jef-sure · March 19, 2021 14:09
diff --git a/mathe-division-2.pl b/mathe-division-2.pl
 use PDF::Haru;
 use Text::QRCode;
 use POSIX 'floor';
 use strict;
 use warnings;

 # create new document
 my $pdf = PDF::Haru::New();
 #$pdf->LoadTTFontFromFile("/usr/share/fonts/truetype/msttcorefonts/arial.ttf", HPDF_TRUE);
 # add page
 my $page = $pdf->AddPage();
 # set page size and orientation
 $page->SetSize(HPDF_PAGE_SIZE_A4, HPDF_PAGE_PORTRAIT);
 #my $font = $pdf->GetFont("ArialMT", "StandardEncoding");
 my $font = $pdf->GetFont("Helvetica", "StandardEncoding");
 $page->SetFontAndSize($font, 12);

 my $max = 100;

 my $page_width     = $page->GetWidth();
 my $page_height    = $page->GetHeight();
 my $pixes_in_mm    = $page->GetWidth() / 210;
 my $zero_width     = $page->TextWidth("0");
 my $template_width = $page->TextWidth("0" x 9);

 sub mm_to_pix ($) {
    return $_[0] * $pixes_in_mm;
 }

 my @divisors_set;

 sub init_divisors_set {
    for (0 .. 99) {
        $divisors_set[$_] = $_ < 3 || $_ == 10 ? 0 : 1;
    }
 }

 sub get_divisor {
    my $sum = 0;
    $sum += $_ for @divisors_set;
    my $w = rand() * $sum;
    my $d;
    $sum = 0;
    for ($d = 0; $d < @divisors_set; ++$d) {
        $sum += $divisors_set[$d];
        if ($sum > $w) {
            last;
        }
    }
    $divisors_set[$d] /= 3;
    return $d;
 }

 sub make_equation {
    my $divisor = get_divisor();
    my $d       = rand > 0.0 ? int(rand(90000)) + 10000 : int(rand(9000)) + 1000;
    my $q       = floor($d / $divisor);
    $d = $q * $divisor;
    return ("$d : $divisor", $q);
 }

 sub draw_qr {
    my ($code, $x, $y, $width) = @_;
    my $lw = $page->GetLineWidth();
    my ($r, $g, $b) = $page->GetRGBStroke();
    $page->SetRGBStroke(0.0, 0.0, 0.0);
    my $qr_text_array = Text::QRCode->new()->plot($code);
    my $qrpw          = mm_to_pix($width / @$qr_text_array);
    $page->SetLineWidth($qrpw);
    for (my $row = 0; $row < @$qr_text_array; ++$row) {
        my $ql = $qr_text_array->[$row];
        for (my $col = 0; $col < @$ql; ++$col) {
            if ($ql->[$col] eq '*') {    # black
                $page->MoveTo($x + $col * $qrpw, $y + $row * $qrpw);
                $page->LineTo($x + ($col + 1) * $qrpw, $y + ($row + 0) * $qrpw);
            }
        }
    }
    $page->Stroke();
    $page->SetLineWidth($lw);
    $page->SetRGBStroke($r, $g, $b);

 }

 sub draw_equation {
    my ($x,    $y) = @_;
    my ($text, $q) = make_equation();
    my $tw       = $page->TextWidth($text);
    my $qr_shift = mm_to_pix(7 + 2);
    draw_qr($q, $x, $y, 7);
    my $xo = ($template_width - $tw) / 2;
    $page->BeginText();
    $page->TextOut($x + $xo + $qr_shift,             $y, $text);
    $page->TextOut($x + $template_width + $qr_shift, $y, "=");
    $page->EndText();
    $page->MoveTo($x + $template_width + $qr_shift + $zero_width + mm_to_pix(2), $y + mm_to_pix(-1));
    $page->LineTo($x + $template_width + $qr_shift + $zero_width * 8, $y + mm_to_pix(-1));
    $page->Stroke();
    my ($r, $g, $b) = $page->GetRGBStroke();
    $page->SetRGBStroke(0.0, 0.6, 1.0);
    $page->SetLineWidth(0.3);

    for (my $ly = $y + mm_to_pix(-4); $ly > $y - mm_to_pix(55); $ly -= mm_to_pix(5)) {
        $page->MoveTo($x, $ly);
        $page->LineTo($x + mm_to_pix(50), $ly);
    }
    for (my $lx = $x + mm_to_pix(2); $lx < $x + mm_to_pix(50); $lx += mm_to_pix(5)) {
        $page->MoveTo($lx, $y - mm_to_pix(2));
        $page->LineTo($lx, $y - mm_to_pix(57));
    }
    $page->Stroke();
    $page->SetRGBStroke($r, $g, $b);
    $page->SetLineWidth(1);

