author | Giulio Cesare Solaroli <giulio.cesare@clipperz.com> | 2011-10-02 23:56:18 (UTC) |
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committer | Giulio Cesare Solaroli <giulio.cesare@clipperz.com> | 2011-10-02 23:56:18 (UTC) |
commit | ef68436ac04da078ffdcacd7e1f785473a303d45 (patch) (side-by-side diff) | |
tree | c403752d66a2c4775f00affd4fa8431b29c5b68c /frontend/gamma/js/Clipperz/PM/UI/Canvas | |
parent | 597ecfbc0249d83e1b856cbd558340c01237a360 (diff) | |
download | clipperz-ef68436ac04da078ffdcacd7e1f785473a303d45.zip clipperz-ef68436ac04da078ffdcacd7e1f785473a303d45.tar.gz clipperz-ef68436ac04da078ffdcacd7e1f785473a303d45.tar.bz2 |
First version of the newly restructured repository
Diffstat (limited to 'frontend/gamma/js/Clipperz/PM/UI/Canvas') (more/less context) (ignore whitespace changes)
15 files changed, 4920 insertions, 0 deletions
diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/CoverActions/download.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/CoverActions/download.js new file mode 100644 index 0000000..169946a --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/CoverActions/download.js @@ -0,0 +1,120 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// download.js +// Download +// +// Created by Giulio Cesare Solaroli on 3/15/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_CoverActions_downloadWidth = 46.0; +var kClipperz_PM_UI_Canvas_CoverActions_downloadHeight = 46.0; + +function Clipperz_PM_UI_Canvas_CoverActions_download(canvas, aColor, aFillColor, aThickness) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var stroke; + var path; + var pointX; + var pointY; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_CoverActions_downloadWidth + canvas.height / kClipperz_PM_UI_Canvas_CoverActions_downloadHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_CoverActions_downloadWidth, canvas.height / kClipperz_PM_UI_Canvas_CoverActions_downloadHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_CoverActions_downloadWidth, kClipperz_PM_UI_Canvas_CoverActions_downloadHeight); + + // arrow + + stroke = aThickness; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 16.5; + pointY = 22.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 19.5; + pointY = 8.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 30.038; + pointY = 10.605; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 27.354; + pointY = 24.354; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 33.28; + pointY = 25.293; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 19.81; + pointY = 36.828; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 10.07; + pointY = 21.617; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 16.5; + pointY = 22.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aFillColor; + context.fill(); + context.strokeStyle = aColor; + context.lineWidth = stroke; + context.lineCap = "square"; + context.stroke(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/CoverActions/look.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/CoverActions/look.js new file mode 100644 index 0000000..b8e535b --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/CoverActions/look.js @@ -0,0 +1,208 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// look.js +// Look +// +// Created by Giulio Cesare Solaroli on 3/15/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_CoverActions_lookWidth = 46.0; +var kClipperz_PM_UI_Canvas_CoverActions_lookHeight = 46.0; + +function Clipperz_PM_UI_Canvas_CoverActions_look(canvas, aColor, aFillColor, aThickness) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var stroke; + var path; + var pointX; + var pointY; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_CoverActions_lookWidth + canvas.height / kClipperz_PM_UI_Canvas_CoverActions_lookHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_CoverActions_lookWidth, canvas.height / kClipperz_PM_UI_Canvas_CoverActions_lookHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_CoverActions_lookWidth, kClipperz_PM_UI_Canvas_CoverActions_lookHeight); + + // Layer 6 + + stroke = aThickness; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.save(); + context.translate(17.5, 23.0); + context.rotate(-0.503); + context.translate(-17.5, -23.0); + context.beginPath(); + pointX = 28.5; + pointY = 31.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 28.5; + pointY = 14.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 6.5; + pointY = 14.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 6.5; + pointY = 31.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 28.5; + pointY = 31.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aFillColor; + context.fill(); + context.strokeStyle = aColor; + context.lineWidth = stroke; + context.lineCap = "square"; + context.stroke(); + context.restore(); + + // Layer 3 + + stroke = aThickness; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.save(); + context.translate(22.5, 20.0); + context.rotate(-0.071); + context.translate(-22.5, -20.0); + context.beginPath(); + pointX = 33.5; + pointY = 28.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 33.5; + pointY = 11.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 11.5; + pointY = 11.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 11.5; + pointY = 28.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 33.5; + pointY = 28.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aFillColor; + context.fill(); + context.strokeStyle = aColor; + context.lineWidth = stroke; + context.lineCap = "square"; + context.stroke(); + context.restore(); + + // Layer 4 + + stroke = aThickness; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.save(); + context.translate(27.5, 18.0); + context.rotate(0.232); + context.translate(-27.5, -18.0); + context.beginPath(); + pointX = 38.5; + pointY = 26.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 38.5; + pointY = 9.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 16.5; + pointY = 9.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 16.5; + pointY = 26.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 38.5; + pointY = 26.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aFillColor; + context.fill(); + context.strokeStyle = aColor; + context.lineWidth = stroke; + context.lineCap = "square"; + context.stroke(); + context.restore(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/directLogin.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/directLogin.js new file mode 100644 index 0000000..9c4e5ba --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/directLogin.js @@ -0,0 +1,209 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// directLogin.js +// directLogin +// +// Created by Giulio Cesare Solaroli on 3/7/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Features_directLoginWidth = 76.0; +var kClipperz_PM_UI_Canvas_Features_directLoginHeight = 76.0; + +function Clipperz_PM_UI_Canvas_Features_directLogin(canvas, aColor, aBannerColor, aBannerBackgroundColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var stroke; + var path; + var pointX; + var pointY; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_Features_directLoginWidth + canvas.height / kClipperz_PM_UI_Canvas_Features_directLoginHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Features_directLoginWidth, canvas.height / kClipperz_PM_UI_Canvas_Features_directLoginHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Features_directLoginWidth, kClipperz_PM_UI_Canvas_Features_directLoginHeight); + + // Layer 2 + + stroke = 6.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 30.0; + pointY = 41.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 45.579; + pointY = 25.451; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.lineWidth = stroke; + context.lineCap = "square"; + context.stroke(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 34.207; + pointY = 45.697; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 24.101; + pointY = 37.52; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 24.122; + pointY = 47.828; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 34.207; + pointY = 45.697; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + stroke = 6.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 24.631; + pointY = 28.971; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 46.497; + pointY = 26.451; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 25.014; + pointY = 35.265; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 22.166; + pointY = 22.58; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 15.784; + pointY = 30.675; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 25.014; + pointY = 35.265; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + stroke = 6.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 42.282; + pointY = 47.03; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 47.771; + pointY = 25.714; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 48.294; + pointY = 48.929; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 35.432; + pointY = 47.039; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 40.7; + pointY = 55.899; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 48.294; + pointY = 48.929; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/protect.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/protect.js new file mode 100644 index 0000000..501b69b --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/protect.js @@ -0,0 +1,237 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// protect.js +// protect +// +// Created by Giulio Cesare Solaroli on 3/7/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Features_protectWidth = 76.0; +var kClipperz_PM_UI_Canvas_Features_protectHeight = 76.0; + +function Clipperz_PM_UI_Canvas_Features_protect(canvas, aColor, aBannerColor, aBannerBackgroundColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var path; + var pointX; + var pointY; + var controlPoint1X; + var controlPoint1Y; + var controlPoint2X; + var controlPoint2Y; + var stroke; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_Features_protectWidth + canvas.height / kClipperz_PM_UI_Canvas_Features_protectHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Features_protectWidth, canvas.height / kClipperz_PM_UI_Canvas_Features_protectHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Features_protectWidth, kClipperz_PM_UI_Canvas_Features_protectHeight); + + // Layer 1 + + alignStroke = 0.0; + context.beginPath(); + pointX = 38.5; + pointY = 36.