $constname",$lc);
}
s/\s*//; #remove leading white space
PrintErrorMessage("did not find expected = sign",$lc)
if $_ !~ s/^[=]//i;
my $val = expr($lc);
$VarTable{$constname} = $val;
$ConstTable{$constname} = 1;
print OUT "%% $Constname = $val\n" if $comments_on;
}while (s/^,//);
chk_comment($lc);
s/\s*//;
if (/^[^%]/) {
PrintWarningMessage("Trailing text is ignored",$lc);
}
}
elsif (s/^\s*(dasharray(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen($cmd,$lc);
my @DashArray = ();
my $dash = "";
my $dashpattern = "";
PATTERN: while (1) {
$dash = sprintf("%.5f", expr($lc));
if (s/^\s*($units)//i) {
push (@DashArray, "$dash$1");
}
else {
PrintErrorMessage("Did not found unit after expression", $lc);
}
s/\s*//;
if (/^[^,]/) {
last PATTERN;
}
else {
s/^,\s*//;
}
}
print OUT "\\setdashpattern <";
while (@DashArray) {
$dashpattern .= shift @DashArray;
$dashpattern .= ",";
}
$dashpattern =~ s/,$//;
print OUT $dashpattern, ">\n";
chk_rparen("arguments of $cmd",$lc);
chk_comment($lc);
}
elsif (s/^\s*(drawAngleArc(?=\W))//i or s/^\s*(drawAngleArrow(?=\W))//i )
{
my $cmd = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lcb($cmd,$lc);
my ($P1, $P2, $P3);
if (s/^angle(?=\W)//i) {
chk_lparen("token angle of command $cmd",$lc);
$P1 = get_point($lc);
next LINE if $P1 eq "_undef_";
$P2 = get_point($lc);
next LINE if $P2 eq "_undef_";
$P3 = get_point($lc);
next LINE if $P3 eq "_undef_";
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$P1});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$P2});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$P3});
my $Angle = Angle($x1, $y1, $x2, $y2, $x3, $y3);
if ($Angle <= 0) {
if ($Angle == 0) {
PrintErrorMessage("Angle is equal to zero",$lc);
next LINE;
}
elsif ($Angle < -400) {
PrintErrorMessage("Something is wrong with the points",$lc);
next LINE;
}
}
chk_rparen("angle part of command $cmd",$lc);
}
else {
PrintErrorMessage("Did not find expected angle part",$lc);
next LINE;
}
s/^,\s*// or s/\s*//; #parse optional comma
my $radius;
if (s/^radius(?=\W)//i) {
chk_lparen("token radius of command $cmd",$lc);
$radius = expr($lc);
chk_rparen("radius part of command $cmd",$lc);
}
else {
PrintErrorMessage("Did not found expected angle part",$lc);
next LINE;
}
s/^,\s*// or s/\s*//; #parse optional comma
my $inout = "";
if (s/^(internal(?=\W))//i or s/^(external(?=\W))//i) {
$inout = $1;
}
else {
PrintErrorMessage("Did not find expected 'internal' specifier", $lc);
next LINE;
}
s/^,\s*// or s/\s*//; #parse optional comma
my $direction = "";
if (s/^(clockwise(?=\W))//i or s/^(anticlockwise(?=\W))//i) {
$direction = $1;
}
else {
PrintErrorMessage("Did not find expected 'direction' specifier", $lc);
next LINE;
}
chk_rcb("arguments of $cmd",$lc);
chk_comment($lc);
my $code;
if (lc($cmd) eq "drawanglearc") {
$code = drawAngleArc($P1, $P2, $P3, $radius, $inout, $direction);
}
else {
$code = drawAngleArrow($P1, $P2, $P3, $radius, $inout, $direction);
}
print OUT $code if $code ne "";
}
elsif (s/^\s*(drawArrow(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
DrawLineOrArrow(0,$lc);
}
elsif (s/^\s*(drawcircle(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen("drawcircle",$lc);
my $Point = get_point($lc);
next LINE if $Point eq "_undef_";
chk_comma($lc);
my $R = expr($lc);
if ($R <= 0) {
PrintErrorMessage("Radius must be greater than zero",$lc);
next LINE;
}
my ($x,$y,$pSV,$pS)=unpack("d3A*",$PointTable{lc($Point)});
printf OUT "\\circulararc 360 degrees from %.5f %.5f center at %.5f %.5f\n",
$x+$R, $y, $x, $y;
chk_rparen("arguments of $cmd",$lc);
chk_comment($lc);
}
elsif (s/^\s*(drawcurve(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
DrawLineOrArrow(2,$lc);
}
elsif (s/^\s*(drawcircumcircle(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen("drawcircumcircle",$lc);
my $point1 = get_point($lc);
next LINE if $point1 eq "_undef_";
my $point2 = get_point($lc);
next LINE if $point2 eq "_undef_";
my $point3 = get_point($lc);
next LINE if $point3 eq "_undef_";
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point1});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point2});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$point3});
my ($xc, $yc,$r) = circumCircleCenter($x1,$y1,$x2,$y2,$x3,$y3,$lc);
next LINE if $xc == 0 and $yc == 0 and $r == 0;
print OUT "%% circumcircle center = ($xc,$yc), radius = $r\n" if $comments_on;
printf OUT "\\circulararc 360 degrees from %.5f %.5f center at %.5f %.5f\n",
$xc+$r, $yc, $xc, $yc;
chk_rparen("arguments of $cmd",$lc);
chk_comment($lc);
}
elsif (s/^\s*(drawexcircle(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen("drawexcircle",$lc);
my $point1 = get_point($lc);
next LINE if $point1 eq "_undef_";
my $point2 = get_point($lc);
next LINE if $point2 eq "_undef_";
my $point3 = get_point($lc);
next LINE if $point3 eq "_undef_";
