, but this code // executes before the first paint, when

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is not yet present. The // classes are added to so styling immediately reflects the current // toolbar state. The classes are removed after the toolbar completes // initialization. const classesToAdd = ['toolbar-loading', 'toolbar-anti-flicker']; if (toolbarState) { const { orientation, hasActiveTab, isFixed, activeTray, activeTabId, isOriented, userButtonMinWidth } = toolbarState; classesToAdd.push( orientation ? `toolbar-` + orientation + `` : 'toolbar-horizontal', ); if (hasActiveTab !== false) { classesToAdd.push('toolbar-tray-open'); } if (isFixed) { classesToAdd.push('toolbar-fixed'); } if (isOriented) { classesToAdd.push('toolbar-oriented'); } if (activeTray) { // These styles are added so the active tab/tray styles are present // immediately instead of "flickering" on as the toolbar initializes. In // instances where a tray is lazy loaded, these styles facilitate the // lazy loaded tray appearing gracefully and without reflow. const styleContent = ` .toolbar-loading #` + activeTabId + ` { background-image: linear-gradient(rgba(255, 255, 255, 0.25) 20%, transparent 200%); } .toolbar-loading #` + activeTabId + `-tray { display: block; box-shadow: -1px 0 5px 2px rgb(0 0 0 / 33%); border-right: 1px solid #aaa; background-color: #f5f5f5; z-index: 0; } .toolbar-loading.toolbar-vertical.toolbar-tray-open #` + activeTabId + `-tray { width: 15rem; height: 100vh; } .toolbar-loading.toolbar-horizontal :not(#` + activeTray + `) > .toolbar-lining {opacity: 0}`; const style = document.createElement('style'); style.textContent = styleContent; style.setAttribute('data-toolbar-anti-flicker-loading', true); document.querySelector('head').appendChild(style); if (userButtonMinWidth) { const userButtonStyle = document.createElement('style'); userButtonStyle.textContent = `#toolbar-item-user {min-width: ` + userButtonMinWidth +`px;}` document.querySelector('head').appendChild(userButtonStyle); } } } document.querySelector('html').classList.add(...classesToAdd); })(); Computer Science: Strategic Partners Council Computer Science | ÃÛÌÒapp

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Computer Science: Strategic Partners Council

Mission

The mission of the ÃÛÌÒapp Department of Computer Science’s Strategic Partners Council is threefold:

  1. Under-Represented Groups. Help ÃÛÌÒapp’s CS department improve the representation of under-represented groups — especially women — in departmental programs.
  2. Pre-Professional Preparation. Help ÃÛÌÒapp CS juniors and seniors prepare for life after ÃÛÌÒapp through mock interviews, internships, field trips, and other experiences.
  3. Program Review. Help ÃÛÌÒapp’s CS department by regularly reviewing the educational objectives of the department’s academic programs.

The council meets quarterly to pursue this mission, and has launched , a program to address the shortage of technical talent and increase gender diversity in the technology sector, starting with ÃÛÌÒapp's CS department. The council consists of individuals selected from the various professional constituencies that the department serves.

Membership

  • Bruce Abernethy,
  • Michael Bloem,
  • Joe Chrysler,
  • John Hauck,
  • Charles Kornoelje,
  • Traci Marcero,
  • Ashley Peters,
  • Andrew Philip,
  • Jim VanderMey,
  • Sharon Vriend-Robinette,

We thank you for your service!

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