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 37.068; + pointY = 38.816; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 37.41; + controlPoint1Y = 36.234; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 37.175; + controlPoint2Y = 37.907; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 37.031; + pointY = 40.802; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 36.991; + controlPoint1Y = 39.474; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 36.98; + controlPoint2Y = 40.141; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 37.258; + pointY = 42.23; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 37.068; + controlPoint1Y = 41.283; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 37.139; + controlPoint2Y = 41.762; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 38.348; + pointY = 43.979; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 37.402; + controlPoint1Y = 42.799; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 37.682; + controlPoint2Y = 43.798; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 38.5; + pointY = 36.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 40.249; + controlPoint1Y = 44.497; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 40.723; + controlPoint2Y = 36.303; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 38.5; + pointY = 36.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 50.0; + pointY = 52.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 26.0; + pointY = 52.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 26.0; + pointY = 33.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 50.0; + pointY = 33.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 50.0; + pointY = 52.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 47.0; + pointY = 32.463; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 38.0; + pointY = 52.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 47.0; + controlPoint1Y = 52.925; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 38.0; + controlPoint2Y = 52.0; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 29.0; + pointY = 32.463; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 38.0; + controlPoint1Y = 52.0; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 29.0; + controlPoint2Y = 52.925; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 47.0; + pointY = 32.463; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 29.0; + controlPoint1Y = 12.0; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 47.0; + controlPoint2Y = 12.0; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + context.closePath(); + context.strokeStyle = aColor; + stroke = 4.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + stroke *= 2.0; + context.lineWidth = stroke; + context.lineCap = "square"; + context.save(); + context.clip(); + context.stroke(); + context.restore(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/share.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/share.js new file mode 100644 index 0000000..825a17e --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/share.js @@ -0,0 +1,1719 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// share.js +// share +// +// Created by Giulio Cesare Solaroli on 3/7/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Features_shareWidth = 76.0; +var kClipperz_PM_UI_Canvas_Features_shareHeight = 76.0; + +function Clipperz_PM_UI_Canvas_Features_share(canvas, aColor, aBannerColor, aBannerBackgroundColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var path; + var pointX; + var pointY; + var controlPoint1X; + var controlPoint1Y; + var controlPoint2X; + var controlPoint2Y; + var stroke; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_Features_shareWidth + canvas.height / kClipperz_PM_UI_Canvas_Features_shareHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Features_shareWidth, canvas.height / kClipperz_PM_UI_Canvas_Features_shareHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Features_shareWidth, kClipperz_PM_UI_Canvas_Features_shareHeight); + + // Layer 1 + + alignStroke = 0.0; + context.beginPath(); + pointX = 43.179; + pointY = 18.621; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 37.163; + pointY = 12.605; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 43.179; + controlPoint1Y = 15.32; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 40.463; + controlPoint2Y = 12.605; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 31.147; + pointY = 18.621; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 33.863; + controlPoint1Y = 12.605; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 31.147; + controlPoint2Y = 15.32; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 37.163; + pointY = 24.637; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 31.147; + controlPoint1Y = 21.921; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 33.863; + controlPoint2Y = 24.637; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 43.179; + pointY = 18.621; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 40.463; + controlPoint1Y = 24.637; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 43.179; + controlPoint2Y = 21.921; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 56.548; + pointY = 53.379; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 51.2; + pointY = 48.032; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 56.548; + controlPoint1Y = 50.446; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 54.134; + controlPoint2Y = 48.032; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 45.853; + pointY = 53.379; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 48.267; + controlPoint1Y = 48.032; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 45.853; + controlPoint2Y = 50.446; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 51.2; + pointY = 58.727; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 45.853; + controlPoint1Y = 56.313; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 48.267; + controlPoint2Y = 58.727; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 56.548; + pointY = 53.379; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 54.134; + controlPoint1Y = 58.727; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 56.548; + controlPoint2Y = 56.313; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 31.147; + pointY = 38.674; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 25.8; + pointY = 33.326; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 31.147; + controlPoint1Y = 35.74; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 28.733; + controlPoint2Y = 33.326; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 20.452; + pointY = 38.674; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 22.866; + controlPoint1Y = 33.326; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 20.452; + controlPoint2Y = 35.74; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 25.8; + pointY = 44.021; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 20.452; + controlPoint1Y = 41.607; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 22.866; + controlPoint2Y = 44.021; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 31.147; + pointY = 38.674; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 28.733; + controlPoint1Y = 44.021; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 31.147; + controlPoint2Y = 41.607; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 39.168; + pointY = 48.032; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 33.821; + pointY = 42.684; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 39.168; + controlPoint1Y = 45.098; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 36.754; + controlPoint2Y = 42.684; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 28.473; + pointY = 48.032; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 30.887; + controlPoint1Y = 42.684; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 28.473; + controlPoint2Y = 45.098; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 33.821; + pointY = 53.379; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 28.473; + controlPoint1Y = 50.965; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 30.887; + controlPoint2Y = 53.379; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 39.168; + pointY = 48.032; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 36.754; + controlPoint1Y = 53.379; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 39.168; + controlPoint2Y = 50.965; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 56.548; + pointY = 29.984; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 53.206; + pointY = 26.642; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 56.548; + controlPoint1Y = 28.151; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 55.039; + controlPoint2Y = 26.642; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 49.863; + pointY = 29.984; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 51.372; + controlPoint1Y = 26.642; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 49.863; + controlPoint2Y = 28.151; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 53.206; + pointY = 33.326; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 49.863; + controlPoint1Y = 31.817; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 51.372; + controlPoint2Y = 33.326; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 56.548; + pointY = 29.984; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 55.039; + controlPoint1Y = 33.326; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 56.548; + controlPoint2Y = 31.817; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 49.863; + pointY = 39.342; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 46.521; + pointY = 36.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 49.863; + controlPoint1Y = 37.509; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 48.355; + controlPoint2Y = 36.0; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 43.179; + pointY = 39.342; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 44.688; + controlPoint1Y = 36.0; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 43.179; + controlPoint2Y = 37.509; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 46.521; + pointY = 42.684; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 43.179; + controlPoint1Y = 41.176; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 44.688; + controlPoint2Y = 42.684; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 49.863; + pointY = 39.342; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 48.355; + controlPoint1Y = 42.684; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 49.863; + controlPoint2Y = 41.176; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + stroke = 1.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 37.163; + pointY = 19.289; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 53.206; + pointY = 29.984; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.lineWidth = stroke; + context.lineCap = "square"; + context.stroke(); + + stroke = 1.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 50.532; + pointY = 54.048; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 37.163; + pointY = 48.7; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + stroke = 1.