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point1});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point2});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$point3});
if (triangleArea($x1, $y1, $x2, $y2, $x3, $y3) < 0.0001) {
PrintErrorMessage("Area of triangle is zero!",$lc);
next LINE;
}
chk_comma($lc);
my $point4 = get_point($lc);
if (!memberOf($point4, $point1, $point2, $point3)) {
PrintErrorMessage("Current point isn't a side point",$lc);
next LINE;
}
next LINE if $point4 eq "_undef_";
my $point5 = get_point($lc);
next LINE if $point5 eq "_undef_";
if (!memberOf($point5, $point1, $point2, $point3)) {
PrintErrorMessage("Current point isn't a side point",$lc);
next LINE;
}
if ($point4 eq $point5) {
PrintErrorMessage("Side points are identical",$lc);
next LINE;
}
chk_rparen("arguments of $cmd",$lc);
my ($xc, $yc, $r) = excircle($point1, $point2, $point3,
$point4, $point5);
my $R=$r;
if (s/^\s*\[\s*//) {
$R += expr($lc);
if ($R < 0.0001) {
PrintErrorMessage("Radius has become equal to zero!",$lc);
next LINE;
}
chk_rsb($lc);
}
if ($R > (500 / 2.845)) {
PrintErrorMessage("Radius is greater than 175mm!",$lc);
next LINE;
}
print OUT "%% excircle center = ($xc,$yc) radius = $R\n" if $comments_on;
printf OUT "\\circulararc 360 degrees from %.5f %.5f center at %.5f %.5f\n",
$xc+$R, $yc, $xc, $yc;
chk_comment($lc);
}
elsif (s/^\s*(drawincircle(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen("drawincircle",$lc);
my $point1 = get_point($lc);
next LINE if $point1 eq "_undef_";
my $point2 = get_point($lc);
next LINE if $point2 eq "_undef_";
my $point3 = get_point($lc);
next LINE if $point3 eq "_undef_";
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point1});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point2});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$point3});
if (triangleArea($x1, $y1, $x2, $y2, $x3, $y3) < 0.0001) {
PrintErrorMessage("Area of triangle is zero!",$lc);
next LINE;
}
my ($xc, $yc, $r) = IncircleCenter($x1,$y1,$x2,$y2,$x3,$y3);
my $R=$r;
if (s/^\s*\[\s*//) {
$R += expr($lc);
if ($R < 0.0001) {
PrintErrorMessage("Radius has become equal to zero!",$lc);
next LINE;
}
chk_rsb($lc);
}
if ($R > (500 / 2.845)) {
PrintErrorMessage("Radius is greater than 175mm!",$lc);
next LINE;
}
print OUT "%% incircle center = ($xc,$yc) radius = $R\n" if $comments_on;
printf OUT "\\circulararc 360 degrees from %.5f %.5f center at %.5f %.5f\n",
$xc+$R, $yc, $xc, $yc;
chk_rparen("arguments of $cmd",$lc);
chk_comment($lc);
}
elsif (s/^\s*(drawline(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
DrawLineOrArrow(1,$lc);
}
elsif (s/^\s*(drawthickarrow(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
print OUT "\\setplotsymbol ({\\usefont{OT1}{cmr}{m}{n}\\large .})%\n";
print OUT "{\\setbox1=\\hbox{\\usefont{OT1}{cmr}{m}{n}\\large .}%\n";
print OUT " \\global\\linethickness=0.31\\wd1}%\n";
DrawLineOrArrow(0,$lc);
print OUT "\\setlength{\\linethickness}{0.4pt}%\n";
print OUT "\\setplotsymbol ({\\usefont{OT1}{cmr}{m}{n}\\tiny .})%\n";
}
elsif (s/^\s*(drawthickline(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
print OUT "\\setplotsymbol ({\\usefont{OT1}{cmr}{m}{n}\\large .})%\n";
print OUT "{\\setbox1=\\hbox{\\usefont{OT1}{cmr}{m}{n}\\large .}%\n";
print OUT " \\global\\linethickness=0.31\\wd1}%\n";
DrawLineOrArrow(1,$lc);
print OUT "\\setlength{\\linethickness}{0.4pt}%\n";
print OUT "\\setplotsymbol ({\\usefont{OT1}{cmr}{m}{n}\\tiny .})%\n";
}
elsif (s/^\s*(drawperpendicular(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen($cmd,$lc);
my $A = get_point($lc);
next LINE if $A eq "_undef_";
chk_comma($lc);
my $B = get_point($lc);
next LINE if $A eq "_undef_";
s/\s*//; #ignore white space
my $C = get_point($lc);
next LINE if $A eq "_undef_";
chk_rparen("arguments of $cmd",$lc);
chk_comment($lc);
#
#start actual computation
#
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$A});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$B});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$C});
my ($xF, $yF) = perpendicular($x1, $y1, $x2, $y2, $x3, $y3);
printf OUT "\\plot %.5f %.5f %.5f %.5f /\n",
$x1, $y1, $xF, $yF;
}
elsif (s/^\s*(drawpoint(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
my ($stacklen);
chk_lparen("$cmd",$lc);
if (/^\)/) {
PrintErrorMessage("There are no point to draw",$lc);
next LINE;
}
my(@PP);
DRAWPOINTS:while(1) {
if (s/^([^\W\d_]\d{0,4})//i) { #point name
$P = $1;
if (!exists($PointTable{lc($P)})) {
PrintErrorMessage("Undefined point $P",$lc);
next DRAWPOINTS;
}
else {
push (@PP,$P);
s/\s*//;
}
}
else {
last DRAWPOINTS;
}
}
drawpoints(@PP);
chk_rparen("arguments of $cmd",$lc);
chk_comment($lc);
}
elsif (s/^\s*(drawRightAngle(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen("drawRightAngle",$lc);
my $point1 = get_point($lc);
next LINE if $point1 eq "_undef_";
my $point2 = get_point($lc);
next LINE if $point2 eq "_undef_";
