Unit 1968 Script [CRACKED]
UNIT is a fictional military organisation from the British science fiction television series Doctor Who and its spin-off series Torchwood and The Sarah Jane Adventures. Operating under the auspices of the United Nations and initially led by Brigadier Lethbridge-Stewart, its purpose is to investigate and combat paranormal and extraterrestrial threats to Earth. Several UNIT personnel (such as the Brigadier, Sergeant Benton and Mike Yates) played a major role in the original Doctor Who series, and it was a regular feature from The Invasion (1968) until The Seeds of Doom (1976).
Unit 1968 Script
In another 2014 interview in Doctor Who Magazine, Sherwin recalled that after submitting his scripts for The Invasion to Bryant, which included UNIT, Sherwin, who was also working freelance as a script editor, was told by Bryant to introduce his UNIT idea earlier, as it could "take some of the weight off [the] shoulders" of actor Patrick Troughton, who played the Doctor.[8] Speaking in an interview on the 2011 special-edition DVD of Spearhead from Space, Sherwin claimed that he had created UNIT because he wanted to give some "considerable support" to the Doctor, "so that [Troughton] didn't have so many damn lines to learn each week".[9]
Sherwin told Doctor Who Magazine in 2014 that while working as script editor on the Doctor Who serial The Web of Fear (1968), which also involved an army, he told scriptwriters Mervyn Haisman and Henry Lincoln to include all of the characters that he had originally invented for The Invasion. Sherwin was uncertain if the army forces featured in The Web of Fear appeared as UNIT, but was "convinced" that, as a teaser for UNIT's more substantial role in The Invasion, The Web of Fear was supposed to have replaced the basic army forces that were seen in the story.[8] Sherwin asserted that he held the copyright on Lethbridge-Stewart, as he "created him in The Invasion".[10] However, previously in an interview recorded for the 2006 DVD of Inferno, Sherwin described The Invasion as the start of UNIT and the beginning of the Doctor "coming down to Earth".[6] On top of this, production notes in Doctor Who: The Complete History credit Haisman and Lincoln as the owners of Lethbridge-Stewart, who was the army leader from The Web of Fear, and mention how Bryant and director Douglas Camfield were negotiating the use of the character for The Invasion from Haisman and Lincoln in May 1968,[11] subsequent to The Web of Fear being broadcast in February and March.[12] The Web of Fear is also described in the notes as being a "major influence on The Invasion".[13]
The roots of UNIT in the Doctor Who universe lie in the Second Doctor serial The Web of Fear (1968), following which the organisation is named and established in The Invasion (1968).[14] According to "Survivors of the Flux" (2021), UNIT was founded in 1958 and built over the subsequent decade, with Lethbridge-Stewart joining the taskforce after it failed to act on the events of The War Machines (1966).
UNIT's personnel have a wide range of weaponry to call on, some custom-made to combat specific threats. Among these are special ammunition described by the Brigadier in Battlefield as armour-piercing rounds with a solid core and Teflon coating which "could go through a Dalek".[19] Other munitions include explosive rounds for Yetis, other armour-piercing rounds for robots, and gold-tipped rounds for use against the Cybermen (as well as silver bullets as suggested by the Doctor),[19] and rad-steel coated bullets to neutralise Sontaran anti-bullet fields that target copper.[30]
In The Invasion (1968), UNIT has a command centre established in the cargo hold of a Lockheed Hercules military transport aircraft.[14] The Dæmons (1971) features the UNIT Mobile HQ, a large bus-like vehicle that could be driven to the site of an incident.[36] A mobile command centre is also shown in "The Sontaran Stratagem" and "The Poison Sky", where it is depicted as a black articulated lorry with UNIT insignia.[4][30]
In 1968 "IBM contracted Stuart Madnick of MIT to write a simple document preparation ..."[10][1] to run on CP/67.[11] He modeled it on MIT's CTSS RUNOFF.[12][13]In 1974, William Dwyer at Yale University ported the CP-67 version of Script to the Time Sharing Option (TSO) of OS/360 under the name NSCRIPT.[14] The University of Waterloo rewrote and extended NSCRIPT as Waterloo SCRIPT,[15] also in 1974, making it available for free to CMS and TSO users for several releases before eventually charging for new releases.