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 27.805; + pointY = 33.995; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 33.153; + pointY = 24.637; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + stroke = 1.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 38.5; + pointY = 24.637; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 45.184; + pointY = 36.668; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + stroke = 1.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 37.163; + pointY = 19.289; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 34.155; + pointY = 44.857; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + stroke = 1.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 26.468; + pointY = 36.668; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 52.871; + pointY = 30.151; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + stroke = 1.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 53.206; + pointY = 31.321; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 51.535; + pointY = 52.878; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + stroke = 1.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 26.468; + pointY = 38.005; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 46.856; + pointY = 39.175; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + stroke = 1.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 26.468; + pointY = 38.005; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 34.489; + pointY = 48.7; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + stroke = 1.0; + stroke *= resolution; + if (stroke < 1.0) + stroke = Math.ceil(stroke); + else + stroke = Math.round(stroke); + stroke /= resolution; + alignStroke = (0.5 * stroke * resolution) % 1.0; + context.beginPath(); + pointX = 34.489; + pointY = 48.7; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 46.521; + pointY = 39.342; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.strokeStyle = aColor; + context.stroke(); + + // Layer 2 + + alignStroke = 0.0; + context.beginPath(); + pointX = 38.974; + pointY = 0.013; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 53.593; + pointY = 3.386; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 44.035; + controlPoint1Y = 0.11; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 48.977; + controlPoint2Y = 1.35; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 3.386; + pointY = 53.593; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 0.011; + pointY = 37.17; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 1.013; + controlPoint1Y = 48.448; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = -0.062; + controlPoint2Y = 42.82; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 37.17; + pointY = 0.011; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 38.974; + pointY = 0.013; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 38.325; + controlPoint1Y = -0.004; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 37.723; + controlPoint2Y = -0.004; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 38.974; + pointY = 0.013; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aBannerBackgroundColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 6.58; + pointY = 36.628; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 7.533; + pointY = 34.418; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 6.575; + controlPoint1Y = 35.794; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 6.893; + controlPoint2Y = 35.058; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 10.253; + pointY = 33.382; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 8.389; + controlPoint1Y = 33.562; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 9.296; + controlPoint2Y = 33.216; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 11.555; + pointY = 33.979; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 10.787; + controlPoint1Y = 33.479; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 11.221; + controlPoint2Y = 33.678; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 10.492; + pointY = 35.043; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 9.673; + pointY = 34.756; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 10.179; + controlPoint1Y = 34.868; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 9.906; + controlPoint2Y = 34.772; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 8.482; + pointY = 35.285; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 9.259; + controlPoint1Y = 34.729; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 8.862; + controlPoint2Y = 34.905; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 8.035; + pointY = 36.667; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 8.095; + controlPoint1Y = 35.671; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 7.946; + controlPoint2Y = 36.132; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 9.024; + pointY = 38.326; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 8.124; + controlPoint1Y = 37.203; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 8.453; + controlPoint2Y = 37.756; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 10.661; + pointY = 39.255; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 9.595; + controlPoint1Y = 38.897; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 10.141; + controlPoint2Y = 39.207; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 11.987; + pointY = 38.782; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 11.181; + controlPoint1Y = 39.304; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 11.623; + controlPoint2Y = 39.146; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 12.473; + pointY = 37.563; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 12.359; + controlPoint1Y = 38.409; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 12.522; + controlPoint2Y = 38.003; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 12.152; + pointY = 36.704; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 12.45; + controlPoint1Y = 37.324; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 12.343; + controlPoint2Y = 37.037; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 13.205; + pointY = 35.651; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 13.853; + pointY = 37.71; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 13.668; + controlPoint1Y = 36.297; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 13.884; + controlPoint2Y = 36.984; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 12.919; + pointY = 39.687; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 13.822; + controlPoint1Y = 38.436; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 13.51; + controlPoint2Y = 39.095; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 10.488; + pointY = 40.709; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 12.187; + controlPoint1Y = 40.419; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 11.377; + controlPoint2Y = 40.759; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 7.919; + pointY = 39.397; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 9.597; + controlPoint1Y = 40.656; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 8.741; + controlPoint2Y = 40.218; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 6.58; + pointY = 36.628; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 7.031; + controlPoint1Y = 38.508; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 6.584; + controlPoint2Y = 37.585; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 6.58; + pointY = 36.628; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 17.778; + pointY = 32.093; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 16.824; + pointY = 30.396; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 17.715; + controlPoint1Y = 31.534; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 17.397; + controlPoint2Y = 30.969; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 15.129; + pointY = 29.443; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 16.253; + controlPoint1Y = 29.825; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 15.688; + controlPoint2Y = 29.507; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 13.658; + pointY = 29.978; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 14.569; + controlPoint1Y = 29.378; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 14.079; + controlPoint2Y = 29.557; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 13.116; + pointY = 31.452; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 13.236; + controlPoint1Y = 30.399; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 13.056; + controlPoint2Y = 30.891; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 14.065; + pointY = 33.154; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 13.175; + controlPoint1Y = 32.014; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 13.492; + controlPoint2Y = 32.581; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 15.767; + pointY = 34.104; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 14.638; + controlPoint1Y = 33.727; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 15.206; + controlPoint2Y = 34.044; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 17.242; + pointY = 33.562; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 16.329; + controlPoint1Y = 34.164; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 16.82; + controlPoint2Y = 33.983; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 17.778; + pointY = 32.093; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 17.663; + controlPoint1Y = 33.14; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 17.842; + controlPoint2Y = 32.651; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 17.778; + pointY = 32.093; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 19.216; + pointY = 32.201; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 18.143; + pointY = 34.463; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 19.228; + controlPoint1Y = 32.982; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 18.87; + controlPoint2Y = 33.736; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 15.881; + pointY = 35.537; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 17.415; + controlPoint1Y = 35.19; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 16.661; + controlPoint2Y = 35.548; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 13.009; + pointY = 34.211; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 14.88; + controlPoint1Y = 35.567; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 13.922; + controlPoint2Y = 35.125; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 11.683; + pointY = 31.338; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 12.076; + controlPoint1Y = 33.279; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 11.634; + controlPoint2Y = 32.321; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 12.757; + pointY = 29.077; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 11.671; + controlPoint1Y = 