my $point3 = get_point($lc);
next LINE if $point3 eq "_undef_";
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point1});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point2});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$point3});
chk_comma($lc);
my $dist = expr($lc);
chk_rparen("arguments of $cmd",$lc);
chk_comment($lc);
#
#actual computation
#
my ($Px, $Py) = pointOnLine($x2, $y2, $x1, $y1, $dist);
my ($Qx, $Qy) = pointOnLine($x2, $y2, $x3, $y3, $dist);
my ($Tx, $Ty) = midpoint($Px, $Py, $Qx, $Qy);
my ($Ux, $Uy) = pointOnLine($x2, $y2, $Tx, $Ty, 2*Length($x2, $y2, $Tx, $Ty));
if ($Px == $Ux || $Py == $Uy) {
printf OUT "\\putrule from %.5f %.5f to %.5f %.5f \n", $Px,$Py,$Ux,$Uy;
}
else {
printf OUT "\\plot %.5f %.5f\t%.5f %.5f / \n", $Px, $Py,$Ux,$Uy;
}
if ($Ux == $Qx || $Uy == $Qy) {
printf OUT "\\putrule from %.5f %.5f to %.5f %.5f \n", $Ux,$Uy,$Qx,$Qy;
}
else {
printf OUT "\\plot %.5f %.5f\t%.5f %.5f / \n", $Ux, $Uy,$Qx,$Qy;
}
}
elsif (s/^\s*(drawsquare(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen("drawSquare",$lc);
my $p = get_point($lc);
chk_comma($lc);
my $side = expr($lc);
$side = $side - (1.1 * $LineThickness/$xunits); #Suggested by RWDN
my ($x,$y,$pSV,$pS) = unpack("d3A*",$PointTable{$p});
printf OUT "\\put {%s} at %.5f %.5f %%drawsquare\n", drawsquare($side), $x, $y;
chk_rparen("arguments of $cmd",$lc);
chk_comment($lc);
}
elsif (s/^\s*inputfile\*//i)
{
chk_lparen("inputfile*",$lc);
my $row_in = "";
if (s/^((\w|-|\.)+)//) {
$row_in = $1;
}
else {
PrintErrorMessage("No input file name found",$lc);
next LINE;
}
if (!(-e $row_in)) {
PrintErrorMessage("File $row_in does not exist",$lc);
next LINE;
}
open(ROW, "$row_in")|| die "Can't open file $row_in\n";
while (defined($in_line=<ROW>)) { print OUT $in_line; }
print OUT "%% ... end of input file <$row_in>\n";
close ROW;
chk_rparen("input file name",$lc);
chk_comment($lc);
}
elsif (s/^\s*(inputfile(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen("inputfile",$lc);
my $comm_in = "";
if (s/^((\w|-|\.)+)//) {
$comm_in = $1;
}
else {
PrintErrorMessage("No input file name found",$lc);
next LINE;
}
if (!(-e $comm_in)) {
PrintErrorMessage("File $comm_in does not exist",$lc);
next LINE;
}
chk_rparen("input file name",$lc);
my $input_times = 1; #default value
if (s/^\[//) {
$input_times = expr($lc);
chk_rsb("optional argument",$lc);
}
print OUT "%% ... start of file <$comm_in> loop [$input_times]\n";
for (my $i=0; $i<int($input_times); $i++) {
open(COMM,"$comm_in") or die "Can't open file $comm_in\n";
print OUT "%%% Iteration number: ",$i+1,"\n";
my $old_file_name = $curr_in_file;
process_input(COMM,"File $comm_in, ");
$curr_in_file = $old_file_name;
close COMM;
}
print OUT "%% ... end of file <$comm_in> loop [$input_times]\n";
chk_comment($lc);
}
elsif (s/^\s*(linethickness(?=\W))//i)
{
my $cmd = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen("linethickness", $lc);
if (s/^default//i) {
print OUT "\\linethickness=0.4pt\\Linethickness{0.4pt}%%\n";
print OUT "\\setplotsymbol ({\\usefont{OT1}{cmr}{m}{n}\\tiny .})%\n";
$LineThickness = setLineThickness($xunits,"0.4pt");
}
else {
my $length = expr($lc);
if (s/^\s*($units)//i) {
my $units = $1;
printf OUT "\\linethickness=%.5f%s\\Linethickness{%.5f%s}%%\n",
$length, $units, $length, $units;
$LineThickness = setLineThickness($xunits,"$length$units");
my $mag;
if ($units eq "pc") {
$mag = $length * 12;
}
elsif ($units eq "in") {
$mag = $length * 72.27;
}
elsif ($units eq "bp") {
$mag = $length * 1.00375;
}
elsif ($units eq "cm") {
$mag = $length * 28.45275;
}
elsif ($units eq "mm") {
$mag = $length * 2.845275;
}
elsif ($units eq "dd") {
$mag = $length * 1.07001;
}
elsif ($units eq "cc") {
$mag = $length * 0.08917;
}
elsif ($units eq "sp") {
$mag = $length * 0.000015259;
}
elsif ($units eq "pt") {
$mag = $length;
}
$mag = 10 * $mag / 1.00278219;
printf OUT "\\font\\CM=cmr10 at %.5fpt%%\n", $mag;
print OUT "\\setplotsymbol ({\\CM .})%\n";
}
else {
PrintErrorMessage("Did not found expect units part",$lc);
}
}
chk_rparen("linethickness", $lc);
chk_comment($lc);
}
elsif (s/^\s*(paper(?=\W))//i)
{
my ($cmd) = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lcb("paper", $lc);
if (s/^units(?=\W)//i)
{
chk_lparen("units",$lc);
if(s/^\)//)
{
PrintWarningMessage("Missing value in \"units\"--default is 1pt",
$lc);
$xunits = "1pt";
}
else {
$xunits = expr($lc);
s/\s*//;
if (s/^($units)//i) {
$xunits .= "$1";
$LineThickness = setLineThickness($xunits,"0.4pt");
}
elsif(s/^(\w)+//i) {
PrintErrorMessage("$1 is not a valid mathspic unit",$lc);
$xunits = "1pt";
}
else {
PrintErrorMessage("No x-units found",$lc);
$xunits = "1pt";
}
s/\s*//; #ignore white space
if (s/^,//) { # there is a comma so expect an y-units
s/\s*//; #ignore white space
$yunits = expr($lc);
s/\s*//; #ignore white space
if (s/^($units)//i) {
$yunits .= "$1";
}
elsif(s/^(\w)+//i) {
