Lines Matching defs:y1
578 if (isset($gradient_info['info']['y1'])) {
579 $gradient_info['info']['y1'] = ($gradient_info['info']['y1'] - $y_offset) / $h;
593 if (isset($gradient_info['info']['y1'])) {
594 $y1 = $gradient_info['info']['y1'];
596 $y1 = 0;
615 if (strpos($y1, '%') !== false) {
616 $y1 = (stristr($y1, '%', true) + 0) / 100;
630 $angle = rad2deg(atan2(($gradient_info['info']['y2'] - $gradient_info['info']['y1']), ($gradient_info['info']['x2'] - $gradient_info['info']['x1'])));
638 $y1 *= $h / $w;
688 $py1 = $y1 + ($y2 - $y1) * $tmp;
690 $alpha = atan2($y2 - $y1, $x2 - $x1);
731 $py1 = $y1 + ($y2 - $y1) * $tmp;
733 $alpha = atan2($y2 - $y1, $x2 - $x1);
784 $gry1 = $y1 + ($y2 - $y1) * $gradient_info['color'][0]['offset'];
786 $gry2 = $y1 + ($y2 - $y1) * $gradient_info['color'][count($gradient_info['color']) - 1]['offset'];
818 if (isset($gradient_info['info']['y1'])) {
819 $gradient_info['info']['y1'] = ($gradient_info['info']['y1'] - $y_offset) / $h;
858 if (isset($gradient_info['info']['y1'])) {
859 $y1 = $gradient_info['info']['y1'];
861 $y1 = $y0;
870 if (strpos($y1, '%') !== false) {
871 $y1 = (stristr($y1, '%', true) + 0) / 100;
892 $ay1 = isset($gradient_info['info']['y1']) ? $gradient_info['info']['y1'] : 0;
908 $y1 *= $h / $w;
940 // x1 and y1 (fx, fy) should be inside the circle defined by x0 y0 (cx, cy)
943 while (pow(($x1 - $x0), 2) + pow(($y1 - $y0), 2) >= pow($r, 2)) {
946 $y1 -= ($y1 - $y0) / 100;
974 $py = $y1 + ($y0 - $y1) * $tmp;
1013 $gry1 = $y1 + ($y0 - $y1) * $gradient_info['color'][0]['offset'];
1015 $gry2 = $y1 + ($y0 - $y1) * $gradient_info['color'][count($gradient_info['color']) - 1]['offset'];
1752 $y1 = $this->lastcontrolpoints[1];
1763 $pdfy1 = ($this->ybase - $y1);
1774 $pdfy1 = $this->ybase - $y1;
1809 $y1 = ($a[$i + 1]);
1818 $pdfy1 = ($this->ybase - $y1);
1829 $pdfy1 = -$y1;
1865 $y1 = ($a[$i + 1]);
1875 $pdfy1 = ($this->ybase - ($y1 * 2 / 3));
1889 $pdfy1 = ($this->ybase - (($y1 + $this->ybase) * 2 / 3));
1892 $pdfy2 = (-$y - (($y1 - $y) * 2 / 3));
1935 $y1 = $this->lastcontrolpoints[1];
1942 $pdfy1 = ($this->ybase - ($y1));
1956 $pdfy1 = ($this->ybase - ($y1));
1997 $y1 = -$this->ybase;
2009 list($pcmd, $bounds) = $this->Arcto($x1, $y1, $x2, $y2, $rx, $ry, $angle, $largeArcFlag, $sweepFlag);
2049 function Arcto($x1, $y1, $x2, $y2, $rx, $ry, $angle, $largeArcFlag, $sweepFlag)
2052 $bounds = [0 => [$x1, $x2], 1 => [$y1, $y2]];
2056 // If the endpoints (x1, y1) and (x2, y2) are identical, then this
2058 if ($x1 == $x2 && $y1 == $y2) {
2083 $x1dash = $cosPhi * ($x1 - $x2) / 2.0 + $sinPhi * ($y1 - $y2) / 2.0;
2084 $y1dash = -$sinPhi * ($x1 - $x2) / 2.0 + $cosPhi * ($y1 - $y2) / 2.0;
2091 // the ellipse is not big enough to reach from (x1, y1) to (x2,
2110 $cy = $sinPhi * $cxdash + $cosPhi * $cydash + ($y1 + $y2) / 2.0;
2150 $coords[$i] = [($x1 + $dx1), ($y1 + $dy1), ($xe + $dxe), ($ye + $dye), $xe, $ye];
2155 $y1 = $ye;
2307 $y1 = -$cy + $ry;
2318 $path_cmd = sprintf('%.3F %.3F m ', $x1 * $this->kp, $y1 * $this->kp);
2319 $path_cmd .= sprintf('%.3F %.3F %.3F %.3F %.3F %.3F c ', ($x1 + ($rx * $kappa)) * $this->kp, $y1 * $this->kp, $x2 * $this->kp, ($y2 + ($ry * $kappa)) * $this->kp, $x2 * $this->kp, $y2 * $this->kp);
2322 $path_cmd .= sprintf('%.3F %.3F %.3F %.3F %.3F %.3F c ', $x4 * $this->kp, ($y4 + ($ry * $kappa)) * $this->kp, ($x1 - ($rx * $kappa)) * $this->kp, $y1 * $this->kp, $x1 * $this->kp, $y1 * $this->kp);
3514 if (isset($attribs['y1'])) {
3515 $tmp_gradient['info']['y1'] = $attribs['y1'];
3554 $tmp_gradient['info']['y1'] = $attribs['fy'];
3800 $arguments[1] = (isset($attribs['y1']) ? $attribs['y1'] : '');
3805 unset($critere_style['x1'], $critere_style['y1'], $critere_style['x2'], $critere_style['y2']);
4287 private function testIntersect($x1, $y1, $x2, $y2, $x3, $y3, $x4, $y4)
4289 // Tests whether line (x1, y1) and (x2, y2) [a gradient axis (perpendicular)]
4291 $a1 = $y2 - $y1;
4293 $c1 = $a1 * $x1 + $b1 * $y1;