30.558; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 12.029; + controlPoint2Y = 29.804; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 15.018; + pointY = 28.003; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 13.484; + controlPoint1Y = 28.349; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 14.238; + controlPoint2Y = 27.991; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 17.887; + pointY = 29.332; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 15.999; + controlPoint1Y = 27.957; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 16.955; + controlPoint2Y = 28.4; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 19.216; + pointY = 32.201; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 18.801; + controlPoint1Y = 30.246; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 19.244; + controlPoint2Y = 31.202; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 19.216; + pointY = 32.201; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 19.534; + pointY = 22.61; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 21.064; + pointY = 21.08; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 26.153; + pointY = 26.17; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 25.162; + pointY = 27.16; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 21.72; + pointY = 23.718; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 21.307; + pointY = 23.299; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.621; + controlPoint1Y = 23.619; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.483; + controlPoint2Y = 23.479; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 20.898; + pointY = 22.883; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.131; + controlPoint1Y = 23.118; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 20.995; + controlPoint2Y = 22.979; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 24.206; + pointY = 28.117; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 23.173; + pointY = 29.149; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 17.946; + pointY = 25.835; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 18.362; + pointY = 26.244; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 18.043; + controlPoint1Y = 25.931; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 18.181; + controlPoint2Y = 26.068; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 18.781; + pointY = 26.656; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 18.543; + controlPoint1Y = 26.42; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 18.682; + controlPoint2Y = 26.557; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 22.224; + pointY = 30.099; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 21.233; + pointY = 31.09; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 16.144; + pointY = 26; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 17.69; + pointY = 24.454; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 22.617; + pointY = 27.53; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 19.534; + pointY = 22.61; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 28.114; + pointY = 24.208; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 27.057; + pointY = 25.265; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 21.968; + pointY = 20.176; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 23.025; + pointY = 19.119; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 28.114; + pointY = 24.208; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 23.998; + pointY = 18.146; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 25.114; + pointY = 17.03; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 30.693; + pointY = 18.556; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 27.14; + pointY = 15.004; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 28.131; + pointY = 14.013; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 33.22; + pointY = 19.102; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 32.157; + pointY = 20.165; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 26.464; + pointY = 18.629; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 30.079; + pointY = 22.244; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 29.088; + pointY = 23.235; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 23.998; + pointY = 18.146; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 34.132; + pointY = 11.188; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 32.813; + pointY = 11.05; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 33.704; + controlPoint1Y = 10.921; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 33.264; + controlPoint2Y = 10.875; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 32.116; + pointY = 11.52; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 32.562; + controlPoint1Y = 11.149; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 32.33; + controlPoint2Y = 11.306; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 31.57; + pointY = 12.994; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 31.706; + controlPoint1Y = 11.93; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 31.524; + controlPoint2Y = 12.421; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 32.571; + pointY = 14.786; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 31.616; + controlPoint1Y = 13.567; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 31.95; + controlPoint2Y = 14.165; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 34.329; + pointY = 15.687; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 33.197; + controlPoint1Y = 15.412; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 33.783; + controlPoint2Y = 15.713; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 35.693; + pointY = 15.104; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 34.874; + controlPoint1Y = 15.662; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 35.329; + controlPoint2Y = 15.467; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 36.261; + pointY = 13.918; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 36.049; + controlPoint1Y = 14.747; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 36.239; + controlPoint2Y = 14.352; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 35.872; + pointY = 12.687; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 36.282; + controlPoint1Y = 13.484; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 36.153; + controlPoint2Y = 13.074; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 34.695; + pointY = 13.864; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 33.845; + pointY = 13.015; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 35.965; + pointY = 10.895; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 38.696; + pointY = 13.626; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 37.992; + pointY = 14.33; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 37.25; + pointY = 13.802; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 37.208; + pointY = 14.866; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 37.287; + controlPoint1Y = 14.249; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 37.273; + controlPoint2Y = 14.603; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 36.431; + pointY = 16.16; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 37.1; + controlPoint1Y = 15.319; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 36.841; + controlPoint2Y = 15.751; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 34.073; + pointY = 17.117; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 35.757; + controlPoint1Y = 16.835; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 34.971; + controlPoint2Y = 17.153; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 31.473; + pointY = 15.863; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 33.155; + controlPoint1Y = 17.096; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 32.288; + controlPoint2Y = 16.678; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 30.172; + pointY = 13.201; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 30.649; + controlPoint1Y = 15.039; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 30.216; + controlPoint2Y = 14.152; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 31.225; + pointY = 10.657; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 30.128; + controlPoint1Y = 12.251; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 30.479; + controlPoint2Y = 11.402; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 33.276; + pointY = 9.59; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 31.872; + controlPoint1Y = 10.01; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 32.555; + controlPoint2Y = 9.654; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 35.178; + pointY = 10.142; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 33.996; + controlPoint1Y = 9.525; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 34.63; + controlPoint2Y = 9.71; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 34.132; + pointY = 11.188; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 34.878; + pointY = 7.301; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 35.958; + pointY = 6.22; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 37.25; + pointY = 7.511; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 39.346; + pointY = 10.166; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 38.831; + pointY = 10.681; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 36.169; + pointY = 8.592; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 34.878; + pointY = 7.301; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 38.976; + pointY = 11.351; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 40.005; + pointY = 10.322; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 41.003; + pointY = 11.32; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 39.974; + pointY = 12.349; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 38.976; + pointY = 11.351; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 41.528; + pointY = 10.795; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + context.fillStyle = aBannerColor; + context.fill(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/store.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/store.js new file mode 100644 index 0000000..eaeb7f1 --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Features/store.js @@ -0,0 +1,310 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// store.js +// store +// +// Created by Giulio Cesare Solaroli on 3/7/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Features_storeWidth = 76.0; +var kClipperz_PM_UI_Canvas_Features_storeHeight = 76.0; + +function Clipperz_PM_UI_Canvas_Features_store(canvas, aColor, aBannerColor, aBannerBackgroundColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var path; + var pointX; + var pointY; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_Features_storeWidth + canvas.height / kClipperz_PM_UI_Canvas_Features_storeHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Features_storeWidth, canvas.height / kClipperz_PM_UI_Canvas_Features_storeHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Features_storeWidth, kClipperz_PM_UI_Canvas_Features_storeHeight); + + // Layer 1 + + alignStroke = 0.0; + context.beginPath(); + pointX = 27.0; + pointY = 29.