PrintErrorMessage("$1 is not a valid mathspic unit",$lc);
$yunits = "1pt";
}
else {
PrintErrorMessage("No y-units found",$lc);
$yunits = $xunits;
}
}
else {
$yunits = $xunits;
}
chk_rparen("units",$lc);
}
$nounits = 0;
}
else
{
$nounits = 1;
}
s/^,\s*// or s/\s*//;
if (s/^xrange//i)
{
chk_lparen("xrange",$lc);
my $ec;
($xlow,$ec) = ComputeDist($lc);
next LINE if $ec == 0;
chk_comma($lc);
($xhigh,$ec) = ComputeDist($lc);
next LINE if $ec == 0;
if ($xlow >= $xhigh)
{
PrintErrorMessage("xlow >= xhigh in xrange",$lc);
next LINE;
}
chk_rparen("$xhigh",$lc);
$noxrange = 0;
}
else
{
$noxrange = 1;
}
s/^,\s*// or s/\s*//;
if (s/^yrange//i)
{
chk_lparen("yrange",$lc);
my $ec;
($ylow,$ec) = ComputeDist($lc);
next LINE if $ec == 0;
chk_comma($lc);
($yhigh,$ec) = ComputeDist($lc);
next LINE if $ec == 0;
if ($ylow >= $yhigh)
{
PrintErrorMessage("ylow >= yhigh in yrange",$lc);
next LINE;
}
chk_rparen("$yhigh",$lc);
$noyrange = 0;
}
else
{
$noyrange = 1;
}
if (!$nounits)
{
printf OUT "\\setcoordinatesystem units <%s,%s>\n",
$xunits,$yunits;
}
if(!$noxrange && !$noyrange)
{
printf OUT "\\setplotarea x from %.5f to %.5f, y from %.5f to %.5f\n",
$xlow, $xhigh, $ylow, $yhigh;
}
s/^,\s*// or s/\s*//;
$axis = "";
if (s/^ax[ei]s(?=\W)//i)
{
chk_lparen("axis",$lc);
while(/^[^\)]/)
{
if (s/^([lrtbxy]{1}\*?)//i)
{
$axis .= $1;
}
elsif (s/^([^lrtbxy])//i)
{
PrintErrorMessage("Non-valid character \"$1\" in axis()",$lc);
}
s/\s*//;
}
chk_rparen("axis(arguments",$lc);
}
$axis = uc($axis);
s/^,\s*// or s/\s*//;
if (s/^ticks(?=\W)//i)
{
chk_lparen("ticks",$lc);
my $ec;
($xticks,$ec) = ComputeDist($lc);
next LINE if $ec == 0;
chk_comma($lc);
($yticks,$ec) = ComputeDist($lc);
next LINE if $ec == 0;
chk_rparen("ticks(arguments",$lc);
}
else
{
$xticks = $yticks = 0;
}
chk_rcb("paper", $lc);
YBRANCH: {
if (index($axis, "Y")>-1)
{
if (index($axis, "Y*")>-1)
{
print OUT "\\axis left shiftedto x=0 / \n";
last YBRANCH;
}
if ($yticks > 0)
{
if (index($axis, "T")>-1 && index($axis, "B")==-1)
{
print OUT "\\axis left shiftedto x=0 ticks numbered from ";
print OUT "$ylow to -$yticks by $yticks\n from $yticks to ";
print OUT $yhigh-$yticks," by $yticks /\n";
}
elsif (index($axis, "T")==-1 && index($axis, "B")>-1)
{
print OUT "\\axis left shiftedto x=0 ticks numbered from ";
print OUT $ylow+$yticks," to -$yticks by $yticks\n from ";
print OUT "$yticks to $yhigh by $yticks /\n";
}
elsif (index($axis, "T")>-1 && index($axis, "B")>-1)
{
print OUT "\\axis left shiftedto x=0 ticks numbered from ";
print OUT $ylow+$yticks," to -$yticks by $yticks\n from ";
print OUT "$yticks to ",$yhigh-$yticks," by $yticks /\n";
}
else
{
print OUT "\\axis left shiftedto x=0 ticks numbered from ";
print OUT "$ylow to -$yticks by $yticks\n from ";
print OUT "$yticks to $yhigh by $yticks /\n";
}
}
else
{
print OUT "\\axis left shiftedto x=0 /\n";
}
}
}
XBRANCH: { if (index($axis, "X")>-1)
{
if (index($axis, "X*")>-1)
{
print OUT "\\axis bottom shiftedto y=0 /\n";
last XBRANCH;
}
if ($xticks > 0)
{
if (index($axis, "L")>-1 && index($axis, "R")==1)
{
print OUT "\\axis bottom shiftedto y=0 ticks numbered from ";
print OUT $xlow + $xticks," to -$xticks by $xticks\n from";
print OUT " $xticks to $xhigh by $xticks /\n";
}
elsif (index($axis, "L")==-1 && index($axis, "R")>-1)
{
print OUT "\\axis bottom shiftedto y=0 ticks numbered from ";
print OUT "$xlow to -$xticks by $xticks\n from ";
print OUT "$xticks to ",$xhigh-$xticks," by $xticks /\n";
}
elsif (index($axis, "L")>-1 && index($axis, "R")>-1)
{
print OUT "\\axis bottom shiftedto y=0 ticks numbered from ";
print OUT $xlow + $xticks," to -$xticks by $xticks\n from ";
print OUT "$xticks to ",$xhigh - $xticks," by $xticks /\n";
}
else
{
print OUT "\\axis bottom shiftedto y=0 ticks numbered from ";
print OUT "$xlow to -$xticks by $xticks\n from ";
print OUT "$xticks to $xhigh by $xticks /\n";
}
}
else
{
print OUT "\\axis bottom shiftedto y=0 /\n";
}
} }
LBRANCH: {if (index($axis, "L")>-1)
{
if (index($axis, "L")>-1)
{
if (index($axis, "L*")>-1)
{
print OUT "\\axis left /\n";
last LBRANCH;
}
if ($yticks > 0)
{
print OUT "\\axis left ticks numbered from ";
print OUT "$ylow to $yhigh by $yticks /\n";
}
else
{
print OUT "\\axis left /\n";
}
}
} }
RBRANCH: { if (index($axis, "R")>-1)
{
if (index($axis, "R*")>-1)
{
print OUT "\\axis right /\n";
last RBRANCH;
}
if ($yticks > 0)
{
print OUT "\\axis right ticks numbered from $ylow to $yhigh by ";
print OUT "$yticks /\n";
}
else
{
print OUT "\\axis right /\n";
}
} }
TBRANCH: { if (index($axis, "T")>-1)
{
if (index($axis, "T*")>-1)
{
print OUT "\\axis top /\n";
last TBRANCH;
}
if ($xticks > 0)
{
print OUT "\\axis top ticks numbered from $xlow to $xhigh by ";
print OUT "$xticks /\n";
}
else
{
print OUT "\\axis top /\n";
}
} }
BBRANCH: { if (index($axis, "B")>-1)
{
if (index($axis, "B*")>-1)
{
print OUT "\\axis bottom /\n";
last BBRANCH;
}
if ($xticks > 0)
{