 }

 init_divisors_set();
 for (my $x = mm_to_pix(20); $x < $page_width - int mm_to_pix 70; $x += int mm_to_pix 57) {
    for (my $y = mm_to_pix(70); $y < $page_height - mm_to_pix(20); $y += int mm_to_pix 65) {
        draw_equation($x, $y);
    }
 }

 my $bottom = 10;
 my $top    = 297 - 20;
 my $left   = 15;
 my $right  = 210 - 15;
 my $radius = 3;

 $page->Arc(mm_to_pix($left + $radius), mm_to_pix($bottom + $radius), mm_to_pix($radius), 180, 270);
 $page->Stroke();
 $page->Arc(mm_to_pix($right - $radius), mm_to_pix($bottom + $radius), mm_to_pix($radius), 90, 180);
 $page->Stroke();
 $page->Arc(mm_to_pix($left + $radius), mm_to_pix($top - $radius), mm_to_pix($radius), 270, 360);
 $page->Stroke();
 $page->Arc(mm_to_pix($right - $radius), mm_to_pix($top - $radius), mm_to_pix($radius), 0, 90);
 $page->Stroke();
 $page->MoveTo(mm_to_pix($right - $radius), mm_to_pix($bottom));
 $page->LineTo(mm_to_pix($left + $radius), mm_to_pix($bottom));
 $page->MoveTo(mm_to_pix($right - $radius), mm_to_pix($top));
 $page->LineTo(mm_to_pix($left + $radius), mm_to_pix($top));
 $page->MoveTo(mm_to_pix($left), mm_to_pix($top - $radius));
 $page->LineTo(mm_to_pix($left), mm_to_pix($bottom + $radius));
 $page->MoveTo(mm_to_pix($right), mm_to_pix($top - $radius));
 $page->LineTo(mm_to_pix($right), mm_to_pix($bottom + $radius));
 $page->Stroke();

 # save the document to a file
 $pdf->SaveToFile("filename.pdf");

 # cleanup
 $pdf->Free();
	use PDF::Haru;
	use Text::QRCode;
	use POSIX 'floor';
	use strict;
	use warnings;

	# create new document
	my $pdf = PDF::Haru::New();
	#$pdf->LoadTTFontFromFile("/usr/share/fonts/truetype/msttcorefonts/arial.ttf", HPDF_TRUE);
	# add page
	my $page = $pdf->AddPage();
	# set page size and orientation
	$page->SetSize(HPDF_PAGE_SIZE_A4, HPDF_PAGE_PORTRAIT);
	#my $font = $pdf->GetFont("ArialMT", "StandardEncoding");
	my $font = $pdf->GetFont("Helvetica", "StandardEncoding");
	$page->SetFontAndSize($font, 12);

	my $max = 100;

	my $page_width = $page->GetWidth();
	my $page_height = $page->GetHeight();
	my $pixes_in_mm = $page->GetWidth() / 210;
	my $zero_width = $page->TextWidth("0");
	my $template_width = $page->TextWidth("0" x 9);

	sub mm_to_pix ($) {
	return $_[0] * $pixes_in_mm;
	}

	my @divisors_set;

	sub init_divisors_set {
	for (0 .. 99) {
	$divisors_set[$_] = $_ < 3 \|\| $_ == 10 ? 0 : 1;
	}
	}

	sub get_divisor {
	my $sum = 0;
	$sum += $_ for @divisors_set;
	my $w = rand() * $sum;
	my $d;
	$sum = 0;
	for ($d = 0; $d < @divisors_set; ++$d) {
	$sum += $divisors_set[$d];
	if ($sum > $w) {
	last;
	}
	}
	$divisors_set[$d] /= 3;
	return $d;
	}

	sub make_equation {
	my $divisor = get_divisor();
	my $d = rand > 0.0 ? int(rand(90000)) + 10000 : int(rand(9000)) + 1000;
	my $q = floor($d / $divisor);
	$d = $q * $divisor;
	return ("$d : $divisor", $q);
	}