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 27.0; + pointY = 24.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 22.0; + pointY = 24.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 22.0; + pointY = 29.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 27.0; + pointY = 29.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 54.0; + pointY = 29.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 54.0; + pointY = 24.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 29.0; + pointY = 24.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 29.0; + pointY = 29.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 54.0; + pointY = 29.5; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 43.0; + pointY = 37.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 43.0; + pointY = 32.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 29.0; + pointY = 32.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 29.0; + pointY = 37.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 43.0; + pointY = 37.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 27.0; + pointY = 37.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 27.0; + pointY = 32.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 22.0; + pointY = 32.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 22.0; + pointY = 37.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 27.0; + pointY = 37.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 27.0; + pointY = 44.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 27.0; + pointY = 39.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 22.0; + pointY = 39.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 22.0; + pointY = 44.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 27.0; + pointY = 44.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 46.0; + pointY = 44.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 46.0; + pointY = 39.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 29.0; + pointY = 39.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 29.0; + pointY = 44.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 46.0; + pointY = 44.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 40.0; + pointY = 51.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 40.0; + pointY = 46.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 29.0; + pointY = 46.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 29.0; + pointY = 51.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 40.0; + pointY = 51.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 27.0; + pointY = 51.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 27.0; + pointY = 46.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 22.0; + pointY = 46.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 22.0; + pointY = 51.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 27.0; + pointY = 51.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/GraphicFunctions.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/GraphicFunctions.js new file mode 100644 index 0000000..5de2e96 --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/GraphicFunctions.js @@ -0,0 +1,68 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +Clipperz.Base.module('Clipperz.PM.UI.Canvas'); + +MochiKit.Base.update(Clipperz.PM.UI.Canvas , { + 'marks': { + '!': Clipperz_PM_UI_Canvas_Marks_exclamationMark, + '?': Clipperz_PM_UI_Canvas_Marks_questionMark, + 'i': Clipperz_PM_UI_Canvas_Marks_info + }, + + 'features': { + 'store': Clipperz_PM_UI_Canvas_Features_store, + 'protect': Clipperz_PM_UI_Canvas_Features_protect, + 'directLogin': Clipperz_PM_UI_Canvas_Features_directLogin, + 'share': Clipperz_PM_UI_Canvas_Features_share + }, + + 'tips': { + 'open': Clipperz_PM_UI_Canvas_Tips_open, + 'close': Clipperz_PM_UI_Canvas_Tips_close + }, + + 'star': { + 'normal': Clipperz_PM_UI_Canvas_Star_normal + }, + + 'coverActions': { + 'look': Clipperz_PM_UI_Canvas_CoverActions_look, + 'download': Clipperz_PM_UI_Canvas_CoverActions_download + }, + + 'registerButton': { + 'normal': Clipperz_PM_UI_Canvas_RegisterButton_normal + }, + + 'logo': { + 'normal': Clipperz_PM_UI_Canvas_Logo_normal + }, + + __syntaxFix__: "syntax fix" +}); diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Logo/normal.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Logo/normal.js new file mode 100644 index 0000000..e0bea36 --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Logo/normal.js @@ -0,0 +1,65 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// normal.js +// normal +// +// Created by Giulio Cesare Solaroli on 3/25/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Logo_normalWidth = 150.0; +var kClipperz_PM_UI_Canvas_Logo_normalHeight = 39.0; + +function Clipperz_PM_UI_Canvas_Logo_normal(canvas, aMainColor, aSecondaryColor) +{ + var context = canvas.getContext("2d"); + var string; + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Logo_normalWidth, canvas.height / kClipperz_PM_UI_Canvas_Logo_normalHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Logo_normalWidth, kClipperz_PM_UI_Canvas_Logo_normalHeight); + + // clipper… + + string = "clipper"; + context.font = "38.0pt Helvetica-Bold"; + context.fillStyle = aMainColor; + context.fillText(string, -9.0, -9.0); + + // …z + + string = "z"; + context.font = "38.0pt Helvetica-Bold"; + context.fillStyle = aSecondaryColor; + context.fillText(string, 125.0, -9.0); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Marks/exclamationMark.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Marks/exclamationMark.js new file mode 100644 index 0000000..f3ae04d --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Marks/exclamationMark.js @@ -0,0 +1,280 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// exclamationMark.js +// ! +// +// Created by Giulio Cesare Solaroli on 3/7/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Marks_exclamationMarkWidth = 50.0; +var kClipperz_PM_UI_Canvas_Marks_exclamationMarkHeight = 50.0; + +function Clipperz_PM_UI_Canvas_Marks_exclamationMark(canvas, aColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var path; + var pointX; + var pointY; + var controlPoint1X; + var controlPoint1Y; + var controlPoint2X; + var controlPoint2Y; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_Marks_exclamationMarkWidth + canvas.height / kClipperz_PM_UI_Canvas_Marks_exclamationMarkHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Marks_exclamationMarkWidth, canvas.height / kClipperz_PM_UI_Canvas_Marks_exclamationMarkHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Marks_exclamationMarkWidth, kClipperz_PM_UI_Canvas_Marks_exclamationMarkHeight); + + // Layer 1 + + alignStroke = 0.0; + context.beginPath(); + pointX = 26.499; + pointY = 10.848; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 20.887; + pointY = 11.584; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 25.395; + controlPoint1Y = 10.802; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 22.175; + controlPoint2Y = 11.078; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 20.013; + pointY = 13.194; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 20.335; + controlPoint1Y = 11.814; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 19.921; + controlPoint2Y = 12.826; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 23.049; + pointY = 28.788; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 20.243; + controlPoint1Y = 15.448; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 22.589; + controlPoint2Y = 26.35; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 25.027; + pointY = 29.156; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 23.279; + controlPoint1Y = 29.018; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 24.705; + controlPoint2Y = 29.202; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 27.971; + pointY = 11.354; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 25.809; + controlPoint1Y = 25.384; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 27.971; + controlPoint2Y = 12.826; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 26.499; + pointY = 10.848; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 27.557; + controlPoint1Y = 11.032; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 26.913; + controlPoint2Y = 10.848; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 26.499; + pointY = 10.848; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 24.337; + pointY = 31.962; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 21.899; + pointY = 32.882; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 23.463; + controlPoint1Y = 31.962; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 22.589; + controlPoint2Y = 32.284; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 20.703; + pointY = 35.458; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.163; + controlPoint1Y = 33.572; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 20.703; + controlPoint2Y = 34.538; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 21.669; + pointY = 38.08; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 20.703; + controlPoint1Y = 36.47; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 20.979; + controlPoint2Y = 37.344; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 24.015; + pointY = 39.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 22.405; + controlPoint1Y = 38.77; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 23.325; + controlPoint2Y = 39.0; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 26.821; + pointY = 38.034; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 25.073; + controlPoint1Y = 39.0; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 26.131; + controlPoint2Y = 38.724; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 27.833; + pointY = 35.55; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 27.465; + controlPoint1Y = 37.344; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 27.833; + controlPoint2Y = 36.194; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 26.683; + pointY = 32.744; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 27.833; + controlPoint1Y = 34.676; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 27.557; + controlPoint2Y = 33.572; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 24.337; + pointY = 31.962; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 26.085; + controlPoint1Y = 32.238; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 25.211; + controlPoint2Y = 31.962; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 24.337; + pointY = 31.962; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 30.639; + pointY = 38.402; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + context.fillStyle = aColor; + context.fill(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Marks/info.