print OUT "\\axis bottom ticks numbered from $xlow to $xhigh by ";
print OUT "$xticks /\n";
}
else
{
print OUT "\\axis bottom /\n";
}
} }
chk_comment($lc);
}
elsif (s/^\s*(PointSymbol(?=\W))//i)
{
my $cmd = $1;
print OUT "%% $cmd$_" if $comments_on;
chk_lparen("$cmd",$lc);
if (s/^default//i) #default point symbol
{
$defaultsymbol = "\$\\bullet\$";
}
elsif (s/^(circle|square)//i) {
$defaultsymbol = $1;
chk_lparen($defaultsymbol, $lc);
$GlobalDimOfPoints = expr($lc);
chk_rparen("expression", $lc);
}
elsif (s/^(((\\,){1}|(\\\)){1}|(\\\s){1}|[^\),\s])+)//) #arbitrary LaTeX point
{
$defaultsymbol = $1;
$defaultsymbol=~ s/\\\)/\)/g;
$defaultsymbol=~ s/\\,/,/g;
$defaultsymbol=~ s/\\ / /g;
}
else
{
PrintErrorMessage("unrecognized point symbol",$lc);
}
if (s/\s*,\s*//) {
$defaultLFradius = expr($lc);
}
chk_rparen("after $cmd arguments",$lc);
chk_comment("after $cmd command",$lc);
}
elsif (s/^\s*point(?=\W)//i)
{
my ($Point_Line);
chomp($Point_Line=$_);
my ($pointStar, $PointName, $origPN);
$pointStar = 0; # default value: he have a point command
$pointStar = 1 if s/^\*//;
chk_lparen("point" . (($pointStar)?"*":""),$lc);
if (s/^([^\W\d_](?![^\W\d_])\d{0,4})//i) {
#
# Note: the regular expression (foo)(?!bar) means that we are
# looking a foo not followed by a bar. Moreover, the regular
# expression [^\W\d_] means that we are looking for letter.
#
$origPN = $1;
$PointName = lc($1);
}
else {
PrintErrorMessage("Invalid point name",$lc);
next LINE;
}
#if ($pointStar and !exists($PointTable{$PointName})) {
# PrintWarningMessage("Point $origPN has not been defined",$lc);
#}
if (!$pointStar and exists($PointTable{$PointName})) {
PrintWarningMessage("Point $origPN has been used already",$lc);
}
chk_rparen("point" . (($pointStar)?"*":""). "($origPN",$lc);
chk_lcb("point" . (($pointStar)?"*":""). "($origPN)",$lc);
my ($Px, $Py);
if (s/^perpendicular(?=\W)//i) {
chk_lparen("perpendicular",$lc);
my $FirstPoint = &get_point($lc);
next LINE if $FirstPoint eq "_undef_";
chk_comma($lc);
my $SecondPoint = &get_point($lc);
next LINE if $SecondPoint eq "_undef_";
my $ThirdPoint = &get_point($lc);
next LINE if $ThirdPoint eq "_undef_";
chk_rparen("No closing parenthesis found",$lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$FirstPoint});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$SecondPoint});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$ThirdPoint});
($Px, $Py) = perpendicular($x1,$y1,$x2,$y2,$x3,$y3);
}
elsif (s/^intersection(?=\W)//i) {
chk_lparen("intersection",$lc);
my $FirstPoint = get_point($lc);
next LINE if $FirstPoint eq "_undef_";
my $SecondPoint = get_point($lc);
next LINE if $SecondPoint eq "_undef_";
chk_comma($lc);
my $ThirdPoint = get_point($lc);
next LINE if $ThirdPoint eq "_undef_";
my $ForthPoint = get_point($lc);
next LINE if $ForthPoint eq "_undef_";
chk_rparen("No closing parenthesis found",$lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$FirstPoint});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$SecondPoint});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$ThirdPoint});
my ($x4,$y4,$pSV4,$pS4)=unpack("d3A*",$PointTable{$ForthPoint});
($Px, $Py) = intersection4points($x1,$y1,$x2,$y2,$x3,$y3,$x4,$y4);
}
elsif (s/^midpoint(?=\W)//i) {
chk_lparen("midpoint",$lc);
my $FirstPoint = &get_point($lc);
next LINE if $FirstPoint eq "_undef_";
my $SecondPoint = &get_point($lc);
next LINE if $SecondPoint eq "_undef_";
chk_rparen("No closing parenthesis found",$lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$FirstPoint});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$SecondPoint});
($Px, $Py) = midpoint($x1, $y1, $x2, $y2);
}
elsif (s/^pointonline(?=\W)//i) {
chk_lparen("pointonline",$lc);
my $FirstPoint = &get_point($lc);
next LINE if $FirstPoint eq "_undef_";
my $SecondPoint = &get_point($lc);
next LINE if $SecondPoint eq "_undef_";
chk_comma($lc);
# now get the distance
my $distance = expr($lc);
chk_rparen("No closing parenthesis found",$lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$FirstPoint});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$SecondPoint});
($Px, $Py) = pointOnLine($x1,$y1,$x2,$y2,$distance);
}
elsif (s/^circumcircleCenter(?=\W)//i) {
chk_lparen("circumCircleCenter",$lc);
my $FirstPoint = &get_point($lc);
next LINE if $FirstPoint eq "_undef_";
my $SecondPoint = &get_point($lc);
next LINE if $SecondPoint eq "_undef_";
my $ThirdPoint = &get_point($lc);
next LINE if $ThirdPoint eq "_undef_";
chk_rparen("No closing parenthesis found",$lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$FirstPoint});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$SecondPoint});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$ThirdPoint});
($Px, $Py,$r) = &circumCircleCenter($x1,$y1,$x2,$y2,$x3,$y3,$lc);
next LINE if $Px == 0 and $Py == 0 and $r == 0;
}
elsif (s/^IncircleCenter(?=\W)//i) {
chk_lparen("IncircleCenter",$lc);