	sub draw_qr {
	my ($code, $x, $y, $width) = @_;
	my $lw = $page->GetLineWidth();
	my ($r, $g, $b) = $page->GetRGBStroke();
	$page->SetRGBStroke(0.0, 0.0, 0.0);
	my $qr_text_array = Text::QRCode->new()->plot($code);
	my $qrpw = mm_to_pix($width / @$qr_text_array);
	$page->SetLineWidth($qrpw);
	for (my $row = 0; $row < @$qr_text_array; ++$row) {
	my $ql = $qr_text_array->[$row];
	for (my $col = 0; $col < @$ql; ++$col) {
	if ($ql->[$col] eq '*') { # black
	$page->MoveTo($x + $col * $qrpw, $y + $row * $qrpw);
	$page->LineTo($x + ($col + 1) * $qrpw, $y + ($row + 0) * $qrpw);
	}
	}
	}
	$page->Stroke();
	$page->SetLineWidth($lw);
	$page->SetRGBStroke($r, $g, $b);

	}

	sub draw_equation {
	my ($x, $y) = @_;
	my ($text, $q) = make_equation();
	my $tw = $page->TextWidth($text);
	my $qr_shift = mm_to_pix(7 + 2);
	draw_qr($q, $x, $y, 7);
	my $xo = ($template_width - $tw) / 2;
	$page->BeginText();
	$page->TextOut($x + $xo + $qr_shift, $y, $text);
	$page->TextOut($x + $template_width + $qr_shift, $y, "=");
	$page->EndText();
	$page->MoveTo($x + $template_width + $qr_shift + $zero_width + mm_to_pix(2), $y + mm_to_pix(-1));
	$page->LineTo($x + $template_width + $qr_shift + $zero_width * 8, $y + mm_to_pix(-1));
	$page->Stroke();
	my ($r, $g, $b) = $page->GetRGBStroke();
	$page->SetRGBStroke(0.0, 0.6, 1.0);
	$page->SetLineWidth(0.3);

	for (my $ly = $y + mm_to_pix(-4); $ly > $y - mm_to_pix(55); $ly -= mm_to_pix(5)) {
	$page->MoveTo($x, $ly);
	$page->LineTo($x + mm_to_pix(50), $ly);
	}
	for (my $lx = $x + mm_to_pix(2); $lx < $x + mm_to_pix(50); $lx += mm_to_pix(5)) {
	$page->MoveTo($lx, $y - mm_to_pix(2));
	$page->LineTo($lx, $y - mm_to_pix(57));
	}
	$page->Stroke();
	$page->SetRGBStroke($r, $g, $b);
	$page->SetLineWidth(1);

	}

	init_divisors_set();
	for (my $x = mm_to_pix(20); $x < $page_width - int mm_to_pix 70; $x += int mm_to_pix 57) {
	for (my $y = mm_to_pix(70); $y < $page_height - mm_to_pix(20); $y += int mm_to_pix 65) {
	draw_equation($x, $y);
	}
	}

	my $bottom = 10;
	my $top = 297 - 20;
	my $left = 15;
	my $right = 210 - 15;
	my $radius = 3;

	$page->Arc(mm_to_pix($left + $radius), mm_to_pix($bottom + $radius), mm_to_pix($radius), 180, 270);
	$page->Stroke();
	$page->Arc(mm_to_pix($right - $radius), mm_to_pix($bottom + $radius), mm_to_pix($radius), 90, 180);
	$page->Stroke();
	$page->Arc(mm_to_pix($left + $radius), mm_to_pix($top - $radius), mm_to_pix($radius), 270, 360);
	$page->Stroke();
	$page->Arc(mm_to_pix($right - $radius), mm_to_pix($top - $radius), mm_to_pix($radius), 0, 90);
	$page->Stroke();
	$page->MoveTo(mm_to_pix($right - $radius), mm_to_pix($bottom));
	$page->LineTo(mm_to_pix($left + $radius), mm_to_pix($bottom));
	$page->MoveTo(mm_to_pix($right - $radius), mm_to_pix($top));
	$page->LineTo(mm_to_pix($left + $radius), mm_to_pix($top));
	$page->MoveTo(mm_to_pix($left), mm_to_pix($top - $radius));
	$page->LineTo(mm_to_pix($left), mm_to_pix($bottom + $radius));
	$page->MoveTo(mm_to_pix($right), mm_to_pix($top - $radius));
	$page->LineTo(mm_to_pix($right), mm_to_pix($bottom + $radius));
	$page->Stroke();

	# save the document to a file
	$pdf->SaveToFile("filename.pdf");

	# cleanup
	$pdf->Free();