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Marks/info.js new file mode 100644 index 0000000..adab74f --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Marks/info.js @@ -0,0 +1,391 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// info.js +// i +// +// Created by Giulio Cesare Solaroli on 3/7/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Marks_infoWidth = 50.0; +var kClipperz_PM_UI_Canvas_Marks_infoHeight = 50.0; + +function Clipperz_PM_UI_Canvas_Marks_info(canvas, aColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var path; + var pointX; + var pointY; + var controlPoint1X; + var controlPoint1Y; + var controlPoint2X; + var controlPoint2Y; + var color; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_Marks_infoWidth + canvas.height / kClipperz_PM_UI_Canvas_Marks_infoHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Marks_infoWidth, canvas.height / kClipperz_PM_UI_Canvas_Marks_infoHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Marks_infoWidth, kClipperz_PM_UI_Canvas_Marks_infoHeight); + + // Layer 1 + + alignStroke = 0.0; + context.beginPath(); + pointX = 30.253; + pointY = 37.436; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 28.505; + pointY = 37.022; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 27.677; + pointY = 35.09; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 27.953; + controlPoint1Y = 36.792; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 27.677; + controlPoint2Y = 36.47; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 27.631; + pointY = 27.546; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 27.631; + controlPoint1Y = 32.974; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 27.631; + controlPoint2Y = 29.892; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 27.677; + pointY = 19.726; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 27.631; + controlPoint1Y = 24.97; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 27.677; + controlPoint2Y = 21.612; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 19.535; + pointY = 21.336; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 25.331; + controlPoint1Y = 20.692; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 20.593; + controlPoint2Y = 21.336; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 19.443; + pointY = 22.762; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 19.397; + controlPoint1Y = 21.52; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 19.305; + controlPoint2Y = 22.532; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 21.283; + pointY = 23.82; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 20.639; + controlPoint1Y = 23.222; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 20.961; + controlPoint2Y = 23.452; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 21.605; + pointY = 24.97; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.513; + controlPoint1Y = 24.05; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.605; + controlPoint2Y = 24.602; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 21.651; + pointY = 29.156; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.651; + controlPoint1Y = 25.752; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.651; + controlPoint2Y = 27.592; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 21.605; + pointY = 35.228; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.651; + controlPoint1Y = 31.364; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.651; + controlPoint2Y = 34.216; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 20.823; + pointY = 37.022; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.559; + controlPoint1Y = 36.332; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.467; + controlPoint2Y = 36.838; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 19.121; + pointY = 37.436; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 20.363; + controlPoint1Y = 37.206; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 19.857; + controlPoint2Y = 37.298; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 19.121; + pointY = 39.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 18.937; + controlPoint1Y = 37.62; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 18.983; + controlPoint2Y = 38.77; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 24.503; + pointY = 38.862; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 20.271; + controlPoint1Y = 39.0; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.927; + controlPoint2Y = 38.862; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 30.023; + pointY = 39.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 27.401; + controlPoint1Y = 38.862; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 29.149; + controlPoint2Y = 39.0; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 30.253; + pointY = 37.436; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 30.299; + controlPoint1Y = 38.77; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 30.391; + controlPoint2Y = 37.62; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 30.253; + pointY = 37.436; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 27.493; + pointY = 13.976; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 27.125; + pointY = 12.228; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 27.493; + controlPoint1Y = 13.608; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 27.401; + controlPoint2Y = 12.688; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 24.963; + pointY = 11.63; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 26.849; + controlPoint1Y = 11.998; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 26.113; + controlPoint2Y = 11.63; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 21.513; + pointY = 12.688; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 23.767; + controlPoint1Y = 11.63; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 22.203; + controlPoint2Y = 12.09; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 21.283; + pointY = 14.942; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.145; + controlPoint1Y = 13.148; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.145; + controlPoint2Y = 14.436; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 22.801; + pointY = 17.012; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.513; + controlPoint1Y = 15.908; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.973; + controlPoint2Y = 16.69; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 26.205; + pointY = 16.69; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 23.399; + controlPoint1Y = 17.288; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 25.791; + controlPoint2Y = 17.058; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 27.493; + pointY = 13.976; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 26.941; + controlPoint1Y = 16.046; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 27.493; + controlPoint2Y = 14.896; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 27.493; + pointY = 13.976; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 30.851; + pointY = 38.862; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + color = "#FFFFFF"; + context.fillStyle = color; + context.fill(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Marks/questionMark.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Marks/questionMark.js new file mode 100644 index 0000000..003c4c2 --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Marks/questionMark.js @@ -0,0 +1,438 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// questionMark.js +// ? +// +// Created by Giulio Cesare Solaroli on 3/7/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Marks_questionMarkWidth = 50.0; +var kClipperz_PM_UI_Canvas_Marks_questionMarkHeight = 50.0; + +function Clipperz_PM_UI_Canvas_Marks_questionMark(canvas, aColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var path; + var pointX; + var pointY; + var controlPoint1X; + var controlPoint1Y; + var controlPoint2X; + var controlPoint2Y; + var color; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_Marks_questionMarkWidth + canvas.height / kClipperz_PM_UI_Canvas_Marks_questionMarkHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Marks_questionMarkWidth, canvas.height / kClipperz_PM_UI_Canvas_Marks_questionMarkHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Marks_questionMarkWidth, kClipperz_PM_UI_Canvas_Marks_questionMarkHeight); + + // Layer 1 + + alignStroke = 0.0; + context.beginPath(); + pointX = 24.118; + pointY = 24.464; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 24.854; + pointY = 23.406; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 24.118; + controlPoint1Y = 24.05; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 24.44; + controlPoint2Y = 23.636; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 29.454; + pointY = 20.6; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 26.418; + controlPoint1Y = 22.532; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 28.534; + controlPoint2Y = 21.566; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 30.282; + pointY = 17.794; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 29.868; + controlPoint1Y = 20.232; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 30.282; + controlPoint2Y = 19.082; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 27.2; + pointY = 12.688; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 30.282; + controlPoint1Y = 16.322; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 29.454; + controlPoint2Y = 14.344; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 21.312; + pointY = 10.664; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 25.636; + controlPoint1Y = 11.492; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 23.382; + controlPoint2Y = 10.664; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 19.886; + pointY = 11.124; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 20.898; + controlPoint1Y = 10.664; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 20.162; + controlPoint2Y = 10.894; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 18.0; + pointY = 14.666; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 19.104; + controlPoint1Y = 11.676; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 18.0; + controlPoint2Y = 14.068; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 18.598; + pointY = 15.586; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 18.0; + controlPoint1Y = 14.896; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 18.138; + controlPoint2Y = 15.494; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 