my $FirstPoint = &get_point($lc);
next LINE if $FirstPoint eq "_undef_";
my $SecondPoint = &get_point($lc);
next LINE if $SecondPoint eq "_undef_";
my $ThirdPoint = &get_point($lc);
next LINE if $ThirdPoint eq "_undef_";
chk_rparen("No closing parenthesis found",$lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$FirstPoint});
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$SecondPoint});
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$ThirdPoint});
($Px, $Py, $r) = IncircleCenter($x1,$y1,$x2,$y2,$x3,$y3);
}
elsif (s/^ExcircleCenter(?=\W)//i) {
chk_lparen("ExcircleCenter",$lc);
my $PointA = get_point($lc);
next LINE if $PointA eq "_undef_";
my $PointB = get_point($lc);
next LINE if $PointB eq "_undef_";
my $PointC = get_point($lc);
next LINE if $PointC eq "_undef_";
chk_comma($lc);
my $PointD = &get_point($lc);
next LINE if $PointD eq "_undef_";
if (!memberOf($PointD, $PointA, $PointB, $PointC)) {
PrintErrorMessage("Current point isn't a side point",$lc);
next LINE;
}
my $PointE = get_point($lc);
next LINE if $PointE eq "_undef_";
if (!memberOf($PointE, $PointA, $PointB, $PointC)) {
PrintErrorMessage("Current point isn't a side point",$lc);
next LINE;
}
if ($PointD eq $PointE) {
PrintErrorMessage("Side points are identical",$lc);
next LINE;
}
($Px, $Py, $r) = excircle($PointA, $PointB, $PointC,
$PointD, $PointE);
chk_rparen("after coordinates part",$lc);
}
elsif (/^[^\W\d_]\d{0,4}\s*[^,\w]/) {
m/^([^\W\d_]\d{0,4})\s*/i;
if (exists($PointTable{lc($1)})) {
my $Tcoord = get_point($lc);
my ($x,$y,$pSV,$pS)=unpack("d3A*",$PointTable{$Tcoord});
$Px = $x;
$Py = $y;
}
else {
$Px = expr();
chk_comma($lc);
$Py = expr();
}
}
elsif (/[^\W\d_]\d{0,4}\s*,\s*shift|polar|rotate|vector/i) { #a point?
s/^([^\W\d_]\d{0,4})//i;
my $PointA = $1;
if (exists($PointTable{lc($PointA)})) {
s/\s*//;
if (s/^,//) {
s/\s*//;
if (s/^shift(?=\W)//i) {
chk_lparen("shift",$lc);
my $dist1 = expr($lc);
chk_comma($lc);
my $dist2 = expr($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{lc($PointA)});
$Px = $x1 + $dist1;
$Py = $y1 + $dist2;
chk_rparen("shift part",$lc);
}
elsif (s/^polar(?=\W)//i) {
chk_lparen("polar",$lc);
my ($R1, $Theta1);
$R1 = expr($lc);
chk_comma($lc);
$Theta1 = expr($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{lc($PointA)});
s/\s*//;
if (s/^rad(?=\W)//i) {
# do nothing!
}
elsif (s/^deg(?=\W)//i) {
$Theta1 = $Theta1 * PI / 180;
}
else {
#$Theta1 = $Theta1 * PI / 180;
}
$Px = $x1 + $R1 * cos($Theta1);
$Py = $y1 + $R1 * sin($Theta1);
chk_rparen("after polar part",$lc);
}
elsif (s/^rotate(?=\W)//i) {
chk_lparen("rotate",$lc);
my $Q = lc($PointA);
my $P = get_point($lc);
next LINE if $P eq "_undef_";
chk_comma($lc);
my $Theta1 = expr($lc);
my ($xP,$yP,$pSV1,$pS1)=unpack("d3A*",$PointTable{$P});
my ($xQ,$yQ,$pSV2,$pS2)=unpack("d3A*",$PointTable{$Q});
s/\s*//;
if (s/^rad(?=\W)//i)
{
# do nothing!
}
elsif (s/^deg(?=\W)//i)
{
$Theta1 = $Theta1 * PI / 180;
}
else
{
$Theta1 = $Theta1 * PI / 180;
}
# shift origin to P
$xQ -= $xP;
$yQ -= $yP;
# do the rotation
$Px = $xQ * cos($Theta1) - $yQ * sin($Theta1);
$Py = $xQ * sin($Theta1) + $yQ * cos($Theta1);
# return origin back to original origin
$Px += $xP;
$Py += $yP;
chk_rparen("after rotate part",$lc);
}
elsif (s/^vector(?=\W)//i) {
chk_lparen("vector",$lc);
my ($x0,$y0,$pSV0,$pS0) = unpack("d3A*",$PointTable{lc($PointA)});
my $P = get_point($lc);
my $Q = get_point($lc);
my ($x1,$y1,$pSV1,$pS1) = unpack("d3A*",$PointTable{$P});
my ($x2,$y2,$pSV2,$pS2) = unpack("d3A*",$PointTable{$Q});
$Px = $x0 + $x2 - $x1;
$Py = $y0 + $y2 - $y1;
chk_rparen("vector part",$lc);
}
else {
PrintErrorMessage("unexpected token",$lc);
next LINE;
}
}
else {
my ($xA,$yA,$pSVA,$pSA)=unpack("d3A*",$PointTable{lc($PointA)});
$Px = $xA;
$Py = $yA;
}
}
else {
PrintErrorMessage("Undefined point $PointA",$lc);
next LINE;
}
}
else {
$Px = expr();
chk_comma($lc);
$Py = expr();
}
chk_rcb("coordinates part",$lc);
my $sv = $defaultsymbol;
my $sh = $defaultLFradius;
my $side_or_radius = undef;
if (s/^\[\s*//) { # the user has opted to specify the optional part
if (/^(symbol|radius|side)\s*/i) {
my @previous_options = ();
my $number_of_options = 1;
my $symbol_set = 0;
while (s/^(symbol|radius)\s*//i and $number_of_options <= 2) {
my $option = lc($1);
if (s/^=\s*//) {
if (memberOf($option,@previous_options)) {
PrintErrorMessage("Option \"$option\" has been already defined", $lc);
my $dummy = expr($lc);
}
elsif ($option eq "radius") {
$sh = expr($lc);
$sv = $defaultsymbol if ! $symbol_set;
}
elsif ($option eq "symbol") {
if (s/^circle\s*//i) {
$sv = "circle";
chk_lparen("after token circle",$lc);
$side_or_radius = expr($lc);
chk_rparen("expression",$lc);
}
elsif (s/^square\s*//i) {
$sv = "square";
chk_lparen("after token square",$lc);
$side_or_radius = expr($lc);
chk_rparen("expression",$lc);
}
elsif (s/^(((\\\]){1}|(\\,){1}|(\\\s){1}|[^\],\s])+)//) {
