function RoundedRect($x, $y, $w, $h, $r, $style = '', $angle = '1234') { $k = $this->k; $hp = $this->h; if($style=='F') $op='f'; elseif($style=='FD' or $style=='DF') $op='B'; else $op='S'; $MyArc = 4/3 * (sqrt(2) - 1); $this->_out(sprintf('%.2f %.2f m', ($x+$r)*$k, ($hp-$y)*$k )); $xc = $x+$w-$r; $yc = $y+$r; $this->_out(sprintf('%.2f %.2f l', $xc*$k, ($hp-$y)*$k )); if (strpos($angle, '2')===false) $this->_out(sprintf('%.2f %.2f l', ($x+$w)*$k, ($hp-$y)*$k )); else $this->_Arc($xc + $r*$MyArc, $yc - $r, $xc + $r, $yc - $r*$MyArc, $xc + $r, $yc); $xc = $x+$w-$r; $yc = $y+$h-$r; $this->_out(sprintf('%.2f %.2f l', ($x+$w)*$k, ($hp-$yc)*$k)); if (strpos($angle, '3')===false) $this->_out(sprintf('%.2f %.2f l', ($x+$w)*$k, ($hp-($y+$h))*$k)); else $this->_Arc($xc + $r, $yc + $r*$MyArc, $xc + $r*$MyArc, $yc + $r, $xc, $yc + $r); $xc = $x+$r; $yc = $y+$h-$r; $this->_out(sprintf('%.2f %.2f l', $xc*$k, ($hp-($y+$h))*$k)); if (strpos($angle, '4')===false) $this->_out(sprintf('%.2f %.2f l', ($x)*$k, ($hp-($y+$h))*$k)); else $this->_Arc($xc - $r*$MyArc, $yc + $r, $xc - $r, $yc + $r*$MyArc, $xc - $r, $yc); $xc = $x+$r ; $yc = $y+$r; $this->_out(sprintf('%.2f %.2f l', ($x)*$k, ($hp-$yc)*$k )); if (strpos($angle, '1')===false) { $this->_out(sprintf('%.2f %.2f l', ($x)*$k, ($hp-$y)*$k )); $this->_out(sprintf('%.2f %.2f l', ($x+$r)*$k, ($hp-$y)*$k )); } else $this->_Arc($xc - $r, $yc - $r*$MyArc, $xc - $r*$MyArc, $yc - $r, $xc, $yc - $r); $this->_out($op); } function _Arc($x1, $y1, $x2, $y2, $x3, $y3) { $h = $this->h; $this->_out(sprintf('%.2f %.2f %.2f %.2f %.2f %.2f c ', $x1*$this->k, ($h-$y1)*$this->k, $x2*$this->k, ($h-$y2)*$this->k, $x3*$this->k, ($h-$y3)*$this->k)); }