19.794; + pointY = 15.908; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 19.012; + controlPoint1Y = 15.678; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 19.426; + controlPoint2Y = 15.77; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 25.36; + pointY = 20.002; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 22.508; + controlPoint1Y = 16.644; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 25.36; + controlPoint2Y = 17.886; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 24.21; + pointY = 21.704; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 25.36; + controlPoint1Y = 20.738; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 25.084; + controlPoint2Y = 21.198; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 19.058; + pointY = 24.326; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 23.106; + controlPoint1Y = 22.348; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 19.886; + controlPoint2Y = 23.774; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 18.506; + pointY = 25.936; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 18.736; + controlPoint1Y = 24.556; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 18.506; + controlPoint2Y = 25.338; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 20.898; + pointY = 29.064; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 18.506; + controlPoint1Y = 26.948; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 19.334; + controlPoint2Y = 28.42; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 22.048; + pointY = 29.156; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.22; + controlPoint1Y = 29.156; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.726; + controlPoint2Y = 29.202; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 25.268; + pointY = 27.592; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 22.508; + controlPoint1Y = 29.064; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 24.9; + controlPoint2Y = 27.96; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 25.406; + pointY = 26.856; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 25.406; + controlPoint1Y = 27.454; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 25.544; + controlPoint2Y = 26.994; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 24.118; + pointY = 24.464; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 24.578; + controlPoint1Y = 25.936; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 24.118; + controlPoint2Y = 24.786; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 24.118; + pointY = 24.464; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 23.06; + pointY = 31.962; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 20.53; + pointY = 32.928; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 22.186; + controlPoint1Y = 31.962; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.22; + controlPoint2Y = 32.33; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 19.426; + pointY = 35.458; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 19.794; + controlPoint1Y = 33.618; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 19.426; + controlPoint2Y = 34.538; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 20.392; + pointY = 38.08; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 19.426; + controlPoint1Y = 36.47; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 19.702; + controlPoint2Y = 37.344; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 22.738; + pointY = 39.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 21.128; + controlPoint1Y = 38.77; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 22.048; + controlPoint2Y = 39.0; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 25.544; + pointY = 38.034; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 23.796; + controlPoint1Y = 39.0; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 24.854; + controlPoint2Y = 38.724; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 26.556; + pointY = 35.55; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 26.188; + controlPoint1Y = 37.344; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 26.556; + controlPoint2Y = 36.194; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 25.452; + pointY = 32.744; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 26.556; + controlPoint1Y = 34.676; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 26.326; + controlPoint2Y = 33.618; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 23.06; + pointY = 31.962; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 24.854; + controlPoint1Y = 32.284; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 23.934; + controlPoint2Y = 31.962; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 23.06; + pointY = 31.962; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 32.214; + pointY = 38.402; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + color = "#FFFFFF"; + context.fillStyle = color; + context.fill(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/RegisterButton/normal.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/RegisterButton/normal.js new file mode 100644 index 0000000..288e0be --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/RegisterButton/normal.js @@ -0,0 +1,403 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// normal.js +// normal +// +// Created by Giulio Cesare Solaroli on 3/24/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_RegisterButton_normalWidth = 282.0; +var kClipperz_PM_UI_Canvas_RegisterButton_normalHeight = 93.0; + +function Clipperz_PM_UI_Canvas_RegisterButton_normal(canvas, aBackgroundColor, aDarkBackgroundColor, aLightColor, aDarkColor, aStarColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var path; + var pointX; + var pointY; + var controlPoint1X; + var controlPoint1Y; + var controlPoint2X; + var controlPoint2Y; + var gradient; + var color; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_RegisterButton_normalWidth + canvas.height / kClipperz_PM_UI_Canvas_RegisterButton_normalHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_RegisterButton_normalWidth, canvas.height / kClipperz_PM_UI_Canvas_RegisterButton_normalHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_RegisterButton_normalWidth, kClipperz_PM_UI_Canvas_RegisterButton_normalHeight); + + // background + + alignStroke = 0.0; + context.beginPath(); + pointX = 241.0; + pointY = 80.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 274.0; + pointY = 47.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 259.103; + controlPoint1Y = 80.0; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 274.0; + controlPoint2Y = 65.103; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 274.0; + pointY = 45.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 241.0; + pointY = 12.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 274.0; + controlPoint1Y = 26.897; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 259.103; + controlPoint2Y = 12.0; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 60.0; + pointY = 12.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 27.0; + pointY = 45.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 41.897; + controlPoint1Y = 12.0; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 27.0; + controlPoint2Y = 26.897; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 27.0; + pointY = 47.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 60.0; + pointY = 80.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 27.0; + controlPoint1Y = 65.103; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 41.897; + controlPoint2Y = 80.0; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 241.0; + pointY = 80.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + gradient = context.createLinearGradient(150.5, 12.0, 150.5, 80.0); + gradient.addColorStop(0.0, aBackgroundColor); + gradient.addColorStop(1.0, aDarkBackgroundColor); + context.fillStyle = gradient; + context.fill(); + + // round + + alignStroke = 0.0; + context.beginPath(); + pointX = 44.103; + pointY = 4.014; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 65.629; + pointY = 10.515; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 51.706; + controlPoint1Y = 4.217; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 59.185; + controlPoint2Y = 6.475; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 78.65; + pointY = 70.918; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 43.0; + pointY = 90.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 70.676; + controlPoint1Y = 82.788; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 57.23; + controlPoint2Y = 89.817; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 0.056; + pointY = 44.801; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 18.834; + controlPoint1Y = 90.07; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = -1.18; + controlPoint2Y = 68.879; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 44.103; + pointY = 4.014; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 1.242; + controlPoint1Y = 21.708; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 21.202; + controlPoint2Y = 3.72; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 44.103; + pointY = 4.014; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + gradient = context.createLinearGradient(39.326, 90, 39.326, 4.011); + gradient.addColorStop(0.0, aDarkColor); + gradient.addColorStop(1.0, aLightColor); + context.fillStyle = gradient; + context.fill(); + + // * + + alignStroke = 0.0; + context.beginPath(); + pointX = 23.983; + pointY = 35.944; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 37.25; + pointY = 40.261; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 37.25; + pointY = 24.963; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 48.231; + pointY = 24.963; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 48.231; + pointY = 40.261; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 61.498; + pointY = 35.944; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 64.481; + pointY = 45.402; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 50.961; + pointY = 49.592; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 59.784; + pointY = 62.224; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 51.659; + pointY = 68.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 42.836; + pointY = 56.066; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 33.759; + pointY = 68.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 25.634; + pointY = 62.224; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 34.521; + pointY = 49.592; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 21.0; + pointY = 45.402; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 23.983; + pointY = 35.944; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 68.607; + pointY = 119.099; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + context.fillStyle = aStarColor; + context.fill(); + + alignStroke = 0.0; + context.beginPath(); + pointX = 212.0; + pointY = 125.