$sv = $1;
$sv =~ s/\\\]/\]/g;
$sv =~ s/\\,/,/g;
$sv =~ s/\\ / /g;
s/\s*//;
}
$symbol_set = 1;
}
}
else {
PrintErrorMessage("unexpected token", $lc);
next LINE;
}
$number_of_options++;
push (@previous_options, $option);
s/^,\s*//;
}
}
else {
PrintErrorMessage("unexpected token", $lc);
next LINE;
}
chk_rsb("optional part",$lc);
}
# to avoid truncation problems introduced by the pack function, we
# round each number up to five decimal digits
$Px = sprintf("%.5f", $Px);
$Py = sprintf("%.5f", $Py);
print OUT "%% point$Point_Line \t$origPN = ($Px, $Py)\n" if $comments_on;
chk_comment($lc);
$PointTable{$PointName} = pack("d3A*",$Px,$Py,$sh,$sv);
if (defined($side_or_radius)) {
$DimOfPoint{$PointName} = $side_or_radius;
}
}
elsif (/^\s*setPointNumber(?=\W)/i)
{
PrintWarningMessage("Command setPointNumber is ignored",$lc);
next LINE;
}
elsif (s/^\s*(showAngle(?=\W))//i)
{
chk_lparen("showangle",$lc);
my $point_1 = get_point($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point_1});
my $point_2 = get_point($lc);
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point_2});
my $point_3 = get_point($lc);
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$point_3});
my $angle = Angle($x1, $y1, $x2, $y2, $x3, $y3);
$angle = 0 if $angle == -500;
printf OUT "%%%% angle(%s%s%s) = %.5f deg ( %.5f rad)\n", $point_1,
$point_2, $point_3, $angle, $angle*D2R;
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^\s*(showArea(?=\W))//i)
{
chk_lparen("showarea",$lc);
my $point_1 = get_point($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point_1});
my $point_2 = get_point($lc);
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point_2});
my $point_3 = get_point($lc);
my ($x3,$y3,$pSV3,$pS3)=unpack("d3A*",$PointTable{$point_3});
print OUT "%% area($point_1$point_2$point_3) = ",
triangleArea($x1, $y1, $x2, $y2, $x3, $y3), "\n";
chk_rparen("Missing right parenthesis", $lc);
}
elsif (s/^\s*(showLength(?=\W))//i)
{
chk_lparen("showlength",$lc);
my $point_1 = get_point($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{$point_1});
my $point_2 = get_point($lc);
my ($x2,$y2,$pSV2,$pS2)=unpack("d3A*",$PointTable{$point_2});
print OUT "%% length($point_1$point_2) = ",
Length($x1, $y1, $x2, $y2), "\n";
chk_rparen("Missing right parenthesis", $lc);
}
elsif (/^\s*showPoints(?=\W)/i)
{
print OUT "%%-------------------------------------------------\n";
print OUT "%% L I S T O F P O I N T S \n";
print OUT "%%-------------------------------------------------\n";
foreach my $p (keys(%PointTable)) {
my ($x, $y, $pSV, $pS) = unpack("d3A*",$PointTable{$p});
printf OUT "%%%%\t%s\t= ( %.5f, %.5f ), LF-radius = %.5f, symbol = %s\n",
$p, $x, $y, $pSV, $pS;
}
print OUT "%%-------------------------------------------------\n";
print OUT "%% E N D O F L I S T O F P O I N T S \n";
print OUT "%%-------------------------------------------------\n";
next LINE;
}
elsif (/^\s*showVariables(?=\W)/i)
{
print OUT "%%-------------------------------------------------\n";
print OUT "%% L I S T O F V A R I A B L E S \n";
print OUT "%%-------------------------------------------------\n";
foreach my $var (keys(%VarTable)) {
print OUT "%%\t", $var, "\t=\t", $VarTable{$var}, "\n";
}
print OUT "%%-------------------------------------------------\n";
print OUT "%% E N D O F L I S T O F V A R I A B L E S \n";
print OUT "%%-------------------------------------------------\n";
next LINE;
}
elsif (s/^\s*(system(?=\W))//i)
{
print OUT "%% $1$_" if $comments_on;
chk_lparen("$cmd",$lc);
my ($error, $command, $rest) = get_string($_);
next LINE if $error == 1;
$_ = $rest;
if (! is_tainted($command)) {
system($command);
}
else {
PrintErrorMessage("String \"$command\" has tainted data", $lc);
next LINE;
}
chk_rparen("after $cmd arguments",$lc);
chk_comment("after $cmd command",$lc);
}
elsif (s/^\s*(text(?=\W))//i)
{
print OUT "%% $1$_" if $comments_on;
chk_lparen("text",$lc);
my ($level,$text)=(1,"");
TEXTLOOP: while (1)
{
$level++ if /^\(/;
$level-- if /^\)/;
s/^(.)//;
last TEXTLOOP if $level==0;
$text .= $1;
}
chk_lcb("text part",$lc);
my ($Px, $Py,$dummy,$pos);
$pos="";
s/\s*//;
if (/^[^\W\d_]\d{0,4}\s*[^,\w]/) {
my $Tcoord = get_point($lc);
my ($x,$y,$pSV,$pS)=unpack("d3A*",$PointTable{$Tcoord});
$Px = $x;
$Py = $y;
}
elsif (/[^\W\d_]\d{0,4}\s*,\s*shift|polar/i) {
s/^([^\W\d_]\d{0,4})//i;
my $PointA = $1;
if (exists($PointTable{lc($PointA)})) {
s/\s*//;
if (s/^,//) {
s/\s*//;
if (s/^shift(?=\W)//i) {
chk_lparen("shift",$lc);
my $dist1 = expr($lc);
chk_comma($lc);
my $dist2 = expr($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{lc($PointA)});
$Px = $x1 + $dist1;
$Py = $y1 + $dist2;
chk_rparen("shift part",$lc);
}
elsif (s/^polar(?=\W)//i) {
chk_lparen("polar",$lc);
my ($R1, $Theta1);
$R1 = expr($lc);
chk_comma($lc);
$Theta1 = expr($lc);
my ($x1,$y1,$pSV1,$pS1)=unpack("d3A*",$PointTable{lc($PointA)});
s/\s*//;