SCRIPT allows space units in control words to be specified in a number of units including inches, centimeters, millimeters, picas, ciceros, m-spaces, or device units (pels at the current device resolution). Vertical space units are assumed to be lines unless otherwise specified.
IBM's Generalized Markup Language (GML) is a descriptive markup layer describing the logical structure of a document. Both SCRIPT/VS and the GML Starter Set are part of IBM's Document Composition Facility (DCF), used in the System/370 platform and successors. The tag sets of the BookMaster[18][19] and BookManager BUILD/MVS[20] products are built on a foundation of the GML Starter Set syntax and implementation.
At Gitter, we love Redis: it's an indispensable tool for us. Redis Lua scripts allow us to execute complex logic in a fast, consitent, atomic manner. Unfortunately, some of our scripts have, over time, grown pretty complex, increasing their cyclomatic complexity and making thorough testing difficult.
My knowledge of Lua is limited. In fact, before writing this test harness, every Lua script I've ever written has run inside a Redis EVAL. There are almost certainly better ways of much of what I'm presenting here, so please let me know if you have feedback.
The harness exposes the KEYS, ARGV and redis global variables available to our Redis Lua scripts. If you use any of the additional libraries available to Redis scripts (documented here), you'll need to expose them as global variables too.
It exports a single function call_redis_script(script, keys, argv) which we'll be using in our tests. It sets the global variables KEYS and ARGV and then executes the Redis Lua script, returning the result, for us to perform assertions on.
By using these scripts and increasing our test coverage, we've been able to debug quicker and increase quality. Hopefully you'll find them useful too. If you do, or if you have any comments, come chat to us in gitterHQ/gitter.
Contains negatives, contact sheets, photograph prints, and transparencies of images produced by BYU Photo and its predecessors between 1875 and 2010, with the bulk produced between 1968 and 2002. Includes images of Brigham Young University events, campus scenes and buildings, administrators, faculty and staff, awards, visiting leadership from the Church of Jesus Christ of Latter-day Saints, and theater, dance, and other performing groups.
The Brigham Young University News Bureau was established around 1952 and was responsible for overseeing university news publications. The unit later became the Brigham Young University Public Communications Department in 1978.
Brigham Young University Public Communications was responsible for overseeing mass media on all levels at the university, including publications such as BYU Today. The unit became University Communications in 1997.
University Photography (2004-2009) was an administrative unit in the University Communications division of Brigham Young University. The unit was responsible for documenting university events and personnel. In 2009 it was renamed BYU Photo.
Processed; Amanda Crandall and Karen Glenn; 2017-2022. Individual descriptions of images and photographer credit is indicated in series one. Corresponding contact sheets and prints are contained in series two without repeated description. A list of contact sheet and print image numbers corresponding to container numbers, matching the numbers in the negative series, can be requested in the reference room.
A class of optimization problems over subsets of zero-one vectors of then-dimensional unit cube given by a special linear congruence relation is considered. The general problem is formulated as a zero-one linear program, minimal and complete descriptions of the associated polytopes by linear inequalities are derived and an\(\mathcalO(n \log n)\) time algorithm for the optimization problems is given. Since the number of inequalities that completely describe the polytope grows exponentially withn, we also give a separation algorithm that identifies violated inequalities in time\(\mathcalO(n^2 )\). A particular variation of the bin packing problem is a special case of our problem and can thus be solved in polynomial time.
CBR publishes Biography: An Interdisciplinary Quarterly, the premier scholarly journal in the field. Appearing continuously since 1968, Biography explores the theoretical, historical, generic, and cultural dimensions of life writing. CBR also sponsors the Biography Monograph series, a book publishing enterprise designed to further the study and practice of life writing in all its forms.
LLC's Multimedia Computer Labs consist of a Macintosh Lab, a PC Lab, and a Digital Language Lab. The PC Lab consists of 25 Windows XP PCs and the Macintosh Lab consists of 15 OS X Mac Minis and an additional 5 Windows XP PCs. All the computers have high speed access to the internet and are networked to a central file server for file serving across both labs. They are also configured with software for a host of languages, including non-Roman script Asian languages. Both labs are equipped with a high speed printer and an LCD projection system. The two labs are available for drop-in use by students, and for class sessions. The Digital Language Lab, consisting of 12 Windows XP PCs, is available for drop-in use by students specifically for language audio listening and voice recording. In addition to the Digital Language Lab, the LLC distributes audio course materials to students on CD. 041b061a72