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 213.0; + pointY = 125.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 212.5; + pointY = 124.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 212.0; + pointY = 125.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + gradient = context.createLinearGradient(212.5, 125.0, 212.5, 124.0); + color = "#FFFFFF"; + gradient.addColorStop(0.0, color); + color = "#A9A9A9"; + gradient.addColorStop(1.0, color); + context.fillStyle = gradient; + context.fill(); + + // flip + + // Setup for Shadow Effect + color = "rgba(0.0%, 0.0%, 0.0%, 0.5)"; + context.save(); + context.shadowColor = color; + context.shadowBlur = 0.0; + context.shadowOffsetX = 2.0 * Math.cos(8.377) * resolution; + context.shadowOffsetY = 2.0 * Math.sin(8.377) * resolution; + + // round + + alignStroke = 0.0; + context.beginPath(); + pointX = 78.506; + pointY = 70.251; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 66.155; + pointY = 12.954; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + controlPoint1X = 59.899; + controlPoint1Y = 57.427; + controlPoint1X = (Math.round(resolution * controlPoint1X + alignStroke) - alignStroke) / resolution; + controlPoint1Y = (Math.round(resolution * controlPoint1Y + alignStroke) - alignStroke) / resolution; + controlPoint2X = 54.678; + controlPoint2Y = 32.277; + controlPoint2X = (Math.round(resolution * controlPoint2X + alignStroke) - alignStroke) / resolution; + controlPoint2Y = (Math.round(resolution * controlPoint2Y + alignStroke) - alignStroke) / resolution; + context.bezierCurveTo(controlPoint1X, controlPoint1Y, controlPoint2X, controlPoint2Y, pointX, pointY); + pointX = 78.506; + pointY = 70.251; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + gradient = context.createLinearGradient(69.301, 70.251, 69.301, 12.954); + gradient.addColorStop(0.0, aDarkColor); + gradient.addColorStop(1.0, aLightColor); + context.fillStyle = gradient; + context.fill(); + + // Shadow Effect + context.restore(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Star/normal.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Star/normal.js new file mode 100644 index 0000000..e70e3b5 --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Star/normal.js @@ -0,0 +1,153 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// normal.js +// normal +// +// Created by Giulio Cesare Solaroli on 3/15/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Star_normalWidth = 46.0; +var kClipperz_PM_UI_Canvas_Star_normalHeight = 46.0; + +function Clipperz_PM_UI_Canvas_Star_normal(canvas, aColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var path; + var pointX; + var pointY; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_Star_normalWidth + canvas.height / kClipperz_PM_UI_Canvas_Star_normalHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Star_normalWidth, canvas.height / kClipperz_PM_UI_Canvas_Star_normalHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Star_normalWidth, kClipperz_PM_UI_Canvas_Star_normalHeight); + + // * + + alignStroke = 0.0; + context.beginPath(); + pointX = 8.613; + pointY = 15.583; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 18.563; + pointY = 18.821; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 18.563; + pointY = 7.347; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 26.799; + pointY = 7.347; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 26.799; + pointY = 18.821; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 36.749; + pointY = 15.583; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 38.986; + pointY = 22.677; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 28.846; + pointY = 25.819; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 35.463; + pointY = 35.293; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 29.369; + pointY = 39.625; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 22.752; + pointY = 30.675; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 15.944; + pointY = 39.625; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 9.85; + pointY = 35.293; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 16.515; + pointY = 25.819; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 6.375; + pointY = 22.677; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 8.613; + pointY = 15.583; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + pointX = 42.081; + pointY = 77.949; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + context.fillStyle = aColor; + context.fill(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Tips/close.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Tips/close.js new file mode 100644 index 0000000..216fd24 --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Tips/close.js @@ -0,0 +1,156 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// close.js +// close +// +// Created by Giulio Cesare Solaroli on 3/14/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Tips_closeWidth = 310.0; +var kClipperz_PM_UI_Canvas_Tips_closeHeight = 6.0; + +function Clipperz_PM_UI_Canvas_Tips_close(canvas, aColor, aBackgroundColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var path; + var pointX; + var pointY; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_Tips_closeWidth + canvas.height / kClipperz_PM_UI_Canvas_Tips_closeHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Tips_closeWidth, canvas.height / kClipperz_PM_UI_Canvas_Tips_closeHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Tips_closeWidth, kClipperz_PM_UI_Canvas_Tips_closeHeight); + + // background + + alignStroke = 0.0; + context.beginPath(); + pointX = 310.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 310.0; + pointY = 0.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 0.0; + pointY = 0.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 0.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 310.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aBackgroundColor; + context.fill(); + + // grid + + // background + + alignStroke = 0.0; + context.beginPath(); + pointX = 310.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 310.0; + pointY = 0.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 0.0; + pointY = 0.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 0.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 310.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aBackgroundColor; + context.fill(); + + // toggle + + alignStroke = 0.0; + context.beginPath(); + pointX = 149.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 161.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 155.0; + pointY = 0.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 149.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aColor; + context.fill(); + + context.restore(); +} diff --git a/frontend/gamma/js/Clipperz/PM/UI/Canvas/Tips/open.js b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Tips/open.js new file mode 100644 index 0000000..f1bdaa9 --- a/dev/null +++ b/frontend/gamma/js/Clipperz/PM/UI/Canvas/Tips/open.js @@ -0,0 +1,163 @@ +/* + +Copyright 2008-2011 Clipperz Srl + +This file is part of Clipperz's Javascript Crypto Library. +Javascript Crypto Library provides web developers with an extensive +and efficient set of cryptographic functions. The library aims to +obtain maximum execution speed while preserving modularity and +reusability. +For further information about its features and functionalities please +refer to http://www.clipperz.com + +* Javascript Crypto Library is free software: you can redistribute + it and/or modify it under the terms of the GNU Affero General Public + License as published by the Free Software Foundation, either version + 3 of the License, or (at your option) any later version. + +* Javascript Crypto Library is distributed in the hope that it will + be useful, but WITHOUT ANY WARRANTY; without even the implied + warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. + See the GNU Affero General Public License for more details. + +* You should have received a copy of the GNU Affero General Public + License along with Javascript Crypto Library. If not, see + <http://www.gnu.org/licenses/>. + +*/ + +// +// open.js +// open +// +// Created by Giulio Cesare Solaroli on 3/14/10 +// Copyright 2010 Clipperz +// This code was generated by Opacity. You may use or modify it in any way. +// + +var kClipperz_PM_UI_Canvas_Tips_openWidth = 310.0; +var kClipperz_PM_UI_Canvas_Tips_openHeight = 6.0; + +function Clipperz_PM_UI_Canvas_Tips_open(canvas, aColor, aBackgroundColor) +{ + var context = canvas.getContext("2d"); + var alignStroke; + var resolution; + var path; + var pointX; + var pointY; + var color; + if (window.devicePixelRatio) + resolution = window.devicePixelRatio; + else + resolution = 1.0; + resolution *= 0.5 * (canvas.width / kClipperz_PM_UI_Canvas_Tips_openWidth + canvas.height / kClipperz_PM_UI_Canvas_Tips_openHeight); + + context.save(); + context.scale(canvas.width / kClipperz_PM_UI_Canvas_Tips_openWidth, canvas.height / kClipperz_PM_UI_Canvas_Tips_openHeight); + context.clearRect(0.0, 0.0, kClipperz_PM_UI_Canvas_Tips_openWidth, kClipperz_PM_UI_Canvas_Tips_openHeight); + + // background + + alignStroke = 0.0; + context.beginPath(); + pointX = 310.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 310.0; + pointY = 0.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 0.0; + pointY = 0.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 0.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 310.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aBackgroundColor; + context.fill(); + + // grid + + // background + + alignStroke = 0.0; + context.beginPath(); + pointX = 310.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 310.0; + pointY = 0.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 0.0; + pointY = 0.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 0.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 310.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + context.fillStyle = aBackgroundColor; + context.fill(); + + // Layer 1 + + alignStroke = 0.0; + context.save(); + context.translate(155.0, 3.0); + context.rotate(-3.142); + context.translate(-155.0, -3.0); + context.beginPath(); + pointX = 149.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.moveTo(pointX, pointY); + pointX = 161.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 155.0; + pointY = 0.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + pointX = 149.0; + pointY = 6.0; + pointX = (Math.round(resolution * pointX + alignStroke) - alignStroke) / resolution; + pointY = (Math.round(resolution * pointY + alignStroke) - alignStroke) / resolution; + context.lineTo(pointX, pointY); + context.closePath(); + color = "#FFFFFF"; + context.fillStyle = color; + context.fill(); + context.restore(); + + context.restore(); +} |