if (s/^rad(?=\W)//i) {
# do nothing!
}
elsif (s/^deg(?=\W)//i) {
$Theta1 = $Theta1 * PI / 180;
}
else {
#$Theta1 = $Theta1 * PI / 180;
}
$Px = $x1 + $R1 * cos($Theta1);
$Py = $y1 + $R1 * sin($Theta1);
chk_rparen("after polar part",$lc);
}
}
}
else {
PrintErrorMessage("undefined point/var",$lc);
next LINE;
}
}
else {
$Px = expr();
chk_comma($lc);
$Py = expr();
}
chk_rcb("coordinates part of text command",$lc);
if (s/^\[//)
{
s/\s*//;
if (s/^(\w{1})\s*//) {
$pos .= $1;
if (memberOf($pos, "l", "r")) {
if (s/^(\w{1})\s*//) {
my $np = $1;
if (memberOf($np, "t", "b", "B")) {
$pos .= $np;
}
else {
if (memberOf($np, "l", "r")) {
PrintErrorMessage("$np can't follow 'l' or 'r'", $lc);
}
else {
PrintErrorMessage("$np is not a valid positioning option", $lc);
}
next LINE;
}
}
}
elsif (memberOf($pos, "t", "b", "B")) {
if (s/^(\w{1})\s*//) {
my $np = $1;
if (memberOf($np, "l", "r")) {
$pos .= $np;
}
else {
if (memberOf($np, "t", "b", "B")) {
PrintErrorMessage("$np can't follow 't', 'b', or 'B'", $lc);
}
else {
PrintErrorMessage("$np is not a valid positioning option", $lc);
}
next LINE;
}
}
}
else {
PrintErrorMessage("$pos is not a valid positioning option", $lc);
next LINE;
}
}
else {
PrintErrorMessage("illegal token in optional part of text command",$lc);
next LINE;
}
s/\s*//;
chk_rsb("optional part of text command",$lc);
}
chk_comment($lc);
if ($pos eq "")
{
printf OUT "\\put {%s} at %f %f\n", $text, $Px, $Py;
}
else
{
printf OUT "\\put {%s} [%s] at %f %f\n", $text, $pos, $Px, $Py;
}
}
elsif (s/^\s*(var(?=\W))//i)
{
print OUT "%% $1$_" if $comments_on;
do{
s/\s*//;
PrintErrorMessage("no identifier found after token var",$lc)
if $_ !~ s/^([^\W\d_]\d{0,4})//i;
my $Varname = $1;
my $varname = lc($Varname);
if (exists $ConstTable{$varname}) {
PrintErrorMessage("Redefinition of constant $varname",$lc);
}
s/\s*//; #remove leading white space
PrintErrorMessage("did not find expected = sign",$lc)
if $_ !~ s/^[=]//i;
my $val = expr($lc);
$VarTable{$varname} = $val;
print OUT "%% $Varname = $val\n" if $comments_on;
}while (s/^,//);
chk_comment($lc);
s/\s*//;
if (/^[^%]/) {
PrintWarningMessage("Trailing text is ignored",$lc);
}
}
elsif (/^\s*\\(.+)/)
{
my $line = $1;
if ($line =~ /^\s+(.+)/)
{
print OUT " $line\n";
}
else
{
print OUT "\\$line\n";
}
next LINE;
}
elsif (0==length) #empty line
{
next LINE;
}
else {
PrintErrorMessage("command not recognized",$lc);
next LINE;
}
}
}
}
our $alarm="";
our $comments_on=1;
our $out_file="default";
our $argc=@ARGV;
if ($argc == 0 || $argc > 5 ){ # no command line arguments or more than 4
# arguments
die "\nmathspic version $version_number\n" .
"Usage: mathspic [-h] [-b] [-c] [-o <out file>] <in file>\n\n";
}
else {
our $file = "";
SWITCHES:
while($_ = $ARGV[0]) {
shift;
if (/^-h$/) {
die "\nThis is mathspic version $version_number\n" .
"Type \"man mathspic\" for detailed help\n".
"Usage:\tmathspic [-h] [-b] [-c] [-o <out file>] <in file>\n" .
"\twhere,\n" .
"\t[-b]\tenables bell sound if error exists\n" .
"\t[-c]\tdisables comments in output file\n" .
"\t[-h]\tgives this help listing\n" .
"\t[-o]\tcreates specified output file\n\n";
}
elsif (/^-b$/) {
$alarm = chr(7);
}
elsif (/^-c$/) {
$comments_on = 0;
}
elsif (/^-o$/) {
die "No output file specified!\n" if !@ARGV;
$out_file = $ARGV[0];
shift;
}
elsif (/^-\w+/) {
die "$_: Illegal command line switch!\n";
}
else {
$file = $_;
}
}my ($xA, $yA, $xB, $yB, $dist)=@_;
die "No input file specified!\n" if $file eq "";
print "This is mathspic version $version_number\n";
}
our ($source_file, $log_file);
if (! -e $file) {
die "$file: no such file!\n" if (! (-e "$file.m"));
$source_file = "$file.m";
}
else {
$source_file = $file;
$file = $1 if $file =~ /(\w[\w-\.]+)\.\w+/;
}
$out_file= "$file.mt" if $out_file eq "default";
$log_file= "$file.mlg";
open(IN,"$source_file")||die "Can't open source file: $source_file\n";
open(OUT,">$out_file")||die "Can't open output file: $out_file\n";
open(LOG,">$log_file")||die "Can't open log file: $log_file\n";
print_headers;
process_input(IN,"");
print $alarm if $no_errors > 0;
__END__
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